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stringlengths 40
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stringlengths 17
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| label
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|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
dotnet/runtime
| 66,398 |
Reenable compiler warning 4244 under coreclr/
|
Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
AaronRobinsonMSFT
| 2022-03-09T15:46:00Z | 2022-03-10T01:12:51Z |
763936ed098deaa1588935f17d7cc0a07c27c3fa
|
b71eba8b3a74fa6282dc1526e68abbd26f3e385f
|
Reenable compiler warning 4244 under coreclr/. Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
./src/tests/GC/API/GCHandleCollector/CtorsAndProperties.csproj
|
<Project Sdk="Microsoft.NET.Sdk">
<PropertyGroup>
<OutputType>Exe</OutputType>
<CLRTestPriority>1</CLRTestPriority>
</PropertyGroup>
<PropertyGroup>
<!-- Set to 'Full' if the Debug? column is marked in the spreadsheet. Leave blank otherwise. -->
<DebugType>PdbOnly</DebugType>
</PropertyGroup>
<ItemGroup>
<Compile Include="CtorsAndProperties.cs" />
</ItemGroup>
</Project>
|
<Project Sdk="Microsoft.NET.Sdk">
<PropertyGroup>
<OutputType>Exe</OutputType>
<CLRTestPriority>1</CLRTestPriority>
</PropertyGroup>
<PropertyGroup>
<!-- Set to 'Full' if the Debug? column is marked in the spreadsheet. Leave blank otherwise. -->
<DebugType>PdbOnly</DebugType>
</PropertyGroup>
<ItemGroup>
<Compile Include="CtorsAndProperties.cs" />
</ItemGroup>
</Project>
| -1 |
dotnet/runtime
| 66,398 |
Reenable compiler warning 4244 under coreclr/
|
Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
AaronRobinsonMSFT
| 2022-03-09T15:46:00Z | 2022-03-10T01:12:51Z |
763936ed098deaa1588935f17d7cc0a07c27c3fa
|
b71eba8b3a74fa6282dc1526e68abbd26f3e385f
|
Reenable compiler warning 4244 under coreclr/. Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
./src/tests/JIT/jit64/mcc/interop/native_i0s.cpp
|
// Copyright (c) Microsoft. All rights reserved.
// Licensed under the MIT license. See LICENSE file in the project root for full license information.
#include "native.h"
struct MyValueType {
int count;
__int64 sum;
double average;
__int64 dummy1;
double dummy2;
};
MCC_API MyValueType WINAPI sum(
unsigned __int64 a01, unsigned __int64 a02, unsigned __int64 a03,
unsigned __int64 a04, unsigned __int64 a05, unsigned __int64 a06,
unsigned __int64 a07, unsigned __int64 a08, unsigned __int64 a09,
unsigned __int64 a10, unsigned __int64 a11, unsigned __int64 a12) {
MyValueType result;
result.sum = static_cast<__int64>(a01 + a02 + a03 + a04 + a05 + a06 + a07 + a08 + a09 + a10 + a11 + a12);
result.count = 12;
result.average = (double)result.sum / result.count;
result.dummy1 = result.sum;
result.dummy2 = result.average;
return result;
}
|
// Copyright (c) Microsoft. All rights reserved.
// Licensed under the MIT license. See LICENSE file in the project root for full license information.
#include "native.h"
struct MyValueType {
int count;
__int64 sum;
double average;
__int64 dummy1;
double dummy2;
};
MCC_API MyValueType WINAPI sum(
unsigned __int64 a01, unsigned __int64 a02, unsigned __int64 a03,
unsigned __int64 a04, unsigned __int64 a05, unsigned __int64 a06,
unsigned __int64 a07, unsigned __int64 a08, unsigned __int64 a09,
unsigned __int64 a10, unsigned __int64 a11, unsigned __int64 a12) {
MyValueType result;
result.sum = static_cast<__int64>(a01 + a02 + a03 + a04 + a05 + a06 + a07 + a08 + a09 + a10 + a11 + a12);
result.count = 12;
result.average = (double)result.sum / result.count;
result.dummy1 = result.sum;
result.dummy2 = result.average;
return result;
}
| -1 |
dotnet/runtime
| 66,398 |
Reenable compiler warning 4244 under coreclr/
|
Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
AaronRobinsonMSFT
| 2022-03-09T15:46:00Z | 2022-03-10T01:12:51Z |
763936ed098deaa1588935f17d7cc0a07c27c3fa
|
b71eba8b3a74fa6282dc1526e68abbd26f3e385f
|
Reenable compiler warning 4244 under coreclr/. Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
./src/tests/Loader/classloader/DefaultInterfaceMethods/constrainedcall/constrained3_gm.ilproj
|
<Project Sdk="Microsoft.NET.Sdk.IL">
<PropertyGroup>
<OutputType>Exe</OutputType>
</PropertyGroup>
<ItemGroup>
<Compile Include="constrained3_gm.il" />
</ItemGroup>
</Project>
|
<Project Sdk="Microsoft.NET.Sdk.IL">
<PropertyGroup>
<OutputType>Exe</OutputType>
</PropertyGroup>
<ItemGroup>
<Compile Include="constrained3_gm.il" />
</ItemGroup>
</Project>
| -1 |
dotnet/runtime
| 66,398 |
Reenable compiler warning 4244 under coreclr/
|
Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
AaronRobinsonMSFT
| 2022-03-09T15:46:00Z | 2022-03-10T01:12:51Z |
763936ed098deaa1588935f17d7cc0a07c27c3fa
|
b71eba8b3a74fa6282dc1526e68abbd26f3e385f
|
Reenable compiler warning 4244 under coreclr/. Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
./src/mono/wasm/debugger/DebuggerTestSuite/SteppingTests.cs
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
using System;
using System.Linq;
using System.Threading.Tasks;
using Newtonsoft.Json.Linq;
using Xunit;
namespace DebuggerTests
{
public class SteppingTests : DebuggerTestBase
{
[Fact]
public async Task TrivalStepping()
{
var bp = await SetBreakpoint("dotnet://debugger-test.dll/debugger-test.cs", 10, 8);
await EvaluateAndCheck(
"window.setTimeout(function() { invoke_add(); }, 1);",
"dotnet://debugger-test.dll/debugger-test.cs", 10, 8,
"IntAdd",
wait_for_event_fn: (pause_location) =>
{
//make sure we're on the right bp
Assert.Equal(bp.Value["breakpointId"]?.ToString(), pause_location["hitBreakpoints"]?[0]?.Value<string>());
var top_frame = pause_location["callFrames"][0];
CheckLocation("dotnet://debugger-test.dll/debugger-test.cs", 8, 4, scripts, top_frame["functionLocation"]);
return Task.CompletedTask;
}
);
await StepAndCheck(StepKind.Over, "dotnet://debugger-test.dll/debugger-test.cs", 11, 8, "IntAdd",
wait_for_event_fn: (pause_location) =>
{
var top_frame = pause_location["callFrames"][0];
CheckLocation("dotnet://debugger-test.dll/debugger-test.cs", 8, 4, scripts, top_frame["functionLocation"]);
return Task.CompletedTask;
}
);
}
[Fact]
public async Task InspectLocalsDuringStepping()
{
var debugger_test_loc = "dotnet://debugger-test.dll/debugger-test.cs";
await SetBreakpoint(debugger_test_loc, 10, 8);
await EvaluateAndCheck(
"window.setTimeout(function() { invoke_add(); }, 1);",
debugger_test_loc, 10, 8, "IntAdd",
locals_fn: async (locals) =>
{
CheckNumber(locals, "a", 10);
CheckNumber(locals, "b", 20);
CheckNumber(locals, "c", 30);
CheckNumber(locals, "d", 0);
CheckNumber(locals, "e", 0);
await Task.CompletedTask;
}
);
await StepAndCheck(StepKind.Over, debugger_test_loc, 11, 8, "IntAdd",
locals_fn: async (locals) =>
{
CheckNumber(locals, "a", 10);
CheckNumber(locals, "b", 20);
CheckNumber(locals, "c", 30);
CheckNumber(locals, "d", 50);
CheckNumber(locals, "e", 0);
await Task.CompletedTask;
}
);
//step and get locals
await StepAndCheck(StepKind.Over, debugger_test_loc, 12, 8, "IntAdd",
locals_fn: async (locals) =>
{
CheckNumber(locals, "a", 10);
CheckNumber(locals, "b", 20);
CheckNumber(locals, "c", 30);
CheckNumber(locals, "d", 50);
CheckNumber(locals, "e", 60);
await Task.CompletedTask;
}
);
}
[Theory]
[InlineData(false)]
[InlineData(true)]
public async Task InspectLocalsInPreviousFramesDuringSteppingIn2(bool use_cfo)
{
UseCallFunctionOnBeforeGetProperties = use_cfo;
var dep_cs_loc = "dotnet://debugger-test.dll/dependency.cs";
await SetBreakpoint(dep_cs_loc, 35, 8);
var debugger_test_loc = "dotnet://debugger-test.dll/debugger-test.cs";
// Will stop in Complex.DoEvenMoreStuff
var pause_location = await EvaluateAndCheck(
"window.setTimeout(function() { invoke_use_complex (); }, 1);",
dep_cs_loc, 35, 8, "DoEvenMoreStuff",
locals_fn: async (locals) =>
{
Assert.Single(locals);
await CheckObject(locals, "this", "Simple.Complex");
}
);
var props = await GetObjectOnFrame(pause_location["callFrames"][0], "this");
Assert.Equal(4, props.Count());
CheckNumber(props, "A", 10);
await CheckString(props, "B", "xx");
await CheckString(props, "c", "20_xx");
// Check UseComplex frame
var locals_m1 = await GetLocalsForFrame(pause_location["callFrames"][3], debugger_test_loc, 23, 8, "UseComplex");
Assert.Equal(7, locals_m1.Count());
CheckNumber(locals_m1, "a", 10);
CheckNumber(locals_m1, "b", 20);
await CheckObject(locals_m1, "complex", "Simple.Complex");
CheckNumber(locals_m1, "c", 30);
CheckNumber(locals_m1, "d", 50);
CheckNumber(locals_m1, "e", 60);
CheckNumber(locals_m1, "f", 0);
props = await GetObjectOnFrame(pause_location["callFrames"][3], "complex");
Assert.Equal(4, props.Count());
CheckNumber(props, "A", 10);
await CheckString(props, "B", "xx");
await CheckString(props, "c", "20_xx");
pause_location = await StepAndCheck(StepKind.Over, dep_cs_loc, 25, 8, "DoStuff", times: 2);
// Check UseComplex frame again
locals_m1 = await GetLocalsForFrame(pause_location["callFrames"][1], debugger_test_loc, 23, 8, "UseComplex");
Assert.Equal(7, locals_m1.Count());
CheckNumber(locals_m1, "a", 10);
CheckNumber(locals_m1, "b", 20);
await CheckObject(locals_m1, "complex", "Simple.Complex");
CheckNumber(locals_m1, "c", 30);
CheckNumber(locals_m1, "d", 50);
CheckNumber(locals_m1, "e", 60);
CheckNumber(locals_m1, "f", 0);
props = await GetObjectOnFrame(pause_location["callFrames"][1], "complex");
Assert.Equal(4, props.Count());
CheckNumber(props, "A", 10);
await CheckString(props, "B", "xx");
await CheckString(props, "c", "20_xx");
}
[Theory]
[InlineData(false)]
[InlineData(true)]
public async Task InspectLocalsInPreviousFramesDuringSteppingIn(bool use_cfo)
{
UseCallFunctionOnBeforeGetProperties = use_cfo;
var debugger_test_loc = "dotnet://debugger-test.dll/debugger-test.cs";
await SetBreakpoint(debugger_test_loc, 111, 12);
// Will stop in InnerMethod
var wait_res = await EvaluateAndCheck(
"window.setTimeout(function() { invoke_outer_method(); }, 1);",
debugger_test_loc, 111, 12, "InnerMethod",
locals_fn: async (locals) =>
{
Assert.Equal(4, locals.Count());
CheckNumber(locals, "i", 5);
CheckNumber(locals, "j", 24);
await CheckString(locals, "foo_str", "foo");
await CheckObject(locals, "this", "Math.NestedInMath");
await Task.CompletedTask;
}
);
var this_props = await GetObjectOnFrame(wait_res["callFrames"][0], "this");
Assert.Equal(2, this_props.Count());
await CheckObject(this_props, "m", "Math");
await CheckValueType(this_props, "SimpleStructProperty", "Math.SimpleStruct");
var ss_props = await GetObjectOnLocals(this_props, "SimpleStructProperty");
var dt = new DateTime(2020, 1, 2, 3, 4, 5);
await CheckProps(ss_props, new
{
dt = TDateTime(dt),
gs = TValueType("Math.GenericStruct<System.DateTime>")
}, "ss_props");
// Check OuterMethod frame
var locals_m1 = await GetLocalsForFrame(wait_res["callFrames"][1], debugger_test_loc, 87, 8, "OuterMethod");
Assert.Equal(5, locals_m1.Count());
// FIXME: Failing test CheckNumber (locals_m1, "i", 5);
// FIXME: Failing test CheckString (locals_m1, "text", "Hello");
CheckNumber(locals_m1, "new_i", 0);
CheckNumber(locals_m1, "k", 0);
await CheckObject(locals_m1, "nim", "Math.NestedInMath");
// step back into OuterMethod
await StepAndCheck(StepKind.Over, debugger_test_loc, 91, 8, "OuterMethod", times: 6,
locals_fn: async (locals) =>
{
Assert.Equal(5, locals.Count());
// FIXME: Failing test CheckNumber (locals_m1, "i", 5);
await CheckString(locals, "text", "Hello");
// FIXME: Failing test CheckNumber (locals, "new_i", 24);
CheckNumber(locals, "k", 19);
await CheckObject(locals, "nim", "Math.NestedInMath");
}
);
//await StepAndCheck (StepKind.Over, "dotnet://debugger-test.dll/debugger-test.cs", 81, 2, "OuterMethod", times: 2);
// step into InnerMethod2
await StepAndCheck(StepKind.Into, "dotnet://debugger-test.dll/debugger-test.cs", 96, 4, "InnerMethod2",
locals_fn: async (locals) =>
{
Assert.Equal(3, locals.Count());
await CheckString(locals, "s", "test string");
//out var: CheckNumber (locals, "k", 0);
CheckNumber(locals, "i", 24);
await Task.CompletedTask;
}
);
await StepAndCheck(StepKind.Over, "dotnet://debugger-test.dll/debugger-test.cs", 100, 4, "InnerMethod2", times: 4,
locals_fn: async (locals) =>
{
Assert.Equal(3, locals.Count());
await CheckString(locals, "s", "test string");
// FIXME: Failing test CheckNumber (locals, "k", 34);
CheckNumber(locals, "i", 24);
await Task.CompletedTask;
}
);
await StepAndCheck(StepKind.Over, "dotnet://debugger-test.dll/debugger-test.cs", 92, 8, "OuterMethod", times: 1,
locals_fn: async (locals) =>
{
Assert.Equal(5, locals.Count());
await CheckString(locals, "text", "Hello");
// FIXME: failing test CheckNumber (locals, "i", 5);
CheckNumber(locals, "new_i", 22);
CheckNumber(locals, "k", 34);
await CheckObject(locals, "nim", "Math.NestedInMath");
}
);
}
[Fact]
public async Task InspectLocalsDuringSteppingIn()
{
await SetBreakpoint("dotnet://debugger-test.dll/debugger-test.cs", 86, 8);
await EvaluateAndCheck("window.setTimeout(function() { invoke_outer_method(); }, 1);",
"dotnet://debugger-test.dll/debugger-test.cs", 86, 8, "OuterMethod",
locals_fn: async (locals) =>
{
Assert.Equal(5, locals.Count());
await CheckObject(locals, "nim", "Math.NestedInMath");
CheckNumber(locals, "i", 5);
CheckNumber(locals, "k", 0);
CheckNumber(locals, "new_i", 0);
await CheckString(locals, "text", null);
}
);
await StepAndCheck(StepKind.Over, "dotnet://debugger-test.dll/debugger-test.cs", 87, 8, "OuterMethod",
locals_fn: async (locals) =>
{
Assert.Equal(5, locals.Count());
await CheckObject(locals, "nim", "Math.NestedInMath");
// FIXME: Failing test CheckNumber (locals, "i", 5);
CheckNumber(locals, "k", 0);
CheckNumber(locals, "new_i", 0);
await CheckString(locals, "text", "Hello");
await Task.CompletedTask;
}
);
// Step into InnerMethod
await StepAndCheck(StepKind.Into, "dotnet://debugger-test.dll/debugger-test.cs", 105, 8, "InnerMethod");
await StepAndCheck(StepKind.Over, "dotnet://debugger-test.dll/debugger-test.cs", 110, 12, "InnerMethod", times: 5,
locals_fn: async (locals) =>
{
Assert.Equal(4, locals.Count());
CheckNumber(locals, "i", 5);
CheckNumber(locals, "j", 15);
await CheckString(locals, "foo_str", "foo");
await CheckObject(locals, "this", "Math.NestedInMath");
await Task.CompletedTask;
}
);
// Step back to OuterMethod
await StepAndCheck(StepKind.Over, "dotnet://debugger-test.dll/debugger-test.cs", 90, 8, "OuterMethod", times: 6,
locals_fn: async (locals) =>
{
Assert.Equal(5, locals.Count());
await CheckObject(locals, "nim", "Math.NestedInMath");
// FIXME: Failing test CheckNumber (locals, "i", 5);
CheckNumber(locals, "k", 0);
CheckNumber(locals, "new_i", 24);
await CheckString(locals, "text", "Hello");
}
);
}
[Theory]
[InlineData(false)]
[InlineData(true)]
public async Task InspectLocalsInAsyncMethods(bool use_cfo)
{
UseCallFunctionOnBeforeGetProperties = use_cfo;
var debugger_test_loc = "dotnet://debugger-test.dll/debugger-test.cs";
await SetBreakpoint(debugger_test_loc, 120, 12);
await SetBreakpoint(debugger_test_loc, 135, 12);
// Will stop in Asyncmethod0
var wait_res = await EvaluateAndCheck(
"window.setTimeout(function() { invoke_async_method_with_await(); }, 1);",
debugger_test_loc, 120, 12, "MoveNext", //FIXME:
locals_fn: async (locals) =>
{
Assert.Equal(4, locals.Count());
await CheckString(locals, "s", "string from js");
CheckNumber(locals, "i", 42);
await CheckString(locals, "local0", "value0");
await CheckObject(locals, "this", "Math.NestedInMath");
}
);
Console.WriteLine(wait_res);
#if false // Disabled for now, as we don't have proper async traces
var locals = await GetProperties(wait_res["callFrames"][2]["callFrameId"].Value<string>());
Assert.Equal(4, locals.Count());
await CheckString(locals, "ls", "string from jstest").ConfigureAwait(false);
CheckNumber(locals, "li", 52);
#endif
// TODO: previous frames have async machinery details, so no point checking that right now
var pause_loc = await SendCommandAndCheck(null, "Debugger.resume", debugger_test_loc, 135, 12, /*FIXME: "AsyncMethodNoReturn"*/ "MoveNext",
locals_fn: async (locals) =>
{
Assert.Equal(4, locals.Count());
await CheckString(locals, "str", "AsyncMethodNoReturn's local");
await CheckObject(locals, "this", "Math.NestedInMath");
//FIXME: check fields
await CheckValueType(locals, "ss", "Math.SimpleStruct");
await CheckArray(locals, "ss_arr", "Math.SimpleStruct[]", "Math.SimpleStruct[0]");
// TODO: struct fields
await Task.CompletedTask;
}
);
var this_props = await GetObjectOnFrame(pause_loc["callFrames"][0], "this");
Assert.Equal(2, this_props.Count());
await CheckObject(this_props, "m", "Math");
await CheckValueType(this_props, "SimpleStructProperty", "Math.SimpleStruct");
// TODO: Check `this` properties
}
[Theory]
[InlineData(false)]
[InlineData(true)]
public async Task InspectValueTypeMethodArgsWhileStepping(bool use_cfo)
{
UseCallFunctionOnBeforeGetProperties = use_cfo;
var debugger_test_loc = "dotnet://debugger-test.dll/debugger-valuetypes-test.cs";
await SetBreakpoint(debugger_test_loc, 36, 12);
var pause_location = await EvaluateAndCheck(
"window.setTimeout(function() { invoke_static_method ('[debugger-test] DebuggerTests.ValueTypesTest:TestStructsAsMethodArgs'); }, 1);",
debugger_test_loc, 36, 12, "MethodWithStructArgs");
var locals = await GetProperties(pause_location["callFrames"][0]["callFrameId"].Value<string>());
{
Assert.Equal(3, locals.Count());
await CheckString(locals, "label", "TestStructsAsMethodArgs#label");
await CheckValueType(locals, "ss_arg", "DebuggerTests.ValueTypesTest.SimpleStruct");
CheckNumber(locals, "x", 3);
}
var dt = new DateTime(2025, 6, 7, 8, 10, 11);
var ss_local_as_ss_arg = new
{
V = TGetter("V"),
str_member = TString("ss_local#SimpleStruct#string#0#SimpleStruct#str_member"),
dt = TDateTime(dt),
gs = TValueType("DebuggerTests.ValueTypesTest.GenericStruct<System.DateTime>"),
Kind = TEnum("System.DateTimeKind", "Local")
};
var ss_local_gs = new
{
StringField = TString("ss_local#SimpleStruct#string#0#SimpleStruct#gs#StringField"),
List = TObject("System.Collections.Generic.List<System.DateTime>", description: "Count = 1"),
Options = TEnum("DebuggerTests.Options", "Option1")
};
// Check ss_arg's properties
var ss_arg_props = await GetObjectOnFrame(pause_location["callFrames"][0], "ss_arg");
await CheckProps(ss_arg_props, ss_local_as_ss_arg, "ss_arg");
var res = await InvokeGetter(GetAndAssertObjectWithName(locals, "ss_arg"), "V");
await CheckValue(res.Value["result"], TNumber(0xDEADBEEF + (uint)dt.Month), "ss_arg#V");
{
// Check ss_local.gs
await CompareObjectPropertiesFor(ss_arg_props, "gs", ss_local_gs);
}
pause_location = await StepAndCheck(StepKind.Over, debugger_test_loc, 40, 8, "MethodWithStructArgs", times: 4,
locals_fn: async (l) => { /* non-null to make sure that locals get fetched */ await Task.CompletedTask; });
locals = await GetProperties(pause_location["callFrames"][0]["callFrameId"].Value<string>());
{
Assert.Equal(3, locals.Count());
await CheckString(locals, "label", "TestStructsAsMethodArgs#label");
await CheckValueType(locals, "ss_arg", "DebuggerTests.ValueTypesTest.SimpleStruct");
CheckNumber(locals, "x", 3);
}
var ss_arg_updated = new
{
V = TGetter("V"),
str_member = TString("ValueTypesTest#MethodWithStructArgs#updated#ss_arg#str_member"),
dt = TDateTime(dt),
gs = TValueType("DebuggerTests.ValueTypesTest.GenericStruct<System.DateTime>"),
Kind = TEnum("System.DateTimeKind", "Utc")
};
ss_arg_props = await GetObjectOnFrame(pause_location["callFrames"][0], "ss_arg");
await CheckProps(ss_arg_props, ss_arg_updated, "ss_arg");
res = await InvokeGetter(GetAndAssertObjectWithName(locals, "ss_arg"), "V");
await CheckValue(res.Value["result"], TNumber(0xDEADBEEF + (uint)dt.Month), "ss_arg#V");
{
// Check ss_local.gs
await CompareObjectPropertiesFor(ss_arg_props, "gs", new
{
StringField = TString("ValueTypesTest#MethodWithStructArgs#updated#gs#StringField#3"),
List = TObject("System.Collections.Generic.List<System.DateTime>", description: "Count = 1"),
Options = TEnum("DebuggerTests.Options", "Option1")
});
}
// Check locals on previous frame, same as earlier in this test
ss_arg_props = await GetObjectOnFrame(pause_location["callFrames"][1], "ss_local");
await CheckProps(ss_arg_props, ss_local_as_ss_arg, "ss_local");
{
// Check ss_local.dt
await CheckDateTime(ss_arg_props, "dt", dt);
// Check ss_local.gs
var gs_props = await GetObjectOnLocals(ss_arg_props, "gs");
await CheckString(gs_props, "StringField", "ss_local#SimpleStruct#string#0#SimpleStruct#gs#StringField");
await CheckObject(gs_props, "List", "System.Collections.Generic.List<System.DateTime>", description: "Count = 1");
}
// ----------- Step back to the caller ---------
pause_location = await StepAndCheck(StepKind.Over, debugger_test_loc, 30, 12, "TestStructsAsMethodArgs",
times: 1, locals_fn: async (l) => { /* non-null to make sure that locals get fetched */ await Task.CompletedTask; });
locals = await GetProperties(pause_location["callFrames"][0]["callFrameId"].Value<string>());
await CheckProps(locals, new
{
ss_local = TValueType("DebuggerTests.ValueTypesTest.SimpleStruct"),
ss_ret = TValueType("DebuggerTests.ValueTypesTest.SimpleStruct")
},
"locals#0");
ss_arg_props = await GetObjectOnFrame(pause_location["callFrames"][0], "ss_local");
await CheckProps(ss_arg_props, ss_local_as_ss_arg, "ss_local");
{
// Check ss_local.gs
await CompareObjectPropertiesFor(ss_arg_props, "gs", ss_local_gs, label: "ss_local_gs");
}
// FIXME: check ss_local.gs.List's members
}
[Fact]
public async Task CheckUpdatedValueTypeFieldsOnResume()
{
var debugger_test_loc = "dotnet://debugger-test.dll/debugger-valuetypes-test.cs";
var lines = new[] { 205, 208 };
await SetBreakpoint(debugger_test_loc, lines[0], 12);
await SetBreakpoint(debugger_test_loc, lines[1], 12);
var pause_location = await EvaluateAndCheck(
"window.setTimeout(function() { invoke_static_method ('[debugger-test] DebuggerTests.ValueTypesTest:MethodUpdatingValueTypeMembers'); }, 1);",
debugger_test_loc, lines[0], 12, "MethodUpdatingValueTypeMembers");
await CheckLocals(pause_location, new DateTime(1, 2, 3, 4, 5, 6), new DateTime(4, 5, 6, 7, 8, 9));
// Resume
pause_location = await SendCommandAndCheck(JObject.FromObject(new { }), "Debugger.resume", debugger_test_loc, lines[1], 12, "MethodUpdatingValueTypeMembers");
await CheckLocals(pause_location, new DateTime(9, 8, 7, 6, 5, 4), new DateTime(5, 1, 3, 7, 9, 10));
async Task CheckLocals(JToken pause_location, DateTime obj_dt, DateTime vt_dt)
{
var locals = await GetProperties(pause_location["callFrames"][0]["callFrameId"].Value<string>());
await CheckProps(locals, new
{
obj = TObject("DebuggerTests.ClassForToStringTests"),
vt = TObject("DebuggerTests.StructForToStringTests")
}, "locals");
var obj_props = await GetObjectOnLocals(locals, "obj");
{
await CheckProps(obj_props, new
{
DT = TDateTime(obj_dt)
}, "locals#obj.DT", num_fields: 5);
}
var vt_props = await GetObjectOnLocals(locals, "vt");
{
await CheckProps(vt_props, new
{
DT = TDateTime(vt_dt)
}, "locals#obj.DT", num_fields: 5);
}
}
}
[Fact]
public async Task CheckUpdatedValueTypeLocalsOnResumeAsync()
{
var debugger_test_loc = "dotnet://debugger-test.dll/debugger-valuetypes-test.cs";
var lines = new[] { 214, 216 };
await SetBreakpoint(debugger_test_loc, lines[0], 12);
await SetBreakpoint(debugger_test_loc, lines[1], 12);
var pause_location = await EvaluateAndCheck(
"window.setTimeout(function() { invoke_static_method ('[debugger-test] DebuggerTests.ValueTypesTest:MethodUpdatingValueTypeLocalsAsync'); }, 1);",
debugger_test_loc, lines[0], 12, "MoveNext");
var dt = new DateTime(1, 2, 3, 4, 5, 6);
var locals = await GetProperties(pause_location["callFrames"][0]["callFrameId"].Value<string>());
await CheckDateTime(locals, "dt", dt);
// Resume
dt = new DateTime(9, 8, 7, 6, 5, 4);
pause_location = await SendCommandAndCheck(JObject.FromObject(new { }), "Debugger.resume", debugger_test_loc, lines[1], 12, "MoveNext");
locals = await GetProperties(pause_location["callFrames"][0]["callFrameId"].Value<string>());
await CheckDateTime(locals, "dt", dt);
}
[Fact]
public async Task CheckUpdatedVTArrayMembersOnResume()
{
var debugger_test_loc = "dotnet://debugger-test.dll/debugger-valuetypes-test.cs";
var lines = new[] { 225, 227 };
await SetBreakpoint(debugger_test_loc, lines[0], 12);
await SetBreakpoint(debugger_test_loc, lines[1], 12);
var dt = new DateTime(1, 2, 3, 4, 5, 6);
var pause_location = await EvaluateAndCheck(
"window.setTimeout(function() { invoke_static_method ('[debugger-test] DebuggerTests.ValueTypesTest:MethodUpdatingVTArrayMembers'); }, 1);",
debugger_test_loc, lines[0], 12, "MethodUpdatingVTArrayMembers");
await CheckArrayElements(pause_location, dt);
// Resume
dt = new DateTime(9, 8, 7, 6, 5, 4);
pause_location = await SendCommandAndCheck(JObject.FromObject(new { }), "Debugger.resume", debugger_test_loc, lines[1], 12, "MethodUpdatingVTArrayMembers");
await CheckArrayElements(pause_location, dt);
async Task CheckArrayElements(JToken pause_location, DateTime dt)
{
var locals = await GetProperties(pause_location["callFrames"][0]["callFrameId"].Value<string>());
await CheckProps(locals, new
{
ssta = TArray("DebuggerTests.StructForToStringTests[]", "DebuggerTests.StructForToStringTests[1]")
}, "locals");
var ssta = await GetObjectOnLocals(locals, "ssta");
var sst0 = await GetObjectOnLocals(ssta, "0");
await CheckProps(sst0, new
{
DT = TDateTime(dt)
}, "dta [0]", num_fields: 5);
}
}
[Fact]
public async Task SteppingIntoMscorlib()
{
var bp = await SetBreakpoint("dotnet://debugger-test.dll/debugger-test.cs", 83, 8);
var pause_location = await EvaluateAndCheck(
"window.setTimeout(function() { invoke_static_method ('[debugger-test] Math:OuterMethod'); }, 1);",
"dotnet://debugger-test.dll/debugger-test.cs", 83, 8,
"OuterMethod");
//make sure we're on the right bp
Assert.Equal(bp.Value["breakpointId"]?.ToString(), pause_location["hitBreakpoints"]?[0]?.Value<string>());
pause_location = await SendCommandAndCheck(null, $"Debugger.stepInto", null, -1, -1, null);
var top_frame = pause_location["callFrames"][0];
AssertEqual("WriteLine", top_frame["functionName"]?.Value<string>(), "Expected to be in WriteLine method");
var script_id = top_frame["functionLocation"]["scriptId"].Value<string>();
Assert.Matches("^dotnet://(mscorlib|System\\.Console)\\.dll/Console.cs", scripts[script_id]);
}
[Fact]
public async Task CreateGoodBreakpointAndHitAndRemoveAndDontHit()
{
var bp = await SetBreakpoint("dotnet://debugger-test.dll/debugger-test.cs", 10, 8);
var bp2 = await SetBreakpoint("dotnet://debugger-test.dll/debugger-test.cs", 12, 8);
var pause_location = await EvaluateAndCheck(
"window.setTimeout(function() { invoke_add(); invoke_add()}, 1);",
"dotnet://debugger-test.dll/debugger-test.cs", 10, 8,
"IntAdd");
Assert.Equal("other", pause_location["reason"]?.Value<string>());
Assert.Equal(bp.Value["breakpointId"]?.ToString(), pause_location["hitBreakpoints"]?[0]?.Value<string>());
await RemoveBreakpoint(bp.Value["breakpointId"]?.ToString());
await SendCommandAndCheck(JObject.FromObject(new { }), "Debugger.resume", "dotnet://debugger-test.dll/debugger-test.cs", 12, 8, "IntAdd");
await SendCommandAndCheck(JObject.FromObject(new { }), "Debugger.resume", "dotnet://debugger-test.dll/debugger-test.cs", 12, 8, "IntAdd");
}
[Fact]
public async Task CreateGoodBreakpointAndHitAndRemoveTwice()
{
var bp = await SetBreakpoint("dotnet://debugger-test.dll/debugger-test.cs", 10, 8);
var bp2 = await SetBreakpoint("dotnet://debugger-test.dll/debugger-test.cs", 12, 8);
var pause_location = await EvaluateAndCheck(
"window.setTimeout(function() { invoke_add(); invoke_add()}, 1);",
"dotnet://debugger-test.dll/debugger-test.cs", 10, 8,
"IntAdd");
Assert.Equal("other", pause_location["reason"]?.Value<string>());
Assert.Equal(bp.Value["breakpointId"]?.ToString(), pause_location["hitBreakpoints"]?[0]?.Value<string>());
await RemoveBreakpoint(bp.Value["breakpointId"]?.ToString());
await RemoveBreakpoint(bp.Value["breakpointId"]?.ToString());
}
[Fact]
public async Task CreateGoodBreakpointAndHitAndRemoveAndDontHitAndCreateAgainAndHit()
{
var bp = await SetBreakpoint("dotnet://debugger-test.dll/debugger-test.cs", 10, 8);
var bp2 = await SetBreakpoint("dotnet://debugger-test.dll/debugger-test.cs", 12, 8);
var pause_location = await EvaluateAndCheck(
"window.setTimeout(function() { invoke_add(); invoke_add(); invoke_add(); invoke_add()}, 1);",
"dotnet://debugger-test.dll/debugger-test.cs", 10, 8,
"IntAdd");
Assert.Equal("other", pause_location["reason"]?.Value<string>());
Assert.Equal(bp.Value["breakpointId"]?.ToString(), pause_location["hitBreakpoints"]?[0]?.Value<string>());
await RemoveBreakpoint(bp.Value["breakpointId"]?.ToString());
await SendCommandAndCheck(JObject.FromObject(new { }), "Debugger.resume", "dotnet://debugger-test.dll/debugger-test.cs", 12, 8, "IntAdd");
await SendCommandAndCheck(JObject.FromObject(new { }), "Debugger.resume", "dotnet://debugger-test.dll/debugger-test.cs", 12, 8, "IntAdd");
bp = await SetBreakpoint("dotnet://debugger-test.dll/debugger-test.cs", 10, 8);
await SendCommandAndCheck(JObject.FromObject(new { }), "Debugger.resume", "dotnet://debugger-test.dll/debugger-test.cs", 10, 8, "IntAdd");
}
// [Fact]
//https://github.com/dotnet/runtime/issues/42421
public async Task BreakAfterAwaitThenStepOverTillBackToCaller()
{
var bp = await SetBreakpointInMethod("debugger-test.dll", "DebuggerTests.AsyncStepClass", "TestAsyncStepOut2", 2);
await EvaluateAndCheck(
"window.setTimeout(function() { invoke_static_method_async('[debugger-test] DebuggerTests.AsyncStepClass:TestAsyncStepOut'); }, 1);",
"dotnet://debugger-test.dll/debugger-async-step.cs", 21, 12,
"MoveNext");
await StepAndCheck(StepKind.Over, "dotnet://debugger-test.dll/debugger-async-step.cs", 23, 12, "MoveNext");
await StepAndCheck(StepKind.Over, "dotnet://debugger-test.dll/debugger-async-step.cs", 24, 8, "MoveNext");
await StepAndCheck(StepKind.Over, "dotnet://debugger-test.dll/debugger-async-step.cs", 15, 12, "MoveNext");
}
// [Fact]
//[ActiveIssue("https://github.com/dotnet/runtime/issues/42421")]
public async Task StepOutOfAsyncMethod()
{
string source_file = "dotnet://debugger-test.dll/debugger-async-step.cs";
await SetBreakpointInMethod("debugger-test.dll", "DebuggerTests.AsyncStepClass", "TestAsyncStepOut2", 2);
await EvaluateAndCheck(
"window.setTimeout(function() { invoke_static_method_async('[debugger-test] DebuggerTests.AsyncStepClass:TestAsyncStepOut'); }, 1);",
"dotnet://debugger-test.dll/debugger-async-step.cs", 21, 12,
"MoveNext");
await StepAndCheck(StepKind.Out, source_file, 15, 4, "TestAsyncStepOut");
}
[Fact]
public async Task ResumeOutOfAsyncMethodToAsyncCallerWithBreakpoint()
{
string source_file = "dotnet://debugger-test.dll/debugger-async-step.cs";
await SetBreakpointInMethod("debugger-test.dll", "DebuggerTests.AsyncStepClass", "TestAsyncStepOut2", 2);
await EvaluateAndCheck(
"window.setTimeout(function() { invoke_static_method_async('[debugger-test] DebuggerTests.AsyncStepClass:TestAsyncStepOut'); }, 1);",
"dotnet://debugger-test.dll/debugger-async-step.cs", 21, 12,
"MoveNext");
await SetBreakpointInMethod("debugger-test.dll", "DebuggerTests.AsyncStepClass", "TestAsyncStepOut", 2);
await SendCommandAndCheck(null, "Debugger.resume", source_file, 16, 8, "MoveNext");
}
[Fact]
public async Task StepOutOfNonAsyncMethod()
{
string source_file = "dotnet://debugger-test.dll/debugger-async-step.cs";
await SetBreakpointInMethod("debugger-test.dll", "DebuggerTests.AsyncStepClass", "OtherMethod0", 1);
await EvaluateAndCheck(
"window.setTimeout(function() { invoke_static_method_async('[debugger-test] DebuggerTests.AsyncStepClass:SimpleMethod'); }, 1);",
source_file, -1, -1,
"OtherMethod0");
await StepAndCheck(StepKind.Out, source_file, 29, 12, "SimpleMethod");
}
[Fact]
public async Task BreakOnAwaitThenStepOverToNextAwaitCall()
{
string source_file = "dotnet://debugger-test.dll/debugger-async-step.cs";
await SetBreakpointInMethod("debugger-test.dll", "DebuggerTests.AsyncStepClass", "MethodWithTwoAwaitsAsync", 2);
await EvaluateAndCheck(
"window.setTimeout(function() { invoke_static_method_async('[debugger-test] DebuggerTests.AsyncStepClass:StepOverTestAsync'); }, 1);",
"dotnet://debugger-test.dll/debugger-async-step.cs", 53, 12,
"MoveNext");
await StepAndCheck(StepKind.Over, source_file, 54, 12, "MoveNext");
}
[Fact]
public async Task BreakOnAwaitThenStepOverToNextLine()
{
string source_file = "dotnet://debugger-test.dll/debugger-async-step.cs";
await SetBreakpointInMethod("debugger-test.dll", "DebuggerTests.AsyncStepClass", "StepOverTestAsync", 1);
await EvaluateAndCheck(
"window.setTimeout(function() { invoke_static_method_async('[debugger-test] DebuggerTests.AsyncStepClass:StepOverTestAsync'); }, 1);",
"dotnet://debugger-test.dll/debugger-async-step.cs", 46, 12,
"MoveNext");
// BUG: chrome: not able to show any bp line indicator
await StepAndCheck(StepKind.Over, source_file, 47, 12, "MoveNext");
}
[Fact]
public async Task BreakOnAwaitThenResumeToNextBreakpoint()
{
string source_file = "dotnet://debugger-test.dll/debugger-async-step.cs";
await SetBreakpointInMethod("debugger-test.dll", "DebuggerTests.AsyncStepClass", "StepOverTestAsync", 1);
await SetBreakpointInMethod("debugger-test.dll", "DebuggerTests.AsyncStepClass", "StepOverTestAsync", 3);
await EvaluateAndCheck(
"window.setTimeout(function() { invoke_static_method_async('[debugger-test] DebuggerTests.AsyncStepClass:StepOverTestAsync'); }, 1);",
"dotnet://debugger-test.dll/debugger-async-step.cs", 46, 12,
"MoveNext");
await StepAndCheck(StepKind.Resume, source_file, 48, 8, "MoveNext");
}
[Fact]
public async Task BreakOnAwaitThenResumeToNextBreakpointAfterSecondAwaitInSameMethod()
{
string source_file = "dotnet://debugger-test.dll/debugger-async-step.cs";
await SetBreakpointInMethod("debugger-test.dll", "DebuggerTests.AsyncStepClass", "MethodWithTwoAwaitsAsync", 1);
await SetBreakpointInMethod("debugger-test.dll", "DebuggerTests.AsyncStepClass", "MethodWithTwoAwaitsAsync", 5);
await EvaluateAndCheck(
"window.setTimeout(function() { invoke_static_method_async('[debugger-test] DebuggerTests.AsyncStepClass:StepOverTestAsync'); }, 1);",
"dotnet://debugger-test.dll/debugger-async-step.cs", 52, 12,
"MoveNext");
await StepAndCheck(StepKind.Resume, source_file, 56, 12, "MoveNext");
}
[Fact]
public async Task BreakOnMethodCalledFromHiddenLine()
{
await SetBreakpointInMethod("debugger-test.dll", "HiddenSequencePointTest", "StepOverHiddenSP2", 0);
var pause_location = await EvaluateAndCheck(
"window.setTimeout(function() { invoke_static_method ('[debugger-test] HiddenSequencePointTest:StepOverHiddenSP'); }, 1);",
"dotnet://debugger-test.dll/debugger-test.cs", 546, 4,
"StepOverHiddenSP2");
// Check previous frame
var top_frame = pause_location["callFrames"][1];
Assert.Equal("StepOverHiddenSP", top_frame["functionName"].Value<string>());
Assert.Contains("debugger-test.cs", top_frame["url"].Value<string>());
CheckLocation("dotnet://debugger-test.dll/debugger-test.cs", 537, 8, scripts, top_frame["location"]);
}
[Fact]
public async Task StepOverHiddenLinesShouldResumeAtNextAvailableLineInTheMethod()
{
string source_loc = "dotnet://debugger-test.dll/debugger-test.cs";
await SetBreakpoint(source_loc, 537, 8);
await EvaluateAndCheck(
"window.setTimeout(function() { invoke_static_method ('[debugger-test] HiddenSequencePointTest:StepOverHiddenSP'); }, 1);",
"dotnet://debugger-test.dll/debugger-test.cs", 537, 8,
"StepOverHiddenSP");
await StepAndCheck(StepKind.Over, source_loc, 542, 8, "StepOverHiddenSP");
}
[Fact]
async Task StepOverHiddenLinesInMethodWithNoNextAvailableLineShouldResumeAtCallSite()
{
string source_loc = "dotnet://debugger-test.dll/debugger-test.cs";
await SetBreakpoint(source_loc, 552, 8);
await EvaluateAndCheck(
"window.setTimeout(function() { invoke_static_method ('[debugger-test] HiddenSequencePointTest:StepOverHiddenSP'); }, 1);",
"dotnet://debugger-test.dll/debugger-test.cs", 552, 8,
"MethodWithHiddenLinesAtTheEnd");
await StepAndCheck(StepKind.Over, source_loc, 544, 4, "StepOverHiddenSP");
}
// [Fact]
// Issue: https://github.com/dotnet/runtime/issues/42704
async Task BreakpointOnHiddenLineShouldStopAtEarliestNextAvailableLine()
{
await SetBreakpoint("dotnet://debugger-test.dll/debugger-test.cs", 539, 8);
await EvaluateAndCheck(
"window.setTimeout(function() { invoke_static_method ('[debugger-test] HiddenSequencePointTest:StepOverHiddenSP'); }, 1);",
"dotnet://debugger-test.dll/debugger-test.cs", 546, 4,
"StepOverHiddenSP2");
}
[Fact]
public async Task BreakpointOnHiddenLineOfMethodWithNoNextVisibleLineShouldNotPause()
{
await SetBreakpoint("dotnet://debugger-test.dll/debugger-test.cs", 554, 12);
string expression = "window.setTimeout(function() { invoke_static_method ('[debugger-test] HiddenSequencePointTest:StepOverHiddenSP'); }, 1);";
await cli.SendCommand($"Runtime.evaluate", JObject.FromObject(new { expression }), token);
Task pause_task = insp.WaitFor(Inspector.PAUSE);
Task t = await Task.WhenAny(pause_task, Task.Delay(2000));
Assert.True(t != pause_task, "Debugger unexpectedly paused");
}
[Fact]
public async Task SimpleStep_RegressionTest_49141()
{
await SetBreakpoint("dotnet://debugger-test.dll/debugger-test.cs", 674, 0);
string expression = "window.setTimeout(function() { invoke_static_method ('[debugger-test] Foo:RunBart'); }, 1);";
await EvaluateAndCheck(
expression,
"dotnet://debugger-test.dll/debugger-test.cs", 674, 12,
"Bart");
await StepAndCheck(StepKind.Over, "dotnet://debugger-test.dll/debugger-test.cs", 677, 8, "Bart");
await StepAndCheck(StepKind.Over, "dotnet://debugger-test.dll/debugger-test.cs", 678, 4, "Bart");
}
[Fact]
public async Task StepAndEvaluateExpression()
{
await SetBreakpoint("dotnet://debugger-test.dll/debugger-test.cs", 682, 0);
await EvaluateAndCheck(
"window.setTimeout(function() { invoke_static_method ('[debugger-test] Foo:RunBart'); }, 1);",
"dotnet://debugger-test.dll/debugger-test.cs", 682, 8,
"RunBart");
var pause_location = await StepAndCheck(StepKind.Into, "dotnet://debugger-test.dll/debugger-test.cs", 671, 4, "Bart");
var id = pause_location["callFrames"][0]["callFrameId"].Value<string>();
await EvaluateOnCallFrameAndCheck(id, ("this.Bar", TString("Same of something")));
pause_location = await StepAndCheck(StepKind.Into, "dotnet://debugger-test.dll/debugger-test.cs", 673, 8, "Bart");
id = pause_location["callFrames"][0]["callFrameId"].Value<string>();
await EvaluateOnCallFrameAndCheck(id, ("this.Bar", TString("Same of something")));
}
[Fact]
public async Task StepOverWithMoreThanOneCommandInSameLine()
{
await SetBreakpoint("dotnet://debugger-test.dll/debugger-test.cs", 693, 0);
string expression = "window.setTimeout(function() { invoke_static_method ('[debugger-test] Foo:RunBart'); }, 1);";
await EvaluateAndCheck(
expression,
"dotnet://debugger-test.dll/debugger-test.cs", 693, 8,
"OtherBar");
await StepAndCheck(StepKind.Over, "dotnet://debugger-test.dll/debugger-test.cs", 694, 8, "OtherBar");
await StepAndCheck(StepKind.Over, "dotnet://debugger-test.dll/debugger-test.cs", 696, 8, "OtherBar");
await StepAndCheck(StepKind.Over, "dotnet://debugger-test.dll/debugger-test.cs", 699, 8, "OtherBar");
await StepAndCheck(StepKind.Over, "dotnet://debugger-test.dll/debugger-test.cs", 701, 8, "OtherBar");
await StepAndCheck(StepKind.Over, "dotnet://debugger-test.dll/debugger-test.cs", 702, 4, "OtherBar");
}
[Fact]
public async Task StepOverWithMoreThanOneCommandInSameLineAsync()
{
await SetBreakpoint("dotnet://debugger-test.dll/debugger-test.cs", 710, 0);
string expression = "window.setTimeout(function() { invoke_static_method ('[debugger-test] Foo:RunBart'); }, 1);";
await EvaluateAndCheck(
expression,
"dotnet://debugger-test.dll/debugger-test.cs", 710, 8,
"MoveNext");
await StepAndCheck(StepKind.Over, "dotnet://debugger-test.dll/debugger-test.cs", 711, 8, "MoveNext");
await StepAndCheck(StepKind.Over, "dotnet://debugger-test.dll/debugger-test.cs", 713, 8, "MoveNext");
await StepAndCheck(StepKind.Over, "dotnet://debugger-test.dll/debugger-test.cs", 716, 8, "MoveNext");
await StepAndCheck(StepKind.Over, "dotnet://debugger-test.dll/debugger-test.cs", 718, 8, "MoveNext");
await StepAndCheck(StepKind.Over, "dotnet://debugger-test.dll/debugger-test.cs", 719, 8, "MoveNext");
await StepAndCheck(StepKind.Over, "dotnet://debugger-test.dll/debugger-test.cs", 720, 4, "MoveNext");
}
[Fact]
public async Task CheckResetFrameNumberForEachStep()
{
var bp_conditional = await SetBreakpointInMethod("debugger-test.dll", "SteppingInto", "MethodToStep", 1);
await EvaluateAndCheck(
"window.setTimeout(function() { invoke_static_method('[debugger-test] SteppingInto:MethodToStep'); }, 1);",
"dotnet://debugger-test.dll/debugger-test.cs",
bp_conditional.Value["locations"][0]["lineNumber"].Value<int>(),
bp_conditional.Value["locations"][0]["columnNumber"].Value<int>(),
"MethodToStep"
);
var pause_location = await StepAndCheck(StepKind.Into, "dotnet://debugger-test.dll/debugger-test.cs", 799, 4, "Increment");
pause_location = await StepAndCheck(StepKind.Over, "dotnet://debugger-test.dll/debugger-test.cs", 800, 8, "Increment");
Assert.Equal(pause_location["callFrames"][0]["callFrameId"], "dotnet:scope:1");
pause_location = await StepAndCheck(StepKind.Over, "dotnet://debugger-test.dll/debugger-test.cs", 801, 8, "Increment");
Assert.Equal(pause_location["callFrames"][0]["callFrameId"], "dotnet:scope:1");
pause_location = await StepAndCheck(StepKind.Over, "dotnet://debugger-test.dll/debugger-test.cs", 806, 8, "Increment");
Assert.Equal(pause_location["callFrames"][0]["callFrameId"], "dotnet:scope:1");
}
[Fact]
public async Task DebuggerHiddenIgnoreStepInto()
{
var pause_location = await SetBreakpointInMethod("debugger-test.dll", "DebuggerAttribute", "RunDebuggerHidden", 1);
await EvaluateAndCheck(
"window.setTimeout(function() { invoke_static_method('[debugger-test] DebuggerAttribute:RunDebuggerHidden'); }, 1);",
"dotnet://debugger-test.dll/debugger-test.cs",
pause_location.Value["locations"][0]["lineNumber"].Value<int>(),
pause_location.Value["locations"][0]["columnNumber"].Value<int>(),
"RunDebuggerHidden"
);
var step_into = await SendCommandAndCheck(null, $"Debugger.stepInto", null, -1, -1, null);
Assert.Equal(
step_into["callFrames"][0]["location"]["lineNumber"].Value<int>(),
pause_location.Value["locations"][0]["lineNumber"].Value<int>() + 1
);
}
[Theory]
[InlineData("Debugger.stepInto")]
[InlineData("Debugger.stepOver")]
public async Task DebuggerHiddenIgnoreStepUserBreakpoint(string steppingFunction)
{
var pause_location = await SetBreakpointInMethod("debugger-test.dll", "DebuggerAttribute", "RunDebuggerHidden", 1);
await EvaluateAndCheck(
"window.setTimeout(function() { invoke_static_method('[debugger-test] DebuggerAttribute:RunDebuggerHidden'); }, 1);",
"dotnet://debugger-test.dll/debugger-test.cs",
pause_location.Value["locations"][0]["lineNumber"].Value<int>(),
pause_location.Value["locations"][0]["columnNumber"].Value<int>(),
"RunDebuggerHidden"
);
// stepOver HiddenMethod:
var step_into1 = await SendCommandAndCheck(null, steppingFunction, null, -1, -1, null);
Assert.Equal(
pause_location.Value["locations"][0]["lineNumber"].Value<int>() + 1,
step_into1["callFrames"][0]["location"]["lineNumber"].Value<int>()
);
// freeze on HiddenMethodUserBreak:
var step_into2 = await SendCommandAndCheck(null, steppingFunction, null, -1, -1, null);
Assert.Equal(
pause_location.Value["locations"][0]["lineNumber"].Value<int>() + 1,
step_into2["callFrames"][0]["location"]["lineNumber"].Value<int>()
);
}
}
}
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
using System;
using System.Linq;
using System.Threading.Tasks;
using Newtonsoft.Json.Linq;
using Xunit;
namespace DebuggerTests
{
public class SteppingTests : DebuggerTestBase
{
[Fact]
public async Task TrivalStepping()
{
var bp = await SetBreakpoint("dotnet://debugger-test.dll/debugger-test.cs", 10, 8);
await EvaluateAndCheck(
"window.setTimeout(function() { invoke_add(); }, 1);",
"dotnet://debugger-test.dll/debugger-test.cs", 10, 8,
"IntAdd",
wait_for_event_fn: (pause_location) =>
{
//make sure we're on the right bp
Assert.Equal(bp.Value["breakpointId"]?.ToString(), pause_location["hitBreakpoints"]?[0]?.Value<string>());
var top_frame = pause_location["callFrames"][0];
CheckLocation("dotnet://debugger-test.dll/debugger-test.cs", 8, 4, scripts, top_frame["functionLocation"]);
return Task.CompletedTask;
}
);
await StepAndCheck(StepKind.Over, "dotnet://debugger-test.dll/debugger-test.cs", 11, 8, "IntAdd",
wait_for_event_fn: (pause_location) =>
{
var top_frame = pause_location["callFrames"][0];
CheckLocation("dotnet://debugger-test.dll/debugger-test.cs", 8, 4, scripts, top_frame["functionLocation"]);
return Task.CompletedTask;
}
);
}
[Fact]
public async Task InspectLocalsDuringStepping()
{
var debugger_test_loc = "dotnet://debugger-test.dll/debugger-test.cs";
await SetBreakpoint(debugger_test_loc, 10, 8);
await EvaluateAndCheck(
"window.setTimeout(function() { invoke_add(); }, 1);",
debugger_test_loc, 10, 8, "IntAdd",
locals_fn: async (locals) =>
{
CheckNumber(locals, "a", 10);
CheckNumber(locals, "b", 20);
CheckNumber(locals, "c", 30);
CheckNumber(locals, "d", 0);
CheckNumber(locals, "e", 0);
await Task.CompletedTask;
}
);
await StepAndCheck(StepKind.Over, debugger_test_loc, 11, 8, "IntAdd",
locals_fn: async (locals) =>
{
CheckNumber(locals, "a", 10);
CheckNumber(locals, "b", 20);
CheckNumber(locals, "c", 30);
CheckNumber(locals, "d", 50);
CheckNumber(locals, "e", 0);
await Task.CompletedTask;
}
);
//step and get locals
await StepAndCheck(StepKind.Over, debugger_test_loc, 12, 8, "IntAdd",
locals_fn: async (locals) =>
{
CheckNumber(locals, "a", 10);
CheckNumber(locals, "b", 20);
CheckNumber(locals, "c", 30);
CheckNumber(locals, "d", 50);
CheckNumber(locals, "e", 60);
await Task.CompletedTask;
}
);
}
[Theory]
[InlineData(false)]
[InlineData(true)]
public async Task InspectLocalsInPreviousFramesDuringSteppingIn2(bool use_cfo)
{
UseCallFunctionOnBeforeGetProperties = use_cfo;
var dep_cs_loc = "dotnet://debugger-test.dll/dependency.cs";
await SetBreakpoint(dep_cs_loc, 35, 8);
var debugger_test_loc = "dotnet://debugger-test.dll/debugger-test.cs";
// Will stop in Complex.DoEvenMoreStuff
var pause_location = await EvaluateAndCheck(
"window.setTimeout(function() { invoke_use_complex (); }, 1);",
dep_cs_loc, 35, 8, "DoEvenMoreStuff",
locals_fn: async (locals) =>
{
Assert.Single(locals);
await CheckObject(locals, "this", "Simple.Complex");
}
);
var props = await GetObjectOnFrame(pause_location["callFrames"][0], "this");
Assert.Equal(4, props.Count());
CheckNumber(props, "A", 10);
await CheckString(props, "B", "xx");
await CheckString(props, "c", "20_xx");
// Check UseComplex frame
var locals_m1 = await GetLocalsForFrame(pause_location["callFrames"][3], debugger_test_loc, 23, 8, "UseComplex");
Assert.Equal(7, locals_m1.Count());
CheckNumber(locals_m1, "a", 10);
CheckNumber(locals_m1, "b", 20);
await CheckObject(locals_m1, "complex", "Simple.Complex");
CheckNumber(locals_m1, "c", 30);
CheckNumber(locals_m1, "d", 50);
CheckNumber(locals_m1, "e", 60);
CheckNumber(locals_m1, "f", 0);
props = await GetObjectOnFrame(pause_location["callFrames"][3], "complex");
Assert.Equal(4, props.Count());
CheckNumber(props, "A", 10);
await CheckString(props, "B", "xx");
await CheckString(props, "c", "20_xx");
pause_location = await StepAndCheck(StepKind.Over, dep_cs_loc, 25, 8, "DoStuff", times: 2);
// Check UseComplex frame again
locals_m1 = await GetLocalsForFrame(pause_location["callFrames"][1], debugger_test_loc, 23, 8, "UseComplex");
Assert.Equal(7, locals_m1.Count());
CheckNumber(locals_m1, "a", 10);
CheckNumber(locals_m1, "b", 20);
await CheckObject(locals_m1, "complex", "Simple.Complex");
CheckNumber(locals_m1, "c", 30);
CheckNumber(locals_m1, "d", 50);
CheckNumber(locals_m1, "e", 60);
CheckNumber(locals_m1, "f", 0);
props = await GetObjectOnFrame(pause_location["callFrames"][1], "complex");
Assert.Equal(4, props.Count());
CheckNumber(props, "A", 10);
await CheckString(props, "B", "xx");
await CheckString(props, "c", "20_xx");
}
[Theory]
[InlineData(false)]
[InlineData(true)]
public async Task InspectLocalsInPreviousFramesDuringSteppingIn(bool use_cfo)
{
UseCallFunctionOnBeforeGetProperties = use_cfo;
var debugger_test_loc = "dotnet://debugger-test.dll/debugger-test.cs";
await SetBreakpoint(debugger_test_loc, 111, 12);
// Will stop in InnerMethod
var wait_res = await EvaluateAndCheck(
"window.setTimeout(function() { invoke_outer_method(); }, 1);",
debugger_test_loc, 111, 12, "InnerMethod",
locals_fn: async (locals) =>
{
Assert.Equal(4, locals.Count());
CheckNumber(locals, "i", 5);
CheckNumber(locals, "j", 24);
await CheckString(locals, "foo_str", "foo");
await CheckObject(locals, "this", "Math.NestedInMath");
await Task.CompletedTask;
}
);
var this_props = await GetObjectOnFrame(wait_res["callFrames"][0], "this");
Assert.Equal(2, this_props.Count());
await CheckObject(this_props, "m", "Math");
await CheckValueType(this_props, "SimpleStructProperty", "Math.SimpleStruct");
var ss_props = await GetObjectOnLocals(this_props, "SimpleStructProperty");
var dt = new DateTime(2020, 1, 2, 3, 4, 5);
await CheckProps(ss_props, new
{
dt = TDateTime(dt),
gs = TValueType("Math.GenericStruct<System.DateTime>")
}, "ss_props");
// Check OuterMethod frame
var locals_m1 = await GetLocalsForFrame(wait_res["callFrames"][1], debugger_test_loc, 87, 8, "OuterMethod");
Assert.Equal(5, locals_m1.Count());
// FIXME: Failing test CheckNumber (locals_m1, "i", 5);
// FIXME: Failing test CheckString (locals_m1, "text", "Hello");
CheckNumber(locals_m1, "new_i", 0);
CheckNumber(locals_m1, "k", 0);
await CheckObject(locals_m1, "nim", "Math.NestedInMath");
// step back into OuterMethod
await StepAndCheck(StepKind.Over, debugger_test_loc, 91, 8, "OuterMethod", times: 6,
locals_fn: async (locals) =>
{
Assert.Equal(5, locals.Count());
// FIXME: Failing test CheckNumber (locals_m1, "i", 5);
await CheckString(locals, "text", "Hello");
// FIXME: Failing test CheckNumber (locals, "new_i", 24);
CheckNumber(locals, "k", 19);
await CheckObject(locals, "nim", "Math.NestedInMath");
}
);
//await StepAndCheck (StepKind.Over, "dotnet://debugger-test.dll/debugger-test.cs", 81, 2, "OuterMethod", times: 2);
// step into InnerMethod2
await StepAndCheck(StepKind.Into, "dotnet://debugger-test.dll/debugger-test.cs", 96, 4, "InnerMethod2",
locals_fn: async (locals) =>
{
Assert.Equal(3, locals.Count());
await CheckString(locals, "s", "test string");
//out var: CheckNumber (locals, "k", 0);
CheckNumber(locals, "i", 24);
await Task.CompletedTask;
}
);
await StepAndCheck(StepKind.Over, "dotnet://debugger-test.dll/debugger-test.cs", 100, 4, "InnerMethod2", times: 4,
locals_fn: async (locals) =>
{
Assert.Equal(3, locals.Count());
await CheckString(locals, "s", "test string");
// FIXME: Failing test CheckNumber (locals, "k", 34);
CheckNumber(locals, "i", 24);
await Task.CompletedTask;
}
);
await StepAndCheck(StepKind.Over, "dotnet://debugger-test.dll/debugger-test.cs", 92, 8, "OuterMethod", times: 1,
locals_fn: async (locals) =>
{
Assert.Equal(5, locals.Count());
await CheckString(locals, "text", "Hello");
// FIXME: failing test CheckNumber (locals, "i", 5);
CheckNumber(locals, "new_i", 22);
CheckNumber(locals, "k", 34);
await CheckObject(locals, "nim", "Math.NestedInMath");
}
);
}
[Fact]
public async Task InspectLocalsDuringSteppingIn()
{
await SetBreakpoint("dotnet://debugger-test.dll/debugger-test.cs", 86, 8);
await EvaluateAndCheck("window.setTimeout(function() { invoke_outer_method(); }, 1);",
"dotnet://debugger-test.dll/debugger-test.cs", 86, 8, "OuterMethod",
locals_fn: async (locals) =>
{
Assert.Equal(5, locals.Count());
await CheckObject(locals, "nim", "Math.NestedInMath");
CheckNumber(locals, "i", 5);
CheckNumber(locals, "k", 0);
CheckNumber(locals, "new_i", 0);
await CheckString(locals, "text", null);
}
);
await StepAndCheck(StepKind.Over, "dotnet://debugger-test.dll/debugger-test.cs", 87, 8, "OuterMethod",
locals_fn: async (locals) =>
{
Assert.Equal(5, locals.Count());
await CheckObject(locals, "nim", "Math.NestedInMath");
// FIXME: Failing test CheckNumber (locals, "i", 5);
CheckNumber(locals, "k", 0);
CheckNumber(locals, "new_i", 0);
await CheckString(locals, "text", "Hello");
await Task.CompletedTask;
}
);
// Step into InnerMethod
await StepAndCheck(StepKind.Into, "dotnet://debugger-test.dll/debugger-test.cs", 105, 8, "InnerMethod");
await StepAndCheck(StepKind.Over, "dotnet://debugger-test.dll/debugger-test.cs", 110, 12, "InnerMethod", times: 5,
locals_fn: async (locals) =>
{
Assert.Equal(4, locals.Count());
CheckNumber(locals, "i", 5);
CheckNumber(locals, "j", 15);
await CheckString(locals, "foo_str", "foo");
await CheckObject(locals, "this", "Math.NestedInMath");
await Task.CompletedTask;
}
);
// Step back to OuterMethod
await StepAndCheck(StepKind.Over, "dotnet://debugger-test.dll/debugger-test.cs", 90, 8, "OuterMethod", times: 6,
locals_fn: async (locals) =>
{
Assert.Equal(5, locals.Count());
await CheckObject(locals, "nim", "Math.NestedInMath");
// FIXME: Failing test CheckNumber (locals, "i", 5);
CheckNumber(locals, "k", 0);
CheckNumber(locals, "new_i", 24);
await CheckString(locals, "text", "Hello");
}
);
}
[Theory]
[InlineData(false)]
[InlineData(true)]
public async Task InspectLocalsInAsyncMethods(bool use_cfo)
{
UseCallFunctionOnBeforeGetProperties = use_cfo;
var debugger_test_loc = "dotnet://debugger-test.dll/debugger-test.cs";
await SetBreakpoint(debugger_test_loc, 120, 12);
await SetBreakpoint(debugger_test_loc, 135, 12);
// Will stop in Asyncmethod0
var wait_res = await EvaluateAndCheck(
"window.setTimeout(function() { invoke_async_method_with_await(); }, 1);",
debugger_test_loc, 120, 12, "MoveNext", //FIXME:
locals_fn: async (locals) =>
{
Assert.Equal(4, locals.Count());
await CheckString(locals, "s", "string from js");
CheckNumber(locals, "i", 42);
await CheckString(locals, "local0", "value0");
await CheckObject(locals, "this", "Math.NestedInMath");
}
);
Console.WriteLine(wait_res);
#if false // Disabled for now, as we don't have proper async traces
var locals = await GetProperties(wait_res["callFrames"][2]["callFrameId"].Value<string>());
Assert.Equal(4, locals.Count());
await CheckString(locals, "ls", "string from jstest").ConfigureAwait(false);
CheckNumber(locals, "li", 52);
#endif
// TODO: previous frames have async machinery details, so no point checking that right now
var pause_loc = await SendCommandAndCheck(null, "Debugger.resume", debugger_test_loc, 135, 12, /*FIXME: "AsyncMethodNoReturn"*/ "MoveNext",
locals_fn: async (locals) =>
{
Assert.Equal(4, locals.Count());
await CheckString(locals, "str", "AsyncMethodNoReturn's local");
await CheckObject(locals, "this", "Math.NestedInMath");
//FIXME: check fields
await CheckValueType(locals, "ss", "Math.SimpleStruct");
await CheckArray(locals, "ss_arr", "Math.SimpleStruct[]", "Math.SimpleStruct[0]");
// TODO: struct fields
await Task.CompletedTask;
}
);
var this_props = await GetObjectOnFrame(pause_loc["callFrames"][0], "this");
Assert.Equal(2, this_props.Count());
await CheckObject(this_props, "m", "Math");
await CheckValueType(this_props, "SimpleStructProperty", "Math.SimpleStruct");
// TODO: Check `this` properties
}
[Theory]
[InlineData(false)]
[InlineData(true)]
public async Task InspectValueTypeMethodArgsWhileStepping(bool use_cfo)
{
UseCallFunctionOnBeforeGetProperties = use_cfo;
var debugger_test_loc = "dotnet://debugger-test.dll/debugger-valuetypes-test.cs";
await SetBreakpoint(debugger_test_loc, 36, 12);
var pause_location = await EvaluateAndCheck(
"window.setTimeout(function() { invoke_static_method ('[debugger-test] DebuggerTests.ValueTypesTest:TestStructsAsMethodArgs'); }, 1);",
debugger_test_loc, 36, 12, "MethodWithStructArgs");
var locals = await GetProperties(pause_location["callFrames"][0]["callFrameId"].Value<string>());
{
Assert.Equal(3, locals.Count());
await CheckString(locals, "label", "TestStructsAsMethodArgs#label");
await CheckValueType(locals, "ss_arg", "DebuggerTests.ValueTypesTest.SimpleStruct");
CheckNumber(locals, "x", 3);
}
var dt = new DateTime(2025, 6, 7, 8, 10, 11);
var ss_local_as_ss_arg = new
{
V = TGetter("V"),
str_member = TString("ss_local#SimpleStruct#string#0#SimpleStruct#str_member"),
dt = TDateTime(dt),
gs = TValueType("DebuggerTests.ValueTypesTest.GenericStruct<System.DateTime>"),
Kind = TEnum("System.DateTimeKind", "Local")
};
var ss_local_gs = new
{
StringField = TString("ss_local#SimpleStruct#string#0#SimpleStruct#gs#StringField"),
List = TObject("System.Collections.Generic.List<System.DateTime>", description: "Count = 1"),
Options = TEnum("DebuggerTests.Options", "Option1")
};
// Check ss_arg's properties
var ss_arg_props = await GetObjectOnFrame(pause_location["callFrames"][0], "ss_arg");
await CheckProps(ss_arg_props, ss_local_as_ss_arg, "ss_arg");
var res = await InvokeGetter(GetAndAssertObjectWithName(locals, "ss_arg"), "V");
await CheckValue(res.Value["result"], TNumber(0xDEADBEEF + (uint)dt.Month), "ss_arg#V");
{
// Check ss_local.gs
await CompareObjectPropertiesFor(ss_arg_props, "gs", ss_local_gs);
}
pause_location = await StepAndCheck(StepKind.Over, debugger_test_loc, 40, 8, "MethodWithStructArgs", times: 4,
locals_fn: async (l) => { /* non-null to make sure that locals get fetched */ await Task.CompletedTask; });
locals = await GetProperties(pause_location["callFrames"][0]["callFrameId"].Value<string>());
{
Assert.Equal(3, locals.Count());
await CheckString(locals, "label", "TestStructsAsMethodArgs#label");
await CheckValueType(locals, "ss_arg", "DebuggerTests.ValueTypesTest.SimpleStruct");
CheckNumber(locals, "x", 3);
}
var ss_arg_updated = new
{
V = TGetter("V"),
str_member = TString("ValueTypesTest#MethodWithStructArgs#updated#ss_arg#str_member"),
dt = TDateTime(dt),
gs = TValueType("DebuggerTests.ValueTypesTest.GenericStruct<System.DateTime>"),
Kind = TEnum("System.DateTimeKind", "Utc")
};
ss_arg_props = await GetObjectOnFrame(pause_location["callFrames"][0], "ss_arg");
await CheckProps(ss_arg_props, ss_arg_updated, "ss_arg");
res = await InvokeGetter(GetAndAssertObjectWithName(locals, "ss_arg"), "V");
await CheckValue(res.Value["result"], TNumber(0xDEADBEEF + (uint)dt.Month), "ss_arg#V");
{
// Check ss_local.gs
await CompareObjectPropertiesFor(ss_arg_props, "gs", new
{
StringField = TString("ValueTypesTest#MethodWithStructArgs#updated#gs#StringField#3"),
List = TObject("System.Collections.Generic.List<System.DateTime>", description: "Count = 1"),
Options = TEnum("DebuggerTests.Options", "Option1")
});
}
// Check locals on previous frame, same as earlier in this test
ss_arg_props = await GetObjectOnFrame(pause_location["callFrames"][1], "ss_local");
await CheckProps(ss_arg_props, ss_local_as_ss_arg, "ss_local");
{
// Check ss_local.dt
await CheckDateTime(ss_arg_props, "dt", dt);
// Check ss_local.gs
var gs_props = await GetObjectOnLocals(ss_arg_props, "gs");
await CheckString(gs_props, "StringField", "ss_local#SimpleStruct#string#0#SimpleStruct#gs#StringField");
await CheckObject(gs_props, "List", "System.Collections.Generic.List<System.DateTime>", description: "Count = 1");
}
// ----------- Step back to the caller ---------
pause_location = await StepAndCheck(StepKind.Over, debugger_test_loc, 30, 12, "TestStructsAsMethodArgs",
times: 1, locals_fn: async (l) => { /* non-null to make sure that locals get fetched */ await Task.CompletedTask; });
locals = await GetProperties(pause_location["callFrames"][0]["callFrameId"].Value<string>());
await CheckProps(locals, new
{
ss_local = TValueType("DebuggerTests.ValueTypesTest.SimpleStruct"),
ss_ret = TValueType("DebuggerTests.ValueTypesTest.SimpleStruct")
},
"locals#0");
ss_arg_props = await GetObjectOnFrame(pause_location["callFrames"][0], "ss_local");
await CheckProps(ss_arg_props, ss_local_as_ss_arg, "ss_local");
{
// Check ss_local.gs
await CompareObjectPropertiesFor(ss_arg_props, "gs", ss_local_gs, label: "ss_local_gs");
}
// FIXME: check ss_local.gs.List's members
}
[Fact]
public async Task CheckUpdatedValueTypeFieldsOnResume()
{
var debugger_test_loc = "dotnet://debugger-test.dll/debugger-valuetypes-test.cs";
var lines = new[] { 205, 208 };
await SetBreakpoint(debugger_test_loc, lines[0], 12);
await SetBreakpoint(debugger_test_loc, lines[1], 12);
var pause_location = await EvaluateAndCheck(
"window.setTimeout(function() { invoke_static_method ('[debugger-test] DebuggerTests.ValueTypesTest:MethodUpdatingValueTypeMembers'); }, 1);",
debugger_test_loc, lines[0], 12, "MethodUpdatingValueTypeMembers");
await CheckLocals(pause_location, new DateTime(1, 2, 3, 4, 5, 6), new DateTime(4, 5, 6, 7, 8, 9));
// Resume
pause_location = await SendCommandAndCheck(JObject.FromObject(new { }), "Debugger.resume", debugger_test_loc, lines[1], 12, "MethodUpdatingValueTypeMembers");
await CheckLocals(pause_location, new DateTime(9, 8, 7, 6, 5, 4), new DateTime(5, 1, 3, 7, 9, 10));
async Task CheckLocals(JToken pause_location, DateTime obj_dt, DateTime vt_dt)
{
var locals = await GetProperties(pause_location["callFrames"][0]["callFrameId"].Value<string>());
await CheckProps(locals, new
{
obj = TObject("DebuggerTests.ClassForToStringTests"),
vt = TObject("DebuggerTests.StructForToStringTests")
}, "locals");
var obj_props = await GetObjectOnLocals(locals, "obj");
{
await CheckProps(obj_props, new
{
DT = TDateTime(obj_dt)
}, "locals#obj.DT", num_fields: 5);
}
var vt_props = await GetObjectOnLocals(locals, "vt");
{
await CheckProps(vt_props, new
{
DT = TDateTime(vt_dt)
}, "locals#obj.DT", num_fields: 5);
}
}
}
[Fact]
public async Task CheckUpdatedValueTypeLocalsOnResumeAsync()
{
var debugger_test_loc = "dotnet://debugger-test.dll/debugger-valuetypes-test.cs";
var lines = new[] { 214, 216 };
await SetBreakpoint(debugger_test_loc, lines[0], 12);
await SetBreakpoint(debugger_test_loc, lines[1], 12);
var pause_location = await EvaluateAndCheck(
"window.setTimeout(function() { invoke_static_method ('[debugger-test] DebuggerTests.ValueTypesTest:MethodUpdatingValueTypeLocalsAsync'); }, 1);",
debugger_test_loc, lines[0], 12, "MoveNext");
var dt = new DateTime(1, 2, 3, 4, 5, 6);
var locals = await GetProperties(pause_location["callFrames"][0]["callFrameId"].Value<string>());
await CheckDateTime(locals, "dt", dt);
// Resume
dt = new DateTime(9, 8, 7, 6, 5, 4);
pause_location = await SendCommandAndCheck(JObject.FromObject(new { }), "Debugger.resume", debugger_test_loc, lines[1], 12, "MoveNext");
locals = await GetProperties(pause_location["callFrames"][0]["callFrameId"].Value<string>());
await CheckDateTime(locals, "dt", dt);
}
[Fact]
public async Task CheckUpdatedVTArrayMembersOnResume()
{
var debugger_test_loc = "dotnet://debugger-test.dll/debugger-valuetypes-test.cs";
var lines = new[] { 225, 227 };
await SetBreakpoint(debugger_test_loc, lines[0], 12);
await SetBreakpoint(debugger_test_loc, lines[1], 12);
var dt = new DateTime(1, 2, 3, 4, 5, 6);
var pause_location = await EvaluateAndCheck(
"window.setTimeout(function() { invoke_static_method ('[debugger-test] DebuggerTests.ValueTypesTest:MethodUpdatingVTArrayMembers'); }, 1);",
debugger_test_loc, lines[0], 12, "MethodUpdatingVTArrayMembers");
await CheckArrayElements(pause_location, dt);
// Resume
dt = new DateTime(9, 8, 7, 6, 5, 4);
pause_location = await SendCommandAndCheck(JObject.FromObject(new { }), "Debugger.resume", debugger_test_loc, lines[1], 12, "MethodUpdatingVTArrayMembers");
await CheckArrayElements(pause_location, dt);
async Task CheckArrayElements(JToken pause_location, DateTime dt)
{
var locals = await GetProperties(pause_location["callFrames"][0]["callFrameId"].Value<string>());
await CheckProps(locals, new
{
ssta = TArray("DebuggerTests.StructForToStringTests[]", "DebuggerTests.StructForToStringTests[1]")
}, "locals");
var ssta = await GetObjectOnLocals(locals, "ssta");
var sst0 = await GetObjectOnLocals(ssta, "0");
await CheckProps(sst0, new
{
DT = TDateTime(dt)
}, "dta [0]", num_fields: 5);
}
}
[Fact]
public async Task SteppingIntoMscorlib()
{
var bp = await SetBreakpoint("dotnet://debugger-test.dll/debugger-test.cs", 83, 8);
var pause_location = await EvaluateAndCheck(
"window.setTimeout(function() { invoke_static_method ('[debugger-test] Math:OuterMethod'); }, 1);",
"dotnet://debugger-test.dll/debugger-test.cs", 83, 8,
"OuterMethod");
//make sure we're on the right bp
Assert.Equal(bp.Value["breakpointId"]?.ToString(), pause_location["hitBreakpoints"]?[0]?.Value<string>());
pause_location = await SendCommandAndCheck(null, $"Debugger.stepInto", null, -1, -1, null);
var top_frame = pause_location["callFrames"][0];
AssertEqual("WriteLine", top_frame["functionName"]?.Value<string>(), "Expected to be in WriteLine method");
var script_id = top_frame["functionLocation"]["scriptId"].Value<string>();
Assert.Matches("^dotnet://(mscorlib|System\\.Console)\\.dll/Console.cs", scripts[script_id]);
}
[Fact]
public async Task CreateGoodBreakpointAndHitAndRemoveAndDontHit()
{
var bp = await SetBreakpoint("dotnet://debugger-test.dll/debugger-test.cs", 10, 8);
var bp2 = await SetBreakpoint("dotnet://debugger-test.dll/debugger-test.cs", 12, 8);
var pause_location = await EvaluateAndCheck(
"window.setTimeout(function() { invoke_add(); invoke_add()}, 1);",
"dotnet://debugger-test.dll/debugger-test.cs", 10, 8,
"IntAdd");
Assert.Equal("other", pause_location["reason"]?.Value<string>());
Assert.Equal(bp.Value["breakpointId"]?.ToString(), pause_location["hitBreakpoints"]?[0]?.Value<string>());
await RemoveBreakpoint(bp.Value["breakpointId"]?.ToString());
await SendCommandAndCheck(JObject.FromObject(new { }), "Debugger.resume", "dotnet://debugger-test.dll/debugger-test.cs", 12, 8, "IntAdd");
await SendCommandAndCheck(JObject.FromObject(new { }), "Debugger.resume", "dotnet://debugger-test.dll/debugger-test.cs", 12, 8, "IntAdd");
}
[Fact]
public async Task CreateGoodBreakpointAndHitAndRemoveTwice()
{
var bp = await SetBreakpoint("dotnet://debugger-test.dll/debugger-test.cs", 10, 8);
var bp2 = await SetBreakpoint("dotnet://debugger-test.dll/debugger-test.cs", 12, 8);
var pause_location = await EvaluateAndCheck(
"window.setTimeout(function() { invoke_add(); invoke_add()}, 1);",
"dotnet://debugger-test.dll/debugger-test.cs", 10, 8,
"IntAdd");
Assert.Equal("other", pause_location["reason"]?.Value<string>());
Assert.Equal(bp.Value["breakpointId"]?.ToString(), pause_location["hitBreakpoints"]?[0]?.Value<string>());
await RemoveBreakpoint(bp.Value["breakpointId"]?.ToString());
await RemoveBreakpoint(bp.Value["breakpointId"]?.ToString());
}
[Fact]
public async Task CreateGoodBreakpointAndHitAndRemoveAndDontHitAndCreateAgainAndHit()
{
var bp = await SetBreakpoint("dotnet://debugger-test.dll/debugger-test.cs", 10, 8);
var bp2 = await SetBreakpoint("dotnet://debugger-test.dll/debugger-test.cs", 12, 8);
var pause_location = await EvaluateAndCheck(
"window.setTimeout(function() { invoke_add(); invoke_add(); invoke_add(); invoke_add()}, 1);",
"dotnet://debugger-test.dll/debugger-test.cs", 10, 8,
"IntAdd");
Assert.Equal("other", pause_location["reason"]?.Value<string>());
Assert.Equal(bp.Value["breakpointId"]?.ToString(), pause_location["hitBreakpoints"]?[0]?.Value<string>());
await RemoveBreakpoint(bp.Value["breakpointId"]?.ToString());
await SendCommandAndCheck(JObject.FromObject(new { }), "Debugger.resume", "dotnet://debugger-test.dll/debugger-test.cs", 12, 8, "IntAdd");
await SendCommandAndCheck(JObject.FromObject(new { }), "Debugger.resume", "dotnet://debugger-test.dll/debugger-test.cs", 12, 8, "IntAdd");
bp = await SetBreakpoint("dotnet://debugger-test.dll/debugger-test.cs", 10, 8);
await SendCommandAndCheck(JObject.FromObject(new { }), "Debugger.resume", "dotnet://debugger-test.dll/debugger-test.cs", 10, 8, "IntAdd");
}
// [Fact]
//https://github.com/dotnet/runtime/issues/42421
public async Task BreakAfterAwaitThenStepOverTillBackToCaller()
{
var bp = await SetBreakpointInMethod("debugger-test.dll", "DebuggerTests.AsyncStepClass", "TestAsyncStepOut2", 2);
await EvaluateAndCheck(
"window.setTimeout(function() { invoke_static_method_async('[debugger-test] DebuggerTests.AsyncStepClass:TestAsyncStepOut'); }, 1);",
"dotnet://debugger-test.dll/debugger-async-step.cs", 21, 12,
"MoveNext");
await StepAndCheck(StepKind.Over, "dotnet://debugger-test.dll/debugger-async-step.cs", 23, 12, "MoveNext");
await StepAndCheck(StepKind.Over, "dotnet://debugger-test.dll/debugger-async-step.cs", 24, 8, "MoveNext");
await StepAndCheck(StepKind.Over, "dotnet://debugger-test.dll/debugger-async-step.cs", 15, 12, "MoveNext");
}
// [Fact]
//[ActiveIssue("https://github.com/dotnet/runtime/issues/42421")]
public async Task StepOutOfAsyncMethod()
{
string source_file = "dotnet://debugger-test.dll/debugger-async-step.cs";
await SetBreakpointInMethod("debugger-test.dll", "DebuggerTests.AsyncStepClass", "TestAsyncStepOut2", 2);
await EvaluateAndCheck(
"window.setTimeout(function() { invoke_static_method_async('[debugger-test] DebuggerTests.AsyncStepClass:TestAsyncStepOut'); }, 1);",
"dotnet://debugger-test.dll/debugger-async-step.cs", 21, 12,
"MoveNext");
await StepAndCheck(StepKind.Out, source_file, 15, 4, "TestAsyncStepOut");
}
[Fact]
public async Task ResumeOutOfAsyncMethodToAsyncCallerWithBreakpoint()
{
string source_file = "dotnet://debugger-test.dll/debugger-async-step.cs";
await SetBreakpointInMethod("debugger-test.dll", "DebuggerTests.AsyncStepClass", "TestAsyncStepOut2", 2);
await EvaluateAndCheck(
"window.setTimeout(function() { invoke_static_method_async('[debugger-test] DebuggerTests.AsyncStepClass:TestAsyncStepOut'); }, 1);",
"dotnet://debugger-test.dll/debugger-async-step.cs", 21, 12,
"MoveNext");
await SetBreakpointInMethod("debugger-test.dll", "DebuggerTests.AsyncStepClass", "TestAsyncStepOut", 2);
await SendCommandAndCheck(null, "Debugger.resume", source_file, 16, 8, "MoveNext");
}
[Fact]
public async Task StepOutOfNonAsyncMethod()
{
string source_file = "dotnet://debugger-test.dll/debugger-async-step.cs";
await SetBreakpointInMethod("debugger-test.dll", "DebuggerTests.AsyncStepClass", "OtherMethod0", 1);
await EvaluateAndCheck(
"window.setTimeout(function() { invoke_static_method_async('[debugger-test] DebuggerTests.AsyncStepClass:SimpleMethod'); }, 1);",
source_file, -1, -1,
"OtherMethod0");
await StepAndCheck(StepKind.Out, source_file, 29, 12, "SimpleMethod");
}
[Fact]
public async Task BreakOnAwaitThenStepOverToNextAwaitCall()
{
string source_file = "dotnet://debugger-test.dll/debugger-async-step.cs";
await SetBreakpointInMethod("debugger-test.dll", "DebuggerTests.AsyncStepClass", "MethodWithTwoAwaitsAsync", 2);
await EvaluateAndCheck(
"window.setTimeout(function() { invoke_static_method_async('[debugger-test] DebuggerTests.AsyncStepClass:StepOverTestAsync'); }, 1);",
"dotnet://debugger-test.dll/debugger-async-step.cs", 53, 12,
"MoveNext");
await StepAndCheck(StepKind.Over, source_file, 54, 12, "MoveNext");
}
[Fact]
public async Task BreakOnAwaitThenStepOverToNextLine()
{
string source_file = "dotnet://debugger-test.dll/debugger-async-step.cs";
await SetBreakpointInMethod("debugger-test.dll", "DebuggerTests.AsyncStepClass", "StepOverTestAsync", 1);
await EvaluateAndCheck(
"window.setTimeout(function() { invoke_static_method_async('[debugger-test] DebuggerTests.AsyncStepClass:StepOverTestAsync'); }, 1);",
"dotnet://debugger-test.dll/debugger-async-step.cs", 46, 12,
"MoveNext");
// BUG: chrome: not able to show any bp line indicator
await StepAndCheck(StepKind.Over, source_file, 47, 12, "MoveNext");
}
[Fact]
public async Task BreakOnAwaitThenResumeToNextBreakpoint()
{
string source_file = "dotnet://debugger-test.dll/debugger-async-step.cs";
await SetBreakpointInMethod("debugger-test.dll", "DebuggerTests.AsyncStepClass", "StepOverTestAsync", 1);
await SetBreakpointInMethod("debugger-test.dll", "DebuggerTests.AsyncStepClass", "StepOverTestAsync", 3);
await EvaluateAndCheck(
"window.setTimeout(function() { invoke_static_method_async('[debugger-test] DebuggerTests.AsyncStepClass:StepOverTestAsync'); }, 1);",
"dotnet://debugger-test.dll/debugger-async-step.cs", 46, 12,
"MoveNext");
await StepAndCheck(StepKind.Resume, source_file, 48, 8, "MoveNext");
}
[Fact]
public async Task BreakOnAwaitThenResumeToNextBreakpointAfterSecondAwaitInSameMethod()
{
string source_file = "dotnet://debugger-test.dll/debugger-async-step.cs";
await SetBreakpointInMethod("debugger-test.dll", "DebuggerTests.AsyncStepClass", "MethodWithTwoAwaitsAsync", 1);
await SetBreakpointInMethod("debugger-test.dll", "DebuggerTests.AsyncStepClass", "MethodWithTwoAwaitsAsync", 5);
await EvaluateAndCheck(
"window.setTimeout(function() { invoke_static_method_async('[debugger-test] DebuggerTests.AsyncStepClass:StepOverTestAsync'); }, 1);",
"dotnet://debugger-test.dll/debugger-async-step.cs", 52, 12,
"MoveNext");
await StepAndCheck(StepKind.Resume, source_file, 56, 12, "MoveNext");
}
[Fact]
public async Task BreakOnMethodCalledFromHiddenLine()
{
await SetBreakpointInMethod("debugger-test.dll", "HiddenSequencePointTest", "StepOverHiddenSP2", 0);
var pause_location = await EvaluateAndCheck(
"window.setTimeout(function() { invoke_static_method ('[debugger-test] HiddenSequencePointTest:StepOverHiddenSP'); }, 1);",
"dotnet://debugger-test.dll/debugger-test.cs", 546, 4,
"StepOverHiddenSP2");
// Check previous frame
var top_frame = pause_location["callFrames"][1];
Assert.Equal("StepOverHiddenSP", top_frame["functionName"].Value<string>());
Assert.Contains("debugger-test.cs", top_frame["url"].Value<string>());
CheckLocation("dotnet://debugger-test.dll/debugger-test.cs", 537, 8, scripts, top_frame["location"]);
}
[Fact]
public async Task StepOverHiddenLinesShouldResumeAtNextAvailableLineInTheMethod()
{
string source_loc = "dotnet://debugger-test.dll/debugger-test.cs";
await SetBreakpoint(source_loc, 537, 8);
await EvaluateAndCheck(
"window.setTimeout(function() { invoke_static_method ('[debugger-test] HiddenSequencePointTest:StepOverHiddenSP'); }, 1);",
"dotnet://debugger-test.dll/debugger-test.cs", 537, 8,
"StepOverHiddenSP");
await StepAndCheck(StepKind.Over, source_loc, 542, 8, "StepOverHiddenSP");
}
[Fact]
async Task StepOverHiddenLinesInMethodWithNoNextAvailableLineShouldResumeAtCallSite()
{
string source_loc = "dotnet://debugger-test.dll/debugger-test.cs";
await SetBreakpoint(source_loc, 552, 8);
await EvaluateAndCheck(
"window.setTimeout(function() { invoke_static_method ('[debugger-test] HiddenSequencePointTest:StepOverHiddenSP'); }, 1);",
"dotnet://debugger-test.dll/debugger-test.cs", 552, 8,
"MethodWithHiddenLinesAtTheEnd");
await StepAndCheck(StepKind.Over, source_loc, 544, 4, "StepOverHiddenSP");
}
// [Fact]
// Issue: https://github.com/dotnet/runtime/issues/42704
async Task BreakpointOnHiddenLineShouldStopAtEarliestNextAvailableLine()
{
await SetBreakpoint("dotnet://debugger-test.dll/debugger-test.cs", 539, 8);
await EvaluateAndCheck(
"window.setTimeout(function() { invoke_static_method ('[debugger-test] HiddenSequencePointTest:StepOverHiddenSP'); }, 1);",
"dotnet://debugger-test.dll/debugger-test.cs", 546, 4,
"StepOverHiddenSP2");
}
[Fact]
public async Task BreakpointOnHiddenLineOfMethodWithNoNextVisibleLineShouldNotPause()
{
await SetBreakpoint("dotnet://debugger-test.dll/debugger-test.cs", 554, 12);
string expression = "window.setTimeout(function() { invoke_static_method ('[debugger-test] HiddenSequencePointTest:StepOverHiddenSP'); }, 1);";
await cli.SendCommand($"Runtime.evaluate", JObject.FromObject(new { expression }), token);
Task pause_task = insp.WaitFor(Inspector.PAUSE);
Task t = await Task.WhenAny(pause_task, Task.Delay(2000));
Assert.True(t != pause_task, "Debugger unexpectedly paused");
}
[Fact]
public async Task SimpleStep_RegressionTest_49141()
{
await SetBreakpoint("dotnet://debugger-test.dll/debugger-test.cs", 674, 0);
string expression = "window.setTimeout(function() { invoke_static_method ('[debugger-test] Foo:RunBart'); }, 1);";
await EvaluateAndCheck(
expression,
"dotnet://debugger-test.dll/debugger-test.cs", 674, 12,
"Bart");
await StepAndCheck(StepKind.Over, "dotnet://debugger-test.dll/debugger-test.cs", 677, 8, "Bart");
await StepAndCheck(StepKind.Over, "dotnet://debugger-test.dll/debugger-test.cs", 678, 4, "Bart");
}
[Fact]
public async Task StepAndEvaluateExpression()
{
await SetBreakpoint("dotnet://debugger-test.dll/debugger-test.cs", 682, 0);
await EvaluateAndCheck(
"window.setTimeout(function() { invoke_static_method ('[debugger-test] Foo:RunBart'); }, 1);",
"dotnet://debugger-test.dll/debugger-test.cs", 682, 8,
"RunBart");
var pause_location = await StepAndCheck(StepKind.Into, "dotnet://debugger-test.dll/debugger-test.cs", 671, 4, "Bart");
var id = pause_location["callFrames"][0]["callFrameId"].Value<string>();
await EvaluateOnCallFrameAndCheck(id, ("this.Bar", TString("Same of something")));
pause_location = await StepAndCheck(StepKind.Into, "dotnet://debugger-test.dll/debugger-test.cs", 673, 8, "Bart");
id = pause_location["callFrames"][0]["callFrameId"].Value<string>();
await EvaluateOnCallFrameAndCheck(id, ("this.Bar", TString("Same of something")));
}
[Fact]
public async Task StepOverWithMoreThanOneCommandInSameLine()
{
await SetBreakpoint("dotnet://debugger-test.dll/debugger-test.cs", 693, 0);
string expression = "window.setTimeout(function() { invoke_static_method ('[debugger-test] Foo:RunBart'); }, 1);";
await EvaluateAndCheck(
expression,
"dotnet://debugger-test.dll/debugger-test.cs", 693, 8,
"OtherBar");
await StepAndCheck(StepKind.Over, "dotnet://debugger-test.dll/debugger-test.cs", 694, 8, "OtherBar");
await StepAndCheck(StepKind.Over, "dotnet://debugger-test.dll/debugger-test.cs", 696, 8, "OtherBar");
await StepAndCheck(StepKind.Over, "dotnet://debugger-test.dll/debugger-test.cs", 699, 8, "OtherBar");
await StepAndCheck(StepKind.Over, "dotnet://debugger-test.dll/debugger-test.cs", 701, 8, "OtherBar");
await StepAndCheck(StepKind.Over, "dotnet://debugger-test.dll/debugger-test.cs", 702, 4, "OtherBar");
}
[Fact]
public async Task StepOverWithMoreThanOneCommandInSameLineAsync()
{
await SetBreakpoint("dotnet://debugger-test.dll/debugger-test.cs", 710, 0);
string expression = "window.setTimeout(function() { invoke_static_method ('[debugger-test] Foo:RunBart'); }, 1);";
await EvaluateAndCheck(
expression,
"dotnet://debugger-test.dll/debugger-test.cs", 710, 8,
"MoveNext");
await StepAndCheck(StepKind.Over, "dotnet://debugger-test.dll/debugger-test.cs", 711, 8, "MoveNext");
await StepAndCheck(StepKind.Over, "dotnet://debugger-test.dll/debugger-test.cs", 713, 8, "MoveNext");
await StepAndCheck(StepKind.Over, "dotnet://debugger-test.dll/debugger-test.cs", 716, 8, "MoveNext");
await StepAndCheck(StepKind.Over, "dotnet://debugger-test.dll/debugger-test.cs", 718, 8, "MoveNext");
await StepAndCheck(StepKind.Over, "dotnet://debugger-test.dll/debugger-test.cs", 719, 8, "MoveNext");
await StepAndCheck(StepKind.Over, "dotnet://debugger-test.dll/debugger-test.cs", 720, 4, "MoveNext");
}
[Fact]
public async Task CheckResetFrameNumberForEachStep()
{
var bp_conditional = await SetBreakpointInMethod("debugger-test.dll", "SteppingInto", "MethodToStep", 1);
await EvaluateAndCheck(
"window.setTimeout(function() { invoke_static_method('[debugger-test] SteppingInto:MethodToStep'); }, 1);",
"dotnet://debugger-test.dll/debugger-test.cs",
bp_conditional.Value["locations"][0]["lineNumber"].Value<int>(),
bp_conditional.Value["locations"][0]["columnNumber"].Value<int>(),
"MethodToStep"
);
var pause_location = await StepAndCheck(StepKind.Into, "dotnet://debugger-test.dll/debugger-test.cs", 799, 4, "Increment");
pause_location = await StepAndCheck(StepKind.Over, "dotnet://debugger-test.dll/debugger-test.cs", 800, 8, "Increment");
Assert.Equal(pause_location["callFrames"][0]["callFrameId"], "dotnet:scope:1");
pause_location = await StepAndCheck(StepKind.Over, "dotnet://debugger-test.dll/debugger-test.cs", 801, 8, "Increment");
Assert.Equal(pause_location["callFrames"][0]["callFrameId"], "dotnet:scope:1");
pause_location = await StepAndCheck(StepKind.Over, "dotnet://debugger-test.dll/debugger-test.cs", 806, 8, "Increment");
Assert.Equal(pause_location["callFrames"][0]["callFrameId"], "dotnet:scope:1");
}
[Fact]
public async Task DebuggerHiddenIgnoreStepInto()
{
var pause_location = await SetBreakpointInMethod("debugger-test.dll", "DebuggerAttribute", "RunDebuggerHidden", 1);
await EvaluateAndCheck(
"window.setTimeout(function() { invoke_static_method('[debugger-test] DebuggerAttribute:RunDebuggerHidden'); }, 1);",
"dotnet://debugger-test.dll/debugger-test.cs",
pause_location.Value["locations"][0]["lineNumber"].Value<int>(),
pause_location.Value["locations"][0]["columnNumber"].Value<int>(),
"RunDebuggerHidden"
);
var step_into = await SendCommandAndCheck(null, $"Debugger.stepInto", null, -1, -1, null);
Assert.Equal(
step_into["callFrames"][0]["location"]["lineNumber"].Value<int>(),
pause_location.Value["locations"][0]["lineNumber"].Value<int>() + 1
);
}
[Theory]
[InlineData("Debugger.stepInto")]
[InlineData("Debugger.stepOver")]
public async Task DebuggerHiddenIgnoreStepUserBreakpoint(string steppingFunction)
{
var pause_location = await SetBreakpointInMethod("debugger-test.dll", "DebuggerAttribute", "RunDebuggerHidden", 1);
await EvaluateAndCheck(
"window.setTimeout(function() { invoke_static_method('[debugger-test] DebuggerAttribute:RunDebuggerHidden'); }, 1);",
"dotnet://debugger-test.dll/debugger-test.cs",
pause_location.Value["locations"][0]["lineNumber"].Value<int>(),
pause_location.Value["locations"][0]["columnNumber"].Value<int>(),
"RunDebuggerHidden"
);
// stepOver HiddenMethod:
var step_into1 = await SendCommandAndCheck(null, steppingFunction, null, -1, -1, null);
Assert.Equal(
pause_location.Value["locations"][0]["lineNumber"].Value<int>() + 1,
step_into1["callFrames"][0]["location"]["lineNumber"].Value<int>()
);
// freeze on HiddenMethodUserBreak:
var step_into2 = await SendCommandAndCheck(null, steppingFunction, null, -1, -1, null);
Assert.Equal(
pause_location.Value["locations"][0]["lineNumber"].Value<int>() + 1,
step_into2["callFrames"][0]["location"]["lineNumber"].Value<int>()
);
}
}
}
| -1 |
dotnet/runtime
| 66,398 |
Reenable compiler warning 4244 under coreclr/
|
Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
AaronRobinsonMSFT
| 2022-03-09T15:46:00Z | 2022-03-10T01:12:51Z |
763936ed098deaa1588935f17d7cc0a07c27c3fa
|
b71eba8b3a74fa6282dc1526e68abbd26f3e385f
|
Reenable compiler warning 4244 under coreclr/. Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
./src/tests/JIT/HardwareIntrinsics/Arm/AdvSimd/ShiftRightLogicalRoundedNarrowingLower.Vector64.Int16.1.cs
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
/******************************************************************************
* This file is auto-generated from a template file by the GenerateTests.csx *
* script in tests\src\JIT\HardwareIntrinsics\X86\Shared. In order to make *
* changes, please update the corresponding template and run according to the *
* directions listed in the file. *
******************************************************************************/
using System;
using System.Runtime.CompilerServices;
using System.Runtime.InteropServices;
using System.Runtime.Intrinsics;
using System.Runtime.Intrinsics.Arm;
namespace JIT.HardwareIntrinsics.Arm
{
public static partial class Program
{
private static void ShiftRightLogicalRoundedNarrowingLower_Vector64_Int16_1()
{
var test = new ImmUnaryOpTest__ShiftRightLogicalRoundedNarrowingLower_Vector64_Int16_1();
if (test.IsSupported)
{
// Validates basic functionality works, using Unsafe.Read
test.RunBasicScenario_UnsafeRead();
if (AdvSimd.IsSupported)
{
// Validates basic functionality works, using Load
test.RunBasicScenario_Load();
}
// Validates calling via reflection works, using Unsafe.Read
test.RunReflectionScenario_UnsafeRead();
if (AdvSimd.IsSupported)
{
// Validates calling via reflection works, using Load
test.RunReflectionScenario_Load();
}
// Validates passing a static member works
test.RunClsVarScenario();
if (AdvSimd.IsSupported)
{
// Validates passing a static member works, using pinning and Load
test.RunClsVarScenario_Load();
}
// Validates passing a local works, using Unsafe.Read
test.RunLclVarScenario_UnsafeRead();
if (AdvSimd.IsSupported)
{
// Validates passing a local works, using Load
test.RunLclVarScenario_Load();
}
// Validates passing the field of a local class works
test.RunClassLclFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing the field of a local class works, using pinning and Load
test.RunClassLclFldScenario_Load();
}
// Validates passing an instance member of a class works
test.RunClassFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing an instance member of a class works, using pinning and Load
test.RunClassFldScenario_Load();
}
// Validates passing the field of a local struct works
test.RunStructLclFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing the field of a local struct works, using pinning and Load
test.RunStructLclFldScenario_Load();
}
// Validates passing an instance member of a struct works
test.RunStructFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing an instance member of a struct works, using pinning and Load
test.RunStructFldScenario_Load();
}
}
else
{
// Validates we throw on unsupported hardware
test.RunUnsupportedScenario();
}
if (!test.Succeeded)
{
throw new Exception("One or more scenarios did not complete as expected.");
}
}
}
public sealed unsafe class ImmUnaryOpTest__ShiftRightLogicalRoundedNarrowingLower_Vector64_Int16_1
{
private struct DataTable
{
private byte[] inArray;
private byte[] outArray;
private GCHandle inHandle;
private GCHandle outHandle;
private ulong alignment;
public DataTable(Int32[] inArray, Int16[] outArray, int alignment)
{
int sizeOfinArray = inArray.Length * Unsafe.SizeOf<Int32>();
int sizeOfoutArray = outArray.Length * Unsafe.SizeOf<Int16>();
if ((alignment != 16 && alignment != 8) || (alignment * 2) < sizeOfinArray || (alignment * 2) < sizeOfoutArray)
{
throw new ArgumentException("Invalid value of alignment");
}
this.inArray = new byte[alignment * 2];
this.outArray = new byte[alignment * 2];
this.inHandle = GCHandle.Alloc(this.inArray, GCHandleType.Pinned);
this.outHandle = GCHandle.Alloc(this.outArray, GCHandleType.Pinned);
this.alignment = (ulong)alignment;
Unsafe.CopyBlockUnaligned(ref Unsafe.AsRef<byte>(inArrayPtr), ref Unsafe.As<Int32, byte>(ref inArray[0]), (uint)sizeOfinArray);
}
public void* inArrayPtr => Align((byte*)(inHandle.AddrOfPinnedObject().ToPointer()), alignment);
public void* outArrayPtr => Align((byte*)(outHandle.AddrOfPinnedObject().ToPointer()), alignment);
public void Dispose()
{
inHandle.Free();
outHandle.Free();
}
private static unsafe void* Align(byte* buffer, ulong expectedAlignment)
{
return (void*)(((ulong)buffer + expectedAlignment - 1) & ~(expectedAlignment - 1));
}
}
private struct TestStruct
{
public Vector128<Int32> _fld;
public static TestStruct Create()
{
var testStruct = new TestStruct();
for (var i = 0; i < Op1ElementCount; i++) { _data[i] = TestLibrary.Generator.GetInt32(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<Int32>, byte>(ref testStruct._fld), ref Unsafe.As<Int32, byte>(ref _data[0]), (uint)Unsafe.SizeOf<Vector128<Int32>>());
return testStruct;
}
public void RunStructFldScenario(ImmUnaryOpTest__ShiftRightLogicalRoundedNarrowingLower_Vector64_Int16_1 testClass)
{
var result = AdvSimd.ShiftRightLogicalRoundedNarrowingLower(_fld, 1);
Unsafe.Write(testClass._dataTable.outArrayPtr, result);
testClass.ValidateResult(_fld, testClass._dataTable.outArrayPtr);
}
public void RunStructFldScenario_Load(ImmUnaryOpTest__ShiftRightLogicalRoundedNarrowingLower_Vector64_Int16_1 testClass)
{
fixed (Vector128<Int32>* pFld = &_fld)
{
var result = AdvSimd.ShiftRightLogicalRoundedNarrowingLower(
AdvSimd.LoadVector128((Int32*)(pFld)),
1
);
Unsafe.Write(testClass._dataTable.outArrayPtr, result);
testClass.ValidateResult(_fld, testClass._dataTable.outArrayPtr);
}
}
}
private static readonly int LargestVectorSize = 16;
private static readonly int Op1ElementCount = Unsafe.SizeOf<Vector128<Int32>>() / sizeof(Int32);
private static readonly int RetElementCount = Unsafe.SizeOf<Vector64<Int16>>() / sizeof(Int16);
private static readonly byte Imm = 1;
private static Int32[] _data = new Int32[Op1ElementCount];
private static Vector128<Int32> _clsVar;
private Vector128<Int32> _fld;
private DataTable _dataTable;
static ImmUnaryOpTest__ShiftRightLogicalRoundedNarrowingLower_Vector64_Int16_1()
{
for (var i = 0; i < Op1ElementCount; i++) { _data[i] = TestLibrary.Generator.GetInt32(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<Int32>, byte>(ref _clsVar), ref Unsafe.As<Int32, byte>(ref _data[0]), (uint)Unsafe.SizeOf<Vector128<Int32>>());
}
public ImmUnaryOpTest__ShiftRightLogicalRoundedNarrowingLower_Vector64_Int16_1()
{
Succeeded = true;
for (var i = 0; i < Op1ElementCount; i++) { _data[i] = TestLibrary.Generator.GetInt32(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<Int32>, byte>(ref _fld), ref Unsafe.As<Int32, byte>(ref _data[0]), (uint)Unsafe.SizeOf<Vector128<Int32>>());
for (var i = 0; i < Op1ElementCount; i++) { _data[i] = TestLibrary.Generator.GetInt32(); }
_dataTable = new DataTable(_data, new Int16[RetElementCount], LargestVectorSize);
}
public bool IsSupported => AdvSimd.IsSupported;
public bool Succeeded { get; set; }
public void RunBasicScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunBasicScenario_UnsafeRead));
var result = AdvSimd.ShiftRightLogicalRoundedNarrowingLower(
Unsafe.Read<Vector128<Int32>>(_dataTable.inArrayPtr),
1
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_dataTable.inArrayPtr, _dataTable.outArrayPtr);
}
public void RunBasicScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunBasicScenario_Load));
var result = AdvSimd.ShiftRightLogicalRoundedNarrowingLower(
AdvSimd.LoadVector128((Int32*)(_dataTable.inArrayPtr)),
1
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_dataTable.inArrayPtr, _dataTable.outArrayPtr);
}
public void RunReflectionScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunReflectionScenario_UnsafeRead));
var result = typeof(AdvSimd).GetMethod(nameof(AdvSimd.ShiftRightLogicalRoundedNarrowingLower), new Type[] { typeof(Vector128<Int32>), typeof(byte) })
.Invoke(null, new object[] {
Unsafe.Read<Vector128<Int32>>(_dataTable.inArrayPtr),
(byte)1
});
Unsafe.Write(_dataTable.outArrayPtr, (Vector64<Int16>)(result));
ValidateResult(_dataTable.inArrayPtr, _dataTable.outArrayPtr);
}
public void RunReflectionScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunReflectionScenario_Load));
var result = typeof(AdvSimd).GetMethod(nameof(AdvSimd.ShiftRightLogicalRoundedNarrowingLower), new Type[] { typeof(Vector128<Int32>), typeof(byte) })
.Invoke(null, new object[] {
AdvSimd.LoadVector128((Int32*)(_dataTable.inArrayPtr)),
(byte)1
});
Unsafe.Write(_dataTable.outArrayPtr, (Vector64<Int16>)(result));
ValidateResult(_dataTable.inArrayPtr, _dataTable.outArrayPtr);
}
public void RunClsVarScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClsVarScenario));
var result = AdvSimd.ShiftRightLogicalRoundedNarrowingLower(
_clsVar,
1
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_clsVar, _dataTable.outArrayPtr);
}
public void RunClsVarScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClsVarScenario_Load));
fixed (Vector128<Int32>* pClsVar = &_clsVar)
{
var result = AdvSimd.ShiftRightLogicalRoundedNarrowingLower(
AdvSimd.LoadVector128((Int32*)(pClsVar)),
1
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_clsVar, _dataTable.outArrayPtr);
}
}
public void RunLclVarScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunLclVarScenario_UnsafeRead));
var firstOp = Unsafe.Read<Vector128<Int32>>(_dataTable.inArrayPtr);
var result = AdvSimd.ShiftRightLogicalRoundedNarrowingLower(firstOp, 1);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(firstOp, _dataTable.outArrayPtr);
}
public void RunLclVarScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunLclVarScenario_Load));
var firstOp = AdvSimd.LoadVector128((Int32*)(_dataTable.inArrayPtr));
var result = AdvSimd.ShiftRightLogicalRoundedNarrowingLower(firstOp, 1);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(firstOp, _dataTable.outArrayPtr);
}
public void RunClassLclFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassLclFldScenario));
var test = new ImmUnaryOpTest__ShiftRightLogicalRoundedNarrowingLower_Vector64_Int16_1();
var result = AdvSimd.ShiftRightLogicalRoundedNarrowingLower(test._fld, 1);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld, _dataTable.outArrayPtr);
}
public void RunClassLclFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassLclFldScenario_Load));
var test = new ImmUnaryOpTest__ShiftRightLogicalRoundedNarrowingLower_Vector64_Int16_1();
fixed (Vector128<Int32>* pFld = &test._fld)
{
var result = AdvSimd.ShiftRightLogicalRoundedNarrowingLower(
AdvSimd.LoadVector128((Int32*)(pFld)),
1
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld, _dataTable.outArrayPtr);
}
}
public void RunClassFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassFldScenario));
var result = AdvSimd.ShiftRightLogicalRoundedNarrowingLower(_fld, 1);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_fld, _dataTable.outArrayPtr);
}
public void RunClassFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassFldScenario_Load));
fixed (Vector128<Int32>* pFld = &_fld)
{
var result = AdvSimd.ShiftRightLogicalRoundedNarrowingLower(
AdvSimd.LoadVector128((Int32*)(pFld)),
1
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_fld, _dataTable.outArrayPtr);
}
}
public void RunStructLclFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructLclFldScenario));
var test = TestStruct.Create();
var result = AdvSimd.ShiftRightLogicalRoundedNarrowingLower(test._fld, 1);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld, _dataTable.outArrayPtr);
}
public void RunStructLclFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructLclFldScenario_Load));
var test = TestStruct.Create();
var result = AdvSimd.ShiftRightLogicalRoundedNarrowingLower(
AdvSimd.LoadVector128((Int32*)(&test._fld)),
1
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld, _dataTable.outArrayPtr);
}
public void RunStructFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructFldScenario));
var test = TestStruct.Create();
test.RunStructFldScenario(this);
}
public void RunStructFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructFldScenario_Load));
var test = TestStruct.Create();
test.RunStructFldScenario_Load(this);
}
public void RunUnsupportedScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunUnsupportedScenario));
bool succeeded = false;
try
{
RunBasicScenario_UnsafeRead();
}
catch (PlatformNotSupportedException)
{
succeeded = true;
}
if (!succeeded)
{
Succeeded = false;
}
}
private void ValidateResult(Vector128<Int32> firstOp, void* result, [CallerMemberName] string method = "")
{
Int32[] inArray = new Int32[Op1ElementCount];
Int16[] outArray = new Int16[RetElementCount];
Unsafe.WriteUnaligned(ref Unsafe.As<Int32, byte>(ref inArray[0]), firstOp);
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Int16, byte>(ref outArray[0]), ref Unsafe.AsRef<byte>(result), (uint)Unsafe.SizeOf<Vector64<Int16>>());
ValidateResult(inArray, outArray, method);
}
private void ValidateResult(void* firstOp, void* result, [CallerMemberName] string method = "")
{
Int32[] inArray = new Int32[Op1ElementCount];
Int16[] outArray = new Int16[RetElementCount];
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Int32, byte>(ref inArray[0]), ref Unsafe.AsRef<byte>(firstOp), (uint)Unsafe.SizeOf<Vector128<Int32>>());
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Int16, byte>(ref outArray[0]), ref Unsafe.AsRef<byte>(result), (uint)Unsafe.SizeOf<Vector64<Int16>>());
ValidateResult(inArray, outArray, method);
}
private void ValidateResult(Int32[] firstOp, Int16[] result, [CallerMemberName] string method = "")
{
bool succeeded = true;
for (var i = 0; i < RetElementCount; i++)
{
if (Helpers.ShiftRightLogicalRoundedNarrowing(firstOp[i], Imm) != result[i])
{
succeeded = false;
break;
}
}
if (!succeeded)
{
TestLibrary.TestFramework.LogInformation($"{nameof(AdvSimd)}.{nameof(AdvSimd.ShiftRightLogicalRoundedNarrowingLower)}<Int16>(Vector128<Int32>, 1): {method} failed:");
TestLibrary.TestFramework.LogInformation($" firstOp: ({string.Join(", ", firstOp)})");
TestLibrary.TestFramework.LogInformation($" result: ({string.Join(", ", result)})");
TestLibrary.TestFramework.LogInformation(string.Empty);
Succeeded = false;
}
}
}
}
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
/******************************************************************************
* This file is auto-generated from a template file by the GenerateTests.csx *
* script in tests\src\JIT\HardwareIntrinsics\X86\Shared. In order to make *
* changes, please update the corresponding template and run according to the *
* directions listed in the file. *
******************************************************************************/
using System;
using System.Runtime.CompilerServices;
using System.Runtime.InteropServices;
using System.Runtime.Intrinsics;
using System.Runtime.Intrinsics.Arm;
namespace JIT.HardwareIntrinsics.Arm
{
public static partial class Program
{
private static void ShiftRightLogicalRoundedNarrowingLower_Vector64_Int16_1()
{
var test = new ImmUnaryOpTest__ShiftRightLogicalRoundedNarrowingLower_Vector64_Int16_1();
if (test.IsSupported)
{
// Validates basic functionality works, using Unsafe.Read
test.RunBasicScenario_UnsafeRead();
if (AdvSimd.IsSupported)
{
// Validates basic functionality works, using Load
test.RunBasicScenario_Load();
}
// Validates calling via reflection works, using Unsafe.Read
test.RunReflectionScenario_UnsafeRead();
if (AdvSimd.IsSupported)
{
// Validates calling via reflection works, using Load
test.RunReflectionScenario_Load();
}
// Validates passing a static member works
test.RunClsVarScenario();
if (AdvSimd.IsSupported)
{
// Validates passing a static member works, using pinning and Load
test.RunClsVarScenario_Load();
}
// Validates passing a local works, using Unsafe.Read
test.RunLclVarScenario_UnsafeRead();
if (AdvSimd.IsSupported)
{
// Validates passing a local works, using Load
test.RunLclVarScenario_Load();
}
// Validates passing the field of a local class works
test.RunClassLclFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing the field of a local class works, using pinning and Load
test.RunClassLclFldScenario_Load();
}
// Validates passing an instance member of a class works
test.RunClassFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing an instance member of a class works, using pinning and Load
test.RunClassFldScenario_Load();
}
// Validates passing the field of a local struct works
test.RunStructLclFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing the field of a local struct works, using pinning and Load
test.RunStructLclFldScenario_Load();
}
// Validates passing an instance member of a struct works
test.RunStructFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing an instance member of a struct works, using pinning and Load
test.RunStructFldScenario_Load();
}
}
else
{
// Validates we throw on unsupported hardware
test.RunUnsupportedScenario();
}
if (!test.Succeeded)
{
throw new Exception("One or more scenarios did not complete as expected.");
}
}
}
public sealed unsafe class ImmUnaryOpTest__ShiftRightLogicalRoundedNarrowingLower_Vector64_Int16_1
{
private struct DataTable
{
private byte[] inArray;
private byte[] outArray;
private GCHandle inHandle;
private GCHandle outHandle;
private ulong alignment;
public DataTable(Int32[] inArray, Int16[] outArray, int alignment)
{
int sizeOfinArray = inArray.Length * Unsafe.SizeOf<Int32>();
int sizeOfoutArray = outArray.Length * Unsafe.SizeOf<Int16>();
if ((alignment != 16 && alignment != 8) || (alignment * 2) < sizeOfinArray || (alignment * 2) < sizeOfoutArray)
{
throw new ArgumentException("Invalid value of alignment");
}
this.inArray = new byte[alignment * 2];
this.outArray = new byte[alignment * 2];
this.inHandle = GCHandle.Alloc(this.inArray, GCHandleType.Pinned);
this.outHandle = GCHandle.Alloc(this.outArray, GCHandleType.Pinned);
this.alignment = (ulong)alignment;
Unsafe.CopyBlockUnaligned(ref Unsafe.AsRef<byte>(inArrayPtr), ref Unsafe.As<Int32, byte>(ref inArray[0]), (uint)sizeOfinArray);
}
public void* inArrayPtr => Align((byte*)(inHandle.AddrOfPinnedObject().ToPointer()), alignment);
public void* outArrayPtr => Align((byte*)(outHandle.AddrOfPinnedObject().ToPointer()), alignment);
public void Dispose()
{
inHandle.Free();
outHandle.Free();
}
private static unsafe void* Align(byte* buffer, ulong expectedAlignment)
{
return (void*)(((ulong)buffer + expectedAlignment - 1) & ~(expectedAlignment - 1));
}
}
private struct TestStruct
{
public Vector128<Int32> _fld;
public static TestStruct Create()
{
var testStruct = new TestStruct();
for (var i = 0; i < Op1ElementCount; i++) { _data[i] = TestLibrary.Generator.GetInt32(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<Int32>, byte>(ref testStruct._fld), ref Unsafe.As<Int32, byte>(ref _data[0]), (uint)Unsafe.SizeOf<Vector128<Int32>>());
return testStruct;
}
public void RunStructFldScenario(ImmUnaryOpTest__ShiftRightLogicalRoundedNarrowingLower_Vector64_Int16_1 testClass)
{
var result = AdvSimd.ShiftRightLogicalRoundedNarrowingLower(_fld, 1);
Unsafe.Write(testClass._dataTable.outArrayPtr, result);
testClass.ValidateResult(_fld, testClass._dataTable.outArrayPtr);
}
public void RunStructFldScenario_Load(ImmUnaryOpTest__ShiftRightLogicalRoundedNarrowingLower_Vector64_Int16_1 testClass)
{
fixed (Vector128<Int32>* pFld = &_fld)
{
var result = AdvSimd.ShiftRightLogicalRoundedNarrowingLower(
AdvSimd.LoadVector128((Int32*)(pFld)),
1
);
Unsafe.Write(testClass._dataTable.outArrayPtr, result);
testClass.ValidateResult(_fld, testClass._dataTable.outArrayPtr);
}
}
}
private static readonly int LargestVectorSize = 16;
private static readonly int Op1ElementCount = Unsafe.SizeOf<Vector128<Int32>>() / sizeof(Int32);
private static readonly int RetElementCount = Unsafe.SizeOf<Vector64<Int16>>() / sizeof(Int16);
private static readonly byte Imm = 1;
private static Int32[] _data = new Int32[Op1ElementCount];
private static Vector128<Int32> _clsVar;
private Vector128<Int32> _fld;
private DataTable _dataTable;
static ImmUnaryOpTest__ShiftRightLogicalRoundedNarrowingLower_Vector64_Int16_1()
{
for (var i = 0; i < Op1ElementCount; i++) { _data[i] = TestLibrary.Generator.GetInt32(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<Int32>, byte>(ref _clsVar), ref Unsafe.As<Int32, byte>(ref _data[0]), (uint)Unsafe.SizeOf<Vector128<Int32>>());
}
public ImmUnaryOpTest__ShiftRightLogicalRoundedNarrowingLower_Vector64_Int16_1()
{
Succeeded = true;
for (var i = 0; i < Op1ElementCount; i++) { _data[i] = TestLibrary.Generator.GetInt32(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<Int32>, byte>(ref _fld), ref Unsafe.As<Int32, byte>(ref _data[0]), (uint)Unsafe.SizeOf<Vector128<Int32>>());
for (var i = 0; i < Op1ElementCount; i++) { _data[i] = TestLibrary.Generator.GetInt32(); }
_dataTable = new DataTable(_data, new Int16[RetElementCount], LargestVectorSize);
}
public bool IsSupported => AdvSimd.IsSupported;
public bool Succeeded { get; set; }
public void RunBasicScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunBasicScenario_UnsafeRead));
var result = AdvSimd.ShiftRightLogicalRoundedNarrowingLower(
Unsafe.Read<Vector128<Int32>>(_dataTable.inArrayPtr),
1
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_dataTable.inArrayPtr, _dataTable.outArrayPtr);
}
public void RunBasicScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunBasicScenario_Load));
var result = AdvSimd.ShiftRightLogicalRoundedNarrowingLower(
AdvSimd.LoadVector128((Int32*)(_dataTable.inArrayPtr)),
1
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_dataTable.inArrayPtr, _dataTable.outArrayPtr);
}
public void RunReflectionScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunReflectionScenario_UnsafeRead));
var result = typeof(AdvSimd).GetMethod(nameof(AdvSimd.ShiftRightLogicalRoundedNarrowingLower), new Type[] { typeof(Vector128<Int32>), typeof(byte) })
.Invoke(null, new object[] {
Unsafe.Read<Vector128<Int32>>(_dataTable.inArrayPtr),
(byte)1
});
Unsafe.Write(_dataTable.outArrayPtr, (Vector64<Int16>)(result));
ValidateResult(_dataTable.inArrayPtr, _dataTable.outArrayPtr);
}
public void RunReflectionScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunReflectionScenario_Load));
var result = typeof(AdvSimd).GetMethod(nameof(AdvSimd.ShiftRightLogicalRoundedNarrowingLower), new Type[] { typeof(Vector128<Int32>), typeof(byte) })
.Invoke(null, new object[] {
AdvSimd.LoadVector128((Int32*)(_dataTable.inArrayPtr)),
(byte)1
});
Unsafe.Write(_dataTable.outArrayPtr, (Vector64<Int16>)(result));
ValidateResult(_dataTable.inArrayPtr, _dataTable.outArrayPtr);
}
public void RunClsVarScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClsVarScenario));
var result = AdvSimd.ShiftRightLogicalRoundedNarrowingLower(
_clsVar,
1
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_clsVar, _dataTable.outArrayPtr);
}
public void RunClsVarScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClsVarScenario_Load));
fixed (Vector128<Int32>* pClsVar = &_clsVar)
{
var result = AdvSimd.ShiftRightLogicalRoundedNarrowingLower(
AdvSimd.LoadVector128((Int32*)(pClsVar)),
1
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_clsVar, _dataTable.outArrayPtr);
}
}
public void RunLclVarScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunLclVarScenario_UnsafeRead));
var firstOp = Unsafe.Read<Vector128<Int32>>(_dataTable.inArrayPtr);
var result = AdvSimd.ShiftRightLogicalRoundedNarrowingLower(firstOp, 1);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(firstOp, _dataTable.outArrayPtr);
}
public void RunLclVarScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunLclVarScenario_Load));
var firstOp = AdvSimd.LoadVector128((Int32*)(_dataTable.inArrayPtr));
var result = AdvSimd.ShiftRightLogicalRoundedNarrowingLower(firstOp, 1);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(firstOp, _dataTable.outArrayPtr);
}
public void RunClassLclFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassLclFldScenario));
var test = new ImmUnaryOpTest__ShiftRightLogicalRoundedNarrowingLower_Vector64_Int16_1();
var result = AdvSimd.ShiftRightLogicalRoundedNarrowingLower(test._fld, 1);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld, _dataTable.outArrayPtr);
}
public void RunClassLclFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassLclFldScenario_Load));
var test = new ImmUnaryOpTest__ShiftRightLogicalRoundedNarrowingLower_Vector64_Int16_1();
fixed (Vector128<Int32>* pFld = &test._fld)
{
var result = AdvSimd.ShiftRightLogicalRoundedNarrowingLower(
AdvSimd.LoadVector128((Int32*)(pFld)),
1
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld, _dataTable.outArrayPtr);
}
}
public void RunClassFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassFldScenario));
var result = AdvSimd.ShiftRightLogicalRoundedNarrowingLower(_fld, 1);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_fld, _dataTable.outArrayPtr);
}
public void RunClassFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassFldScenario_Load));
fixed (Vector128<Int32>* pFld = &_fld)
{
var result = AdvSimd.ShiftRightLogicalRoundedNarrowingLower(
AdvSimd.LoadVector128((Int32*)(pFld)),
1
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_fld, _dataTable.outArrayPtr);
}
}
public void RunStructLclFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructLclFldScenario));
var test = TestStruct.Create();
var result = AdvSimd.ShiftRightLogicalRoundedNarrowingLower(test._fld, 1);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld, _dataTable.outArrayPtr);
}
public void RunStructLclFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructLclFldScenario_Load));
var test = TestStruct.Create();
var result = AdvSimd.ShiftRightLogicalRoundedNarrowingLower(
AdvSimd.LoadVector128((Int32*)(&test._fld)),
1
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld, _dataTable.outArrayPtr);
}
public void RunStructFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructFldScenario));
var test = TestStruct.Create();
test.RunStructFldScenario(this);
}
public void RunStructFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructFldScenario_Load));
var test = TestStruct.Create();
test.RunStructFldScenario_Load(this);
}
public void RunUnsupportedScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunUnsupportedScenario));
bool succeeded = false;
try
{
RunBasicScenario_UnsafeRead();
}
catch (PlatformNotSupportedException)
{
succeeded = true;
}
if (!succeeded)
{
Succeeded = false;
}
}
private void ValidateResult(Vector128<Int32> firstOp, void* result, [CallerMemberName] string method = "")
{
Int32[] inArray = new Int32[Op1ElementCount];
Int16[] outArray = new Int16[RetElementCount];
Unsafe.WriteUnaligned(ref Unsafe.As<Int32, byte>(ref inArray[0]), firstOp);
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Int16, byte>(ref outArray[0]), ref Unsafe.AsRef<byte>(result), (uint)Unsafe.SizeOf<Vector64<Int16>>());
ValidateResult(inArray, outArray, method);
}
private void ValidateResult(void* firstOp, void* result, [CallerMemberName] string method = "")
{
Int32[] inArray = new Int32[Op1ElementCount];
Int16[] outArray = new Int16[RetElementCount];
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Int32, byte>(ref inArray[0]), ref Unsafe.AsRef<byte>(firstOp), (uint)Unsafe.SizeOf<Vector128<Int32>>());
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Int16, byte>(ref outArray[0]), ref Unsafe.AsRef<byte>(result), (uint)Unsafe.SizeOf<Vector64<Int16>>());
ValidateResult(inArray, outArray, method);
}
private void ValidateResult(Int32[] firstOp, Int16[] result, [CallerMemberName] string method = "")
{
bool succeeded = true;
for (var i = 0; i < RetElementCount; i++)
{
if (Helpers.ShiftRightLogicalRoundedNarrowing(firstOp[i], Imm) != result[i])
{
succeeded = false;
break;
}
}
if (!succeeded)
{
TestLibrary.TestFramework.LogInformation($"{nameof(AdvSimd)}.{nameof(AdvSimd.ShiftRightLogicalRoundedNarrowingLower)}<Int16>(Vector128<Int32>, 1): {method} failed:");
TestLibrary.TestFramework.LogInformation($" firstOp: ({string.Join(", ", firstOp)})");
TestLibrary.TestFramework.LogInformation($" result: ({string.Join(", ", result)})");
TestLibrary.TestFramework.LogInformation(string.Empty);
Succeeded = false;
}
}
}
}
| -1 |
dotnet/runtime
| 66,398 |
Reenable compiler warning 4244 under coreclr/
|
Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
AaronRobinsonMSFT
| 2022-03-09T15:46:00Z | 2022-03-10T01:12:51Z |
763936ed098deaa1588935f17d7cc0a07c27c3fa
|
b71eba8b3a74fa6282dc1526e68abbd26f3e385f
|
Reenable compiler warning 4244 under coreclr/. Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
./src/tests/Loader/classloader/TypeGeneratorTests/TypeGeneratorTest1117/Generated1117.il
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
.assembly extern mscorlib { .publickeytoken = (B7 7A 5C 56 19 34 E0 89 ) .ver 4:0:0:0 }
.assembly extern TestFramework { .publickeytoken = ( B0 3F 5F 7F 11 D5 0A 3A ) }
//TYPES IN FORWARDER ASSEMBLIES:
//TEST ASSEMBLY:
.assembly Generated1117 { .hash algorithm 0x00008004 }
.assembly extern xunit.core {}
.class public BaseClass0
{
.method public hidebysig specialname rtspecialname instance void .ctor() cil managed {
ldarg.0
call instance void [mscorlib]System.Object::.ctor()
ret
}
}
.class public BaseClass1
extends BaseClass0
{
.method public hidebysig specialname rtspecialname instance void .ctor() cil managed {
ldarg.0
call instance void BaseClass0::.ctor()
ret
}
}
.class public G3_C1589`1<T0>
extends class G2_C598`2<!T0,class BaseClass0>
implements class IBase2`2<!T0,class BaseClass0>
{
.method public hidebysig newslot virtual instance string Method7<M0>() cil managed noinlining {
ldstr "G3_C1589::Method7.16950<"
ldtoken !!M0
call class [mscorlib]System.Type [mscorlib]System.Type::GetTypeFromHandle(valuetype [mscorlib]System.RuntimeTypeHandle)
call string [mscorlib]System.String::Concat(object,object)
ldstr ">()"
call string [mscorlib]System.String::Concat(object,object)
ret
}
.method public hidebysig newslot virtual instance string ClassMethod4566() cil managed noinlining {
ldstr "G3_C1589::ClassMethod4566.16951()"
ret
}
.method public hidebysig newslot virtual instance string ClassMethod4567<M0>() cil managed noinlining {
ldstr "G3_C1589::ClassMethod4567.16952<"
ldtoken !!M0
call class [mscorlib]System.Type [mscorlib]System.Type::GetTypeFromHandle(valuetype [mscorlib]System.RuntimeTypeHandle)
call string [mscorlib]System.String::Concat(object,object)
ldstr ">()"
call string [mscorlib]System.String::Concat(object,object)
ret
}
.method public hidebysig specialname rtspecialname instance void .ctor() cil managed {
ldarg.0
call instance void class G2_C598`2<!T0,class BaseClass0>::.ctor()
ret
}
}
.class public G2_C598`2<T0, T1>
extends class G1_C11`2<!T0,class BaseClass1>
implements class IBase1`1<class BaseClass1>, class IBase2`2<!T0,class BaseClass0>
{
.method public hidebysig newslot virtual instance string Method4() cil managed noinlining {
ldstr "G2_C598::Method4.10508()"
ret
}
.method public hidebysig newslot virtual instance string 'IBase1<class BaseClass1>.Method4'() cil managed noinlining {
.override method instance string class IBase1`1<class BaseClass1>::Method4()
ldstr "G2_C598::Method4.MI.10509()"
ret
}
.method public hidebysig virtual instance string Method5() cil managed noinlining {
ldstr "G2_C598::Method5.10510()"
ret
}
.method public hidebysig newslot virtual instance string 'IBase1<class BaseClass1>.Method5'() cil managed noinlining {
.override method instance string class IBase1`1<class BaseClass1>::Method5()
ldstr "G2_C598::Method5.MI.10511()"
ret
}
.method public hidebysig newslot virtual instance string Method6<M0>() cil managed noinlining {
ldstr "G2_C598::Method6.10512<"
ldtoken !!M0
call class [mscorlib]System.Type [mscorlib]System.Type::GetTypeFromHandle(valuetype [mscorlib]System.RuntimeTypeHandle)
call string [mscorlib]System.String::Concat(object,object)
ldstr ">()"
call string [mscorlib]System.String::Concat(object,object)
ret
}
.method public hidebysig virtual instance string Method7<M0>() cil managed noinlining {
ldstr "G2_C598::Method7.10513<"
ldtoken !!M0
call class [mscorlib]System.Type [mscorlib]System.Type::GetTypeFromHandle(valuetype [mscorlib]System.RuntimeTypeHandle)
call string [mscorlib]System.String::Concat(object,object)
ldstr ">()"
call string [mscorlib]System.String::Concat(object,object)
ret
}
.method public hidebysig newslot virtual instance string 'IBase2<T0,class BaseClass0>.Method7'<M0>() cil managed noinlining {
.override method instance string class IBase2`2<!T0,class BaseClass0>::Method7<[1]>()
ldstr "G2_C598::Method7.MI.10514<"
ldtoken !!M0
call class [mscorlib]System.Type [mscorlib]System.Type::GetTypeFromHandle(valuetype [mscorlib]System.RuntimeTypeHandle)
call string [mscorlib]System.String::Concat(object,object)
ldstr ">()"
call string [mscorlib]System.String::Concat(object,object)
ret
}
.method public hidebysig newslot virtual instance string ClassMethod2566() cil managed noinlining {
ldstr "G2_C598::ClassMethod2566.10515()"
ret
}
.method public hidebysig newslot virtual instance string 'G1_C11<T0,class BaseClass1>.ClassMethod1344'<M0>() cil managed noinlining {
.override method instance string class G1_C11`2<!T0,class BaseClass1>::ClassMethod1344<[1]>()
ldstr "G2_C598::ClassMethod1344.MI.10516<"
ldtoken !!M0
call class [mscorlib]System.Type [mscorlib]System.Type::GetTypeFromHandle(valuetype [mscorlib]System.RuntimeTypeHandle)
call string [mscorlib]System.String::Concat(object,object)
ldstr ">()"
call string [mscorlib]System.String::Concat(object,object)
ret
}
.method public hidebysig specialname rtspecialname instance void .ctor() cil managed {
ldarg.0
call instance void class G1_C11`2<!T0,class BaseClass1>::.ctor()
ret
}
}
.class interface public abstract IBase2`2<+T0, -T1>
{
.method public hidebysig newslot abstract virtual instance string Method7<M0>() cil managed { }
}
.class public G1_C11`2<T0, T1>
implements class IBase2`2<class BaseClass1,!T1>, class IBase1`1<class BaseClass0>
{
.method public hidebysig newslot virtual instance string Method7<M0>() cil managed noinlining {
ldstr "G1_C11::Method7.4854<"
ldtoken !!M0
call class [mscorlib]System.Type [mscorlib]System.Type::GetTypeFromHandle(valuetype [mscorlib]System.RuntimeTypeHandle)
call string [mscorlib]System.String::Concat(object,object)
ldstr ">()"
call string [mscorlib]System.String::Concat(object,object)
ret
}
.method public hidebysig newslot virtual instance string 'IBase2<class BaseClass1,T1>.Method7'<M0>() cil managed noinlining {
.override method instance string class IBase2`2<class BaseClass1,!T1>::Method7<[1]>()
ldstr "G1_C11::Method7.MI.4855<"
ldtoken !!M0
call class [mscorlib]System.Type [mscorlib]System.Type::GetTypeFromHandle(valuetype [mscorlib]System.RuntimeTypeHandle)
call string [mscorlib]System.String::Concat(object,object)
ldstr ">()"
call string [mscorlib]System.String::Concat(object,object)
ret
}
.method public hidebysig virtual instance string Method4() cil managed noinlining {
ldstr "G1_C11::Method4.4856()"
ret
}
.method public hidebysig newslot virtual instance string 'IBase1<class BaseClass0>.Method4'() cil managed noinlining {
.override method instance string class IBase1`1<class BaseClass0>::Method4()
ldstr "G1_C11::Method4.MI.4857()"
ret
}
.method public hidebysig virtual instance string Method5() cil managed noinlining {
ldstr "G1_C11::Method5.4858()"
ret
}
.method public hidebysig virtual instance string Method6<M0>() cil managed noinlining {
ldstr "G1_C11::Method6.4859<"
ldtoken !!M0
call class [mscorlib]System.Type [mscorlib]System.Type::GetTypeFromHandle(valuetype [mscorlib]System.RuntimeTypeHandle)
call string [mscorlib]System.String::Concat(object,object)
ldstr ">()"
call string [mscorlib]System.String::Concat(object,object)
ret
}
.method public hidebysig newslot virtual instance string 'IBase1<class BaseClass0>.Method6'<M0>() cil managed noinlining {
.override method instance string class IBase1`1<class BaseClass0>::Method6<[1]>()
ldstr "G1_C11::Method6.MI.4860<"
ldtoken !!M0
call class [mscorlib]System.Type [mscorlib]System.Type::GetTypeFromHandle(valuetype [mscorlib]System.RuntimeTypeHandle)
call string [mscorlib]System.String::Concat(object,object)
ldstr ">()"
call string [mscorlib]System.String::Concat(object,object)
ret
}
.method public hidebysig newslot virtual instance string ClassMethod1344<M0>() cil managed noinlining {
ldstr "G1_C11::ClassMethod1344.4861<"
ldtoken !!M0
call class [mscorlib]System.Type [mscorlib]System.Type::GetTypeFromHandle(valuetype [mscorlib]System.RuntimeTypeHandle)
call string [mscorlib]System.String::Concat(object,object)
ldstr ">()"
call string [mscorlib]System.String::Concat(object,object)
ret
}
.method public hidebysig newslot virtual instance string ClassMethod1345<M0>() cil managed noinlining {
ldstr "G1_C11::ClassMethod1345.4862<"
ldtoken !!M0
call class [mscorlib]System.Type [mscorlib]System.Type::GetTypeFromHandle(valuetype [mscorlib]System.RuntimeTypeHandle)
call string [mscorlib]System.String::Concat(object,object)
ldstr ">()"
call string [mscorlib]System.String::Concat(object,object)
ret
}
.method public hidebysig specialname rtspecialname instance void .ctor() cil managed {
ldarg.0
call instance void [mscorlib]System.Object::.ctor()
ret
}
}
.class interface public abstract IBase1`1<+T0>
{
.method public hidebysig newslot abstract virtual instance string Method4() cil managed { }
.method public hidebysig newslot abstract virtual instance string Method5() cil managed { }
.method public hidebysig newslot abstract virtual instance string Method6<M0>() cil managed { }
}
.class public auto ansi beforefieldinit Generated1117 {
.method static void M.BaseClass0<(BaseClass0)W>(!!W inst, string exp) cil managed {
.maxstack 5
.locals init (string[] actualResults)
ldc.i4.s 0
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.BaseClass0<(BaseClass0)W>(!!W inst, string exp)"
ldc.i4.s 0
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.BaseClass1<(BaseClass1)W>(!!W inst, string exp) cil managed {
.maxstack 5
.locals init (string[] actualResults)
ldc.i4.s 0
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.BaseClass1<(BaseClass1)W>(!!W inst, string exp)"
ldc.i4.s 0
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G3_C1589.T<T0,(class G3_C1589`1<!!T0>)W>(!!W 'inst', string exp) cil managed {
.maxstack 14
.locals init (string[] actualResults)
ldc.i4.s 9
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G3_C1589.T<T0,(class G3_C1589`1<!!T0>)W>(!!W 'inst', string exp)"
ldc.i4.s 9
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1589`1<!!T0>::ClassMethod1344<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1589`1<!!T0>::ClassMethod1345<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1589`1<!!T0>::ClassMethod2566()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1589`1<!!T0>::ClassMethod4566()
stelem.ref
ldloc.s actualResults
ldc.i4.s 4
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1589`1<!!T0>::ClassMethod4567<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 5
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1589`1<!!T0>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 6
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1589`1<!!T0>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 7
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1589`1<!!T0>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 8
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1589`1<!!T0>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G3_C1589.A<(class G3_C1589`1<class BaseClass0>)W>(!!W 'inst', string exp) cil managed {
.maxstack 14
.locals init (string[] actualResults)
ldc.i4.s 9
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G3_C1589.A<(class G3_C1589`1<class BaseClass0>)W>(!!W 'inst', string exp)"
ldc.i4.s 9
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1589`1<class BaseClass0>::ClassMethod1344<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1589`1<class BaseClass0>::ClassMethod1345<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1589`1<class BaseClass0>::ClassMethod2566()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1589`1<class BaseClass0>::ClassMethod4566()
stelem.ref
ldloc.s actualResults
ldc.i4.s 4
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1589`1<class BaseClass0>::ClassMethod4567<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 5
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1589`1<class BaseClass0>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 6
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1589`1<class BaseClass0>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 7
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1589`1<class BaseClass0>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 8
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1589`1<class BaseClass0>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G3_C1589.B<(class G3_C1589`1<class BaseClass1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 14
.locals init (string[] actualResults)
ldc.i4.s 9
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G3_C1589.B<(class G3_C1589`1<class BaseClass1>)W>(!!W 'inst', string exp)"
ldc.i4.s 9
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1589`1<class BaseClass1>::ClassMethod1344<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1589`1<class BaseClass1>::ClassMethod1345<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1589`1<class BaseClass1>::ClassMethod2566()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1589`1<class BaseClass1>::ClassMethod4566()
stelem.ref
ldloc.s actualResults
ldc.i4.s 4
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1589`1<class BaseClass1>::ClassMethod4567<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 5
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1589`1<class BaseClass1>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 6
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1589`1<class BaseClass1>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 7
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1589`1<class BaseClass1>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 8
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1589`1<class BaseClass1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G2_C598.T.T<T0,T1,(class G2_C598`2<!!T0,!!T1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 12
.locals init (string[] actualResults)
ldc.i4.s 7
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G2_C598.T.T<T0,T1,(class G2_C598`2<!!T0,!!T1>)W>(!!W 'inst', string exp)"
ldc.i4.s 7
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<!!T0,!!T1>::ClassMethod1344<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<!!T0,!!T1>::ClassMethod1345<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<!!T0,!!T1>::ClassMethod2566()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<!!T0,!!T1>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 4
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<!!T0,!!T1>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 5
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<!!T0,!!T1>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 6
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<!!T0,!!T1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G2_C598.A.T<T1,(class G2_C598`2<class BaseClass0,!!T1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 12
.locals init (string[] actualResults)
ldc.i4.s 7
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G2_C598.A.T<T1,(class G2_C598`2<class BaseClass0,!!T1>)W>(!!W 'inst', string exp)"
ldc.i4.s 7
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass0,!!T1>::ClassMethod1344<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass0,!!T1>::ClassMethod1345<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass0,!!T1>::ClassMethod2566()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass0,!!T1>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 4
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass0,!!T1>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 5
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass0,!!T1>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 6
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass0,!!T1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G2_C598.A.A<(class G2_C598`2<class BaseClass0,class BaseClass0>)W>(!!W 'inst', string exp) cil managed {
.maxstack 12
.locals init (string[] actualResults)
ldc.i4.s 7
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G2_C598.A.A<(class G2_C598`2<class BaseClass0,class BaseClass0>)W>(!!W 'inst', string exp)"
ldc.i4.s 7
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass0>::ClassMethod1344<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass0>::ClassMethod1345<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass0>::ClassMethod2566()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass0>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 4
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass0>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 5
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass0>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 6
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass0>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G2_C598.A.B<(class G2_C598`2<class BaseClass0,class BaseClass1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 12
.locals init (string[] actualResults)
ldc.i4.s 7
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G2_C598.A.B<(class G2_C598`2<class BaseClass0,class BaseClass1>)W>(!!W 'inst', string exp)"
ldc.i4.s 7
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass1>::ClassMethod1344<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass1>::ClassMethod1345<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass1>::ClassMethod2566()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass1>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 4
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass1>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 5
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass1>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 6
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G2_C598.B.T<T1,(class G2_C598`2<class BaseClass1,!!T1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 12
.locals init (string[] actualResults)
ldc.i4.s 7
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G2_C598.B.T<T1,(class G2_C598`2<class BaseClass1,!!T1>)W>(!!W 'inst', string exp)"
ldc.i4.s 7
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass1,!!T1>::ClassMethod1344<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass1,!!T1>::ClassMethod1345<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass1,!!T1>::ClassMethod2566()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass1,!!T1>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 4
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass1,!!T1>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 5
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass1,!!T1>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 6
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass1,!!T1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G2_C598.B.A<(class G2_C598`2<class BaseClass1,class BaseClass0>)W>(!!W 'inst', string exp) cil managed {
.maxstack 12
.locals init (string[] actualResults)
ldc.i4.s 7
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G2_C598.B.A<(class G2_C598`2<class BaseClass1,class BaseClass0>)W>(!!W 'inst', string exp)"
ldc.i4.s 7
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass0>::ClassMethod1344<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass0>::ClassMethod1345<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass0>::ClassMethod2566()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass0>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 4
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass0>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 5
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass0>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 6
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass0>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G2_C598.B.B<(class G2_C598`2<class BaseClass1,class BaseClass1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 12
.locals init (string[] actualResults)
ldc.i4.s 7
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G2_C598.B.B<(class G2_C598`2<class BaseClass1,class BaseClass1>)W>(!!W 'inst', string exp)"
ldc.i4.s 7
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass1>::ClassMethod1344<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass1>::ClassMethod1345<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass1>::ClassMethod2566()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass1>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 4
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass1>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 5
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass1>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 6
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.IBase2.T.T<T0,T1,(class IBase2`2<!!T0,!!T1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 6
.locals init (string[] actualResults)
ldc.i4.s 1
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.IBase2.T.T<T0,T1,(class IBase2`2<!!T0,!!T1>)W>(!!W 'inst', string exp)"
ldc.i4.s 1
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class IBase2`2<!!T0,!!T1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.IBase2.A.T<T1,(class IBase2`2<class BaseClass0,!!T1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 6
.locals init (string[] actualResults)
ldc.i4.s 1
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.IBase2.A.T<T1,(class IBase2`2<class BaseClass0,!!T1>)W>(!!W 'inst', string exp)"
ldc.i4.s 1
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class IBase2`2<class BaseClass0,!!T1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.IBase2.A.A<(class IBase2`2<class BaseClass0,class BaseClass0>)W>(!!W 'inst', string exp) cil managed {
.maxstack 6
.locals init (string[] actualResults)
ldc.i4.s 1
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.IBase2.A.A<(class IBase2`2<class BaseClass0,class BaseClass0>)W>(!!W 'inst', string exp)"
ldc.i4.s 1
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.IBase2.A.B<(class IBase2`2<class BaseClass0,class BaseClass1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 6
.locals init (string[] actualResults)
ldc.i4.s 1
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.IBase2.A.B<(class IBase2`2<class BaseClass0,class BaseClass1>)W>(!!W 'inst', string exp)"
ldc.i4.s 1
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.IBase2.B.T<T1,(class IBase2`2<class BaseClass1,!!T1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 6
.locals init (string[] actualResults)
ldc.i4.s 1
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.IBase2.B.T<T1,(class IBase2`2<class BaseClass1,!!T1>)W>(!!W 'inst', string exp)"
ldc.i4.s 1
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class IBase2`2<class BaseClass1,!!T1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.IBase2.B.A<(class IBase2`2<class BaseClass1,class BaseClass0>)W>(!!W 'inst', string exp) cil managed {
.maxstack 6
.locals init (string[] actualResults)
ldc.i4.s 1
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.IBase2.B.A<(class IBase2`2<class BaseClass1,class BaseClass0>)W>(!!W 'inst', string exp)"
ldc.i4.s 1
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class IBase2`2<class BaseClass1,class BaseClass0>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.IBase2.B.B<(class IBase2`2<class BaseClass1,class BaseClass1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 6
.locals init (string[] actualResults)
ldc.i4.s 1
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.IBase2.B.B<(class IBase2`2<class BaseClass1,class BaseClass1>)W>(!!W 'inst', string exp)"
ldc.i4.s 1
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class IBase2`2<class BaseClass1,class BaseClass1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G1_C11.T.T<T0,T1,(class G1_C11`2<!!T0,!!T1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 11
.locals init (string[] actualResults)
ldc.i4.s 6
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G1_C11.T.T<T0,T1,(class G1_C11`2<!!T0,!!T1>)W>(!!W 'inst', string exp)"
ldc.i4.s 6
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<!!T0,!!T1>::ClassMethod1344<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<!!T0,!!T1>::ClassMethod1345<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<!!T0,!!T1>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<!!T0,!!T1>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 4
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<!!T0,!!T1>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 5
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<!!T0,!!T1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G1_C11.A.T<T1,(class G1_C11`2<class BaseClass0,!!T1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 11
.locals init (string[] actualResults)
ldc.i4.s 6
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G1_C11.A.T<T1,(class G1_C11`2<class BaseClass0,!!T1>)W>(!!W 'inst', string exp)"
ldc.i4.s 6
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass0,!!T1>::ClassMethod1344<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass0,!!T1>::ClassMethod1345<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass0,!!T1>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass0,!!T1>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 4
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass0,!!T1>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 5
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass0,!!T1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G1_C11.A.A<(class G1_C11`2<class BaseClass0,class BaseClass0>)W>(!!W 'inst', string exp) cil managed {
.maxstack 11
.locals init (string[] actualResults)
ldc.i4.s 6
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G1_C11.A.A<(class G1_C11`2<class BaseClass0,class BaseClass0>)W>(!!W 'inst', string exp)"
ldc.i4.s 6
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass0>::ClassMethod1344<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass0>::ClassMethod1345<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass0>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass0>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 4
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass0>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 5
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass0>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G1_C11.A.B<(class G1_C11`2<class BaseClass0,class BaseClass1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 11
.locals init (string[] actualResults)
ldc.i4.s 6
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G1_C11.A.B<(class G1_C11`2<class BaseClass0,class BaseClass1>)W>(!!W 'inst', string exp)"
ldc.i4.s 6
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::ClassMethod1344<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::ClassMethod1345<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 4
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 5
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G1_C11.B.T<T1,(class G1_C11`2<class BaseClass1,!!T1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 11
.locals init (string[] actualResults)
ldc.i4.s 6
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G1_C11.B.T<T1,(class G1_C11`2<class BaseClass1,!!T1>)W>(!!W 'inst', string exp)"
ldc.i4.s 6
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass1,!!T1>::ClassMethod1344<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass1,!!T1>::ClassMethod1345<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass1,!!T1>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass1,!!T1>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 4
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass1,!!T1>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 5
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass1,!!T1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G1_C11.B.A<(class G1_C11`2<class BaseClass1,class BaseClass0>)W>(!!W 'inst', string exp) cil managed {
.maxstack 11
.locals init (string[] actualResults)
ldc.i4.s 6
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G1_C11.B.A<(class G1_C11`2<class BaseClass1,class BaseClass0>)W>(!!W 'inst', string exp)"
ldc.i4.s 6
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass0>::ClassMethod1344<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass0>::ClassMethod1345<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass0>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass0>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 4
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass0>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 5
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass0>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G1_C11.B.B<(class G1_C11`2<class BaseClass1,class BaseClass1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 11
.locals init (string[] actualResults)
ldc.i4.s 6
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G1_C11.B.B<(class G1_C11`2<class BaseClass1,class BaseClass1>)W>(!!W 'inst', string exp)"
ldc.i4.s 6
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::ClassMethod1344<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::ClassMethod1345<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 4
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 5
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.IBase1.T<T0,(class IBase1`1<!!T0>)W>(!!W 'inst', string exp) cil managed {
.maxstack 8
.locals init (string[] actualResults)
ldc.i4.s 3
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.IBase1.T<T0,(class IBase1`1<!!T0>)W>(!!W 'inst', string exp)"
ldc.i4.s 3
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class IBase1`1<!!T0>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class IBase1`1<!!T0>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class IBase1`1<!!T0>::Method6<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.IBase1.A<(class IBase1`1<class BaseClass0>)W>(!!W 'inst', string exp) cil managed {
.maxstack 8
.locals init (string[] actualResults)
ldc.i4.s 3
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.IBase1.A<(class IBase1`1<class BaseClass0>)W>(!!W 'inst', string exp)"
ldc.i4.s 3
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class IBase1`1<class BaseClass0>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class IBase1`1<class BaseClass0>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class IBase1`1<class BaseClass0>::Method6<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.IBase1.B<(class IBase1`1<class BaseClass1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 8
.locals init (string[] actualResults)
ldc.i4.s 3
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.IBase1.B<(class IBase1`1<class BaseClass1>)W>(!!W 'inst', string exp)"
ldc.i4.s 3
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class IBase1`1<class BaseClass1>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class IBase1`1<class BaseClass1>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class IBase1`1<class BaseClass1>::Method6<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method public hidebysig static void MethodCallingTest() cil managed
{
.maxstack 10
.locals init (object V_0)
ldstr "========================== Method Calling Test =========================="
call void [mscorlib]System.Console::WriteLine(string)
newobj instance void class G3_C1589`1<class BaseClass0>::.ctor()
stloc.0
ldloc.0
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::ClassMethod1345<object>()
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::ClassMethod1344<object>()
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method6<object>()
ldstr "G1_C11::Method6.4859<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method5()
ldstr "G2_C598::Method5.10510()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method4()
ldstr "G1_C11::Method4.4856()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method7<object>()
ldstr "G2_C598::Method7.10513<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass1,class BaseClass1>::Method7<object>()
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass1> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method4()
ldstr "G2_C598::Method4.MI.10509()"
ldstr "class IBase1`1<class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method5()
ldstr "G2_C598::Method5.MI.10511()"
ldstr "class IBase1`1<class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method6<object>()
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
ldstr "G3_C1589::Method7.16950<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass0>::ClassMethod2566()
ldstr "G2_C598::ClassMethod2566.10515()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass0>::Method7<object>()
ldstr "G2_C598::Method7.10513<System.Object>()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass0>::Method6<object>()
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass0>::Method5()
ldstr "G2_C598::Method5.10510()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass0>::Method4()
ldstr "G2_C598::Method4.10508()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass0>::ClassMethod1345<object>()
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass0>::ClassMethod1344<object>()
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method4()
ldstr "G2_C598::Method4.MI.10509()"
ldstr "class IBase1`1<class BaseClass1> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method5()
ldstr "G2_C598::Method5.MI.10511()"
ldstr "class IBase1`1<class BaseClass1> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method6<object>()
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class IBase1`1<class BaseClass1> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
ldstr "G3_C1589::Method7.16950<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
castclass class G3_C1589`1<class BaseClass0>
callvirt instance string class G3_C1589`1<class BaseClass0>::ClassMethod4567<object>()
ldstr "G3_C1589::ClassMethod4567.16952<System.Object>()"
ldstr "class G3_C1589`1<class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1589`1<class BaseClass0>
callvirt instance string class G3_C1589`1<class BaseClass0>::ClassMethod4566()
ldstr "G3_C1589::ClassMethod4566.16951()"
ldstr "class G3_C1589`1<class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1589`1<class BaseClass0>
callvirt instance string class G3_C1589`1<class BaseClass0>::Method7<object>()
ldstr "G3_C1589::Method7.16950<System.Object>()"
ldstr "class G3_C1589`1<class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1589`1<class BaseClass0>
callvirt instance string class G3_C1589`1<class BaseClass0>::ClassMethod2566()
ldstr "G2_C598::ClassMethod2566.10515()"
ldstr "class G3_C1589`1<class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1589`1<class BaseClass0>
callvirt instance string class G3_C1589`1<class BaseClass0>::Method6<object>()
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class G3_C1589`1<class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1589`1<class BaseClass0>
callvirt instance string class G3_C1589`1<class BaseClass0>::Method5()
ldstr "G2_C598::Method5.10510()"
ldstr "class G3_C1589`1<class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1589`1<class BaseClass0>
callvirt instance string class G3_C1589`1<class BaseClass0>::Method4()
ldstr "G2_C598::Method4.10508()"
ldstr "class G3_C1589`1<class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1589`1<class BaseClass0>
callvirt instance string class G3_C1589`1<class BaseClass0>::ClassMethod1345<object>()
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G3_C1589`1<class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1589`1<class BaseClass0>
callvirt instance string class G3_C1589`1<class BaseClass0>::ClassMethod1344<object>()
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G3_C1589`1<class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
newobj instance void class G3_C1589`1<class BaseClass1>::.ctor()
stloc.0
ldloc.0
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::ClassMethod1345<object>()
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::ClassMethod1344<object>()
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method6<object>()
ldstr "G1_C11::Method6.4859<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method5()
ldstr "G2_C598::Method5.10510()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method4()
ldstr "G1_C11::Method4.4856()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method7<object>()
ldstr "G2_C598::Method7.10513<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass1,class BaseClass1>::Method7<object>()
ldstr "G3_C1589::Method7.16950<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method4()
ldstr "G2_C598::Method4.MI.10509()"
ldstr "class IBase1`1<class BaseClass0> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method5()
ldstr "G2_C598::Method5.MI.10511()"
ldstr "class IBase1`1<class BaseClass0> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method6<object>()
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
ldstr "G3_C1589::Method7.16950<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass0>::ClassMethod2566()
ldstr "G2_C598::ClassMethod2566.10515()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass0>::Method7<object>()
ldstr "G2_C598::Method7.10513<System.Object>()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass0>::Method6<object>()
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass0>::Method5()
ldstr "G2_C598::Method5.10510()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass0>::Method4()
ldstr "G2_C598::Method4.10508()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass0>::ClassMethod1345<object>()
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass0>::ClassMethod1344<object>()
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method4()
ldstr "G2_C598::Method4.MI.10509()"
ldstr "class IBase1`1<class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method5()
ldstr "G2_C598::Method5.MI.10511()"
ldstr "class IBase1`1<class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method6<object>()
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class IBase1`1<class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass1,class BaseClass0>::Method7<object>()
ldstr "G3_C1589::Method7.16950<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass0> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
ldstr "G3_C1589::Method7.16950<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
castclass class G3_C1589`1<class BaseClass1>
callvirt instance string class G3_C1589`1<class BaseClass1>::ClassMethod4567<object>()
ldstr "G3_C1589::ClassMethod4567.16952<System.Object>()"
ldstr "class G3_C1589`1<class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1589`1<class BaseClass1>
callvirt instance string class G3_C1589`1<class BaseClass1>::ClassMethod4566()
ldstr "G3_C1589::ClassMethod4566.16951()"
ldstr "class G3_C1589`1<class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1589`1<class BaseClass1>
callvirt instance string class G3_C1589`1<class BaseClass1>::Method7<object>()
ldstr "G3_C1589::Method7.16950<System.Object>()"
ldstr "class G3_C1589`1<class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1589`1<class BaseClass1>
callvirt instance string class G3_C1589`1<class BaseClass1>::ClassMethod2566()
ldstr "G2_C598::ClassMethod2566.10515()"
ldstr "class G3_C1589`1<class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1589`1<class BaseClass1>
callvirt instance string class G3_C1589`1<class BaseClass1>::Method6<object>()
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class G3_C1589`1<class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1589`1<class BaseClass1>
callvirt instance string class G3_C1589`1<class BaseClass1>::Method5()
ldstr "G2_C598::Method5.10510()"
ldstr "class G3_C1589`1<class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1589`1<class BaseClass1>
callvirt instance string class G3_C1589`1<class BaseClass1>::Method4()
ldstr "G2_C598::Method4.10508()"
ldstr "class G3_C1589`1<class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1589`1<class BaseClass1>
callvirt instance string class G3_C1589`1<class BaseClass1>::ClassMethod1345<object>()
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G3_C1589`1<class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1589`1<class BaseClass1>
callvirt instance string class G3_C1589`1<class BaseClass1>::ClassMethod1344<object>()
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G3_C1589`1<class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
newobj instance void class G2_C598`2<class BaseClass0,class BaseClass0>::.ctor()
stloc.0
ldloc.0
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::ClassMethod1345<object>()
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::ClassMethod1344<object>()
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method6<object>()
ldstr "G1_C11::Method6.4859<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method5()
ldstr "G2_C598::Method5.10510()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method4()
ldstr "G1_C11::Method4.4856()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method7<object>()
ldstr "G2_C598::Method7.10513<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass1,class BaseClass1>::Method7<object>()
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method4()
ldstr "G2_C598::Method4.MI.10509()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method5()
ldstr "G2_C598::Method5.MI.10511()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method6<object>()
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
ldstr "G2_C598::Method7.MI.10514<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass0>::ClassMethod2566()
ldstr "G2_C598::ClassMethod2566.10515()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass0>::Method7<object>()
ldstr "G2_C598::Method7.10513<System.Object>()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass0>::Method6<object>()
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass0>::Method5()
ldstr "G2_C598::Method5.10510()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass0>::Method4()
ldstr "G2_C598::Method4.10508()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass0>::ClassMethod1345<object>()
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass0>::ClassMethod1344<object>()
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method4()
ldstr "G2_C598::Method4.MI.10509()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method5()
ldstr "G2_C598::Method5.MI.10511()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method6<object>()
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
ldstr "G2_C598::Method7.MI.10514<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
newobj instance void class G2_C598`2<class BaseClass0,class BaseClass1>::.ctor()
stloc.0
ldloc.0
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::ClassMethod1345<object>()
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::ClassMethod1344<object>()
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method6<object>()
ldstr "G1_C11::Method6.4859<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method5()
ldstr "G2_C598::Method5.10510()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method4()
ldstr "G1_C11::Method4.4856()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method7<object>()
ldstr "G2_C598::Method7.10513<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass1,class BaseClass1>::Method7<object>()
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method4()
ldstr "G2_C598::Method4.MI.10509()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method5()
ldstr "G2_C598::Method5.MI.10511()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method6<object>()
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
ldstr "G2_C598::Method7.MI.10514<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
castclass class G2_C598`2<class BaseClass0,class BaseClass1>
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass1>::ClassMethod2566()
ldstr "G2_C598::ClassMethod2566.10515()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass0,class BaseClass1>
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass1>::Method7<object>()
ldstr "G2_C598::Method7.10513<System.Object>()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass0,class BaseClass1>
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass1>::Method6<object>()
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass0,class BaseClass1>
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass1>::Method5()
ldstr "G2_C598::Method5.10510()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass0,class BaseClass1>
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass1>::Method4()
ldstr "G2_C598::Method4.10508()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass0,class BaseClass1>
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass1>::ClassMethod1345<object>()
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass0,class BaseClass1>
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass1>::ClassMethod1344<object>()
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method4()
ldstr "G2_C598::Method4.MI.10509()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method5()
ldstr "G2_C598::Method5.MI.10511()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method6<object>()
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
ldstr "G2_C598::Method7.MI.10514<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
newobj instance void class G2_C598`2<class BaseClass1,class BaseClass0>::.ctor()
stloc.0
ldloc.0
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::ClassMethod1345<object>()
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::ClassMethod1344<object>()
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method6<object>()
ldstr "G1_C11::Method6.4859<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method5()
ldstr "G2_C598::Method5.10510()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method4()
ldstr "G1_C11::Method4.4856()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method7<object>()
ldstr "G2_C598::Method7.10513<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass1,class BaseClass1>::Method7<object>()
ldstr "G2_C598::Method7.MI.10514<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method4()
ldstr "G2_C598::Method4.MI.10509()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method5()
ldstr "G2_C598::Method5.MI.10511()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method6<object>()
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
ldstr "G2_C598::Method7.MI.10514<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass0>::ClassMethod2566()
ldstr "G2_C598::ClassMethod2566.10515()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass0>::Method7<object>()
ldstr "G2_C598::Method7.10513<System.Object>()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass0>::Method6<object>()
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass0>::Method5()
ldstr "G2_C598::Method5.10510()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass0>::Method4()
ldstr "G2_C598::Method4.10508()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass0>::ClassMethod1345<object>()
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass0>::ClassMethod1344<object>()
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method4()
ldstr "G2_C598::Method4.MI.10509()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method5()
ldstr "G2_C598::Method5.MI.10511()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method6<object>()
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass1,class BaseClass0>::Method7<object>()
ldstr "G2_C598::Method7.MI.10514<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
ldstr "G2_C598::Method7.MI.10514<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
newobj instance void class G2_C598`2<class BaseClass1,class BaseClass1>::.ctor()
stloc.0
ldloc.0
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::ClassMethod1345<object>()
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::ClassMethod1344<object>()
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method6<object>()
ldstr "G1_C11::Method6.4859<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method5()
ldstr "G2_C598::Method5.10510()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method4()
ldstr "G1_C11::Method4.4856()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method7<object>()
ldstr "G2_C598::Method7.10513<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass1,class BaseClass1>::Method7<object>()
ldstr "G2_C598::Method7.MI.10514<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method4()
ldstr "G2_C598::Method4.MI.10509()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method5()
ldstr "G2_C598::Method5.MI.10511()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method6<object>()
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
ldstr "G2_C598::Method7.MI.10514<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
castclass class G2_C598`2<class BaseClass1,class BaseClass1>
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass1>::ClassMethod2566()
ldstr "G2_C598::ClassMethod2566.10515()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass1,class BaseClass1>
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass1>::Method7<object>()
ldstr "G2_C598::Method7.10513<System.Object>()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass1,class BaseClass1>
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass1>::Method6<object>()
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass1,class BaseClass1>
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass1>::Method5()
ldstr "G2_C598::Method5.10510()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass1,class BaseClass1>
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass1>::Method4()
ldstr "G2_C598::Method4.10508()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass1,class BaseClass1>
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass1>::ClassMethod1345<object>()
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass1,class BaseClass1>
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass1>::ClassMethod1344<object>()
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method4()
ldstr "G2_C598::Method4.MI.10509()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method5()
ldstr "G2_C598::Method5.MI.10511()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method6<object>()
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass1,class BaseClass0>::Method7<object>()
ldstr "G2_C598::Method7.MI.10514<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
ldstr "G2_C598::Method7.MI.10514<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
newobj instance void class G1_C11`2<class BaseClass0,class BaseClass0>::.ctor()
stloc.0
ldloc.0
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass0>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass0>::ClassMethod1345<object>()
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass0>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass0>::ClassMethod1344<object>()
ldstr "G1_C11::ClassMethod1344.4861<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass0>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass0>::Method6<object>()
ldstr "G1_C11::Method6.4859<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass0>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass0>::Method5()
ldstr "G1_C11::Method5.4858()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass0>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass0>::Method4()
ldstr "G1_C11::Method4.4856()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass0>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass0>::Method7<object>()
ldstr "G1_C11::Method7.4854<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass1,class BaseClass0>::Method7<object>()
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method4()
ldstr "G1_C11::Method4.MI.4857()"
ldstr "class IBase1`1<class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method5()
ldstr "G1_C11::Method5.4858()"
ldstr "class IBase1`1<class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method6<object>()
ldstr "G1_C11::Method6.MI.4860<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G1_C11`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass1,class BaseClass1>::Method7<object>()
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass1> on type class G1_C11`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
newobj instance void class G1_C11`2<class BaseClass0,class BaseClass1>::.ctor()
stloc.0
ldloc.0
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::ClassMethod1345<object>()
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G1_C11`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::ClassMethod1344<object>()
ldstr "G1_C11::ClassMethod1344.4861<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G1_C11`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method6<object>()
ldstr "G1_C11::Method6.4859<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G1_C11`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method5()
ldstr "G1_C11::Method5.4858()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G1_C11`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method4()
ldstr "G1_C11::Method4.4856()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G1_C11`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method7<object>()
ldstr "G1_C11::Method7.4854<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G1_C11`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass1,class BaseClass1>::Method7<object>()
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass1> on type class G1_C11`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method4()
ldstr "G1_C11::Method4.MI.4857()"
ldstr "class IBase1`1<class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method5()
ldstr "G1_C11::Method5.4858()"
ldstr "class IBase1`1<class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method6<object>()
ldstr "G1_C11::Method6.MI.4860<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G1_C11`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
newobj instance void class G1_C11`2<class BaseClass1,class BaseClass0>::.ctor()
stloc.0
ldloc.0
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass0>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass0>::ClassMethod1345<object>()
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass0>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass0>::ClassMethod1344<object>()
ldstr "G1_C11::ClassMethod1344.4861<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass0>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass0>::Method6<object>()
ldstr "G1_C11::Method6.4859<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass0>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass0>::Method5()
ldstr "G1_C11::Method5.4858()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass0>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass0>::Method4()
ldstr "G1_C11::Method4.4856()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass0>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass0>::Method7<object>()
ldstr "G1_C11::Method7.4854<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass1,class BaseClass0>::Method7<object>()
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method4()
ldstr "G1_C11::Method4.MI.4857()"
ldstr "class IBase1`1<class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method5()
ldstr "G1_C11::Method5.4858()"
ldstr "class IBase1`1<class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method6<object>()
ldstr "G1_C11::Method6.MI.4860<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G1_C11`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass1,class BaseClass1>::Method7<object>()
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass1> on type class G1_C11`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
newobj instance void class G1_C11`2<class BaseClass1,class BaseClass1>::.ctor()
stloc.0
ldloc.0
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::ClassMethod1345<object>()
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G1_C11`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::ClassMethod1344<object>()
ldstr "G1_C11::ClassMethod1344.4861<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G1_C11`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method6<object>()
ldstr "G1_C11::Method6.4859<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G1_C11`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method5()
ldstr "G1_C11::Method5.4858()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G1_C11`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method4()
ldstr "G1_C11::Method4.4856()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G1_C11`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method7<object>()
ldstr "G1_C11::Method7.4854<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G1_C11`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass1,class BaseClass1>::Method7<object>()
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass1> on type class G1_C11`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method4()
ldstr "G1_C11::Method4.MI.4857()"
ldstr "class IBase1`1<class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method5()
ldstr "G1_C11::Method5.4858()"
ldstr "class IBase1`1<class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method6<object>()
ldstr "G1_C11::Method6.MI.4860<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G1_C11`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldstr "========================================================================\n\n"
call void [mscorlib]System.Console::WriteLine(string)
ret
}
.method public hidebysig static void ConstrainedCallsTest() cil managed
{
.maxstack 10
.locals init (object V_0)
ldstr "========================== Constrained Calls Test =========================="
call void [mscorlib]System.Console::WriteLine(string)
newobj instance void class G3_C1589`1<class BaseClass0>::.ctor()
stloc.0
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G2_C598::Method5.10510()#G1_C11::Method6.4859<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G1_C11.T.T<class BaseClass0,class BaseClass1,class G3_C1589`1<class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G2_C598::Method5.10510()#G1_C11::Method6.4859<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G1_C11.A.T<class BaseClass1,class G3_C1589`1<class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G2_C598::Method5.10510()#G1_C11::Method6.4859<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G1_C11.A.B<class G3_C1589`1<class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass1,class BaseClass1,class G3_C1589`1<class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.B.T<class BaseClass1,class G3_C1589`1<class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.B.B<class G3_C1589`1<class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G2_C598::Method4.MI.10509()#G2_C598::Method5.MI.10511()#G2_C598::Method6.10512<System.Object>()#"
call void Generated1117::M.IBase1.T<class BaseClass0,class G3_C1589`1<class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C598::Method4.MI.10509()#G2_C598::Method5.MI.10511()#G2_C598::Method6.10512<System.Object>()#"
call void Generated1117::M.IBase1.A<class G3_C1589`1<class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G3_C1589::Method7.16950<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass0,class BaseClass1,class G3_C1589`1<class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G3_C1589::Method7.16950<System.Object>()#"
call void Generated1117::M.IBase2.A.T<class BaseClass1,class G3_C1589`1<class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G3_C1589::Method7.16950<System.Object>()#"
call void Generated1117::M.IBase2.A.B<class G3_C1589`1<class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G2_C598::ClassMethod2566.10515()#G2_C598::Method4.10508()#G2_C598::Method5.10510()#G2_C598::Method6.10512<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G2_C598.T.T<class BaseClass0,class BaseClass0,class G3_C1589`1<class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G2_C598::ClassMethod2566.10515()#G2_C598::Method4.10508()#G2_C598::Method5.10510()#G2_C598::Method6.10512<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G2_C598.A.T<class BaseClass0,class G3_C1589`1<class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G2_C598::ClassMethod2566.10515()#G2_C598::Method4.10508()#G2_C598::Method5.10510()#G2_C598::Method6.10512<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G2_C598.A.A<class G3_C1589`1<class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G2_C598::Method4.MI.10509()#G2_C598::Method5.MI.10511()#G2_C598::Method6.10512<System.Object>()#"
call void Generated1117::M.IBase1.T<class BaseClass1,class G3_C1589`1<class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C598::Method4.MI.10509()#G2_C598::Method5.MI.10511()#G2_C598::Method6.10512<System.Object>()#"
call void Generated1117::M.IBase1.B<class G3_C1589`1<class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G3_C1589::Method7.16950<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass0,class BaseClass0,class G3_C1589`1<class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G3_C1589::Method7.16950<System.Object>()#"
call void Generated1117::M.IBase2.A.T<class BaseClass0,class G3_C1589`1<class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G3_C1589::Method7.16950<System.Object>()#"
call void Generated1117::M.IBase2.A.A<class G3_C1589`1<class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G2_C598::ClassMethod2566.10515()#G3_C1589::ClassMethod4566.16951()#G3_C1589::ClassMethod4567.16952<System.Object>()#G2_C598::Method4.10508()#G2_C598::Method5.10510()#G2_C598::Method6.10512<System.Object>()#G3_C1589::Method7.16950<System.Object>()#"
call void Generated1117::M.G3_C1589.T<class BaseClass0,class G3_C1589`1<class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G2_C598::ClassMethod2566.10515()#G3_C1589::ClassMethod4566.16951()#G3_C1589::ClassMethod4567.16952<System.Object>()#G2_C598::Method4.10508()#G2_C598::Method5.10510()#G2_C598::Method6.10512<System.Object>()#G3_C1589::Method7.16950<System.Object>()#"
call void Generated1117::M.G3_C1589.A<class G3_C1589`1<class BaseClass0>>(!!0,string)
newobj instance void class G3_C1589`1<class BaseClass1>::.ctor()
stloc.0
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G2_C598::Method5.10510()#G1_C11::Method6.4859<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G1_C11.T.T<class BaseClass1,class BaseClass1,class G3_C1589`1<class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G2_C598::Method5.10510()#G1_C11::Method6.4859<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G1_C11.B.T<class BaseClass1,class G3_C1589`1<class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G2_C598::Method5.10510()#G1_C11::Method6.4859<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G1_C11.B.B<class G3_C1589`1<class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G3_C1589::Method7.16950<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass1,class BaseClass1,class G3_C1589`1<class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G3_C1589::Method7.16950<System.Object>()#"
call void Generated1117::M.IBase2.B.T<class BaseClass1,class G3_C1589`1<class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G3_C1589::Method7.16950<System.Object>()#"
call void Generated1117::M.IBase2.B.B<class G3_C1589`1<class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C598::Method4.MI.10509()#G2_C598::Method5.MI.10511()#G2_C598::Method6.10512<System.Object>()#"
call void Generated1117::M.IBase1.T<class BaseClass0,class G3_C1589`1<class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C598::Method4.MI.10509()#G2_C598::Method5.MI.10511()#G2_C598::Method6.10512<System.Object>()#"
call void Generated1117::M.IBase1.A<class G3_C1589`1<class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G3_C1589::Method7.16950<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass0,class BaseClass1,class G3_C1589`1<class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G3_C1589::Method7.16950<System.Object>()#"
call void Generated1117::M.IBase2.A.T<class BaseClass1,class G3_C1589`1<class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G3_C1589::Method7.16950<System.Object>()#"
call void Generated1117::M.IBase2.A.B<class G3_C1589`1<class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G2_C598::ClassMethod2566.10515()#G2_C598::Method4.10508()#G2_C598::Method5.10510()#G2_C598::Method6.10512<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G2_C598.T.T<class BaseClass1,class BaseClass0,class G3_C1589`1<class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G2_C598::ClassMethod2566.10515()#G2_C598::Method4.10508()#G2_C598::Method5.10510()#G2_C598::Method6.10512<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G2_C598.B.T<class BaseClass0,class G3_C1589`1<class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G2_C598::ClassMethod2566.10515()#G2_C598::Method4.10508()#G2_C598::Method5.10510()#G2_C598::Method6.10512<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G2_C598.B.A<class G3_C1589`1<class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C598::Method4.MI.10509()#G2_C598::Method5.MI.10511()#G2_C598::Method6.10512<System.Object>()#"
call void Generated1117::M.IBase1.T<class BaseClass1,class G3_C1589`1<class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C598::Method4.MI.10509()#G2_C598::Method5.MI.10511()#G2_C598::Method6.10512<System.Object>()#"
call void Generated1117::M.IBase1.B<class G3_C1589`1<class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G3_C1589::Method7.16950<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass1,class BaseClass0,class G3_C1589`1<class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G3_C1589::Method7.16950<System.Object>()#"
call void Generated1117::M.IBase2.B.T<class BaseClass0,class G3_C1589`1<class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G3_C1589::Method7.16950<System.Object>()#"
call void Generated1117::M.IBase2.B.A<class G3_C1589`1<class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G3_C1589::Method7.16950<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass0,class BaseClass0,class G3_C1589`1<class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G3_C1589::Method7.16950<System.Object>()#"
call void Generated1117::M.IBase2.A.T<class BaseClass0,class G3_C1589`1<class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G3_C1589::Method7.16950<System.Object>()#"
call void Generated1117::M.IBase2.A.A<class G3_C1589`1<class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G2_C598::ClassMethod2566.10515()#G3_C1589::ClassMethod4566.16951()#G3_C1589::ClassMethod4567.16952<System.Object>()#G2_C598::Method4.10508()#G2_C598::Method5.10510()#G2_C598::Method6.10512<System.Object>()#G3_C1589::Method7.16950<System.Object>()#"
call void Generated1117::M.G3_C1589.T<class BaseClass1,class G3_C1589`1<class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G2_C598::ClassMethod2566.10515()#G3_C1589::ClassMethod4566.16951()#G3_C1589::ClassMethod4567.16952<System.Object>()#G2_C598::Method4.10508()#G2_C598::Method5.10510()#G2_C598::Method6.10512<System.Object>()#G3_C1589::Method7.16950<System.Object>()#"
call void Generated1117::M.G3_C1589.B<class G3_C1589`1<class BaseClass1>>(!!0,string)
newobj instance void class G2_C598`2<class BaseClass0,class BaseClass0>::.ctor()
stloc.0
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G2_C598::Method5.10510()#G1_C11::Method6.4859<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G1_C11.T.T<class BaseClass0,class BaseClass1,class G2_C598`2<class BaseClass0,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G2_C598::Method5.10510()#G1_C11::Method6.4859<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G1_C11.A.T<class BaseClass1,class G2_C598`2<class BaseClass0,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G2_C598::Method5.10510()#G1_C11::Method6.4859<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G1_C11.A.B<class G2_C598`2<class BaseClass0,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass1,class BaseClass1,class G2_C598`2<class BaseClass0,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.B.T<class BaseClass1,class G2_C598`2<class BaseClass0,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.B.B<class G2_C598`2<class BaseClass0,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G2_C598::Method4.MI.10509()#G2_C598::Method5.MI.10511()#G2_C598::Method6.10512<System.Object>()#"
call void Generated1117::M.IBase1.T<class BaseClass0,class G2_C598`2<class BaseClass0,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C598::Method4.MI.10509()#G2_C598::Method5.MI.10511()#G2_C598::Method6.10512<System.Object>()#"
call void Generated1117::M.IBase1.A<class G2_C598`2<class BaseClass0,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass0,class BaseClass1,class G2_C598`2<class BaseClass0,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.A.T<class BaseClass1,class G2_C598`2<class BaseClass0,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.A.B<class G2_C598`2<class BaseClass0,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G2_C598::ClassMethod2566.10515()#G2_C598::Method4.10508()#G2_C598::Method5.10510()#G2_C598::Method6.10512<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G2_C598.T.T<class BaseClass0,class BaseClass0,class G2_C598`2<class BaseClass0,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G2_C598::ClassMethod2566.10515()#G2_C598::Method4.10508()#G2_C598::Method5.10510()#G2_C598::Method6.10512<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G2_C598.A.T<class BaseClass0,class G2_C598`2<class BaseClass0,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G2_C598::ClassMethod2566.10515()#G2_C598::Method4.10508()#G2_C598::Method5.10510()#G2_C598::Method6.10512<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G2_C598.A.A<class G2_C598`2<class BaseClass0,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G2_C598::Method4.MI.10509()#G2_C598::Method5.MI.10511()#G2_C598::Method6.10512<System.Object>()#"
call void Generated1117::M.IBase1.T<class BaseClass1,class G2_C598`2<class BaseClass0,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C598::Method4.MI.10509()#G2_C598::Method5.MI.10511()#G2_C598::Method6.10512<System.Object>()#"
call void Generated1117::M.IBase1.B<class G2_C598`2<class BaseClass0,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass0,class BaseClass0,class G2_C598`2<class BaseClass0,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.A.T<class BaseClass0,class G2_C598`2<class BaseClass0,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.A.A<class G2_C598`2<class BaseClass0,class BaseClass0>>(!!0,string)
newobj instance void class G2_C598`2<class BaseClass0,class BaseClass1>::.ctor()
stloc.0
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G2_C598::Method5.10510()#G1_C11::Method6.4859<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G1_C11.T.T<class BaseClass0,class BaseClass1,class G2_C598`2<class BaseClass0,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G2_C598::Method5.10510()#G1_C11::Method6.4859<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G1_C11.A.T<class BaseClass1,class G2_C598`2<class BaseClass0,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G2_C598::Method5.10510()#G1_C11::Method6.4859<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G1_C11.A.B<class G2_C598`2<class BaseClass0,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass1,class BaseClass1,class G2_C598`2<class BaseClass0,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.B.T<class BaseClass1,class G2_C598`2<class BaseClass0,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.B.B<class G2_C598`2<class BaseClass0,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C598::Method4.MI.10509()#G2_C598::Method5.MI.10511()#G2_C598::Method6.10512<System.Object>()#"
call void Generated1117::M.IBase1.T<class BaseClass0,class G2_C598`2<class BaseClass0,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C598::Method4.MI.10509()#G2_C598::Method5.MI.10511()#G2_C598::Method6.10512<System.Object>()#"
call void Generated1117::M.IBase1.A<class G2_C598`2<class BaseClass0,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass0,class BaseClass1,class G2_C598`2<class BaseClass0,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.A.T<class BaseClass1,class G2_C598`2<class BaseClass0,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.A.B<class G2_C598`2<class BaseClass0,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G2_C598::ClassMethod2566.10515()#G2_C598::Method4.10508()#G2_C598::Method5.10510()#G2_C598::Method6.10512<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G2_C598.T.T<class BaseClass0,class BaseClass1,class G2_C598`2<class BaseClass0,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G2_C598::ClassMethod2566.10515()#G2_C598::Method4.10508()#G2_C598::Method5.10510()#G2_C598::Method6.10512<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G2_C598.A.T<class BaseClass1,class G2_C598`2<class BaseClass0,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G2_C598::ClassMethod2566.10515()#G2_C598::Method4.10508()#G2_C598::Method5.10510()#G2_C598::Method6.10512<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G2_C598.A.B<class G2_C598`2<class BaseClass0,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C598::Method4.MI.10509()#G2_C598::Method5.MI.10511()#G2_C598::Method6.10512<System.Object>()#"
call void Generated1117::M.IBase1.T<class BaseClass1,class G2_C598`2<class BaseClass0,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C598::Method4.MI.10509()#G2_C598::Method5.MI.10511()#G2_C598::Method6.10512<System.Object>()#"
call void Generated1117::M.IBase1.B<class G2_C598`2<class BaseClass0,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass0,class BaseClass0,class G2_C598`2<class BaseClass0,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.A.T<class BaseClass0,class G2_C598`2<class BaseClass0,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.A.A<class G2_C598`2<class BaseClass0,class BaseClass1>>(!!0,string)
newobj instance void class G2_C598`2<class BaseClass1,class BaseClass0>::.ctor()
stloc.0
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G2_C598::Method5.10510()#G1_C11::Method6.4859<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G1_C11.T.T<class BaseClass1,class BaseClass1,class G2_C598`2<class BaseClass1,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G2_C598::Method5.10510()#G1_C11::Method6.4859<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G1_C11.B.T<class BaseClass1,class G2_C598`2<class BaseClass1,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G2_C598::Method5.10510()#G1_C11::Method6.4859<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G1_C11.B.B<class G2_C598`2<class BaseClass1,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass1,class BaseClass1,class G2_C598`2<class BaseClass1,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.B.T<class BaseClass1,class G2_C598`2<class BaseClass1,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.B.B<class G2_C598`2<class BaseClass1,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G2_C598::Method4.MI.10509()#G2_C598::Method5.MI.10511()#G2_C598::Method6.10512<System.Object>()#"
call void Generated1117::M.IBase1.T<class BaseClass0,class G2_C598`2<class BaseClass1,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C598::Method4.MI.10509()#G2_C598::Method5.MI.10511()#G2_C598::Method6.10512<System.Object>()#"
call void Generated1117::M.IBase1.A<class G2_C598`2<class BaseClass1,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass0,class BaseClass1,class G2_C598`2<class BaseClass1,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.A.T<class BaseClass1,class G2_C598`2<class BaseClass1,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.A.B<class G2_C598`2<class BaseClass1,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G2_C598::ClassMethod2566.10515()#G2_C598::Method4.10508()#G2_C598::Method5.10510()#G2_C598::Method6.10512<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G2_C598.T.T<class BaseClass1,class BaseClass0,class G2_C598`2<class BaseClass1,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G2_C598::ClassMethod2566.10515()#G2_C598::Method4.10508()#G2_C598::Method5.10510()#G2_C598::Method6.10512<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G2_C598.B.T<class BaseClass0,class G2_C598`2<class BaseClass1,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G2_C598::ClassMethod2566.10515()#G2_C598::Method4.10508()#G2_C598::Method5.10510()#G2_C598::Method6.10512<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G2_C598.B.A<class G2_C598`2<class BaseClass1,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G2_C598::Method4.MI.10509()#G2_C598::Method5.MI.10511()#G2_C598::Method6.10512<System.Object>()#"
call void Generated1117::M.IBase1.T<class BaseClass1,class G2_C598`2<class BaseClass1,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C598::Method4.MI.10509()#G2_C598::Method5.MI.10511()#G2_C598::Method6.10512<System.Object>()#"
call void Generated1117::M.IBase1.B<class G2_C598`2<class BaseClass1,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass1,class BaseClass0,class G2_C598`2<class BaseClass1,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.B.T<class BaseClass0,class G2_C598`2<class BaseClass1,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.B.A<class G2_C598`2<class BaseClass1,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass0,class BaseClass0,class G2_C598`2<class BaseClass1,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.A.T<class BaseClass0,class G2_C598`2<class BaseClass1,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.A.A<class G2_C598`2<class BaseClass1,class BaseClass0>>(!!0,string)
newobj instance void class G2_C598`2<class BaseClass1,class BaseClass1>::.ctor()
stloc.0
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G2_C598::Method5.10510()#G1_C11::Method6.4859<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G1_C11.T.T<class BaseClass1,class BaseClass1,class G2_C598`2<class BaseClass1,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G2_C598::Method5.10510()#G1_C11::Method6.4859<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G1_C11.B.T<class BaseClass1,class G2_C598`2<class BaseClass1,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G2_C598::Method5.10510()#G1_C11::Method6.4859<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G1_C11.B.B<class G2_C598`2<class BaseClass1,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass1,class BaseClass1,class G2_C598`2<class BaseClass1,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.B.T<class BaseClass1,class G2_C598`2<class BaseClass1,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.B.B<class G2_C598`2<class BaseClass1,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C598::Method4.MI.10509()#G2_C598::Method5.MI.10511()#G2_C598::Method6.10512<System.Object>()#"
call void Generated1117::M.IBase1.T<class BaseClass0,class G2_C598`2<class BaseClass1,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C598::Method4.MI.10509()#G2_C598::Method5.MI.10511()#G2_C598::Method6.10512<System.Object>()#"
call void Generated1117::M.IBase1.A<class G2_C598`2<class BaseClass1,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass0,class BaseClass1,class G2_C598`2<class BaseClass1,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.A.T<class BaseClass1,class G2_C598`2<class BaseClass1,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.A.B<class G2_C598`2<class BaseClass1,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G2_C598::ClassMethod2566.10515()#G2_C598::Method4.10508()#G2_C598::Method5.10510()#G2_C598::Method6.10512<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G2_C598.T.T<class BaseClass1,class BaseClass1,class G2_C598`2<class BaseClass1,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G2_C598::ClassMethod2566.10515()#G2_C598::Method4.10508()#G2_C598::Method5.10510()#G2_C598::Method6.10512<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G2_C598.B.T<class BaseClass1,class G2_C598`2<class BaseClass1,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G2_C598::ClassMethod2566.10515()#G2_C598::Method4.10508()#G2_C598::Method5.10510()#G2_C598::Method6.10512<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G2_C598.B.B<class G2_C598`2<class BaseClass1,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C598::Method4.MI.10509()#G2_C598::Method5.MI.10511()#G2_C598::Method6.10512<System.Object>()#"
call void Generated1117::M.IBase1.T<class BaseClass1,class G2_C598`2<class BaseClass1,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C598::Method4.MI.10509()#G2_C598::Method5.MI.10511()#G2_C598::Method6.10512<System.Object>()#"
call void Generated1117::M.IBase1.B<class G2_C598`2<class BaseClass1,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass1,class BaseClass0,class G2_C598`2<class BaseClass1,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.B.T<class BaseClass0,class G2_C598`2<class BaseClass1,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.B.A<class G2_C598`2<class BaseClass1,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass0,class BaseClass0,class G2_C598`2<class BaseClass1,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.A.T<class BaseClass0,class G2_C598`2<class BaseClass1,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.A.A<class G2_C598`2<class BaseClass1,class BaseClass1>>(!!0,string)
newobj instance void class G1_C11`2<class BaseClass0,class BaseClass0>::.ctor()
stloc.0
ldloc.0
ldstr "G1_C11::ClassMethod1344.4861<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G1_C11::Method5.4858()#G1_C11::Method6.4859<System.Object>()#G1_C11::Method7.4854<System.Object>()#"
call void Generated1117::M.G1_C11.T.T<class BaseClass0,class BaseClass0,class G1_C11`2<class BaseClass0,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G1_C11::ClassMethod1344.4861<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G1_C11::Method5.4858()#G1_C11::Method6.4859<System.Object>()#G1_C11::Method7.4854<System.Object>()#"
call void Generated1117::M.G1_C11.A.T<class BaseClass0,class G1_C11`2<class BaseClass0,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G1_C11::ClassMethod1344.4861<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G1_C11::Method5.4858()#G1_C11::Method6.4859<System.Object>()#G1_C11::Method7.4854<System.Object>()#"
call void Generated1117::M.G1_C11.A.A<class G1_C11`2<class BaseClass0,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass1,class BaseClass0,class G1_C11`2<class BaseClass0,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.B.T<class BaseClass0,class G1_C11`2<class BaseClass0,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.B.A<class G1_C11`2<class BaseClass0,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G1_C11::Method4.MI.4857()#G1_C11::Method5.4858()#G1_C11::Method6.MI.4860<System.Object>()#"
call void Generated1117::M.IBase1.T<class BaseClass0,class G1_C11`2<class BaseClass0,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G1_C11::Method4.MI.4857()#G1_C11::Method5.4858()#G1_C11::Method6.MI.4860<System.Object>()#"
call void Generated1117::M.IBase1.A<class G1_C11`2<class BaseClass0,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass0,class BaseClass0,class G1_C11`2<class BaseClass0,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.A.T<class BaseClass0,class G1_C11`2<class BaseClass0,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.A.A<class G1_C11`2<class BaseClass0,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass0,class BaseClass1,class G1_C11`2<class BaseClass0,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.A.T<class BaseClass1,class G1_C11`2<class BaseClass0,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.A.B<class G1_C11`2<class BaseClass0,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass1,class BaseClass1,class G1_C11`2<class BaseClass0,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.B.T<class BaseClass1,class G1_C11`2<class BaseClass0,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.B.B<class G1_C11`2<class BaseClass0,class BaseClass0>>(!!0,string)
newobj instance void class G1_C11`2<class BaseClass0,class BaseClass1>::.ctor()
stloc.0
ldloc.0
ldstr "G1_C11::ClassMethod1344.4861<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G1_C11::Method5.4858()#G1_C11::Method6.4859<System.Object>()#G1_C11::Method7.4854<System.Object>()#"
call void Generated1117::M.G1_C11.T.T<class BaseClass0,class BaseClass1,class G1_C11`2<class BaseClass0,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G1_C11::ClassMethod1344.4861<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G1_C11::Method5.4858()#G1_C11::Method6.4859<System.Object>()#G1_C11::Method7.4854<System.Object>()#"
call void Generated1117::M.G1_C11.A.T<class BaseClass1,class G1_C11`2<class BaseClass0,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G1_C11::ClassMethod1344.4861<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G1_C11::Method5.4858()#G1_C11::Method6.4859<System.Object>()#G1_C11::Method7.4854<System.Object>()#"
call void Generated1117::M.G1_C11.A.B<class G1_C11`2<class BaseClass0,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass1,class BaseClass1,class G1_C11`2<class BaseClass0,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.B.T<class BaseClass1,class G1_C11`2<class BaseClass0,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.B.B<class G1_C11`2<class BaseClass0,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G1_C11::Method4.MI.4857()#G1_C11::Method5.4858()#G1_C11::Method6.MI.4860<System.Object>()#"
call void Generated1117::M.IBase1.T<class BaseClass0,class G1_C11`2<class BaseClass0,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G1_C11::Method4.MI.4857()#G1_C11::Method5.4858()#G1_C11::Method6.MI.4860<System.Object>()#"
call void Generated1117::M.IBase1.A<class G1_C11`2<class BaseClass0,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass0,class BaseClass1,class G1_C11`2<class BaseClass0,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.A.T<class BaseClass1,class G1_C11`2<class BaseClass0,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.A.B<class G1_C11`2<class BaseClass0,class BaseClass1>>(!!0,string)
newobj instance void class G1_C11`2<class BaseClass1,class BaseClass0>::.ctor()
stloc.0
ldloc.0
ldstr "G1_C11::ClassMethod1344.4861<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G1_C11::Method5.4858()#G1_C11::Method6.4859<System.Object>()#G1_C11::Method7.4854<System.Object>()#"
call void Generated1117::M.G1_C11.T.T<class BaseClass1,class BaseClass0,class G1_C11`2<class BaseClass1,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G1_C11::ClassMethod1344.4861<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G1_C11::Method5.4858()#G1_C11::Method6.4859<System.Object>()#G1_C11::Method7.4854<System.Object>()#"
call void Generated1117::M.G1_C11.B.T<class BaseClass0,class G1_C11`2<class BaseClass1,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G1_C11::ClassMethod1344.4861<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G1_C11::Method5.4858()#G1_C11::Method6.4859<System.Object>()#G1_C11::Method7.4854<System.Object>()#"
call void Generated1117::M.G1_C11.B.A<class G1_C11`2<class BaseClass1,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass1,class BaseClass0,class G1_C11`2<class BaseClass1,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.B.T<class BaseClass0,class G1_C11`2<class BaseClass1,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.B.A<class G1_C11`2<class BaseClass1,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G1_C11::Method4.MI.4857()#G1_C11::Method5.4858()#G1_C11::Method6.MI.4860<System.Object>()#"
call void Generated1117::M.IBase1.T<class BaseClass0,class G1_C11`2<class BaseClass1,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G1_C11::Method4.MI.4857()#G1_C11::Method5.4858()#G1_C11::Method6.MI.4860<System.Object>()#"
call void Generated1117::M.IBase1.A<class G1_C11`2<class BaseClass1,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass0,class BaseClass0,class G1_C11`2<class BaseClass1,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.A.T<class BaseClass0,class G1_C11`2<class BaseClass1,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.A.A<class G1_C11`2<class BaseClass1,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass0,class BaseClass1,class G1_C11`2<class BaseClass1,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.A.T<class BaseClass1,class G1_C11`2<class BaseClass1,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.A.B<class G1_C11`2<class BaseClass1,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass1,class BaseClass1,class G1_C11`2<class BaseClass1,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.B.T<class BaseClass1,class G1_C11`2<class BaseClass1,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.B.B<class G1_C11`2<class BaseClass1,class BaseClass0>>(!!0,string)
newobj instance void class G1_C11`2<class BaseClass1,class BaseClass1>::.ctor()
stloc.0
ldloc.0
ldstr "G1_C11::ClassMethod1344.4861<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G1_C11::Method5.4858()#G1_C11::Method6.4859<System.Object>()#G1_C11::Method7.4854<System.Object>()#"
call void Generated1117::M.G1_C11.T.T<class BaseClass1,class BaseClass1,class G1_C11`2<class BaseClass1,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G1_C11::ClassMethod1344.4861<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G1_C11::Method5.4858()#G1_C11::Method6.4859<System.Object>()#G1_C11::Method7.4854<System.Object>()#"
call void Generated1117::M.G1_C11.B.T<class BaseClass1,class G1_C11`2<class BaseClass1,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G1_C11::ClassMethod1344.4861<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G1_C11::Method5.4858()#G1_C11::Method6.4859<System.Object>()#G1_C11::Method7.4854<System.Object>()#"
call void Generated1117::M.G1_C11.B.B<class G1_C11`2<class BaseClass1,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass1,class BaseClass1,class G1_C11`2<class BaseClass1,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.B.T<class BaseClass1,class G1_C11`2<class BaseClass1,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.B.B<class G1_C11`2<class BaseClass1,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G1_C11::Method4.MI.4857()#G1_C11::Method5.4858()#G1_C11::Method6.MI.4860<System.Object>()#"
call void Generated1117::M.IBase1.T<class BaseClass0,class G1_C11`2<class BaseClass1,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G1_C11::Method4.MI.4857()#G1_C11::Method5.4858()#G1_C11::Method6.MI.4860<System.Object>()#"
call void Generated1117::M.IBase1.A<class G1_C11`2<class BaseClass1,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass0,class BaseClass1,class G1_C11`2<class BaseClass1,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.A.T<class BaseClass1,class G1_C11`2<class BaseClass1,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.A.B<class G1_C11`2<class BaseClass1,class BaseClass1>>(!!0,string)
ldstr "========================================================================\n\n"
call void [mscorlib]System.Console::WriteLine(string)
ret
}
.method public hidebysig static void StructConstrainedInterfaceCallsTest() cil managed
{
.maxstack 10
ldstr "===================== Struct Constrained Interface Calls Test ====================="
call void [mscorlib]System.Console::WriteLine(string)
ldstr "========================================================================\n\n"
call void [mscorlib]System.Console::WriteLine(string)
ret
}
.method public hidebysig static void CalliTest() cil managed
{
.maxstack 10
.locals init (object V_0)
ldstr "========================== Method Calli Test =========================="
call void [mscorlib]System.Console::WriteLine(string)
newobj instance void class G3_C1589`1<class BaseClass0>::.ctor()
stloc.0
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass1>::ClassMethod1345<object>()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass1>::ClassMethod1344<object>()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method6<object>()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G1_C11::Method6.4859<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method5()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G2_C598::Method5.10510()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method4()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G1_C11::Method4.4856()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method7<object>()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G2_C598::Method7.10513<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass1,class BaseClass1>::Method7<object>()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass1> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method4()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G2_C598::Method4.MI.10509()"
ldstr "class IBase1`1<class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method5()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G2_C598::Method5.MI.10511()"
ldstr "class IBase1`1<class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method6<object>()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G3_C1589::Method7.16950<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass0,class BaseClass0>::ClassMethod2566()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G2_C598::ClassMethod2566.10515()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass0,class BaseClass0>::Method7<object>()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G2_C598::Method7.10513<System.Object>()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass0,class BaseClass0>::Method6<object>()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass0,class BaseClass0>::Method5()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G2_C598::Method5.10510()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass0,class BaseClass0>::Method4()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G2_C598::Method4.10508()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass0,class BaseClass0>::ClassMethod1345<object>()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass0,class BaseClass0>::ClassMethod1344<object>()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method4()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G2_C598::Method4.MI.10509()"
ldstr "class IBase1`1<class BaseClass1> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method5()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G2_C598::Method5.MI.10511()"
ldstr "class IBase1`1<class BaseClass1> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method6<object>()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class IBase1`1<class BaseClass1> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G3_C1589::Method7.16950<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1589`1<class BaseClass0>
ldloc.0
ldvirtftn instance string class G3_C1589`1<class BaseClass0>::ClassMethod4567<object>()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G3_C1589::ClassMethod4567.16952<System.Object>()"
ldstr "class G3_C1589`1<class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1589`1<class BaseClass0>
ldloc.0
ldvirtftn instance string class G3_C1589`1<class BaseClass0>::ClassMethod4566()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G3_C1589::ClassMethod4566.16951()"
ldstr "class G3_C1589`1<class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1589`1<class BaseClass0>
ldloc.0
ldvirtftn instance string class G3_C1589`1<class BaseClass0>::Method7<object>()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G3_C1589::Method7.16950<System.Object>()"
ldstr "class G3_C1589`1<class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1589`1<class BaseClass0>
ldloc.0
ldvirtftn instance string class G3_C1589`1<class BaseClass0>::ClassMethod2566()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G2_C598::ClassMethod2566.10515()"
ldstr "class G3_C1589`1<class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1589`1<class BaseClass0>
ldloc.0
ldvirtftn instance string class G3_C1589`1<class BaseClass0>::Method6<object>()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class G3_C1589`1<class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1589`1<class BaseClass0>
ldloc.0
ldvirtftn instance string class G3_C1589`1<class BaseClass0>::Method5()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G2_C598::Method5.10510()"
ldstr "class G3_C1589`1<class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1589`1<class BaseClass0>
ldloc.0
ldvirtftn instance string class G3_C1589`1<class BaseClass0>::Method4()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G2_C598::Method4.10508()"
ldstr "class G3_C1589`1<class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1589`1<class BaseClass0>
ldloc.0
ldvirtftn instance string class G3_C1589`1<class BaseClass0>::ClassMethod1345<object>()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G3_C1589`1<class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1589`1<class BaseClass0>
ldloc.0
ldvirtftn instance string class G3_C1589`1<class BaseClass0>::ClassMethod1344<object>()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G3_C1589`1<class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
newobj instance void class G3_C1589`1<class BaseClass1>::.ctor()
stloc.0
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass1>::ClassMethod1345<object>()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass1>::ClassMethod1344<object>()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method6<object>()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G1_C11::Method6.4859<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method5()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G2_C598::Method5.10510()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method4()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G1_C11::Method4.4856()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method7<object>()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G2_C598::Method7.10513<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass1,class BaseClass1>::Method7<object>()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G3_C1589::Method7.16950<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method4()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G2_C598::Method4.MI.10509()"
ldstr "class IBase1`1<class BaseClass0> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method5()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G2_C598::Method5.MI.10511()"
ldstr "class IBase1`1<class BaseClass0> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method6<object>()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G3_C1589::Method7.16950<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass1,class BaseClass0>::ClassMethod2566()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G2_C598::ClassMethod2566.10515()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass1,class BaseClass0>::Method7<object>()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G2_C598::Method7.10513<System.Object>()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass1,class BaseClass0>::Method6<object>()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass1,class BaseClass0>::Method5()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G2_C598::Method5.10510()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass1,class BaseClass0>::Method4()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G2_C598::Method4.10508()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass1,class BaseClass0>::ClassMethod1345<object>()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass1,class BaseClass0>::ClassMethod1344<object>()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method4()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G2_C598::Method4.MI.10509()"
ldstr "class IBase1`1<class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method5()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G2_C598::Method5.MI.10511()"
ldstr "class IBase1`1<class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method6<object>()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class IBase1`1<class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass1,class BaseClass0>::Method7<object>()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G3_C1589::Method7.16950<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass0> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G3_C1589::Method7.16950<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1589`1<class BaseClass1>
ldloc.0
ldvirtftn instance string class G3_C1589`1<class BaseClass1>::ClassMethod4567<object>()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G3_C1589::ClassMethod4567.16952<System.Object>()"
ldstr "class G3_C1589`1<class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1589`1<class BaseClass1>
ldloc.0
ldvirtftn instance string class G3_C1589`1<class BaseClass1>::ClassMethod4566()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G3_C1589::ClassMethod4566.16951()"
ldstr "class G3_C1589`1<class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1589`1<class BaseClass1>
ldloc.0
ldvirtftn instance string class G3_C1589`1<class BaseClass1>::Method7<object>()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G3_C1589::Method7.16950<System.Object>()"
ldstr "class G3_C1589`1<class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1589`1<class BaseClass1>
ldloc.0
ldvirtftn instance string class G3_C1589`1<class BaseClass1>::ClassMethod2566()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G2_C598::ClassMethod2566.10515()"
ldstr "class G3_C1589`1<class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1589`1<class BaseClass1>
ldloc.0
ldvirtftn instance string class G3_C1589`1<class BaseClass1>::Method6<object>()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class G3_C1589`1<class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1589`1<class BaseClass1>
ldloc.0
ldvirtftn instance string class G3_C1589`1<class BaseClass1>::Method5()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G2_C598::Method5.10510()"
ldstr "class G3_C1589`1<class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1589`1<class BaseClass1>
ldloc.0
ldvirtftn instance string class G3_C1589`1<class BaseClass1>::Method4()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G2_C598::Method4.10508()"
ldstr "class G3_C1589`1<class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1589`1<class BaseClass1>
ldloc.0
ldvirtftn instance string class G3_C1589`1<class BaseClass1>::ClassMethod1345<object>()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G3_C1589`1<class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1589`1<class BaseClass1>
ldloc.0
ldvirtftn instance string class G3_C1589`1<class BaseClass1>::ClassMethod1344<object>()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G3_C1589`1<class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
newobj instance void class G2_C598`2<class BaseClass0,class BaseClass0>::.ctor()
stloc.0
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass1>::ClassMethod1345<object>()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass0>)
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass1>::ClassMethod1344<object>()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method6<object>()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass0>)
ldstr "G1_C11::Method6.4859<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method5()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C598::Method5.10510()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method4()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass0>)
ldstr "G1_C11::Method4.4856()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method7<object>()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C598::Method7.10513<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass1,class BaseClass1>::Method7<object>()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass0>)
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method4()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C598::Method4.MI.10509()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method5()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C598::Method5.MI.10511()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method6<object>()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C598::Method7.MI.10514<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass0,class BaseClass0>::ClassMethod2566()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C598::ClassMethod2566.10515()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass0,class BaseClass0>::Method7<object>()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C598::Method7.10513<System.Object>()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass0,class BaseClass0>::Method6<object>()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass0,class BaseClass0>::Method5()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C598::Method5.10510()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass0,class BaseClass0>::Method4()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C598::Method4.10508()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass0,class BaseClass0>::ClassMethod1345<object>()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass0>)
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass0,class BaseClass0>::ClassMethod1344<object>()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method4()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C598::Method4.MI.10509()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method5()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C598::Method5.MI.10511()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method6<object>()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C598::Method7.MI.10514<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
newobj instance void class G2_C598`2<class BaseClass0,class BaseClass1>::.ctor()
stloc.0
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass1>::ClassMethod1345<object>()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass1>)
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass1>::ClassMethod1344<object>()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method6<object>()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass1>)
ldstr "G1_C11::Method6.4859<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method5()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C598::Method5.10510()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method4()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass1>)
ldstr "G1_C11::Method4.4856()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method7<object>()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C598::Method7.10513<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass1,class BaseClass1>::Method7<object>()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass1>)
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method4()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C598::Method4.MI.10509()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method5()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C598::Method5.MI.10511()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method6<object>()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C598::Method7.MI.10514<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass0,class BaseClass1>::ClassMethod2566()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C598::ClassMethod2566.10515()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass0,class BaseClass1>::Method7<object>()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C598::Method7.10513<System.Object>()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass0,class BaseClass1>::Method6<object>()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass0,class BaseClass1>::Method5()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C598::Method5.10510()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass0,class BaseClass1>::Method4()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C598::Method4.10508()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass0,class BaseClass1>::ClassMethod1345<object>()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass1>)
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass0,class BaseClass1>::ClassMethod1344<object>()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method4()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C598::Method4.MI.10509()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method5()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C598::Method5.MI.10511()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method6<object>()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C598::Method7.MI.10514<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
newobj instance void class G2_C598`2<class BaseClass1,class BaseClass0>::.ctor()
stloc.0
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass1>::ClassMethod1345<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass0>)
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass1>::ClassMethod1344<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method6<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass0>)
ldstr "G1_C11::Method6.4859<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method5()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C598::Method5.10510()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method4()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass0>)
ldstr "G1_C11::Method4.4856()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method7<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C598::Method7.10513<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass1,class BaseClass1>::Method7<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C598::Method7.MI.10514<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method4()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C598::Method4.MI.10509()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method5()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C598::Method5.MI.10511()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method6<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C598::Method7.MI.10514<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass1,class BaseClass0>::ClassMethod2566()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C598::ClassMethod2566.10515()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass1,class BaseClass0>::Method7<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C598::Method7.10513<System.Object>()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass1,class BaseClass0>::Method6<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass1,class BaseClass0>::Method5()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C598::Method5.10510()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass1,class BaseClass0>::Method4()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C598::Method4.10508()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass1,class BaseClass0>::ClassMethod1345<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass0>)
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass1,class BaseClass0>::ClassMethod1344<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method4()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C598::Method4.MI.10509()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method5()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C598::Method5.MI.10511()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method6<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass1,class BaseClass0>::Method7<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C598::Method7.MI.10514<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C598::Method7.MI.10514<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
newobj instance void class G2_C598`2<class BaseClass1,class BaseClass1>::.ctor()
stloc.0
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass1>::ClassMethod1345<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass1>)
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass1>::ClassMethod1344<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method6<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass1>)
ldstr "G1_C11::Method6.4859<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method5()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C598::Method5.10510()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method4()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass1>)
ldstr "G1_C11::Method4.4856()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method7<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C598::Method7.10513<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass1,class BaseClass1>::Method7<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C598::Method7.MI.10514<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method4()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C598::Method4.MI.10509()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method5()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C598::Method5.MI.10511()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method6<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C598::Method7.MI.10514<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass1,class BaseClass1>::ClassMethod2566()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C598::ClassMethod2566.10515()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass1,class BaseClass1>::Method7<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C598::Method7.10513<System.Object>()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass1,class BaseClass1>::Method6<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass1,class BaseClass1>::Method5()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C598::Method5.10510()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass1,class BaseClass1>::Method4()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C598::Method4.10508()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass1,class BaseClass1>::ClassMethod1345<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass1>)
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass1,class BaseClass1>::ClassMethod1344<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method4()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C598::Method4.MI.10509()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method5()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C598::Method5.MI.10511()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method6<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass1,class BaseClass0>::Method7<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C598::Method7.MI.10514<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C598::Method7.MI.10514<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
newobj instance void class G1_C11`2<class BaseClass0,class BaseClass0>::.ctor()
stloc.0
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass0>::ClassMethod1345<object>()
calli default string(class G1_C11`2<class BaseClass0,class BaseClass0>)
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass0>::ClassMethod1344<object>()
calli default string(class G1_C11`2<class BaseClass0,class BaseClass0>)
ldstr "G1_C11::ClassMethod1344.4861<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass0>::Method6<object>()
calli default string(class G1_C11`2<class BaseClass0,class BaseClass0>)
ldstr "G1_C11::Method6.4859<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass0>::Method5()
calli default string(class G1_C11`2<class BaseClass0,class BaseClass0>)
ldstr "G1_C11::Method5.4858()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass0>::Method4()
calli default string(class G1_C11`2<class BaseClass0,class BaseClass0>)
ldstr "G1_C11::Method4.4856()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass0>::Method7<object>()
calli default string(class G1_C11`2<class BaseClass0,class BaseClass0>)
ldstr "G1_C11::Method7.4854<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass1,class BaseClass0>::Method7<object>()
calli default string(class G1_C11`2<class BaseClass0,class BaseClass0>)
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method4()
calli default string(class G1_C11`2<class BaseClass0,class BaseClass0>)
ldstr "G1_C11::Method4.MI.4857()"
ldstr "class IBase1`1<class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method5()
calli default string(class G1_C11`2<class BaseClass0,class BaseClass0>)
ldstr "G1_C11::Method5.4858()"
ldstr "class IBase1`1<class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method6<object>()
calli default string(class G1_C11`2<class BaseClass0,class BaseClass0>)
ldstr "G1_C11::Method6.MI.4860<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
calli default string(class G1_C11`2<class BaseClass0,class BaseClass0>)
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
calli default string(class G1_C11`2<class BaseClass0,class BaseClass0>)
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G1_C11`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass1,class BaseClass1>::Method7<object>()
calli default string(class G1_C11`2<class BaseClass0,class BaseClass0>)
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass1> on type class G1_C11`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
newobj instance void class G1_C11`2<class BaseClass0,class BaseClass1>::.ctor()
stloc.0
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass1>::ClassMethod1345<object>()
calli default string(class G1_C11`2<class BaseClass0,class BaseClass1>)
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G1_C11`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass1>::ClassMethod1344<object>()
calli default string(class G1_C11`2<class BaseClass0,class BaseClass1>)
ldstr "G1_C11::ClassMethod1344.4861<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G1_C11`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method6<object>()
calli default string(class G1_C11`2<class BaseClass0,class BaseClass1>)
ldstr "G1_C11::Method6.4859<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G1_C11`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method5()
calli default string(class G1_C11`2<class BaseClass0,class BaseClass1>)
ldstr "G1_C11::Method5.4858()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G1_C11`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method4()
calli default string(class G1_C11`2<class BaseClass0,class BaseClass1>)
ldstr "G1_C11::Method4.4856()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G1_C11`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method7<object>()
calli default string(class G1_C11`2<class BaseClass0,class BaseClass1>)
ldstr "G1_C11::Method7.4854<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G1_C11`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass1,class BaseClass1>::Method7<object>()
calli default string(class G1_C11`2<class BaseClass0,class BaseClass1>)
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass1> on type class G1_C11`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method4()
calli default string(class G1_C11`2<class BaseClass0,class BaseClass1>)
ldstr "G1_C11::Method4.MI.4857()"
ldstr "class IBase1`1<class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method5()
calli default string(class G1_C11`2<class BaseClass0,class BaseClass1>)
ldstr "G1_C11::Method5.4858()"
ldstr "class IBase1`1<class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method6<object>()
calli default string(class G1_C11`2<class BaseClass0,class BaseClass1>)
ldstr "G1_C11::Method6.MI.4860<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
calli default string(class G1_C11`2<class BaseClass0,class BaseClass1>)
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G1_C11`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
newobj instance void class G1_C11`2<class BaseClass1,class BaseClass0>::.ctor()
stloc.0
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass0>::ClassMethod1345<object>()
calli default string(class G1_C11`2<class BaseClass1,class BaseClass0>)
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass0>::ClassMethod1344<object>()
calli default string(class G1_C11`2<class BaseClass1,class BaseClass0>)
ldstr "G1_C11::ClassMethod1344.4861<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass0>::Method6<object>()
calli default string(class G1_C11`2<class BaseClass1,class BaseClass0>)
ldstr "G1_C11::Method6.4859<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass0>::Method5()
calli default string(class G1_C11`2<class BaseClass1,class BaseClass0>)
ldstr "G1_C11::Method5.4858()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass0>::Method4()
calli default string(class G1_C11`2<class BaseClass1,class BaseClass0>)
ldstr "G1_C11::Method4.4856()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass0>::Method7<object>()
calli default string(class G1_C11`2<class BaseClass1,class BaseClass0>)
ldstr "G1_C11::Method7.4854<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass1,class BaseClass0>::Method7<object>()
calli default string(class G1_C11`2<class BaseClass1,class BaseClass0>)
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method4()
calli default string(class G1_C11`2<class BaseClass1,class BaseClass0>)
ldstr "G1_C11::Method4.MI.4857()"
ldstr "class IBase1`1<class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method5()
calli default string(class G1_C11`2<class BaseClass1,class BaseClass0>)
ldstr "G1_C11::Method5.4858()"
ldstr "class IBase1`1<class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method6<object>()
calli default string(class G1_C11`2<class BaseClass1,class BaseClass0>)
ldstr "G1_C11::Method6.MI.4860<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
calli default string(class G1_C11`2<class BaseClass1,class BaseClass0>)
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
calli default string(class G1_C11`2<class BaseClass1,class BaseClass0>)
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G1_C11`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass1,class BaseClass1>::Method7<object>()
calli default string(class G1_C11`2<class BaseClass1,class BaseClass0>)
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass1> on type class G1_C11`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
newobj instance void class G1_C11`2<class BaseClass1,class BaseClass1>::.ctor()
stloc.0
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass1>::ClassMethod1345<object>()
calli default string(class G1_C11`2<class BaseClass1,class BaseClass1>)
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G1_C11`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass1>::ClassMethod1344<object>()
calli default string(class G1_C11`2<class BaseClass1,class BaseClass1>)
ldstr "G1_C11::ClassMethod1344.4861<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G1_C11`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method6<object>()
calli default string(class G1_C11`2<class BaseClass1,class BaseClass1>)
ldstr "G1_C11::Method6.4859<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G1_C11`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method5()
calli default string(class G1_C11`2<class BaseClass1,class BaseClass1>)
ldstr "G1_C11::Method5.4858()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G1_C11`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method4()
calli default string(class G1_C11`2<class BaseClass1,class BaseClass1>)
ldstr "G1_C11::Method4.4856()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G1_C11`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method7<object>()
calli default string(class G1_C11`2<class BaseClass1,class BaseClass1>)
ldstr "G1_C11::Method7.4854<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G1_C11`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass1,class BaseClass1>::Method7<object>()
calli default string(class G1_C11`2<class BaseClass1,class BaseClass1>)
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass1> on type class G1_C11`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method4()
calli default string(class G1_C11`2<class BaseClass1,class BaseClass1>)
ldstr "G1_C11::Method4.MI.4857()"
ldstr "class IBase1`1<class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method5()
calli default string(class G1_C11`2<class BaseClass1,class BaseClass1>)
ldstr "G1_C11::Method5.4858()"
ldstr "class IBase1`1<class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method6<object>()
calli default string(class G1_C11`2<class BaseClass1,class BaseClass1>)
ldstr "G1_C11::Method6.MI.4860<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
calli default string(class G1_C11`2<class BaseClass1,class BaseClass1>)
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G1_C11`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldstr "========================================================================\n\n"
call void [mscorlib]System.Console::WriteLine(string)
ret
}
.method public hidebysig static int32 Main() cil managed
{
.custom instance void [xunit.core]Xunit.FactAttribute::.ctor() = (
01 00 00 00
)
.entrypoint
.maxstack 10
call void Generated1117::MethodCallingTest()
call void Generated1117::ConstrainedCallsTest()
call void Generated1117::StructConstrainedInterfaceCallsTest()
call void Generated1117::CalliTest()
ldc.i4 100
ret
}
}
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
.assembly extern mscorlib { .publickeytoken = (B7 7A 5C 56 19 34 E0 89 ) .ver 4:0:0:0 }
.assembly extern TestFramework { .publickeytoken = ( B0 3F 5F 7F 11 D5 0A 3A ) }
//TYPES IN FORWARDER ASSEMBLIES:
//TEST ASSEMBLY:
.assembly Generated1117 { .hash algorithm 0x00008004 }
.assembly extern xunit.core {}
.class public BaseClass0
{
.method public hidebysig specialname rtspecialname instance void .ctor() cil managed {
ldarg.0
call instance void [mscorlib]System.Object::.ctor()
ret
}
}
.class public BaseClass1
extends BaseClass0
{
.method public hidebysig specialname rtspecialname instance void .ctor() cil managed {
ldarg.0
call instance void BaseClass0::.ctor()
ret
}
}
.class public G3_C1589`1<T0>
extends class G2_C598`2<!T0,class BaseClass0>
implements class IBase2`2<!T0,class BaseClass0>
{
.method public hidebysig newslot virtual instance string Method7<M0>() cil managed noinlining {
ldstr "G3_C1589::Method7.16950<"
ldtoken !!M0
call class [mscorlib]System.Type [mscorlib]System.Type::GetTypeFromHandle(valuetype [mscorlib]System.RuntimeTypeHandle)
call string [mscorlib]System.String::Concat(object,object)
ldstr ">()"
call string [mscorlib]System.String::Concat(object,object)
ret
}
.method public hidebysig newslot virtual instance string ClassMethod4566() cil managed noinlining {
ldstr "G3_C1589::ClassMethod4566.16951()"
ret
}
.method public hidebysig newslot virtual instance string ClassMethod4567<M0>() cil managed noinlining {
ldstr "G3_C1589::ClassMethod4567.16952<"
ldtoken !!M0
call class [mscorlib]System.Type [mscorlib]System.Type::GetTypeFromHandle(valuetype [mscorlib]System.RuntimeTypeHandle)
call string [mscorlib]System.String::Concat(object,object)
ldstr ">()"
call string [mscorlib]System.String::Concat(object,object)
ret
}
.method public hidebysig specialname rtspecialname instance void .ctor() cil managed {
ldarg.0
call instance void class G2_C598`2<!T0,class BaseClass0>::.ctor()
ret
}
}
.class public G2_C598`2<T0, T1>
extends class G1_C11`2<!T0,class BaseClass1>
implements class IBase1`1<class BaseClass1>, class IBase2`2<!T0,class BaseClass0>
{
.method public hidebysig newslot virtual instance string Method4() cil managed noinlining {
ldstr "G2_C598::Method4.10508()"
ret
}
.method public hidebysig newslot virtual instance string 'IBase1<class BaseClass1>.Method4'() cil managed noinlining {
.override method instance string class IBase1`1<class BaseClass1>::Method4()
ldstr "G2_C598::Method4.MI.10509()"
ret
}
.method public hidebysig virtual instance string Method5() cil managed noinlining {
ldstr "G2_C598::Method5.10510()"
ret
}
.method public hidebysig newslot virtual instance string 'IBase1<class BaseClass1>.Method5'() cil managed noinlining {
.override method instance string class IBase1`1<class BaseClass1>::Method5()
ldstr "G2_C598::Method5.MI.10511()"
ret
}
.method public hidebysig newslot virtual instance string Method6<M0>() cil managed noinlining {
ldstr "G2_C598::Method6.10512<"
ldtoken !!M0
call class [mscorlib]System.Type [mscorlib]System.Type::GetTypeFromHandle(valuetype [mscorlib]System.RuntimeTypeHandle)
call string [mscorlib]System.String::Concat(object,object)
ldstr ">()"
call string [mscorlib]System.String::Concat(object,object)
ret
}
.method public hidebysig virtual instance string Method7<M0>() cil managed noinlining {
ldstr "G2_C598::Method7.10513<"
ldtoken !!M0
call class [mscorlib]System.Type [mscorlib]System.Type::GetTypeFromHandle(valuetype [mscorlib]System.RuntimeTypeHandle)
call string [mscorlib]System.String::Concat(object,object)
ldstr ">()"
call string [mscorlib]System.String::Concat(object,object)
ret
}
.method public hidebysig newslot virtual instance string 'IBase2<T0,class BaseClass0>.Method7'<M0>() cil managed noinlining {
.override method instance string class IBase2`2<!T0,class BaseClass0>::Method7<[1]>()
ldstr "G2_C598::Method7.MI.10514<"
ldtoken !!M0
call class [mscorlib]System.Type [mscorlib]System.Type::GetTypeFromHandle(valuetype [mscorlib]System.RuntimeTypeHandle)
call string [mscorlib]System.String::Concat(object,object)
ldstr ">()"
call string [mscorlib]System.String::Concat(object,object)
ret
}
.method public hidebysig newslot virtual instance string ClassMethod2566() cil managed noinlining {
ldstr "G2_C598::ClassMethod2566.10515()"
ret
}
.method public hidebysig newslot virtual instance string 'G1_C11<T0,class BaseClass1>.ClassMethod1344'<M0>() cil managed noinlining {
.override method instance string class G1_C11`2<!T0,class BaseClass1>::ClassMethod1344<[1]>()
ldstr "G2_C598::ClassMethod1344.MI.10516<"
ldtoken !!M0
call class [mscorlib]System.Type [mscorlib]System.Type::GetTypeFromHandle(valuetype [mscorlib]System.RuntimeTypeHandle)
call string [mscorlib]System.String::Concat(object,object)
ldstr ">()"
call string [mscorlib]System.String::Concat(object,object)
ret
}
.method public hidebysig specialname rtspecialname instance void .ctor() cil managed {
ldarg.0
call instance void class G1_C11`2<!T0,class BaseClass1>::.ctor()
ret
}
}
.class interface public abstract IBase2`2<+T0, -T1>
{
.method public hidebysig newslot abstract virtual instance string Method7<M0>() cil managed { }
}
.class public G1_C11`2<T0, T1>
implements class IBase2`2<class BaseClass1,!T1>, class IBase1`1<class BaseClass0>
{
.method public hidebysig newslot virtual instance string Method7<M0>() cil managed noinlining {
ldstr "G1_C11::Method7.4854<"
ldtoken !!M0
call class [mscorlib]System.Type [mscorlib]System.Type::GetTypeFromHandle(valuetype [mscorlib]System.RuntimeTypeHandle)
call string [mscorlib]System.String::Concat(object,object)
ldstr ">()"
call string [mscorlib]System.String::Concat(object,object)
ret
}
.method public hidebysig newslot virtual instance string 'IBase2<class BaseClass1,T1>.Method7'<M0>() cil managed noinlining {
.override method instance string class IBase2`2<class BaseClass1,!T1>::Method7<[1]>()
ldstr "G1_C11::Method7.MI.4855<"
ldtoken !!M0
call class [mscorlib]System.Type [mscorlib]System.Type::GetTypeFromHandle(valuetype [mscorlib]System.RuntimeTypeHandle)
call string [mscorlib]System.String::Concat(object,object)
ldstr ">()"
call string [mscorlib]System.String::Concat(object,object)
ret
}
.method public hidebysig virtual instance string Method4() cil managed noinlining {
ldstr "G1_C11::Method4.4856()"
ret
}
.method public hidebysig newslot virtual instance string 'IBase1<class BaseClass0>.Method4'() cil managed noinlining {
.override method instance string class IBase1`1<class BaseClass0>::Method4()
ldstr "G1_C11::Method4.MI.4857()"
ret
}
.method public hidebysig virtual instance string Method5() cil managed noinlining {
ldstr "G1_C11::Method5.4858()"
ret
}
.method public hidebysig virtual instance string Method6<M0>() cil managed noinlining {
ldstr "G1_C11::Method6.4859<"
ldtoken !!M0
call class [mscorlib]System.Type [mscorlib]System.Type::GetTypeFromHandle(valuetype [mscorlib]System.RuntimeTypeHandle)
call string [mscorlib]System.String::Concat(object,object)
ldstr ">()"
call string [mscorlib]System.String::Concat(object,object)
ret
}
.method public hidebysig newslot virtual instance string 'IBase1<class BaseClass0>.Method6'<M0>() cil managed noinlining {
.override method instance string class IBase1`1<class BaseClass0>::Method6<[1]>()
ldstr "G1_C11::Method6.MI.4860<"
ldtoken !!M0
call class [mscorlib]System.Type [mscorlib]System.Type::GetTypeFromHandle(valuetype [mscorlib]System.RuntimeTypeHandle)
call string [mscorlib]System.String::Concat(object,object)
ldstr ">()"
call string [mscorlib]System.String::Concat(object,object)
ret
}
.method public hidebysig newslot virtual instance string ClassMethod1344<M0>() cil managed noinlining {
ldstr "G1_C11::ClassMethod1344.4861<"
ldtoken !!M0
call class [mscorlib]System.Type [mscorlib]System.Type::GetTypeFromHandle(valuetype [mscorlib]System.RuntimeTypeHandle)
call string [mscorlib]System.String::Concat(object,object)
ldstr ">()"
call string [mscorlib]System.String::Concat(object,object)
ret
}
.method public hidebysig newslot virtual instance string ClassMethod1345<M0>() cil managed noinlining {
ldstr "G1_C11::ClassMethod1345.4862<"
ldtoken !!M0
call class [mscorlib]System.Type [mscorlib]System.Type::GetTypeFromHandle(valuetype [mscorlib]System.RuntimeTypeHandle)
call string [mscorlib]System.String::Concat(object,object)
ldstr ">()"
call string [mscorlib]System.String::Concat(object,object)
ret
}
.method public hidebysig specialname rtspecialname instance void .ctor() cil managed {
ldarg.0
call instance void [mscorlib]System.Object::.ctor()
ret
}
}
.class interface public abstract IBase1`1<+T0>
{
.method public hidebysig newslot abstract virtual instance string Method4() cil managed { }
.method public hidebysig newslot abstract virtual instance string Method5() cil managed { }
.method public hidebysig newslot abstract virtual instance string Method6<M0>() cil managed { }
}
.class public auto ansi beforefieldinit Generated1117 {
.method static void M.BaseClass0<(BaseClass0)W>(!!W inst, string exp) cil managed {
.maxstack 5
.locals init (string[] actualResults)
ldc.i4.s 0
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.BaseClass0<(BaseClass0)W>(!!W inst, string exp)"
ldc.i4.s 0
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.BaseClass1<(BaseClass1)W>(!!W inst, string exp) cil managed {
.maxstack 5
.locals init (string[] actualResults)
ldc.i4.s 0
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.BaseClass1<(BaseClass1)W>(!!W inst, string exp)"
ldc.i4.s 0
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G3_C1589.T<T0,(class G3_C1589`1<!!T0>)W>(!!W 'inst', string exp) cil managed {
.maxstack 14
.locals init (string[] actualResults)
ldc.i4.s 9
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G3_C1589.T<T0,(class G3_C1589`1<!!T0>)W>(!!W 'inst', string exp)"
ldc.i4.s 9
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1589`1<!!T0>::ClassMethod1344<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1589`1<!!T0>::ClassMethod1345<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1589`1<!!T0>::ClassMethod2566()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1589`1<!!T0>::ClassMethod4566()
stelem.ref
ldloc.s actualResults
ldc.i4.s 4
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1589`1<!!T0>::ClassMethod4567<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 5
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1589`1<!!T0>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 6
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1589`1<!!T0>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 7
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1589`1<!!T0>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 8
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1589`1<!!T0>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G3_C1589.A<(class G3_C1589`1<class BaseClass0>)W>(!!W 'inst', string exp) cil managed {
.maxstack 14
.locals init (string[] actualResults)
ldc.i4.s 9
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G3_C1589.A<(class G3_C1589`1<class BaseClass0>)W>(!!W 'inst', string exp)"
ldc.i4.s 9
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1589`1<class BaseClass0>::ClassMethod1344<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1589`1<class BaseClass0>::ClassMethod1345<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1589`1<class BaseClass0>::ClassMethod2566()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1589`1<class BaseClass0>::ClassMethod4566()
stelem.ref
ldloc.s actualResults
ldc.i4.s 4
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1589`1<class BaseClass0>::ClassMethod4567<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 5
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1589`1<class BaseClass0>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 6
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1589`1<class BaseClass0>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 7
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1589`1<class BaseClass0>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 8
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1589`1<class BaseClass0>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G3_C1589.B<(class G3_C1589`1<class BaseClass1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 14
.locals init (string[] actualResults)
ldc.i4.s 9
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G3_C1589.B<(class G3_C1589`1<class BaseClass1>)W>(!!W 'inst', string exp)"
ldc.i4.s 9
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1589`1<class BaseClass1>::ClassMethod1344<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1589`1<class BaseClass1>::ClassMethod1345<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1589`1<class BaseClass1>::ClassMethod2566()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1589`1<class BaseClass1>::ClassMethod4566()
stelem.ref
ldloc.s actualResults
ldc.i4.s 4
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1589`1<class BaseClass1>::ClassMethod4567<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 5
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1589`1<class BaseClass1>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 6
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1589`1<class BaseClass1>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 7
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1589`1<class BaseClass1>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 8
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1589`1<class BaseClass1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G2_C598.T.T<T0,T1,(class G2_C598`2<!!T0,!!T1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 12
.locals init (string[] actualResults)
ldc.i4.s 7
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G2_C598.T.T<T0,T1,(class G2_C598`2<!!T0,!!T1>)W>(!!W 'inst', string exp)"
ldc.i4.s 7
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<!!T0,!!T1>::ClassMethod1344<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<!!T0,!!T1>::ClassMethod1345<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<!!T0,!!T1>::ClassMethod2566()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<!!T0,!!T1>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 4
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<!!T0,!!T1>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 5
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<!!T0,!!T1>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 6
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<!!T0,!!T1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G2_C598.A.T<T1,(class G2_C598`2<class BaseClass0,!!T1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 12
.locals init (string[] actualResults)
ldc.i4.s 7
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G2_C598.A.T<T1,(class G2_C598`2<class BaseClass0,!!T1>)W>(!!W 'inst', string exp)"
ldc.i4.s 7
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass0,!!T1>::ClassMethod1344<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass0,!!T1>::ClassMethod1345<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass0,!!T1>::ClassMethod2566()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass0,!!T1>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 4
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass0,!!T1>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 5
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass0,!!T1>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 6
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass0,!!T1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G2_C598.A.A<(class G2_C598`2<class BaseClass0,class BaseClass0>)W>(!!W 'inst', string exp) cil managed {
.maxstack 12
.locals init (string[] actualResults)
ldc.i4.s 7
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G2_C598.A.A<(class G2_C598`2<class BaseClass0,class BaseClass0>)W>(!!W 'inst', string exp)"
ldc.i4.s 7
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass0>::ClassMethod1344<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass0>::ClassMethod1345<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass0>::ClassMethod2566()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass0>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 4
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass0>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 5
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass0>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 6
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass0>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G2_C598.A.B<(class G2_C598`2<class BaseClass0,class BaseClass1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 12
.locals init (string[] actualResults)
ldc.i4.s 7
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G2_C598.A.B<(class G2_C598`2<class BaseClass0,class BaseClass1>)W>(!!W 'inst', string exp)"
ldc.i4.s 7
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass1>::ClassMethod1344<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass1>::ClassMethod1345<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass1>::ClassMethod2566()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass1>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 4
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass1>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 5
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass1>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 6
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G2_C598.B.T<T1,(class G2_C598`2<class BaseClass1,!!T1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 12
.locals init (string[] actualResults)
ldc.i4.s 7
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G2_C598.B.T<T1,(class G2_C598`2<class BaseClass1,!!T1>)W>(!!W 'inst', string exp)"
ldc.i4.s 7
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass1,!!T1>::ClassMethod1344<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass1,!!T1>::ClassMethod1345<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass1,!!T1>::ClassMethod2566()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass1,!!T1>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 4
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass1,!!T1>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 5
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass1,!!T1>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 6
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass1,!!T1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G2_C598.B.A<(class G2_C598`2<class BaseClass1,class BaseClass0>)W>(!!W 'inst', string exp) cil managed {
.maxstack 12
.locals init (string[] actualResults)
ldc.i4.s 7
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G2_C598.B.A<(class G2_C598`2<class BaseClass1,class BaseClass0>)W>(!!W 'inst', string exp)"
ldc.i4.s 7
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass0>::ClassMethod1344<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass0>::ClassMethod1345<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass0>::ClassMethod2566()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass0>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 4
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass0>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 5
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass0>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 6
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass0>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G2_C598.B.B<(class G2_C598`2<class BaseClass1,class BaseClass1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 12
.locals init (string[] actualResults)
ldc.i4.s 7
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G2_C598.B.B<(class G2_C598`2<class BaseClass1,class BaseClass1>)W>(!!W 'inst', string exp)"
ldc.i4.s 7
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass1>::ClassMethod1344<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass1>::ClassMethod1345<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass1>::ClassMethod2566()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass1>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 4
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass1>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 5
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass1>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 6
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.IBase2.T.T<T0,T1,(class IBase2`2<!!T0,!!T1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 6
.locals init (string[] actualResults)
ldc.i4.s 1
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.IBase2.T.T<T0,T1,(class IBase2`2<!!T0,!!T1>)W>(!!W 'inst', string exp)"
ldc.i4.s 1
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class IBase2`2<!!T0,!!T1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.IBase2.A.T<T1,(class IBase2`2<class BaseClass0,!!T1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 6
.locals init (string[] actualResults)
ldc.i4.s 1
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.IBase2.A.T<T1,(class IBase2`2<class BaseClass0,!!T1>)W>(!!W 'inst', string exp)"
ldc.i4.s 1
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class IBase2`2<class BaseClass0,!!T1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.IBase2.A.A<(class IBase2`2<class BaseClass0,class BaseClass0>)W>(!!W 'inst', string exp) cil managed {
.maxstack 6
.locals init (string[] actualResults)
ldc.i4.s 1
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.IBase2.A.A<(class IBase2`2<class BaseClass0,class BaseClass0>)W>(!!W 'inst', string exp)"
ldc.i4.s 1
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.IBase2.A.B<(class IBase2`2<class BaseClass0,class BaseClass1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 6
.locals init (string[] actualResults)
ldc.i4.s 1
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.IBase2.A.B<(class IBase2`2<class BaseClass0,class BaseClass1>)W>(!!W 'inst', string exp)"
ldc.i4.s 1
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.IBase2.B.T<T1,(class IBase2`2<class BaseClass1,!!T1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 6
.locals init (string[] actualResults)
ldc.i4.s 1
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.IBase2.B.T<T1,(class IBase2`2<class BaseClass1,!!T1>)W>(!!W 'inst', string exp)"
ldc.i4.s 1
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class IBase2`2<class BaseClass1,!!T1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.IBase2.B.A<(class IBase2`2<class BaseClass1,class BaseClass0>)W>(!!W 'inst', string exp) cil managed {
.maxstack 6
.locals init (string[] actualResults)
ldc.i4.s 1
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.IBase2.B.A<(class IBase2`2<class BaseClass1,class BaseClass0>)W>(!!W 'inst', string exp)"
ldc.i4.s 1
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class IBase2`2<class BaseClass1,class BaseClass0>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.IBase2.B.B<(class IBase2`2<class BaseClass1,class BaseClass1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 6
.locals init (string[] actualResults)
ldc.i4.s 1
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.IBase2.B.B<(class IBase2`2<class BaseClass1,class BaseClass1>)W>(!!W 'inst', string exp)"
ldc.i4.s 1
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class IBase2`2<class BaseClass1,class BaseClass1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G1_C11.T.T<T0,T1,(class G1_C11`2<!!T0,!!T1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 11
.locals init (string[] actualResults)
ldc.i4.s 6
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G1_C11.T.T<T0,T1,(class G1_C11`2<!!T0,!!T1>)W>(!!W 'inst', string exp)"
ldc.i4.s 6
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<!!T0,!!T1>::ClassMethod1344<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<!!T0,!!T1>::ClassMethod1345<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<!!T0,!!T1>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<!!T0,!!T1>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 4
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<!!T0,!!T1>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 5
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<!!T0,!!T1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G1_C11.A.T<T1,(class G1_C11`2<class BaseClass0,!!T1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 11
.locals init (string[] actualResults)
ldc.i4.s 6
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G1_C11.A.T<T1,(class G1_C11`2<class BaseClass0,!!T1>)W>(!!W 'inst', string exp)"
ldc.i4.s 6
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass0,!!T1>::ClassMethod1344<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass0,!!T1>::ClassMethod1345<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass0,!!T1>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass0,!!T1>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 4
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass0,!!T1>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 5
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass0,!!T1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G1_C11.A.A<(class G1_C11`2<class BaseClass0,class BaseClass0>)W>(!!W 'inst', string exp) cil managed {
.maxstack 11
.locals init (string[] actualResults)
ldc.i4.s 6
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G1_C11.A.A<(class G1_C11`2<class BaseClass0,class BaseClass0>)W>(!!W 'inst', string exp)"
ldc.i4.s 6
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass0>::ClassMethod1344<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass0>::ClassMethod1345<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass0>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass0>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 4
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass0>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 5
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass0>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G1_C11.A.B<(class G1_C11`2<class BaseClass0,class BaseClass1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 11
.locals init (string[] actualResults)
ldc.i4.s 6
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G1_C11.A.B<(class G1_C11`2<class BaseClass0,class BaseClass1>)W>(!!W 'inst', string exp)"
ldc.i4.s 6
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::ClassMethod1344<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::ClassMethod1345<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 4
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 5
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G1_C11.B.T<T1,(class G1_C11`2<class BaseClass1,!!T1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 11
.locals init (string[] actualResults)
ldc.i4.s 6
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G1_C11.B.T<T1,(class G1_C11`2<class BaseClass1,!!T1>)W>(!!W 'inst', string exp)"
ldc.i4.s 6
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass1,!!T1>::ClassMethod1344<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass1,!!T1>::ClassMethod1345<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass1,!!T1>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass1,!!T1>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 4
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass1,!!T1>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 5
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass1,!!T1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G1_C11.B.A<(class G1_C11`2<class BaseClass1,class BaseClass0>)W>(!!W 'inst', string exp) cil managed {
.maxstack 11
.locals init (string[] actualResults)
ldc.i4.s 6
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G1_C11.B.A<(class G1_C11`2<class BaseClass1,class BaseClass0>)W>(!!W 'inst', string exp)"
ldc.i4.s 6
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass0>::ClassMethod1344<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass0>::ClassMethod1345<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass0>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass0>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 4
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass0>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 5
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass0>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G1_C11.B.B<(class G1_C11`2<class BaseClass1,class BaseClass1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 11
.locals init (string[] actualResults)
ldc.i4.s 6
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G1_C11.B.B<(class G1_C11`2<class BaseClass1,class BaseClass1>)W>(!!W 'inst', string exp)"
ldc.i4.s 6
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::ClassMethod1344<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::ClassMethod1345<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 4
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 5
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.IBase1.T<T0,(class IBase1`1<!!T0>)W>(!!W 'inst', string exp) cil managed {
.maxstack 8
.locals init (string[] actualResults)
ldc.i4.s 3
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.IBase1.T<T0,(class IBase1`1<!!T0>)W>(!!W 'inst', string exp)"
ldc.i4.s 3
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class IBase1`1<!!T0>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class IBase1`1<!!T0>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class IBase1`1<!!T0>::Method6<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.IBase1.A<(class IBase1`1<class BaseClass0>)W>(!!W 'inst', string exp) cil managed {
.maxstack 8
.locals init (string[] actualResults)
ldc.i4.s 3
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.IBase1.A<(class IBase1`1<class BaseClass0>)W>(!!W 'inst', string exp)"
ldc.i4.s 3
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class IBase1`1<class BaseClass0>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class IBase1`1<class BaseClass0>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class IBase1`1<class BaseClass0>::Method6<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.IBase1.B<(class IBase1`1<class BaseClass1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 8
.locals init (string[] actualResults)
ldc.i4.s 3
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.IBase1.B<(class IBase1`1<class BaseClass1>)W>(!!W 'inst', string exp)"
ldc.i4.s 3
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class IBase1`1<class BaseClass1>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class IBase1`1<class BaseClass1>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class IBase1`1<class BaseClass1>::Method6<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method public hidebysig static void MethodCallingTest() cil managed
{
.maxstack 10
.locals init (object V_0)
ldstr "========================== Method Calling Test =========================="
call void [mscorlib]System.Console::WriteLine(string)
newobj instance void class G3_C1589`1<class BaseClass0>::.ctor()
stloc.0
ldloc.0
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::ClassMethod1345<object>()
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::ClassMethod1344<object>()
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method6<object>()
ldstr "G1_C11::Method6.4859<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method5()
ldstr "G2_C598::Method5.10510()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method4()
ldstr "G1_C11::Method4.4856()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method7<object>()
ldstr "G2_C598::Method7.10513<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass1,class BaseClass1>::Method7<object>()
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass1> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method4()
ldstr "G2_C598::Method4.MI.10509()"
ldstr "class IBase1`1<class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method5()
ldstr "G2_C598::Method5.MI.10511()"
ldstr "class IBase1`1<class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method6<object>()
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
ldstr "G3_C1589::Method7.16950<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass0>::ClassMethod2566()
ldstr "G2_C598::ClassMethod2566.10515()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass0>::Method7<object>()
ldstr "G2_C598::Method7.10513<System.Object>()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass0>::Method6<object>()
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass0>::Method5()
ldstr "G2_C598::Method5.10510()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass0>::Method4()
ldstr "G2_C598::Method4.10508()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass0>::ClassMethod1345<object>()
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass0>::ClassMethod1344<object>()
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method4()
ldstr "G2_C598::Method4.MI.10509()"
ldstr "class IBase1`1<class BaseClass1> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method5()
ldstr "G2_C598::Method5.MI.10511()"
ldstr "class IBase1`1<class BaseClass1> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method6<object>()
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class IBase1`1<class BaseClass1> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
ldstr "G3_C1589::Method7.16950<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
castclass class G3_C1589`1<class BaseClass0>
callvirt instance string class G3_C1589`1<class BaseClass0>::ClassMethod4567<object>()
ldstr "G3_C1589::ClassMethod4567.16952<System.Object>()"
ldstr "class G3_C1589`1<class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1589`1<class BaseClass0>
callvirt instance string class G3_C1589`1<class BaseClass0>::ClassMethod4566()
ldstr "G3_C1589::ClassMethod4566.16951()"
ldstr "class G3_C1589`1<class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1589`1<class BaseClass0>
callvirt instance string class G3_C1589`1<class BaseClass0>::Method7<object>()
ldstr "G3_C1589::Method7.16950<System.Object>()"
ldstr "class G3_C1589`1<class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1589`1<class BaseClass0>
callvirt instance string class G3_C1589`1<class BaseClass0>::ClassMethod2566()
ldstr "G2_C598::ClassMethod2566.10515()"
ldstr "class G3_C1589`1<class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1589`1<class BaseClass0>
callvirt instance string class G3_C1589`1<class BaseClass0>::Method6<object>()
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class G3_C1589`1<class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1589`1<class BaseClass0>
callvirt instance string class G3_C1589`1<class BaseClass0>::Method5()
ldstr "G2_C598::Method5.10510()"
ldstr "class G3_C1589`1<class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1589`1<class BaseClass0>
callvirt instance string class G3_C1589`1<class BaseClass0>::Method4()
ldstr "G2_C598::Method4.10508()"
ldstr "class G3_C1589`1<class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1589`1<class BaseClass0>
callvirt instance string class G3_C1589`1<class BaseClass0>::ClassMethod1345<object>()
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G3_C1589`1<class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1589`1<class BaseClass0>
callvirt instance string class G3_C1589`1<class BaseClass0>::ClassMethod1344<object>()
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G3_C1589`1<class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
newobj instance void class G3_C1589`1<class BaseClass1>::.ctor()
stloc.0
ldloc.0
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::ClassMethod1345<object>()
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::ClassMethod1344<object>()
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method6<object>()
ldstr "G1_C11::Method6.4859<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method5()
ldstr "G2_C598::Method5.10510()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method4()
ldstr "G1_C11::Method4.4856()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method7<object>()
ldstr "G2_C598::Method7.10513<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass1,class BaseClass1>::Method7<object>()
ldstr "G3_C1589::Method7.16950<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method4()
ldstr "G2_C598::Method4.MI.10509()"
ldstr "class IBase1`1<class BaseClass0> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method5()
ldstr "G2_C598::Method5.MI.10511()"
ldstr "class IBase1`1<class BaseClass0> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method6<object>()
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
ldstr "G3_C1589::Method7.16950<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass0>::ClassMethod2566()
ldstr "G2_C598::ClassMethod2566.10515()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass0>::Method7<object>()
ldstr "G2_C598::Method7.10513<System.Object>()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass0>::Method6<object>()
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass0>::Method5()
ldstr "G2_C598::Method5.10510()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass0>::Method4()
ldstr "G2_C598::Method4.10508()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass0>::ClassMethod1345<object>()
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass0>::ClassMethod1344<object>()
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method4()
ldstr "G2_C598::Method4.MI.10509()"
ldstr "class IBase1`1<class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method5()
ldstr "G2_C598::Method5.MI.10511()"
ldstr "class IBase1`1<class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method6<object>()
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class IBase1`1<class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass1,class BaseClass0>::Method7<object>()
ldstr "G3_C1589::Method7.16950<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass0> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
ldstr "G3_C1589::Method7.16950<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
castclass class G3_C1589`1<class BaseClass1>
callvirt instance string class G3_C1589`1<class BaseClass1>::ClassMethod4567<object>()
ldstr "G3_C1589::ClassMethod4567.16952<System.Object>()"
ldstr "class G3_C1589`1<class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1589`1<class BaseClass1>
callvirt instance string class G3_C1589`1<class BaseClass1>::ClassMethod4566()
ldstr "G3_C1589::ClassMethod4566.16951()"
ldstr "class G3_C1589`1<class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1589`1<class BaseClass1>
callvirt instance string class G3_C1589`1<class BaseClass1>::Method7<object>()
ldstr "G3_C1589::Method7.16950<System.Object>()"
ldstr "class G3_C1589`1<class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1589`1<class BaseClass1>
callvirt instance string class G3_C1589`1<class BaseClass1>::ClassMethod2566()
ldstr "G2_C598::ClassMethod2566.10515()"
ldstr "class G3_C1589`1<class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1589`1<class BaseClass1>
callvirt instance string class G3_C1589`1<class BaseClass1>::Method6<object>()
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class G3_C1589`1<class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1589`1<class BaseClass1>
callvirt instance string class G3_C1589`1<class BaseClass1>::Method5()
ldstr "G2_C598::Method5.10510()"
ldstr "class G3_C1589`1<class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1589`1<class BaseClass1>
callvirt instance string class G3_C1589`1<class BaseClass1>::Method4()
ldstr "G2_C598::Method4.10508()"
ldstr "class G3_C1589`1<class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1589`1<class BaseClass1>
callvirt instance string class G3_C1589`1<class BaseClass1>::ClassMethod1345<object>()
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G3_C1589`1<class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1589`1<class BaseClass1>
callvirt instance string class G3_C1589`1<class BaseClass1>::ClassMethod1344<object>()
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G3_C1589`1<class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
newobj instance void class G2_C598`2<class BaseClass0,class BaseClass0>::.ctor()
stloc.0
ldloc.0
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::ClassMethod1345<object>()
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::ClassMethod1344<object>()
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method6<object>()
ldstr "G1_C11::Method6.4859<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method5()
ldstr "G2_C598::Method5.10510()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method4()
ldstr "G1_C11::Method4.4856()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method7<object>()
ldstr "G2_C598::Method7.10513<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass1,class BaseClass1>::Method7<object>()
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method4()
ldstr "G2_C598::Method4.MI.10509()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method5()
ldstr "G2_C598::Method5.MI.10511()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method6<object>()
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
ldstr "G2_C598::Method7.MI.10514<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass0>::ClassMethod2566()
ldstr "G2_C598::ClassMethod2566.10515()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass0>::Method7<object>()
ldstr "G2_C598::Method7.10513<System.Object>()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass0>::Method6<object>()
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass0>::Method5()
ldstr "G2_C598::Method5.10510()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass0>::Method4()
ldstr "G2_C598::Method4.10508()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass0>::ClassMethod1345<object>()
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass0>::ClassMethod1344<object>()
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method4()
ldstr "G2_C598::Method4.MI.10509()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method5()
ldstr "G2_C598::Method5.MI.10511()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method6<object>()
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
ldstr "G2_C598::Method7.MI.10514<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
newobj instance void class G2_C598`2<class BaseClass0,class BaseClass1>::.ctor()
stloc.0
ldloc.0
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::ClassMethod1345<object>()
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::ClassMethod1344<object>()
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method6<object>()
ldstr "G1_C11::Method6.4859<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method5()
ldstr "G2_C598::Method5.10510()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method4()
ldstr "G1_C11::Method4.4856()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method7<object>()
ldstr "G2_C598::Method7.10513<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass1,class BaseClass1>::Method7<object>()
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method4()
ldstr "G2_C598::Method4.MI.10509()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method5()
ldstr "G2_C598::Method5.MI.10511()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method6<object>()
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
ldstr "G2_C598::Method7.MI.10514<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
castclass class G2_C598`2<class BaseClass0,class BaseClass1>
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass1>::ClassMethod2566()
ldstr "G2_C598::ClassMethod2566.10515()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass0,class BaseClass1>
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass1>::Method7<object>()
ldstr "G2_C598::Method7.10513<System.Object>()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass0,class BaseClass1>
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass1>::Method6<object>()
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass0,class BaseClass1>
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass1>::Method5()
ldstr "G2_C598::Method5.10510()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass0,class BaseClass1>
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass1>::Method4()
ldstr "G2_C598::Method4.10508()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass0,class BaseClass1>
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass1>::ClassMethod1345<object>()
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass0,class BaseClass1>
callvirt instance string class G2_C598`2<class BaseClass0,class BaseClass1>::ClassMethod1344<object>()
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method4()
ldstr "G2_C598::Method4.MI.10509()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method5()
ldstr "G2_C598::Method5.MI.10511()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method6<object>()
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
ldstr "G2_C598::Method7.MI.10514<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
newobj instance void class G2_C598`2<class BaseClass1,class BaseClass0>::.ctor()
stloc.0
ldloc.0
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::ClassMethod1345<object>()
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::ClassMethod1344<object>()
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method6<object>()
ldstr "G1_C11::Method6.4859<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method5()
ldstr "G2_C598::Method5.10510()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method4()
ldstr "G1_C11::Method4.4856()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method7<object>()
ldstr "G2_C598::Method7.10513<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass1,class BaseClass1>::Method7<object>()
ldstr "G2_C598::Method7.MI.10514<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method4()
ldstr "G2_C598::Method4.MI.10509()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method5()
ldstr "G2_C598::Method5.MI.10511()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method6<object>()
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
ldstr "G2_C598::Method7.MI.10514<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass0>::ClassMethod2566()
ldstr "G2_C598::ClassMethod2566.10515()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass0>::Method7<object>()
ldstr "G2_C598::Method7.10513<System.Object>()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass0>::Method6<object>()
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass0>::Method5()
ldstr "G2_C598::Method5.10510()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass0>::Method4()
ldstr "G2_C598::Method4.10508()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass0>::ClassMethod1345<object>()
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass0>::ClassMethod1344<object>()
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method4()
ldstr "G2_C598::Method4.MI.10509()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method5()
ldstr "G2_C598::Method5.MI.10511()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method6<object>()
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass1,class BaseClass0>::Method7<object>()
ldstr "G2_C598::Method7.MI.10514<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
ldstr "G2_C598::Method7.MI.10514<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
newobj instance void class G2_C598`2<class BaseClass1,class BaseClass1>::.ctor()
stloc.0
ldloc.0
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::ClassMethod1345<object>()
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::ClassMethod1344<object>()
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method6<object>()
ldstr "G1_C11::Method6.4859<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method5()
ldstr "G2_C598::Method5.10510()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method4()
ldstr "G1_C11::Method4.4856()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method7<object>()
ldstr "G2_C598::Method7.10513<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass1,class BaseClass1>::Method7<object>()
ldstr "G2_C598::Method7.MI.10514<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method4()
ldstr "G2_C598::Method4.MI.10509()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method5()
ldstr "G2_C598::Method5.MI.10511()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method6<object>()
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
ldstr "G2_C598::Method7.MI.10514<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
castclass class G2_C598`2<class BaseClass1,class BaseClass1>
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass1>::ClassMethod2566()
ldstr "G2_C598::ClassMethod2566.10515()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass1,class BaseClass1>
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass1>::Method7<object>()
ldstr "G2_C598::Method7.10513<System.Object>()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass1,class BaseClass1>
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass1>::Method6<object>()
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass1,class BaseClass1>
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass1>::Method5()
ldstr "G2_C598::Method5.10510()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass1,class BaseClass1>
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass1>::Method4()
ldstr "G2_C598::Method4.10508()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass1,class BaseClass1>
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass1>::ClassMethod1345<object>()
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C598`2<class BaseClass1,class BaseClass1>
callvirt instance string class G2_C598`2<class BaseClass1,class BaseClass1>::ClassMethod1344<object>()
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method4()
ldstr "G2_C598::Method4.MI.10509()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method5()
ldstr "G2_C598::Method5.MI.10511()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method6<object>()
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass1,class BaseClass0>::Method7<object>()
ldstr "G2_C598::Method7.MI.10514<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
ldstr "G2_C598::Method7.MI.10514<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
newobj instance void class G1_C11`2<class BaseClass0,class BaseClass0>::.ctor()
stloc.0
ldloc.0
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass0>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass0>::ClassMethod1345<object>()
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass0>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass0>::ClassMethod1344<object>()
ldstr "G1_C11::ClassMethod1344.4861<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass0>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass0>::Method6<object>()
ldstr "G1_C11::Method6.4859<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass0>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass0>::Method5()
ldstr "G1_C11::Method5.4858()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass0>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass0>::Method4()
ldstr "G1_C11::Method4.4856()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass0>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass0>::Method7<object>()
ldstr "G1_C11::Method7.4854<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass1,class BaseClass0>::Method7<object>()
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method4()
ldstr "G1_C11::Method4.MI.4857()"
ldstr "class IBase1`1<class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method5()
ldstr "G1_C11::Method5.4858()"
ldstr "class IBase1`1<class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method6<object>()
ldstr "G1_C11::Method6.MI.4860<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G1_C11`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass1,class BaseClass1>::Method7<object>()
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass1> on type class G1_C11`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
newobj instance void class G1_C11`2<class BaseClass0,class BaseClass1>::.ctor()
stloc.0
ldloc.0
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::ClassMethod1345<object>()
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G1_C11`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::ClassMethod1344<object>()
ldstr "G1_C11::ClassMethod1344.4861<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G1_C11`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method6<object>()
ldstr "G1_C11::Method6.4859<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G1_C11`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method5()
ldstr "G1_C11::Method5.4858()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G1_C11`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method4()
ldstr "G1_C11::Method4.4856()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G1_C11`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method7<object>()
ldstr "G1_C11::Method7.4854<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G1_C11`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass1,class BaseClass1>::Method7<object>()
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass1> on type class G1_C11`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method4()
ldstr "G1_C11::Method4.MI.4857()"
ldstr "class IBase1`1<class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method5()
ldstr "G1_C11::Method5.4858()"
ldstr "class IBase1`1<class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method6<object>()
ldstr "G1_C11::Method6.MI.4860<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G1_C11`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
newobj instance void class G1_C11`2<class BaseClass1,class BaseClass0>::.ctor()
stloc.0
ldloc.0
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass0>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass0>::ClassMethod1345<object>()
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass0>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass0>::ClassMethod1344<object>()
ldstr "G1_C11::ClassMethod1344.4861<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass0>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass0>::Method6<object>()
ldstr "G1_C11::Method6.4859<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass0>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass0>::Method5()
ldstr "G1_C11::Method5.4858()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass0>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass0>::Method4()
ldstr "G1_C11::Method4.4856()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass0>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass0>::Method7<object>()
ldstr "G1_C11::Method7.4854<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass1,class BaseClass0>::Method7<object>()
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method4()
ldstr "G1_C11::Method4.MI.4857()"
ldstr "class IBase1`1<class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method5()
ldstr "G1_C11::Method5.4858()"
ldstr "class IBase1`1<class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method6<object>()
ldstr "G1_C11::Method6.MI.4860<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G1_C11`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass1,class BaseClass1>::Method7<object>()
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass1> on type class G1_C11`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
newobj instance void class G1_C11`2<class BaseClass1,class BaseClass1>::.ctor()
stloc.0
ldloc.0
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::ClassMethod1345<object>()
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G1_C11`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::ClassMethod1344<object>()
ldstr "G1_C11::ClassMethod1344.4861<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G1_C11`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method6<object>()
ldstr "G1_C11::Method6.4859<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G1_C11`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method5()
ldstr "G1_C11::Method5.4858()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G1_C11`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method4()
ldstr "G1_C11::Method4.4856()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G1_C11`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
callvirt instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method7<object>()
ldstr "G1_C11::Method7.4854<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G1_C11`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass1,class BaseClass1>::Method7<object>()
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass1> on type class G1_C11`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method4()
ldstr "G1_C11::Method4.MI.4857()"
ldstr "class IBase1`1<class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method5()
ldstr "G1_C11::Method5.4858()"
ldstr "class IBase1`1<class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method6<object>()
ldstr "G1_C11::Method6.MI.4860<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G1_C11`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldstr "========================================================================\n\n"
call void [mscorlib]System.Console::WriteLine(string)
ret
}
.method public hidebysig static void ConstrainedCallsTest() cil managed
{
.maxstack 10
.locals init (object V_0)
ldstr "========================== Constrained Calls Test =========================="
call void [mscorlib]System.Console::WriteLine(string)
newobj instance void class G3_C1589`1<class BaseClass0>::.ctor()
stloc.0
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G2_C598::Method5.10510()#G1_C11::Method6.4859<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G1_C11.T.T<class BaseClass0,class BaseClass1,class G3_C1589`1<class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G2_C598::Method5.10510()#G1_C11::Method6.4859<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G1_C11.A.T<class BaseClass1,class G3_C1589`1<class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G2_C598::Method5.10510()#G1_C11::Method6.4859<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G1_C11.A.B<class G3_C1589`1<class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass1,class BaseClass1,class G3_C1589`1<class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.B.T<class BaseClass1,class G3_C1589`1<class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.B.B<class G3_C1589`1<class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G2_C598::Method4.MI.10509()#G2_C598::Method5.MI.10511()#G2_C598::Method6.10512<System.Object>()#"
call void Generated1117::M.IBase1.T<class BaseClass0,class G3_C1589`1<class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C598::Method4.MI.10509()#G2_C598::Method5.MI.10511()#G2_C598::Method6.10512<System.Object>()#"
call void Generated1117::M.IBase1.A<class G3_C1589`1<class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G3_C1589::Method7.16950<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass0,class BaseClass1,class G3_C1589`1<class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G3_C1589::Method7.16950<System.Object>()#"
call void Generated1117::M.IBase2.A.T<class BaseClass1,class G3_C1589`1<class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G3_C1589::Method7.16950<System.Object>()#"
call void Generated1117::M.IBase2.A.B<class G3_C1589`1<class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G2_C598::ClassMethod2566.10515()#G2_C598::Method4.10508()#G2_C598::Method5.10510()#G2_C598::Method6.10512<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G2_C598.T.T<class BaseClass0,class BaseClass0,class G3_C1589`1<class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G2_C598::ClassMethod2566.10515()#G2_C598::Method4.10508()#G2_C598::Method5.10510()#G2_C598::Method6.10512<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G2_C598.A.T<class BaseClass0,class G3_C1589`1<class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G2_C598::ClassMethod2566.10515()#G2_C598::Method4.10508()#G2_C598::Method5.10510()#G2_C598::Method6.10512<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G2_C598.A.A<class G3_C1589`1<class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G2_C598::Method4.MI.10509()#G2_C598::Method5.MI.10511()#G2_C598::Method6.10512<System.Object>()#"
call void Generated1117::M.IBase1.T<class BaseClass1,class G3_C1589`1<class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C598::Method4.MI.10509()#G2_C598::Method5.MI.10511()#G2_C598::Method6.10512<System.Object>()#"
call void Generated1117::M.IBase1.B<class G3_C1589`1<class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G3_C1589::Method7.16950<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass0,class BaseClass0,class G3_C1589`1<class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G3_C1589::Method7.16950<System.Object>()#"
call void Generated1117::M.IBase2.A.T<class BaseClass0,class G3_C1589`1<class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G3_C1589::Method7.16950<System.Object>()#"
call void Generated1117::M.IBase2.A.A<class G3_C1589`1<class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G2_C598::ClassMethod2566.10515()#G3_C1589::ClassMethod4566.16951()#G3_C1589::ClassMethod4567.16952<System.Object>()#G2_C598::Method4.10508()#G2_C598::Method5.10510()#G2_C598::Method6.10512<System.Object>()#G3_C1589::Method7.16950<System.Object>()#"
call void Generated1117::M.G3_C1589.T<class BaseClass0,class G3_C1589`1<class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G2_C598::ClassMethod2566.10515()#G3_C1589::ClassMethod4566.16951()#G3_C1589::ClassMethod4567.16952<System.Object>()#G2_C598::Method4.10508()#G2_C598::Method5.10510()#G2_C598::Method6.10512<System.Object>()#G3_C1589::Method7.16950<System.Object>()#"
call void Generated1117::M.G3_C1589.A<class G3_C1589`1<class BaseClass0>>(!!0,string)
newobj instance void class G3_C1589`1<class BaseClass1>::.ctor()
stloc.0
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G2_C598::Method5.10510()#G1_C11::Method6.4859<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G1_C11.T.T<class BaseClass1,class BaseClass1,class G3_C1589`1<class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G2_C598::Method5.10510()#G1_C11::Method6.4859<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G1_C11.B.T<class BaseClass1,class G3_C1589`1<class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G2_C598::Method5.10510()#G1_C11::Method6.4859<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G1_C11.B.B<class G3_C1589`1<class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G3_C1589::Method7.16950<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass1,class BaseClass1,class G3_C1589`1<class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G3_C1589::Method7.16950<System.Object>()#"
call void Generated1117::M.IBase2.B.T<class BaseClass1,class G3_C1589`1<class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G3_C1589::Method7.16950<System.Object>()#"
call void Generated1117::M.IBase2.B.B<class G3_C1589`1<class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C598::Method4.MI.10509()#G2_C598::Method5.MI.10511()#G2_C598::Method6.10512<System.Object>()#"
call void Generated1117::M.IBase1.T<class BaseClass0,class G3_C1589`1<class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C598::Method4.MI.10509()#G2_C598::Method5.MI.10511()#G2_C598::Method6.10512<System.Object>()#"
call void Generated1117::M.IBase1.A<class G3_C1589`1<class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G3_C1589::Method7.16950<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass0,class BaseClass1,class G3_C1589`1<class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G3_C1589::Method7.16950<System.Object>()#"
call void Generated1117::M.IBase2.A.T<class BaseClass1,class G3_C1589`1<class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G3_C1589::Method7.16950<System.Object>()#"
call void Generated1117::M.IBase2.A.B<class G3_C1589`1<class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G2_C598::ClassMethod2566.10515()#G2_C598::Method4.10508()#G2_C598::Method5.10510()#G2_C598::Method6.10512<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G2_C598.T.T<class BaseClass1,class BaseClass0,class G3_C1589`1<class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G2_C598::ClassMethod2566.10515()#G2_C598::Method4.10508()#G2_C598::Method5.10510()#G2_C598::Method6.10512<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G2_C598.B.T<class BaseClass0,class G3_C1589`1<class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G2_C598::ClassMethod2566.10515()#G2_C598::Method4.10508()#G2_C598::Method5.10510()#G2_C598::Method6.10512<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G2_C598.B.A<class G3_C1589`1<class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C598::Method4.MI.10509()#G2_C598::Method5.MI.10511()#G2_C598::Method6.10512<System.Object>()#"
call void Generated1117::M.IBase1.T<class BaseClass1,class G3_C1589`1<class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C598::Method4.MI.10509()#G2_C598::Method5.MI.10511()#G2_C598::Method6.10512<System.Object>()#"
call void Generated1117::M.IBase1.B<class G3_C1589`1<class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G3_C1589::Method7.16950<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass1,class BaseClass0,class G3_C1589`1<class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G3_C1589::Method7.16950<System.Object>()#"
call void Generated1117::M.IBase2.B.T<class BaseClass0,class G3_C1589`1<class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G3_C1589::Method7.16950<System.Object>()#"
call void Generated1117::M.IBase2.B.A<class G3_C1589`1<class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G3_C1589::Method7.16950<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass0,class BaseClass0,class G3_C1589`1<class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G3_C1589::Method7.16950<System.Object>()#"
call void Generated1117::M.IBase2.A.T<class BaseClass0,class G3_C1589`1<class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G3_C1589::Method7.16950<System.Object>()#"
call void Generated1117::M.IBase2.A.A<class G3_C1589`1<class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G2_C598::ClassMethod2566.10515()#G3_C1589::ClassMethod4566.16951()#G3_C1589::ClassMethod4567.16952<System.Object>()#G2_C598::Method4.10508()#G2_C598::Method5.10510()#G2_C598::Method6.10512<System.Object>()#G3_C1589::Method7.16950<System.Object>()#"
call void Generated1117::M.G3_C1589.T<class BaseClass1,class G3_C1589`1<class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G2_C598::ClassMethod2566.10515()#G3_C1589::ClassMethod4566.16951()#G3_C1589::ClassMethod4567.16952<System.Object>()#G2_C598::Method4.10508()#G2_C598::Method5.10510()#G2_C598::Method6.10512<System.Object>()#G3_C1589::Method7.16950<System.Object>()#"
call void Generated1117::M.G3_C1589.B<class G3_C1589`1<class BaseClass1>>(!!0,string)
newobj instance void class G2_C598`2<class BaseClass0,class BaseClass0>::.ctor()
stloc.0
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G2_C598::Method5.10510()#G1_C11::Method6.4859<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G1_C11.T.T<class BaseClass0,class BaseClass1,class G2_C598`2<class BaseClass0,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G2_C598::Method5.10510()#G1_C11::Method6.4859<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G1_C11.A.T<class BaseClass1,class G2_C598`2<class BaseClass0,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G2_C598::Method5.10510()#G1_C11::Method6.4859<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G1_C11.A.B<class G2_C598`2<class BaseClass0,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass1,class BaseClass1,class G2_C598`2<class BaseClass0,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.B.T<class BaseClass1,class G2_C598`2<class BaseClass0,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.B.B<class G2_C598`2<class BaseClass0,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G2_C598::Method4.MI.10509()#G2_C598::Method5.MI.10511()#G2_C598::Method6.10512<System.Object>()#"
call void Generated1117::M.IBase1.T<class BaseClass0,class G2_C598`2<class BaseClass0,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C598::Method4.MI.10509()#G2_C598::Method5.MI.10511()#G2_C598::Method6.10512<System.Object>()#"
call void Generated1117::M.IBase1.A<class G2_C598`2<class BaseClass0,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass0,class BaseClass1,class G2_C598`2<class BaseClass0,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.A.T<class BaseClass1,class G2_C598`2<class BaseClass0,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.A.B<class G2_C598`2<class BaseClass0,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G2_C598::ClassMethod2566.10515()#G2_C598::Method4.10508()#G2_C598::Method5.10510()#G2_C598::Method6.10512<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G2_C598.T.T<class BaseClass0,class BaseClass0,class G2_C598`2<class BaseClass0,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G2_C598::ClassMethod2566.10515()#G2_C598::Method4.10508()#G2_C598::Method5.10510()#G2_C598::Method6.10512<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G2_C598.A.T<class BaseClass0,class G2_C598`2<class BaseClass0,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G2_C598::ClassMethod2566.10515()#G2_C598::Method4.10508()#G2_C598::Method5.10510()#G2_C598::Method6.10512<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G2_C598.A.A<class G2_C598`2<class BaseClass0,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G2_C598::Method4.MI.10509()#G2_C598::Method5.MI.10511()#G2_C598::Method6.10512<System.Object>()#"
call void Generated1117::M.IBase1.T<class BaseClass1,class G2_C598`2<class BaseClass0,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C598::Method4.MI.10509()#G2_C598::Method5.MI.10511()#G2_C598::Method6.10512<System.Object>()#"
call void Generated1117::M.IBase1.B<class G2_C598`2<class BaseClass0,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass0,class BaseClass0,class G2_C598`2<class BaseClass0,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.A.T<class BaseClass0,class G2_C598`2<class BaseClass0,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.A.A<class G2_C598`2<class BaseClass0,class BaseClass0>>(!!0,string)
newobj instance void class G2_C598`2<class BaseClass0,class BaseClass1>::.ctor()
stloc.0
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G2_C598::Method5.10510()#G1_C11::Method6.4859<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G1_C11.T.T<class BaseClass0,class BaseClass1,class G2_C598`2<class BaseClass0,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G2_C598::Method5.10510()#G1_C11::Method6.4859<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G1_C11.A.T<class BaseClass1,class G2_C598`2<class BaseClass0,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G2_C598::Method5.10510()#G1_C11::Method6.4859<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G1_C11.A.B<class G2_C598`2<class BaseClass0,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass1,class BaseClass1,class G2_C598`2<class BaseClass0,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.B.T<class BaseClass1,class G2_C598`2<class BaseClass0,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.B.B<class G2_C598`2<class BaseClass0,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C598::Method4.MI.10509()#G2_C598::Method5.MI.10511()#G2_C598::Method6.10512<System.Object>()#"
call void Generated1117::M.IBase1.T<class BaseClass0,class G2_C598`2<class BaseClass0,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C598::Method4.MI.10509()#G2_C598::Method5.MI.10511()#G2_C598::Method6.10512<System.Object>()#"
call void Generated1117::M.IBase1.A<class G2_C598`2<class BaseClass0,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass0,class BaseClass1,class G2_C598`2<class BaseClass0,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.A.T<class BaseClass1,class G2_C598`2<class BaseClass0,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.A.B<class G2_C598`2<class BaseClass0,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G2_C598::ClassMethod2566.10515()#G2_C598::Method4.10508()#G2_C598::Method5.10510()#G2_C598::Method6.10512<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G2_C598.T.T<class BaseClass0,class BaseClass1,class G2_C598`2<class BaseClass0,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G2_C598::ClassMethod2566.10515()#G2_C598::Method4.10508()#G2_C598::Method5.10510()#G2_C598::Method6.10512<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G2_C598.A.T<class BaseClass1,class G2_C598`2<class BaseClass0,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G2_C598::ClassMethod2566.10515()#G2_C598::Method4.10508()#G2_C598::Method5.10510()#G2_C598::Method6.10512<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G2_C598.A.B<class G2_C598`2<class BaseClass0,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C598::Method4.MI.10509()#G2_C598::Method5.MI.10511()#G2_C598::Method6.10512<System.Object>()#"
call void Generated1117::M.IBase1.T<class BaseClass1,class G2_C598`2<class BaseClass0,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C598::Method4.MI.10509()#G2_C598::Method5.MI.10511()#G2_C598::Method6.10512<System.Object>()#"
call void Generated1117::M.IBase1.B<class G2_C598`2<class BaseClass0,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass0,class BaseClass0,class G2_C598`2<class BaseClass0,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.A.T<class BaseClass0,class G2_C598`2<class BaseClass0,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.A.A<class G2_C598`2<class BaseClass0,class BaseClass1>>(!!0,string)
newobj instance void class G2_C598`2<class BaseClass1,class BaseClass0>::.ctor()
stloc.0
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G2_C598::Method5.10510()#G1_C11::Method6.4859<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G1_C11.T.T<class BaseClass1,class BaseClass1,class G2_C598`2<class BaseClass1,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G2_C598::Method5.10510()#G1_C11::Method6.4859<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G1_C11.B.T<class BaseClass1,class G2_C598`2<class BaseClass1,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G2_C598::Method5.10510()#G1_C11::Method6.4859<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G1_C11.B.B<class G2_C598`2<class BaseClass1,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass1,class BaseClass1,class G2_C598`2<class BaseClass1,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.B.T<class BaseClass1,class G2_C598`2<class BaseClass1,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.B.B<class G2_C598`2<class BaseClass1,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G2_C598::Method4.MI.10509()#G2_C598::Method5.MI.10511()#G2_C598::Method6.10512<System.Object>()#"
call void Generated1117::M.IBase1.T<class BaseClass0,class G2_C598`2<class BaseClass1,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C598::Method4.MI.10509()#G2_C598::Method5.MI.10511()#G2_C598::Method6.10512<System.Object>()#"
call void Generated1117::M.IBase1.A<class G2_C598`2<class BaseClass1,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass0,class BaseClass1,class G2_C598`2<class BaseClass1,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.A.T<class BaseClass1,class G2_C598`2<class BaseClass1,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.A.B<class G2_C598`2<class BaseClass1,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G2_C598::ClassMethod2566.10515()#G2_C598::Method4.10508()#G2_C598::Method5.10510()#G2_C598::Method6.10512<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G2_C598.T.T<class BaseClass1,class BaseClass0,class G2_C598`2<class BaseClass1,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G2_C598::ClassMethod2566.10515()#G2_C598::Method4.10508()#G2_C598::Method5.10510()#G2_C598::Method6.10512<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G2_C598.B.T<class BaseClass0,class G2_C598`2<class BaseClass1,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G2_C598::ClassMethod2566.10515()#G2_C598::Method4.10508()#G2_C598::Method5.10510()#G2_C598::Method6.10512<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G2_C598.B.A<class G2_C598`2<class BaseClass1,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G2_C598::Method4.MI.10509()#G2_C598::Method5.MI.10511()#G2_C598::Method6.10512<System.Object>()#"
call void Generated1117::M.IBase1.T<class BaseClass1,class G2_C598`2<class BaseClass1,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C598::Method4.MI.10509()#G2_C598::Method5.MI.10511()#G2_C598::Method6.10512<System.Object>()#"
call void Generated1117::M.IBase1.B<class G2_C598`2<class BaseClass1,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass1,class BaseClass0,class G2_C598`2<class BaseClass1,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.B.T<class BaseClass0,class G2_C598`2<class BaseClass1,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.B.A<class G2_C598`2<class BaseClass1,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass0,class BaseClass0,class G2_C598`2<class BaseClass1,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.A.T<class BaseClass0,class G2_C598`2<class BaseClass1,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.A.A<class G2_C598`2<class BaseClass1,class BaseClass0>>(!!0,string)
newobj instance void class G2_C598`2<class BaseClass1,class BaseClass1>::.ctor()
stloc.0
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G2_C598::Method5.10510()#G1_C11::Method6.4859<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G1_C11.T.T<class BaseClass1,class BaseClass1,class G2_C598`2<class BaseClass1,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G2_C598::Method5.10510()#G1_C11::Method6.4859<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G1_C11.B.T<class BaseClass1,class G2_C598`2<class BaseClass1,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G2_C598::Method5.10510()#G1_C11::Method6.4859<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G1_C11.B.B<class G2_C598`2<class BaseClass1,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass1,class BaseClass1,class G2_C598`2<class BaseClass1,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.B.T<class BaseClass1,class G2_C598`2<class BaseClass1,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.B.B<class G2_C598`2<class BaseClass1,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C598::Method4.MI.10509()#G2_C598::Method5.MI.10511()#G2_C598::Method6.10512<System.Object>()#"
call void Generated1117::M.IBase1.T<class BaseClass0,class G2_C598`2<class BaseClass1,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C598::Method4.MI.10509()#G2_C598::Method5.MI.10511()#G2_C598::Method6.10512<System.Object>()#"
call void Generated1117::M.IBase1.A<class G2_C598`2<class BaseClass1,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass0,class BaseClass1,class G2_C598`2<class BaseClass1,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.A.T<class BaseClass1,class G2_C598`2<class BaseClass1,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.A.B<class G2_C598`2<class BaseClass1,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G2_C598::ClassMethod2566.10515()#G2_C598::Method4.10508()#G2_C598::Method5.10510()#G2_C598::Method6.10512<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G2_C598.T.T<class BaseClass1,class BaseClass1,class G2_C598`2<class BaseClass1,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G2_C598::ClassMethod2566.10515()#G2_C598::Method4.10508()#G2_C598::Method5.10510()#G2_C598::Method6.10512<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G2_C598.B.T<class BaseClass1,class G2_C598`2<class BaseClass1,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G2_C598::ClassMethod2566.10515()#G2_C598::Method4.10508()#G2_C598::Method5.10510()#G2_C598::Method6.10512<System.Object>()#G2_C598::Method7.10513<System.Object>()#"
call void Generated1117::M.G2_C598.B.B<class G2_C598`2<class BaseClass1,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C598::Method4.MI.10509()#G2_C598::Method5.MI.10511()#G2_C598::Method6.10512<System.Object>()#"
call void Generated1117::M.IBase1.T<class BaseClass1,class G2_C598`2<class BaseClass1,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C598::Method4.MI.10509()#G2_C598::Method5.MI.10511()#G2_C598::Method6.10512<System.Object>()#"
call void Generated1117::M.IBase1.B<class G2_C598`2<class BaseClass1,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass1,class BaseClass0,class G2_C598`2<class BaseClass1,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.B.T<class BaseClass0,class G2_C598`2<class BaseClass1,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.B.A<class G2_C598`2<class BaseClass1,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass0,class BaseClass0,class G2_C598`2<class BaseClass1,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.A.T<class BaseClass0,class G2_C598`2<class BaseClass1,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C598::Method7.MI.10514<System.Object>()#"
call void Generated1117::M.IBase2.A.A<class G2_C598`2<class BaseClass1,class BaseClass1>>(!!0,string)
newobj instance void class G1_C11`2<class BaseClass0,class BaseClass0>::.ctor()
stloc.0
ldloc.0
ldstr "G1_C11::ClassMethod1344.4861<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G1_C11::Method5.4858()#G1_C11::Method6.4859<System.Object>()#G1_C11::Method7.4854<System.Object>()#"
call void Generated1117::M.G1_C11.T.T<class BaseClass0,class BaseClass0,class G1_C11`2<class BaseClass0,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G1_C11::ClassMethod1344.4861<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G1_C11::Method5.4858()#G1_C11::Method6.4859<System.Object>()#G1_C11::Method7.4854<System.Object>()#"
call void Generated1117::M.G1_C11.A.T<class BaseClass0,class G1_C11`2<class BaseClass0,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G1_C11::ClassMethod1344.4861<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G1_C11::Method5.4858()#G1_C11::Method6.4859<System.Object>()#G1_C11::Method7.4854<System.Object>()#"
call void Generated1117::M.G1_C11.A.A<class G1_C11`2<class BaseClass0,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass1,class BaseClass0,class G1_C11`2<class BaseClass0,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.B.T<class BaseClass0,class G1_C11`2<class BaseClass0,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.B.A<class G1_C11`2<class BaseClass0,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G1_C11::Method4.MI.4857()#G1_C11::Method5.4858()#G1_C11::Method6.MI.4860<System.Object>()#"
call void Generated1117::M.IBase1.T<class BaseClass0,class G1_C11`2<class BaseClass0,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G1_C11::Method4.MI.4857()#G1_C11::Method5.4858()#G1_C11::Method6.MI.4860<System.Object>()#"
call void Generated1117::M.IBase1.A<class G1_C11`2<class BaseClass0,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass0,class BaseClass0,class G1_C11`2<class BaseClass0,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.A.T<class BaseClass0,class G1_C11`2<class BaseClass0,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.A.A<class G1_C11`2<class BaseClass0,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass0,class BaseClass1,class G1_C11`2<class BaseClass0,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.A.T<class BaseClass1,class G1_C11`2<class BaseClass0,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.A.B<class G1_C11`2<class BaseClass0,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass1,class BaseClass1,class G1_C11`2<class BaseClass0,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.B.T<class BaseClass1,class G1_C11`2<class BaseClass0,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.B.B<class G1_C11`2<class BaseClass0,class BaseClass0>>(!!0,string)
newobj instance void class G1_C11`2<class BaseClass0,class BaseClass1>::.ctor()
stloc.0
ldloc.0
ldstr "G1_C11::ClassMethod1344.4861<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G1_C11::Method5.4858()#G1_C11::Method6.4859<System.Object>()#G1_C11::Method7.4854<System.Object>()#"
call void Generated1117::M.G1_C11.T.T<class BaseClass0,class BaseClass1,class G1_C11`2<class BaseClass0,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G1_C11::ClassMethod1344.4861<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G1_C11::Method5.4858()#G1_C11::Method6.4859<System.Object>()#G1_C11::Method7.4854<System.Object>()#"
call void Generated1117::M.G1_C11.A.T<class BaseClass1,class G1_C11`2<class BaseClass0,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G1_C11::ClassMethod1344.4861<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G1_C11::Method5.4858()#G1_C11::Method6.4859<System.Object>()#G1_C11::Method7.4854<System.Object>()#"
call void Generated1117::M.G1_C11.A.B<class G1_C11`2<class BaseClass0,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass1,class BaseClass1,class G1_C11`2<class BaseClass0,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.B.T<class BaseClass1,class G1_C11`2<class BaseClass0,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.B.B<class G1_C11`2<class BaseClass0,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G1_C11::Method4.MI.4857()#G1_C11::Method5.4858()#G1_C11::Method6.MI.4860<System.Object>()#"
call void Generated1117::M.IBase1.T<class BaseClass0,class G1_C11`2<class BaseClass0,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G1_C11::Method4.MI.4857()#G1_C11::Method5.4858()#G1_C11::Method6.MI.4860<System.Object>()#"
call void Generated1117::M.IBase1.A<class G1_C11`2<class BaseClass0,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass0,class BaseClass1,class G1_C11`2<class BaseClass0,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.A.T<class BaseClass1,class G1_C11`2<class BaseClass0,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.A.B<class G1_C11`2<class BaseClass0,class BaseClass1>>(!!0,string)
newobj instance void class G1_C11`2<class BaseClass1,class BaseClass0>::.ctor()
stloc.0
ldloc.0
ldstr "G1_C11::ClassMethod1344.4861<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G1_C11::Method5.4858()#G1_C11::Method6.4859<System.Object>()#G1_C11::Method7.4854<System.Object>()#"
call void Generated1117::M.G1_C11.T.T<class BaseClass1,class BaseClass0,class G1_C11`2<class BaseClass1,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G1_C11::ClassMethod1344.4861<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G1_C11::Method5.4858()#G1_C11::Method6.4859<System.Object>()#G1_C11::Method7.4854<System.Object>()#"
call void Generated1117::M.G1_C11.B.T<class BaseClass0,class G1_C11`2<class BaseClass1,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G1_C11::ClassMethod1344.4861<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G1_C11::Method5.4858()#G1_C11::Method6.4859<System.Object>()#G1_C11::Method7.4854<System.Object>()#"
call void Generated1117::M.G1_C11.B.A<class G1_C11`2<class BaseClass1,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass1,class BaseClass0,class G1_C11`2<class BaseClass1,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.B.T<class BaseClass0,class G1_C11`2<class BaseClass1,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.B.A<class G1_C11`2<class BaseClass1,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G1_C11::Method4.MI.4857()#G1_C11::Method5.4858()#G1_C11::Method6.MI.4860<System.Object>()#"
call void Generated1117::M.IBase1.T<class BaseClass0,class G1_C11`2<class BaseClass1,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G1_C11::Method4.MI.4857()#G1_C11::Method5.4858()#G1_C11::Method6.MI.4860<System.Object>()#"
call void Generated1117::M.IBase1.A<class G1_C11`2<class BaseClass1,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass0,class BaseClass0,class G1_C11`2<class BaseClass1,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.A.T<class BaseClass0,class G1_C11`2<class BaseClass1,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.A.A<class G1_C11`2<class BaseClass1,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass0,class BaseClass1,class G1_C11`2<class BaseClass1,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.A.T<class BaseClass1,class G1_C11`2<class BaseClass1,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.A.B<class G1_C11`2<class BaseClass1,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass1,class BaseClass1,class G1_C11`2<class BaseClass1,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.B.T<class BaseClass1,class G1_C11`2<class BaseClass1,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.B.B<class G1_C11`2<class BaseClass1,class BaseClass0>>(!!0,string)
newobj instance void class G1_C11`2<class BaseClass1,class BaseClass1>::.ctor()
stloc.0
ldloc.0
ldstr "G1_C11::ClassMethod1344.4861<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G1_C11::Method5.4858()#G1_C11::Method6.4859<System.Object>()#G1_C11::Method7.4854<System.Object>()#"
call void Generated1117::M.G1_C11.T.T<class BaseClass1,class BaseClass1,class G1_C11`2<class BaseClass1,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G1_C11::ClassMethod1344.4861<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G1_C11::Method5.4858()#G1_C11::Method6.4859<System.Object>()#G1_C11::Method7.4854<System.Object>()#"
call void Generated1117::M.G1_C11.B.T<class BaseClass1,class G1_C11`2<class BaseClass1,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G1_C11::ClassMethod1344.4861<System.Object>()#G1_C11::ClassMethod1345.4862<System.Object>()#G1_C11::Method4.4856()#G1_C11::Method5.4858()#G1_C11::Method6.4859<System.Object>()#G1_C11::Method7.4854<System.Object>()#"
call void Generated1117::M.G1_C11.B.B<class G1_C11`2<class BaseClass1,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass1,class BaseClass1,class G1_C11`2<class BaseClass1,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.B.T<class BaseClass1,class G1_C11`2<class BaseClass1,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.B.B<class G1_C11`2<class BaseClass1,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G1_C11::Method4.MI.4857()#G1_C11::Method5.4858()#G1_C11::Method6.MI.4860<System.Object>()#"
call void Generated1117::M.IBase1.T<class BaseClass0,class G1_C11`2<class BaseClass1,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G1_C11::Method4.MI.4857()#G1_C11::Method5.4858()#G1_C11::Method6.MI.4860<System.Object>()#"
call void Generated1117::M.IBase1.A<class G1_C11`2<class BaseClass1,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.T.T<class BaseClass0,class BaseClass1,class G1_C11`2<class BaseClass1,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.A.T<class BaseClass1,class G1_C11`2<class BaseClass1,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G1_C11::Method7.MI.4855<System.Object>()#"
call void Generated1117::M.IBase2.A.B<class G1_C11`2<class BaseClass1,class BaseClass1>>(!!0,string)
ldstr "========================================================================\n\n"
call void [mscorlib]System.Console::WriteLine(string)
ret
}
.method public hidebysig static void StructConstrainedInterfaceCallsTest() cil managed
{
.maxstack 10
ldstr "===================== Struct Constrained Interface Calls Test ====================="
call void [mscorlib]System.Console::WriteLine(string)
ldstr "========================================================================\n\n"
call void [mscorlib]System.Console::WriteLine(string)
ret
}
.method public hidebysig static void CalliTest() cil managed
{
.maxstack 10
.locals init (object V_0)
ldstr "========================== Method Calli Test =========================="
call void [mscorlib]System.Console::WriteLine(string)
newobj instance void class G3_C1589`1<class BaseClass0>::.ctor()
stloc.0
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass1>::ClassMethod1345<object>()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass1>::ClassMethod1344<object>()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method6<object>()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G1_C11::Method6.4859<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method5()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G2_C598::Method5.10510()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method4()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G1_C11::Method4.4856()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method7<object>()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G2_C598::Method7.10513<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass1,class BaseClass1>::Method7<object>()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass1> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method4()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G2_C598::Method4.MI.10509()"
ldstr "class IBase1`1<class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method5()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G2_C598::Method5.MI.10511()"
ldstr "class IBase1`1<class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method6<object>()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G3_C1589::Method7.16950<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass0,class BaseClass0>::ClassMethod2566()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G2_C598::ClassMethod2566.10515()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass0,class BaseClass0>::Method7<object>()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G2_C598::Method7.10513<System.Object>()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass0,class BaseClass0>::Method6<object>()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass0,class BaseClass0>::Method5()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G2_C598::Method5.10510()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass0,class BaseClass0>::Method4()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G2_C598::Method4.10508()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass0,class BaseClass0>::ClassMethod1345<object>()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass0,class BaseClass0>::ClassMethod1344<object>()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method4()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G2_C598::Method4.MI.10509()"
ldstr "class IBase1`1<class BaseClass1> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method5()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G2_C598::Method5.MI.10511()"
ldstr "class IBase1`1<class BaseClass1> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method6<object>()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class IBase1`1<class BaseClass1> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G3_C1589::Method7.16950<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1589`1<class BaseClass0>
ldloc.0
ldvirtftn instance string class G3_C1589`1<class BaseClass0>::ClassMethod4567<object>()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G3_C1589::ClassMethod4567.16952<System.Object>()"
ldstr "class G3_C1589`1<class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1589`1<class BaseClass0>
ldloc.0
ldvirtftn instance string class G3_C1589`1<class BaseClass0>::ClassMethod4566()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G3_C1589::ClassMethod4566.16951()"
ldstr "class G3_C1589`1<class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1589`1<class BaseClass0>
ldloc.0
ldvirtftn instance string class G3_C1589`1<class BaseClass0>::Method7<object>()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G3_C1589::Method7.16950<System.Object>()"
ldstr "class G3_C1589`1<class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1589`1<class BaseClass0>
ldloc.0
ldvirtftn instance string class G3_C1589`1<class BaseClass0>::ClassMethod2566()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G2_C598::ClassMethod2566.10515()"
ldstr "class G3_C1589`1<class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1589`1<class BaseClass0>
ldloc.0
ldvirtftn instance string class G3_C1589`1<class BaseClass0>::Method6<object>()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class G3_C1589`1<class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1589`1<class BaseClass0>
ldloc.0
ldvirtftn instance string class G3_C1589`1<class BaseClass0>::Method5()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G2_C598::Method5.10510()"
ldstr "class G3_C1589`1<class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1589`1<class BaseClass0>
ldloc.0
ldvirtftn instance string class G3_C1589`1<class BaseClass0>::Method4()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G2_C598::Method4.10508()"
ldstr "class G3_C1589`1<class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1589`1<class BaseClass0>
ldloc.0
ldvirtftn instance string class G3_C1589`1<class BaseClass0>::ClassMethod1345<object>()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G3_C1589`1<class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1589`1<class BaseClass0>
ldloc.0
ldvirtftn instance string class G3_C1589`1<class BaseClass0>::ClassMethod1344<object>()
calli default string(class G3_C1589`1<class BaseClass0>)
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G3_C1589`1<class BaseClass0> on type class G3_C1589`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
newobj instance void class G3_C1589`1<class BaseClass1>::.ctor()
stloc.0
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass1>::ClassMethod1345<object>()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass1>::ClassMethod1344<object>()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method6<object>()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G1_C11::Method6.4859<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method5()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G2_C598::Method5.10510()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method4()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G1_C11::Method4.4856()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method7<object>()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G2_C598::Method7.10513<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass1,class BaseClass1>::Method7<object>()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G3_C1589::Method7.16950<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method4()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G2_C598::Method4.MI.10509()"
ldstr "class IBase1`1<class BaseClass0> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method5()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G2_C598::Method5.MI.10511()"
ldstr "class IBase1`1<class BaseClass0> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method6<object>()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G3_C1589::Method7.16950<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass1,class BaseClass0>::ClassMethod2566()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G2_C598::ClassMethod2566.10515()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass1,class BaseClass0>::Method7<object>()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G2_C598::Method7.10513<System.Object>()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass1,class BaseClass0>::Method6<object>()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass1,class BaseClass0>::Method5()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G2_C598::Method5.10510()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass1,class BaseClass0>::Method4()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G2_C598::Method4.10508()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass1,class BaseClass0>::ClassMethod1345<object>()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass1,class BaseClass0>::ClassMethod1344<object>()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method4()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G2_C598::Method4.MI.10509()"
ldstr "class IBase1`1<class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method5()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G2_C598::Method5.MI.10511()"
ldstr "class IBase1`1<class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method6<object>()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class IBase1`1<class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass1,class BaseClass0>::Method7<object>()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G3_C1589::Method7.16950<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass0> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G3_C1589::Method7.16950<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1589`1<class BaseClass1>
ldloc.0
ldvirtftn instance string class G3_C1589`1<class BaseClass1>::ClassMethod4567<object>()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G3_C1589::ClassMethod4567.16952<System.Object>()"
ldstr "class G3_C1589`1<class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1589`1<class BaseClass1>
ldloc.0
ldvirtftn instance string class G3_C1589`1<class BaseClass1>::ClassMethod4566()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G3_C1589::ClassMethod4566.16951()"
ldstr "class G3_C1589`1<class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1589`1<class BaseClass1>
ldloc.0
ldvirtftn instance string class G3_C1589`1<class BaseClass1>::Method7<object>()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G3_C1589::Method7.16950<System.Object>()"
ldstr "class G3_C1589`1<class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1589`1<class BaseClass1>
ldloc.0
ldvirtftn instance string class G3_C1589`1<class BaseClass1>::ClassMethod2566()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G2_C598::ClassMethod2566.10515()"
ldstr "class G3_C1589`1<class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1589`1<class BaseClass1>
ldloc.0
ldvirtftn instance string class G3_C1589`1<class BaseClass1>::Method6<object>()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class G3_C1589`1<class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1589`1<class BaseClass1>
ldloc.0
ldvirtftn instance string class G3_C1589`1<class BaseClass1>::Method5()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G2_C598::Method5.10510()"
ldstr "class G3_C1589`1<class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1589`1<class BaseClass1>
ldloc.0
ldvirtftn instance string class G3_C1589`1<class BaseClass1>::Method4()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G2_C598::Method4.10508()"
ldstr "class G3_C1589`1<class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1589`1<class BaseClass1>
ldloc.0
ldvirtftn instance string class G3_C1589`1<class BaseClass1>::ClassMethod1345<object>()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G3_C1589`1<class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1589`1<class BaseClass1>
ldloc.0
ldvirtftn instance string class G3_C1589`1<class BaseClass1>::ClassMethod1344<object>()
calli default string(class G3_C1589`1<class BaseClass1>)
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G3_C1589`1<class BaseClass1> on type class G3_C1589`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
newobj instance void class G2_C598`2<class BaseClass0,class BaseClass0>::.ctor()
stloc.0
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass1>::ClassMethod1345<object>()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass0>)
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass1>::ClassMethod1344<object>()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method6<object>()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass0>)
ldstr "G1_C11::Method6.4859<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method5()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C598::Method5.10510()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method4()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass0>)
ldstr "G1_C11::Method4.4856()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method7<object>()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C598::Method7.10513<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass1,class BaseClass1>::Method7<object>()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass0>)
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method4()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C598::Method4.MI.10509()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method5()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C598::Method5.MI.10511()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method6<object>()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C598::Method7.MI.10514<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass0,class BaseClass0>::ClassMethod2566()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C598::ClassMethod2566.10515()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass0,class BaseClass0>::Method7<object>()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C598::Method7.10513<System.Object>()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass0,class BaseClass0>::Method6<object>()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass0,class BaseClass0>::Method5()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C598::Method5.10510()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass0,class BaseClass0>::Method4()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C598::Method4.10508()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass0,class BaseClass0>::ClassMethod1345<object>()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass0>)
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass0,class BaseClass0>::ClassMethod1344<object>()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method4()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C598::Method4.MI.10509()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method5()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C598::Method5.MI.10511()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method6<object>()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C598::Method7.MI.10514<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
newobj instance void class G2_C598`2<class BaseClass0,class BaseClass1>::.ctor()
stloc.0
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass1>::ClassMethod1345<object>()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass1>)
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass1>::ClassMethod1344<object>()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method6<object>()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass1>)
ldstr "G1_C11::Method6.4859<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method5()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C598::Method5.10510()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method4()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass1>)
ldstr "G1_C11::Method4.4856()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method7<object>()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C598::Method7.10513<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass1,class BaseClass1>::Method7<object>()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass1>)
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method4()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C598::Method4.MI.10509()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method5()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C598::Method5.MI.10511()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method6<object>()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C598::Method7.MI.10514<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass0,class BaseClass1>::ClassMethod2566()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C598::ClassMethod2566.10515()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass0,class BaseClass1>::Method7<object>()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C598::Method7.10513<System.Object>()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass0,class BaseClass1>::Method6<object>()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass0,class BaseClass1>::Method5()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C598::Method5.10510()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass0,class BaseClass1>::Method4()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C598::Method4.10508()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass0,class BaseClass1>::ClassMethod1345<object>()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass1>)
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass0,class BaseClass1>::ClassMethod1344<object>()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G2_C598`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method4()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C598::Method4.MI.10509()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method5()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C598::Method5.MI.10511()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method6<object>()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
calli default string(class G2_C598`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C598::Method7.MI.10514<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G2_C598`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
newobj instance void class G2_C598`2<class BaseClass1,class BaseClass0>::.ctor()
stloc.0
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass1>::ClassMethod1345<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass0>)
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass1>::ClassMethod1344<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method6<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass0>)
ldstr "G1_C11::Method6.4859<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method5()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C598::Method5.10510()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method4()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass0>)
ldstr "G1_C11::Method4.4856()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method7<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C598::Method7.10513<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass1,class BaseClass1>::Method7<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C598::Method7.MI.10514<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method4()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C598::Method4.MI.10509()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method5()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C598::Method5.MI.10511()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method6<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C598::Method7.MI.10514<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass1,class BaseClass0>::ClassMethod2566()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C598::ClassMethod2566.10515()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass1,class BaseClass0>::Method7<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C598::Method7.10513<System.Object>()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass1,class BaseClass0>::Method6<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass1,class BaseClass0>::Method5()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C598::Method5.10510()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass1,class BaseClass0>::Method4()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C598::Method4.10508()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass1,class BaseClass0>::ClassMethod1345<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass0>)
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass1,class BaseClass0>::ClassMethod1344<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method4()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C598::Method4.MI.10509()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method5()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C598::Method5.MI.10511()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method6<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass1,class BaseClass0>::Method7<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C598::Method7.MI.10514<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C598::Method7.MI.10514<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
newobj instance void class G2_C598`2<class BaseClass1,class BaseClass1>::.ctor()
stloc.0
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass1>::ClassMethod1345<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass1>)
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass1>::ClassMethod1344<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method6<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass1>)
ldstr "G1_C11::Method6.4859<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method5()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C598::Method5.10510()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method4()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass1>)
ldstr "G1_C11::Method4.4856()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method7<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C598::Method7.10513<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass1,class BaseClass1>::Method7<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C598::Method7.MI.10514<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method4()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C598::Method4.MI.10509()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method5()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C598::Method5.MI.10511()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method6<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C598::Method7.MI.10514<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass1,class BaseClass1>::ClassMethod2566()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C598::ClassMethod2566.10515()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass1,class BaseClass1>::Method7<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C598::Method7.10513<System.Object>()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass1,class BaseClass1>::Method6<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass1,class BaseClass1>::Method5()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C598::Method5.10510()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass1,class BaseClass1>::Method4()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C598::Method4.10508()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass1,class BaseClass1>::ClassMethod1345<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass1>)
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C598`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G2_C598`2<class BaseClass1,class BaseClass1>::ClassMethod1344<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C598::ClassMethod1344.MI.10516<System.Object>()"
ldstr "class G2_C598`2<class BaseClass1,class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method4()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C598::Method4.MI.10509()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method5()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C598::Method5.MI.10511()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method6<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C598::Method6.10512<System.Object>()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass1,class BaseClass0>::Method7<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C598::Method7.MI.10514<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
calli default string(class G2_C598`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C598::Method7.MI.10514<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G2_C598`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
newobj instance void class G1_C11`2<class BaseClass0,class BaseClass0>::.ctor()
stloc.0
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass0>::ClassMethod1345<object>()
calli default string(class G1_C11`2<class BaseClass0,class BaseClass0>)
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass0>::ClassMethod1344<object>()
calli default string(class G1_C11`2<class BaseClass0,class BaseClass0>)
ldstr "G1_C11::ClassMethod1344.4861<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass0>::Method6<object>()
calli default string(class G1_C11`2<class BaseClass0,class BaseClass0>)
ldstr "G1_C11::Method6.4859<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass0>::Method5()
calli default string(class G1_C11`2<class BaseClass0,class BaseClass0>)
ldstr "G1_C11::Method5.4858()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass0>::Method4()
calli default string(class G1_C11`2<class BaseClass0,class BaseClass0>)
ldstr "G1_C11::Method4.4856()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass0>::Method7<object>()
calli default string(class G1_C11`2<class BaseClass0,class BaseClass0>)
ldstr "G1_C11::Method7.4854<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass1,class BaseClass0>::Method7<object>()
calli default string(class G1_C11`2<class BaseClass0,class BaseClass0>)
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method4()
calli default string(class G1_C11`2<class BaseClass0,class BaseClass0>)
ldstr "G1_C11::Method4.MI.4857()"
ldstr "class IBase1`1<class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method5()
calli default string(class G1_C11`2<class BaseClass0,class BaseClass0>)
ldstr "G1_C11::Method5.4858()"
ldstr "class IBase1`1<class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method6<object>()
calli default string(class G1_C11`2<class BaseClass0,class BaseClass0>)
ldstr "G1_C11::Method6.MI.4860<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
calli default string(class G1_C11`2<class BaseClass0,class BaseClass0>)
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
calli default string(class G1_C11`2<class BaseClass0,class BaseClass0>)
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G1_C11`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass1,class BaseClass1>::Method7<object>()
calli default string(class G1_C11`2<class BaseClass0,class BaseClass0>)
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass1> on type class G1_C11`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
newobj instance void class G1_C11`2<class BaseClass0,class BaseClass1>::.ctor()
stloc.0
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass1>::ClassMethod1345<object>()
calli default string(class G1_C11`2<class BaseClass0,class BaseClass1>)
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G1_C11`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass1>::ClassMethod1344<object>()
calli default string(class G1_C11`2<class BaseClass0,class BaseClass1>)
ldstr "G1_C11::ClassMethod1344.4861<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G1_C11`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method6<object>()
calli default string(class G1_C11`2<class BaseClass0,class BaseClass1>)
ldstr "G1_C11::Method6.4859<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G1_C11`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method5()
calli default string(class G1_C11`2<class BaseClass0,class BaseClass1>)
ldstr "G1_C11::Method5.4858()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G1_C11`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method4()
calli default string(class G1_C11`2<class BaseClass0,class BaseClass1>)
ldstr "G1_C11::Method4.4856()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G1_C11`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass0,class BaseClass1>::Method7<object>()
calli default string(class G1_C11`2<class BaseClass0,class BaseClass1>)
ldstr "G1_C11::Method7.4854<System.Object>()"
ldstr "class G1_C11`2<class BaseClass0,class BaseClass1> on type class G1_C11`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass1,class BaseClass1>::Method7<object>()
calli default string(class G1_C11`2<class BaseClass0,class BaseClass1>)
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass1> on type class G1_C11`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method4()
calli default string(class G1_C11`2<class BaseClass0,class BaseClass1>)
ldstr "G1_C11::Method4.MI.4857()"
ldstr "class IBase1`1<class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method5()
calli default string(class G1_C11`2<class BaseClass0,class BaseClass1>)
ldstr "G1_C11::Method5.4858()"
ldstr "class IBase1`1<class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method6<object>()
calli default string(class G1_C11`2<class BaseClass0,class BaseClass1>)
ldstr "G1_C11::Method6.MI.4860<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G1_C11`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
calli default string(class G1_C11`2<class BaseClass0,class BaseClass1>)
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G1_C11`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
newobj instance void class G1_C11`2<class BaseClass1,class BaseClass0>::.ctor()
stloc.0
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass0>::ClassMethod1345<object>()
calli default string(class G1_C11`2<class BaseClass1,class BaseClass0>)
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass0>::ClassMethod1344<object>()
calli default string(class G1_C11`2<class BaseClass1,class BaseClass0>)
ldstr "G1_C11::ClassMethod1344.4861<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass0>::Method6<object>()
calli default string(class G1_C11`2<class BaseClass1,class BaseClass0>)
ldstr "G1_C11::Method6.4859<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass0>::Method5()
calli default string(class G1_C11`2<class BaseClass1,class BaseClass0>)
ldstr "G1_C11::Method5.4858()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass0>::Method4()
calli default string(class G1_C11`2<class BaseClass1,class BaseClass0>)
ldstr "G1_C11::Method4.4856()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass0>::Method7<object>()
calli default string(class G1_C11`2<class BaseClass1,class BaseClass0>)
ldstr "G1_C11::Method7.4854<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass1,class BaseClass0>::Method7<object>()
calli default string(class G1_C11`2<class BaseClass1,class BaseClass0>)
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method4()
calli default string(class G1_C11`2<class BaseClass1,class BaseClass0>)
ldstr "G1_C11::Method4.MI.4857()"
ldstr "class IBase1`1<class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method5()
calli default string(class G1_C11`2<class BaseClass1,class BaseClass0>)
ldstr "G1_C11::Method5.4858()"
ldstr "class IBase1`1<class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method6<object>()
calli default string(class G1_C11`2<class BaseClass1,class BaseClass0>)
ldstr "G1_C11::Method6.MI.4860<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
calli default string(class G1_C11`2<class BaseClass1,class BaseClass0>)
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
calli default string(class G1_C11`2<class BaseClass1,class BaseClass0>)
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G1_C11`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass1,class BaseClass1>::Method7<object>()
calli default string(class G1_C11`2<class BaseClass1,class BaseClass0>)
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass1> on type class G1_C11`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
newobj instance void class G1_C11`2<class BaseClass1,class BaseClass1>::.ctor()
stloc.0
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass1>::ClassMethod1345<object>()
calli default string(class G1_C11`2<class BaseClass1,class BaseClass1>)
ldstr "G1_C11::ClassMethod1345.4862<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G1_C11`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass1>::ClassMethod1344<object>()
calli default string(class G1_C11`2<class BaseClass1,class BaseClass1>)
ldstr "G1_C11::ClassMethod1344.4861<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G1_C11`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method6<object>()
calli default string(class G1_C11`2<class BaseClass1,class BaseClass1>)
ldstr "G1_C11::Method6.4859<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G1_C11`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method5()
calli default string(class G1_C11`2<class BaseClass1,class BaseClass1>)
ldstr "G1_C11::Method5.4858()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G1_C11`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method4()
calli default string(class G1_C11`2<class BaseClass1,class BaseClass1>)
ldstr "G1_C11::Method4.4856()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G1_C11`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C11`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G1_C11`2<class BaseClass1,class BaseClass1>::Method7<object>()
calli default string(class G1_C11`2<class BaseClass1,class BaseClass1>)
ldstr "G1_C11::Method7.4854<System.Object>()"
ldstr "class G1_C11`2<class BaseClass1,class BaseClass1> on type class G1_C11`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass1,class BaseClass1>::Method7<object>()
calli default string(class G1_C11`2<class BaseClass1,class BaseClass1>)
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass1> on type class G1_C11`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method4()
calli default string(class G1_C11`2<class BaseClass1,class BaseClass1>)
ldstr "G1_C11::Method4.MI.4857()"
ldstr "class IBase1`1<class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method5()
calli default string(class G1_C11`2<class BaseClass1,class BaseClass1>)
ldstr "G1_C11::Method5.4858()"
ldstr "class IBase1`1<class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method6<object>()
calli default string(class G1_C11`2<class BaseClass1,class BaseClass1>)
ldstr "G1_C11::Method6.MI.4860<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G1_C11`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
calli default string(class G1_C11`2<class BaseClass1,class BaseClass1>)
ldstr "G1_C11::Method7.MI.4855<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G1_C11`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldstr "========================================================================\n\n"
call void [mscorlib]System.Console::WriteLine(string)
ret
}
.method public hidebysig static int32 Main() cil managed
{
.custom instance void [xunit.core]Xunit.FactAttribute::.ctor() = (
01 00 00 00
)
.entrypoint
.maxstack 10
call void Generated1117::MethodCallingTest()
call void Generated1117::ConstrainedCallsTest()
call void Generated1117::StructConstrainedInterfaceCallsTest()
call void Generated1117::CalliTest()
ldc.i4 100
ret
}
}
| -1 |
dotnet/runtime
| 66,398 |
Reenable compiler warning 4244 under coreclr/
|
Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
AaronRobinsonMSFT
| 2022-03-09T15:46:00Z | 2022-03-10T01:12:51Z |
763936ed098deaa1588935f17d7cc0a07c27c3fa
|
b71eba8b3a74fa6282dc1526e68abbd26f3e385f
|
Reenable compiler warning 4244 under coreclr/. Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
./src/tests/Loader/classloader/TypeInitialization/CircularCctors/CircularCctorThreeThreads02.cs
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
/*
A --> B --> C --> D --> E --> A
3 threads: Thread T1 starts initialization at A, thread T2 starts initialization at C, and thread T3 starts initialization at E.
A::.cctor sleeps for a few seconds so Thread T1 is blocked.
T2 invokes C::.cctor ' D::.cctor ' E::.cctor ' A::.cctor at which point T2 becomes blocked waiting for T1.
T3 is blocked because T2 is in E::.cctor.
T1 becomes unblocked, invokes B::.cctor, wants to invoke C::.cctor but, T2 is in C::.cctor so we get a 3 thread deadlock.
We detect the deadlock and allow T1 to see C.i uninitialized state.
In B.cctor: thread T1: C.i 0
In A.cctor: thread T1: B.i 6
In E.cctor: thread T2: A.i 5
In D.cctor: thread T2: E.i 9
In C.cctor: thread T2: D.i 8
*/
using System;
using System.Threading;
using System.Runtime.CompilerServices;
public class A
{
public static int i;
static A()
{
Thread.Sleep(1000*2); // 1 second
Console.WriteLine("In A.cctor: thread {0}: B.i {1}",Thread.CurrentThread.Name,B.i);
A.i = 5;
}
// invoking this should trigger the cctor
[MethodImpl(MethodImplOptions.NoInlining)]
public static void SomeMethod()
{
Console.WriteLine("In MyClass.SomeMethod(): thread {0}",Thread.CurrentThread.Name);
}
}
public class B
{
public static int i;
static B()
{
Console.WriteLine("In B.cctor: thread {0}: C.i {1}",Thread.CurrentThread.Name,C.i);
B.i = 6;
}
// invoking this should trigger the cctor
[MethodImpl(MethodImplOptions.NoInlining)]
public static void SomeMethod()
{
Console.WriteLine("In MyClass.SomeMethod(): thread {0}",Thread.CurrentThread.Name);
}
}
public class C
{
public static int i;
static C()
{
Console.WriteLine("In C.cctor: thread {0}: D.i {1}",Thread.CurrentThread.Name,D.i);
C.i = 7;
}
// invoking this should trigger the cctor
[MethodImpl(MethodImplOptions.NoInlining)]
public static void SomeMethod()
{
Console.WriteLine("In MyClass.SomeMethod(): thread {0}",Thread.CurrentThread.Name);
}
}
public class D
{
public static int i;
static D()
{
Console.WriteLine("In D.cctor: thread {0}: E.i {1}",Thread.CurrentThread.Name,E.i);
D.i = 8;
}
// invoking this should trigger the cctor
[MethodImpl(MethodImplOptions.NoInlining)]
public static void SomeMethod()
{
Console.WriteLine("In MyClass.SomeMethod(): thread {0}",Thread.CurrentThread.Name);
}
}
public class E
{
public static int i;
static E()
{
Console.WriteLine("In E.cctor: thread {0}: A.i {1}",Thread.CurrentThread.Name,A.i);
E.i = 9;
}
// invoking this should trigger the cctor
[MethodImpl(MethodImplOptions.NoInlining)]
public static void SomeMethod()
{
Console.WriteLine("In MyClass.SomeMethod(): thread {0}",Thread.CurrentThread.Name);
}
}
public class Test_CircularCctorThreeThreads02
{
public static void RunGetA()
{
A.SomeMethod();
}
public static void RunGetC()
{
C.SomeMethod();
}
public static void RunGetE()
{
E.SomeMethod();
}
public static int Main()
{
Thread t1 = new Thread(RunGetA);
t1.Name = "T1";
Thread t2 = new Thread(RunGetC);
t2.Name = "T2";
Thread t3 = new Thread(RunGetE);
t3.Name = "T3";
t1.Start();
Thread.Sleep(1000*1); // 1 second
t2.Start();
Thread.Sleep(1000*1); // 1 second
t3.Start();
t3.Join();
t2.Join();
t1.Join();
// make sure that statics were set correctly.
if ( A.i == 5 && B.i == 6 && C.i == 7 && D.i == 8 && E.i == 9 )
{
Console.WriteLine("PASS");
return 100;
}
else
{
Console.WriteLine("FAIL");
return 101;
}
}
}
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
/*
A --> B --> C --> D --> E --> A
3 threads: Thread T1 starts initialization at A, thread T2 starts initialization at C, and thread T3 starts initialization at E.
A::.cctor sleeps for a few seconds so Thread T1 is blocked.
T2 invokes C::.cctor ' D::.cctor ' E::.cctor ' A::.cctor at which point T2 becomes blocked waiting for T1.
T3 is blocked because T2 is in E::.cctor.
T1 becomes unblocked, invokes B::.cctor, wants to invoke C::.cctor but, T2 is in C::.cctor so we get a 3 thread deadlock.
We detect the deadlock and allow T1 to see C.i uninitialized state.
In B.cctor: thread T1: C.i 0
In A.cctor: thread T1: B.i 6
In E.cctor: thread T2: A.i 5
In D.cctor: thread T2: E.i 9
In C.cctor: thread T2: D.i 8
*/
using System;
using System.Threading;
using System.Runtime.CompilerServices;
public class A
{
public static int i;
static A()
{
Thread.Sleep(1000*2); // 1 second
Console.WriteLine("In A.cctor: thread {0}: B.i {1}",Thread.CurrentThread.Name,B.i);
A.i = 5;
}
// invoking this should trigger the cctor
[MethodImpl(MethodImplOptions.NoInlining)]
public static void SomeMethod()
{
Console.WriteLine("In MyClass.SomeMethod(): thread {0}",Thread.CurrentThread.Name);
}
}
public class B
{
public static int i;
static B()
{
Console.WriteLine("In B.cctor: thread {0}: C.i {1}",Thread.CurrentThread.Name,C.i);
B.i = 6;
}
// invoking this should trigger the cctor
[MethodImpl(MethodImplOptions.NoInlining)]
public static void SomeMethod()
{
Console.WriteLine("In MyClass.SomeMethod(): thread {0}",Thread.CurrentThread.Name);
}
}
public class C
{
public static int i;
static C()
{
Console.WriteLine("In C.cctor: thread {0}: D.i {1}",Thread.CurrentThread.Name,D.i);
C.i = 7;
}
// invoking this should trigger the cctor
[MethodImpl(MethodImplOptions.NoInlining)]
public static void SomeMethod()
{
Console.WriteLine("In MyClass.SomeMethod(): thread {0}",Thread.CurrentThread.Name);
}
}
public class D
{
public static int i;
static D()
{
Console.WriteLine("In D.cctor: thread {0}: E.i {1}",Thread.CurrentThread.Name,E.i);
D.i = 8;
}
// invoking this should trigger the cctor
[MethodImpl(MethodImplOptions.NoInlining)]
public static void SomeMethod()
{
Console.WriteLine("In MyClass.SomeMethod(): thread {0}",Thread.CurrentThread.Name);
}
}
public class E
{
public static int i;
static E()
{
Console.WriteLine("In E.cctor: thread {0}: A.i {1}",Thread.CurrentThread.Name,A.i);
E.i = 9;
}
// invoking this should trigger the cctor
[MethodImpl(MethodImplOptions.NoInlining)]
public static void SomeMethod()
{
Console.WriteLine("In MyClass.SomeMethod(): thread {0}",Thread.CurrentThread.Name);
}
}
public class Test_CircularCctorThreeThreads02
{
public static void RunGetA()
{
A.SomeMethod();
}
public static void RunGetC()
{
C.SomeMethod();
}
public static void RunGetE()
{
E.SomeMethod();
}
public static int Main()
{
Thread t1 = new Thread(RunGetA);
t1.Name = "T1";
Thread t2 = new Thread(RunGetC);
t2.Name = "T2";
Thread t3 = new Thread(RunGetE);
t3.Name = "T3";
t1.Start();
Thread.Sleep(1000*1); // 1 second
t2.Start();
Thread.Sleep(1000*1); // 1 second
t3.Start();
t3.Join();
t2.Join();
t1.Join();
// make sure that statics were set correctly.
if ( A.i == 5 && B.i == 6 && C.i == 7 && D.i == 8 && E.i == 9 )
{
Console.WriteLine("PASS");
return 100;
}
else
{
Console.WriteLine("FAIL");
return 101;
}
}
}
| -1 |
dotnet/runtime
| 66,398 |
Reenable compiler warning 4244 under coreclr/
|
Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
AaronRobinsonMSFT
| 2022-03-09T15:46:00Z | 2022-03-10T01:12:51Z |
763936ed098deaa1588935f17d7cc0a07c27c3fa
|
b71eba8b3a74fa6282dc1526e68abbd26f3e385f
|
Reenable compiler warning 4244 under coreclr/. Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
./src/tests/JIT/HardwareIntrinsics/Arm/AdvSimd/MultiplyScalar.Vector64.Single.cs
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
/******************************************************************************
* This file is auto-generated from a template file by the GenerateTests.csx *
* script in tests\src\JIT\HardwareIntrinsics.Arm\Shared. In order to make *
* changes, please update the corresponding template and run according to the *
* directions listed in the file. *
******************************************************************************/
using System;
using System.Runtime.CompilerServices;
using System.Runtime.InteropServices;
using System.Runtime.Intrinsics;
using System.Runtime.Intrinsics.Arm;
namespace JIT.HardwareIntrinsics.Arm
{
public static partial class Program
{
private static void MultiplyScalar_Vector64_Single()
{
var test = new SimpleBinaryOpTest__MultiplyScalar_Vector64_Single();
if (test.IsSupported)
{
// Validates basic functionality works, using Unsafe.Read
test.RunBasicScenario_UnsafeRead();
if (AdvSimd.IsSupported)
{
// Validates basic functionality works, using Load
test.RunBasicScenario_Load();
}
// Validates calling via reflection works, using Unsafe.Read
test.RunReflectionScenario_UnsafeRead();
if (AdvSimd.IsSupported)
{
// Validates calling via reflection works, using Load
test.RunReflectionScenario_Load();
}
// Validates passing a static member works
test.RunClsVarScenario();
if (AdvSimd.IsSupported)
{
// Validates passing a static member works, using pinning and Load
test.RunClsVarScenario_Load();
}
// Validates passing a local works, using Unsafe.Read
test.RunLclVarScenario_UnsafeRead();
if (AdvSimd.IsSupported)
{
// Validates passing a local works, using Load
test.RunLclVarScenario_Load();
}
// Validates passing the field of a local class works
test.RunClassLclFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing the field of a local class works, using pinning and Load
test.RunClassLclFldScenario_Load();
}
// Validates passing an instance member of a class works
test.RunClassFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing an instance member of a class works, using pinning and Load
test.RunClassFldScenario_Load();
}
// Validates passing the field of a local struct works
test.RunStructLclFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing the field of a local struct works, using pinning and Load
test.RunStructLclFldScenario_Load();
}
// Validates passing an instance member of a struct works
test.RunStructFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing an instance member of a struct works, using pinning and Load
test.RunStructFldScenario_Load();
}
}
else
{
// Validates we throw on unsupported hardware
test.RunUnsupportedScenario();
}
if (!test.Succeeded)
{
throw new Exception("One or more scenarios did not complete as expected.");
}
}
}
public sealed unsafe class SimpleBinaryOpTest__MultiplyScalar_Vector64_Single
{
private struct DataTable
{
private byte[] inArray1;
private byte[] inArray2;
private byte[] outArray;
private GCHandle inHandle1;
private GCHandle inHandle2;
private GCHandle outHandle;
private ulong alignment;
public DataTable(Single[] inArray1, Single[] inArray2, Single[] outArray, int alignment)
{
int sizeOfinArray1 = inArray1.Length * Unsafe.SizeOf<Single>();
int sizeOfinArray2 = inArray2.Length * Unsafe.SizeOf<Single>();
int sizeOfoutArray = outArray.Length * Unsafe.SizeOf<Single>();
if ((alignment != 16 && alignment != 8) || (alignment * 2) < sizeOfinArray1 || (alignment * 2) < sizeOfinArray2 || (alignment * 2) < sizeOfoutArray)
{
throw new ArgumentException("Invalid value of alignment");
}
this.inArray1 = new byte[alignment * 2];
this.inArray2 = new byte[alignment * 2];
this.outArray = new byte[alignment * 2];
this.inHandle1 = GCHandle.Alloc(this.inArray1, GCHandleType.Pinned);
this.inHandle2 = GCHandle.Alloc(this.inArray2, GCHandleType.Pinned);
this.outHandle = GCHandle.Alloc(this.outArray, GCHandleType.Pinned);
this.alignment = (ulong)alignment;
Unsafe.CopyBlockUnaligned(ref Unsafe.AsRef<byte>(inArray1Ptr), ref Unsafe.As<Single, byte>(ref inArray1[0]), (uint)sizeOfinArray1);
Unsafe.CopyBlockUnaligned(ref Unsafe.AsRef<byte>(inArray2Ptr), ref Unsafe.As<Single, byte>(ref inArray2[0]), (uint)sizeOfinArray2);
}
public void* inArray1Ptr => Align((byte*)(inHandle1.AddrOfPinnedObject().ToPointer()), alignment);
public void* inArray2Ptr => Align((byte*)(inHandle2.AddrOfPinnedObject().ToPointer()), alignment);
public void* outArrayPtr => Align((byte*)(outHandle.AddrOfPinnedObject().ToPointer()), alignment);
public void Dispose()
{
inHandle1.Free();
inHandle2.Free();
outHandle.Free();
}
private static unsafe void* Align(byte* buffer, ulong expectedAlignment)
{
return (void*)(((ulong)buffer + expectedAlignment - 1) & ~(expectedAlignment - 1));
}
}
private struct TestStruct
{
public Vector64<Single> _fld1;
public Vector64<Single> _fld2;
public static TestStruct Create()
{
var testStruct = new TestStruct();
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetSingle(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector64<Single>, byte>(ref testStruct._fld1), ref Unsafe.As<Single, byte>(ref _data1[0]), (uint)Unsafe.SizeOf<Vector64<Single>>());
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetSingle(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector64<Single>, byte>(ref testStruct._fld2), ref Unsafe.As<Single, byte>(ref _data2[0]), (uint)Unsafe.SizeOf<Vector64<Single>>());
return testStruct;
}
public void RunStructFldScenario(SimpleBinaryOpTest__MultiplyScalar_Vector64_Single testClass)
{
var result = AdvSimd.MultiplyScalar(_fld1, _fld2);
Unsafe.Write(testClass._dataTable.outArrayPtr, result);
testClass.ValidateResult(_fld1, _fld2, testClass._dataTable.outArrayPtr);
}
public void RunStructFldScenario_Load(SimpleBinaryOpTest__MultiplyScalar_Vector64_Single testClass)
{
fixed (Vector64<Single>* pFld1 = &_fld1)
fixed (Vector64<Single>* pFld2 = &_fld2)
{
var result = AdvSimd.MultiplyScalar(
AdvSimd.LoadVector64((Single*)(pFld1)),
AdvSimd.LoadVector64((Single*)(pFld2))
);
Unsafe.Write(testClass._dataTable.outArrayPtr, result);
testClass.ValidateResult(_fld1, _fld2, testClass._dataTable.outArrayPtr);
}
}
}
private static readonly int LargestVectorSize = 8;
private static readonly int Op1ElementCount = Unsafe.SizeOf<Vector64<Single>>() / sizeof(Single);
private static readonly int Op2ElementCount = Unsafe.SizeOf<Vector64<Single>>() / sizeof(Single);
private static readonly int RetElementCount = Unsafe.SizeOf<Vector64<Single>>() / sizeof(Single);
private static Single[] _data1 = new Single[Op1ElementCount];
private static Single[] _data2 = new Single[Op2ElementCount];
private static Vector64<Single> _clsVar1;
private static Vector64<Single> _clsVar2;
private Vector64<Single> _fld1;
private Vector64<Single> _fld2;
private DataTable _dataTable;
static SimpleBinaryOpTest__MultiplyScalar_Vector64_Single()
{
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetSingle(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector64<Single>, byte>(ref _clsVar1), ref Unsafe.As<Single, byte>(ref _data1[0]), (uint)Unsafe.SizeOf<Vector64<Single>>());
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetSingle(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector64<Single>, byte>(ref _clsVar2), ref Unsafe.As<Single, byte>(ref _data2[0]), (uint)Unsafe.SizeOf<Vector64<Single>>());
}
public SimpleBinaryOpTest__MultiplyScalar_Vector64_Single()
{
Succeeded = true;
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetSingle(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector64<Single>, byte>(ref _fld1), ref Unsafe.As<Single, byte>(ref _data1[0]), (uint)Unsafe.SizeOf<Vector64<Single>>());
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetSingle(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector64<Single>, byte>(ref _fld2), ref Unsafe.As<Single, byte>(ref _data2[0]), (uint)Unsafe.SizeOf<Vector64<Single>>());
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetSingle(); }
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetSingle(); }
_dataTable = new DataTable(_data1, _data2, new Single[RetElementCount], LargestVectorSize);
}
public bool IsSupported => AdvSimd.IsSupported;
public bool Succeeded { get; set; }
public void RunBasicScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunBasicScenario_UnsafeRead));
var result = AdvSimd.MultiplyScalar(
Unsafe.Read<Vector64<Single>>(_dataTable.inArray1Ptr),
Unsafe.Read<Vector64<Single>>(_dataTable.inArray2Ptr)
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunBasicScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunBasicScenario_Load));
var result = AdvSimd.MultiplyScalar(
AdvSimd.LoadVector64((Single*)(_dataTable.inArray1Ptr)),
AdvSimd.LoadVector64((Single*)(_dataTable.inArray2Ptr))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunReflectionScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunReflectionScenario_UnsafeRead));
var result = typeof(AdvSimd).GetMethod(nameof(AdvSimd.MultiplyScalar), new Type[] { typeof(Vector64<Single>), typeof(Vector64<Single>) })
.Invoke(null, new object[] {
Unsafe.Read<Vector64<Single>>(_dataTable.inArray1Ptr),
Unsafe.Read<Vector64<Single>>(_dataTable.inArray2Ptr)
});
Unsafe.Write(_dataTable.outArrayPtr, (Vector64<Single>)(result));
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunReflectionScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunReflectionScenario_Load));
var result = typeof(AdvSimd).GetMethod(nameof(AdvSimd.MultiplyScalar), new Type[] { typeof(Vector64<Single>), typeof(Vector64<Single>) })
.Invoke(null, new object[] {
AdvSimd.LoadVector64((Single*)(_dataTable.inArray1Ptr)),
AdvSimd.LoadVector64((Single*)(_dataTable.inArray2Ptr))
});
Unsafe.Write(_dataTable.outArrayPtr, (Vector64<Single>)(result));
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunClsVarScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClsVarScenario));
var result = AdvSimd.MultiplyScalar(
_clsVar1,
_clsVar2
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_clsVar1, _clsVar2, _dataTable.outArrayPtr);
}
public void RunClsVarScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClsVarScenario_Load));
fixed (Vector64<Single>* pClsVar1 = &_clsVar1)
fixed (Vector64<Single>* pClsVar2 = &_clsVar2)
{
var result = AdvSimd.MultiplyScalar(
AdvSimd.LoadVector64((Single*)(pClsVar1)),
AdvSimd.LoadVector64((Single*)(pClsVar2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_clsVar1, _clsVar2, _dataTable.outArrayPtr);
}
}
public void RunLclVarScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunLclVarScenario_UnsafeRead));
var op1 = Unsafe.Read<Vector64<Single>>(_dataTable.inArray1Ptr);
var op2 = Unsafe.Read<Vector64<Single>>(_dataTable.inArray2Ptr);
var result = AdvSimd.MultiplyScalar(op1, op2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(op1, op2, _dataTable.outArrayPtr);
}
public void RunLclVarScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunLclVarScenario_Load));
var op1 = AdvSimd.LoadVector64((Single*)(_dataTable.inArray1Ptr));
var op2 = AdvSimd.LoadVector64((Single*)(_dataTable.inArray2Ptr));
var result = AdvSimd.MultiplyScalar(op1, op2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(op1, op2, _dataTable.outArrayPtr);
}
public void RunClassLclFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassLclFldScenario));
var test = new SimpleBinaryOpTest__MultiplyScalar_Vector64_Single();
var result = AdvSimd.MultiplyScalar(test._fld1, test._fld2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
public void RunClassLclFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassLclFldScenario_Load));
var test = new SimpleBinaryOpTest__MultiplyScalar_Vector64_Single();
fixed (Vector64<Single>* pFld1 = &test._fld1)
fixed (Vector64<Single>* pFld2 = &test._fld2)
{
var result = AdvSimd.MultiplyScalar(
AdvSimd.LoadVector64((Single*)(pFld1)),
AdvSimd.LoadVector64((Single*)(pFld2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
}
public void RunClassFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassFldScenario));
var result = AdvSimd.MultiplyScalar(_fld1, _fld2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_fld1, _fld2, _dataTable.outArrayPtr);
}
public void RunClassFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassFldScenario_Load));
fixed (Vector64<Single>* pFld1 = &_fld1)
fixed (Vector64<Single>* pFld2 = &_fld2)
{
var result = AdvSimd.MultiplyScalar(
AdvSimd.LoadVector64((Single*)(pFld1)),
AdvSimd.LoadVector64((Single*)(pFld2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_fld1, _fld2, _dataTable.outArrayPtr);
}
}
public void RunStructLclFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructLclFldScenario));
var test = TestStruct.Create();
var result = AdvSimd.MultiplyScalar(test._fld1, test._fld2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
public void RunStructLclFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructLclFldScenario_Load));
var test = TestStruct.Create();
var result = AdvSimd.MultiplyScalar(
AdvSimd.LoadVector64((Single*)(&test._fld1)),
AdvSimd.LoadVector64((Single*)(&test._fld2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
public void RunStructFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructFldScenario));
var test = TestStruct.Create();
test.RunStructFldScenario(this);
}
public void RunStructFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructFldScenario_Load));
var test = TestStruct.Create();
test.RunStructFldScenario_Load(this);
}
public void RunUnsupportedScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunUnsupportedScenario));
bool succeeded = false;
try
{
RunBasicScenario_UnsafeRead();
}
catch (PlatformNotSupportedException)
{
succeeded = true;
}
if (!succeeded)
{
Succeeded = false;
}
}
private void ValidateResult(Vector64<Single> op1, Vector64<Single> op2, void* result, [CallerMemberName] string method = "")
{
Single[] inArray1 = new Single[Op1ElementCount];
Single[] inArray2 = new Single[Op2ElementCount];
Single[] outArray = new Single[RetElementCount];
Unsafe.WriteUnaligned(ref Unsafe.As<Single, byte>(ref inArray1[0]), op1);
Unsafe.WriteUnaligned(ref Unsafe.As<Single, byte>(ref inArray2[0]), op2);
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Single, byte>(ref outArray[0]), ref Unsafe.AsRef<byte>(result), (uint)Unsafe.SizeOf<Vector64<Single>>());
ValidateResult(inArray1, inArray2, outArray, method);
}
private void ValidateResult(void* op1, void* op2, void* result, [CallerMemberName] string method = "")
{
Single[] inArray1 = new Single[Op1ElementCount];
Single[] inArray2 = new Single[Op2ElementCount];
Single[] outArray = new Single[RetElementCount];
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Single, byte>(ref inArray1[0]), ref Unsafe.AsRef<byte>(op1), (uint)Unsafe.SizeOf<Vector64<Single>>());
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Single, byte>(ref inArray2[0]), ref Unsafe.AsRef<byte>(op2), (uint)Unsafe.SizeOf<Vector64<Single>>());
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Single, byte>(ref outArray[0]), ref Unsafe.AsRef<byte>(result), (uint)Unsafe.SizeOf<Vector64<Single>>());
ValidateResult(inArray1, inArray2, outArray, method);
}
private void ValidateResult(Single[] left, Single[] right, Single[] result, [CallerMemberName] string method = "")
{
bool succeeded = true;
if (BitConverter.SingleToInt32Bits(Helpers.Multiply(left[0], right[0])) != BitConverter.SingleToInt32Bits(result[0]))
{
succeeded = false;
}
else
{
for (var i = 1; i < RetElementCount; i++)
{
if (BitConverter.SingleToInt32Bits(result[i]) != 0)
{
succeeded = false;
break;
}
}
}
if (!succeeded)
{
TestLibrary.TestFramework.LogInformation($"{nameof(AdvSimd)}.{nameof(AdvSimd.MultiplyScalar)}<Single>(Vector64<Single>, Vector64<Single>): {method} failed:");
TestLibrary.TestFramework.LogInformation($" left: ({string.Join(", ", left)})");
TestLibrary.TestFramework.LogInformation($" right: ({string.Join(", ", right)})");
TestLibrary.TestFramework.LogInformation($" result: ({string.Join(", ", result)})");
TestLibrary.TestFramework.LogInformation(string.Empty);
Succeeded = false;
}
}
}
}
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
/******************************************************************************
* This file is auto-generated from a template file by the GenerateTests.csx *
* script in tests\src\JIT\HardwareIntrinsics.Arm\Shared. In order to make *
* changes, please update the corresponding template and run according to the *
* directions listed in the file. *
******************************************************************************/
using System;
using System.Runtime.CompilerServices;
using System.Runtime.InteropServices;
using System.Runtime.Intrinsics;
using System.Runtime.Intrinsics.Arm;
namespace JIT.HardwareIntrinsics.Arm
{
public static partial class Program
{
private static void MultiplyScalar_Vector64_Single()
{
var test = new SimpleBinaryOpTest__MultiplyScalar_Vector64_Single();
if (test.IsSupported)
{
// Validates basic functionality works, using Unsafe.Read
test.RunBasicScenario_UnsafeRead();
if (AdvSimd.IsSupported)
{
// Validates basic functionality works, using Load
test.RunBasicScenario_Load();
}
// Validates calling via reflection works, using Unsafe.Read
test.RunReflectionScenario_UnsafeRead();
if (AdvSimd.IsSupported)
{
// Validates calling via reflection works, using Load
test.RunReflectionScenario_Load();
}
// Validates passing a static member works
test.RunClsVarScenario();
if (AdvSimd.IsSupported)
{
// Validates passing a static member works, using pinning and Load
test.RunClsVarScenario_Load();
}
// Validates passing a local works, using Unsafe.Read
test.RunLclVarScenario_UnsafeRead();
if (AdvSimd.IsSupported)
{
// Validates passing a local works, using Load
test.RunLclVarScenario_Load();
}
// Validates passing the field of a local class works
test.RunClassLclFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing the field of a local class works, using pinning and Load
test.RunClassLclFldScenario_Load();
}
// Validates passing an instance member of a class works
test.RunClassFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing an instance member of a class works, using pinning and Load
test.RunClassFldScenario_Load();
}
// Validates passing the field of a local struct works
test.RunStructLclFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing the field of a local struct works, using pinning and Load
test.RunStructLclFldScenario_Load();
}
// Validates passing an instance member of a struct works
test.RunStructFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing an instance member of a struct works, using pinning and Load
test.RunStructFldScenario_Load();
}
}
else
{
// Validates we throw on unsupported hardware
test.RunUnsupportedScenario();
}
if (!test.Succeeded)
{
throw new Exception("One or more scenarios did not complete as expected.");
}
}
}
public sealed unsafe class SimpleBinaryOpTest__MultiplyScalar_Vector64_Single
{
private struct DataTable
{
private byte[] inArray1;
private byte[] inArray2;
private byte[] outArray;
private GCHandle inHandle1;
private GCHandle inHandle2;
private GCHandle outHandle;
private ulong alignment;
public DataTable(Single[] inArray1, Single[] inArray2, Single[] outArray, int alignment)
{
int sizeOfinArray1 = inArray1.Length * Unsafe.SizeOf<Single>();
int sizeOfinArray2 = inArray2.Length * Unsafe.SizeOf<Single>();
int sizeOfoutArray = outArray.Length * Unsafe.SizeOf<Single>();
if ((alignment != 16 && alignment != 8) || (alignment * 2) < sizeOfinArray1 || (alignment * 2) < sizeOfinArray2 || (alignment * 2) < sizeOfoutArray)
{
throw new ArgumentException("Invalid value of alignment");
}
this.inArray1 = new byte[alignment * 2];
this.inArray2 = new byte[alignment * 2];
this.outArray = new byte[alignment * 2];
this.inHandle1 = GCHandle.Alloc(this.inArray1, GCHandleType.Pinned);
this.inHandle2 = GCHandle.Alloc(this.inArray2, GCHandleType.Pinned);
this.outHandle = GCHandle.Alloc(this.outArray, GCHandleType.Pinned);
this.alignment = (ulong)alignment;
Unsafe.CopyBlockUnaligned(ref Unsafe.AsRef<byte>(inArray1Ptr), ref Unsafe.As<Single, byte>(ref inArray1[0]), (uint)sizeOfinArray1);
Unsafe.CopyBlockUnaligned(ref Unsafe.AsRef<byte>(inArray2Ptr), ref Unsafe.As<Single, byte>(ref inArray2[0]), (uint)sizeOfinArray2);
}
public void* inArray1Ptr => Align((byte*)(inHandle1.AddrOfPinnedObject().ToPointer()), alignment);
public void* inArray2Ptr => Align((byte*)(inHandle2.AddrOfPinnedObject().ToPointer()), alignment);
public void* outArrayPtr => Align((byte*)(outHandle.AddrOfPinnedObject().ToPointer()), alignment);
public void Dispose()
{
inHandle1.Free();
inHandle2.Free();
outHandle.Free();
}
private static unsafe void* Align(byte* buffer, ulong expectedAlignment)
{
return (void*)(((ulong)buffer + expectedAlignment - 1) & ~(expectedAlignment - 1));
}
}
private struct TestStruct
{
public Vector64<Single> _fld1;
public Vector64<Single> _fld2;
public static TestStruct Create()
{
var testStruct = new TestStruct();
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetSingle(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector64<Single>, byte>(ref testStruct._fld1), ref Unsafe.As<Single, byte>(ref _data1[0]), (uint)Unsafe.SizeOf<Vector64<Single>>());
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetSingle(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector64<Single>, byte>(ref testStruct._fld2), ref Unsafe.As<Single, byte>(ref _data2[0]), (uint)Unsafe.SizeOf<Vector64<Single>>());
return testStruct;
}
public void RunStructFldScenario(SimpleBinaryOpTest__MultiplyScalar_Vector64_Single testClass)
{
var result = AdvSimd.MultiplyScalar(_fld1, _fld2);
Unsafe.Write(testClass._dataTable.outArrayPtr, result);
testClass.ValidateResult(_fld1, _fld2, testClass._dataTable.outArrayPtr);
}
public void RunStructFldScenario_Load(SimpleBinaryOpTest__MultiplyScalar_Vector64_Single testClass)
{
fixed (Vector64<Single>* pFld1 = &_fld1)
fixed (Vector64<Single>* pFld2 = &_fld2)
{
var result = AdvSimd.MultiplyScalar(
AdvSimd.LoadVector64((Single*)(pFld1)),
AdvSimd.LoadVector64((Single*)(pFld2))
);
Unsafe.Write(testClass._dataTable.outArrayPtr, result);
testClass.ValidateResult(_fld1, _fld2, testClass._dataTable.outArrayPtr);
}
}
}
private static readonly int LargestVectorSize = 8;
private static readonly int Op1ElementCount = Unsafe.SizeOf<Vector64<Single>>() / sizeof(Single);
private static readonly int Op2ElementCount = Unsafe.SizeOf<Vector64<Single>>() / sizeof(Single);
private static readonly int RetElementCount = Unsafe.SizeOf<Vector64<Single>>() / sizeof(Single);
private static Single[] _data1 = new Single[Op1ElementCount];
private static Single[] _data2 = new Single[Op2ElementCount];
private static Vector64<Single> _clsVar1;
private static Vector64<Single> _clsVar2;
private Vector64<Single> _fld1;
private Vector64<Single> _fld2;
private DataTable _dataTable;
static SimpleBinaryOpTest__MultiplyScalar_Vector64_Single()
{
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetSingle(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector64<Single>, byte>(ref _clsVar1), ref Unsafe.As<Single, byte>(ref _data1[0]), (uint)Unsafe.SizeOf<Vector64<Single>>());
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetSingle(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector64<Single>, byte>(ref _clsVar2), ref Unsafe.As<Single, byte>(ref _data2[0]), (uint)Unsafe.SizeOf<Vector64<Single>>());
}
public SimpleBinaryOpTest__MultiplyScalar_Vector64_Single()
{
Succeeded = true;
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetSingle(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector64<Single>, byte>(ref _fld1), ref Unsafe.As<Single, byte>(ref _data1[0]), (uint)Unsafe.SizeOf<Vector64<Single>>());
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetSingle(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector64<Single>, byte>(ref _fld2), ref Unsafe.As<Single, byte>(ref _data2[0]), (uint)Unsafe.SizeOf<Vector64<Single>>());
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetSingle(); }
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetSingle(); }
_dataTable = new DataTable(_data1, _data2, new Single[RetElementCount], LargestVectorSize);
}
public bool IsSupported => AdvSimd.IsSupported;
public bool Succeeded { get; set; }
public void RunBasicScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunBasicScenario_UnsafeRead));
var result = AdvSimd.MultiplyScalar(
Unsafe.Read<Vector64<Single>>(_dataTable.inArray1Ptr),
Unsafe.Read<Vector64<Single>>(_dataTable.inArray2Ptr)
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunBasicScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunBasicScenario_Load));
var result = AdvSimd.MultiplyScalar(
AdvSimd.LoadVector64((Single*)(_dataTable.inArray1Ptr)),
AdvSimd.LoadVector64((Single*)(_dataTable.inArray2Ptr))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunReflectionScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunReflectionScenario_UnsafeRead));
var result = typeof(AdvSimd).GetMethod(nameof(AdvSimd.MultiplyScalar), new Type[] { typeof(Vector64<Single>), typeof(Vector64<Single>) })
.Invoke(null, new object[] {
Unsafe.Read<Vector64<Single>>(_dataTable.inArray1Ptr),
Unsafe.Read<Vector64<Single>>(_dataTable.inArray2Ptr)
});
Unsafe.Write(_dataTable.outArrayPtr, (Vector64<Single>)(result));
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunReflectionScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunReflectionScenario_Load));
var result = typeof(AdvSimd).GetMethod(nameof(AdvSimd.MultiplyScalar), new Type[] { typeof(Vector64<Single>), typeof(Vector64<Single>) })
.Invoke(null, new object[] {
AdvSimd.LoadVector64((Single*)(_dataTable.inArray1Ptr)),
AdvSimd.LoadVector64((Single*)(_dataTable.inArray2Ptr))
});
Unsafe.Write(_dataTable.outArrayPtr, (Vector64<Single>)(result));
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunClsVarScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClsVarScenario));
var result = AdvSimd.MultiplyScalar(
_clsVar1,
_clsVar2
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_clsVar1, _clsVar2, _dataTable.outArrayPtr);
}
public void RunClsVarScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClsVarScenario_Load));
fixed (Vector64<Single>* pClsVar1 = &_clsVar1)
fixed (Vector64<Single>* pClsVar2 = &_clsVar2)
{
var result = AdvSimd.MultiplyScalar(
AdvSimd.LoadVector64((Single*)(pClsVar1)),
AdvSimd.LoadVector64((Single*)(pClsVar2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_clsVar1, _clsVar2, _dataTable.outArrayPtr);
}
}
public void RunLclVarScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunLclVarScenario_UnsafeRead));
var op1 = Unsafe.Read<Vector64<Single>>(_dataTable.inArray1Ptr);
var op2 = Unsafe.Read<Vector64<Single>>(_dataTable.inArray2Ptr);
var result = AdvSimd.MultiplyScalar(op1, op2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(op1, op2, _dataTable.outArrayPtr);
}
public void RunLclVarScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunLclVarScenario_Load));
var op1 = AdvSimd.LoadVector64((Single*)(_dataTable.inArray1Ptr));
var op2 = AdvSimd.LoadVector64((Single*)(_dataTable.inArray2Ptr));
var result = AdvSimd.MultiplyScalar(op1, op2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(op1, op2, _dataTable.outArrayPtr);
}
public void RunClassLclFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassLclFldScenario));
var test = new SimpleBinaryOpTest__MultiplyScalar_Vector64_Single();
var result = AdvSimd.MultiplyScalar(test._fld1, test._fld2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
public void RunClassLclFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassLclFldScenario_Load));
var test = new SimpleBinaryOpTest__MultiplyScalar_Vector64_Single();
fixed (Vector64<Single>* pFld1 = &test._fld1)
fixed (Vector64<Single>* pFld2 = &test._fld2)
{
var result = AdvSimd.MultiplyScalar(
AdvSimd.LoadVector64((Single*)(pFld1)),
AdvSimd.LoadVector64((Single*)(pFld2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
}
public void RunClassFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassFldScenario));
var result = AdvSimd.MultiplyScalar(_fld1, _fld2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_fld1, _fld2, _dataTable.outArrayPtr);
}
public void RunClassFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassFldScenario_Load));
fixed (Vector64<Single>* pFld1 = &_fld1)
fixed (Vector64<Single>* pFld2 = &_fld2)
{
var result = AdvSimd.MultiplyScalar(
AdvSimd.LoadVector64((Single*)(pFld1)),
AdvSimd.LoadVector64((Single*)(pFld2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_fld1, _fld2, _dataTable.outArrayPtr);
}
}
public void RunStructLclFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructLclFldScenario));
var test = TestStruct.Create();
var result = AdvSimd.MultiplyScalar(test._fld1, test._fld2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
public void RunStructLclFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructLclFldScenario_Load));
var test = TestStruct.Create();
var result = AdvSimd.MultiplyScalar(
AdvSimd.LoadVector64((Single*)(&test._fld1)),
AdvSimd.LoadVector64((Single*)(&test._fld2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
public void RunStructFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructFldScenario));
var test = TestStruct.Create();
test.RunStructFldScenario(this);
}
public void RunStructFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructFldScenario_Load));
var test = TestStruct.Create();
test.RunStructFldScenario_Load(this);
}
public void RunUnsupportedScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunUnsupportedScenario));
bool succeeded = false;
try
{
RunBasicScenario_UnsafeRead();
}
catch (PlatformNotSupportedException)
{
succeeded = true;
}
if (!succeeded)
{
Succeeded = false;
}
}
private void ValidateResult(Vector64<Single> op1, Vector64<Single> op2, void* result, [CallerMemberName] string method = "")
{
Single[] inArray1 = new Single[Op1ElementCount];
Single[] inArray2 = new Single[Op2ElementCount];
Single[] outArray = new Single[RetElementCount];
Unsafe.WriteUnaligned(ref Unsafe.As<Single, byte>(ref inArray1[0]), op1);
Unsafe.WriteUnaligned(ref Unsafe.As<Single, byte>(ref inArray2[0]), op2);
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Single, byte>(ref outArray[0]), ref Unsafe.AsRef<byte>(result), (uint)Unsafe.SizeOf<Vector64<Single>>());
ValidateResult(inArray1, inArray2, outArray, method);
}
private void ValidateResult(void* op1, void* op2, void* result, [CallerMemberName] string method = "")
{
Single[] inArray1 = new Single[Op1ElementCount];
Single[] inArray2 = new Single[Op2ElementCount];
Single[] outArray = new Single[RetElementCount];
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Single, byte>(ref inArray1[0]), ref Unsafe.AsRef<byte>(op1), (uint)Unsafe.SizeOf<Vector64<Single>>());
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Single, byte>(ref inArray2[0]), ref Unsafe.AsRef<byte>(op2), (uint)Unsafe.SizeOf<Vector64<Single>>());
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Single, byte>(ref outArray[0]), ref Unsafe.AsRef<byte>(result), (uint)Unsafe.SizeOf<Vector64<Single>>());
ValidateResult(inArray1, inArray2, outArray, method);
}
private void ValidateResult(Single[] left, Single[] right, Single[] result, [CallerMemberName] string method = "")
{
bool succeeded = true;
if (BitConverter.SingleToInt32Bits(Helpers.Multiply(left[0], right[0])) != BitConverter.SingleToInt32Bits(result[0]))
{
succeeded = false;
}
else
{
for (var i = 1; i < RetElementCount; i++)
{
if (BitConverter.SingleToInt32Bits(result[i]) != 0)
{
succeeded = false;
break;
}
}
}
if (!succeeded)
{
TestLibrary.TestFramework.LogInformation($"{nameof(AdvSimd)}.{nameof(AdvSimd.MultiplyScalar)}<Single>(Vector64<Single>, Vector64<Single>): {method} failed:");
TestLibrary.TestFramework.LogInformation($" left: ({string.Join(", ", left)})");
TestLibrary.TestFramework.LogInformation($" right: ({string.Join(", ", right)})");
TestLibrary.TestFramework.LogInformation($" result: ({string.Join(", ", result)})");
TestLibrary.TestFramework.LogInformation(string.Empty);
Succeeded = false;
}
}
}
}
| -1 |
dotnet/runtime
| 66,398 |
Reenable compiler warning 4244 under coreclr/
|
Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
AaronRobinsonMSFT
| 2022-03-09T15:46:00Z | 2022-03-10T01:12:51Z |
763936ed098deaa1588935f17d7cc0a07c27c3fa
|
b71eba8b3a74fa6282dc1526e68abbd26f3e385f
|
Reenable compiler warning 4244 under coreclr/. Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
./src/coreclr/gc/vxsort/machine_traits.avx512.h
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
//
// Created by dans on 6/1/20.
//
#ifndef VXSORT_MACHINE_TRAITS_AVX512_H
#define VXSORT_MACHINE_TRAITS_AVX512_H
#include "vxsort_targets_enable_avx512.h"
#include <immintrin.h>
#include "defs.h"
#include "machine_traits.h"
#ifdef _DEBUG
// in _DEBUG, we #define return to be something more complicated,
// containing a statement, so #define away constexpr for _DEBUG
#define constexpr
#endif //_DEBUG
namespace vxsort {
template <>
class vxsort_machine_traits<int32_t, AVX512> {
public:
typedef int32_t T;
typedef __m512i TV;
typedef __mmask16 TMASK;
typedef int32_t TPACK;
typedef typename std::make_unsigned<T>::type TU;
static constexpr bool supports_compress_writes() { return true; }
static constexpr bool supports_packing() { return false; }
template <int Shift>
static constexpr bool can_pack(T span) { return false; }
static INLINE TV load_vec(TV* p) { return _mm512_loadu_si512(p); }
static INLINE void store_vec(TV* ptr, TV v) { _mm512_storeu_si512(ptr, v); }
// Will never be called
static INLINE TV partition_vector(TV v, int mask) { return v; }
static void store_compress_vec(TV* ptr, TV v, TMASK mask) { _mm512_mask_compressstoreu_epi32(ptr, mask, v); }
static INLINE TV broadcast(int32_t pivot) { return _mm512_set1_epi32(pivot); }
static INLINE TMASK get_cmpgt_mask(TV a, TV b) { return _mm512_cmp_epi32_mask(a, b, _MM_CMPINT_GT); }
static TV shift_right(TV v, int i) { return _mm512_srli_epi32(v, i); }
static TV shift_left(TV v, int i) { return _mm512_slli_epi32(v, i); }
static INLINE TV add(TV a, TV b) { return _mm512_add_epi32(a, b); }
static INLINE TV sub(TV a, TV b) { return _mm512_sub_epi32(a, b); };
static INLINE TV pack_ordered(TV a, TV b) { return a; }
static INLINE TV pack_unordered(TV a, TV b) { return a; }
static INLINE void unpack_ordered(TV p, TV& u1, TV& u2) { }
template <int Shift>
static T shift_n_sub(T v, T sub) {
if (Shift > 0)
v >>= Shift;
v -= sub;
return v;
}
template <int Shift>
static T unshift_and_add(TPACK from, T add) {
add += from;
if (Shift > 0)
add = (T) (((TU) add) << Shift);
return add;
}
};
template <>
class vxsort_machine_traits<int64_t, AVX512> {
public:
typedef int64_t T;
typedef __m512i TV;
typedef __mmask8 TMASK;
typedef int32_t TPACK;
typedef typename std::make_unsigned<T>::type TU;
static constexpr bool supports_compress_writes() { return true; }
static constexpr bool supports_packing() { return true; }
template <int Shift>
static constexpr bool can_pack(T span) {
const auto PACK_LIMIT = (((TU) std::numeric_limits<uint32_t>::Max() + 1)) << Shift;
return ((TU) span) < PACK_LIMIT;
}
static INLINE TV load_vec(TV* p) { return _mm512_loadu_si512(p); }
static INLINE void store_vec(TV* ptr, TV v) { _mm512_storeu_si512(ptr, v); }
// Will never be called
static INLINE TV partition_vector(TV v, int mask) { return v; }
static void store_compress_vec(TV* ptr, TV v, TMASK mask) { _mm512_mask_compressstoreu_epi64(ptr, mask, v); }
static INLINE TV broadcast(int64_t pivot) { return _mm512_set1_epi64(pivot); }
static INLINE TMASK get_cmpgt_mask(TV a, TV b) { return _mm512_cmp_epi64_mask(a, b, _MM_CMPINT_GT); }
static TV shift_right(TV v, int i) { return _mm512_srli_epi64(v, i); }
static TV shift_left(TV v, int i) { return _mm512_slli_epi64(v, i); }
static INLINE TV add(TV a, TV b) { return _mm512_add_epi64(a, b); }
static INLINE TV sub(TV a, TV b) { return _mm512_sub_epi64(a, b); };
static INLINE TV pack_ordered(TV a, TV b) {
a = _mm512_permutex_epi64(_mm512_shuffle_epi32(a, _MM_PERM_DBCA), _MM_PERM_DBCA);
b = _mm512_permutex_epi64(_mm512_shuffle_epi32(b, _MM_PERM_DBCA), _MM_PERM_CADB);
return _mm512_shuffle_i64x2(a, b, _MM_PERM_DBCA);
}
static INLINE TV pack_unordered(TV a, TV b) { return _mm512_mask_shuffle_epi32(a, 0b1010101010101010, b, _MM_PERM_CDAB); }
static INLINE void unpack_ordered(TV p, TV& u1, TV& u2) {
auto p01 = _mm512_extracti32x8_epi32(p, 0);
auto p02 = _mm512_extracti32x8_epi32(p, 1);
u1 = _mm512_cvtepi32_epi64(p01);
u2 = _mm512_cvtepi32_epi64(p02);
}
template <int Shift>
static T shift_n_sub(T v, T sub) {
if (Shift > 0)
v >>= Shift;
v -= sub;
return v;
}
template <int Shift>
static T unshift_and_add(TPACK from, T add) {
add += from;
if (Shift > 0)
add = (T) (((TU) add) << Shift);
return add;
}
};
}
#ifdef _DEBUG
#undef constexpr
#endif //_DEBUG
#include "vxsort_targets_disable.h"
#endif // VXSORT_VXSORT_AVX512_H
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
//
// Created by dans on 6/1/20.
//
#ifndef VXSORT_MACHINE_TRAITS_AVX512_H
#define VXSORT_MACHINE_TRAITS_AVX512_H
#include "vxsort_targets_enable_avx512.h"
#include <immintrin.h>
#include "defs.h"
#include "machine_traits.h"
#ifdef _DEBUG
// in _DEBUG, we #define return to be something more complicated,
// containing a statement, so #define away constexpr for _DEBUG
#define constexpr
#endif //_DEBUG
namespace vxsort {
template <>
class vxsort_machine_traits<int32_t, AVX512> {
public:
typedef int32_t T;
typedef __m512i TV;
typedef __mmask16 TMASK;
typedef int32_t TPACK;
typedef typename std::make_unsigned<T>::type TU;
static constexpr bool supports_compress_writes() { return true; }
static constexpr bool supports_packing() { return false; }
template <int Shift>
static constexpr bool can_pack(T span) { return false; }
static INLINE TV load_vec(TV* p) { return _mm512_loadu_si512(p); }
static INLINE void store_vec(TV* ptr, TV v) { _mm512_storeu_si512(ptr, v); }
// Will never be called
static INLINE TV partition_vector(TV v, int mask) { return v; }
static void store_compress_vec(TV* ptr, TV v, TMASK mask) { _mm512_mask_compressstoreu_epi32(ptr, mask, v); }
static INLINE TV broadcast(int32_t pivot) { return _mm512_set1_epi32(pivot); }
static INLINE TMASK get_cmpgt_mask(TV a, TV b) { return _mm512_cmp_epi32_mask(a, b, _MM_CMPINT_GT); }
static TV shift_right(TV v, int i) { return _mm512_srli_epi32(v, i); }
static TV shift_left(TV v, int i) { return _mm512_slli_epi32(v, i); }
static INLINE TV add(TV a, TV b) { return _mm512_add_epi32(a, b); }
static INLINE TV sub(TV a, TV b) { return _mm512_sub_epi32(a, b); };
static INLINE TV pack_ordered(TV a, TV b) { return a; }
static INLINE TV pack_unordered(TV a, TV b) { return a; }
static INLINE void unpack_ordered(TV p, TV& u1, TV& u2) { }
template <int Shift>
static T shift_n_sub(T v, T sub) {
if (Shift > 0)
v >>= Shift;
v -= sub;
return v;
}
template <int Shift>
static T unshift_and_add(TPACK from, T add) {
add += from;
if (Shift > 0)
add = (T) (((TU) add) << Shift);
return add;
}
};
template <>
class vxsort_machine_traits<int64_t, AVX512> {
public:
typedef int64_t T;
typedef __m512i TV;
typedef __mmask8 TMASK;
typedef int32_t TPACK;
typedef typename std::make_unsigned<T>::type TU;
static constexpr bool supports_compress_writes() { return true; }
static constexpr bool supports_packing() { return true; }
template <int Shift>
static constexpr bool can_pack(T span) {
const auto PACK_LIMIT = (((TU) std::numeric_limits<uint32_t>::Max() + 1)) << Shift;
return ((TU) span) < PACK_LIMIT;
}
static INLINE TV load_vec(TV* p) { return _mm512_loadu_si512(p); }
static INLINE void store_vec(TV* ptr, TV v) { _mm512_storeu_si512(ptr, v); }
// Will never be called
static INLINE TV partition_vector(TV v, int mask) { return v; }
static void store_compress_vec(TV* ptr, TV v, TMASK mask) { _mm512_mask_compressstoreu_epi64(ptr, mask, v); }
static INLINE TV broadcast(int64_t pivot) { return _mm512_set1_epi64(pivot); }
static INLINE TMASK get_cmpgt_mask(TV a, TV b) { return _mm512_cmp_epi64_mask(a, b, _MM_CMPINT_GT); }
static TV shift_right(TV v, int i) { return _mm512_srli_epi64(v, i); }
static TV shift_left(TV v, int i) { return _mm512_slli_epi64(v, i); }
static INLINE TV add(TV a, TV b) { return _mm512_add_epi64(a, b); }
static INLINE TV sub(TV a, TV b) { return _mm512_sub_epi64(a, b); };
static INLINE TV pack_ordered(TV a, TV b) {
a = _mm512_permutex_epi64(_mm512_shuffle_epi32(a, _MM_PERM_DBCA), _MM_PERM_DBCA);
b = _mm512_permutex_epi64(_mm512_shuffle_epi32(b, _MM_PERM_DBCA), _MM_PERM_CADB);
return _mm512_shuffle_i64x2(a, b, _MM_PERM_DBCA);
}
static INLINE TV pack_unordered(TV a, TV b) { return _mm512_mask_shuffle_epi32(a, 0b1010101010101010, b, _MM_PERM_CDAB); }
static INLINE void unpack_ordered(TV p, TV& u1, TV& u2) {
auto p01 = _mm512_extracti32x8_epi32(p, 0);
auto p02 = _mm512_extracti32x8_epi32(p, 1);
u1 = _mm512_cvtepi32_epi64(p01);
u2 = _mm512_cvtepi32_epi64(p02);
}
template <int Shift>
static T shift_n_sub(T v, T sub) {
if (Shift > 0)
v >>= Shift;
v -= sub;
return v;
}
template <int Shift>
static T unshift_and_add(TPACK from, T add) {
add += from;
if (Shift > 0)
add = (T) (((TU) add) << Shift);
return add;
}
};
}
#ifdef _DEBUG
#undef constexpr
#endif //_DEBUG
#include "vxsort_targets_disable.h"
#endif // VXSORT_VXSORT_AVX512_H
| -1 |
dotnet/runtime
| 66,398 |
Reenable compiler warning 4244 under coreclr/
|
Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
AaronRobinsonMSFT
| 2022-03-09T15:46:00Z | 2022-03-10T01:12:51Z |
763936ed098deaa1588935f17d7cc0a07c27c3fa
|
b71eba8b3a74fa6282dc1526e68abbd26f3e385f
|
Reenable compiler warning 4244 under coreclr/. Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
./src/coreclr/tools/Common/TypeSystem/Common/FunctionPointerType.cs
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
using System.Text;
namespace Internal.TypeSystem
{
/// <summary>
/// Represents an unmanaged pointer to a method with a signature compatible with the signature of the pointer.
/// </summary>
public sealed partial class FunctionPointerType : TypeDesc
{
private MethodSignature _signature;
private int _hashCode;
internal FunctionPointerType(MethodSignature signature)
{
_signature = signature;
}
/// <summary>
/// Gets the signature of the method this pointer points to.
/// </summary>
public MethodSignature Signature
{
get
{
return _signature;
}
}
public override TypeSystemContext Context
{
get
{
return _signature.ReturnType.Context;
}
}
public override int GetHashCode()
{
if (_hashCode == 0)
_hashCode = _signature.GetHashCode();
return _hashCode;
}
public override TypeDesc InstantiateSignature(Instantiation typeInstantiation, Instantiation methodInstantiation)
{
MethodSignatureBuilder sigBuilder = new MethodSignatureBuilder(_signature);
sigBuilder.ReturnType = _signature.ReturnType.InstantiateSignature(typeInstantiation, methodInstantiation);
for (int i = 0; i < _signature.Length; i++)
sigBuilder[i] = _signature[i].InstantiateSignature(typeInstantiation, methodInstantiation);
MethodSignature instantiatedSignature = sigBuilder.ToSignature();
if (instantiatedSignature != _signature)
return Context.GetFunctionPointerType(instantiatedSignature);
return this;
}
protected override TypeFlags ComputeTypeFlags(TypeFlags mask)
{
TypeFlags flags = TypeFlags.FunctionPointer;
flags |= TypeFlags.HasGenericVarianceComputed;
flags |= TypeFlags.HasFinalizerComputed;
flags |= TypeFlags.AttributeCacheComputed;
return flags;
}
}
}
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
using System.Text;
namespace Internal.TypeSystem
{
/// <summary>
/// Represents an unmanaged pointer to a method with a signature compatible with the signature of the pointer.
/// </summary>
public sealed partial class FunctionPointerType : TypeDesc
{
private MethodSignature _signature;
private int _hashCode;
internal FunctionPointerType(MethodSignature signature)
{
_signature = signature;
}
/// <summary>
/// Gets the signature of the method this pointer points to.
/// </summary>
public MethodSignature Signature
{
get
{
return _signature;
}
}
public override TypeSystemContext Context
{
get
{
return _signature.ReturnType.Context;
}
}
public override int GetHashCode()
{
if (_hashCode == 0)
_hashCode = _signature.GetHashCode();
return _hashCode;
}
public override TypeDesc InstantiateSignature(Instantiation typeInstantiation, Instantiation methodInstantiation)
{
MethodSignatureBuilder sigBuilder = new MethodSignatureBuilder(_signature);
sigBuilder.ReturnType = _signature.ReturnType.InstantiateSignature(typeInstantiation, methodInstantiation);
for (int i = 0; i < _signature.Length; i++)
sigBuilder[i] = _signature[i].InstantiateSignature(typeInstantiation, methodInstantiation);
MethodSignature instantiatedSignature = sigBuilder.ToSignature();
if (instantiatedSignature != _signature)
return Context.GetFunctionPointerType(instantiatedSignature);
return this;
}
protected override TypeFlags ComputeTypeFlags(TypeFlags mask)
{
TypeFlags flags = TypeFlags.FunctionPointer;
flags |= TypeFlags.HasGenericVarianceComputed;
flags |= TypeFlags.HasFinalizerComputed;
flags |= TypeFlags.AttributeCacheComputed;
return flags;
}
}
}
| -1 |
dotnet/runtime
| 66,398 |
Reenable compiler warning 4244 under coreclr/
|
Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
AaronRobinsonMSFT
| 2022-03-09T15:46:00Z | 2022-03-10T01:12:51Z |
763936ed098deaa1588935f17d7cc0a07c27c3fa
|
b71eba8b3a74fa6282dc1526e68abbd26f3e385f
|
Reenable compiler warning 4244 under coreclr/. Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
./src/tests/Loader/classloader/TypeGeneratorTests/TypeGeneratorTest1465/Generated1465.il
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
.assembly extern mscorlib { .publickeytoken = (B7 7A 5C 56 19 34 E0 89 ) .ver 4:0:0:0 }
.assembly extern TestFramework { .publickeytoken = ( B0 3F 5F 7F 11 D5 0A 3A ) }
//TYPES IN FORWARDER ASSEMBLIES:
//TEST ASSEMBLY:
.assembly Generated1465 { .hash algorithm 0x00008004 }
.assembly extern xunit.core {}
.class public BaseClass0
{
.method public hidebysig specialname rtspecialname instance void .ctor() cil managed {
ldarg.0
call instance void [mscorlib]System.Object::.ctor()
ret
}
}
.class public BaseClass1
extends BaseClass0
{
.method public hidebysig specialname rtspecialname instance void .ctor() cil managed {
ldarg.0
call instance void BaseClass0::.ctor()
ret
}
}
.class public G3_C1937`1<T0>
extends class G2_C846`2<class BaseClass1,class BaseClass0>
{
.method public hidebysig newslot virtual instance string ClassMethod5270() cil managed noinlining {
ldstr "G3_C1937::ClassMethod5270.18807()"
ret
}
.method public hidebysig newslot virtual instance string ClassMethod5271<M0>() cil managed noinlining {
ldstr "G3_C1937::ClassMethod5271.18808<"
ldtoken !!M0
call class [mscorlib]System.Type [mscorlib]System.Type::GetTypeFromHandle(valuetype [mscorlib]System.RuntimeTypeHandle)
call string [mscorlib]System.String::Concat(object,object)
ldstr ">()"
call string [mscorlib]System.String::Concat(object,object)
ret
}
.method public hidebysig newslot virtual instance string ClassMethod5272<M0>() cil managed noinlining {
ldstr "G3_C1937::ClassMethod5272.18809<"
ldtoken !!M0
call class [mscorlib]System.Type [mscorlib]System.Type::GetTypeFromHandle(valuetype [mscorlib]System.RuntimeTypeHandle)
call string [mscorlib]System.String::Concat(object,object)
ldstr ">()"
call string [mscorlib]System.String::Concat(object,object)
ret
}
.method public hidebysig newslot virtual instance string 'G2_C846<class BaseClass1,class BaseClass0>.ClassMethod3068'<M0>() cil managed noinlining {
.override method instance string class G2_C846`2<class BaseClass1,class BaseClass0>::ClassMethod3068<[1]>()
ldstr "G3_C1937::ClassMethod3068.MI.18810<"
ldtoken !!M0
call class [mscorlib]System.Type [mscorlib]System.Type::GetTypeFromHandle(valuetype [mscorlib]System.RuntimeTypeHandle)
call string [mscorlib]System.String::Concat(object,object)
ldstr ">()"
call string [mscorlib]System.String::Concat(object,object)
ret
}
.method public hidebysig specialname rtspecialname instance void .ctor() cil managed {
ldarg.0
call instance void class G2_C846`2<class BaseClass1,class BaseClass0>::.ctor()
ret
}
}
.class public G2_C846`2<T0, T1>
extends class G1_C15`2<!T0,class BaseClass0>
implements class IBase1`1<!T0>, class IBase2`2<!T1,!T0>
{
.method public hidebysig virtual instance string Method4() cil managed noinlining {
ldstr "G2_C846::Method4.12757()"
ret
}
.method public hidebysig newslot virtual instance string 'IBase1<T0>.Method4'() cil managed noinlining {
.override method instance string class IBase1`1<!T0>::Method4()
ldstr "G2_C846::Method4.MI.12758()"
ret
}
.method public hidebysig newslot virtual instance string Method5() cil managed noinlining {
ldstr "G2_C846::Method5.12759()"
ret
}
.method public hidebysig newslot virtual instance string Method6<M0>() cil managed noinlining {
ldstr "G2_C846::Method6.12760<"
ldtoken !!M0
call class [mscorlib]System.Type [mscorlib]System.Type::GetTypeFromHandle(valuetype [mscorlib]System.RuntimeTypeHandle)
call string [mscorlib]System.String::Concat(object,object)
ldstr ">()"
call string [mscorlib]System.String::Concat(object,object)
ret
}
.method public hidebysig newslot virtual instance string 'IBase1<T0>.Method6'<M0>() cil managed noinlining {
.override method instance string class IBase1`1<!T0>::Method6<[1]>()
ldstr "G2_C846::Method6.MI.12761<"
ldtoken !!M0
call class [mscorlib]System.Type [mscorlib]System.Type::GetTypeFromHandle(valuetype [mscorlib]System.RuntimeTypeHandle)
call string [mscorlib]System.String::Concat(object,object)
ldstr ">()"
call string [mscorlib]System.String::Concat(object,object)
ret
}
.method public hidebysig virtual instance string Method7<M0>() cil managed noinlining {
ldstr "G2_C846::Method7.12762<"
ldtoken !!M0
call class [mscorlib]System.Type [mscorlib]System.Type::GetTypeFromHandle(valuetype [mscorlib]System.RuntimeTypeHandle)
call string [mscorlib]System.String::Concat(object,object)
ldstr ">()"
call string [mscorlib]System.String::Concat(object,object)
ret
}
.method public hidebysig newslot virtual instance string 'IBase2<T1,T0>.Method7'<M0>() cil managed noinlining {
.override method instance string class IBase2`2<!T1,!T0>::Method7<[1]>()
ldstr "G2_C846::Method7.MI.12763<"
ldtoken !!M0
call class [mscorlib]System.Type [mscorlib]System.Type::GetTypeFromHandle(valuetype [mscorlib]System.RuntimeTypeHandle)
call string [mscorlib]System.String::Concat(object,object)
ldstr ">()"
call string [mscorlib]System.String::Concat(object,object)
ret
}
.method public hidebysig newslot virtual instance string ClassMethod3068<M0>() cil managed noinlining {
ldstr "G2_C846::ClassMethod3068.12764<"
ldtoken !!M0
call class [mscorlib]System.Type [mscorlib]System.Type::GetTypeFromHandle(valuetype [mscorlib]System.RuntimeTypeHandle)
call string [mscorlib]System.String::Concat(object,object)
ldstr ">()"
call string [mscorlib]System.String::Concat(object,object)
ret
}
.method public hidebysig specialname rtspecialname instance void .ctor() cil managed {
ldarg.0
call instance void class G1_C15`2<!T0,class BaseClass0>::.ctor()
ret
}
}
.class public abstract G1_C15`2<T0, T1>
implements class IBase2`2<!T1,!T1>, class IBase1`1<class BaseClass0>
{
.method public hidebysig newslot virtual instance string Method7<M0>() cil managed noinlining {
ldstr "G1_C15::Method7.4885<"
ldtoken !!M0
call class [mscorlib]System.Type [mscorlib]System.Type::GetTypeFromHandle(valuetype [mscorlib]System.RuntimeTypeHandle)
call string [mscorlib]System.String::Concat(object,object)
ldstr ">()"
call string [mscorlib]System.String::Concat(object,object)
ret
}
.method public hidebysig newslot virtual instance string 'IBase2<T1,T1>.Method7'<M0>() cil managed noinlining {
.override method instance string class IBase2`2<!T1,!T1>::Method7<[1]>()
ldstr "G1_C15::Method7.MI.4886<"
ldtoken !!M0
call class [mscorlib]System.Type [mscorlib]System.Type::GetTypeFromHandle(valuetype [mscorlib]System.RuntimeTypeHandle)
call string [mscorlib]System.String::Concat(object,object)
ldstr ">()"
call string [mscorlib]System.String::Concat(object,object)
ret
}
.method public hidebysig virtual instance string Method4() cil managed noinlining {
ldstr "G1_C15::Method4.4887()"
ret
}
.method public hidebysig newslot virtual instance string 'IBase1<class BaseClass0>.Method4'() cil managed noinlining {
.override method instance string class IBase1`1<class BaseClass0>::Method4()
ldstr "G1_C15::Method4.MI.4888()"
ret
}
.method public hidebysig virtual instance string Method5() cil managed noinlining {
ldstr "G1_C15::Method5.4889()"
ret
}
.method public hidebysig newslot virtual instance string 'IBase1<class BaseClass0>.Method5'() cil managed noinlining {
.override method instance string class IBase1`1<class BaseClass0>::Method5()
ldstr "G1_C15::Method5.MI.4890()"
ret
}
.method public hidebysig virtual instance string Method6<M0>() cil managed noinlining {
ldstr "G1_C15::Method6.4891<"
ldtoken !!M0
call class [mscorlib]System.Type [mscorlib]System.Type::GetTypeFromHandle(valuetype [mscorlib]System.RuntimeTypeHandle)
call string [mscorlib]System.String::Concat(object,object)
ldstr ">()"
call string [mscorlib]System.String::Concat(object,object)
ret
}
.method public hidebysig newslot virtual instance string 'IBase1<class BaseClass0>.Method6'<M0>() cil managed noinlining {
.override method instance string class IBase1`1<class BaseClass0>::Method6<[1]>()
ldstr "G1_C15::Method6.MI.4892<"
ldtoken !!M0
call class [mscorlib]System.Type [mscorlib]System.Type::GetTypeFromHandle(valuetype [mscorlib]System.RuntimeTypeHandle)
call string [mscorlib]System.String::Concat(object,object)
ldstr ">()"
call string [mscorlib]System.String::Concat(object,object)
ret
}
.method public hidebysig specialname rtspecialname instance void .ctor() cil managed {
ldarg.0
call instance void [mscorlib]System.Object::.ctor()
ret
}
}
.class interface public abstract IBase1`1<+T0>
{
.method public hidebysig newslot abstract virtual instance string Method4() cil managed { }
.method public hidebysig newslot abstract virtual instance string Method5() cil managed { }
.method public hidebysig newslot abstract virtual instance string Method6<M0>() cil managed { }
}
.class interface public abstract IBase2`2<+T0, -T1>
{
.method public hidebysig newslot abstract virtual instance string Method7<M0>() cil managed { }
}
.class public auto ansi beforefieldinit Generated1465 {
.method static void M.BaseClass0<(BaseClass0)W>(!!W inst, string exp) cil managed {
.maxstack 5
.locals init (string[] actualResults)
ldc.i4.s 0
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.BaseClass0<(BaseClass0)W>(!!W inst, string exp)"
ldc.i4.s 0
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.BaseClass1<(BaseClass1)W>(!!W inst, string exp) cil managed {
.maxstack 5
.locals init (string[] actualResults)
ldc.i4.s 0
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.BaseClass1<(BaseClass1)W>(!!W inst, string exp)"
ldc.i4.s 0
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G3_C1937.T<T0,(class G3_C1937`1<!!T0>)W>(!!W 'inst', string exp) cil managed {
.maxstack 13
.locals init (string[] actualResults)
ldc.i4.s 8
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G3_C1937.T<T0,(class G3_C1937`1<!!T0>)W>(!!W 'inst', string exp)"
ldc.i4.s 8
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1937`1<!!T0>::ClassMethod3068<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1937`1<!!T0>::ClassMethod5270()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1937`1<!!T0>::ClassMethod5271<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1937`1<!!T0>::ClassMethod5272<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 4
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1937`1<!!T0>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 5
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1937`1<!!T0>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 6
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1937`1<!!T0>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 7
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1937`1<!!T0>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G3_C1937.A<(class G3_C1937`1<class BaseClass0>)W>(!!W 'inst', string exp) cil managed {
.maxstack 13
.locals init (string[] actualResults)
ldc.i4.s 8
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G3_C1937.A<(class G3_C1937`1<class BaseClass0>)W>(!!W 'inst', string exp)"
ldc.i4.s 8
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1937`1<class BaseClass0>::ClassMethod3068<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1937`1<class BaseClass0>::ClassMethod5270()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1937`1<class BaseClass0>::ClassMethod5271<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1937`1<class BaseClass0>::ClassMethod5272<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 4
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1937`1<class BaseClass0>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 5
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1937`1<class BaseClass0>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 6
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1937`1<class BaseClass0>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 7
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1937`1<class BaseClass0>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G3_C1937.B<(class G3_C1937`1<class BaseClass1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 13
.locals init (string[] actualResults)
ldc.i4.s 8
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G3_C1937.B<(class G3_C1937`1<class BaseClass1>)W>(!!W 'inst', string exp)"
ldc.i4.s 8
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1937`1<class BaseClass1>::ClassMethod3068<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1937`1<class BaseClass1>::ClassMethod5270()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1937`1<class BaseClass1>::ClassMethod5271<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1937`1<class BaseClass1>::ClassMethod5272<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 4
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1937`1<class BaseClass1>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 5
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1937`1<class BaseClass1>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 6
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1937`1<class BaseClass1>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 7
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1937`1<class BaseClass1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G2_C846.T.T<T0,T1,(class G2_C846`2<!!T0,!!T1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 10
.locals init (string[] actualResults)
ldc.i4.s 5
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G2_C846.T.T<T0,T1,(class G2_C846`2<!!T0,!!T1>)W>(!!W 'inst', string exp)"
ldc.i4.s 5
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<!!T0,!!T1>::ClassMethod3068<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<!!T0,!!T1>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<!!T0,!!T1>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<!!T0,!!T1>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 4
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<!!T0,!!T1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G2_C846.A.T<T1,(class G2_C846`2<class BaseClass0,!!T1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 10
.locals init (string[] actualResults)
ldc.i4.s 5
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G2_C846.A.T<T1,(class G2_C846`2<class BaseClass0,!!T1>)W>(!!W 'inst', string exp)"
ldc.i4.s 5
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass0,!!T1>::ClassMethod3068<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass0,!!T1>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass0,!!T1>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass0,!!T1>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 4
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass0,!!T1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G2_C846.A.A<(class G2_C846`2<class BaseClass0,class BaseClass0>)W>(!!W 'inst', string exp) cil managed {
.maxstack 10
.locals init (string[] actualResults)
ldc.i4.s 5
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G2_C846.A.A<(class G2_C846`2<class BaseClass0,class BaseClass0>)W>(!!W 'inst', string exp)"
ldc.i4.s 5
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass0,class BaseClass0>::ClassMethod3068<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass0,class BaseClass0>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass0,class BaseClass0>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass0,class BaseClass0>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 4
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass0,class BaseClass0>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G2_C846.A.B<(class G2_C846`2<class BaseClass0,class BaseClass1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 10
.locals init (string[] actualResults)
ldc.i4.s 5
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G2_C846.A.B<(class G2_C846`2<class BaseClass0,class BaseClass1>)W>(!!W 'inst', string exp)"
ldc.i4.s 5
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass0,class BaseClass1>::ClassMethod3068<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass0,class BaseClass1>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass0,class BaseClass1>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass0,class BaseClass1>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 4
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass0,class BaseClass1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G2_C846.B.T<T1,(class G2_C846`2<class BaseClass1,!!T1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 10
.locals init (string[] actualResults)
ldc.i4.s 5
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G2_C846.B.T<T1,(class G2_C846`2<class BaseClass1,!!T1>)W>(!!W 'inst', string exp)"
ldc.i4.s 5
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass1,!!T1>::ClassMethod3068<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass1,!!T1>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass1,!!T1>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass1,!!T1>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 4
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass1,!!T1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G2_C846.B.A<(class G2_C846`2<class BaseClass1,class BaseClass0>)W>(!!W 'inst', string exp) cil managed {
.maxstack 10
.locals init (string[] actualResults)
ldc.i4.s 5
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G2_C846.B.A<(class G2_C846`2<class BaseClass1,class BaseClass0>)W>(!!W 'inst', string exp)"
ldc.i4.s 5
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass0>::ClassMethod3068<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 4
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G2_C846.B.B<(class G2_C846`2<class BaseClass1,class BaseClass1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 10
.locals init (string[] actualResults)
ldc.i4.s 5
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G2_C846.B.B<(class G2_C846`2<class BaseClass1,class BaseClass1>)W>(!!W 'inst', string exp)"
ldc.i4.s 5
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass1>::ClassMethod3068<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass1>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass1>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass1>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 4
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G1_C15.T.T<T0,T1,(class G1_C15`2<!!T0,!!T1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 9
.locals init (string[] actualResults)
ldc.i4.s 4
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G1_C15.T.T<T0,T1,(class G1_C15`2<!!T0,!!T1>)W>(!!W 'inst', string exp)"
ldc.i4.s 4
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<!!T0,!!T1>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<!!T0,!!T1>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<!!T0,!!T1>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<!!T0,!!T1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G1_C15.A.T<T1,(class G1_C15`2<class BaseClass0,!!T1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 9
.locals init (string[] actualResults)
ldc.i4.s 4
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G1_C15.A.T<T1,(class G1_C15`2<class BaseClass0,!!T1>)W>(!!W 'inst', string exp)"
ldc.i4.s 4
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<class BaseClass0,!!T1>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<class BaseClass0,!!T1>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<class BaseClass0,!!T1>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<class BaseClass0,!!T1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G1_C15.A.A<(class G1_C15`2<class BaseClass0,class BaseClass0>)W>(!!W 'inst', string exp) cil managed {
.maxstack 9
.locals init (string[] actualResults)
ldc.i4.s 4
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G1_C15.A.A<(class G1_C15`2<class BaseClass0,class BaseClass0>)W>(!!W 'inst', string exp)"
ldc.i4.s 4
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<class BaseClass0,class BaseClass0>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<class BaseClass0,class BaseClass0>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<class BaseClass0,class BaseClass0>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<class BaseClass0,class BaseClass0>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G1_C15.A.B<(class G1_C15`2<class BaseClass0,class BaseClass1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 9
.locals init (string[] actualResults)
ldc.i4.s 4
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G1_C15.A.B<(class G1_C15`2<class BaseClass0,class BaseClass1>)W>(!!W 'inst', string exp)"
ldc.i4.s 4
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<class BaseClass0,class BaseClass1>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<class BaseClass0,class BaseClass1>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<class BaseClass0,class BaseClass1>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<class BaseClass0,class BaseClass1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G1_C15.B.T<T1,(class G1_C15`2<class BaseClass1,!!T1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 9
.locals init (string[] actualResults)
ldc.i4.s 4
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G1_C15.B.T<T1,(class G1_C15`2<class BaseClass1,!!T1>)W>(!!W 'inst', string exp)"
ldc.i4.s 4
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<class BaseClass1,!!T1>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<class BaseClass1,!!T1>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<class BaseClass1,!!T1>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<class BaseClass1,!!T1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G1_C15.B.A<(class G1_C15`2<class BaseClass1,class BaseClass0>)W>(!!W 'inst', string exp) cil managed {
.maxstack 9
.locals init (string[] actualResults)
ldc.i4.s 4
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G1_C15.B.A<(class G1_C15`2<class BaseClass1,class BaseClass0>)W>(!!W 'inst', string exp)"
ldc.i4.s 4
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G1_C15.B.B<(class G1_C15`2<class BaseClass1,class BaseClass1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 9
.locals init (string[] actualResults)
ldc.i4.s 4
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G1_C15.B.B<(class G1_C15`2<class BaseClass1,class BaseClass1>)W>(!!W 'inst', string exp)"
ldc.i4.s 4
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<class BaseClass1,class BaseClass1>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<class BaseClass1,class BaseClass1>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<class BaseClass1,class BaseClass1>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<class BaseClass1,class BaseClass1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.IBase1.T<T0,(class IBase1`1<!!T0>)W>(!!W 'inst', string exp) cil managed {
.maxstack 8
.locals init (string[] actualResults)
ldc.i4.s 3
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.IBase1.T<T0,(class IBase1`1<!!T0>)W>(!!W 'inst', string exp)"
ldc.i4.s 3
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class IBase1`1<!!T0>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class IBase1`1<!!T0>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class IBase1`1<!!T0>::Method6<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.IBase1.A<(class IBase1`1<class BaseClass0>)W>(!!W 'inst', string exp) cil managed {
.maxstack 8
.locals init (string[] actualResults)
ldc.i4.s 3
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.IBase1.A<(class IBase1`1<class BaseClass0>)W>(!!W 'inst', string exp)"
ldc.i4.s 3
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class IBase1`1<class BaseClass0>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class IBase1`1<class BaseClass0>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class IBase1`1<class BaseClass0>::Method6<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.IBase1.B<(class IBase1`1<class BaseClass1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 8
.locals init (string[] actualResults)
ldc.i4.s 3
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.IBase1.B<(class IBase1`1<class BaseClass1>)W>(!!W 'inst', string exp)"
ldc.i4.s 3
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class IBase1`1<class BaseClass1>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class IBase1`1<class BaseClass1>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class IBase1`1<class BaseClass1>::Method6<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.IBase2.T.T<T0,T1,(class IBase2`2<!!T0,!!T1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 6
.locals init (string[] actualResults)
ldc.i4.s 1
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.IBase2.T.T<T0,T1,(class IBase2`2<!!T0,!!T1>)W>(!!W 'inst', string exp)"
ldc.i4.s 1
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class IBase2`2<!!T0,!!T1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.IBase2.A.T<T1,(class IBase2`2<class BaseClass0,!!T1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 6
.locals init (string[] actualResults)
ldc.i4.s 1
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.IBase2.A.T<T1,(class IBase2`2<class BaseClass0,!!T1>)W>(!!W 'inst', string exp)"
ldc.i4.s 1
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class IBase2`2<class BaseClass0,!!T1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.IBase2.A.A<(class IBase2`2<class BaseClass0,class BaseClass0>)W>(!!W 'inst', string exp) cil managed {
.maxstack 6
.locals init (string[] actualResults)
ldc.i4.s 1
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.IBase2.A.A<(class IBase2`2<class BaseClass0,class BaseClass0>)W>(!!W 'inst', string exp)"
ldc.i4.s 1
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.IBase2.A.B<(class IBase2`2<class BaseClass0,class BaseClass1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 6
.locals init (string[] actualResults)
ldc.i4.s 1
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.IBase2.A.B<(class IBase2`2<class BaseClass0,class BaseClass1>)W>(!!W 'inst', string exp)"
ldc.i4.s 1
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.IBase2.B.T<T1,(class IBase2`2<class BaseClass1,!!T1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 6
.locals init (string[] actualResults)
ldc.i4.s 1
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.IBase2.B.T<T1,(class IBase2`2<class BaseClass1,!!T1>)W>(!!W 'inst', string exp)"
ldc.i4.s 1
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class IBase2`2<class BaseClass1,!!T1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.IBase2.B.A<(class IBase2`2<class BaseClass1,class BaseClass0>)W>(!!W 'inst', string exp) cil managed {
.maxstack 6
.locals init (string[] actualResults)
ldc.i4.s 1
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.IBase2.B.A<(class IBase2`2<class BaseClass1,class BaseClass0>)W>(!!W 'inst', string exp)"
ldc.i4.s 1
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class IBase2`2<class BaseClass1,class BaseClass0>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.IBase2.B.B<(class IBase2`2<class BaseClass1,class BaseClass1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 6
.locals init (string[] actualResults)
ldc.i4.s 1
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.IBase2.B.B<(class IBase2`2<class BaseClass1,class BaseClass1>)W>(!!W 'inst', string exp)"
ldc.i4.s 1
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class IBase2`2<class BaseClass1,class BaseClass1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method public hidebysig static void MethodCallingTest() cil managed
{
.maxstack 10
.locals init (object V_0)
ldstr "========================== Method Calling Test =========================="
call void [mscorlib]System.Console::WriteLine(string)
newobj instance void class G3_C1937`1<class BaseClass0>::.ctor()
stloc.0
ldloc.0
dup
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
callvirt instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method6<object>()
ldstr "G1_C15::Method6.4891<System.Object>()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
callvirt instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method5()
ldstr "G1_C15::Method5.4889()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
callvirt instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method4()
ldstr "G2_C846::Method4.12757()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
callvirt instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method7<object>()
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
ldstr "G1_C15::Method7.MI.4886<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method4()
ldstr "G2_C846::Method4.MI.12758()"
ldstr "class IBase1`1<class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method5()
ldstr "G2_C846::Method5.12759()"
ldstr "class IBase1`1<class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method6<object>()
ldstr "G2_C846::Method6.MI.12761<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
ldstr "G2_C846::Method7.MI.12763<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass0>::ClassMethod3068<object>()
ldstr "G3_C1937::ClassMethod3068.MI.18810<System.Object>()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method7<object>()
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method6<object>()
ldstr "G2_C846::Method6.12760<System.Object>()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method5()
ldstr "G2_C846::Method5.12759()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method4()
ldstr "G2_C846::Method4.12757()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method4()
ldstr "G2_C846::Method4.MI.12758()"
ldstr "class IBase1`1<class BaseClass1> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method5()
ldstr "G2_C846::Method5.12759()"
ldstr "class IBase1`1<class BaseClass1> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method6<object>()
ldstr "G2_C846::Method6.MI.12761<System.Object>()"
ldstr "class IBase1`1<class BaseClass1> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
castclass class G3_C1937`1<class BaseClass0>
callvirt instance string class G3_C1937`1<class BaseClass0>::ClassMethod5272<object>()
ldstr "G3_C1937::ClassMethod5272.18809<System.Object>()"
ldstr "class G3_C1937`1<class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1937`1<class BaseClass0>
callvirt instance string class G3_C1937`1<class BaseClass0>::ClassMethod5271<object>()
ldstr "G3_C1937::ClassMethod5271.18808<System.Object>()"
ldstr "class G3_C1937`1<class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1937`1<class BaseClass0>
callvirt instance string class G3_C1937`1<class BaseClass0>::ClassMethod5270()
ldstr "G3_C1937::ClassMethod5270.18807()"
ldstr "class G3_C1937`1<class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1937`1<class BaseClass0>
callvirt instance string class G3_C1937`1<class BaseClass0>::ClassMethod3068<object>()
ldstr "G3_C1937::ClassMethod3068.MI.18810<System.Object>()"
ldstr "class G3_C1937`1<class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1937`1<class BaseClass0>
callvirt instance string class G3_C1937`1<class BaseClass0>::Method7<object>()
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G3_C1937`1<class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1937`1<class BaseClass0>
callvirt instance string class G3_C1937`1<class BaseClass0>::Method6<object>()
ldstr "G2_C846::Method6.12760<System.Object>()"
ldstr "class G3_C1937`1<class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1937`1<class BaseClass0>
callvirt instance string class G3_C1937`1<class BaseClass0>::Method5()
ldstr "G2_C846::Method5.12759()"
ldstr "class G3_C1937`1<class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1937`1<class BaseClass0>
callvirt instance string class G3_C1937`1<class BaseClass0>::Method4()
ldstr "G2_C846::Method4.12757()"
ldstr "class G3_C1937`1<class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
newobj instance void class G3_C1937`1<class BaseClass1>::.ctor()
stloc.0
ldloc.0
dup
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
callvirt instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method6<object>()
ldstr "G1_C15::Method6.4891<System.Object>()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
callvirt instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method5()
ldstr "G1_C15::Method5.4889()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
callvirt instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method4()
ldstr "G2_C846::Method4.12757()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
callvirt instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method7<object>()
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
ldstr "G1_C15::Method7.MI.4886<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method4()
ldstr "G2_C846::Method4.MI.12758()"
ldstr "class IBase1`1<class BaseClass0> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method5()
ldstr "G2_C846::Method5.12759()"
ldstr "class IBase1`1<class BaseClass0> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method6<object>()
ldstr "G2_C846::Method6.MI.12761<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
ldstr "G2_C846::Method7.MI.12763<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass0>::ClassMethod3068<object>()
ldstr "G3_C1937::ClassMethod3068.MI.18810<System.Object>()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method7<object>()
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method6<object>()
ldstr "G2_C846::Method6.12760<System.Object>()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method5()
ldstr "G2_C846::Method5.12759()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method4()
ldstr "G2_C846::Method4.12757()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method4()
ldstr "G2_C846::Method4.MI.12758()"
ldstr "class IBase1`1<class BaseClass1> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method5()
ldstr "G2_C846::Method5.12759()"
ldstr "class IBase1`1<class BaseClass1> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method6<object>()
ldstr "G2_C846::Method6.MI.12761<System.Object>()"
ldstr "class IBase1`1<class BaseClass1> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
castclass class G3_C1937`1<class BaseClass1>
callvirt instance string class G3_C1937`1<class BaseClass1>::ClassMethod5272<object>()
ldstr "G3_C1937::ClassMethod5272.18809<System.Object>()"
ldstr "class G3_C1937`1<class BaseClass1> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1937`1<class BaseClass1>
callvirt instance string class G3_C1937`1<class BaseClass1>::ClassMethod5271<object>()
ldstr "G3_C1937::ClassMethod5271.18808<System.Object>()"
ldstr "class G3_C1937`1<class BaseClass1> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1937`1<class BaseClass1>
callvirt instance string class G3_C1937`1<class BaseClass1>::ClassMethod5270()
ldstr "G3_C1937::ClassMethod5270.18807()"
ldstr "class G3_C1937`1<class BaseClass1> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1937`1<class BaseClass1>
callvirt instance string class G3_C1937`1<class BaseClass1>::ClassMethod3068<object>()
ldstr "G3_C1937::ClassMethod3068.MI.18810<System.Object>()"
ldstr "class G3_C1937`1<class BaseClass1> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1937`1<class BaseClass1>
callvirt instance string class G3_C1937`1<class BaseClass1>::Method7<object>()
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G3_C1937`1<class BaseClass1> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1937`1<class BaseClass1>
callvirt instance string class G3_C1937`1<class BaseClass1>::Method6<object>()
ldstr "G2_C846::Method6.12760<System.Object>()"
ldstr "class G3_C1937`1<class BaseClass1> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1937`1<class BaseClass1>
callvirt instance string class G3_C1937`1<class BaseClass1>::Method5()
ldstr "G2_C846::Method5.12759()"
ldstr "class G3_C1937`1<class BaseClass1> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1937`1<class BaseClass1>
callvirt instance string class G3_C1937`1<class BaseClass1>::Method4()
ldstr "G2_C846::Method4.12757()"
ldstr "class G3_C1937`1<class BaseClass1> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
newobj instance void class G2_C846`2<class BaseClass0,class BaseClass0>::.ctor()
stloc.0
ldloc.0
dup
castclass class G1_C15`2<class BaseClass0,class BaseClass0>
callvirt instance string class G1_C15`2<class BaseClass0,class BaseClass0>::Method6<object>()
ldstr "G1_C15::Method6.4891<System.Object>()"
ldstr "class G1_C15`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C15`2<class BaseClass0,class BaseClass0>
callvirt instance string class G1_C15`2<class BaseClass0,class BaseClass0>::Method5()
ldstr "G1_C15::Method5.4889()"
ldstr "class G1_C15`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C15`2<class BaseClass0,class BaseClass0>
callvirt instance string class G1_C15`2<class BaseClass0,class BaseClass0>::Method4()
ldstr "G2_C846::Method4.12757()"
ldstr "class G1_C15`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C15`2<class BaseClass0,class BaseClass0>
callvirt instance string class G1_C15`2<class BaseClass0,class BaseClass0>::Method7<object>()
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G1_C15`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
ldstr "G2_C846::Method7.MI.12763<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method4()
ldstr "G2_C846::Method4.MI.12758()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method5()
ldstr "G2_C846::Method5.12759()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method6<object>()
ldstr "G2_C846::Method6.MI.12761<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
ldstr "G2_C846::Method7.MI.12763<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
castclass class G2_C846`2<class BaseClass0,class BaseClass0>
callvirt instance string class G2_C846`2<class BaseClass0,class BaseClass0>::ClassMethod3068<object>()
ldstr "G2_C846::ClassMethod3068.12764<System.Object>()"
ldstr "class G2_C846`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C846`2<class BaseClass0,class BaseClass0>
callvirt instance string class G2_C846`2<class BaseClass0,class BaseClass0>::Method7<object>()
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G2_C846`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C846`2<class BaseClass0,class BaseClass0>
callvirt instance string class G2_C846`2<class BaseClass0,class BaseClass0>::Method6<object>()
ldstr "G2_C846::Method6.12760<System.Object>()"
ldstr "class G2_C846`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C846`2<class BaseClass0,class BaseClass0>
callvirt instance string class G2_C846`2<class BaseClass0,class BaseClass0>::Method5()
ldstr "G2_C846::Method5.12759()"
ldstr "class G2_C846`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C846`2<class BaseClass0,class BaseClass0>
callvirt instance string class G2_C846`2<class BaseClass0,class BaseClass0>::Method4()
ldstr "G2_C846::Method4.12757()"
ldstr "class G2_C846`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
newobj instance void class G2_C846`2<class BaseClass0,class BaseClass1>::.ctor()
stloc.0
ldloc.0
dup
castclass class G1_C15`2<class BaseClass0,class BaseClass0>
callvirt instance string class G1_C15`2<class BaseClass0,class BaseClass0>::Method6<object>()
ldstr "G1_C15::Method6.4891<System.Object>()"
ldstr "class G1_C15`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C15`2<class BaseClass0,class BaseClass0>
callvirt instance string class G1_C15`2<class BaseClass0,class BaseClass0>::Method5()
ldstr "G1_C15::Method5.4889()"
ldstr "class G1_C15`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C15`2<class BaseClass0,class BaseClass0>
callvirt instance string class G1_C15`2<class BaseClass0,class BaseClass0>::Method4()
ldstr "G2_C846::Method4.12757()"
ldstr "class G1_C15`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C15`2<class BaseClass0,class BaseClass0>
callvirt instance string class G1_C15`2<class BaseClass0,class BaseClass0>::Method7<object>()
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G1_C15`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
ldstr "G2_C846::Method7.MI.12763<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method4()
ldstr "G2_C846::Method4.MI.12758()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method5()
ldstr "G2_C846::Method5.12759()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method6<object>()
ldstr "G2_C846::Method6.MI.12761<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
ldstr "G2_C846::Method7.MI.12763<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
castclass class G2_C846`2<class BaseClass0,class BaseClass1>
callvirt instance string class G2_C846`2<class BaseClass0,class BaseClass1>::ClassMethod3068<object>()
ldstr "G2_C846::ClassMethod3068.12764<System.Object>()"
ldstr "class G2_C846`2<class BaseClass0,class BaseClass1> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C846`2<class BaseClass0,class BaseClass1>
callvirt instance string class G2_C846`2<class BaseClass0,class BaseClass1>::Method7<object>()
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G2_C846`2<class BaseClass0,class BaseClass1> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C846`2<class BaseClass0,class BaseClass1>
callvirt instance string class G2_C846`2<class BaseClass0,class BaseClass1>::Method6<object>()
ldstr "G2_C846::Method6.12760<System.Object>()"
ldstr "class G2_C846`2<class BaseClass0,class BaseClass1> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C846`2<class BaseClass0,class BaseClass1>
callvirt instance string class G2_C846`2<class BaseClass0,class BaseClass1>::Method5()
ldstr "G2_C846::Method5.12759()"
ldstr "class G2_C846`2<class BaseClass0,class BaseClass1> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C846`2<class BaseClass0,class BaseClass1>
callvirt instance string class G2_C846`2<class BaseClass0,class BaseClass1>::Method4()
ldstr "G2_C846::Method4.12757()"
ldstr "class G2_C846`2<class BaseClass0,class BaseClass1> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass1,class BaseClass0>::Method7<object>()
ldstr "G2_C846::Method7.MI.12763<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass1,class BaseClass1>::Method7<object>()
ldstr "G2_C846::Method7.MI.12763<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass1> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
newobj instance void class G2_C846`2<class BaseClass1,class BaseClass0>::.ctor()
stloc.0
ldloc.0
dup
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
callvirt instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method6<object>()
ldstr "G1_C15::Method6.4891<System.Object>()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
callvirt instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method5()
ldstr "G1_C15::Method5.4889()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
callvirt instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method4()
ldstr "G2_C846::Method4.12757()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
callvirt instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method7<object>()
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
ldstr "G1_C15::Method7.MI.4886<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method4()
ldstr "G2_C846::Method4.MI.12758()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method5()
ldstr "G2_C846::Method5.12759()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method6<object>()
ldstr "G2_C846::Method6.MI.12761<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
ldstr "G2_C846::Method7.MI.12763<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass0>::ClassMethod3068<object>()
ldstr "G2_C846::ClassMethod3068.12764<System.Object>()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method7<object>()
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method6<object>()
ldstr "G2_C846::Method6.12760<System.Object>()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method5()
ldstr "G2_C846::Method5.12759()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method4()
ldstr "G2_C846::Method4.12757()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method4()
ldstr "G2_C846::Method4.MI.12758()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method5()
ldstr "G2_C846::Method5.12759()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method6<object>()
ldstr "G2_C846::Method6.MI.12761<System.Object>()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
newobj instance void class G2_C846`2<class BaseClass1,class BaseClass1>::.ctor()
stloc.0
ldloc.0
dup
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
callvirt instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method6<object>()
ldstr "G1_C15::Method6.4891<System.Object>()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
callvirt instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method5()
ldstr "G1_C15::Method5.4889()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
callvirt instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method4()
ldstr "G2_C846::Method4.12757()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
callvirt instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method7<object>()
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
ldstr "G1_C15::Method7.MI.4886<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method4()
ldstr "G2_C846::Method4.MI.12758()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method5()
ldstr "G2_C846::Method5.12759()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method6<object>()
ldstr "G2_C846::Method6.MI.12761<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
ldstr "G2_C846::Method7.MI.12763<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
castclass class G2_C846`2<class BaseClass1,class BaseClass1>
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass1>::ClassMethod3068<object>()
ldstr "G2_C846::ClassMethod3068.12764<System.Object>()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C846`2<class BaseClass1,class BaseClass1>
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass1>::Method7<object>()
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C846`2<class BaseClass1,class BaseClass1>
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass1>::Method6<object>()
ldstr "G2_C846::Method6.12760<System.Object>()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C846`2<class BaseClass1,class BaseClass1>
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass1>::Method5()
ldstr "G2_C846::Method5.12759()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C846`2<class BaseClass1,class BaseClass1>
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass1>::Method4()
ldstr "G2_C846::Method4.12757()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method4()
ldstr "G2_C846::Method4.MI.12758()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method5()
ldstr "G2_C846::Method5.12759()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method6<object>()
ldstr "G2_C846::Method6.MI.12761<System.Object>()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass1,class BaseClass1>::Method7<object>()
ldstr "G2_C846::Method7.MI.12763<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldstr "========================================================================\n\n"
call void [mscorlib]System.Console::WriteLine(string)
ret
}
.method public hidebysig static void ConstrainedCallsTest() cil managed
{
.maxstack 10
.locals init (object V_0)
ldstr "========================== Constrained Calls Test =========================="
call void [mscorlib]System.Console::WriteLine(string)
newobj instance void class G3_C1937`1<class BaseClass0>::.ctor()
stloc.0
ldloc.0
ldstr "G2_C846::Method4.12757()#G1_C15::Method5.4889()#G1_C15::Method6.4891<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G1_C15.T.T<class BaseClass1,class BaseClass0,class G3_C1937`1<class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G2_C846::Method4.12757()#G1_C15::Method5.4889()#G1_C15::Method6.4891<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G1_C15.B.T<class BaseClass0,class G3_C1937`1<class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C846::Method4.12757()#G1_C15::Method5.4889()#G1_C15::Method6.4891<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G1_C15.B.A<class G3_C1937`1<class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G1_C15::Method7.MI.4886<System.Object>()#"
call void Generated1465::M.IBase2.T.T<class BaseClass0,class BaseClass0,class G3_C1937`1<class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G1_C15::Method7.MI.4886<System.Object>()#"
call void Generated1465::M.IBase2.A.T<class BaseClass0,class G3_C1937`1<class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G1_C15::Method7.MI.4886<System.Object>()#"
call void Generated1465::M.IBase2.A.A<class G3_C1937`1<class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G2_C846::Method4.MI.12758()#G2_C846::Method5.12759()#G2_C846::Method6.MI.12761<System.Object>()#"
call void Generated1465::M.IBase1.T<class BaseClass0,class G3_C1937`1<class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C846::Method4.MI.12758()#G2_C846::Method5.12759()#G2_C846::Method6.MI.12761<System.Object>()#"
call void Generated1465::M.IBase1.A<class G3_C1937`1<class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.T.T<class BaseClass0,class BaseClass1,class G3_C1937`1<class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.A.T<class BaseClass1,class G3_C1937`1<class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.A.B<class G3_C1937`1<class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G3_C1937::ClassMethod3068.MI.18810<System.Object>()#G2_C846::Method4.12757()#G2_C846::Method5.12759()#G2_C846::Method6.12760<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G2_C846.T.T<class BaseClass1,class BaseClass0,class G3_C1937`1<class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G3_C1937::ClassMethod3068.MI.18810<System.Object>()#G2_C846::Method4.12757()#G2_C846::Method5.12759()#G2_C846::Method6.12760<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G2_C846.B.T<class BaseClass0,class G3_C1937`1<class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G3_C1937::ClassMethod3068.MI.18810<System.Object>()#G2_C846::Method4.12757()#G2_C846::Method5.12759()#G2_C846::Method6.12760<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G2_C846.B.A<class G3_C1937`1<class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G2_C846::Method4.MI.12758()#G2_C846::Method5.12759()#G2_C846::Method6.MI.12761<System.Object>()#"
call void Generated1465::M.IBase1.T<class BaseClass1,class G3_C1937`1<class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C846::Method4.MI.12758()#G2_C846::Method5.12759()#G2_C846::Method6.MI.12761<System.Object>()#"
call void Generated1465::M.IBase1.B<class G3_C1937`1<class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G3_C1937::ClassMethod3068.MI.18810<System.Object>()#G3_C1937::ClassMethod5270.18807()#G3_C1937::ClassMethod5271.18808<System.Object>()#G3_C1937::ClassMethod5272.18809<System.Object>()#G2_C846::Method4.12757()#G2_C846::Method5.12759()#G2_C846::Method6.12760<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G3_C1937.T<class BaseClass0,class G3_C1937`1<class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G3_C1937::ClassMethod3068.MI.18810<System.Object>()#G3_C1937::ClassMethod5270.18807()#G3_C1937::ClassMethod5271.18808<System.Object>()#G3_C1937::ClassMethod5272.18809<System.Object>()#G2_C846::Method4.12757()#G2_C846::Method5.12759()#G2_C846::Method6.12760<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G3_C1937.A<class G3_C1937`1<class BaseClass0>>(!!0,string)
newobj instance void class G3_C1937`1<class BaseClass1>::.ctor()
stloc.0
ldloc.0
ldstr "G2_C846::Method4.12757()#G1_C15::Method5.4889()#G1_C15::Method6.4891<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G1_C15.T.T<class BaseClass1,class BaseClass0,class G3_C1937`1<class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G2_C846::Method4.12757()#G1_C15::Method5.4889()#G1_C15::Method6.4891<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G1_C15.B.T<class BaseClass0,class G3_C1937`1<class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C846::Method4.12757()#G1_C15::Method5.4889()#G1_C15::Method6.4891<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G1_C15.B.A<class G3_C1937`1<class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G1_C15::Method7.MI.4886<System.Object>()#"
call void Generated1465::M.IBase2.T.T<class BaseClass0,class BaseClass0,class G3_C1937`1<class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G1_C15::Method7.MI.4886<System.Object>()#"
call void Generated1465::M.IBase2.A.T<class BaseClass0,class G3_C1937`1<class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G1_C15::Method7.MI.4886<System.Object>()#"
call void Generated1465::M.IBase2.A.A<class G3_C1937`1<class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C846::Method4.MI.12758()#G2_C846::Method5.12759()#G2_C846::Method6.MI.12761<System.Object>()#"
call void Generated1465::M.IBase1.T<class BaseClass0,class G3_C1937`1<class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C846::Method4.MI.12758()#G2_C846::Method5.12759()#G2_C846::Method6.MI.12761<System.Object>()#"
call void Generated1465::M.IBase1.A<class G3_C1937`1<class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.T.T<class BaseClass0,class BaseClass1,class G3_C1937`1<class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.A.T<class BaseClass1,class G3_C1937`1<class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.A.B<class G3_C1937`1<class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G3_C1937::ClassMethod3068.MI.18810<System.Object>()#G2_C846::Method4.12757()#G2_C846::Method5.12759()#G2_C846::Method6.12760<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G2_C846.T.T<class BaseClass1,class BaseClass0,class G3_C1937`1<class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G3_C1937::ClassMethod3068.MI.18810<System.Object>()#G2_C846::Method4.12757()#G2_C846::Method5.12759()#G2_C846::Method6.12760<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G2_C846.B.T<class BaseClass0,class G3_C1937`1<class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G3_C1937::ClassMethod3068.MI.18810<System.Object>()#G2_C846::Method4.12757()#G2_C846::Method5.12759()#G2_C846::Method6.12760<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G2_C846.B.A<class G3_C1937`1<class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C846::Method4.MI.12758()#G2_C846::Method5.12759()#G2_C846::Method6.MI.12761<System.Object>()#"
call void Generated1465::M.IBase1.T<class BaseClass1,class G3_C1937`1<class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C846::Method4.MI.12758()#G2_C846::Method5.12759()#G2_C846::Method6.MI.12761<System.Object>()#"
call void Generated1465::M.IBase1.B<class G3_C1937`1<class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G3_C1937::ClassMethod3068.MI.18810<System.Object>()#G3_C1937::ClassMethod5270.18807()#G3_C1937::ClassMethod5271.18808<System.Object>()#G3_C1937::ClassMethod5272.18809<System.Object>()#G2_C846::Method4.12757()#G2_C846::Method5.12759()#G2_C846::Method6.12760<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G3_C1937.T<class BaseClass1,class G3_C1937`1<class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G3_C1937::ClassMethod3068.MI.18810<System.Object>()#G3_C1937::ClassMethod5270.18807()#G3_C1937::ClassMethod5271.18808<System.Object>()#G3_C1937::ClassMethod5272.18809<System.Object>()#G2_C846::Method4.12757()#G2_C846::Method5.12759()#G2_C846::Method6.12760<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G3_C1937.B<class G3_C1937`1<class BaseClass1>>(!!0,string)
newobj instance void class G2_C846`2<class BaseClass0,class BaseClass0>::.ctor()
stloc.0
ldloc.0
ldstr "G2_C846::Method4.12757()#G1_C15::Method5.4889()#G1_C15::Method6.4891<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G1_C15.T.T<class BaseClass0,class BaseClass0,class G2_C846`2<class BaseClass0,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G2_C846::Method4.12757()#G1_C15::Method5.4889()#G1_C15::Method6.4891<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G1_C15.A.T<class BaseClass0,class G2_C846`2<class BaseClass0,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C846::Method4.12757()#G1_C15::Method5.4889()#G1_C15::Method6.4891<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G1_C15.A.A<class G2_C846`2<class BaseClass0,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.T.T<class BaseClass0,class BaseClass0,class G2_C846`2<class BaseClass0,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.A.T<class BaseClass0,class G2_C846`2<class BaseClass0,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.A.A<class G2_C846`2<class BaseClass0,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G2_C846::Method4.MI.12758()#G2_C846::Method5.12759()#G2_C846::Method6.MI.12761<System.Object>()#"
call void Generated1465::M.IBase1.T<class BaseClass0,class G2_C846`2<class BaseClass0,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C846::Method4.MI.12758()#G2_C846::Method5.12759()#G2_C846::Method6.MI.12761<System.Object>()#"
call void Generated1465::M.IBase1.A<class G2_C846`2<class BaseClass0,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.T.T<class BaseClass0,class BaseClass1,class G2_C846`2<class BaseClass0,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.A.T<class BaseClass1,class G2_C846`2<class BaseClass0,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.A.B<class G2_C846`2<class BaseClass0,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G2_C846::ClassMethod3068.12764<System.Object>()#G2_C846::Method4.12757()#G2_C846::Method5.12759()#G2_C846::Method6.12760<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G2_C846.T.T<class BaseClass0,class BaseClass0,class G2_C846`2<class BaseClass0,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G2_C846::ClassMethod3068.12764<System.Object>()#G2_C846::Method4.12757()#G2_C846::Method5.12759()#G2_C846::Method6.12760<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G2_C846.A.T<class BaseClass0,class G2_C846`2<class BaseClass0,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C846::ClassMethod3068.12764<System.Object>()#G2_C846::Method4.12757()#G2_C846::Method5.12759()#G2_C846::Method6.12760<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G2_C846.A.A<class G2_C846`2<class BaseClass0,class BaseClass0>>(!!0,string)
newobj instance void class G2_C846`2<class BaseClass0,class BaseClass1>::.ctor()
stloc.0
ldloc.0
ldstr "G2_C846::Method4.12757()#G1_C15::Method5.4889()#G1_C15::Method6.4891<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G1_C15.T.T<class BaseClass0,class BaseClass0,class G2_C846`2<class BaseClass0,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G2_C846::Method4.12757()#G1_C15::Method5.4889()#G1_C15::Method6.4891<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G1_C15.A.T<class BaseClass0,class G2_C846`2<class BaseClass0,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C846::Method4.12757()#G1_C15::Method5.4889()#G1_C15::Method6.4891<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G1_C15.A.A<class G2_C846`2<class BaseClass0,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.T.T<class BaseClass0,class BaseClass0,class G2_C846`2<class BaseClass0,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.A.T<class BaseClass0,class G2_C846`2<class BaseClass0,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.A.A<class G2_C846`2<class BaseClass0,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C846::Method4.MI.12758()#G2_C846::Method5.12759()#G2_C846::Method6.MI.12761<System.Object>()#"
call void Generated1465::M.IBase1.T<class BaseClass0,class G2_C846`2<class BaseClass0,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C846::Method4.MI.12758()#G2_C846::Method5.12759()#G2_C846::Method6.MI.12761<System.Object>()#"
call void Generated1465::M.IBase1.A<class G2_C846`2<class BaseClass0,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.T.T<class BaseClass0,class BaseClass1,class G2_C846`2<class BaseClass0,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.A.T<class BaseClass1,class G2_C846`2<class BaseClass0,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.A.B<class G2_C846`2<class BaseClass0,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C846::ClassMethod3068.12764<System.Object>()#G2_C846::Method4.12757()#G2_C846::Method5.12759()#G2_C846::Method6.12760<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G2_C846.T.T<class BaseClass0,class BaseClass1,class G2_C846`2<class BaseClass0,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G2_C846::ClassMethod3068.12764<System.Object>()#G2_C846::Method4.12757()#G2_C846::Method5.12759()#G2_C846::Method6.12760<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G2_C846.A.T<class BaseClass1,class G2_C846`2<class BaseClass0,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C846::ClassMethod3068.12764<System.Object>()#G2_C846::Method4.12757()#G2_C846::Method5.12759()#G2_C846::Method6.12760<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G2_C846.A.B<class G2_C846`2<class BaseClass0,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.T.T<class BaseClass1,class BaseClass0,class G2_C846`2<class BaseClass0,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.B.T<class BaseClass0,class G2_C846`2<class BaseClass0,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.B.A<class G2_C846`2<class BaseClass0,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.T.T<class BaseClass1,class BaseClass1,class G2_C846`2<class BaseClass0,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.B.T<class BaseClass1,class G2_C846`2<class BaseClass0,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.B.B<class G2_C846`2<class BaseClass0,class BaseClass1>>(!!0,string)
newobj instance void class G2_C846`2<class BaseClass1,class BaseClass0>::.ctor()
stloc.0
ldloc.0
ldstr "G2_C846::Method4.12757()#G1_C15::Method5.4889()#G1_C15::Method6.4891<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G1_C15.T.T<class BaseClass1,class BaseClass0,class G2_C846`2<class BaseClass1,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G2_C846::Method4.12757()#G1_C15::Method5.4889()#G1_C15::Method6.4891<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G1_C15.B.T<class BaseClass0,class G2_C846`2<class BaseClass1,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C846::Method4.12757()#G1_C15::Method5.4889()#G1_C15::Method6.4891<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G1_C15.B.A<class G2_C846`2<class BaseClass1,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G1_C15::Method7.MI.4886<System.Object>()#"
call void Generated1465::M.IBase2.T.T<class BaseClass0,class BaseClass0,class G2_C846`2<class BaseClass1,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G1_C15::Method7.MI.4886<System.Object>()#"
call void Generated1465::M.IBase2.A.T<class BaseClass0,class G2_C846`2<class BaseClass1,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G1_C15::Method7.MI.4886<System.Object>()#"
call void Generated1465::M.IBase2.A.A<class G2_C846`2<class BaseClass1,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G2_C846::Method4.MI.12758()#G2_C846::Method5.12759()#G2_C846::Method6.MI.12761<System.Object>()#"
call void Generated1465::M.IBase1.T<class BaseClass0,class G2_C846`2<class BaseClass1,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C846::Method4.MI.12758()#G2_C846::Method5.12759()#G2_C846::Method6.MI.12761<System.Object>()#"
call void Generated1465::M.IBase1.A<class G2_C846`2<class BaseClass1,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.T.T<class BaseClass0,class BaseClass1,class G2_C846`2<class BaseClass1,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.A.T<class BaseClass1,class G2_C846`2<class BaseClass1,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.A.B<class G2_C846`2<class BaseClass1,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G2_C846::ClassMethod3068.12764<System.Object>()#G2_C846::Method4.12757()#G2_C846::Method5.12759()#G2_C846::Method6.12760<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G2_C846.T.T<class BaseClass1,class BaseClass0,class G2_C846`2<class BaseClass1,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G2_C846::ClassMethod3068.12764<System.Object>()#G2_C846::Method4.12757()#G2_C846::Method5.12759()#G2_C846::Method6.12760<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G2_C846.B.T<class BaseClass0,class G2_C846`2<class BaseClass1,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C846::ClassMethod3068.12764<System.Object>()#G2_C846::Method4.12757()#G2_C846::Method5.12759()#G2_C846::Method6.12760<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G2_C846.B.A<class G2_C846`2<class BaseClass1,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G2_C846::Method4.MI.12758()#G2_C846::Method5.12759()#G2_C846::Method6.MI.12761<System.Object>()#"
call void Generated1465::M.IBase1.T<class BaseClass1,class G2_C846`2<class BaseClass1,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C846::Method4.MI.12758()#G2_C846::Method5.12759()#G2_C846::Method6.MI.12761<System.Object>()#"
call void Generated1465::M.IBase1.B<class G2_C846`2<class BaseClass1,class BaseClass0>>(!!0,string)
newobj instance void class G2_C846`2<class BaseClass1,class BaseClass1>::.ctor()
stloc.0
ldloc.0
ldstr "G2_C846::Method4.12757()#G1_C15::Method5.4889()#G1_C15::Method6.4891<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G1_C15.T.T<class BaseClass1,class BaseClass0,class G2_C846`2<class BaseClass1,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G2_C846::Method4.12757()#G1_C15::Method5.4889()#G1_C15::Method6.4891<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G1_C15.B.T<class BaseClass0,class G2_C846`2<class BaseClass1,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C846::Method4.12757()#G1_C15::Method5.4889()#G1_C15::Method6.4891<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G1_C15.B.A<class G2_C846`2<class BaseClass1,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G1_C15::Method7.MI.4886<System.Object>()#"
call void Generated1465::M.IBase2.T.T<class BaseClass0,class BaseClass0,class G2_C846`2<class BaseClass1,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G1_C15::Method7.MI.4886<System.Object>()#"
call void Generated1465::M.IBase2.A.T<class BaseClass0,class G2_C846`2<class BaseClass1,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G1_C15::Method7.MI.4886<System.Object>()#"
call void Generated1465::M.IBase2.A.A<class G2_C846`2<class BaseClass1,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C846::Method4.MI.12758()#G2_C846::Method5.12759()#G2_C846::Method6.MI.12761<System.Object>()#"
call void Generated1465::M.IBase1.T<class BaseClass0,class G2_C846`2<class BaseClass1,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C846::Method4.MI.12758()#G2_C846::Method5.12759()#G2_C846::Method6.MI.12761<System.Object>()#"
call void Generated1465::M.IBase1.A<class G2_C846`2<class BaseClass1,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.T.T<class BaseClass0,class BaseClass1,class G2_C846`2<class BaseClass1,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.A.T<class BaseClass1,class G2_C846`2<class BaseClass1,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.A.B<class G2_C846`2<class BaseClass1,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C846::ClassMethod3068.12764<System.Object>()#G2_C846::Method4.12757()#G2_C846::Method5.12759()#G2_C846::Method6.12760<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G2_C846.T.T<class BaseClass1,class BaseClass1,class G2_C846`2<class BaseClass1,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G2_C846::ClassMethod3068.12764<System.Object>()#G2_C846::Method4.12757()#G2_C846::Method5.12759()#G2_C846::Method6.12760<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G2_C846.B.T<class BaseClass1,class G2_C846`2<class BaseClass1,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C846::ClassMethod3068.12764<System.Object>()#G2_C846::Method4.12757()#G2_C846::Method5.12759()#G2_C846::Method6.12760<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G2_C846.B.B<class G2_C846`2<class BaseClass1,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C846::Method4.MI.12758()#G2_C846::Method5.12759()#G2_C846::Method6.MI.12761<System.Object>()#"
call void Generated1465::M.IBase1.T<class BaseClass1,class G2_C846`2<class BaseClass1,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C846::Method4.MI.12758()#G2_C846::Method5.12759()#G2_C846::Method6.MI.12761<System.Object>()#"
call void Generated1465::M.IBase1.B<class G2_C846`2<class BaseClass1,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.T.T<class BaseClass1,class BaseClass1,class G2_C846`2<class BaseClass1,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.B.T<class BaseClass1,class G2_C846`2<class BaseClass1,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.B.B<class G2_C846`2<class BaseClass1,class BaseClass1>>(!!0,string)
ldstr "========================================================================\n\n"
call void [mscorlib]System.Console::WriteLine(string)
ret
}
.method public hidebysig static void StructConstrainedInterfaceCallsTest() cil managed
{
.maxstack 10
ldstr "===================== Struct Constrained Interface Calls Test ====================="
call void [mscorlib]System.Console::WriteLine(string)
ldstr "========================================================================\n\n"
call void [mscorlib]System.Console::WriteLine(string)
ret
}
.method public hidebysig static void CalliTest() cil managed
{
.maxstack 10
.locals init (object V_0)
ldstr "========================== Method Calli Test =========================="
call void [mscorlib]System.Console::WriteLine(string)
newobj instance void class G3_C1937`1<class BaseClass0>::.ctor()
stloc.0
ldloc.0
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method6<object>()
calli default string(class G3_C1937`1<class BaseClass0>)
ldstr "G1_C15::Method6.4891<System.Object>()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method5()
calli default string(class G3_C1937`1<class BaseClass0>)
ldstr "G1_C15::Method5.4889()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method4()
calli default string(class G3_C1937`1<class BaseClass0>)
ldstr "G2_C846::Method4.12757()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method7<object>()
calli default string(class G3_C1937`1<class BaseClass0>)
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
calli default string(class G3_C1937`1<class BaseClass0>)
ldstr "G1_C15::Method7.MI.4886<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method4()
calli default string(class G3_C1937`1<class BaseClass0>)
ldstr "G2_C846::Method4.MI.12758()"
ldstr "class IBase1`1<class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method5()
calli default string(class G3_C1937`1<class BaseClass0>)
ldstr "G2_C846::Method5.12759()"
ldstr "class IBase1`1<class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method6<object>()
calli default string(class G3_C1937`1<class BaseClass0>)
ldstr "G2_C846::Method6.MI.12761<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
calli default string(class G3_C1937`1<class BaseClass0>)
ldstr "G2_C846::Method7.MI.12763<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass1,class BaseClass0>::ClassMethod3068<object>()
calli default string(class G3_C1937`1<class BaseClass0>)
ldstr "G3_C1937::ClassMethod3068.MI.18810<System.Object>()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method7<object>()
calli default string(class G3_C1937`1<class BaseClass0>)
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method6<object>()
calli default string(class G3_C1937`1<class BaseClass0>)
ldstr "G2_C846::Method6.12760<System.Object>()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method5()
calli default string(class G3_C1937`1<class BaseClass0>)
ldstr "G2_C846::Method5.12759()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method4()
calli default string(class G3_C1937`1<class BaseClass0>)
ldstr "G2_C846::Method4.12757()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method4()
calli default string(class G3_C1937`1<class BaseClass0>)
ldstr "G2_C846::Method4.MI.12758()"
ldstr "class IBase1`1<class BaseClass1> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method5()
calli default string(class G3_C1937`1<class BaseClass0>)
ldstr "G2_C846::Method5.12759()"
ldstr "class IBase1`1<class BaseClass1> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method6<object>()
calli default string(class G3_C1937`1<class BaseClass0>)
ldstr "G2_C846::Method6.MI.12761<System.Object>()"
ldstr "class IBase1`1<class BaseClass1> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1937`1<class BaseClass0>
ldloc.0
ldvirtftn instance string class G3_C1937`1<class BaseClass0>::ClassMethod5272<object>()
calli default string(class G3_C1937`1<class BaseClass0>)
ldstr "G3_C1937::ClassMethod5272.18809<System.Object>()"
ldstr "class G3_C1937`1<class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1937`1<class BaseClass0>
ldloc.0
ldvirtftn instance string class G3_C1937`1<class BaseClass0>::ClassMethod5271<object>()
calli default string(class G3_C1937`1<class BaseClass0>)
ldstr "G3_C1937::ClassMethod5271.18808<System.Object>()"
ldstr "class G3_C1937`1<class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1937`1<class BaseClass0>
ldloc.0
ldvirtftn instance string class G3_C1937`1<class BaseClass0>::ClassMethod5270()
calli default string(class G3_C1937`1<class BaseClass0>)
ldstr "G3_C1937::ClassMethod5270.18807()"
ldstr "class G3_C1937`1<class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1937`1<class BaseClass0>
ldloc.0
ldvirtftn instance string class G3_C1937`1<class BaseClass0>::ClassMethod3068<object>()
calli default string(class G3_C1937`1<class BaseClass0>)
ldstr "G3_C1937::ClassMethod3068.MI.18810<System.Object>()"
ldstr "class G3_C1937`1<class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1937`1<class BaseClass0>
ldloc.0
ldvirtftn instance string class G3_C1937`1<class BaseClass0>::Method7<object>()
calli default string(class G3_C1937`1<class BaseClass0>)
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G3_C1937`1<class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1937`1<class BaseClass0>
ldloc.0
ldvirtftn instance string class G3_C1937`1<class BaseClass0>::Method6<object>()
calli default string(class G3_C1937`1<class BaseClass0>)
ldstr "G2_C846::Method6.12760<System.Object>()"
ldstr "class G3_C1937`1<class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1937`1<class BaseClass0>
ldloc.0
ldvirtftn instance string class G3_C1937`1<class BaseClass0>::Method5()
calli default string(class G3_C1937`1<class BaseClass0>)
ldstr "G2_C846::Method5.12759()"
ldstr "class G3_C1937`1<class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1937`1<class BaseClass0>
ldloc.0
ldvirtftn instance string class G3_C1937`1<class BaseClass0>::Method4()
calli default string(class G3_C1937`1<class BaseClass0>)
ldstr "G2_C846::Method4.12757()"
ldstr "class G3_C1937`1<class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
newobj instance void class G3_C1937`1<class BaseClass1>::.ctor()
stloc.0
ldloc.0
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method6<object>()
calli default string(class G3_C1937`1<class BaseClass1>)
ldstr "G1_C15::Method6.4891<System.Object>()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method5()
calli default string(class G3_C1937`1<class BaseClass1>)
ldstr "G1_C15::Method5.4889()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method4()
calli default string(class G3_C1937`1<class BaseClass1>)
ldstr "G2_C846::Method4.12757()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method7<object>()
calli default string(class G3_C1937`1<class BaseClass1>)
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
calli default string(class G3_C1937`1<class BaseClass1>)
ldstr "G1_C15::Method7.MI.4886<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method4()
calli default string(class G3_C1937`1<class BaseClass1>)
ldstr "G2_C846::Method4.MI.12758()"
ldstr "class IBase1`1<class BaseClass0> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method5()
calli default string(class G3_C1937`1<class BaseClass1>)
ldstr "G2_C846::Method5.12759()"
ldstr "class IBase1`1<class BaseClass0> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method6<object>()
calli default string(class G3_C1937`1<class BaseClass1>)
ldstr "G2_C846::Method6.MI.12761<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
calli default string(class G3_C1937`1<class BaseClass1>)
ldstr "G2_C846::Method7.MI.12763<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass1,class BaseClass0>::ClassMethod3068<object>()
calli default string(class G3_C1937`1<class BaseClass1>)
ldstr "G3_C1937::ClassMethod3068.MI.18810<System.Object>()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method7<object>()
calli default string(class G3_C1937`1<class BaseClass1>)
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method6<object>()
calli default string(class G3_C1937`1<class BaseClass1>)
ldstr "G2_C846::Method6.12760<System.Object>()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method5()
calli default string(class G3_C1937`1<class BaseClass1>)
ldstr "G2_C846::Method5.12759()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method4()
calli default string(class G3_C1937`1<class BaseClass1>)
ldstr "G2_C846::Method4.12757()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method4()
calli default string(class G3_C1937`1<class BaseClass1>)
ldstr "G2_C846::Method4.MI.12758()"
ldstr "class IBase1`1<class BaseClass1> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method5()
calli default string(class G3_C1937`1<class BaseClass1>)
ldstr "G2_C846::Method5.12759()"
ldstr "class IBase1`1<class BaseClass1> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method6<object>()
calli default string(class G3_C1937`1<class BaseClass1>)
ldstr "G2_C846::Method6.MI.12761<System.Object>()"
ldstr "class IBase1`1<class BaseClass1> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1937`1<class BaseClass1>
ldloc.0
ldvirtftn instance string class G3_C1937`1<class BaseClass1>::ClassMethod5272<object>()
calli default string(class G3_C1937`1<class BaseClass1>)
ldstr "G3_C1937::ClassMethod5272.18809<System.Object>()"
ldstr "class G3_C1937`1<class BaseClass1> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1937`1<class BaseClass1>
ldloc.0
ldvirtftn instance string class G3_C1937`1<class BaseClass1>::ClassMethod5271<object>()
calli default string(class G3_C1937`1<class BaseClass1>)
ldstr "G3_C1937::ClassMethod5271.18808<System.Object>()"
ldstr "class G3_C1937`1<class BaseClass1> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1937`1<class BaseClass1>
ldloc.0
ldvirtftn instance string class G3_C1937`1<class BaseClass1>::ClassMethod5270()
calli default string(class G3_C1937`1<class BaseClass1>)
ldstr "G3_C1937::ClassMethod5270.18807()"
ldstr "class G3_C1937`1<class BaseClass1> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1937`1<class BaseClass1>
ldloc.0
ldvirtftn instance string class G3_C1937`1<class BaseClass1>::ClassMethod3068<object>()
calli default string(class G3_C1937`1<class BaseClass1>)
ldstr "G3_C1937::ClassMethod3068.MI.18810<System.Object>()"
ldstr "class G3_C1937`1<class BaseClass1> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1937`1<class BaseClass1>
ldloc.0
ldvirtftn instance string class G3_C1937`1<class BaseClass1>::Method7<object>()
calli default string(class G3_C1937`1<class BaseClass1>)
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G3_C1937`1<class BaseClass1> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1937`1<class BaseClass1>
ldloc.0
ldvirtftn instance string class G3_C1937`1<class BaseClass1>::Method6<object>()
calli default string(class G3_C1937`1<class BaseClass1>)
ldstr "G2_C846::Method6.12760<System.Object>()"
ldstr "class G3_C1937`1<class BaseClass1> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1937`1<class BaseClass1>
ldloc.0
ldvirtftn instance string class G3_C1937`1<class BaseClass1>::Method5()
calli default string(class G3_C1937`1<class BaseClass1>)
ldstr "G2_C846::Method5.12759()"
ldstr "class G3_C1937`1<class BaseClass1> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1937`1<class BaseClass1>
ldloc.0
ldvirtftn instance string class G3_C1937`1<class BaseClass1>::Method4()
calli default string(class G3_C1937`1<class BaseClass1>)
ldstr "G2_C846::Method4.12757()"
ldstr "class G3_C1937`1<class BaseClass1> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
newobj instance void class G2_C846`2<class BaseClass0,class BaseClass0>::.ctor()
stloc.0
ldloc.0
castclass class G1_C15`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C15`2<class BaseClass0,class BaseClass0>::Method6<object>()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass0>)
ldstr "G1_C15::Method6.4891<System.Object>()"
ldstr "class G1_C15`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C15`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C15`2<class BaseClass0,class BaseClass0>::Method5()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass0>)
ldstr "G1_C15::Method5.4889()"
ldstr "class G1_C15`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C15`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C15`2<class BaseClass0,class BaseClass0>::Method4()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C846::Method4.12757()"
ldstr "class G1_C15`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C15`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C15`2<class BaseClass0,class BaseClass0>::Method7<object>()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G1_C15`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C846::Method7.MI.12763<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method4()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C846::Method4.MI.12758()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method5()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C846::Method5.12759()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method6<object>()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C846::Method6.MI.12761<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C846::Method7.MI.12763<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass0,class BaseClass0>::ClassMethod3068<object>()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C846::ClassMethod3068.12764<System.Object>()"
ldstr "class G2_C846`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass0,class BaseClass0>::Method7<object>()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G2_C846`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass0,class BaseClass0>::Method6<object>()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C846::Method6.12760<System.Object>()"
ldstr "class G2_C846`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass0,class BaseClass0>::Method5()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C846::Method5.12759()"
ldstr "class G2_C846`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass0,class BaseClass0>::Method4()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C846::Method4.12757()"
ldstr "class G2_C846`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
newobj instance void class G2_C846`2<class BaseClass0,class BaseClass1>::.ctor()
stloc.0
ldloc.0
castclass class G1_C15`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C15`2<class BaseClass0,class BaseClass0>::Method6<object>()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass1>)
ldstr "G1_C15::Method6.4891<System.Object>()"
ldstr "class G1_C15`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C15`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C15`2<class BaseClass0,class BaseClass0>::Method5()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass1>)
ldstr "G1_C15::Method5.4889()"
ldstr "class G1_C15`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C15`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C15`2<class BaseClass0,class BaseClass0>::Method4()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C846::Method4.12757()"
ldstr "class G1_C15`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C15`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C15`2<class BaseClass0,class BaseClass0>::Method7<object>()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G1_C15`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C846::Method7.MI.12763<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method4()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C846::Method4.MI.12758()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method5()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C846::Method5.12759()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method6<object>()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C846::Method6.MI.12761<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C846::Method7.MI.12763<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass0,class BaseClass1>::ClassMethod3068<object>()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C846::ClassMethod3068.12764<System.Object>()"
ldstr "class G2_C846`2<class BaseClass0,class BaseClass1> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass0,class BaseClass1>::Method7<object>()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G2_C846`2<class BaseClass0,class BaseClass1> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass0,class BaseClass1>::Method6<object>()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C846::Method6.12760<System.Object>()"
ldstr "class G2_C846`2<class BaseClass0,class BaseClass1> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass0,class BaseClass1>::Method5()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C846::Method5.12759()"
ldstr "class G2_C846`2<class BaseClass0,class BaseClass1> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass0,class BaseClass1>::Method4()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C846::Method4.12757()"
ldstr "class G2_C846`2<class BaseClass0,class BaseClass1> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass1,class BaseClass0>::Method7<object>()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C846::Method7.MI.12763<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass1,class BaseClass1>::Method7<object>()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C846::Method7.MI.12763<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass1> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
newobj instance void class G2_C846`2<class BaseClass1,class BaseClass0>::.ctor()
stloc.0
ldloc.0
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method6<object>()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass0>)
ldstr "G1_C15::Method6.4891<System.Object>()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method5()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass0>)
ldstr "G1_C15::Method5.4889()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method4()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C846::Method4.12757()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method7<object>()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass0>)
ldstr "G1_C15::Method7.MI.4886<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method4()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C846::Method4.MI.12758()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method5()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C846::Method5.12759()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method6<object>()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C846::Method6.MI.12761<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C846::Method7.MI.12763<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass1,class BaseClass0>::ClassMethod3068<object>()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C846::ClassMethod3068.12764<System.Object>()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method7<object>()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method6<object>()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C846::Method6.12760<System.Object>()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method5()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C846::Method5.12759()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method4()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C846::Method4.12757()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method4()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C846::Method4.MI.12758()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method5()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C846::Method5.12759()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method6<object>()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C846::Method6.MI.12761<System.Object>()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
newobj instance void class G2_C846`2<class BaseClass1,class BaseClass1>::.ctor()
stloc.0
ldloc.0
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method6<object>()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass1>)
ldstr "G1_C15::Method6.4891<System.Object>()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method5()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass1>)
ldstr "G1_C15::Method5.4889()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method4()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C846::Method4.12757()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method7<object>()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass1>)
ldstr "G1_C15::Method7.MI.4886<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method4()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C846::Method4.MI.12758()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method5()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C846::Method5.12759()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method6<object>()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C846::Method6.MI.12761<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C846::Method7.MI.12763<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass1,class BaseClass1>::ClassMethod3068<object>()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C846::ClassMethod3068.12764<System.Object>()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass1,class BaseClass1>::Method7<object>()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass1,class BaseClass1>::Method6<object>()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C846::Method6.12760<System.Object>()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass1,class BaseClass1>::Method5()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C846::Method5.12759()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass1,class BaseClass1>::Method4()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C846::Method4.12757()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method4()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C846::Method4.MI.12758()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method5()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C846::Method5.12759()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method6<object>()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C846::Method6.MI.12761<System.Object>()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass1,class BaseClass1>::Method7<object>()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C846::Method7.MI.12763<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldstr "========================================================================\n\n"
call void [mscorlib]System.Console::WriteLine(string)
ret
}
.method public hidebysig static int32 Main() cil managed
{
.custom instance void [xunit.core]Xunit.FactAttribute::.ctor() = (
01 00 00 00
)
.entrypoint
.maxstack 10
call void Generated1465::MethodCallingTest()
call void Generated1465::ConstrainedCallsTest()
call void Generated1465::StructConstrainedInterfaceCallsTest()
call void Generated1465::CalliTest()
ldc.i4 100
ret
}
}
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
.assembly extern mscorlib { .publickeytoken = (B7 7A 5C 56 19 34 E0 89 ) .ver 4:0:0:0 }
.assembly extern TestFramework { .publickeytoken = ( B0 3F 5F 7F 11 D5 0A 3A ) }
//TYPES IN FORWARDER ASSEMBLIES:
//TEST ASSEMBLY:
.assembly Generated1465 { .hash algorithm 0x00008004 }
.assembly extern xunit.core {}
.class public BaseClass0
{
.method public hidebysig specialname rtspecialname instance void .ctor() cil managed {
ldarg.0
call instance void [mscorlib]System.Object::.ctor()
ret
}
}
.class public BaseClass1
extends BaseClass0
{
.method public hidebysig specialname rtspecialname instance void .ctor() cil managed {
ldarg.0
call instance void BaseClass0::.ctor()
ret
}
}
.class public G3_C1937`1<T0>
extends class G2_C846`2<class BaseClass1,class BaseClass0>
{
.method public hidebysig newslot virtual instance string ClassMethod5270() cil managed noinlining {
ldstr "G3_C1937::ClassMethod5270.18807()"
ret
}
.method public hidebysig newslot virtual instance string ClassMethod5271<M0>() cil managed noinlining {
ldstr "G3_C1937::ClassMethod5271.18808<"
ldtoken !!M0
call class [mscorlib]System.Type [mscorlib]System.Type::GetTypeFromHandle(valuetype [mscorlib]System.RuntimeTypeHandle)
call string [mscorlib]System.String::Concat(object,object)
ldstr ">()"
call string [mscorlib]System.String::Concat(object,object)
ret
}
.method public hidebysig newslot virtual instance string ClassMethod5272<M0>() cil managed noinlining {
ldstr "G3_C1937::ClassMethod5272.18809<"
ldtoken !!M0
call class [mscorlib]System.Type [mscorlib]System.Type::GetTypeFromHandle(valuetype [mscorlib]System.RuntimeTypeHandle)
call string [mscorlib]System.String::Concat(object,object)
ldstr ">()"
call string [mscorlib]System.String::Concat(object,object)
ret
}
.method public hidebysig newslot virtual instance string 'G2_C846<class BaseClass1,class BaseClass0>.ClassMethod3068'<M0>() cil managed noinlining {
.override method instance string class G2_C846`2<class BaseClass1,class BaseClass0>::ClassMethod3068<[1]>()
ldstr "G3_C1937::ClassMethod3068.MI.18810<"
ldtoken !!M0
call class [mscorlib]System.Type [mscorlib]System.Type::GetTypeFromHandle(valuetype [mscorlib]System.RuntimeTypeHandle)
call string [mscorlib]System.String::Concat(object,object)
ldstr ">()"
call string [mscorlib]System.String::Concat(object,object)
ret
}
.method public hidebysig specialname rtspecialname instance void .ctor() cil managed {
ldarg.0
call instance void class G2_C846`2<class BaseClass1,class BaseClass0>::.ctor()
ret
}
}
.class public G2_C846`2<T0, T1>
extends class G1_C15`2<!T0,class BaseClass0>
implements class IBase1`1<!T0>, class IBase2`2<!T1,!T0>
{
.method public hidebysig virtual instance string Method4() cil managed noinlining {
ldstr "G2_C846::Method4.12757()"
ret
}
.method public hidebysig newslot virtual instance string 'IBase1<T0>.Method4'() cil managed noinlining {
.override method instance string class IBase1`1<!T0>::Method4()
ldstr "G2_C846::Method4.MI.12758()"
ret
}
.method public hidebysig newslot virtual instance string Method5() cil managed noinlining {
ldstr "G2_C846::Method5.12759()"
ret
}
.method public hidebysig newslot virtual instance string Method6<M0>() cil managed noinlining {
ldstr "G2_C846::Method6.12760<"
ldtoken !!M0
call class [mscorlib]System.Type [mscorlib]System.Type::GetTypeFromHandle(valuetype [mscorlib]System.RuntimeTypeHandle)
call string [mscorlib]System.String::Concat(object,object)
ldstr ">()"
call string [mscorlib]System.String::Concat(object,object)
ret
}
.method public hidebysig newslot virtual instance string 'IBase1<T0>.Method6'<M0>() cil managed noinlining {
.override method instance string class IBase1`1<!T0>::Method6<[1]>()
ldstr "G2_C846::Method6.MI.12761<"
ldtoken !!M0
call class [mscorlib]System.Type [mscorlib]System.Type::GetTypeFromHandle(valuetype [mscorlib]System.RuntimeTypeHandle)
call string [mscorlib]System.String::Concat(object,object)
ldstr ">()"
call string [mscorlib]System.String::Concat(object,object)
ret
}
.method public hidebysig virtual instance string Method7<M0>() cil managed noinlining {
ldstr "G2_C846::Method7.12762<"
ldtoken !!M0
call class [mscorlib]System.Type [mscorlib]System.Type::GetTypeFromHandle(valuetype [mscorlib]System.RuntimeTypeHandle)
call string [mscorlib]System.String::Concat(object,object)
ldstr ">()"
call string [mscorlib]System.String::Concat(object,object)
ret
}
.method public hidebysig newslot virtual instance string 'IBase2<T1,T0>.Method7'<M0>() cil managed noinlining {
.override method instance string class IBase2`2<!T1,!T0>::Method7<[1]>()
ldstr "G2_C846::Method7.MI.12763<"
ldtoken !!M0
call class [mscorlib]System.Type [mscorlib]System.Type::GetTypeFromHandle(valuetype [mscorlib]System.RuntimeTypeHandle)
call string [mscorlib]System.String::Concat(object,object)
ldstr ">()"
call string [mscorlib]System.String::Concat(object,object)
ret
}
.method public hidebysig newslot virtual instance string ClassMethod3068<M0>() cil managed noinlining {
ldstr "G2_C846::ClassMethod3068.12764<"
ldtoken !!M0
call class [mscorlib]System.Type [mscorlib]System.Type::GetTypeFromHandle(valuetype [mscorlib]System.RuntimeTypeHandle)
call string [mscorlib]System.String::Concat(object,object)
ldstr ">()"
call string [mscorlib]System.String::Concat(object,object)
ret
}
.method public hidebysig specialname rtspecialname instance void .ctor() cil managed {
ldarg.0
call instance void class G1_C15`2<!T0,class BaseClass0>::.ctor()
ret
}
}
.class public abstract G1_C15`2<T0, T1>
implements class IBase2`2<!T1,!T1>, class IBase1`1<class BaseClass0>
{
.method public hidebysig newslot virtual instance string Method7<M0>() cil managed noinlining {
ldstr "G1_C15::Method7.4885<"
ldtoken !!M0
call class [mscorlib]System.Type [mscorlib]System.Type::GetTypeFromHandle(valuetype [mscorlib]System.RuntimeTypeHandle)
call string [mscorlib]System.String::Concat(object,object)
ldstr ">()"
call string [mscorlib]System.String::Concat(object,object)
ret
}
.method public hidebysig newslot virtual instance string 'IBase2<T1,T1>.Method7'<M0>() cil managed noinlining {
.override method instance string class IBase2`2<!T1,!T1>::Method7<[1]>()
ldstr "G1_C15::Method7.MI.4886<"
ldtoken !!M0
call class [mscorlib]System.Type [mscorlib]System.Type::GetTypeFromHandle(valuetype [mscorlib]System.RuntimeTypeHandle)
call string [mscorlib]System.String::Concat(object,object)
ldstr ">()"
call string [mscorlib]System.String::Concat(object,object)
ret
}
.method public hidebysig virtual instance string Method4() cil managed noinlining {
ldstr "G1_C15::Method4.4887()"
ret
}
.method public hidebysig newslot virtual instance string 'IBase1<class BaseClass0>.Method4'() cil managed noinlining {
.override method instance string class IBase1`1<class BaseClass0>::Method4()
ldstr "G1_C15::Method4.MI.4888()"
ret
}
.method public hidebysig virtual instance string Method5() cil managed noinlining {
ldstr "G1_C15::Method5.4889()"
ret
}
.method public hidebysig newslot virtual instance string 'IBase1<class BaseClass0>.Method5'() cil managed noinlining {
.override method instance string class IBase1`1<class BaseClass0>::Method5()
ldstr "G1_C15::Method5.MI.4890()"
ret
}
.method public hidebysig virtual instance string Method6<M0>() cil managed noinlining {
ldstr "G1_C15::Method6.4891<"
ldtoken !!M0
call class [mscorlib]System.Type [mscorlib]System.Type::GetTypeFromHandle(valuetype [mscorlib]System.RuntimeTypeHandle)
call string [mscorlib]System.String::Concat(object,object)
ldstr ">()"
call string [mscorlib]System.String::Concat(object,object)
ret
}
.method public hidebysig newslot virtual instance string 'IBase1<class BaseClass0>.Method6'<M0>() cil managed noinlining {
.override method instance string class IBase1`1<class BaseClass0>::Method6<[1]>()
ldstr "G1_C15::Method6.MI.4892<"
ldtoken !!M0
call class [mscorlib]System.Type [mscorlib]System.Type::GetTypeFromHandle(valuetype [mscorlib]System.RuntimeTypeHandle)
call string [mscorlib]System.String::Concat(object,object)
ldstr ">()"
call string [mscorlib]System.String::Concat(object,object)
ret
}
.method public hidebysig specialname rtspecialname instance void .ctor() cil managed {
ldarg.0
call instance void [mscorlib]System.Object::.ctor()
ret
}
}
.class interface public abstract IBase1`1<+T0>
{
.method public hidebysig newslot abstract virtual instance string Method4() cil managed { }
.method public hidebysig newslot abstract virtual instance string Method5() cil managed { }
.method public hidebysig newslot abstract virtual instance string Method6<M0>() cil managed { }
}
.class interface public abstract IBase2`2<+T0, -T1>
{
.method public hidebysig newslot abstract virtual instance string Method7<M0>() cil managed { }
}
.class public auto ansi beforefieldinit Generated1465 {
.method static void M.BaseClass0<(BaseClass0)W>(!!W inst, string exp) cil managed {
.maxstack 5
.locals init (string[] actualResults)
ldc.i4.s 0
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.BaseClass0<(BaseClass0)W>(!!W inst, string exp)"
ldc.i4.s 0
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.BaseClass1<(BaseClass1)W>(!!W inst, string exp) cil managed {
.maxstack 5
.locals init (string[] actualResults)
ldc.i4.s 0
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.BaseClass1<(BaseClass1)W>(!!W inst, string exp)"
ldc.i4.s 0
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G3_C1937.T<T0,(class G3_C1937`1<!!T0>)W>(!!W 'inst', string exp) cil managed {
.maxstack 13
.locals init (string[] actualResults)
ldc.i4.s 8
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G3_C1937.T<T0,(class G3_C1937`1<!!T0>)W>(!!W 'inst', string exp)"
ldc.i4.s 8
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1937`1<!!T0>::ClassMethod3068<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1937`1<!!T0>::ClassMethod5270()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1937`1<!!T0>::ClassMethod5271<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1937`1<!!T0>::ClassMethod5272<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 4
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1937`1<!!T0>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 5
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1937`1<!!T0>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 6
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1937`1<!!T0>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 7
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1937`1<!!T0>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G3_C1937.A<(class G3_C1937`1<class BaseClass0>)W>(!!W 'inst', string exp) cil managed {
.maxstack 13
.locals init (string[] actualResults)
ldc.i4.s 8
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G3_C1937.A<(class G3_C1937`1<class BaseClass0>)W>(!!W 'inst', string exp)"
ldc.i4.s 8
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1937`1<class BaseClass0>::ClassMethod3068<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1937`1<class BaseClass0>::ClassMethod5270()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1937`1<class BaseClass0>::ClassMethod5271<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1937`1<class BaseClass0>::ClassMethod5272<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 4
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1937`1<class BaseClass0>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 5
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1937`1<class BaseClass0>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 6
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1937`1<class BaseClass0>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 7
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1937`1<class BaseClass0>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G3_C1937.B<(class G3_C1937`1<class BaseClass1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 13
.locals init (string[] actualResults)
ldc.i4.s 8
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G3_C1937.B<(class G3_C1937`1<class BaseClass1>)W>(!!W 'inst', string exp)"
ldc.i4.s 8
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1937`1<class BaseClass1>::ClassMethod3068<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1937`1<class BaseClass1>::ClassMethod5270()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1937`1<class BaseClass1>::ClassMethod5271<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1937`1<class BaseClass1>::ClassMethod5272<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 4
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1937`1<class BaseClass1>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 5
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1937`1<class BaseClass1>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 6
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1937`1<class BaseClass1>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 7
ldarga.s 0
constrained. !!W
callvirt instance string class G3_C1937`1<class BaseClass1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G2_C846.T.T<T0,T1,(class G2_C846`2<!!T0,!!T1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 10
.locals init (string[] actualResults)
ldc.i4.s 5
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G2_C846.T.T<T0,T1,(class G2_C846`2<!!T0,!!T1>)W>(!!W 'inst', string exp)"
ldc.i4.s 5
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<!!T0,!!T1>::ClassMethod3068<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<!!T0,!!T1>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<!!T0,!!T1>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<!!T0,!!T1>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 4
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<!!T0,!!T1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G2_C846.A.T<T1,(class G2_C846`2<class BaseClass0,!!T1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 10
.locals init (string[] actualResults)
ldc.i4.s 5
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G2_C846.A.T<T1,(class G2_C846`2<class BaseClass0,!!T1>)W>(!!W 'inst', string exp)"
ldc.i4.s 5
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass0,!!T1>::ClassMethod3068<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass0,!!T1>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass0,!!T1>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass0,!!T1>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 4
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass0,!!T1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G2_C846.A.A<(class G2_C846`2<class BaseClass0,class BaseClass0>)W>(!!W 'inst', string exp) cil managed {
.maxstack 10
.locals init (string[] actualResults)
ldc.i4.s 5
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G2_C846.A.A<(class G2_C846`2<class BaseClass0,class BaseClass0>)W>(!!W 'inst', string exp)"
ldc.i4.s 5
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass0,class BaseClass0>::ClassMethod3068<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass0,class BaseClass0>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass0,class BaseClass0>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass0,class BaseClass0>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 4
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass0,class BaseClass0>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G2_C846.A.B<(class G2_C846`2<class BaseClass0,class BaseClass1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 10
.locals init (string[] actualResults)
ldc.i4.s 5
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G2_C846.A.B<(class G2_C846`2<class BaseClass0,class BaseClass1>)W>(!!W 'inst', string exp)"
ldc.i4.s 5
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass0,class BaseClass1>::ClassMethod3068<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass0,class BaseClass1>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass0,class BaseClass1>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass0,class BaseClass1>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 4
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass0,class BaseClass1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G2_C846.B.T<T1,(class G2_C846`2<class BaseClass1,!!T1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 10
.locals init (string[] actualResults)
ldc.i4.s 5
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G2_C846.B.T<T1,(class G2_C846`2<class BaseClass1,!!T1>)W>(!!W 'inst', string exp)"
ldc.i4.s 5
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass1,!!T1>::ClassMethod3068<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass1,!!T1>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass1,!!T1>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass1,!!T1>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 4
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass1,!!T1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G2_C846.B.A<(class G2_C846`2<class BaseClass1,class BaseClass0>)W>(!!W 'inst', string exp) cil managed {
.maxstack 10
.locals init (string[] actualResults)
ldc.i4.s 5
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G2_C846.B.A<(class G2_C846`2<class BaseClass1,class BaseClass0>)W>(!!W 'inst', string exp)"
ldc.i4.s 5
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass0>::ClassMethod3068<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 4
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G2_C846.B.B<(class G2_C846`2<class BaseClass1,class BaseClass1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 10
.locals init (string[] actualResults)
ldc.i4.s 5
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G2_C846.B.B<(class G2_C846`2<class BaseClass1,class BaseClass1>)W>(!!W 'inst', string exp)"
ldc.i4.s 5
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass1>::ClassMethod3068<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass1>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass1>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass1>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 4
ldarga.s 0
constrained. !!W
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G1_C15.T.T<T0,T1,(class G1_C15`2<!!T0,!!T1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 9
.locals init (string[] actualResults)
ldc.i4.s 4
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G1_C15.T.T<T0,T1,(class G1_C15`2<!!T0,!!T1>)W>(!!W 'inst', string exp)"
ldc.i4.s 4
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<!!T0,!!T1>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<!!T0,!!T1>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<!!T0,!!T1>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<!!T0,!!T1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G1_C15.A.T<T1,(class G1_C15`2<class BaseClass0,!!T1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 9
.locals init (string[] actualResults)
ldc.i4.s 4
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G1_C15.A.T<T1,(class G1_C15`2<class BaseClass0,!!T1>)W>(!!W 'inst', string exp)"
ldc.i4.s 4
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<class BaseClass0,!!T1>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<class BaseClass0,!!T1>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<class BaseClass0,!!T1>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<class BaseClass0,!!T1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G1_C15.A.A<(class G1_C15`2<class BaseClass0,class BaseClass0>)W>(!!W 'inst', string exp) cil managed {
.maxstack 9
.locals init (string[] actualResults)
ldc.i4.s 4
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G1_C15.A.A<(class G1_C15`2<class BaseClass0,class BaseClass0>)W>(!!W 'inst', string exp)"
ldc.i4.s 4
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<class BaseClass0,class BaseClass0>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<class BaseClass0,class BaseClass0>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<class BaseClass0,class BaseClass0>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<class BaseClass0,class BaseClass0>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G1_C15.A.B<(class G1_C15`2<class BaseClass0,class BaseClass1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 9
.locals init (string[] actualResults)
ldc.i4.s 4
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G1_C15.A.B<(class G1_C15`2<class BaseClass0,class BaseClass1>)W>(!!W 'inst', string exp)"
ldc.i4.s 4
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<class BaseClass0,class BaseClass1>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<class BaseClass0,class BaseClass1>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<class BaseClass0,class BaseClass1>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<class BaseClass0,class BaseClass1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G1_C15.B.T<T1,(class G1_C15`2<class BaseClass1,!!T1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 9
.locals init (string[] actualResults)
ldc.i4.s 4
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G1_C15.B.T<T1,(class G1_C15`2<class BaseClass1,!!T1>)W>(!!W 'inst', string exp)"
ldc.i4.s 4
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<class BaseClass1,!!T1>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<class BaseClass1,!!T1>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<class BaseClass1,!!T1>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<class BaseClass1,!!T1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G1_C15.B.A<(class G1_C15`2<class BaseClass1,class BaseClass0>)W>(!!W 'inst', string exp) cil managed {
.maxstack 9
.locals init (string[] actualResults)
ldc.i4.s 4
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G1_C15.B.A<(class G1_C15`2<class BaseClass1,class BaseClass0>)W>(!!W 'inst', string exp)"
ldc.i4.s 4
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.G1_C15.B.B<(class G1_C15`2<class BaseClass1,class BaseClass1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 9
.locals init (string[] actualResults)
ldc.i4.s 4
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.G1_C15.B.B<(class G1_C15`2<class BaseClass1,class BaseClass1>)W>(!!W 'inst', string exp)"
ldc.i4.s 4
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<class BaseClass1,class BaseClass1>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<class BaseClass1,class BaseClass1>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<class BaseClass1,class BaseClass1>::Method6<object>()
stelem.ref
ldloc.s actualResults
ldc.i4.s 3
ldarga.s 0
constrained. !!W
callvirt instance string class G1_C15`2<class BaseClass1,class BaseClass1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.IBase1.T<T0,(class IBase1`1<!!T0>)W>(!!W 'inst', string exp) cil managed {
.maxstack 8
.locals init (string[] actualResults)
ldc.i4.s 3
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.IBase1.T<T0,(class IBase1`1<!!T0>)W>(!!W 'inst', string exp)"
ldc.i4.s 3
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class IBase1`1<!!T0>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class IBase1`1<!!T0>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class IBase1`1<!!T0>::Method6<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.IBase1.A<(class IBase1`1<class BaseClass0>)W>(!!W 'inst', string exp) cil managed {
.maxstack 8
.locals init (string[] actualResults)
ldc.i4.s 3
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.IBase1.A<(class IBase1`1<class BaseClass0>)W>(!!W 'inst', string exp)"
ldc.i4.s 3
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class IBase1`1<class BaseClass0>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class IBase1`1<class BaseClass0>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class IBase1`1<class BaseClass0>::Method6<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.IBase1.B<(class IBase1`1<class BaseClass1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 8
.locals init (string[] actualResults)
ldc.i4.s 3
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.IBase1.B<(class IBase1`1<class BaseClass1>)W>(!!W 'inst', string exp)"
ldc.i4.s 3
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class IBase1`1<class BaseClass1>::Method4()
stelem.ref
ldloc.s actualResults
ldc.i4.s 1
ldarga.s 0
constrained. !!W
callvirt instance string class IBase1`1<class BaseClass1>::Method5()
stelem.ref
ldloc.s actualResults
ldc.i4.s 2
ldarga.s 0
constrained. !!W
callvirt instance string class IBase1`1<class BaseClass1>::Method6<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.IBase2.T.T<T0,T1,(class IBase2`2<!!T0,!!T1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 6
.locals init (string[] actualResults)
ldc.i4.s 1
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.IBase2.T.T<T0,T1,(class IBase2`2<!!T0,!!T1>)W>(!!W 'inst', string exp)"
ldc.i4.s 1
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class IBase2`2<!!T0,!!T1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.IBase2.A.T<T1,(class IBase2`2<class BaseClass0,!!T1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 6
.locals init (string[] actualResults)
ldc.i4.s 1
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.IBase2.A.T<T1,(class IBase2`2<class BaseClass0,!!T1>)W>(!!W 'inst', string exp)"
ldc.i4.s 1
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class IBase2`2<class BaseClass0,!!T1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.IBase2.A.A<(class IBase2`2<class BaseClass0,class BaseClass0>)W>(!!W 'inst', string exp) cil managed {
.maxstack 6
.locals init (string[] actualResults)
ldc.i4.s 1
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.IBase2.A.A<(class IBase2`2<class BaseClass0,class BaseClass0>)W>(!!W 'inst', string exp)"
ldc.i4.s 1
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.IBase2.A.B<(class IBase2`2<class BaseClass0,class BaseClass1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 6
.locals init (string[] actualResults)
ldc.i4.s 1
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.IBase2.A.B<(class IBase2`2<class BaseClass0,class BaseClass1>)W>(!!W 'inst', string exp)"
ldc.i4.s 1
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.IBase2.B.T<T1,(class IBase2`2<class BaseClass1,!!T1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 6
.locals init (string[] actualResults)
ldc.i4.s 1
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.IBase2.B.T<T1,(class IBase2`2<class BaseClass1,!!T1>)W>(!!W 'inst', string exp)"
ldc.i4.s 1
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class IBase2`2<class BaseClass1,!!T1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.IBase2.B.A<(class IBase2`2<class BaseClass1,class BaseClass0>)W>(!!W 'inst', string exp) cil managed {
.maxstack 6
.locals init (string[] actualResults)
ldc.i4.s 1
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.IBase2.B.A<(class IBase2`2<class BaseClass1,class BaseClass0>)W>(!!W 'inst', string exp)"
ldc.i4.s 1
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class IBase2`2<class BaseClass1,class BaseClass0>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method static void M.IBase2.B.B<(class IBase2`2<class BaseClass1,class BaseClass1>)W>(!!W 'inst', string exp) cil managed {
.maxstack 6
.locals init (string[] actualResults)
ldc.i4.s 1
newarr string
stloc.s actualResults
ldarg.1
ldstr "M.IBase2.B.B<(class IBase2`2<class BaseClass1,class BaseClass1>)W>(!!W 'inst', string exp)"
ldc.i4.s 1
ldloc.s actualResults
ldc.i4.s 0
ldarga.s 0
constrained. !!W
callvirt instance string class IBase2`2<class BaseClass1,class BaseClass1>::Method7<object>()
stelem.ref
ldloc.s actualResults
call void [TestFramework]TestFramework::MethodCallTest(string,string,int32,string[])
ret
}
.method public hidebysig static void MethodCallingTest() cil managed
{
.maxstack 10
.locals init (object V_0)
ldstr "========================== Method Calling Test =========================="
call void [mscorlib]System.Console::WriteLine(string)
newobj instance void class G3_C1937`1<class BaseClass0>::.ctor()
stloc.0
ldloc.0
dup
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
callvirt instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method6<object>()
ldstr "G1_C15::Method6.4891<System.Object>()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
callvirt instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method5()
ldstr "G1_C15::Method5.4889()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
callvirt instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method4()
ldstr "G2_C846::Method4.12757()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
callvirt instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method7<object>()
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
ldstr "G1_C15::Method7.MI.4886<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method4()
ldstr "G2_C846::Method4.MI.12758()"
ldstr "class IBase1`1<class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method5()
ldstr "G2_C846::Method5.12759()"
ldstr "class IBase1`1<class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method6<object>()
ldstr "G2_C846::Method6.MI.12761<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
ldstr "G2_C846::Method7.MI.12763<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass0>::ClassMethod3068<object>()
ldstr "G3_C1937::ClassMethod3068.MI.18810<System.Object>()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method7<object>()
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method6<object>()
ldstr "G2_C846::Method6.12760<System.Object>()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method5()
ldstr "G2_C846::Method5.12759()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method4()
ldstr "G2_C846::Method4.12757()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method4()
ldstr "G2_C846::Method4.MI.12758()"
ldstr "class IBase1`1<class BaseClass1> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method5()
ldstr "G2_C846::Method5.12759()"
ldstr "class IBase1`1<class BaseClass1> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method6<object>()
ldstr "G2_C846::Method6.MI.12761<System.Object>()"
ldstr "class IBase1`1<class BaseClass1> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
castclass class G3_C1937`1<class BaseClass0>
callvirt instance string class G3_C1937`1<class BaseClass0>::ClassMethod5272<object>()
ldstr "G3_C1937::ClassMethod5272.18809<System.Object>()"
ldstr "class G3_C1937`1<class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1937`1<class BaseClass0>
callvirt instance string class G3_C1937`1<class BaseClass0>::ClassMethod5271<object>()
ldstr "G3_C1937::ClassMethod5271.18808<System.Object>()"
ldstr "class G3_C1937`1<class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1937`1<class BaseClass0>
callvirt instance string class G3_C1937`1<class BaseClass0>::ClassMethod5270()
ldstr "G3_C1937::ClassMethod5270.18807()"
ldstr "class G3_C1937`1<class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1937`1<class BaseClass0>
callvirt instance string class G3_C1937`1<class BaseClass0>::ClassMethod3068<object>()
ldstr "G3_C1937::ClassMethod3068.MI.18810<System.Object>()"
ldstr "class G3_C1937`1<class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1937`1<class BaseClass0>
callvirt instance string class G3_C1937`1<class BaseClass0>::Method7<object>()
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G3_C1937`1<class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1937`1<class BaseClass0>
callvirt instance string class G3_C1937`1<class BaseClass0>::Method6<object>()
ldstr "G2_C846::Method6.12760<System.Object>()"
ldstr "class G3_C1937`1<class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1937`1<class BaseClass0>
callvirt instance string class G3_C1937`1<class BaseClass0>::Method5()
ldstr "G2_C846::Method5.12759()"
ldstr "class G3_C1937`1<class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1937`1<class BaseClass0>
callvirt instance string class G3_C1937`1<class BaseClass0>::Method4()
ldstr "G2_C846::Method4.12757()"
ldstr "class G3_C1937`1<class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
newobj instance void class G3_C1937`1<class BaseClass1>::.ctor()
stloc.0
ldloc.0
dup
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
callvirt instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method6<object>()
ldstr "G1_C15::Method6.4891<System.Object>()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
callvirt instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method5()
ldstr "G1_C15::Method5.4889()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
callvirt instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method4()
ldstr "G2_C846::Method4.12757()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
callvirt instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method7<object>()
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
ldstr "G1_C15::Method7.MI.4886<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method4()
ldstr "G2_C846::Method4.MI.12758()"
ldstr "class IBase1`1<class BaseClass0> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method5()
ldstr "G2_C846::Method5.12759()"
ldstr "class IBase1`1<class BaseClass0> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method6<object>()
ldstr "G2_C846::Method6.MI.12761<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
ldstr "G2_C846::Method7.MI.12763<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass0>::ClassMethod3068<object>()
ldstr "G3_C1937::ClassMethod3068.MI.18810<System.Object>()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method7<object>()
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method6<object>()
ldstr "G2_C846::Method6.12760<System.Object>()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method5()
ldstr "G2_C846::Method5.12759()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method4()
ldstr "G2_C846::Method4.12757()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method4()
ldstr "G2_C846::Method4.MI.12758()"
ldstr "class IBase1`1<class BaseClass1> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method5()
ldstr "G2_C846::Method5.12759()"
ldstr "class IBase1`1<class BaseClass1> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method6<object>()
ldstr "G2_C846::Method6.MI.12761<System.Object>()"
ldstr "class IBase1`1<class BaseClass1> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
castclass class G3_C1937`1<class BaseClass1>
callvirt instance string class G3_C1937`1<class BaseClass1>::ClassMethod5272<object>()
ldstr "G3_C1937::ClassMethod5272.18809<System.Object>()"
ldstr "class G3_C1937`1<class BaseClass1> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1937`1<class BaseClass1>
callvirt instance string class G3_C1937`1<class BaseClass1>::ClassMethod5271<object>()
ldstr "G3_C1937::ClassMethod5271.18808<System.Object>()"
ldstr "class G3_C1937`1<class BaseClass1> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1937`1<class BaseClass1>
callvirt instance string class G3_C1937`1<class BaseClass1>::ClassMethod5270()
ldstr "G3_C1937::ClassMethod5270.18807()"
ldstr "class G3_C1937`1<class BaseClass1> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1937`1<class BaseClass1>
callvirt instance string class G3_C1937`1<class BaseClass1>::ClassMethod3068<object>()
ldstr "G3_C1937::ClassMethod3068.MI.18810<System.Object>()"
ldstr "class G3_C1937`1<class BaseClass1> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1937`1<class BaseClass1>
callvirt instance string class G3_C1937`1<class BaseClass1>::Method7<object>()
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G3_C1937`1<class BaseClass1> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1937`1<class BaseClass1>
callvirt instance string class G3_C1937`1<class BaseClass1>::Method6<object>()
ldstr "G2_C846::Method6.12760<System.Object>()"
ldstr "class G3_C1937`1<class BaseClass1> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1937`1<class BaseClass1>
callvirt instance string class G3_C1937`1<class BaseClass1>::Method5()
ldstr "G2_C846::Method5.12759()"
ldstr "class G3_C1937`1<class BaseClass1> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G3_C1937`1<class BaseClass1>
callvirt instance string class G3_C1937`1<class BaseClass1>::Method4()
ldstr "G2_C846::Method4.12757()"
ldstr "class G3_C1937`1<class BaseClass1> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
newobj instance void class G2_C846`2<class BaseClass0,class BaseClass0>::.ctor()
stloc.0
ldloc.0
dup
castclass class G1_C15`2<class BaseClass0,class BaseClass0>
callvirt instance string class G1_C15`2<class BaseClass0,class BaseClass0>::Method6<object>()
ldstr "G1_C15::Method6.4891<System.Object>()"
ldstr "class G1_C15`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C15`2<class BaseClass0,class BaseClass0>
callvirt instance string class G1_C15`2<class BaseClass0,class BaseClass0>::Method5()
ldstr "G1_C15::Method5.4889()"
ldstr "class G1_C15`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C15`2<class BaseClass0,class BaseClass0>
callvirt instance string class G1_C15`2<class BaseClass0,class BaseClass0>::Method4()
ldstr "G2_C846::Method4.12757()"
ldstr "class G1_C15`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C15`2<class BaseClass0,class BaseClass0>
callvirt instance string class G1_C15`2<class BaseClass0,class BaseClass0>::Method7<object>()
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G1_C15`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
ldstr "G2_C846::Method7.MI.12763<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method4()
ldstr "G2_C846::Method4.MI.12758()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method5()
ldstr "G2_C846::Method5.12759()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method6<object>()
ldstr "G2_C846::Method6.MI.12761<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
ldstr "G2_C846::Method7.MI.12763<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
castclass class G2_C846`2<class BaseClass0,class BaseClass0>
callvirt instance string class G2_C846`2<class BaseClass0,class BaseClass0>::ClassMethod3068<object>()
ldstr "G2_C846::ClassMethod3068.12764<System.Object>()"
ldstr "class G2_C846`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C846`2<class BaseClass0,class BaseClass0>
callvirt instance string class G2_C846`2<class BaseClass0,class BaseClass0>::Method7<object>()
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G2_C846`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C846`2<class BaseClass0,class BaseClass0>
callvirt instance string class G2_C846`2<class BaseClass0,class BaseClass0>::Method6<object>()
ldstr "G2_C846::Method6.12760<System.Object>()"
ldstr "class G2_C846`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C846`2<class BaseClass0,class BaseClass0>
callvirt instance string class G2_C846`2<class BaseClass0,class BaseClass0>::Method5()
ldstr "G2_C846::Method5.12759()"
ldstr "class G2_C846`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C846`2<class BaseClass0,class BaseClass0>
callvirt instance string class G2_C846`2<class BaseClass0,class BaseClass0>::Method4()
ldstr "G2_C846::Method4.12757()"
ldstr "class G2_C846`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
newobj instance void class G2_C846`2<class BaseClass0,class BaseClass1>::.ctor()
stloc.0
ldloc.0
dup
castclass class G1_C15`2<class BaseClass0,class BaseClass0>
callvirt instance string class G1_C15`2<class BaseClass0,class BaseClass0>::Method6<object>()
ldstr "G1_C15::Method6.4891<System.Object>()"
ldstr "class G1_C15`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C15`2<class BaseClass0,class BaseClass0>
callvirt instance string class G1_C15`2<class BaseClass0,class BaseClass0>::Method5()
ldstr "G1_C15::Method5.4889()"
ldstr "class G1_C15`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C15`2<class BaseClass0,class BaseClass0>
callvirt instance string class G1_C15`2<class BaseClass0,class BaseClass0>::Method4()
ldstr "G2_C846::Method4.12757()"
ldstr "class G1_C15`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C15`2<class BaseClass0,class BaseClass0>
callvirt instance string class G1_C15`2<class BaseClass0,class BaseClass0>::Method7<object>()
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G1_C15`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
ldstr "G2_C846::Method7.MI.12763<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method4()
ldstr "G2_C846::Method4.MI.12758()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method5()
ldstr "G2_C846::Method5.12759()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method6<object>()
ldstr "G2_C846::Method6.MI.12761<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
ldstr "G2_C846::Method7.MI.12763<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
castclass class G2_C846`2<class BaseClass0,class BaseClass1>
callvirt instance string class G2_C846`2<class BaseClass0,class BaseClass1>::ClassMethod3068<object>()
ldstr "G2_C846::ClassMethod3068.12764<System.Object>()"
ldstr "class G2_C846`2<class BaseClass0,class BaseClass1> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C846`2<class BaseClass0,class BaseClass1>
callvirt instance string class G2_C846`2<class BaseClass0,class BaseClass1>::Method7<object>()
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G2_C846`2<class BaseClass0,class BaseClass1> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C846`2<class BaseClass0,class BaseClass1>
callvirt instance string class G2_C846`2<class BaseClass0,class BaseClass1>::Method6<object>()
ldstr "G2_C846::Method6.12760<System.Object>()"
ldstr "class G2_C846`2<class BaseClass0,class BaseClass1> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C846`2<class BaseClass0,class BaseClass1>
callvirt instance string class G2_C846`2<class BaseClass0,class BaseClass1>::Method5()
ldstr "G2_C846::Method5.12759()"
ldstr "class G2_C846`2<class BaseClass0,class BaseClass1> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C846`2<class BaseClass0,class BaseClass1>
callvirt instance string class G2_C846`2<class BaseClass0,class BaseClass1>::Method4()
ldstr "G2_C846::Method4.12757()"
ldstr "class G2_C846`2<class BaseClass0,class BaseClass1> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass1,class BaseClass0>::Method7<object>()
ldstr "G2_C846::Method7.MI.12763<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass1,class BaseClass1>::Method7<object>()
ldstr "G2_C846::Method7.MI.12763<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass1> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
newobj instance void class G2_C846`2<class BaseClass1,class BaseClass0>::.ctor()
stloc.0
ldloc.0
dup
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
callvirt instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method6<object>()
ldstr "G1_C15::Method6.4891<System.Object>()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
callvirt instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method5()
ldstr "G1_C15::Method5.4889()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
callvirt instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method4()
ldstr "G2_C846::Method4.12757()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
callvirt instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method7<object>()
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
ldstr "G1_C15::Method7.MI.4886<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method4()
ldstr "G2_C846::Method4.MI.12758()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method5()
ldstr "G2_C846::Method5.12759()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method6<object>()
ldstr "G2_C846::Method6.MI.12761<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
ldstr "G2_C846::Method7.MI.12763<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass0>::ClassMethod3068<object>()
ldstr "G2_C846::ClassMethod3068.12764<System.Object>()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method7<object>()
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method6<object>()
ldstr "G2_C846::Method6.12760<System.Object>()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method5()
ldstr "G2_C846::Method5.12759()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method4()
ldstr "G2_C846::Method4.12757()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method4()
ldstr "G2_C846::Method4.MI.12758()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method5()
ldstr "G2_C846::Method5.12759()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method6<object>()
ldstr "G2_C846::Method6.MI.12761<System.Object>()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
newobj instance void class G2_C846`2<class BaseClass1,class BaseClass1>::.ctor()
stloc.0
ldloc.0
dup
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
callvirt instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method6<object>()
ldstr "G1_C15::Method6.4891<System.Object>()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
callvirt instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method5()
ldstr "G1_C15::Method5.4889()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
callvirt instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method4()
ldstr "G2_C846::Method4.12757()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
callvirt instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method7<object>()
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
ldstr "G1_C15::Method7.MI.4886<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method4()
ldstr "G2_C846::Method4.MI.12758()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method5()
ldstr "G2_C846::Method5.12759()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass0>::Method6<object>()
ldstr "G2_C846::Method6.MI.12761<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
ldstr "G2_C846::Method7.MI.12763<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
castclass class G2_C846`2<class BaseClass1,class BaseClass1>
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass1>::ClassMethod3068<object>()
ldstr "G2_C846::ClassMethod3068.12764<System.Object>()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C846`2<class BaseClass1,class BaseClass1>
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass1>::Method7<object>()
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C846`2<class BaseClass1,class BaseClass1>
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass1>::Method6<object>()
ldstr "G2_C846::Method6.12760<System.Object>()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C846`2<class BaseClass1,class BaseClass1>
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass1>::Method5()
ldstr "G2_C846::Method5.12759()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
castclass class G2_C846`2<class BaseClass1,class BaseClass1>
callvirt instance string class G2_C846`2<class BaseClass1,class BaseClass1>::Method4()
ldstr "G2_C846::Method4.12757()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method4()
ldstr "G2_C846::Method4.MI.12758()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method5()
ldstr "G2_C846::Method5.12759()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
dup
callvirt instance string class IBase1`1<class BaseClass1>::Method6<object>()
ldstr "G2_C846::Method6.MI.12761<System.Object>()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldloc.0
dup
callvirt instance string class IBase2`2<class BaseClass1,class BaseClass1>::Method7<object>()
ldstr "G2_C846::Method7.MI.12763<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
pop
ldstr "========================================================================\n\n"
call void [mscorlib]System.Console::WriteLine(string)
ret
}
.method public hidebysig static void ConstrainedCallsTest() cil managed
{
.maxstack 10
.locals init (object V_0)
ldstr "========================== Constrained Calls Test =========================="
call void [mscorlib]System.Console::WriteLine(string)
newobj instance void class G3_C1937`1<class BaseClass0>::.ctor()
stloc.0
ldloc.0
ldstr "G2_C846::Method4.12757()#G1_C15::Method5.4889()#G1_C15::Method6.4891<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G1_C15.T.T<class BaseClass1,class BaseClass0,class G3_C1937`1<class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G2_C846::Method4.12757()#G1_C15::Method5.4889()#G1_C15::Method6.4891<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G1_C15.B.T<class BaseClass0,class G3_C1937`1<class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C846::Method4.12757()#G1_C15::Method5.4889()#G1_C15::Method6.4891<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G1_C15.B.A<class G3_C1937`1<class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G1_C15::Method7.MI.4886<System.Object>()#"
call void Generated1465::M.IBase2.T.T<class BaseClass0,class BaseClass0,class G3_C1937`1<class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G1_C15::Method7.MI.4886<System.Object>()#"
call void Generated1465::M.IBase2.A.T<class BaseClass0,class G3_C1937`1<class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G1_C15::Method7.MI.4886<System.Object>()#"
call void Generated1465::M.IBase2.A.A<class G3_C1937`1<class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G2_C846::Method4.MI.12758()#G2_C846::Method5.12759()#G2_C846::Method6.MI.12761<System.Object>()#"
call void Generated1465::M.IBase1.T<class BaseClass0,class G3_C1937`1<class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C846::Method4.MI.12758()#G2_C846::Method5.12759()#G2_C846::Method6.MI.12761<System.Object>()#"
call void Generated1465::M.IBase1.A<class G3_C1937`1<class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.T.T<class BaseClass0,class BaseClass1,class G3_C1937`1<class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.A.T<class BaseClass1,class G3_C1937`1<class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.A.B<class G3_C1937`1<class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G3_C1937::ClassMethod3068.MI.18810<System.Object>()#G2_C846::Method4.12757()#G2_C846::Method5.12759()#G2_C846::Method6.12760<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G2_C846.T.T<class BaseClass1,class BaseClass0,class G3_C1937`1<class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G3_C1937::ClassMethod3068.MI.18810<System.Object>()#G2_C846::Method4.12757()#G2_C846::Method5.12759()#G2_C846::Method6.12760<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G2_C846.B.T<class BaseClass0,class G3_C1937`1<class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G3_C1937::ClassMethod3068.MI.18810<System.Object>()#G2_C846::Method4.12757()#G2_C846::Method5.12759()#G2_C846::Method6.12760<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G2_C846.B.A<class G3_C1937`1<class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G2_C846::Method4.MI.12758()#G2_C846::Method5.12759()#G2_C846::Method6.MI.12761<System.Object>()#"
call void Generated1465::M.IBase1.T<class BaseClass1,class G3_C1937`1<class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C846::Method4.MI.12758()#G2_C846::Method5.12759()#G2_C846::Method6.MI.12761<System.Object>()#"
call void Generated1465::M.IBase1.B<class G3_C1937`1<class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G3_C1937::ClassMethod3068.MI.18810<System.Object>()#G3_C1937::ClassMethod5270.18807()#G3_C1937::ClassMethod5271.18808<System.Object>()#G3_C1937::ClassMethod5272.18809<System.Object>()#G2_C846::Method4.12757()#G2_C846::Method5.12759()#G2_C846::Method6.12760<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G3_C1937.T<class BaseClass0,class G3_C1937`1<class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G3_C1937::ClassMethod3068.MI.18810<System.Object>()#G3_C1937::ClassMethod5270.18807()#G3_C1937::ClassMethod5271.18808<System.Object>()#G3_C1937::ClassMethod5272.18809<System.Object>()#G2_C846::Method4.12757()#G2_C846::Method5.12759()#G2_C846::Method6.12760<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G3_C1937.A<class G3_C1937`1<class BaseClass0>>(!!0,string)
newobj instance void class G3_C1937`1<class BaseClass1>::.ctor()
stloc.0
ldloc.0
ldstr "G2_C846::Method4.12757()#G1_C15::Method5.4889()#G1_C15::Method6.4891<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G1_C15.T.T<class BaseClass1,class BaseClass0,class G3_C1937`1<class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G2_C846::Method4.12757()#G1_C15::Method5.4889()#G1_C15::Method6.4891<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G1_C15.B.T<class BaseClass0,class G3_C1937`1<class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C846::Method4.12757()#G1_C15::Method5.4889()#G1_C15::Method6.4891<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G1_C15.B.A<class G3_C1937`1<class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G1_C15::Method7.MI.4886<System.Object>()#"
call void Generated1465::M.IBase2.T.T<class BaseClass0,class BaseClass0,class G3_C1937`1<class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G1_C15::Method7.MI.4886<System.Object>()#"
call void Generated1465::M.IBase2.A.T<class BaseClass0,class G3_C1937`1<class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G1_C15::Method7.MI.4886<System.Object>()#"
call void Generated1465::M.IBase2.A.A<class G3_C1937`1<class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C846::Method4.MI.12758()#G2_C846::Method5.12759()#G2_C846::Method6.MI.12761<System.Object>()#"
call void Generated1465::M.IBase1.T<class BaseClass0,class G3_C1937`1<class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C846::Method4.MI.12758()#G2_C846::Method5.12759()#G2_C846::Method6.MI.12761<System.Object>()#"
call void Generated1465::M.IBase1.A<class G3_C1937`1<class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.T.T<class BaseClass0,class BaseClass1,class G3_C1937`1<class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.A.T<class BaseClass1,class G3_C1937`1<class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.A.B<class G3_C1937`1<class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G3_C1937::ClassMethod3068.MI.18810<System.Object>()#G2_C846::Method4.12757()#G2_C846::Method5.12759()#G2_C846::Method6.12760<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G2_C846.T.T<class BaseClass1,class BaseClass0,class G3_C1937`1<class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G3_C1937::ClassMethod3068.MI.18810<System.Object>()#G2_C846::Method4.12757()#G2_C846::Method5.12759()#G2_C846::Method6.12760<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G2_C846.B.T<class BaseClass0,class G3_C1937`1<class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G3_C1937::ClassMethod3068.MI.18810<System.Object>()#G2_C846::Method4.12757()#G2_C846::Method5.12759()#G2_C846::Method6.12760<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G2_C846.B.A<class G3_C1937`1<class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C846::Method4.MI.12758()#G2_C846::Method5.12759()#G2_C846::Method6.MI.12761<System.Object>()#"
call void Generated1465::M.IBase1.T<class BaseClass1,class G3_C1937`1<class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C846::Method4.MI.12758()#G2_C846::Method5.12759()#G2_C846::Method6.MI.12761<System.Object>()#"
call void Generated1465::M.IBase1.B<class G3_C1937`1<class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G3_C1937::ClassMethod3068.MI.18810<System.Object>()#G3_C1937::ClassMethod5270.18807()#G3_C1937::ClassMethod5271.18808<System.Object>()#G3_C1937::ClassMethod5272.18809<System.Object>()#G2_C846::Method4.12757()#G2_C846::Method5.12759()#G2_C846::Method6.12760<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G3_C1937.T<class BaseClass1,class G3_C1937`1<class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G3_C1937::ClassMethod3068.MI.18810<System.Object>()#G3_C1937::ClassMethod5270.18807()#G3_C1937::ClassMethod5271.18808<System.Object>()#G3_C1937::ClassMethod5272.18809<System.Object>()#G2_C846::Method4.12757()#G2_C846::Method5.12759()#G2_C846::Method6.12760<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G3_C1937.B<class G3_C1937`1<class BaseClass1>>(!!0,string)
newobj instance void class G2_C846`2<class BaseClass0,class BaseClass0>::.ctor()
stloc.0
ldloc.0
ldstr "G2_C846::Method4.12757()#G1_C15::Method5.4889()#G1_C15::Method6.4891<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G1_C15.T.T<class BaseClass0,class BaseClass0,class G2_C846`2<class BaseClass0,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G2_C846::Method4.12757()#G1_C15::Method5.4889()#G1_C15::Method6.4891<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G1_C15.A.T<class BaseClass0,class G2_C846`2<class BaseClass0,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C846::Method4.12757()#G1_C15::Method5.4889()#G1_C15::Method6.4891<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G1_C15.A.A<class G2_C846`2<class BaseClass0,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.T.T<class BaseClass0,class BaseClass0,class G2_C846`2<class BaseClass0,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.A.T<class BaseClass0,class G2_C846`2<class BaseClass0,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.A.A<class G2_C846`2<class BaseClass0,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G2_C846::Method4.MI.12758()#G2_C846::Method5.12759()#G2_C846::Method6.MI.12761<System.Object>()#"
call void Generated1465::M.IBase1.T<class BaseClass0,class G2_C846`2<class BaseClass0,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C846::Method4.MI.12758()#G2_C846::Method5.12759()#G2_C846::Method6.MI.12761<System.Object>()#"
call void Generated1465::M.IBase1.A<class G2_C846`2<class BaseClass0,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.T.T<class BaseClass0,class BaseClass1,class G2_C846`2<class BaseClass0,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.A.T<class BaseClass1,class G2_C846`2<class BaseClass0,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.A.B<class G2_C846`2<class BaseClass0,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G2_C846::ClassMethod3068.12764<System.Object>()#G2_C846::Method4.12757()#G2_C846::Method5.12759()#G2_C846::Method6.12760<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G2_C846.T.T<class BaseClass0,class BaseClass0,class G2_C846`2<class BaseClass0,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G2_C846::ClassMethod3068.12764<System.Object>()#G2_C846::Method4.12757()#G2_C846::Method5.12759()#G2_C846::Method6.12760<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G2_C846.A.T<class BaseClass0,class G2_C846`2<class BaseClass0,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C846::ClassMethod3068.12764<System.Object>()#G2_C846::Method4.12757()#G2_C846::Method5.12759()#G2_C846::Method6.12760<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G2_C846.A.A<class G2_C846`2<class BaseClass0,class BaseClass0>>(!!0,string)
newobj instance void class G2_C846`2<class BaseClass0,class BaseClass1>::.ctor()
stloc.0
ldloc.0
ldstr "G2_C846::Method4.12757()#G1_C15::Method5.4889()#G1_C15::Method6.4891<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G1_C15.T.T<class BaseClass0,class BaseClass0,class G2_C846`2<class BaseClass0,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G2_C846::Method4.12757()#G1_C15::Method5.4889()#G1_C15::Method6.4891<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G1_C15.A.T<class BaseClass0,class G2_C846`2<class BaseClass0,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C846::Method4.12757()#G1_C15::Method5.4889()#G1_C15::Method6.4891<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G1_C15.A.A<class G2_C846`2<class BaseClass0,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.T.T<class BaseClass0,class BaseClass0,class G2_C846`2<class BaseClass0,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.A.T<class BaseClass0,class G2_C846`2<class BaseClass0,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.A.A<class G2_C846`2<class BaseClass0,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C846::Method4.MI.12758()#G2_C846::Method5.12759()#G2_C846::Method6.MI.12761<System.Object>()#"
call void Generated1465::M.IBase1.T<class BaseClass0,class G2_C846`2<class BaseClass0,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C846::Method4.MI.12758()#G2_C846::Method5.12759()#G2_C846::Method6.MI.12761<System.Object>()#"
call void Generated1465::M.IBase1.A<class G2_C846`2<class BaseClass0,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.T.T<class BaseClass0,class BaseClass1,class G2_C846`2<class BaseClass0,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.A.T<class BaseClass1,class G2_C846`2<class BaseClass0,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.A.B<class G2_C846`2<class BaseClass0,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C846::ClassMethod3068.12764<System.Object>()#G2_C846::Method4.12757()#G2_C846::Method5.12759()#G2_C846::Method6.12760<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G2_C846.T.T<class BaseClass0,class BaseClass1,class G2_C846`2<class BaseClass0,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G2_C846::ClassMethod3068.12764<System.Object>()#G2_C846::Method4.12757()#G2_C846::Method5.12759()#G2_C846::Method6.12760<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G2_C846.A.T<class BaseClass1,class G2_C846`2<class BaseClass0,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C846::ClassMethod3068.12764<System.Object>()#G2_C846::Method4.12757()#G2_C846::Method5.12759()#G2_C846::Method6.12760<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G2_C846.A.B<class G2_C846`2<class BaseClass0,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.T.T<class BaseClass1,class BaseClass0,class G2_C846`2<class BaseClass0,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.B.T<class BaseClass0,class G2_C846`2<class BaseClass0,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.B.A<class G2_C846`2<class BaseClass0,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.T.T<class BaseClass1,class BaseClass1,class G2_C846`2<class BaseClass0,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.B.T<class BaseClass1,class G2_C846`2<class BaseClass0,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.B.B<class G2_C846`2<class BaseClass0,class BaseClass1>>(!!0,string)
newobj instance void class G2_C846`2<class BaseClass1,class BaseClass0>::.ctor()
stloc.0
ldloc.0
ldstr "G2_C846::Method4.12757()#G1_C15::Method5.4889()#G1_C15::Method6.4891<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G1_C15.T.T<class BaseClass1,class BaseClass0,class G2_C846`2<class BaseClass1,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G2_C846::Method4.12757()#G1_C15::Method5.4889()#G1_C15::Method6.4891<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G1_C15.B.T<class BaseClass0,class G2_C846`2<class BaseClass1,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C846::Method4.12757()#G1_C15::Method5.4889()#G1_C15::Method6.4891<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G1_C15.B.A<class G2_C846`2<class BaseClass1,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G1_C15::Method7.MI.4886<System.Object>()#"
call void Generated1465::M.IBase2.T.T<class BaseClass0,class BaseClass0,class G2_C846`2<class BaseClass1,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G1_C15::Method7.MI.4886<System.Object>()#"
call void Generated1465::M.IBase2.A.T<class BaseClass0,class G2_C846`2<class BaseClass1,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G1_C15::Method7.MI.4886<System.Object>()#"
call void Generated1465::M.IBase2.A.A<class G2_C846`2<class BaseClass1,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G2_C846::Method4.MI.12758()#G2_C846::Method5.12759()#G2_C846::Method6.MI.12761<System.Object>()#"
call void Generated1465::M.IBase1.T<class BaseClass0,class G2_C846`2<class BaseClass1,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C846::Method4.MI.12758()#G2_C846::Method5.12759()#G2_C846::Method6.MI.12761<System.Object>()#"
call void Generated1465::M.IBase1.A<class G2_C846`2<class BaseClass1,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.T.T<class BaseClass0,class BaseClass1,class G2_C846`2<class BaseClass1,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.A.T<class BaseClass1,class G2_C846`2<class BaseClass1,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.A.B<class G2_C846`2<class BaseClass1,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G2_C846::ClassMethod3068.12764<System.Object>()#G2_C846::Method4.12757()#G2_C846::Method5.12759()#G2_C846::Method6.12760<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G2_C846.T.T<class BaseClass1,class BaseClass0,class G2_C846`2<class BaseClass1,class BaseClass0>>(!!2,string)
ldloc.0
ldstr "G2_C846::ClassMethod3068.12764<System.Object>()#G2_C846::Method4.12757()#G2_C846::Method5.12759()#G2_C846::Method6.12760<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G2_C846.B.T<class BaseClass0,class G2_C846`2<class BaseClass1,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C846::ClassMethod3068.12764<System.Object>()#G2_C846::Method4.12757()#G2_C846::Method5.12759()#G2_C846::Method6.12760<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G2_C846.B.A<class G2_C846`2<class BaseClass1,class BaseClass0>>(!!0,string)
ldloc.0
ldstr "G2_C846::Method4.MI.12758()#G2_C846::Method5.12759()#G2_C846::Method6.MI.12761<System.Object>()#"
call void Generated1465::M.IBase1.T<class BaseClass1,class G2_C846`2<class BaseClass1,class BaseClass0>>(!!1,string)
ldloc.0
ldstr "G2_C846::Method4.MI.12758()#G2_C846::Method5.12759()#G2_C846::Method6.MI.12761<System.Object>()#"
call void Generated1465::M.IBase1.B<class G2_C846`2<class BaseClass1,class BaseClass0>>(!!0,string)
newobj instance void class G2_C846`2<class BaseClass1,class BaseClass1>::.ctor()
stloc.0
ldloc.0
ldstr "G2_C846::Method4.12757()#G1_C15::Method5.4889()#G1_C15::Method6.4891<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G1_C15.T.T<class BaseClass1,class BaseClass0,class G2_C846`2<class BaseClass1,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G2_C846::Method4.12757()#G1_C15::Method5.4889()#G1_C15::Method6.4891<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G1_C15.B.T<class BaseClass0,class G2_C846`2<class BaseClass1,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C846::Method4.12757()#G1_C15::Method5.4889()#G1_C15::Method6.4891<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G1_C15.B.A<class G2_C846`2<class BaseClass1,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G1_C15::Method7.MI.4886<System.Object>()#"
call void Generated1465::M.IBase2.T.T<class BaseClass0,class BaseClass0,class G2_C846`2<class BaseClass1,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G1_C15::Method7.MI.4886<System.Object>()#"
call void Generated1465::M.IBase2.A.T<class BaseClass0,class G2_C846`2<class BaseClass1,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G1_C15::Method7.MI.4886<System.Object>()#"
call void Generated1465::M.IBase2.A.A<class G2_C846`2<class BaseClass1,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C846::Method4.MI.12758()#G2_C846::Method5.12759()#G2_C846::Method6.MI.12761<System.Object>()#"
call void Generated1465::M.IBase1.T<class BaseClass0,class G2_C846`2<class BaseClass1,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C846::Method4.MI.12758()#G2_C846::Method5.12759()#G2_C846::Method6.MI.12761<System.Object>()#"
call void Generated1465::M.IBase1.A<class G2_C846`2<class BaseClass1,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.T.T<class BaseClass0,class BaseClass1,class G2_C846`2<class BaseClass1,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.A.T<class BaseClass1,class G2_C846`2<class BaseClass1,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.A.B<class G2_C846`2<class BaseClass1,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C846::ClassMethod3068.12764<System.Object>()#G2_C846::Method4.12757()#G2_C846::Method5.12759()#G2_C846::Method6.12760<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G2_C846.T.T<class BaseClass1,class BaseClass1,class G2_C846`2<class BaseClass1,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G2_C846::ClassMethod3068.12764<System.Object>()#G2_C846::Method4.12757()#G2_C846::Method5.12759()#G2_C846::Method6.12760<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G2_C846.B.T<class BaseClass1,class G2_C846`2<class BaseClass1,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C846::ClassMethod3068.12764<System.Object>()#G2_C846::Method4.12757()#G2_C846::Method5.12759()#G2_C846::Method6.12760<System.Object>()#G2_C846::Method7.12762<System.Object>()#"
call void Generated1465::M.G2_C846.B.B<class G2_C846`2<class BaseClass1,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C846::Method4.MI.12758()#G2_C846::Method5.12759()#G2_C846::Method6.MI.12761<System.Object>()#"
call void Generated1465::M.IBase1.T<class BaseClass1,class G2_C846`2<class BaseClass1,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C846::Method4.MI.12758()#G2_C846::Method5.12759()#G2_C846::Method6.MI.12761<System.Object>()#"
call void Generated1465::M.IBase1.B<class G2_C846`2<class BaseClass1,class BaseClass1>>(!!0,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.T.T<class BaseClass1,class BaseClass1,class G2_C846`2<class BaseClass1,class BaseClass1>>(!!2,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.B.T<class BaseClass1,class G2_C846`2<class BaseClass1,class BaseClass1>>(!!1,string)
ldloc.0
ldstr "G2_C846::Method7.MI.12763<System.Object>()#"
call void Generated1465::M.IBase2.B.B<class G2_C846`2<class BaseClass1,class BaseClass1>>(!!0,string)
ldstr "========================================================================\n\n"
call void [mscorlib]System.Console::WriteLine(string)
ret
}
.method public hidebysig static void StructConstrainedInterfaceCallsTest() cil managed
{
.maxstack 10
ldstr "===================== Struct Constrained Interface Calls Test ====================="
call void [mscorlib]System.Console::WriteLine(string)
ldstr "========================================================================\n\n"
call void [mscorlib]System.Console::WriteLine(string)
ret
}
.method public hidebysig static void CalliTest() cil managed
{
.maxstack 10
.locals init (object V_0)
ldstr "========================== Method Calli Test =========================="
call void [mscorlib]System.Console::WriteLine(string)
newobj instance void class G3_C1937`1<class BaseClass0>::.ctor()
stloc.0
ldloc.0
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method6<object>()
calli default string(class G3_C1937`1<class BaseClass0>)
ldstr "G1_C15::Method6.4891<System.Object>()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method5()
calli default string(class G3_C1937`1<class BaseClass0>)
ldstr "G1_C15::Method5.4889()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method4()
calli default string(class G3_C1937`1<class BaseClass0>)
ldstr "G2_C846::Method4.12757()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method7<object>()
calli default string(class G3_C1937`1<class BaseClass0>)
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
calli default string(class G3_C1937`1<class BaseClass0>)
ldstr "G1_C15::Method7.MI.4886<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method4()
calli default string(class G3_C1937`1<class BaseClass0>)
ldstr "G2_C846::Method4.MI.12758()"
ldstr "class IBase1`1<class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method5()
calli default string(class G3_C1937`1<class BaseClass0>)
ldstr "G2_C846::Method5.12759()"
ldstr "class IBase1`1<class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method6<object>()
calli default string(class G3_C1937`1<class BaseClass0>)
ldstr "G2_C846::Method6.MI.12761<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
calli default string(class G3_C1937`1<class BaseClass0>)
ldstr "G2_C846::Method7.MI.12763<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass1,class BaseClass0>::ClassMethod3068<object>()
calli default string(class G3_C1937`1<class BaseClass0>)
ldstr "G3_C1937::ClassMethod3068.MI.18810<System.Object>()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method7<object>()
calli default string(class G3_C1937`1<class BaseClass0>)
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method6<object>()
calli default string(class G3_C1937`1<class BaseClass0>)
ldstr "G2_C846::Method6.12760<System.Object>()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method5()
calli default string(class G3_C1937`1<class BaseClass0>)
ldstr "G2_C846::Method5.12759()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method4()
calli default string(class G3_C1937`1<class BaseClass0>)
ldstr "G2_C846::Method4.12757()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method4()
calli default string(class G3_C1937`1<class BaseClass0>)
ldstr "G2_C846::Method4.MI.12758()"
ldstr "class IBase1`1<class BaseClass1> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method5()
calli default string(class G3_C1937`1<class BaseClass0>)
ldstr "G2_C846::Method5.12759()"
ldstr "class IBase1`1<class BaseClass1> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method6<object>()
calli default string(class G3_C1937`1<class BaseClass0>)
ldstr "G2_C846::Method6.MI.12761<System.Object>()"
ldstr "class IBase1`1<class BaseClass1> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1937`1<class BaseClass0>
ldloc.0
ldvirtftn instance string class G3_C1937`1<class BaseClass0>::ClassMethod5272<object>()
calli default string(class G3_C1937`1<class BaseClass0>)
ldstr "G3_C1937::ClassMethod5272.18809<System.Object>()"
ldstr "class G3_C1937`1<class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1937`1<class BaseClass0>
ldloc.0
ldvirtftn instance string class G3_C1937`1<class BaseClass0>::ClassMethod5271<object>()
calli default string(class G3_C1937`1<class BaseClass0>)
ldstr "G3_C1937::ClassMethod5271.18808<System.Object>()"
ldstr "class G3_C1937`1<class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1937`1<class BaseClass0>
ldloc.0
ldvirtftn instance string class G3_C1937`1<class BaseClass0>::ClassMethod5270()
calli default string(class G3_C1937`1<class BaseClass0>)
ldstr "G3_C1937::ClassMethod5270.18807()"
ldstr "class G3_C1937`1<class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1937`1<class BaseClass0>
ldloc.0
ldvirtftn instance string class G3_C1937`1<class BaseClass0>::ClassMethod3068<object>()
calli default string(class G3_C1937`1<class BaseClass0>)
ldstr "G3_C1937::ClassMethod3068.MI.18810<System.Object>()"
ldstr "class G3_C1937`1<class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1937`1<class BaseClass0>
ldloc.0
ldvirtftn instance string class G3_C1937`1<class BaseClass0>::Method7<object>()
calli default string(class G3_C1937`1<class BaseClass0>)
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G3_C1937`1<class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1937`1<class BaseClass0>
ldloc.0
ldvirtftn instance string class G3_C1937`1<class BaseClass0>::Method6<object>()
calli default string(class G3_C1937`1<class BaseClass0>)
ldstr "G2_C846::Method6.12760<System.Object>()"
ldstr "class G3_C1937`1<class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1937`1<class BaseClass0>
ldloc.0
ldvirtftn instance string class G3_C1937`1<class BaseClass0>::Method5()
calli default string(class G3_C1937`1<class BaseClass0>)
ldstr "G2_C846::Method5.12759()"
ldstr "class G3_C1937`1<class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1937`1<class BaseClass0>
ldloc.0
ldvirtftn instance string class G3_C1937`1<class BaseClass0>::Method4()
calli default string(class G3_C1937`1<class BaseClass0>)
ldstr "G2_C846::Method4.12757()"
ldstr "class G3_C1937`1<class BaseClass0> on type class G3_C1937`1<class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
newobj instance void class G3_C1937`1<class BaseClass1>::.ctor()
stloc.0
ldloc.0
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method6<object>()
calli default string(class G3_C1937`1<class BaseClass1>)
ldstr "G1_C15::Method6.4891<System.Object>()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method5()
calli default string(class G3_C1937`1<class BaseClass1>)
ldstr "G1_C15::Method5.4889()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method4()
calli default string(class G3_C1937`1<class BaseClass1>)
ldstr "G2_C846::Method4.12757()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method7<object>()
calli default string(class G3_C1937`1<class BaseClass1>)
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
calli default string(class G3_C1937`1<class BaseClass1>)
ldstr "G1_C15::Method7.MI.4886<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method4()
calli default string(class G3_C1937`1<class BaseClass1>)
ldstr "G2_C846::Method4.MI.12758()"
ldstr "class IBase1`1<class BaseClass0> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method5()
calli default string(class G3_C1937`1<class BaseClass1>)
ldstr "G2_C846::Method5.12759()"
ldstr "class IBase1`1<class BaseClass0> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method6<object>()
calli default string(class G3_C1937`1<class BaseClass1>)
ldstr "G2_C846::Method6.MI.12761<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
calli default string(class G3_C1937`1<class BaseClass1>)
ldstr "G2_C846::Method7.MI.12763<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass1,class BaseClass0>::ClassMethod3068<object>()
calli default string(class G3_C1937`1<class BaseClass1>)
ldstr "G3_C1937::ClassMethod3068.MI.18810<System.Object>()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method7<object>()
calli default string(class G3_C1937`1<class BaseClass1>)
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method6<object>()
calli default string(class G3_C1937`1<class BaseClass1>)
ldstr "G2_C846::Method6.12760<System.Object>()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method5()
calli default string(class G3_C1937`1<class BaseClass1>)
ldstr "G2_C846::Method5.12759()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method4()
calli default string(class G3_C1937`1<class BaseClass1>)
ldstr "G2_C846::Method4.12757()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method4()
calli default string(class G3_C1937`1<class BaseClass1>)
ldstr "G2_C846::Method4.MI.12758()"
ldstr "class IBase1`1<class BaseClass1> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method5()
calli default string(class G3_C1937`1<class BaseClass1>)
ldstr "G2_C846::Method5.12759()"
ldstr "class IBase1`1<class BaseClass1> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method6<object>()
calli default string(class G3_C1937`1<class BaseClass1>)
ldstr "G2_C846::Method6.MI.12761<System.Object>()"
ldstr "class IBase1`1<class BaseClass1> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1937`1<class BaseClass1>
ldloc.0
ldvirtftn instance string class G3_C1937`1<class BaseClass1>::ClassMethod5272<object>()
calli default string(class G3_C1937`1<class BaseClass1>)
ldstr "G3_C1937::ClassMethod5272.18809<System.Object>()"
ldstr "class G3_C1937`1<class BaseClass1> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1937`1<class BaseClass1>
ldloc.0
ldvirtftn instance string class G3_C1937`1<class BaseClass1>::ClassMethod5271<object>()
calli default string(class G3_C1937`1<class BaseClass1>)
ldstr "G3_C1937::ClassMethod5271.18808<System.Object>()"
ldstr "class G3_C1937`1<class BaseClass1> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1937`1<class BaseClass1>
ldloc.0
ldvirtftn instance string class G3_C1937`1<class BaseClass1>::ClassMethod5270()
calli default string(class G3_C1937`1<class BaseClass1>)
ldstr "G3_C1937::ClassMethod5270.18807()"
ldstr "class G3_C1937`1<class BaseClass1> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1937`1<class BaseClass1>
ldloc.0
ldvirtftn instance string class G3_C1937`1<class BaseClass1>::ClassMethod3068<object>()
calli default string(class G3_C1937`1<class BaseClass1>)
ldstr "G3_C1937::ClassMethod3068.MI.18810<System.Object>()"
ldstr "class G3_C1937`1<class BaseClass1> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1937`1<class BaseClass1>
ldloc.0
ldvirtftn instance string class G3_C1937`1<class BaseClass1>::Method7<object>()
calli default string(class G3_C1937`1<class BaseClass1>)
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G3_C1937`1<class BaseClass1> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1937`1<class BaseClass1>
ldloc.0
ldvirtftn instance string class G3_C1937`1<class BaseClass1>::Method6<object>()
calli default string(class G3_C1937`1<class BaseClass1>)
ldstr "G2_C846::Method6.12760<System.Object>()"
ldstr "class G3_C1937`1<class BaseClass1> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1937`1<class BaseClass1>
ldloc.0
ldvirtftn instance string class G3_C1937`1<class BaseClass1>::Method5()
calli default string(class G3_C1937`1<class BaseClass1>)
ldstr "G2_C846::Method5.12759()"
ldstr "class G3_C1937`1<class BaseClass1> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G3_C1937`1<class BaseClass1>
ldloc.0
ldvirtftn instance string class G3_C1937`1<class BaseClass1>::Method4()
calli default string(class G3_C1937`1<class BaseClass1>)
ldstr "G2_C846::Method4.12757()"
ldstr "class G3_C1937`1<class BaseClass1> on type class G3_C1937`1<class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
newobj instance void class G2_C846`2<class BaseClass0,class BaseClass0>::.ctor()
stloc.0
ldloc.0
castclass class G1_C15`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C15`2<class BaseClass0,class BaseClass0>::Method6<object>()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass0>)
ldstr "G1_C15::Method6.4891<System.Object>()"
ldstr "class G1_C15`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C15`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C15`2<class BaseClass0,class BaseClass0>::Method5()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass0>)
ldstr "G1_C15::Method5.4889()"
ldstr "class G1_C15`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C15`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C15`2<class BaseClass0,class BaseClass0>::Method4()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C846::Method4.12757()"
ldstr "class G1_C15`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C15`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C15`2<class BaseClass0,class BaseClass0>::Method7<object>()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G1_C15`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C846::Method7.MI.12763<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method4()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C846::Method4.MI.12758()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method5()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C846::Method5.12759()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method6<object>()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C846::Method6.MI.12761<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C846::Method7.MI.12763<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass0,class BaseClass0>::ClassMethod3068<object>()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C846::ClassMethod3068.12764<System.Object>()"
ldstr "class G2_C846`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass0,class BaseClass0>::Method7<object>()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G2_C846`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass0,class BaseClass0>::Method6<object>()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C846::Method6.12760<System.Object>()"
ldstr "class G2_C846`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass0,class BaseClass0>::Method5()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C846::Method5.12759()"
ldstr "class G2_C846`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass0,class BaseClass0>::Method4()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass0>)
ldstr "G2_C846::Method4.12757()"
ldstr "class G2_C846`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
newobj instance void class G2_C846`2<class BaseClass0,class BaseClass1>::.ctor()
stloc.0
ldloc.0
castclass class G1_C15`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C15`2<class BaseClass0,class BaseClass0>::Method6<object>()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass1>)
ldstr "G1_C15::Method6.4891<System.Object>()"
ldstr "class G1_C15`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C15`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C15`2<class BaseClass0,class BaseClass0>::Method5()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass1>)
ldstr "G1_C15::Method5.4889()"
ldstr "class G1_C15`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C15`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C15`2<class BaseClass0,class BaseClass0>::Method4()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C846::Method4.12757()"
ldstr "class G1_C15`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C15`2<class BaseClass0,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C15`2<class BaseClass0,class BaseClass0>::Method7<object>()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G1_C15`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C846::Method7.MI.12763<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method4()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C846::Method4.MI.12758()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method5()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C846::Method5.12759()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method6<object>()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C846::Method6.MI.12761<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C846::Method7.MI.12763<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass0,class BaseClass1>::ClassMethod3068<object>()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C846::ClassMethod3068.12764<System.Object>()"
ldstr "class G2_C846`2<class BaseClass0,class BaseClass1> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass0,class BaseClass1>::Method7<object>()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G2_C846`2<class BaseClass0,class BaseClass1> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass0,class BaseClass1>::Method6<object>()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C846::Method6.12760<System.Object>()"
ldstr "class G2_C846`2<class BaseClass0,class BaseClass1> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass0,class BaseClass1>::Method5()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C846::Method5.12759()"
ldstr "class G2_C846`2<class BaseClass0,class BaseClass1> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass0,class BaseClass1>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass0,class BaseClass1>::Method4()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C846::Method4.12757()"
ldstr "class G2_C846`2<class BaseClass0,class BaseClass1> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass1,class BaseClass0>::Method7<object>()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C846::Method7.MI.12763<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass1,class BaseClass1>::Method7<object>()
calli default string(class G2_C846`2<class BaseClass0,class BaseClass1>)
ldstr "G2_C846::Method7.MI.12763<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass1> on type class G2_C846`2<class BaseClass0,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
newobj instance void class G2_C846`2<class BaseClass1,class BaseClass0>::.ctor()
stloc.0
ldloc.0
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method6<object>()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass0>)
ldstr "G1_C15::Method6.4891<System.Object>()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method5()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass0>)
ldstr "G1_C15::Method5.4889()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method4()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C846::Method4.12757()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method7<object>()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass0>)
ldstr "G1_C15::Method7.MI.4886<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method4()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C846::Method4.MI.12758()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method5()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C846::Method5.12759()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method6<object>()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C846::Method6.MI.12761<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C846::Method7.MI.12763<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass1,class BaseClass0>::ClassMethod3068<object>()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C846::ClassMethod3068.12764<System.Object>()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method7<object>()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method6<object>()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C846::Method6.12760<System.Object>()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method5()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C846::Method5.12759()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass1,class BaseClass0>::Method4()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C846::Method4.12757()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method4()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C846::Method4.MI.12758()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method5()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C846::Method5.12759()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method6<object>()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass0>)
ldstr "G2_C846::Method6.MI.12761<System.Object>()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass0>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
newobj instance void class G2_C846`2<class BaseClass1,class BaseClass1>::.ctor()
stloc.0
ldloc.0
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method6<object>()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass1>)
ldstr "G1_C15::Method6.4891<System.Object>()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method5()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass1>)
ldstr "G1_C15::Method5.4889()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method4()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C846::Method4.12757()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G1_C15`2<class BaseClass1,class BaseClass0>
ldloc.0
ldvirtftn instance string class G1_C15`2<class BaseClass1,class BaseClass0>::Method7<object>()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G1_C15`2<class BaseClass1,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass0>::Method7<object>()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass1>)
ldstr "G1_C15::Method7.MI.4886<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method4()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C846::Method4.MI.12758()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method5()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C846::Method5.12759()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass0>::Method6<object>()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C846::Method6.MI.12761<System.Object>()"
ldstr "class IBase1`1<class BaseClass0> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass0,class BaseClass1>::Method7<object>()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C846::Method7.MI.12763<System.Object>()"
ldstr "class IBase2`2<class BaseClass0,class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass1,class BaseClass1>::ClassMethod3068<object>()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C846::ClassMethod3068.12764<System.Object>()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass1,class BaseClass1>::Method7<object>()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C846::Method7.12762<System.Object>()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass1,class BaseClass1>::Method6<object>()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C846::Method6.12760<System.Object>()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass1,class BaseClass1>::Method5()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C846::Method5.12759()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
castclass class G2_C846`2<class BaseClass1,class BaseClass1>
ldloc.0
ldvirtftn instance string class G2_C846`2<class BaseClass1,class BaseClass1>::Method4()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C846::Method4.12757()"
ldstr "class G2_C846`2<class BaseClass1,class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method4()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C846::Method4.MI.12758()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method5()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C846::Method5.12759()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase1`1<class BaseClass1>::Method6<object>()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C846::Method6.MI.12761<System.Object>()"
ldstr "class IBase1`1<class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldloc.0
ldloc.0
ldvirtftn instance string class IBase2`2<class BaseClass1,class BaseClass1>::Method7<object>()
calli default string(class G2_C846`2<class BaseClass1,class BaseClass1>)
ldstr "G2_C846::Method7.MI.12763<System.Object>()"
ldstr "class IBase2`2<class BaseClass1,class BaseClass1> on type class G2_C846`2<class BaseClass1,class BaseClass1>"
call void [TestFramework]TestFramework::MethodCallTest(string,string,string)
ldstr "========================================================================\n\n"
call void [mscorlib]System.Console::WriteLine(string)
ret
}
.method public hidebysig static int32 Main() cil managed
{
.custom instance void [xunit.core]Xunit.FactAttribute::.ctor() = (
01 00 00 00
)
.entrypoint
.maxstack 10
call void Generated1465::MethodCallingTest()
call void Generated1465::ConstrainedCallsTest()
call void Generated1465::StructConstrainedInterfaceCallsTest()
call void Generated1465::CalliTest()
ldc.i4 100
ret
}
}
| -1 |
dotnet/runtime
| 66,398 |
Reenable compiler warning 4244 under coreclr/
|
Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
AaronRobinsonMSFT
| 2022-03-09T15:46:00Z | 2022-03-10T01:12:51Z |
763936ed098deaa1588935f17d7cc0a07c27c3fa
|
b71eba8b3a74fa6282dc1526e68abbd26f3e385f
|
Reenable compiler warning 4244 under coreclr/. Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
./src/tests/JIT/opt/virtualstubdispatch/bigvtbl/bigvtbl.cs
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
using System;
internal class A
{
public virtual string f1() { return "A.f1"; }
public virtual string f2() { return "A.f2"; }
public virtual string f3() { return "A.f3"; }
public virtual string f4() { return "A.f4"; }
public virtual string f5() { return "A.f5"; }
public virtual string f6() { return "A.f6"; }
public virtual string f7() { return "A.f7"; }
public virtual string f8() { return "A.f8"; }
public virtual string f9() { return "A.f9"; }
public virtual string f10() { return "A.f10"; }
public virtual string f11() { return "A.f11"; }
public virtual string f12() { return "A.f12"; }
public virtual string f13() { return "A.f13"; }
public virtual string f14() { return "A.f14"; }
public virtual string f15() { return "A.f15"; }
public virtual string f16() { return "A.f16"; }
public virtual string f17() { return "A.f17"; }
public virtual string f18() { return "A.f18"; }
public virtual string f19() { return "A.f19"; }
public virtual string f20() { return "A.f20"; }
public virtual string f21() { return "A.f21"; }
public virtual string f22() { return "A.f22"; }
public virtual string f23() { return "A.f23"; }
public virtual string f24() { return "A.f24"; }
public virtual string f25() { return "A.f25"; }
public virtual string f26() { return "A.f26"; }
public virtual string f27() { return "A.f27"; }
public virtual string f28() { return "A.f28"; }
public virtual string f29() { return "A.f29"; }
public virtual string f30() { return "A.f30"; }
public virtual string f31() { return "A.f31"; }
public virtual string f32() { return "A.f32"; }
public virtual string f33() { return "A.f33"; }
public virtual string f34() { return "A.f34"; }
public virtual string f35() { return "A.f35"; }
public virtual string f36() { return "A.f36"; }
public virtual string f37() { return "A.f37"; }
public virtual string f38() { return "A.f38"; }
public virtual string f39() { return "A.f39"; }
public virtual string f40() { return "A.f40"; }
public virtual string f41() { return "A.f41"; }
public virtual string f42() { return "A.f42"; }
public virtual string f43() { return "A.f43"; }
public virtual string f44() { return "A.f44"; }
public virtual string f45() { return "A.f45"; }
public virtual string f46() { return "A.f46"; }
public virtual string f47() { return "A.f47"; }
public virtual string f48() { return "A.f48"; }
public virtual string f49() { return "A.f49"; }
public virtual string f50() { return "A.f50"; }
public virtual string f51() { return "A.f51"; }
public virtual string f52() { return "A.f52"; }
public virtual string f53() { return "A.f53"; }
public virtual string f54() { return "A.f54"; }
public virtual string f55() { return "A.f55"; }
public virtual string f56() { return "A.f56"; }
public virtual string f57() { return "A.f57"; }
public virtual string f58() { return "A.f58"; }
public virtual string f59() { return "A.f59"; }
public virtual string f60() { return "A.f60"; }
public virtual string f61() { return "A.f61"; }
public virtual string f62() { return "A.f62"; }
public virtual string f63() { return "A.f63"; }
public virtual string f64() { return "A.f64"; }
public virtual string f65() { return "A.f65"; }
public virtual string f66() { return "A.f66"; }
public virtual string f67() { return "A.f67"; }
public virtual string f68() { return "A.f68"; }
public virtual string f69() { return "A.f69"; }
public virtual string f70() { return "A.f70"; }
public virtual string f71() { return "A.f71"; }
public virtual string f72() { return "A.f72"; }
public virtual string f73() { return "A.f73"; }
public virtual string f74() { return "A.f74"; }
public virtual string f75() { return "A.f75"; }
public virtual string f76() { return "A.f76"; }
public virtual string f77() { return "A.f77"; }
public virtual string f78() { return "A.f78"; }
public virtual string f79() { return "A.f79"; }
public virtual string f80() { return "A.f80"; }
public virtual string f81() { return "A.f81"; }
public virtual string f82() { return "A.f82"; }
public virtual string f83() { return "A.f83"; }
public virtual string f84() { return "A.f84"; }
public virtual string f85() { return "A.f85"; }
public virtual string f86() { return "A.f86"; }
public virtual string f87() { return "A.f87"; }
public virtual string f88() { return "A.f88"; }
public virtual string f89() { return "A.f89"; }
public virtual string f90() { return "A.f90"; }
public virtual string f91() { return "A.f91"; }
public virtual string f92() { return "A.f92"; }
public virtual string f93() { return "A.f93"; }
public virtual string f94() { return "A.f94"; }
public virtual string f95() { return "A.f95"; }
public virtual string f96() { return "A.f96"; }
public virtual string f97() { return "A.f97"; }
public virtual string f98() { return "A.f98"; }
public virtual string f99() { return "A.f99"; }
public virtual string f100() { return "A.f100"; }
public virtual string f101() { return "A.f101"; }
public virtual string f102() { return "A.f102"; }
public virtual string f103() { return "A.f103"; }
public virtual string f104() { return "A.f104"; }
public virtual string f105() { return "A.f105"; }
public virtual string f106() { return "A.f106"; }
public virtual string f107() { return "A.f107"; }
public virtual string f108() { return "A.f108"; }
public virtual string f109() { return "A.f109"; }
public virtual string f110() { return "A.f110"; }
public virtual string f111() { return "A.f111"; }
public virtual string f112() { return "A.f112"; }
public virtual string f113() { return "A.f113"; }
public virtual string f114() { return "A.f114"; }
public virtual string f115() { return "A.f115"; }
public virtual string f116() { return "A.f116"; }
public virtual string f117() { return "A.f117"; }
public virtual string f118() { return "A.f118"; }
public virtual string f119() { return "A.f119"; }
public virtual string f120() { return "A.f120"; }
public virtual string f121() { return "A.f121"; }
public virtual string f122() { return "A.f122"; }
public virtual string f123() { return "A.f123"; }
public virtual string f124() { return "A.f124"; }
public virtual string f125() { return "A.f125"; }
public virtual string f126() { return "A.f126"; }
public virtual string f127() { return "A.f127"; }
public virtual string f128() { return "A.f128"; }
public virtual string f129() { return "A.f129"; }
public virtual string f130() { return "A.f130"; }
public virtual string f131() { return "A.f131"; }
public virtual string f132() { return "A.f132"; }
public virtual string f133() { return "A.f133"; }
public virtual string f134() { return "A.f134"; }
public virtual string f135() { return "A.f135"; }
public virtual string f136() { return "A.f136"; }
public virtual string f137() { return "A.f137"; }
public virtual string f138() { return "A.f138"; }
public virtual string f139() { return "A.f139"; }
public virtual string f140() { return "A.f140"; }
public virtual string f141() { return "A.f141"; }
public virtual string f142() { return "A.f142"; }
public virtual string f143() { return "A.f143"; }
public virtual string f144() { return "A.f144"; }
public virtual string f145() { return "A.f145"; }
public virtual string f146() { return "A.f146"; }
public virtual string f147() { return "A.f147"; }
public virtual string f148() { return "A.f148"; }
public virtual string f149() { return "A.f149"; }
public virtual string f150() { return "A.f150"; }
public virtual string f151() { return "A.f151"; }
public virtual string f152() { return "A.f152"; }
public virtual string f153() { return "A.f153"; }
public virtual string f154() { return "A.f154"; }
public virtual string f155() { return "A.f155"; }
public virtual string f156() { return "A.f156"; }
public virtual string f157() { return "A.f157"; }
public virtual string f158() { return "A.f158"; }
public virtual string f159() { return "A.f159"; }
public virtual string f160() { return "A.f160"; }
public virtual string f161() { return "A.f161"; }
public virtual string f162() { return "A.f162"; }
public virtual string f163() { return "A.f163"; }
public virtual string f164() { return "A.f164"; }
public virtual string f165() { return "A.f165"; }
public virtual string f166() { return "A.f166"; }
public virtual string f167() { return "A.f167"; }
public virtual string f168() { return "A.f168"; }
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public virtual string f665() { return "A.f665"; }
public virtual string f666() { return "A.f666"; }
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public virtual string f668() { return "A.f668"; }
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public virtual string f684() { return "A.f684"; }
public virtual string f685() { return "A.f685"; }
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public virtual string f703() { return "A.f703"; }
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public virtual string f715() { return "A.f715"; }
public virtual string f716() { return "A.f716"; }
public virtual string f717() { return "A.f717"; }
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public virtual string f721() { return "A.f721"; }
public virtual string f722() { return "A.f722"; }
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public virtual string f725() { return "A.f725"; }
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public virtual string f728() { return "A.f728"; }
public virtual string f729() { return "A.f729"; }
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public virtual string f737() { return "A.f737"; }
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public virtual string f745() { return "A.f745"; }
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public virtual string f750() { return "A.f750"; }
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public virtual string f780() { return "A.f780"; }
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public virtual string f820() { return "A.f820"; }
public virtual string f821() { return "A.f821"; }
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public virtual string f825() { return "A.f825"; }
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public virtual string f830() { return "A.f830"; }
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public virtual string f856() { return "A.f856"; }
public virtual string f857() { return "A.f857"; }
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public virtual string f866() { return "A.f866"; }
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public virtual string f870() { return "A.f870"; }
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public virtual string f916() { return "A.f916"; }
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public virtual string f940() { return "A.f940"; }
public virtual string f941() { return "A.f941"; }
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public virtual string f966() { return "A.f966"; }
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public virtual string f971() { return "A.f971"; }
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public virtual string f984() { return "A.f984"; }
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public virtual string f987() { return "A.f987"; }
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public virtual string f990() { return "A.f990"; }
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public virtual string f993() { return "A.f993"; }
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public virtual string f1000() { return "A.f1000"; }
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public virtual string f1003() { return "A.f1003"; }
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public virtual string f1010() { return "A.f1010"; }
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public virtual string f1013() { return "A.f1013"; }
public virtual string f1014() { return "A.f1014"; }
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public virtual string f1016() { return "A.f1016"; }
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public virtual string f1020() { return "A.f1020"; }
public virtual string f1021() { return "A.f1021"; }
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public virtual string f1024() { return "A.f1024"; }
public virtual string f1025() { return "A.f1025"; }
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public virtual string f1028() { return "A.f1028"; }
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public virtual string f1030() { return "A.f1030"; }
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public virtual string f1032() { return "A.f1032"; }
public virtual string f1033() { return "A.f1033"; }
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public virtual string f1035() { return "A.f1035"; }
public virtual string f1036() { return "A.f1036"; }
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public virtual string f1050() { return "A.f1050"; }
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public virtual string f1062() { return "A.f1062"; }
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public virtual string f1065() { return "A.f1065"; }
public virtual string f1066() { return "A.f1066"; }
public virtual string f1067() { return "A.f1067"; }
public virtual string f1068() { return "A.f1068"; }
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public virtual string f1070() { return "A.f1070"; }
public virtual string f1071() { return "A.f1071"; }
public virtual string f1072() { return "A.f1072"; }
public virtual string f1073() { return "A.f1073"; }
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public virtual string f1078() { return "A.f1078"; }
public virtual string f1079() { return "A.f1079"; }
public virtual string f1080() { return "A.f1080"; }
public virtual string f1081() { return "A.f1081"; }
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public virtual string f1084() { return "A.f1084"; }
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public virtual string f1086() { return "A.f1086"; }
public virtual string f1087() { return "A.f1087"; }
public virtual string f1088() { return "A.f1088"; }
public virtual string f1089() { return "A.f1089"; }
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public virtual string f1091() { return "A.f1091"; }
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public virtual string f1093() { return "A.f1093"; }
public virtual string f1094() { return "A.f1094"; }
public virtual string f1095() { return "A.f1095"; }
public virtual string f1096() { return "A.f1096"; }
public virtual string f1097() { return "A.f1097"; }
public virtual string f1098() { return "A.f1098"; }
public virtual string f1099() { return "A.f1099"; }
public virtual string f1100() { return "A.f1100"; }
public virtual string f1101() { return "A.f1101"; }
public virtual string f1102() { return "A.f1102"; }
public virtual string f1103() { return "A.f1103"; }
public virtual string f1104() { return "A.f1104"; }
public virtual string f1105() { return "A.f1105"; }
public virtual string f1106() { return "A.f1106"; }
public virtual string f1107() { return "A.f1107"; }
public virtual string f1108() { return "A.f1108"; }
public virtual string f1109() { return "A.f1109"; }
public virtual string f1110() { return "A.f1110"; }
public virtual string f1111() { return "A.f1111"; }
public virtual string f1112() { return "A.f1112"; }
public virtual string f1113() { return "A.f1113"; }
public virtual string f1114() { return "A.f1114"; }
public virtual string f1115() { return "A.f1115"; }
public virtual string f1116() { return "A.f1116"; }
public virtual string f1117() { return "A.f1117"; }
public virtual string f1118() { return "A.f1118"; }
public virtual string f1119() { return "A.f1119"; }
public virtual string f1120() { return "A.f1120"; }
public virtual string f1121() { return "A.f1121"; }
public virtual string f1122() { return "A.f1122"; }
public virtual string f1123() { return "A.f1123"; }
public virtual string f1124() { return "A.f1124"; }
public virtual string f1125() { return "A.f1125"; }
public virtual string f1126() { return "A.f1126"; }
public virtual string f1127() { return "A.f1127"; }
public virtual string f1128() { return "A.f1128"; }
public virtual string f1129() { return "A.f1129"; }
public virtual string f1130() { return "A.f1130"; }
public virtual string f1131() { return "A.f1131"; }
public virtual string f1132() { return "A.f1132"; }
public virtual string f1133() { return "A.f1133"; }
public virtual string f1134() { return "A.f1134"; }
public virtual string f1135() { return "A.f1135"; }
public virtual string f1136() { return "A.f1136"; }
public virtual string f1137() { return "A.f1137"; }
public virtual string f1138() { return "A.f1138"; }
public virtual string f1139() { return "A.f1139"; }
public virtual string f1140() { return "A.f1140"; }
public virtual string f1141() { return "A.f1141"; }
public virtual string f1142() { return "A.f1142"; }
public virtual string f1143() { return "A.f1143"; }
public virtual string f1144() { return "A.f1144"; }
public virtual string f1145() { return "A.f1145"; }
public virtual string f1146() { return "A.f1146"; }
public virtual string f1147() { return "A.f1147"; }
public virtual string f1148() { return "A.f1148"; }
public virtual string f1149() { return "A.f1149"; }
public virtual string f1150() { return "A.f1150"; }
public virtual string f1151() { return "A.f1151"; }
public virtual string f1152() { return "A.f1152"; }
public virtual string f1153() { return "A.f1153"; }
public virtual string f1154() { return "A.f1154"; }
public virtual string f1155() { return "A.f1155"; }
public virtual string f1156() { return "A.f1156"; }
public virtual string f1157() { return "A.f1157"; }
public virtual string f1158() { return "A.f1158"; }
public virtual string f1159() { return "A.f1159"; }
public virtual string f1160() { return "A.f1160"; }
public virtual string f1161() { return "A.f1161"; }
public virtual string f1162() { return "A.f1162"; }
public virtual string f1163() { return "A.f1163"; }
public virtual string f1164() { return "A.f1164"; }
public virtual string f1165() { return "A.f1165"; }
public virtual string f1166() { return "A.f1166"; }
public virtual string f1167() { return "A.f1167"; }
public virtual string f1168() { return "A.f1168"; }
public virtual string f1169() { return "A.f1169"; }
public virtual string f1170() { return "A.f1170"; }
public virtual string f1171() { return "A.f1171"; }
public virtual string f1172() { return "A.f1172"; }
public virtual string f1173() { return "A.f1173"; }
public virtual string f1174() { return "A.f1174"; }
public virtual string f1175() { return "A.f1175"; }
public virtual string f1176() { return "A.f1176"; }
public virtual string f1177() { return "A.f1177"; }
public virtual string f1178() { return "A.f1178"; }
public virtual string f1179() { return "A.f1179"; }
public virtual string f1180() { return "A.f1180"; }
public virtual string f1181() { return "A.f1181"; }
public virtual string f1182() { return "A.f1182"; }
public virtual string f1183() { return "A.f1183"; }
public virtual string f1184() { return "A.f1184"; }
public virtual string f1185() { return "A.f1185"; }
public virtual string f1186() { return "A.f1186"; }
public virtual string f1187() { return "A.f1187"; }
public virtual string f1188() { return "A.f1188"; }
public virtual string f1189() { return "A.f1189"; }
public virtual string f1190() { return "A.f1190"; }
public virtual string f1191() { return "A.f1191"; }
public virtual string f1192() { return "A.f1192"; }
public virtual string f1193() { return "A.f1193"; }
public virtual string f1194() { return "A.f1194"; }
public virtual string f1195() { return "A.f1195"; }
public virtual string f1196() { return "A.f1196"; }
public virtual string f1197() { return "A.f1197"; }
public virtual string f1198() { return "A.f1198"; }
public virtual string f1199() { return "A.f1199"; }
public virtual string f1200() { return "A.f1200"; }
public virtual string f1201() { return "A.f1201"; }
public virtual string f1202() { return "A.f1202"; }
public virtual string f1203() { return "A.f1203"; }
public virtual string f1204() { return "A.f1204"; }
public virtual string f1205() { return "A.f1205"; }
public virtual string f1206() { return "A.f1206"; }
public virtual string f1207() { return "A.f1207"; }
public virtual string f1208() { return "A.f1208"; }
public virtual string f1209() { return "A.f1209"; }
public virtual string f1210() { return "A.f1210"; }
public virtual string f1211() { return "A.f1211"; }
public virtual string f1212() { return "A.f1212"; }
public virtual string f1213() { return "A.f1213"; }
public virtual string f1214() { return "A.f1214"; }
public virtual string f1215() { return "A.f1215"; }
public virtual string f1216() { return "A.f1216"; }
public virtual string f1217() { return "A.f1217"; }
public virtual string f1218() { return "A.f1218"; }
public virtual string f1219() { return "A.f1219"; }
public virtual string f1220() { return "A.f1220"; }
public virtual string f1221() { return "A.f1221"; }
public virtual string f1222() { return "A.f1222"; }
public virtual string f1223() { return "A.f1223"; }
public virtual string f1224() { return "A.f1224"; }
public virtual string f1225() { return "A.f1225"; }
public virtual string f1226() { return "A.f1226"; }
public virtual string f1227() { return "A.f1227"; }
public virtual string f1228() { return "A.f1228"; }
public virtual string f1229() { return "A.f1229"; }
public virtual string f1230() { return "A.f1230"; }
public virtual string f1231() { return "A.f1231"; }
public virtual string f1232() { return "A.f1232"; }
public virtual string f1233() { return "A.f1233"; }
public virtual string f1234() { return "A.f1234"; }
public virtual string f1235() { return "A.f1235"; }
public virtual string f1236() { return "A.f1236"; }
public virtual string f1237() { return "A.f1237"; }
public virtual string f1238() { return "A.f1238"; }
public virtual string f1239() { return "A.f1239"; }
public virtual string f1240() { return "A.f1240"; }
public virtual string f1241() { return "A.f1241"; }
public virtual string f1242() { return "A.f1242"; }
public virtual string f1243() { return "A.f1243"; }
public virtual string f1244() { return "A.f1244"; }
public virtual string f1245() { return "A.f1245"; }
public virtual string f1246() { return "A.f1246"; }
public virtual string f1247() { return "A.f1247"; }
public virtual string f1248() { return "A.f1248"; }
public virtual string f1249() { return "A.f1249"; }
public virtual string f1250() { return "A.f1250"; }
public virtual string f1251() { return "A.f1251"; }
public virtual string f1252() { return "A.f1252"; }
public virtual string f1253() { return "A.f1253"; }
public virtual string f1254() { return "A.f1254"; }
public virtual string f1255() { return "A.f1255"; }
public virtual string f1256() { return "A.f1256"; }
public virtual string f1257() { return "A.f1257"; }
public virtual string f1258() { return "A.f1258"; }
public virtual string f1259() { return "A.f1259"; }
public virtual string f1260() { return "A.f1260"; }
public virtual string f1261() { return "A.f1261"; }
public virtual string f1262() { return "A.f1262"; }
public virtual string f1263() { return "A.f1263"; }
public virtual string f1264() { return "A.f1264"; }
public virtual string f1265() { return "A.f1265"; }
public virtual string f1266() { return "A.f1266"; }
public virtual string f1267() { return "A.f1267"; }
public virtual string f1268() { return "A.f1268"; }
public virtual string f1269() { return "A.f1269"; }
public virtual string f1270() { return "A.f1270"; }
public virtual string f1271() { return "A.f1271"; }
public virtual string f1272() { return "A.f1272"; }
public virtual string f1273() { return "A.f1273"; }
public virtual string f1274() { return "A.f1274"; }
public virtual string f1275() { return "A.f1275"; }
public virtual string f1276() { return "A.f1276"; }
public virtual string f1277() { return "A.f1277"; }
public virtual string f1278() { return "A.f1278"; }
public virtual string f1279() { return "A.f1279"; }
public virtual string f1280() { return "A.f1280"; }
public virtual string f1281() { return "A.f1281"; }
public virtual string f1282() { return "A.f1282"; }
public virtual string f1283() { return "A.f1283"; }
public virtual string f1284() { return "A.f1284"; }
public virtual string f1285() { return "A.f1285"; }
public virtual string f1286() { return "A.f1286"; }
public virtual string f1287() { return "A.f1287"; }
public virtual string f1288() { return "A.f1288"; }
public virtual string f1289() { return "A.f1289"; }
public virtual string f1290() { return "A.f1290"; }
public virtual string f1291() { return "A.f1291"; }
public virtual string f1292() { return "A.f1292"; }
public virtual string f1293() { return "A.f1293"; }
public virtual string f1294() { return "A.f1294"; }
public virtual string f1295() { return "A.f1295"; }
public virtual string f1296() { return "A.f1296"; }
public virtual string f1297() { return "A.f1297"; }
public virtual string f1298() { return "A.f1298"; }
public virtual string f1299() { return "A.f1299"; }
public virtual string f1300() { return "A.f1300"; }
public virtual string f1301() { return "A.f1301"; }
public virtual string f1302() { return "A.f1302"; }
public virtual string f1303() { return "A.f1303"; }
public virtual string f1304() { return "A.f1304"; }
public virtual string f1305() { return "A.f1305"; }
public virtual string f1306() { return "A.f1306"; }
public virtual string f1307() { return "A.f1307"; }
public virtual string f1308() { return "A.f1308"; }
public virtual string f1309() { return "A.f1309"; }
public virtual string f1310() { return "A.f1310"; }
public virtual string f1311() { return "A.f1311"; }
public virtual string f1312() { return "A.f1312"; }
public virtual string f1313() { return "A.f1313"; }
public virtual string f1314() { return "A.f1314"; }
public virtual string f1315() { return "A.f1315"; }
public virtual string f1316() { return "A.f1316"; }
public virtual string f1317() { return "A.f1317"; }
public virtual string f1318() { return "A.f1318"; }
public virtual string f1319() { return "A.f1319"; }
public virtual string f1320() { return "A.f1320"; }
public virtual string f1321() { return "A.f1321"; }
public virtual string f1322() { return "A.f1322"; }
public virtual string f1323() { return "A.f1323"; }
public virtual string f1324() { return "A.f1324"; }
public virtual string f1325() { return "A.f1325"; }
public virtual string f1326() { return "A.f1326"; }
public virtual string f1327() { return "A.f1327"; }
public virtual string f1328() { return "A.f1328"; }
public virtual string f1329() { return "A.f1329"; }
public virtual string f1330() { return "A.f1330"; }
public virtual string f1331() { return "A.f1331"; }
public virtual string f1332() { return "A.f1332"; }
public virtual string f1333() { return "A.f1333"; }
public virtual string f1334() { return "A.f1334"; }
public virtual string f1335() { return "A.f1335"; }
public virtual string f1336() { return "A.f1336"; }
public virtual string f1337() { return "A.f1337"; }
public virtual string f1338() { return "A.f1338"; }
public virtual string f1339() { return "A.f1339"; }
public virtual string f1340() { return "A.f1340"; }
public virtual string f1341() { return "A.f1341"; }
public virtual string f1342() { return "A.f1342"; }
public virtual string f1343() { return "A.f1343"; }
public virtual string f1344() { return "A.f1344"; }
public virtual string f1345() { return "A.f1345"; }
public virtual string f1346() { return "A.f1346"; }
public virtual string f1347() { return "A.f1347"; }
public virtual string f1348() { return "A.f1348"; }
public virtual string f1349() { return "A.f1349"; }
public virtual string f1350() { return "A.f1350"; }
public virtual string f1351() { return "A.f1351"; }
public virtual string f1352() { return "A.f1352"; }
public virtual string f1353() { return "A.f1353"; }
public virtual string f1354() { return "A.f1354"; }
public virtual string f1355() { return "A.f1355"; }
public virtual string f1356() { return "A.f1356"; }
public virtual string f1357() { return "A.f1357"; }
public virtual string f1358() { return "A.f1358"; }
public virtual string f1359() { return "A.f1359"; }
public virtual string f1360() { return "A.f1360"; }
public virtual string f1361() { return "A.f1361"; }
public virtual string f1362() { return "A.f1362"; }
public virtual string f1363() { return "A.f1363"; }
public virtual string f1364() { return "A.f1364"; }
public virtual string f1365() { return "A.f1365"; }
public virtual string f1366() { return "A.f1366"; }
public virtual string f1367() { return "A.f1367"; }
public virtual string f1368() { return "A.f1368"; }
public virtual string f1369() { return "A.f1369"; }
public virtual string f1370() { return "A.f1370"; }
public virtual string f1371() { return "A.f1371"; }
public virtual string f1372() { return "A.f1372"; }
public virtual string f1373() { return "A.f1373"; }
public virtual string f1374() { return "A.f1374"; }
public virtual string f1375() { return "A.f1375"; }
public virtual string f1376() { return "A.f1376"; }
public virtual string f1377() { return "A.f1377"; }
public virtual string f1378() { return "A.f1378"; }
public virtual string f1379() { return "A.f1379"; }
public virtual string f1380() { return "A.f1380"; }
public virtual string f1381() { return "A.f1381"; }
public virtual string f1382() { return "A.f1382"; }
public virtual string f1383() { return "A.f1383"; }
public virtual string f1384() { return "A.f1384"; }
public virtual string f1385() { return "A.f1385"; }
public virtual string f1386() { return "A.f1386"; }
public virtual string f1387() { return "A.f1387"; }
public virtual string f1388() { return "A.f1388"; }
public virtual string f1389() { return "A.f1389"; }
public virtual string f1390() { return "A.f1390"; }
public virtual string f1391() { return "A.f1391"; }
public virtual string f1392() { return "A.f1392"; }
public virtual string f1393() { return "A.f1393"; }
public virtual string f1394() { return "A.f1394"; }
public virtual string f1395() { return "A.f1395"; }
public virtual string f1396() { return "A.f1396"; }
public virtual string f1397() { return "A.f1397"; }
public virtual string f1398() { return "A.f1398"; }
public virtual string f1399() { return "A.f1399"; }
public virtual string f1400() { return "A.f1400"; }
public virtual string f1401() { return "A.f1401"; }
public virtual string f1402() { return "A.f1402"; }
public virtual string f1403() { return "A.f1403"; }
public virtual string f1404() { return "A.f1404"; }
public virtual string f1405() { return "A.f1405"; }
public virtual string f1406() { return "A.f1406"; }
public virtual string f1407() { return "A.f1407"; }
public virtual string f1408() { return "A.f1408"; }
public virtual string f1409() { return "A.f1409"; }
public virtual string f1410() { return "A.f1410"; }
public virtual string f1411() { return "A.f1411"; }
public virtual string f1412() { return "A.f1412"; }
public virtual string f1413() { return "A.f1413"; }
public virtual string f1414() { return "A.f1414"; }
public virtual string f1415() { return "A.f1415"; }
public virtual string f1416() { return "A.f1416"; }
public virtual string f1417() { return "A.f1417"; }
public virtual string f1418() { return "A.f1418"; }
public virtual string f1419() { return "A.f1419"; }
public virtual string f1420() { return "A.f1420"; }
public virtual string f1421() { return "A.f1421"; }
public virtual string f1422() { return "A.f1422"; }
public virtual string f1423() { return "A.f1423"; }
public virtual string f1424() { return "A.f1424"; }
public virtual string f1425() { return "A.f1425"; }
public virtual string f1426() { return "A.f1426"; }
public virtual string f1427() { return "A.f1427"; }
public virtual string f1428() { return "A.f1428"; }
public virtual string f1429() { return "A.f1429"; }
public virtual string f1430() { return "A.f1430"; }
public virtual string f1431() { return "A.f1431"; }
public virtual string f1432() { return "A.f1432"; }
public virtual string f1433() { return "A.f1433"; }
public virtual string f1434() { return "A.f1434"; }
public virtual string f1435() { return "A.f1435"; }
public virtual string f1436() { return "A.f1436"; }
public virtual string f1437() { return "A.f1437"; }
public virtual string f1438() { return "A.f1438"; }
public virtual string f1439() { return "A.f1439"; }
public virtual string f1440() { return "A.f1440"; }
public virtual string f1441() { return "A.f1441"; }
public virtual string f1442() { return "A.f1442"; }
public virtual string f1443() { return "A.f1443"; }
public virtual string f1444() { return "A.f1444"; }
public virtual string f1445() { return "A.f1445"; }
public virtual string f1446() { return "A.f1446"; }
public virtual string f1447() { return "A.f1447"; }
public virtual string f1448() { return "A.f1448"; }
public virtual string f1449() { return "A.f1449"; }
public virtual string f1450() { return "A.f1450"; }
public virtual string f1451() { return "A.f1451"; }
public virtual string f1452() { return "A.f1452"; }
public virtual string f1453() { return "A.f1453"; }
public virtual string f1454() { return "A.f1454"; }
public virtual string f1455() { return "A.f1455"; }
public virtual string f1456() { return "A.f1456"; }
public virtual string f1457() { return "A.f1457"; }
public virtual string f1458() { return "A.f1458"; }
public virtual string f1459() { return "A.f1459"; }
public virtual string f1460() { return "A.f1460"; }
public virtual string f1461() { return "A.f1461"; }
public virtual string f1462() { return "A.f1462"; }
public virtual string f1463() { return "A.f1463"; }
public virtual string f1464() { return "A.f1464"; }
public virtual string f1465() { return "A.f1465"; }
public virtual string f1466() { return "A.f1466"; }
public virtual string f1467() { return "A.f1467"; }
public virtual string f1468() { return "A.f1468"; }
public virtual string f1469() { return "A.f1469"; }
public virtual string f1470() { return "A.f1470"; }
public virtual string f1471() { return "A.f1471"; }
public virtual string f1472() { return "A.f1472"; }
public virtual string f1473() { return "A.f1473"; }
public virtual string f1474() { return "A.f1474"; }
public virtual string f1475() { return "A.f1475"; }
public virtual string f1476() { return "A.f1476"; }
public virtual string f1477() { return "A.f1477"; }
public virtual string f1478() { return "A.f1478"; }
public virtual string f1479() { return "A.f1479"; }
public virtual string f1480() { return "A.f1480"; }
public virtual string f1481() { return "A.f1481"; }
public virtual string f1482() { return "A.f1482"; }
public virtual string f1483() { return "A.f1483"; }
public virtual string f1484() { return "A.f1484"; }
public virtual string f1485() { return "A.f1485"; }
public virtual string f1486() { return "A.f1486"; }
public virtual string f1487() { return "A.f1487"; }
public virtual string f1488() { return "A.f1488"; }
public virtual string f1489() { return "A.f1489"; }
public virtual string f1490() { return "A.f1490"; }
public virtual string f1491() { return "A.f1491"; }
public virtual string f1492() { return "A.f1492"; }
public virtual string f1493() { return "A.f1493"; }
public virtual string f1494() { return "A.f1494"; }
public virtual string f1495() { return "A.f1495"; }
public virtual string f1496() { return "A.f1496"; }
public virtual string f1497() { return "A.f1497"; }
public virtual string f1498() { return "A.f1498"; }
public virtual string f1499() { return "A.f1499"; }
public virtual string f1500() { return "A.f1500"; }
public virtual string f1501() { return "A.f1501"; }
public virtual string f1502() { return "A.f1502"; }
public virtual string f1503() { return "A.f1503"; }
public virtual string f1504() { return "A.f1504"; }
public virtual string f1505() { return "A.f1505"; }
public virtual string f1506() { return "A.f1506"; }
public virtual string f1507() { return "A.f1507"; }
public virtual string f1508() { return "A.f1508"; }
public virtual string f1509() { return "A.f1509"; }
public virtual string f1510() { return "A.f1510"; }
public virtual string f1511() { return "A.f1511"; }
public virtual string f1512() { return "A.f1512"; }
public virtual string f1513() { return "A.f1513"; }
public virtual string f1514() { return "A.f1514"; }
public virtual string f1515() { return "A.f1515"; }
public virtual string f1516() { return "A.f1516"; }
public virtual string f1517() { return "A.f1517"; }
public virtual string f1518() { return "A.f1518"; }
public virtual string f1519() { return "A.f1519"; }
public virtual string f1520() { return "A.f1520"; }
public virtual string f1521() { return "A.f1521"; }
public virtual string f1522() { return "A.f1522"; }
public virtual string f1523() { return "A.f1523"; }
public virtual string f1524() { return "A.f1524"; }
public virtual string f1525() { return "A.f1525"; }
public virtual string f1526() { return "A.f1526"; }
public virtual string f1527() { return "A.f1527"; }
public virtual string f1528() { return "A.f1528"; }
public virtual string f1529() { return "A.f1529"; }
public virtual string f1530() { return "A.f1530"; }
public virtual string f1531() { return "A.f1531"; }
public virtual string f1532() { return "A.f1532"; }
public virtual string f1533() { return "A.f1533"; }
public virtual string f1534() { return "A.f1534"; }
public virtual string f1535() { return "A.f1535"; }
public virtual string f1536() { return "A.f1536"; }
public virtual string f1537() { return "A.f1537"; }
public virtual string f1538() { return "A.f1538"; }
public virtual string f1539() { return "A.f1539"; }
public virtual string f1540() { return "A.f1540"; }
public virtual string f1541() { return "A.f1541"; }
public virtual string f1542() { return "A.f1542"; }
public virtual string f1543() { return "A.f1543"; }
public virtual string f1544() { return "A.f1544"; }
public virtual string f1545() { return "A.f1545"; }
public virtual string f1546() { return "A.f1546"; }
public virtual string f1547() { return "A.f1547"; }
public virtual string f1548() { return "A.f1548"; }
public virtual string f1549() { return "A.f1549"; }
public virtual string f1550() { return "A.f1550"; }
public virtual string f1551() { return "A.f1551"; }
public virtual string f1552() { return "A.f1552"; }
public virtual string f1553() { return "A.f1553"; }
public virtual string f1554() { return "A.f1554"; }
public virtual string f1555() { return "A.f1555"; }
public virtual string f1556() { return "A.f1556"; }
public virtual string f1557() { return "A.f1557"; }
public virtual string f1558() { return "A.f1558"; }
public virtual string f1559() { return "A.f1559"; }
public virtual string f1560() { return "A.f1560"; }
public virtual string f1561() { return "A.f1561"; }
public virtual string f1562() { return "A.f1562"; }
public virtual string f1563() { return "A.f1563"; }
public virtual string f1564() { return "A.f1564"; }
public virtual string f1565() { return "A.f1565"; }
public virtual string f1566() { return "A.f1566"; }
public virtual string f1567() { return "A.f1567"; }
public virtual string f1568() { return "A.f1568"; }
public virtual string f1569() { return "A.f1569"; }
public virtual string f1570() { return "A.f1570"; }
public virtual string f1571() { return "A.f1571"; }
public virtual string f1572() { return "A.f1572"; }
public virtual string f1573() { return "A.f1573"; }
public virtual string f1574() { return "A.f1574"; }
public virtual string f1575() { return "A.f1575"; }
public virtual string f1576() { return "A.f1576"; }
public virtual string f1577() { return "A.f1577"; }
public virtual string f1578() { return "A.f1578"; }
public virtual string f1579() { return "A.f1579"; }
public virtual string f1580() { return "A.f1580"; }
public virtual string f1581() { return "A.f1581"; }
public virtual string f1582() { return "A.f1582"; }
public virtual string f1583() { return "A.f1583"; }
public virtual string f1584() { return "A.f1584"; }
public virtual string f1585() { return "A.f1585"; }
public virtual string f1586() { return "A.f1586"; }
public virtual string f1587() { return "A.f1587"; }
public virtual string f1588() { return "A.f1588"; }
public virtual string f1589() { return "A.f1589"; }
public virtual string f1590() { return "A.f1590"; }
public virtual string f1591() { return "A.f1591"; }
public virtual string f1592() { return "A.f1592"; }
public virtual string f1593() { return "A.f1593"; }
public virtual string f1594() { return "A.f1594"; }
public virtual string f1595() { return "A.f1595"; }
public virtual string f1596() { return "A.f1596"; }
public virtual string f1597() { return "A.f1597"; }
public virtual string f1598() { return "A.f1598"; }
public virtual string f1599() { return "A.f1599"; }
public virtual string f1600() { return "A.f1600"; }
public virtual string f1601() { return "A.f1601"; }
public virtual string f1602() { return "A.f1602"; }
public virtual string f1603() { return "A.f1603"; }
public virtual string f1604() { return "A.f1604"; }
public virtual string f1605() { return "A.f1605"; }
public virtual string f1606() { return "A.f1606"; }
public virtual string f1607() { return "A.f1607"; }
public virtual string f1608() { return "A.f1608"; }
public virtual string f1609() { return "A.f1609"; }
public virtual string f1610() { return "A.f1610"; }
public virtual string f1611() { return "A.f1611"; }
public virtual string f1612() { return "A.f1612"; }
public virtual string f1613() { return "A.f1613"; }
public virtual string f1614() { return "A.f1614"; }
public virtual string f1615() { return "A.f1615"; }
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public virtual string f1619() { return "A.f1619"; }
public virtual string f1620() { return "A.f1620"; }
public virtual string f1621() { return "A.f1621"; }
public virtual string f1622() { return "A.f1622"; }
public virtual string f1623() { return "A.f1623"; }
public virtual string f1624() { return "A.f1624"; }
public virtual string f1625() { return "A.f1625"; }
public virtual string f1626() { return "A.f1626"; }
public virtual string f1627() { return "A.f1627"; }
public virtual string f1628() { return "A.f1628"; }
public virtual string f1629() { return "A.f1629"; }
public virtual string f1630() { return "A.f1630"; }
public virtual string f1631() { return "A.f1631"; }
public virtual string f1632() { return "A.f1632"; }
public virtual string f1633() { return "A.f1633"; }
public virtual string f1634() { return "A.f1634"; }
public virtual string f1635() { return "A.f1635"; }
public virtual string f1636() { return "A.f1636"; }
public virtual string f1637() { return "A.f1637"; }
public virtual string f1638() { return "A.f1638"; }
public virtual string f1639() { return "A.f1639"; }
public virtual string f1640() { return "A.f1640"; }
public virtual string f1641() { return "A.f1641"; }
public virtual string f1642() { return "A.f1642"; }
public virtual string f1643() { return "A.f1643"; }
public virtual string f1644() { return "A.f1644"; }
public virtual string f1645() { return "A.f1645"; }
public virtual string f1646() { return "A.f1646"; }
public virtual string f1647() { return "A.f1647"; }
public virtual string f1648() { return "A.f1648"; }
public virtual string f1649() { return "A.f1649"; }
public virtual string f1650() { return "A.f1650"; }
public virtual string f1651() { return "A.f1651"; }
public virtual string f1652() { return "A.f1652"; }
public virtual string f1653() { return "A.f1653"; }
public virtual string f1654() { return "A.f1654"; }
public virtual string f1655() { return "A.f1655"; }
public virtual string f1656() { return "A.f1656"; }
public virtual string f1657() { return "A.f1657"; }
public virtual string f1658() { return "A.f1658"; }
public virtual string f1659() { return "A.f1659"; }
public virtual string f1660() { return "A.f1660"; }
public virtual string f1661() { return "A.f1661"; }
public virtual string f1662() { return "A.f1662"; }
public virtual string f1663() { return "A.f1663"; }
public virtual string f1664() { return "A.f1664"; }
public virtual string f1665() { return "A.f1665"; }
public virtual string f1666() { return "A.f1666"; }
public virtual string f1667() { return "A.f1667"; }
public virtual string f1668() { return "A.f1668"; }
public virtual string f1669() { return "A.f1669"; }
public virtual string f1670() { return "A.f1670"; }
public virtual string f1671() { return "A.f1671"; }
public virtual string f1672() { return "A.f1672"; }
public virtual string f1673() { return "A.f1673"; }
public virtual string f1674() { return "A.f1674"; }
public virtual string f1675() { return "A.f1675"; }
public virtual string f1676() { return "A.f1676"; }
public virtual string f1677() { return "A.f1677"; }
public virtual string f1678() { return "A.f1678"; }
public virtual string f1679() { return "A.f1679"; }
public virtual string f1680() { return "A.f1680"; }
public virtual string f1681() { return "A.f1681"; }
public virtual string f1682() { return "A.f1682"; }
public virtual string f1683() { return "A.f1683"; }
public virtual string f1684() { return "A.f1684"; }
public virtual string f1685() { return "A.f1685"; }
public virtual string f1686() { return "A.f1686"; }
public virtual string f1687() { return "A.f1687"; }
public virtual string f1688() { return "A.f1688"; }
public virtual string f1689() { return "A.f1689"; }
public virtual string f1690() { return "A.f1690"; }
public virtual string f1691() { return "A.f1691"; }
public virtual string f1692() { return "A.f1692"; }
public virtual string f1693() { return "A.f1693"; }
public virtual string f1694() { return "A.f1694"; }
public virtual string f1695() { return "A.f1695"; }
public virtual string f1696() { return "A.f1696"; }
public virtual string f1697() { return "A.f1697"; }
public virtual string f1698() { return "A.f1698"; }
public virtual string f1699() { return "A.f1699"; }
public virtual string f1700() { return "A.f1700"; }
public virtual string f1701() { return "A.f1701"; }
public virtual string f1702() { return "A.f1702"; }
public virtual string f1703() { return "A.f1703"; }
public virtual string f1704() { return "A.f1704"; }
public virtual string f1705() { return "A.f1705"; }
public virtual string f1706() { return "A.f1706"; }
public virtual string f1707() { return "A.f1707"; }
public virtual string f1708() { return "A.f1708"; }
public virtual string f1709() { return "A.f1709"; }
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public virtual string f1711() { return "A.f1711"; }
public virtual string f1712() { return "A.f1712"; }
public virtual string f1713() { return "A.f1713"; }
public virtual string f1714() { return "A.f1714"; }
public virtual string f1715() { return "A.f1715"; }
public virtual string f1716() { return "A.f1716"; }
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public virtual string f1718() { return "A.f1718"; }
public virtual string f1719() { return "A.f1719"; }
public virtual string f1720() { return "A.f1720"; }
public virtual string f1721() { return "A.f1721"; }
public virtual string f1722() { return "A.f1722"; }
public virtual string f1723() { return "A.f1723"; }
public virtual string f1724() { return "A.f1724"; }
public virtual string f1725() { return "A.f1725"; }
public virtual string f1726() { return "A.f1726"; }
public virtual string f1727() { return "A.f1727"; }
public virtual string f1728() { return "A.f1728"; }
public virtual string f1729() { return "A.f1729"; }
public virtual string f1730() { return "A.f1730"; }
public virtual string f1731() { return "A.f1731"; }
public virtual string f1732() { return "A.f1732"; }
public virtual string f1733() { return "A.f1733"; }
public virtual string f1734() { return "A.f1734"; }
public virtual string f1735() { return "A.f1735"; }
public virtual string f1736() { return "A.f1736"; }
public virtual string f1737() { return "A.f1737"; }
public virtual string f1738() { return "A.f1738"; }
public virtual string f1739() { return "A.f1739"; }
public virtual string f1740() { return "A.f1740"; }
public virtual string f1741() { return "A.f1741"; }
public virtual string f1742() { return "A.f1742"; }
public virtual string f1743() { return "A.f1743"; }
public virtual string f1744() { return "A.f1744"; }
public virtual string f1745() { return "A.f1745"; }
public virtual string f1746() { return "A.f1746"; }
public virtual string f1747() { return "A.f1747"; }
public virtual string f1748() { return "A.f1748"; }
public virtual string f1749() { return "A.f1749"; }
public virtual string f1750() { return "A.f1750"; }
public virtual string f1751() { return "A.f1751"; }
public virtual string f1752() { return "A.f1752"; }
public virtual string f1753() { return "A.f1753"; }
public virtual string f1754() { return "A.f1754"; }
public virtual string f1755() { return "A.f1755"; }
public virtual string f1756() { return "A.f1756"; }
public virtual string f1757() { return "A.f1757"; }
public virtual string f1758() { return "A.f1758"; }
public virtual string f1759() { return "A.f1759"; }
public virtual string f1760() { return "A.f1760"; }
public virtual string f1761() { return "A.f1761"; }
public virtual string f1762() { return "A.f1762"; }
public virtual string f1763() { return "A.f1763"; }
public virtual string f1764() { return "A.f1764"; }
public virtual string f1765() { return "A.f1765"; }
public virtual string f1766() { return "A.f1766"; }
public virtual string f1767() { return "A.f1767"; }
public virtual string f1768() { return "A.f1768"; }
public virtual string f1769() { return "A.f1769"; }
public virtual string f1770() { return "A.f1770"; }
public virtual string f1771() { return "A.f1771"; }
public virtual string f1772() { return "A.f1772"; }
public virtual string f1773() { return "A.f1773"; }
public virtual string f1774() { return "A.f1774"; }
public virtual string f1775() { return "A.f1775"; }
public virtual string f1776() { return "A.f1776"; }
public virtual string f1777() { return "A.f1777"; }
public virtual string f1778() { return "A.f1778"; }
public virtual string f1779() { return "A.f1779"; }
public virtual string f1780() { return "A.f1780"; }
public virtual string f1781() { return "A.f1781"; }
public virtual string f1782() { return "A.f1782"; }
public virtual string f1783() { return "A.f1783"; }
public virtual string f1784() { return "A.f1784"; }
public virtual string f1785() { return "A.f1785"; }
public virtual string f1786() { return "A.f1786"; }
public virtual string f1787() { return "A.f1787"; }
public virtual string f1788() { return "A.f1788"; }
public virtual string f1789() { return "A.f1789"; }
public virtual string f1790() { return "A.f1790"; }
public virtual string f1791() { return "A.f1791"; }
public virtual string f1792() { return "A.f1792"; }
public virtual string f1793() { return "A.f1793"; }
public virtual string f1794() { return "A.f1794"; }
public virtual string f1795() { return "A.f1795"; }
public virtual string f1796() { return "A.f1796"; }
public virtual string f1797() { return "A.f1797"; }
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public virtual string f1800() { return "A.f1800"; }
public virtual string f1801() { return "A.f1801"; }
public virtual string f1802() { return "A.f1802"; }
public virtual string f1803() { return "A.f1803"; }
public virtual string f1804() { return "A.f1804"; }
public virtual string f1805() { return "A.f1805"; }
public virtual string f1806() { return "A.f1806"; }
public virtual string f1807() { return "A.f1807"; }
public virtual string f1808() { return "A.f1808"; }
public virtual string f1809() { return "A.f1809"; }
public virtual string f1810() { return "A.f1810"; }
public virtual string f1811() { return "A.f1811"; }
public virtual string f1812() { return "A.f1812"; }
public virtual string f1813() { return "A.f1813"; }
public virtual string f1814() { return "A.f1814"; }
public virtual string f1815() { return "A.f1815"; }
public virtual string f1816() { return "A.f1816"; }
public virtual string f1817() { return "A.f1817"; }
public virtual string f1818() { return "A.f1818"; }
public virtual string f1819() { return "A.f1819"; }
public virtual string f1820() { return "A.f1820"; }
public virtual string f1821() { return "A.f1821"; }
public virtual string f1822() { return "A.f1822"; }
public virtual string f1823() { return "A.f1823"; }
public virtual string f1824() { return "A.f1824"; }
public virtual string f1825() { return "A.f1825"; }
public virtual string f1826() { return "A.f1826"; }
public virtual string f1827() { return "A.f1827"; }
public virtual string f1828() { return "A.f1828"; }
public virtual string f1829() { return "A.f1829"; }
public virtual string f1830() { return "A.f1830"; }
public virtual string f1831() { return "A.f1831"; }
public virtual string f1832() { return "A.f1832"; }
public virtual string f1833() { return "A.f1833"; }
public virtual string f1834() { return "A.f1834"; }
public virtual string f1835() { return "A.f1835"; }
public virtual string f1836() { return "A.f1836"; }
public virtual string f1837() { return "A.f1837"; }
public virtual string f1838() { return "A.f1838"; }
public virtual string f1839() { return "A.f1839"; }
public virtual string f1840() { return "A.f1840"; }
public virtual string f1841() { return "A.f1841"; }
public virtual string f1842() { return "A.f1842"; }
public virtual string f1843() { return "A.f1843"; }
public virtual string f1844() { return "A.f1844"; }
public virtual string f1845() { return "A.f1845"; }
public virtual string f1846() { return "A.f1846"; }
public virtual string f1847() { return "A.f1847"; }
public virtual string f1848() { return "A.f1848"; }
public virtual string f1849() { return "A.f1849"; }
public virtual string f1850() { return "A.f1850"; }
public virtual string f1851() { return "A.f1851"; }
public virtual string f1852() { return "A.f1852"; }
public virtual string f1853() { return "A.f1853"; }
public virtual string f1854() { return "A.f1854"; }
public virtual string f1855() { return "A.f1855"; }
public virtual string f1856() { return "A.f1856"; }
public virtual string f1857() { return "A.f1857"; }
public virtual string f1858() { return "A.f1858"; }
public virtual string f1859() { return "A.f1859"; }
public virtual string f1860() { return "A.f1860"; }
public virtual string f1861() { return "A.f1861"; }
public virtual string f1862() { return "A.f1862"; }
public virtual string f1863() { return "A.f1863"; }
public virtual string f1864() { return "A.f1864"; }
public virtual string f1865() { return "A.f1865"; }
public virtual string f1866() { return "A.f1866"; }
public virtual string f1867() { return "A.f1867"; }
public virtual string f1868() { return "A.f1868"; }
public virtual string f1869() { return "A.f1869"; }
public virtual string f1870() { return "A.f1870"; }
public virtual string f1871() { return "A.f1871"; }
public virtual string f1872() { return "A.f1872"; }
public virtual string f1873() { return "A.f1873"; }
public virtual string f1874() { return "A.f1874"; }
public virtual string f1875() { return "A.f1875"; }
public virtual string f1876() { return "A.f1876"; }
public virtual string f1877() { return "A.f1877"; }
public virtual string f1878() { return "A.f1878"; }
public virtual string f1879() { return "A.f1879"; }
public virtual string f1880() { return "A.f1880"; }
public virtual string f1881() { return "A.f1881"; }
public virtual string f1882() { return "A.f1882"; }
public virtual string f1883() { return "A.f1883"; }
public virtual string f1884() { return "A.f1884"; }
public virtual string f1885() { return "A.f1885"; }
public virtual string f1886() { return "A.f1886"; }
public virtual string f1887() { return "A.f1887"; }
public virtual string f1888() { return "A.f1888"; }
public virtual string f1889() { return "A.f1889"; }
public virtual string f1890() { return "A.f1890"; }
public virtual string f1891() { return "A.f1891"; }
public virtual string f1892() { return "A.f1892"; }
public virtual string f1893() { return "A.f1893"; }
public virtual string f1894() { return "A.f1894"; }
public virtual string f1895() { return "A.f1895"; }
public virtual string f1896() { return "A.f1896"; }
public virtual string f1897() { return "A.f1897"; }
public virtual string f1898() { return "A.f1898"; }
public virtual string f1899() { return "A.f1899"; }
public virtual string f1900() { return "A.f1900"; }
public virtual string f1901() { return "A.f1901"; }
public virtual string f1902() { return "A.f1902"; }
public virtual string f1903() { return "A.f1903"; }
public virtual string f1904() { return "A.f1904"; }
public virtual string f1905() { return "A.f1905"; }
public virtual string f1906() { return "A.f1906"; }
public virtual string f1907() { return "A.f1907"; }
public virtual string f1908() { return "A.f1908"; }
public virtual string f1909() { return "A.f1909"; }
public virtual string f1910() { return "A.f1910"; }
public virtual string f1911() { return "A.f1911"; }
public virtual string f1912() { return "A.f1912"; }
public virtual string f1913() { return "A.f1913"; }
public virtual string f1914() { return "A.f1914"; }
public virtual string f1915() { return "A.f1915"; }
public virtual string f1916() { return "A.f1916"; }
public virtual string f1917() { return "A.f1917"; }
public virtual string f1918() { return "A.f1918"; }
public virtual string f1919() { return "A.f1919"; }
public virtual string f1920() { return "A.f1920"; }
public virtual string f1921() { return "A.f1921"; }
public virtual string f1922() { return "A.f1922"; }
public virtual string f1923() { return "A.f1923"; }
public virtual string f1924() { return "A.f1924"; }
public virtual string f1925() { return "A.f1925"; }
public virtual string f1926() { return "A.f1926"; }
public virtual string f1927() { return "A.f1927"; }
public virtual string f1928() { return "A.f1928"; }
public virtual string f1929() { return "A.f1929"; }
public virtual string f1930() { return "A.f1930"; }
public virtual string f1931() { return "A.f1931"; }
public virtual string f1932() { return "A.f1932"; }
public virtual string f1933() { return "A.f1933"; }
public virtual string f1934() { return "A.f1934"; }
public virtual string f1935() { return "A.f1935"; }
public virtual string f1936() { return "A.f1936"; }
public virtual string f1937() { return "A.f1937"; }
public virtual string f1938() { return "A.f1938"; }
public virtual string f1939() { return "A.f1939"; }
public virtual string f1940() { return "A.f1940"; }
public virtual string f1941() { return "A.f1941"; }
public virtual string f1942() { return "A.f1942"; }
public virtual string f1943() { return "A.f1943"; }
public virtual string f1944() { return "A.f1944"; }
public virtual string f1945() { return "A.f1945"; }
public virtual string f1946() { return "A.f1946"; }
public virtual string f1947() { return "A.f1947"; }
public virtual string f1948() { return "A.f1948"; }
public virtual string f1949() { return "A.f1949"; }
public virtual string f1950() { return "A.f1950"; }
public virtual string f1951() { return "A.f1951"; }
public virtual string f1952() { return "A.f1952"; }
public virtual string f1953() { return "A.f1953"; }
public virtual string f1954() { return "A.f1954"; }
public virtual string f1955() { return "A.f1955"; }
public virtual string f1956() { return "A.f1956"; }
public virtual string f1957() { return "A.f1957"; }
public virtual string f1958() { return "A.f1958"; }
public virtual string f1959() { return "A.f1959"; }
public virtual string f1960() { return "A.f1960"; }
public virtual string f1961() { return "A.f1961"; }
public virtual string f1962() { return "A.f1962"; }
public virtual string f1963() { return "A.f1963"; }
public virtual string f1964() { return "A.f1964"; }
public virtual string f1965() { return "A.f1965"; }
public virtual string f1966() { return "A.f1966"; }
public virtual string f1967() { return "A.f1967"; }
public virtual string f1968() { return "A.f1968"; }
public virtual string f1969() { return "A.f1969"; }
public virtual string f1970() { return "A.f1970"; }
public virtual string f1971() { return "A.f1971"; }
public virtual string f1972() { return "A.f1972"; }
public virtual string f1973() { return "A.f1973"; }
public virtual string f1974() { return "A.f1974"; }
public virtual string f1975() { return "A.f1975"; }
public virtual string f1976() { return "A.f1976"; }
public virtual string f1977() { return "A.f1977"; }
public virtual string f1978() { return "A.f1978"; }
public virtual string f1979() { return "A.f1979"; }
public virtual string f1980() { return "A.f1980"; }
public virtual string f1981() { return "A.f1981"; }
public virtual string f1982() { return "A.f1982"; }
public virtual string f1983() { return "A.f1983"; }
public virtual string f1984() { return "A.f1984"; }
public virtual string f1985() { return "A.f1985"; }
public virtual string f1986() { return "A.f1986"; }
public virtual string f1987() { return "A.f1987"; }
public virtual string f1988() { return "A.f1988"; }
public virtual string f1989() { return "A.f1989"; }
public virtual string f1990() { return "A.f1990"; }
public virtual string f1991() { return "A.f1991"; }
public virtual string f1992() { return "A.f1992"; }
public virtual string f1993() { return "A.f1993"; }
public virtual string f1994() { return "A.f1994"; }
public virtual string f1995() { return "A.f1995"; }
public virtual string f1996() { return "A.f1996"; }
public virtual string f1997() { return "A.f1997"; }
public virtual string f1998() { return "A.f1998"; }
public virtual string f1999() { return "A.f1999"; }
public virtual string f2000() { return "A.f2000"; }
public virtual string f2001() { return "A.f2001"; }
public virtual string f2002() { return "A.f2002"; }
public virtual string f2003() { return "A.f2003"; }
public virtual string f2004() { return "A.f2004"; }
public virtual string f2005() { return "A.f2005"; }
public virtual string f2006() { return "A.f2006"; }
public virtual string f2007() { return "A.f2007"; }
public virtual string f2008() { return "A.f2008"; }
public virtual string f2009() { return "A.f2009"; }
public virtual string f2010() { return "A.f2010"; }
public virtual string f2011() { return "A.f2011"; }
public virtual string f2012() { return "A.f2012"; }
public virtual string f2013() { return "A.f2013"; }
public virtual string f2014() { return "A.f2014"; }
public virtual string f2015() { return "A.f2015"; }
public virtual string f2016() { return "A.f2016"; }
public virtual string f2017() { return "A.f2017"; }
public virtual string f2018() { return "A.f2018"; }
public virtual string f2019() { return "A.f2019"; }
public virtual string f2020() { return "A.f2020"; }
public virtual string f2021() { return "A.f2021"; }
public virtual string f2022() { return "A.f2022"; }
public virtual string f2023() { return "A.f2023"; }
public virtual string f2024() { return "A.f2024"; }
public virtual string f2025() { return "A.f2025"; }
public virtual string f2026() { return "A.f2026"; }
public virtual string f2027() { return "A.f2027"; }
public virtual string f2028() { return "A.f2028"; }
public virtual string f2029() { return "A.f2029"; }
public virtual string f2030() { return "A.f2030"; }
public virtual string f2031() { return "A.f2031"; }
public virtual string f2032() { return "A.f2032"; }
public virtual string f2033() { return "A.f2033"; }
public virtual string f2034() { return "A.f2034"; }
public virtual string f2035() { return "A.f2035"; }
public virtual string f2036() { return "A.f2036"; }
public virtual string f2037() { return "A.f2037"; }
public virtual string f2038() { return "A.f2038"; }
public virtual string f2039() { return "A.f2039"; }
public virtual string f2040() { return "A.f2040"; }
public virtual string f2041() { return "A.f2041"; }
public virtual string f2042() { return "A.f2042"; }
public virtual string f2043() { return "A.f2043"; }
public virtual string f2044() { return "A.f2044"; }
public virtual string f2045() { return "A.f2045"; }
public virtual string f2046() { return "A.f2046"; }
public virtual string f2047() { return "A.f2047"; }
public virtual string f2048() { return "A.f2048"; }
public virtual string f2049() { return "A.f2049"; }
public virtual string f2050() { return "A.f2050"; }
public virtual string f2051() { return "A.f2051"; }
public virtual string f2052() { return "A.f2052"; }
public virtual string f2053() { return "A.f2053"; }
public virtual string f2054() { return "A.f2054"; }
public virtual string f2055() { return "A.f2055"; }
public virtual string f2056() { return "A.f2056"; }
public virtual string f2057() { return "A.f2057"; }
public virtual string f2058() { return "A.f2058"; }
public virtual string f2059() { return "A.f2059"; }
public virtual string f2060() { return "A.f2060"; }
public virtual string f2061() { return "A.f2061"; }
public virtual string f2062() { return "A.f2062"; }
public virtual string f2063() { return "A.f2063"; }
public virtual string f2064() { return "A.f2064"; }
public virtual string f2065() { return "A.f2065"; }
public virtual string f2066() { return "A.f2066"; }
public virtual string f2067() { return "A.f2067"; }
public virtual string f2068() { return "A.f2068"; }
public virtual string f2069() { return "A.f2069"; }
public virtual string f2070() { return "A.f2070"; }
public virtual string f2071() { return "A.f2071"; }
public virtual string f2072() { return "A.f2072"; }
public virtual string f2073() { return "A.f2073"; }
public virtual string f2074() { return "A.f2074"; }
public virtual string f2075() { return "A.f2075"; }
public virtual string f2076() { return "A.f2076"; }
public virtual string f2077() { return "A.f2077"; }
public virtual string f2078() { return "A.f2078"; }
public virtual string f2079() { return "A.f2079"; }
public virtual string f2080() { return "A.f2080"; }
public virtual string f2081() { return "A.f2081"; }
public virtual string f2082() { return "A.f2082"; }
public virtual string f2083() { return "A.f2083"; }
public virtual string f2084() { return "A.f2084"; }
public virtual string f2085() { return "A.f2085"; }
public virtual string f2086() { return "A.f2086"; }
public virtual string f2087() { return "A.f2087"; }
public virtual string f2088() { return "A.f2088"; }
public virtual string f2089() { return "A.f2089"; }
public virtual string f2090() { return "A.f2090"; }
public virtual string f2091() { return "A.f2091"; }
public virtual string f2092() { return "A.f2092"; }
public virtual string f2093() { return "A.f2093"; }
public virtual string f2094() { return "A.f2094"; }
public virtual string f2095() { return "A.f2095"; }
public virtual string f2096() { return "A.f2096"; }
public virtual string f2097() { return "A.f2097"; }
public virtual string f2098() { return "A.f2098"; }
public virtual string f2099() { return "A.f2099"; }
public virtual string f2100() { return "A.f2100"; }
public virtual string f2101() { return "A.f2101"; }
public virtual string f2102() { return "A.f2102"; }
public virtual string f2103() { return "A.f2103"; }
public virtual string f2104() { return "A.f2104"; }
public virtual string f2105() { return "A.f2105"; }
public virtual string f2106() { return "A.f2106"; }
public virtual string f2107() { return "A.f2107"; }
public virtual string f2108() { return "A.f2108"; }
public virtual string f2109() { return "A.f2109"; }
public virtual string f2110() { return "A.f2110"; }
public virtual string f2111() { return "A.f2111"; }
public virtual string f2112() { return "A.f2112"; }
public virtual string f2113() { return "A.f2113"; }
public virtual string f2114() { return "A.f2114"; }
public virtual string f2115() { return "A.f2115"; }
public virtual string f2116() { return "A.f2116"; }
public virtual string f2117() { return "A.f2117"; }
public virtual string f2118() { return "A.f2118"; }
public virtual string f2119() { return "A.f2119"; }
public virtual string f2120() { return "A.f2120"; }
public virtual string f2121() { return "A.f2121"; }
public virtual string f2122() { return "A.f2122"; }
public virtual string f2123() { return "A.f2123"; }
public virtual string f2124() { return "A.f2124"; }
public virtual string f2125() { return "A.f2125"; }
public virtual string f2126() { return "A.f2126"; }
public virtual string f2127() { return "A.f2127"; }
public virtual string f2128() { return "A.f2128"; }
public virtual string f2129() { return "A.f2129"; }
public virtual string f2130() { return "A.f2130"; }
public virtual string f2131() { return "A.f2131"; }
public virtual string f2132() { return "A.f2132"; }
public virtual string f2133() { return "A.f2133"; }
public virtual string f2134() { return "A.f2134"; }
public virtual string f2135() { return "A.f2135"; }
public virtual string f2136() { return "A.f2136"; }
public virtual string f2137() { return "A.f2137"; }
public virtual string f2138() { return "A.f2138"; }
public virtual string f2139() { return "A.f2139"; }
public virtual string f2140() { return "A.f2140"; }
public virtual string f2141() { return "A.f2141"; }
public virtual string f2142() { return "A.f2142"; }
public virtual string f2143() { return "A.f2143"; }
public virtual string f2144() { return "A.f2144"; }
public virtual string f2145() { return "A.f2145"; }
public virtual string f2146() { return "A.f2146"; }
public virtual string f2147() { return "A.f2147"; }
public virtual string f2148() { return "A.f2148"; }
public virtual string f2149() { return "A.f2149"; }
public virtual string f2150() { return "A.f2150"; }
public virtual string f2151() { return "A.f2151"; }
public virtual string f2152() { return "A.f2152"; }
public virtual string f2153() { return "A.f2153"; }
public virtual string f2154() { return "A.f2154"; }
public virtual string f2155() { return "A.f2155"; }
public virtual string f2156() { return "A.f2156"; }
public virtual string f2157() { return "A.f2157"; }
public virtual string f2158() { return "A.f2158"; }
public virtual string f2159() { return "A.f2159"; }
public virtual string f2160() { return "A.f2160"; }
public virtual string f2161() { return "A.f2161"; }
public virtual string f2162() { return "A.f2162"; }
public virtual string f2163() { return "A.f2163"; }
public virtual string f2164() { return "A.f2164"; }
public virtual string f2165() { return "A.f2165"; }
public virtual string f2166() { return "A.f2166"; }
public virtual string f2167() { return "A.f2167"; }
public virtual string f2168() { return "A.f2168"; }
public virtual string f2169() { return "A.f2169"; }
public virtual string f2170() { return "A.f2170"; }
public virtual string f2171() { return "A.f2171"; }
public virtual string f2172() { return "A.f2172"; }
public virtual string f2173() { return "A.f2173"; }
public virtual string f2174() { return "A.f2174"; }
public virtual string f2175() { return "A.f2175"; }
public virtual string f2176() { return "A.f2176"; }
public virtual string f2177() { return "A.f2177"; }
public virtual string f2178() { return "A.f2178"; }
public virtual string f2179() { return "A.f2179"; }
public virtual string f2180() { return "A.f2180"; }
public virtual string f2181() { return "A.f2181"; }
public virtual string f2182() { return "A.f2182"; }
public virtual string f2183() { return "A.f2183"; }
public virtual string f2184() { return "A.f2184"; }
public virtual string f2185() { return "A.f2185"; }
public virtual string f2186() { return "A.f2186"; }
public virtual string f2187() { return "A.f2187"; }
public virtual string f2188() { return "A.f2188"; }
public virtual string f2189() { return "A.f2189"; }
public virtual string f2190() { return "A.f2190"; }
public virtual string f2191() { return "A.f2191"; }
public virtual string f2192() { return "A.f2192"; }
public virtual string f2193() { return "A.f2193"; }
public virtual string f2194() { return "A.f2194"; }
public virtual string f2195() { return "A.f2195"; }
public virtual string f2196() { return "A.f2196"; }
public virtual string f2197() { return "A.f2197"; }
public virtual string f2198() { return "A.f2198"; }
public virtual string f2199() { return "A.f2199"; }
public virtual string f2200() { return "A.f2200"; }
public virtual string f2201() { return "A.f2201"; }
public virtual string f2202() { return "A.f2202"; }
public virtual string f2203() { return "A.f2203"; }
public virtual string f2204() { return "A.f2204"; }
public virtual string f2205() { return "A.f2205"; }
public virtual string f2206() { return "A.f2206"; }
public virtual string f2207() { return "A.f2207"; }
public virtual string f2208() { return "A.f2208"; }
public virtual string f2209() { return "A.f2209"; }
public virtual string f2210() { return "A.f2210"; }
public virtual string f2211() { return "A.f2211"; }
public virtual string f2212() { return "A.f2212"; }
public virtual string f2213() { return "A.f2213"; }
public virtual string f2214() { return "A.f2214"; }
public virtual string f2215() { return "A.f2215"; }
public virtual string f2216() { return "A.f2216"; }
public virtual string f2217() { return "A.f2217"; }
public virtual string f2218() { return "A.f2218"; }
public virtual string f2219() { return "A.f2219"; }
public virtual string f2220() { return "A.f2220"; }
public virtual string f2221() { return "A.f2221"; }
public virtual string f2222() { return "A.f2222"; }
public virtual string f2223() { return "A.f2223"; }
public virtual string f2224() { return "A.f2224"; }
public virtual string f2225() { return "A.f2225"; }
public virtual string f2226() { return "A.f2226"; }
public virtual string f2227() { return "A.f2227"; }
public virtual string f2228() { return "A.f2228"; }
public virtual string f2229() { return "A.f2229"; }
public virtual string f2230() { return "A.f2230"; }
public virtual string f2231() { return "A.f2231"; }
public virtual string f2232() { return "A.f2232"; }
public virtual string f2233() { return "A.f2233"; }
public virtual string f2234() { return "A.f2234"; }
public virtual string f2235() { return "A.f2235"; }
public virtual string f2236() { return "A.f2236"; }
public virtual string f2237() { return "A.f2237"; }
public virtual string f2238() { return "A.f2238"; }
public virtual string f2239() { return "A.f2239"; }
public virtual string f2240() { return "A.f2240"; }
public virtual string f2241() { return "A.f2241"; }
public virtual string f2242() { return "A.f2242"; }
public virtual string f2243() { return "A.f2243"; }
public virtual string f2244() { return "A.f2244"; }
public virtual string f2245() { return "A.f2245"; }
public virtual string f2246() { return "A.f2246"; }
public virtual string f2247() { return "A.f2247"; }
public virtual string f2248() { return "A.f2248"; }
public virtual string f2249() { return "A.f2249"; }
public virtual string f2250() { return "A.f2250"; }
public virtual string f2251() { return "A.f2251"; }
public virtual string f2252() { return "A.f2252"; }
public virtual string f2253() { return "A.f2253"; }
public virtual string f2254() { return "A.f2254"; }
public virtual string f2255() { return "A.f2255"; }
public virtual string f2256() { return "A.f2256"; }
public virtual string f2257() { return "A.f2257"; }
public virtual string f2258() { return "A.f2258"; }
public virtual string f2259() { return "A.f2259"; }
public virtual string f2260() { return "A.f2260"; }
public virtual string f2261() { return "A.f2261"; }
public virtual string f2262() { return "A.f2262"; }
public virtual string f2263() { return "A.f2263"; }
public virtual string f2264() { return "A.f2264"; }
public virtual string f2265() { return "A.f2265"; }
public virtual string f2266() { return "A.f2266"; }
public virtual string f2267() { return "A.f2267"; }
public virtual string f2268() { return "A.f2268"; }
public virtual string f2269() { return "A.f2269"; }
public virtual string f2270() { return "A.f2270"; }
public virtual string f2271() { return "A.f2271"; }
public virtual string f2272() { return "A.f2272"; }
public virtual string f2273() { return "A.f2273"; }
public virtual string f2274() { return "A.f2274"; }
public virtual string f2275() { return "A.f2275"; }
public virtual string f2276() { return "A.f2276"; }
public virtual string f2277() { return "A.f2277"; }
public virtual string f2278() { return "A.f2278"; }
public virtual string f2279() { return "A.f2279"; }
public virtual string f2280() { return "A.f2280"; }
public virtual string f2281() { return "A.f2281"; }
public virtual string f2282() { return "A.f2282"; }
public virtual string f2283() { return "A.f2283"; }
public virtual string f2284() { return "A.f2284"; }
public virtual string f2285() { return "A.f2285"; }
public virtual string f2286() { return "A.f2286"; }
public virtual string f2287() { return "A.f2287"; }
public virtual string f2288() { return "A.f2288"; }
public virtual string f2289() { return "A.f2289"; }
public virtual string f2290() { return "A.f2290"; }
public virtual string f2291() { return "A.f2291"; }
public virtual string f2292() { return "A.f2292"; }
public virtual string f2293() { return "A.f2293"; }
public virtual string f2294() { return "A.f2294"; }
public virtual string f2295() { return "A.f2295"; }
public virtual string f2296() { return "A.f2296"; }
public virtual string f2297() { return "A.f2297"; }
public virtual string f2298() { return "A.f2298"; }
public virtual string f2299() { return "A.f2299"; }
public virtual string f2300() { return "A.f2300"; }
public virtual string f2301() { return "A.f2301"; }
public virtual string f2302() { return "A.f2302"; }
public virtual string f2303() { return "A.f2303"; }
public virtual string f2304() { return "A.f2304"; }
public virtual string f2305() { return "A.f2305"; }
public virtual string f2306() { return "A.f2306"; }
public virtual string f2307() { return "A.f2307"; }
public virtual string f2308() { return "A.f2308"; }
public virtual string f2309() { return "A.f2309"; }
public virtual string f2310() { return "A.f2310"; }
public virtual string f2311() { return "A.f2311"; }
public virtual string f2312() { return "A.f2312"; }
public virtual string f2313() { return "A.f2313"; }
public virtual string f2314() { return "A.f2314"; }
public virtual string f2315() { return "A.f2315"; }
public virtual string f2316() { return "A.f2316"; }
public virtual string f2317() { return "A.f2317"; }
public virtual string f2318() { return "A.f2318"; }
public virtual string f2319() { return "A.f2319"; }
public virtual string f2320() { return "A.f2320"; }
public virtual string f2321() { return "A.f2321"; }
public virtual string f2322() { return "A.f2322"; }
public virtual string f2323() { return "A.f2323"; }
public virtual string f2324() { return "A.f2324"; }
public virtual string f2325() { return "A.f2325"; }
public virtual string f2326() { return "A.f2326"; }
public virtual string f2327() { return "A.f2327"; }
public virtual string f2328() { return "A.f2328"; }
public virtual string f2329() { return "A.f2329"; }
public virtual string f2330() { return "A.f2330"; }
public virtual string f2331() { return "A.f2331"; }
public virtual string f2332() { return "A.f2332"; }
public virtual string f2333() { return "A.f2333"; }
public virtual string f2334() { return "A.f2334"; }
public virtual string f2335() { return "A.f2335"; }
public virtual string f2336() { return "A.f2336"; }
public virtual string f2337() { return "A.f2337"; }
public virtual string f2338() { return "A.f2338"; }
public virtual string f2339() { return "A.f2339"; }
public virtual string f2340() { return "A.f2340"; }
public virtual string f2341() { return "A.f2341"; }
public virtual string f2342() { return "A.f2342"; }
public virtual string f2343() { return "A.f2343"; }
public virtual string f2344() { return "A.f2344"; }
public virtual string f2345() { return "A.f2345"; }
public virtual string f2346() { return "A.f2346"; }
public virtual string f2347() { return "A.f2347"; }
public virtual string f2348() { return "A.f2348"; }
public virtual string f2349() { return "A.f2349"; }
public virtual string f2350() { return "A.f2350"; }
public virtual string f2351() { return "A.f2351"; }
public virtual string f2352() { return "A.f2352"; }
public virtual string f2353() { return "A.f2353"; }
public virtual string f2354() { return "A.f2354"; }
public virtual string f2355() { return "A.f2355"; }
public virtual string f2356() { return "A.f2356"; }
public virtual string f2357() { return "A.f2357"; }
public virtual string f2358() { return "A.f2358"; }
public virtual string f2359() { return "A.f2359"; }
public virtual string f2360() { return "A.f2360"; }
public virtual string f2361() { return "A.f2361"; }
public virtual string f2362() { return "A.f2362"; }
public virtual string f2363() { return "A.f2363"; }
public virtual string f2364() { return "A.f2364"; }
public virtual string f2365() { return "A.f2365"; }
public virtual string f2366() { return "A.f2366"; }
public virtual string f2367() { return "A.f2367"; }
public virtual string f2368() { return "A.f2368"; }
public virtual string f2369() { return "A.f2369"; }
public virtual string f2370() { return "A.f2370"; }
public virtual string f2371() { return "A.f2371"; }
public virtual string f2372() { return "A.f2372"; }
public virtual string f2373() { return "A.f2373"; }
public virtual string f2374() { return "A.f2374"; }
public virtual string f2375() { return "A.f2375"; }
public virtual string f2376() { return "A.f2376"; }
public virtual string f2377() { return "A.f2377"; }
public virtual string f2378() { return "A.f2378"; }
public virtual string f2379() { return "A.f2379"; }
public virtual string f2380() { return "A.f2380"; }
public virtual string f2381() { return "A.f2381"; }
public virtual string f2382() { return "A.f2382"; }
public virtual string f2383() { return "A.f2383"; }
public virtual string f2384() { return "A.f2384"; }
public virtual string f2385() { return "A.f2385"; }
public virtual string f2386() { return "A.f2386"; }
public virtual string f2387() { return "A.f2387"; }
public virtual string f2388() { return "A.f2388"; }
public virtual string f2389() { return "A.f2389"; }
public virtual string f2390() { return "A.f2390"; }
public virtual string f2391() { return "A.f2391"; }
public virtual string f2392() { return "A.f2392"; }
public virtual string f2393() { return "A.f2393"; }
public virtual string f2394() { return "A.f2394"; }
public virtual string f2395() { return "A.f2395"; }
public virtual string f2396() { return "A.f2396"; }
public virtual string f2397() { return "A.f2397"; }
public virtual string f2398() { return "A.f2398"; }
public virtual string f2399() { return "A.f2399"; }
public virtual string f2400() { return "A.f2400"; }
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public virtual string f2402() { return "A.f2402"; }
public virtual string f2403() { return "A.f2403"; }
public virtual string f2404() { return "A.f2404"; }
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public virtual string f2407() { return "A.f2407"; }
public virtual string f2408() { return "A.f2408"; }
public virtual string f2409() { return "A.f2409"; }
public virtual string f2410() { return "A.f2410"; }
public virtual string f2411() { return "A.f2411"; }
public virtual string f2412() { return "A.f2412"; }
public virtual string f2413() { return "A.f2413"; }
public virtual string f2414() { return "A.f2414"; }
public virtual string f2415() { return "A.f2415"; }
public virtual string f2416() { return "A.f2416"; }
public virtual string f2417() { return "A.f2417"; }
public virtual string f2418() { return "A.f2418"; }
public virtual string f2419() { return "A.f2419"; }
public virtual string f2420() { return "A.f2420"; }
public virtual string f2421() { return "A.f2421"; }
public virtual string f2422() { return "A.f2422"; }
public virtual string f2423() { return "A.f2423"; }
public virtual string f2424() { return "A.f2424"; }
public virtual string f2425() { return "A.f2425"; }
public virtual string f2426() { return "A.f2426"; }
public virtual string f2427() { return "A.f2427"; }
public virtual string f2428() { return "A.f2428"; }
public virtual string f2429() { return "A.f2429"; }
public virtual string f2430() { return "A.f2430"; }
public virtual string f2431() { return "A.f2431"; }
public virtual string f2432() { return "A.f2432"; }
public virtual string f2433() { return "A.f2433"; }
public virtual string f2434() { return "A.f2434"; }
public virtual string f2435() { return "A.f2435"; }
public virtual string f2436() { return "A.f2436"; }
public virtual string f2437() { return "A.f2437"; }
public virtual string f2438() { return "A.f2438"; }
public virtual string f2439() { return "A.f2439"; }
public virtual string f2440() { return "A.f2440"; }
public virtual string f2441() { return "A.f2441"; }
public virtual string f2442() { return "A.f2442"; }
public virtual string f2443() { return "A.f2443"; }
public virtual string f2444() { return "A.f2444"; }
public virtual string f2445() { return "A.f2445"; }
public virtual string f2446() { return "A.f2446"; }
public virtual string f2447() { return "A.f2447"; }
public virtual string f2448() { return "A.f2448"; }
public virtual string f2449() { return "A.f2449"; }
public virtual string f2450() { return "A.f2450"; }
public virtual string f2451() { return "A.f2451"; }
public virtual string f2452() { return "A.f2452"; }
public virtual string f2453() { return "A.f2453"; }
public virtual string f2454() { return "A.f2454"; }
public virtual string f2455() { return "A.f2455"; }
public virtual string f2456() { return "A.f2456"; }
public virtual string f2457() { return "A.f2457"; }
public virtual string f2458() { return "A.f2458"; }
public virtual string f2459() { return "A.f2459"; }
public virtual string f2460() { return "A.f2460"; }
public virtual string f2461() { return "A.f2461"; }
public virtual string f2462() { return "A.f2462"; }
public virtual string f2463() { return "A.f2463"; }
public virtual string f2464() { return "A.f2464"; }
public virtual string f2465() { return "A.f2465"; }
public virtual string f2466() { return "A.f2466"; }
public virtual string f2467() { return "A.f2467"; }
public virtual string f2468() { return "A.f2468"; }
public virtual string f2469() { return "A.f2469"; }
public virtual string f2470() { return "A.f2470"; }
public virtual string f2471() { return "A.f2471"; }
public virtual string f2472() { return "A.f2472"; }
public virtual string f2473() { return "A.f2473"; }
public virtual string f2474() { return "A.f2474"; }
public virtual string f2475() { return "A.f2475"; }
public virtual string f2476() { return "A.f2476"; }
public virtual string f2477() { return "A.f2477"; }
public virtual string f2478() { return "A.f2478"; }
public virtual string f2479() { return "A.f2479"; }
public virtual string f2480() { return "A.f2480"; }
public virtual string f2481() { return "A.f2481"; }
public virtual string f2482() { return "A.f2482"; }
public virtual string f2483() { return "A.f2483"; }
public virtual string f2484() { return "A.f2484"; }
public virtual string f2485() { return "A.f2485"; }
public virtual string f2486() { return "A.f2486"; }
public virtual string f2487() { return "A.f2487"; }
public virtual string f2488() { return "A.f2488"; }
public virtual string f2489() { return "A.f2489"; }
public virtual string f2490() { return "A.f2490"; }
public virtual string f2491() { return "A.f2491"; }
public virtual string f2492() { return "A.f2492"; }
public virtual string f2493() { return "A.f2493"; }
public virtual string f2494() { return "A.f2494"; }
public virtual string f2495() { return "A.f2495"; }
public virtual string f2496() { return "A.f2496"; }
public virtual string f2497() { return "A.f2497"; }
public virtual string f2498() { return "A.f2498"; }
public virtual string f2499() { return "A.f2499"; }
public virtual string f2500() { return "A.f2500"; }
public virtual string f2501() { return "A.f2501"; }
public virtual string f2502() { return "A.f2502"; }
public virtual string f2503() { return "A.f2503"; }
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public virtual string f2505() { return "A.f2505"; }
public virtual string f2506() { return "A.f2506"; }
public virtual string f2507() { return "A.f2507"; }
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public virtual string f2509() { return "A.f2509"; }
public virtual string f2510() { return "A.f2510"; }
public virtual string f2511() { return "A.f2511"; }
public virtual string f2512() { return "A.f2512"; }
public virtual string f2513() { return "A.f2513"; }
public virtual string f2514() { return "A.f2514"; }
public virtual string f2515() { return "A.f2515"; }
public virtual string f2516() { return "A.f2516"; }
public virtual string f2517() { return "A.f2517"; }
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public virtual string f2519() { return "A.f2519"; }
public virtual string f2520() { return "A.f2520"; }
public virtual string f2521() { return "A.f2521"; }
public virtual string f2522() { return "A.f2522"; }
public virtual string f2523() { return "A.f2523"; }
public virtual string f2524() { return "A.f2524"; }
public virtual string f2525() { return "A.f2525"; }
public virtual string f2526() { return "A.f2526"; }
public virtual string f2527() { return "A.f2527"; }
public virtual string f2528() { return "A.f2528"; }
public virtual string f2529() { return "A.f2529"; }
public virtual string f2530() { return "A.f2530"; }
public virtual string f2531() { return "A.f2531"; }
public virtual string f2532() { return "A.f2532"; }
public virtual string f2533() { return "A.f2533"; }
public virtual string f2534() { return "A.f2534"; }
public virtual string f2535() { return "A.f2535"; }
public virtual string f2536() { return "A.f2536"; }
public virtual string f2537() { return "A.f2537"; }
public virtual string f2538() { return "A.f2538"; }
public virtual string f2539() { return "A.f2539"; }
public virtual string f2540() { return "A.f2540"; }
public virtual string f2541() { return "A.f2541"; }
public virtual string f2542() { return "A.f2542"; }
public virtual string f2543() { return "A.f2543"; }
public virtual string f2544() { return "A.f2544"; }
public virtual string f2545() { return "A.f2545"; }
public virtual string f2546() { return "A.f2546"; }
public virtual string f2547() { return "A.f2547"; }
public virtual string f2548() { return "A.f2548"; }
public virtual string f2549() { return "A.f2549"; }
public virtual string f2550() { return "A.f2550"; }
public virtual string f2551() { return "A.f2551"; }
public virtual string f2552() { return "A.f2552"; }
public virtual string f2553() { return "A.f2553"; }
public virtual string f2554() { return "A.f2554"; }
public virtual string f2555() { return "A.f2555"; }
public virtual string f2556() { return "A.f2556"; }
public virtual string f2557() { return "A.f2557"; }
public virtual string f2558() { return "A.f2558"; }
public virtual string f2559() { return "A.f2559"; }
public virtual string f2560() { return "A.f2560"; }
public virtual string f2561() { return "A.f2561"; }
public virtual string f2562() { return "A.f2562"; }
public virtual string f2563() { return "A.f2563"; }
public virtual string f2564() { return "A.f2564"; }
public virtual string f2565() { return "A.f2565"; }
public virtual string f2566() { return "A.f2566"; }
public virtual string f2567() { return "A.f2567"; }
public virtual string f2568() { return "A.f2568"; }
public virtual string f2569() { return "A.f2569"; }
public virtual string f2570() { return "A.f2570"; }
public virtual string f2571() { return "A.f2571"; }
public virtual string f2572() { return "A.f2572"; }
public virtual string f2573() { return "A.f2573"; }
public virtual string f2574() { return "A.f2574"; }
public virtual string f2575() { return "A.f2575"; }
public virtual string f2576() { return "A.f2576"; }
public virtual string f2577() { return "A.f2577"; }
public virtual string f2578() { return "A.f2578"; }
public virtual string f2579() { return "A.f2579"; }
public virtual string f2580() { return "A.f2580"; }
public virtual string f2581() { return "A.f2581"; }
public virtual string f2582() { return "A.f2582"; }
public virtual string f2583() { return "A.f2583"; }
public virtual string f2584() { return "A.f2584"; }
public virtual string f2585() { return "A.f2585"; }
public virtual string f2586() { return "A.f2586"; }
public virtual string f2587() { return "A.f2587"; }
public virtual string f2588() { return "A.f2588"; }
public virtual string f2589() { return "A.f2589"; }
public virtual string f2590() { return "A.f2590"; }
public virtual string f2591() { return "A.f2591"; }
public virtual string f2592() { return "A.f2592"; }
public virtual string f2593() { return "A.f2593"; }
public virtual string f2594() { return "A.f2594"; }
public virtual string f2595() { return "A.f2595"; }
public virtual string f2596() { return "A.f2596"; }
public virtual string f2597() { return "A.f2597"; }
public virtual string f2598() { return "A.f2598"; }
public virtual string f2599() { return "A.f2599"; }
public virtual string f2600() { return "A.f2600"; }
public virtual string f2601() { return "A.f2601"; }
public virtual string f2602() { return "A.f2602"; }
public virtual string f2603() { return "A.f2603"; }
public virtual string f2604() { return "A.f2604"; }
public virtual string f2605() { return "A.f2605"; }
public virtual string f2606() { return "A.f2606"; }
public virtual string f2607() { return "A.f2607"; }
public virtual string f2608() { return "A.f2608"; }
public virtual string f2609() { return "A.f2609"; }
public virtual string f2610() { return "A.f2610"; }
public virtual string f2611() { return "A.f2611"; }
public virtual string f2612() { return "A.f2612"; }
public virtual string f2613() { return "A.f2613"; }
public virtual string f2614() { return "A.f2614"; }
public virtual string f2615() { return "A.f2615"; }
public virtual string f2616() { return "A.f2616"; }
public virtual string f2617() { return "A.f2617"; }
public virtual string f2618() { return "A.f2618"; }
public virtual string f2619() { return "A.f2619"; }
public virtual string f2620() { return "A.f2620"; }
public virtual string f2621() { return "A.f2621"; }
public virtual string f2622() { return "A.f2622"; }
public virtual string f2623() { return "A.f2623"; }
public virtual string f2624() { return "A.f2624"; }
public virtual string f2625() { return "A.f2625"; }
public virtual string f2626() { return "A.f2626"; }
public virtual string f2627() { return "A.f2627"; }
public virtual string f2628() { return "A.f2628"; }
public virtual string f2629() { return "A.f2629"; }
public virtual string f2630() { return "A.f2630"; }
public virtual string f2631() { return "A.f2631"; }
public virtual string f2632() { return "A.f2632"; }
public virtual string f2633() { return "A.f2633"; }
public virtual string f2634() { return "A.f2634"; }
public virtual string f2635() { return "A.f2635"; }
public virtual string f2636() { return "A.f2636"; }
public virtual string f2637() { return "A.f2637"; }
public virtual string f2638() { return "A.f2638"; }
public virtual string f2639() { return "A.f2639"; }
public virtual string f2640() { return "A.f2640"; }
public virtual string f2641() { return "A.f2641"; }
public virtual string f2642() { return "A.f2642"; }
public virtual string f2643() { return "A.f2643"; }
public virtual string f2644() { return "A.f2644"; }
public virtual string f2645() { return "A.f2645"; }
public virtual string f2646() { return "A.f2646"; }
public virtual string f2647() { return "A.f2647"; }
public virtual string f2648() { return "A.f2648"; }
public virtual string f2649() { return "A.f2649"; }
public virtual string f2650() { return "A.f2650"; }
public virtual string f2651() { return "A.f2651"; }
public virtual string f2652() { return "A.f2652"; }
public virtual string f2653() { return "A.f2653"; }
public virtual string f2654() { return "A.f2654"; }
public virtual string f2655() { return "A.f2655"; }
public virtual string f2656() { return "A.f2656"; }
public virtual string f2657() { return "A.f2657"; }
public virtual string f2658() { return "A.f2658"; }
public virtual string f2659() { return "A.f2659"; }
public virtual string f2660() { return "A.f2660"; }
public virtual string f2661() { return "A.f2661"; }
public virtual string f2662() { return "A.f2662"; }
public virtual string f2663() { return "A.f2663"; }
public virtual string f2664() { return "A.f2664"; }
public virtual string f2665() { return "A.f2665"; }
public virtual string f2666() { return "A.f2666"; }
public virtual string f2667() { return "A.f2667"; }
public virtual string f2668() { return "A.f2668"; }
public virtual string f2669() { return "A.f2669"; }
public virtual string f2670() { return "A.f2670"; }
public virtual string f2671() { return "A.f2671"; }
public virtual string f2672() { return "A.f2672"; }
public virtual string f2673() { return "A.f2673"; }
public virtual string f2674() { return "A.f2674"; }
public virtual string f2675() { return "A.f2675"; }
public virtual string f2676() { return "A.f2676"; }
public virtual string f2677() { return "A.f2677"; }
public virtual string f2678() { return "A.f2678"; }
public virtual string f2679() { return "A.f2679"; }
public virtual string f2680() { return "A.f2680"; }
public virtual string f2681() { return "A.f2681"; }
public virtual string f2682() { return "A.f2682"; }
public virtual string f2683() { return "A.f2683"; }
public virtual string f2684() { return "A.f2684"; }
public virtual string f2685() { return "A.f2685"; }
public virtual string f2686() { return "A.f2686"; }
public virtual string f2687() { return "A.f2687"; }
public virtual string f2688() { return "A.f2688"; }
public virtual string f2689() { return "A.f2689"; }
public virtual string f2690() { return "A.f2690"; }
public virtual string f2691() { return "A.f2691"; }
public virtual string f2692() { return "A.f2692"; }
public virtual string f2693() { return "A.f2693"; }
public virtual string f2694() { return "A.f2694"; }
public virtual string f2695() { return "A.f2695"; }
public virtual string f2696() { return "A.f2696"; }
public virtual string f2697() { return "A.f2697"; }
public virtual string f2698() { return "A.f2698"; }
public virtual string f2699() { return "A.f2699"; }
public virtual string f2700() { return "A.f2700"; }
public virtual string f2701() { return "A.f2701"; }
public virtual string f2702() { return "A.f2702"; }
public virtual string f2703() { return "A.f2703"; }
public virtual string f2704() { return "A.f2704"; }
public virtual string f2705() { return "A.f2705"; }
public virtual string f2706() { return "A.f2706"; }
public virtual string f2707() { return "A.f2707"; }
public virtual string f2708() { return "A.f2708"; }
public virtual string f2709() { return "A.f2709"; }
public virtual string f2710() { return "A.f2710"; }
public virtual string f2711() { return "A.f2711"; }
public virtual string f2712() { return "A.f2712"; }
public virtual string f2713() { return "A.f2713"; }
public virtual string f2714() { return "A.f2714"; }
public virtual string f2715() { return "A.f2715"; }
public virtual string f2716() { return "A.f2716"; }
public virtual string f2717() { return "A.f2717"; }
public virtual string f2718() { return "A.f2718"; }
public virtual string f2719() { return "A.f2719"; }
public virtual string f2720() { return "A.f2720"; }
public virtual string f2721() { return "A.f2721"; }
public virtual string f2722() { return "A.f2722"; }
public virtual string f2723() { return "A.f2723"; }
public virtual string f2724() { return "A.f2724"; }
public virtual string f2725() { return "A.f2725"; }
public virtual string f2726() { return "A.f2726"; }
public virtual string f2727() { return "A.f2727"; }
public virtual string f2728() { return "A.f2728"; }
public virtual string f2729() { return "A.f2729"; }
public virtual string f2730() { return "A.f2730"; }
public virtual string f2731() { return "A.f2731"; }
public virtual string f2732() { return "A.f2732"; }
public virtual string f2733() { return "A.f2733"; }
public virtual string f2734() { return "A.f2734"; }
public virtual string f2735() { return "A.f2735"; }
public virtual string f2736() { return "A.f2736"; }
public virtual string f2737() { return "A.f2737"; }
public virtual string f2738() { return "A.f2738"; }
public virtual string f2739() { return "A.f2739"; }
public virtual string f2740() { return "A.f2740"; }
public virtual string f2741() { return "A.f2741"; }
public virtual string f2742() { return "A.f2742"; }
public virtual string f2743() { return "A.f2743"; }
public virtual string f2744() { return "A.f2744"; }
public virtual string f2745() { return "A.f2745"; }
public virtual string f2746() { return "A.f2746"; }
public virtual string f2747() { return "A.f2747"; }
public virtual string f2748() { return "A.f2748"; }
public virtual string f2749() { return "A.f2749"; }
public virtual string f2750() { return "A.f2750"; }
public virtual string f2751() { return "A.f2751"; }
public virtual string f2752() { return "A.f2752"; }
public virtual string f2753() { return "A.f2753"; }
public virtual string f2754() { return "A.f2754"; }
public virtual string f2755() { return "A.f2755"; }
public virtual string f2756() { return "A.f2756"; }
public virtual string f2757() { return "A.f2757"; }
public virtual string f2758() { return "A.f2758"; }
public virtual string f2759() { return "A.f2759"; }
public virtual string f2760() { return "A.f2760"; }
public virtual string f2761() { return "A.f2761"; }
public virtual string f2762() { return "A.f2762"; }
public virtual string f2763() { return "A.f2763"; }
public virtual string f2764() { return "A.f2764"; }
public virtual string f2765() { return "A.f2765"; }
public virtual string f2766() { return "A.f2766"; }
public virtual string f2767() { return "A.f2767"; }
public virtual string f2768() { return "A.f2768"; }
public virtual string f2769() { return "A.f2769"; }
public virtual string f2770() { return "A.f2770"; }
public virtual string f2771() { return "A.f2771"; }
public virtual string f2772() { return "A.f2772"; }
public virtual string f2773() { return "A.f2773"; }
public virtual string f2774() { return "A.f2774"; }
public virtual string f2775() { return "A.f2775"; }
public virtual string f2776() { return "A.f2776"; }
public virtual string f2777() { return "A.f2777"; }
public virtual string f2778() { return "A.f2778"; }
public virtual string f2779() { return "A.f2779"; }
public virtual string f2780() { return "A.f2780"; }
public virtual string f2781() { return "A.f2781"; }
public virtual string f2782() { return "A.f2782"; }
public virtual string f2783() { return "A.f2783"; }
public virtual string f2784() { return "A.f2784"; }
public virtual string f2785() { return "A.f2785"; }
public virtual string f2786() { return "A.f2786"; }
public virtual string f2787() { return "A.f2787"; }
public virtual string f2788() { return "A.f2788"; }
public virtual string f2789() { return "A.f2789"; }
public virtual string f2790() { return "A.f2790"; }
public virtual string f2791() { return "A.f2791"; }
public virtual string f2792() { return "A.f2792"; }
public virtual string f2793() { return "A.f2793"; }
public virtual string f2794() { return "A.f2794"; }
public virtual string f2795() { return "A.f2795"; }
public virtual string f2796() { return "A.f2796"; }
public virtual string f2797() { return "A.f2797"; }
public virtual string f2798() { return "A.f2798"; }
public virtual string f2799() { return "A.f2799"; }
public virtual string f2800() { return "A.f2800"; }
public virtual string f2801() { return "A.f2801"; }
public virtual string f2802() { return "A.f2802"; }
public virtual string f2803() { return "A.f2803"; }
public virtual string f2804() { return "A.f2804"; }
public virtual string f2805() { return "A.f2805"; }
public virtual string f2806() { return "A.f2806"; }
public virtual string f2807() { return "A.f2807"; }
public virtual string f2808() { return "A.f2808"; }
public virtual string f2809() { return "A.f2809"; }
public virtual string f2810() { return "A.f2810"; }
public virtual string f2811() { return "A.f2811"; }
public virtual string f2812() { return "A.f2812"; }
public virtual string f2813() { return "A.f2813"; }
public virtual string f2814() { return "A.f2814"; }
public virtual string f2815() { return "A.f2815"; }
public virtual string f2816() { return "A.f2816"; }
public virtual string f2817() { return "A.f2817"; }
public virtual string f2818() { return "A.f2818"; }
public virtual string f2819() { return "A.f2819"; }
public virtual string f2820() { return "A.f2820"; }
public virtual string f2821() { return "A.f2821"; }
public virtual string f2822() { return "A.f2822"; }
public virtual string f2823() { return "A.f2823"; }
public virtual string f2824() { return "A.f2824"; }
public virtual string f2825() { return "A.f2825"; }
public virtual string f2826() { return "A.f2826"; }
public virtual string f2827() { return "A.f2827"; }
public virtual string f2828() { return "A.f2828"; }
public virtual string f2829() { return "A.f2829"; }
public virtual string f2830() { return "A.f2830"; }
public virtual string f2831() { return "A.f2831"; }
public virtual string f2832() { return "A.f2832"; }
public virtual string f2833() { return "A.f2833"; }
public virtual string f2834() { return "A.f2834"; }
public virtual string f2835() { return "A.f2835"; }
public virtual string f2836() { return "A.f2836"; }
public virtual string f2837() { return "A.f2837"; }
public virtual string f2838() { return "A.f2838"; }
public virtual string f2839() { return "A.f2839"; }
public virtual string f2840() { return "A.f2840"; }
public virtual string f2841() { return "A.f2841"; }
public virtual string f2842() { return "A.f2842"; }
public virtual string f2843() { return "A.f2843"; }
public virtual string f2844() { return "A.f2844"; }
public virtual string f2845() { return "A.f2845"; }
public virtual string f2846() { return "A.f2846"; }
public virtual string f2847() { return "A.f2847"; }
public virtual string f2848() { return "A.f2848"; }
public virtual string f2849() { return "A.f2849"; }
public virtual string f2850() { return "A.f2850"; }
public virtual string f2851() { return "A.f2851"; }
public virtual string f2852() { return "A.f2852"; }
public virtual string f2853() { return "A.f2853"; }
public virtual string f2854() { return "A.f2854"; }
public virtual string f2855() { return "A.f2855"; }
public virtual string f2856() { return "A.f2856"; }
public virtual string f2857() { return "A.f2857"; }
public virtual string f2858() { return "A.f2858"; }
public virtual string f2859() { return "A.f2859"; }
public virtual string f2860() { return "A.f2860"; }
public virtual string f2861() { return "A.f2861"; }
public virtual string f2862() { return "A.f2862"; }
public virtual string f2863() { return "A.f2863"; }
public virtual string f2864() { return "A.f2864"; }
public virtual string f2865() { return "A.f2865"; }
public virtual string f2866() { return "A.f2866"; }
public virtual string f2867() { return "A.f2867"; }
public virtual string f2868() { return "A.f2868"; }
public virtual string f2869() { return "A.f2869"; }
public virtual string f2870() { return "A.f2870"; }
public virtual string f2871() { return "A.f2871"; }
public virtual string f2872() { return "A.f2872"; }
public virtual string f2873() { return "A.f2873"; }
public virtual string f2874() { return "A.f2874"; }
public virtual string f2875() { return "A.f2875"; }
public virtual string f2876() { return "A.f2876"; }
public virtual string f2877() { return "A.f2877"; }
public virtual string f2878() { return "A.f2878"; }
public virtual string f2879() { return "A.f2879"; }
public virtual string f2880() { return "A.f2880"; }
public virtual string f2881() { return "A.f2881"; }
public virtual string f2882() { return "A.f2882"; }
public virtual string f2883() { return "A.f2883"; }
public virtual string f2884() { return "A.f2884"; }
public virtual string f2885() { return "A.f2885"; }
public virtual string f2886() { return "A.f2886"; }
public virtual string f2887() { return "A.f2887"; }
public virtual string f2888() { return "A.f2888"; }
public virtual string f2889() { return "A.f2889"; }
public virtual string f2890() { return "A.f2890"; }
public virtual string f2891() { return "A.f2891"; }
public virtual string f2892() { return "A.f2892"; }
public virtual string f2893() { return "A.f2893"; }
public virtual string f2894() { return "A.f2894"; }
public virtual string f2895() { return "A.f2895"; }
public virtual string f2896() { return "A.f2896"; }
public virtual string f2897() { return "A.f2897"; }
public virtual string f2898() { return "A.f2898"; }
public virtual string f2899() { return "A.f2899"; }
public virtual string f2900() { return "A.f2900"; }
public virtual string f2901() { return "A.f2901"; }
public virtual string f2902() { return "A.f2902"; }
public virtual string f2903() { return "A.f2903"; }
public virtual string f2904() { return "A.f2904"; }
public virtual string f2905() { return "A.f2905"; }
public virtual string f2906() { return "A.f2906"; }
public virtual string f2907() { return "A.f2907"; }
public virtual string f2908() { return "A.f2908"; }
public virtual string f2909() { return "A.f2909"; }
public virtual string f2910() { return "A.f2910"; }
public virtual string f2911() { return "A.f2911"; }
public virtual string f2912() { return "A.f2912"; }
public virtual string f2913() { return "A.f2913"; }
public virtual string f2914() { return "A.f2914"; }
public virtual string f2915() { return "A.f2915"; }
public virtual string f2916() { return "A.f2916"; }
public virtual string f2917() { return "A.f2917"; }
public virtual string f2918() { return "A.f2918"; }
public virtual string f2919() { return "A.f2919"; }
public virtual string f2920() { return "A.f2920"; }
public virtual string f2921() { return "A.f2921"; }
public virtual string f2922() { return "A.f2922"; }
public virtual string f2923() { return "A.f2923"; }
public virtual string f2924() { return "A.f2924"; }
public virtual string f2925() { return "A.f2925"; }
public virtual string f2926() { return "A.f2926"; }
public virtual string f2927() { return "A.f2927"; }
public virtual string f2928() { return "A.f2928"; }
public virtual string f2929() { return "A.f2929"; }
public virtual string f2930() { return "A.f2930"; }
public virtual string f2931() { return "A.f2931"; }
public virtual string f2932() { return "A.f2932"; }
public virtual string f2933() { return "A.f2933"; }
public virtual string f2934() { return "A.f2934"; }
public virtual string f2935() { return "A.f2935"; }
public virtual string f2936() { return "A.f2936"; }
public virtual string f2937() { return "A.f2937"; }
public virtual string f2938() { return "A.f2938"; }
public virtual string f2939() { return "A.f2939"; }
public virtual string f2940() { return "A.f2940"; }
public virtual string f2941() { return "A.f2941"; }
public virtual string f2942() { return "A.f2942"; }
public virtual string f2943() { return "A.f2943"; }
public virtual string f2944() { return "A.f2944"; }
public virtual string f2945() { return "A.f2945"; }
public virtual string f2946() { return "A.f2946"; }
public virtual string f2947() { return "A.f2947"; }
public virtual string f2948() { return "A.f2948"; }
public virtual string f2949() { return "A.f2949"; }
public virtual string f2950() { return "A.f2950"; }
public virtual string f2951() { return "A.f2951"; }
public virtual string f2952() { return "A.f2952"; }
public virtual string f2953() { return "A.f2953"; }
public virtual string f2954() { return "A.f2954"; }
public virtual string f2955() { return "A.f2955"; }
public virtual string f2956() { return "A.f2956"; }
public virtual string f2957() { return "A.f2957"; }
public virtual string f2958() { return "A.f2958"; }
public virtual string f2959() { return "A.f2959"; }
public virtual string f2960() { return "A.f2960"; }
public virtual string f2961() { return "A.f2961"; }
public virtual string f2962() { return "A.f2962"; }
public virtual string f2963() { return "A.f2963"; }
public virtual string f2964() { return "A.f2964"; }
public virtual string f2965() { return "A.f2965"; }
public virtual string f2966() { return "A.f2966"; }
public virtual string f2967() { return "A.f2967"; }
public virtual string f2968() { return "A.f2968"; }
public virtual string f2969() { return "A.f2969"; }
public virtual string f2970() { return "A.f2970"; }
public virtual string f2971() { return "A.f2971"; }
public virtual string f2972() { return "A.f2972"; }
public virtual string f2973() { return "A.f2973"; }
public virtual string f2974() { return "A.f2974"; }
public virtual string f2975() { return "A.f2975"; }
public virtual string f2976() { return "A.f2976"; }
public virtual string f2977() { return "A.f2977"; }
public virtual string f2978() { return "A.f2978"; }
public virtual string f2979() { return "A.f2979"; }
public virtual string f2980() { return "A.f2980"; }
public virtual string f2981() { return "A.f2981"; }
public virtual string f2982() { return "A.f2982"; }
public virtual string f2983() { return "A.f2983"; }
public virtual string f2984() { return "A.f2984"; }
public virtual string f2985() { return "A.f2985"; }
public virtual string f2986() { return "A.f2986"; }
public virtual string f2987() { return "A.f2987"; }
public virtual string f2988() { return "A.f2988"; }
public virtual string f2989() { return "A.f2989"; }
public virtual string f2990() { return "A.f2990"; }
public virtual string f2991() { return "A.f2991"; }
public virtual string f2992() { return "A.f2992"; }
public virtual string f2993() { return "A.f2993"; }
public virtual string f2994() { return "A.f2994"; }
public virtual string f2995() { return "A.f2995"; }
public virtual string f2996() { return "A.f2996"; }
public virtual string f2997() { return "A.f2997"; }
public virtual string f2998() { return "A.f2998"; }
public virtual string f2999() { return "A.f2999"; }
}
internal class B : A
{
public override string f1() { return "B.f1"; }
public override string f2() { return "B.f2"; }
public override string f3() { return "B.f3"; }
public override string f4() { return "B.f4"; }
public override string f5() { return "B.f5"; }
public override string f6() { return "B.f6"; }
public override string f7() { return "B.f7"; }
public override string f8() { return "B.f8"; }
public override string f9() { return "B.f9"; }
public override string f10() { return "B.f10"; }
public override string f11() { return "B.f11"; }
public override string f12() { return "B.f12"; }
public override string f13() { return "B.f13"; }
public override string f14() { return "B.f14"; }
public override string f15() { return "B.f15"; }
public override string f16() { return "B.f16"; }
public override string f17() { return "B.f17"; }
public override string f18() { return "B.f18"; }
public override string f19() { return "B.f19"; }
public override string f20() { return "B.f20"; }
public override string f21() { return "B.f21"; }
public override string f22() { return "B.f22"; }
public override string f23() { return "B.f23"; }
public override string f24() { return "B.f24"; }
public override string f25() { return "B.f25"; }
public override string f26() { return "B.f26"; }
public override string f27() { return "B.f27"; }
public override string f28() { return "B.f28"; }
public override string f29() { return "B.f29"; }
public override string f30() { return "B.f30"; }
public override string f31() { return "B.f31"; }
public override string f32() { return "B.f32"; }
public override string f33() { return "B.f33"; }
public override string f34() { return "B.f34"; }
public override string f35() { return "B.f35"; }
public override string f36() { return "B.f36"; }
public override string f37() { return "B.f37"; }
public override string f38() { return "B.f38"; }
public override string f39() { return "B.f39"; }
public override string f40() { return "B.f40"; }
public override string f41() { return "B.f41"; }
public override string f42() { return "B.f42"; }
public override string f43() { return "B.f43"; }
public override string f44() { return "B.f44"; }
public override string f45() { return "B.f45"; }
public override string f46() { return "B.f46"; }
public override string f47() { return "B.f47"; }
public override string f48() { return "B.f48"; }
public override string f49() { return "B.f49"; }
public override string f50() { return "B.f50"; }
public override string f51() { return "B.f51"; }
public override string f52() { return "B.f52"; }
public override string f53() { return "B.f53"; }
public override string f54() { return "B.f54"; }
public override string f55() { return "B.f55"; }
public override string f56() { return "B.f56"; }
public override string f57() { return "B.f57"; }
public override string f58() { return "B.f58"; }
public override string f59() { return "B.f59"; }
public override string f60() { return "B.f60"; }
public override string f61() { return "B.f61"; }
public override string f62() { return "B.f62"; }
public override string f63() { return "B.f63"; }
public override string f64() { return "B.f64"; }
public override string f65() { return "B.f65"; }
public override string f66() { return "B.f66"; }
public override string f67() { return "B.f67"; }
public override string f68() { return "B.f68"; }
public override string f69() { return "B.f69"; }
public override string f70() { return "B.f70"; }
public override string f71() { return "B.f71"; }
public override string f72() { return "B.f72"; }
public override string f73() { return "B.f73"; }
public override string f74() { return "B.f74"; }
public override string f75() { return "B.f75"; }
public override string f76() { return "B.f76"; }
public override string f77() { return "B.f77"; }
public override string f78() { return "B.f78"; }
public override string f79() { return "B.f79"; }
public override string f80() { return "B.f80"; }
public override string f81() { return "B.f81"; }
public override string f82() { return "B.f82"; }
public override string f83() { return "B.f83"; }
public override string f84() { return "B.f84"; }
public override string f85() { return "B.f85"; }
public override string f86() { return "B.f86"; }
public override string f87() { return "B.f87"; }
public override string f88() { return "B.f88"; }
public override string f89() { return "B.f89"; }
public override string f90() { return "B.f90"; }
public override string f91() { return "B.f91"; }
public override string f92() { return "B.f92"; }
public override string f93() { return "B.f93"; }
public override string f94() { return "B.f94"; }
public override string f95() { return "B.f95"; }
public override string f96() { return "B.f96"; }
public override string f97() { return "B.f97"; }
public override string f98() { return "B.f98"; }
public override string f99() { return "B.f99"; }
public override string f100() { return "B.f100"; }
public override string f101() { return "B.f101"; }
public override string f102() { return "B.f102"; }
public override string f103() { return "B.f103"; }
public override string f104() { return "B.f104"; }
public override string f105() { return "B.f105"; }
public override string f106() { return "B.f106"; }
public override string f107() { return "B.f107"; }
public override string f108() { return "B.f108"; }
public override string f109() { return "B.f109"; }
public override string f110() { return "B.f110"; }
public override string f111() { return "B.f111"; }
public override string f112() { return "B.f112"; }
public override string f113() { return "B.f113"; }
public override string f114() { return "B.f114"; }
public override string f115() { return "B.f115"; }
public override string f116() { return "B.f116"; }
public override string f117() { return "B.f117"; }
public override string f118() { return "B.f118"; }
public override string f119() { return "B.f119"; }
public override string f120() { return "B.f120"; }
public override string f121() { return "B.f121"; }
public override string f122() { return "B.f122"; }
public override string f123() { return "B.f123"; }
public override string f124() { return "B.f124"; }
public override string f125() { return "B.f125"; }
public override string f126() { return "B.f126"; }
public override string f127() { return "B.f127"; }
public override string f128() { return "B.f128"; }
public override string f129() { return "B.f129"; }
public override string f130() { return "B.f130"; }
public override string f131() { return "B.f131"; }
public override string f132() { return "B.f132"; }
public override string f133() { return "B.f133"; }
public override string f134() { return "B.f134"; }
public override string f135() { return "B.f135"; }
public override string f136() { return "B.f136"; }
public override string f137() { return "B.f137"; }
public override string f138() { return "B.f138"; }
public override string f139() { return "B.f139"; }
public override string f140() { return "B.f140"; }
public override string f141() { return "B.f141"; }
public override string f142() { return "B.f142"; }
public override string f143() { return "B.f143"; }
public override string f144() { return "B.f144"; }
public override string f145() { return "B.f145"; }
public override string f146() { return "B.f146"; }
public override string f147() { return "B.f147"; }
public override string f148() { return "B.f148"; }
public override string f149() { return "B.f149"; }
public override string f150() { return "B.f150"; }
public override string f151() { return "B.f151"; }
public override string f152() { return "B.f152"; }
public override string f153() { return "B.f153"; }
public override string f154() { return "B.f154"; }
public override string f155() { return "B.f155"; }
public override string f156() { return "B.f156"; }
public override string f157() { return "B.f157"; }
public override string f158() { return "B.f158"; }
public override string f159() { return "B.f159"; }
public override string f160() { return "B.f160"; }
public override string f161() { return "B.f161"; }
public override string f162() { return "B.f162"; }
public override string f163() { return "B.f163"; }
public override string f164() { return "B.f164"; }
public override string f165() { return "B.f165"; }
public override string f166() { return "B.f166"; }
public override string f167() { return "B.f167"; }
public override string f168() { return "B.f168"; }
public override string f169() { return "B.f169"; }
public override string f170() { return "B.f170"; }
public override string f171() { return "B.f171"; }
public override string f172() { return "B.f172"; }
public override string f173() { return "B.f173"; }
public override string f174() { return "B.f174"; }
public override string f175() { return "B.f175"; }
public override string f176() { return "B.f176"; }
public override string f177() { return "B.f177"; }
public override string f178() { return "B.f178"; }
public override string f179() { return "B.f179"; }
public override string f180() { return "B.f180"; }
public override string f181() { return "B.f181"; }
public override string f182() { return "B.f182"; }
public override string f183() { return "B.f183"; }
public override string f184() { return "B.f184"; }
public override string f185() { return "B.f185"; }
public override string f186() { return "B.f186"; }
public override string f187() { return "B.f187"; }
public override string f188() { return "B.f188"; }
public override string f189() { return "B.f189"; }
public override string f190() { return "B.f190"; }
public override string f191() { return "B.f191"; }
public override string f192() { return "B.f192"; }
public override string f193() { return "B.f193"; }
public override string f194() { return "B.f194"; }
public override string f195() { return "B.f195"; }
public override string f196() { return "B.f196"; }
public override string f197() { return "B.f197"; }
public override string f198() { return "B.f198"; }
public override string f199() { return "B.f199"; }
public override string f200() { return "B.f200"; }
public override string f201() { return "B.f201"; }
public override string f202() { return "B.f202"; }
public override string f203() { return "B.f203"; }
public override string f204() { return "B.f204"; }
public override string f205() { return "B.f205"; }
public override string f206() { return "B.f206"; }
public override string f207() { return "B.f207"; }
public override string f208() { return "B.f208"; }
public override string f209() { return "B.f209"; }
public override string f210() { return "B.f210"; }
public override string f211() { return "B.f211"; }
public override string f212() { return "B.f212"; }
public override string f213() { return "B.f213"; }
public override string f214() { return "B.f214"; }
public override string f215() { return "B.f215"; }
public override string f216() { return "B.f216"; }
public override string f217() { return "B.f217"; }
public override string f218() { return "B.f218"; }
public override string f219() { return "B.f219"; }
public override string f220() { return "B.f220"; }
public override string f221() { return "B.f221"; }
public override string f222() { return "B.f222"; }
public override string f223() { return "B.f223"; }
public override string f224() { return "B.f224"; }
public override string f225() { return "B.f225"; }
public override string f226() { return "B.f226"; }
public override string f227() { return "B.f227"; }
public override string f228() { return "B.f228"; }
public override string f229() { return "B.f229"; }
public override string f230() { return "B.f230"; }
public override string f231() { return "B.f231"; }
public override string f232() { return "B.f232"; }
public override string f233() { return "B.f233"; }
public override string f234() { return "B.f234"; }
public override string f235() { return "B.f235"; }
public override string f236() { return "B.f236"; }
public override string f237() { return "B.f237"; }
public override string f238() { return "B.f238"; }
public override string f239() { return "B.f239"; }
public override string f240() { return "B.f240"; }
public override string f241() { return "B.f241"; }
public override string f242() { return "B.f242"; }
public override string f243() { return "B.f243"; }
public override string f244() { return "B.f244"; }
public override string f245() { return "B.f245"; }
public override string f246() { return "B.f246"; }
public override string f247() { return "B.f247"; }
public override string f248() { return "B.f248"; }
public override string f249() { return "B.f249"; }
public override string f250() { return "B.f250"; }
public override string f251() { return "B.f251"; }
public override string f252() { return "B.f252"; }
public override string f253() { return "B.f253"; }
public override string f254() { return "B.f254"; }
public override string f255() { return "B.f255"; }
public override string f256() { return "B.f256"; }
public override string f257() { return "B.f257"; }
public override string f258() { return "B.f258"; }
public override string f259() { return "B.f259"; }
public override string f260() { return "B.f260"; }
public override string f261() { return "B.f261"; }
public override string f262() { return "B.f262"; }
public override string f263() { return "B.f263"; }
public override string f264() { return "B.f264"; }
public override string f265() { return "B.f265"; }
public override string f266() { return "B.f266"; }
public override string f267() { return "B.f267"; }
public override string f268() { return "B.f268"; }
public override string f269() { return "B.f269"; }
public override string f270() { return "B.f270"; }
public override string f271() { return "B.f271"; }
public override string f272() { return "B.f272"; }
public override string f273() { return "B.f273"; }
public override string f274() { return "B.f274"; }
public override string f275() { return "B.f275"; }
public override string f276() { return "B.f276"; }
public override string f277() { return "B.f277"; }
public override string f278() { return "B.f278"; }
public override string f279() { return "B.f279"; }
public override string f280() { return "B.f280"; }
public override string f281() { return "B.f281"; }
public override string f282() { return "B.f282"; }
public override string f283() { return "B.f283"; }
public override string f284() { return "B.f284"; }
public override string f285() { return "B.f285"; }
public override string f286() { return "B.f286"; }
public override string f287() { return "B.f287"; }
public override string f288() { return "B.f288"; }
public override string f289() { return "B.f289"; }
public override string f290() { return "B.f290"; }
public override string f291() { return "B.f291"; }
public override string f292() { return "B.f292"; }
public override string f293() { return "B.f293"; }
public override string f294() { return "B.f294"; }
public override string f295() { return "B.f295"; }
public override string f296() { return "B.f296"; }
public override string f297() { return "B.f297"; }
public override string f298() { return "B.f298"; }
public override string f299() { return "B.f299"; }
public override string f300() { return "B.f300"; }
public override string f301() { return "B.f301"; }
public override string f302() { return "B.f302"; }
public override string f303() { return "B.f303"; }
public override string f304() { return "B.f304"; }
public override string f305() { return "B.f305"; }
public override string f306() { return "B.f306"; }
public override string f307() { return "B.f307"; }
public override string f308() { return "B.f308"; }
public override string f309() { return "B.f309"; }
public override string f310() { return "B.f310"; }
public override string f311() { return "B.f311"; }
public override string f312() { return "B.f312"; }
public override string f313() { return "B.f313"; }
public override string f314() { return "B.f314"; }
public override string f315() { return "B.f315"; }
public override string f316() { return "B.f316"; }
public override string f317() { return "B.f317"; }
public override string f318() { return "B.f318"; }
public override string f319() { return "B.f319"; }
public override string f320() { return "B.f320"; }
public override string f321() { return "B.f321"; }
public override string f322() { return "B.f322"; }
public override string f323() { return "B.f323"; }
public override string f324() { return "B.f324"; }
public override string f325() { return "B.f325"; }
public override string f326() { return "B.f326"; }
public override string f327() { return "B.f327"; }
public override string f328() { return "B.f328"; }
public override string f329() { return "B.f329"; }
public override string f330() { return "B.f330"; }
public override string f331() { return "B.f331"; }
public override string f332() { return "B.f332"; }
public override string f333() { return "B.f333"; }
public override string f334() { return "B.f334"; }
public override string f335() { return "B.f335"; }
public override string f336() { return "B.f336"; }
public override string f337() { return "B.f337"; }
public override string f338() { return "B.f338"; }
public override string f339() { return "B.f339"; }
public override string f340() { return "B.f340"; }
public override string f341() { return "B.f341"; }
public override string f342() { return "B.f342"; }
public override string f343() { return "B.f343"; }
public override string f344() { return "B.f344"; }
public override string f345() { return "B.f345"; }
public override string f346() { return "B.f346"; }
public override string f347() { return "B.f347"; }
public override string f348() { return "B.f348"; }
public override string f349() { return "B.f349"; }
public override string f350() { return "B.f350"; }
public override string f351() { return "B.f351"; }
public override string f352() { return "B.f352"; }
public override string f353() { return "B.f353"; }
public override string f354() { return "B.f354"; }
public override string f355() { return "B.f355"; }
public override string f356() { return "B.f356"; }
public override string f357() { return "B.f357"; }
public override string f358() { return "B.f358"; }
public override string f359() { return "B.f359"; }
public override string f360() { return "B.f360"; }
public override string f361() { return "B.f361"; }
public override string f362() { return "B.f362"; }
public override string f363() { return "B.f363"; }
public override string f364() { return "B.f364"; }
public override string f365() { return "B.f365"; }
public override string f366() { return "B.f366"; }
public override string f367() { return "B.f367"; }
public override string f368() { return "B.f368"; }
public override string f369() { return "B.f369"; }
public override string f370() { return "B.f370"; }
public override string f371() { return "B.f371"; }
public override string f372() { return "B.f372"; }
public override string f373() { return "B.f373"; }
public override string f374() { return "B.f374"; }
public override string f375() { return "B.f375"; }
public override string f376() { return "B.f376"; }
public override string f377() { return "B.f377"; }
public override string f378() { return "B.f378"; }
public override string f379() { return "B.f379"; }
public override string f380() { return "B.f380"; }
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public override string f382() { return "B.f382"; }
public override string f383() { return "B.f383"; }
public override string f384() { return "B.f384"; }
public override string f385() { return "B.f385"; }
public override string f386() { return "B.f386"; }
public override string f387() { return "B.f387"; }
public override string f388() { return "B.f388"; }
public override string f389() { return "B.f389"; }
public override string f390() { return "B.f390"; }
public override string f391() { return "B.f391"; }
public override string f392() { return "B.f392"; }
public override string f393() { return "B.f393"; }
public override string f394() { return "B.f394"; }
public override string f395() { return "B.f395"; }
public override string f396() { return "B.f396"; }
public override string f397() { return "B.f397"; }
public override string f398() { return "B.f398"; }
public override string f399() { return "B.f399"; }
public override string f400() { return "B.f400"; }
public override string f401() { return "B.f401"; }
public override string f402() { return "B.f402"; }
public override string f403() { return "B.f403"; }
public override string f404() { return "B.f404"; }
public override string f405() { return "B.f405"; }
public override string f406() { return "B.f406"; }
public override string f407() { return "B.f407"; }
public override string f408() { return "B.f408"; }
public override string f409() { return "B.f409"; }
public override string f410() { return "B.f410"; }
public override string f411() { return "B.f411"; }
public override string f412() { return "B.f412"; }
public override string f413() { return "B.f413"; }
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public override string f415() { return "B.f415"; }
public override string f416() { return "B.f416"; }
public override string f417() { return "B.f417"; }
public override string f418() { return "B.f418"; }
public override string f419() { return "B.f419"; }
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public override string f422() { return "B.f422"; }
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public override string f425() { return "B.f425"; }
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public override string f428() { return "B.f428"; }
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public override string f431() { return "B.f431"; }
public override string f432() { return "B.f432"; }
public override string f433() { return "B.f433"; }
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public override string f435() { return "B.f435"; }
public override string f436() { return "B.f436"; }
public override string f437() { return "B.f437"; }
public override string f438() { return "B.f438"; }
public override string f439() { return "B.f439"; }
public override string f440() { return "B.f440"; }
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public override string f442() { return "B.f442"; }
public override string f443() { return "B.f443"; }
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public override string f445() { return "B.f445"; }
public override string f446() { return "B.f446"; }
public override string f447() { return "B.f447"; }
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public override string f450() { return "B.f450"; }
public override string f451() { return "B.f451"; }
public override string f452() { return "B.f452"; }
public override string f453() { return "B.f453"; }
public override string f454() { return "B.f454"; }
public override string f455() { return "B.f455"; }
public override string f456() { return "B.f456"; }
public override string f457() { return "B.f457"; }
public override string f458() { return "B.f458"; }
public override string f459() { return "B.f459"; }
public override string f460() { return "B.f460"; }
public override string f461() { return "B.f461"; }
public override string f462() { return "B.f462"; }
public override string f463() { return "B.f463"; }
public override string f464() { return "B.f464"; }
public override string f465() { return "B.f465"; }
public override string f466() { return "B.f466"; }
public override string f467() { return "B.f467"; }
public override string f468() { return "B.f468"; }
public override string f469() { return "B.f469"; }
public override string f470() { return "B.f470"; }
public override string f471() { return "B.f471"; }
public override string f472() { return "B.f472"; }
public override string f473() { return "B.f473"; }
public override string f474() { return "B.f474"; }
public override string f475() { return "B.f475"; }
public override string f476() { return "B.f476"; }
public override string f477() { return "B.f477"; }
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public override string f480() { return "B.f480"; }
public override string f481() { return "B.f481"; }
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public override string f485() { return "B.f485"; }
public override string f486() { return "B.f486"; }
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public override string f490() { return "B.f490"; }
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public override string f495() { return "B.f495"; }
public override string f496() { return "B.f496"; }
public override string f497() { return "B.f497"; }
public override string f498() { return "B.f498"; }
public override string f499() { return "B.f499"; }
public override string f500() { return "B.f500"; }
public override string f501() { return "B.f501"; }
public override string f502() { return "B.f502"; }
public override string f503() { return "B.f503"; }
public override string f504() { return "B.f504"; }
public override string f505() { return "B.f505"; }
public override string f506() { return "B.f506"; }
public override string f507() { return "B.f507"; }
public override string f508() { return "B.f508"; }
public override string f509() { return "B.f509"; }
public override string f510() { return "B.f510"; }
public override string f511() { return "B.f511"; }
public override string f512() { return "B.f512"; }
public override string f513() { return "B.f513"; }
public override string f514() { return "B.f514"; }
public override string f515() { return "B.f515"; }
public override string f516() { return "B.f516"; }
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public override string f518() { return "B.f518"; }
public override string f519() { return "B.f519"; }
public override string f520() { return "B.f520"; }
public override string f521() { return "B.f521"; }
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public override string f524() { return "B.f524"; }
public override string f525() { return "B.f525"; }
public override string f526() { return "B.f526"; }
public override string f527() { return "B.f527"; }
public override string f528() { return "B.f528"; }
public override string f529() { return "B.f529"; }
public override string f530() { return "B.f530"; }
public override string f531() { return "B.f531"; }
public override string f532() { return "B.f532"; }
public override string f533() { return "B.f533"; }
public override string f534() { return "B.f534"; }
public override string f535() { return "B.f535"; }
public override string f536() { return "B.f536"; }
public override string f537() { return "B.f537"; }
public override string f538() { return "B.f538"; }
public override string f539() { return "B.f539"; }
public override string f540() { return "B.f540"; }
public override string f541() { return "B.f541"; }
public override string f542() { return "B.f542"; }
public override string f543() { return "B.f543"; }
public override string f544() { return "B.f544"; }
public override string f545() { return "B.f545"; }
public override string f546() { return "B.f546"; }
public override string f547() { return "B.f547"; }
public override string f548() { return "B.f548"; }
public override string f549() { return "B.f549"; }
public override string f550() { return "B.f550"; }
public override string f551() { return "B.f551"; }
public override string f552() { return "B.f552"; }
public override string f553() { return "B.f553"; }
public override string f554() { return "B.f554"; }
public override string f555() { return "B.f555"; }
public override string f556() { return "B.f556"; }
public override string f557() { return "B.f557"; }
public override string f558() { return "B.f558"; }
public override string f559() { return "B.f559"; }
public override string f560() { return "B.f560"; }
public override string f561() { return "B.f561"; }
public override string f562() { return "B.f562"; }
public override string f563() { return "B.f563"; }
public override string f564() { return "B.f564"; }
public override string f565() { return "B.f565"; }
public override string f566() { return "B.f566"; }
public override string f567() { return "B.f567"; }
public override string f568() { return "B.f568"; }
public override string f569() { return "B.f569"; }
public override string f570() { return "B.f570"; }
public override string f571() { return "B.f571"; }
public override string f572() { return "B.f572"; }
public override string f573() { return "B.f573"; }
public override string f574() { return "B.f574"; }
public override string f575() { return "B.f575"; }
public override string f576() { return "B.f576"; }
public override string f577() { return "B.f577"; }
public override string f578() { return "B.f578"; }
public override string f579() { return "B.f579"; }
public override string f580() { return "B.f580"; }
public override string f581() { return "B.f581"; }
public override string f582() { return "B.f582"; }
public override string f583() { return "B.f583"; }
public override string f584() { return "B.f584"; }
public override string f585() { return "B.f585"; }
public override string f586() { return "B.f586"; }
public override string f587() { return "B.f587"; }
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public override string f589() { return "B.f589"; }
public override string f590() { return "B.f590"; }
public override string f591() { return "B.f591"; }
public override string f592() { return "B.f592"; }
public override string f593() { return "B.f593"; }
public override string f594() { return "B.f594"; }
public override string f595() { return "B.f595"; }
public override string f596() { return "B.f596"; }
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public override string f598() { return "B.f598"; }
public override string f599() { return "B.f599"; }
public override string f600() { return "B.f600"; }
public override string f601() { return "B.f601"; }
public override string f602() { return "B.f602"; }
public override string f603() { return "B.f603"; }
public override string f604() { return "B.f604"; }
public override string f605() { return "B.f605"; }
public override string f606() { return "B.f606"; }
public override string f607() { return "B.f607"; }
public override string f608() { return "B.f608"; }
public override string f609() { return "B.f609"; }
public override string f610() { return "B.f610"; }
public override string f611() { return "B.f611"; }
public override string f612() { return "B.f612"; }
public override string f613() { return "B.f613"; }
public override string f614() { return "B.f614"; }
public override string f615() { return "B.f615"; }
public override string f616() { return "B.f616"; }
public override string f617() { return "B.f617"; }
public override string f618() { return "B.f618"; }
public override string f619() { return "B.f619"; }
public override string f620() { return "B.f620"; }
public override string f621() { return "B.f621"; }
public override string f622() { return "B.f622"; }
public override string f623() { return "B.f623"; }
public override string f624() { return "B.f624"; }
public override string f625() { return "B.f625"; }
public override string f626() { return "B.f626"; }
public override string f627() { return "B.f627"; }
public override string f628() { return "B.f628"; }
public override string f629() { return "B.f629"; }
public override string f630() { return "B.f630"; }
public override string f631() { return "B.f631"; }
public override string f632() { return "B.f632"; }
public override string f633() { return "B.f633"; }
public override string f634() { return "B.f634"; }
public override string f635() { return "B.f635"; }
public override string f636() { return "B.f636"; }
public override string f637() { return "B.f637"; }
public override string f638() { return "B.f638"; }
public override string f639() { return "B.f639"; }
public override string f640() { return "B.f640"; }
public override string f641() { return "B.f641"; }
public override string f642() { return "B.f642"; }
public override string f643() { return "B.f643"; }
public override string f644() { return "B.f644"; }
public override string f645() { return "B.f645"; }
public override string f646() { return "B.f646"; }
public override string f647() { return "B.f647"; }
public override string f648() { return "B.f648"; }
public override string f649() { return "B.f649"; }
public override string f650() { return "B.f650"; }
public override string f651() { return "B.f651"; }
public override string f652() { return "B.f652"; }
public override string f653() { return "B.f653"; }
public override string f654() { return "B.f654"; }
public override string f655() { return "B.f655"; }
public override string f656() { return "B.f656"; }
public override string f657() { return "B.f657"; }
public override string f658() { return "B.f658"; }
public override string f659() { return "B.f659"; }
public override string f660() { return "B.f660"; }
public override string f661() { return "B.f661"; }
public override string f662() { return "B.f662"; }
public override string f663() { return "B.f663"; }
public override string f664() { return "B.f664"; }
public override string f665() { return "B.f665"; }
public override string f666() { return "B.f666"; }
public override string f667() { return "B.f667"; }
public override string f668() { return "B.f668"; }
public override string f669() { return "B.f669"; }
public override string f670() { return "B.f670"; }
public override string f671() { return "B.f671"; }
public override string f672() { return "B.f672"; }
public override string f673() { return "B.f673"; }
public override string f674() { return "B.f674"; }
public override string f675() { return "B.f675"; }
public override string f676() { return "B.f676"; }
public override string f677() { return "B.f677"; }
public override string f678() { return "B.f678"; }
public override string f679() { return "B.f679"; }
public override string f680() { return "B.f680"; }
public override string f681() { return "B.f681"; }
public override string f682() { return "B.f682"; }
public override string f683() { return "B.f683"; }
public override string f684() { return "B.f684"; }
public override string f685() { return "B.f685"; }
public override string f686() { return "B.f686"; }
public override string f687() { return "B.f687"; }
public override string f688() { return "B.f688"; }
public override string f689() { return "B.f689"; }
public override string f690() { return "B.f690"; }
public override string f691() { return "B.f691"; }
public override string f692() { return "B.f692"; }
public override string f693() { return "B.f693"; }
public override string f694() { return "B.f694"; }
public override string f695() { return "B.f695"; }
public override string f696() { return "B.f696"; }
public override string f697() { return "B.f697"; }
public override string f698() { return "B.f698"; }
public override string f699() { return "B.f699"; }
public override string f700() { return "B.f700"; }
public override string f701() { return "B.f701"; }
public override string f702() { return "B.f702"; }
public override string f703() { return "B.f703"; }
public override string f704() { return "B.f704"; }
public override string f705() { return "B.f705"; }
public override string f706() { return "B.f706"; }
public override string f707() { return "B.f707"; }
public override string f708() { return "B.f708"; }
public override string f709() { return "B.f709"; }
public override string f710() { return "B.f710"; }
public override string f711() { return "B.f711"; }
public override string f712() { return "B.f712"; }
public override string f713() { return "B.f713"; }
public override string f714() { return "B.f714"; }
public override string f715() { return "B.f715"; }
public override string f716() { return "B.f716"; }
public override string f717() { return "B.f717"; }
public override string f718() { return "B.f718"; }
public override string f719() { return "B.f719"; }
public override string f720() { return "B.f720"; }
public override string f721() { return "B.f721"; }
public override string f722() { return "B.f722"; }
public override string f723() { return "B.f723"; }
public override string f724() { return "B.f724"; }
public override string f725() { return "B.f725"; }
public override string f726() { return "B.f726"; }
public override string f727() { return "B.f727"; }
public override string f728() { return "B.f728"; }
public override string f729() { return "B.f729"; }
public override string f730() { return "B.f730"; }
public override string f731() { return "B.f731"; }
public override string f732() { return "B.f732"; }
public override string f733() { return "B.f733"; }
public override string f734() { return "B.f734"; }
public override string f735() { return "B.f735"; }
public override string f736() { return "B.f736"; }
public override string f737() { return "B.f737"; }
public override string f738() { return "B.f738"; }
public override string f739() { return "B.f739"; }
public override string f740() { return "B.f740"; }
public override string f741() { return "B.f741"; }
public override string f742() { return "B.f742"; }
public override string f743() { return "B.f743"; }
public override string f744() { return "B.f744"; }
public override string f745() { return "B.f745"; }
public override string f746() { return "B.f746"; }
public override string f747() { return "B.f747"; }
public override string f748() { return "B.f748"; }
public override string f749() { return "B.f749"; }
public override string f750() { return "B.f750"; }
public override string f751() { return "B.f751"; }
public override string f752() { return "B.f752"; }
public override string f753() { return "B.f753"; }
public override string f754() { return "B.f754"; }
public override string f755() { return "B.f755"; }
public override string f756() { return "B.f756"; }
public override string f757() { return "B.f757"; }
public override string f758() { return "B.f758"; }
public override string f759() { return "B.f759"; }
public override string f760() { return "B.f760"; }
public override string f761() { return "B.f761"; }
public override string f762() { return "B.f762"; }
public override string f763() { return "B.f763"; }
public override string f764() { return "B.f764"; }
public override string f765() { return "B.f765"; }
public override string f766() { return "B.f766"; }
public override string f767() { return "B.f767"; }
public override string f768() { return "B.f768"; }
public override string f769() { return "B.f769"; }
public override string f770() { return "B.f770"; }
public override string f771() { return "B.f771"; }
public override string f772() { return "B.f772"; }
public override string f773() { return "B.f773"; }
public override string f774() { return "B.f774"; }
public override string f775() { return "B.f775"; }
public override string f776() { return "B.f776"; }
public override string f777() { return "B.f777"; }
public override string f778() { return "B.f778"; }
public override string f779() { return "B.f779"; }
public override string f780() { return "B.f780"; }
public override string f781() { return "B.f781"; }
public override string f782() { return "B.f782"; }
public override string f783() { return "B.f783"; }
public override string f784() { return "B.f784"; }
public override string f785() { return "B.f785"; }
public override string f786() { return "B.f786"; }
public override string f787() { return "B.f787"; }
public override string f788() { return "B.f788"; }
public override string f789() { return "B.f789"; }
public override string f790() { return "B.f790"; }
public override string f791() { return "B.f791"; }
public override string f792() { return "B.f792"; }
public override string f793() { return "B.f793"; }
public override string f794() { return "B.f794"; }
public override string f795() { return "B.f795"; }
public override string f796() { return "B.f796"; }
public override string f797() { return "B.f797"; }
public override string f798() { return "B.f798"; }
public override string f799() { return "B.f799"; }
public override string f800() { return "B.f800"; }
public override string f801() { return "B.f801"; }
public override string f802() { return "B.f802"; }
public override string f803() { return "B.f803"; }
public override string f804() { return "B.f804"; }
public override string f805() { return "B.f805"; }
public override string f806() { return "B.f806"; }
public override string f807() { return "B.f807"; }
public override string f808() { return "B.f808"; }
public override string f809() { return "B.f809"; }
public override string f810() { return "B.f810"; }
public override string f811() { return "B.f811"; }
public override string f812() { return "B.f812"; }
public override string f813() { return "B.f813"; }
public override string f814() { return "B.f814"; }
public override string f815() { return "B.f815"; }
public override string f816() { return "B.f816"; }
public override string f817() { return "B.f817"; }
public override string f818() { return "B.f818"; }
public override string f819() { return "B.f819"; }
public override string f820() { return "B.f820"; }
public override string f821() { return "B.f821"; }
public override string f822() { return "B.f822"; }
public override string f823() { return "B.f823"; }
public override string f824() { return "B.f824"; }
public override string f825() { return "B.f825"; }
public override string f826() { return "B.f826"; }
public override string f827() { return "B.f827"; }
public override string f828() { return "B.f828"; }
public override string f829() { return "B.f829"; }
public override string f830() { return "B.f830"; }
public override string f831() { return "B.f831"; }
public override string f832() { return "B.f832"; }
public override string f833() { return "B.f833"; }
public override string f834() { return "B.f834"; }
public override string f835() { return "B.f835"; }
public override string f836() { return "B.f836"; }
public override string f837() { return "B.f837"; }
public override string f838() { return "B.f838"; }
public override string f839() { return "B.f839"; }
public override string f840() { return "B.f840"; }
public override string f841() { return "B.f841"; }
public override string f842() { return "B.f842"; }
public override string f843() { return "B.f843"; }
public override string f844() { return "B.f844"; }
public override string f845() { return "B.f845"; }
public override string f846() { return "B.f846"; }
public override string f847() { return "B.f847"; }
public override string f848() { return "B.f848"; }
public override string f849() { return "B.f849"; }
public override string f850() { return "B.f850"; }
public override string f851() { return "B.f851"; }
public override string f852() { return "B.f852"; }
public override string f853() { return "B.f853"; }
public override string f854() { return "B.f854"; }
public override string f855() { return "B.f855"; }
public override string f856() { return "B.f856"; }
public override string f857() { return "B.f857"; }
public override string f858() { return "B.f858"; }
public override string f859() { return "B.f859"; }
public override string f860() { return "B.f860"; }
public override string f861() { return "B.f861"; }
public override string f862() { return "B.f862"; }
public override string f863() { return "B.f863"; }
public override string f864() { return "B.f864"; }
public override string f865() { return "B.f865"; }
public override string f866() { return "B.f866"; }
public override string f867() { return "B.f867"; }
public override string f868() { return "B.f868"; }
public override string f869() { return "B.f869"; }
public override string f870() { return "B.f870"; }
public override string f871() { return "B.f871"; }
public override string f872() { return "B.f872"; }
public override string f873() { return "B.f873"; }
public override string f874() { return "B.f874"; }
public override string f875() { return "B.f875"; }
public override string f876() { return "B.f876"; }
public override string f877() { return "B.f877"; }
public override string f878() { return "B.f878"; }
public override string f879() { return "B.f879"; }
public override string f880() { return "B.f880"; }
public override string f881() { return "B.f881"; }
public override string f882() { return "B.f882"; }
public override string f883() { return "B.f883"; }
public override string f884() { return "B.f884"; }
public override string f885() { return "B.f885"; }
public override string f886() { return "B.f886"; }
public override string f887() { return "B.f887"; }
public override string f888() { return "B.f888"; }
public override string f889() { return "B.f889"; }
public override string f890() { return "B.f890"; }
public override string f891() { return "B.f891"; }
public override string f892() { return "B.f892"; }
public override string f893() { return "B.f893"; }
public override string f894() { return "B.f894"; }
public override string f895() { return "B.f895"; }
public override string f896() { return "B.f896"; }
public override string f897() { return "B.f897"; }
public override string f898() { return "B.f898"; }
public override string f899() { return "B.f899"; }
public override string f900() { return "B.f900"; }
public override string f901() { return "B.f901"; }
public override string f902() { return "B.f902"; }
public override string f903() { return "B.f903"; }
public override string f904() { return "B.f904"; }
public override string f905() { return "B.f905"; }
public override string f906() { return "B.f906"; }
public override string f907() { return "B.f907"; }
public override string f908() { return "B.f908"; }
public override string f909() { return "B.f909"; }
public override string f910() { return "B.f910"; }
public override string f911() { return "B.f911"; }
public override string f912() { return "B.f912"; }
public override string f913() { return "B.f913"; }
public override string f914() { return "B.f914"; }
public override string f915() { return "B.f915"; }
public override string f916() { return "B.f916"; }
public override string f917() { return "B.f917"; }
public override string f918() { return "B.f918"; }
public override string f919() { return "B.f919"; }
public override string f920() { return "B.f920"; }
public override string f921() { return "B.f921"; }
public override string f922() { return "B.f922"; }
public override string f923() { return "B.f923"; }
public override string f924() { return "B.f924"; }
public override string f925() { return "B.f925"; }
public override string f926() { return "B.f926"; }
public override string f927() { return "B.f927"; }
public override string f928() { return "B.f928"; }
public override string f929() { return "B.f929"; }
public override string f930() { return "B.f930"; }
public override string f931() { return "B.f931"; }
public override string f932() { return "B.f932"; }
public override string f933() { return "B.f933"; }
public override string f934() { return "B.f934"; }
public override string f935() { return "B.f935"; }
public override string f936() { return "B.f936"; }
public override string f937() { return "B.f937"; }
public override string f938() { return "B.f938"; }
public override string f939() { return "B.f939"; }
public override string f940() { return "B.f940"; }
public override string f941() { return "B.f941"; }
public override string f942() { return "B.f942"; }
public override string f943() { return "B.f943"; }
public override string f944() { return "B.f944"; }
public override string f945() { return "B.f945"; }
public override string f946() { return "B.f946"; }
public override string f947() { return "B.f947"; }
public override string f948() { return "B.f948"; }
public override string f949() { return "B.f949"; }
public override string f950() { return "B.f950"; }
public override string f951() { return "B.f951"; }
public override string f952() { return "B.f952"; }
public override string f953() { return "B.f953"; }
public override string f954() { return "B.f954"; }
public override string f955() { return "B.f955"; }
public override string f956() { return "B.f956"; }
public override string f957() { return "B.f957"; }
public override string f958() { return "B.f958"; }
public override string f959() { return "B.f959"; }
public override string f960() { return "B.f960"; }
public override string f961() { return "B.f961"; }
public override string f962() { return "B.f962"; }
public override string f963() { return "B.f963"; }
public override string f964() { return "B.f964"; }
public override string f965() { return "B.f965"; }
public override string f966() { return "B.f966"; }
public override string f967() { return "B.f967"; }
public override string f968() { return "B.f968"; }
public override string f969() { return "B.f969"; }
public override string f970() { return "B.f970"; }
public override string f971() { return "B.f971"; }
public override string f972() { return "B.f972"; }
public override string f973() { return "B.f973"; }
public override string f974() { return "B.f974"; }
public override string f975() { return "B.f975"; }
public override string f976() { return "B.f976"; }
public override string f977() { return "B.f977"; }
public override string f978() { return "B.f978"; }
public override string f979() { return "B.f979"; }
public override string f980() { return "B.f980"; }
public override string f981() { return "B.f981"; }
public override string f982() { return "B.f982"; }
public override string f983() { return "B.f983"; }
public override string f984() { return "B.f984"; }
public override string f985() { return "B.f985"; }
public override string f986() { return "B.f986"; }
public override string f987() { return "B.f987"; }
public override string f988() { return "B.f988"; }
public override string f989() { return "B.f989"; }
public override string f990() { return "B.f990"; }
public override string f991() { return "B.f991"; }
public override string f992() { return "B.f992"; }
public override string f993() { return "B.f993"; }
public override string f994() { return "B.f994"; }
public override string f995() { return "B.f995"; }
public override string f996() { return "B.f996"; }
public override string f997() { return "B.f997"; }
public override string f998() { return "B.f998"; }
public override string f999() { return "B.f999"; }
public override string f1000() { return "B.f1000"; }
public override string f1001() { return "B.f1001"; }
public override string f1002() { return "B.f1002"; }
public override string f1003() { return "B.f1003"; }
public override string f1004() { return "B.f1004"; }
public override string f1005() { return "B.f1005"; }
public override string f1006() { return "B.f1006"; }
public override string f1007() { return "B.f1007"; }
public override string f1008() { return "B.f1008"; }
public override string f1009() { return "B.f1009"; }
public override string f1010() { return "B.f1010"; }
public override string f1011() { return "B.f1011"; }
public override string f1012() { return "B.f1012"; }
public override string f1013() { return "B.f1013"; }
public override string f1014() { return "B.f1014"; }
public override string f1015() { return "B.f1015"; }
public override string f1016() { return "B.f1016"; }
public override string f1017() { return "B.f1017"; }
public override string f1018() { return "B.f1018"; }
public override string f1019() { return "B.f1019"; }
public override string f1020() { return "B.f1020"; }
public override string f1021() { return "B.f1021"; }
public override string f1022() { return "B.f1022"; }
public override string f1023() { return "B.f1023"; }
public override string f1024() { return "B.f1024"; }
public override string f1025() { return "B.f1025"; }
public override string f1026() { return "B.f1026"; }
public override string f1027() { return "B.f1027"; }
public override string f1028() { return "B.f1028"; }
public override string f1029() { return "B.f1029"; }
public override string f1030() { return "B.f1030"; }
public override string f1031() { return "B.f1031"; }
public override string f1032() { return "B.f1032"; }
public override string f1033() { return "B.f1033"; }
public override string f1034() { return "B.f1034"; }
public override string f1035() { return "B.f1035"; }
public override string f1036() { return "B.f1036"; }
public override string f1037() { return "B.f1037"; }
public override string f1038() { return "B.f1038"; }
public override string f1039() { return "B.f1039"; }
public override string f1040() { return "B.f1040"; }
public override string f1041() { return "B.f1041"; }
public override string f1042() { return "B.f1042"; }
public override string f1043() { return "B.f1043"; }
public override string f1044() { return "B.f1044"; }
public override string f1045() { return "B.f1045"; }
public override string f1046() { return "B.f1046"; }
public override string f1047() { return "B.f1047"; }
public override string f1048() { return "B.f1048"; }
public override string f1049() { return "B.f1049"; }
public override string f1050() { return "B.f1050"; }
public override string f1051() { return "B.f1051"; }
public override string f1052() { return "B.f1052"; }
public override string f1053() { return "B.f1053"; }
public override string f1054() { return "B.f1054"; }
public override string f1055() { return "B.f1055"; }
public override string f1056() { return "B.f1056"; }
public override string f1057() { return "B.f1057"; }
public override string f1058() { return "B.f1058"; }
public override string f1059() { return "B.f1059"; }
public override string f1060() { return "B.f1060"; }
public override string f1061() { return "B.f1061"; }
public override string f1062() { return "B.f1062"; }
public override string f1063() { return "B.f1063"; }
public override string f1064() { return "B.f1064"; }
public override string f1065() { return "B.f1065"; }
public override string f1066() { return "B.f1066"; }
public override string f1067() { return "B.f1067"; }
public override string f1068() { return "B.f1068"; }
public override string f1069() { return "B.f1069"; }
public override string f1070() { return "B.f1070"; }
public override string f1071() { return "B.f1071"; }
public override string f1072() { return "B.f1072"; }
public override string f1073() { return "B.f1073"; }
public override string f1074() { return "B.f1074"; }
public override string f1075() { return "B.f1075"; }
public override string f1076() { return "B.f1076"; }
public override string f1077() { return "B.f1077"; }
public override string f1078() { return "B.f1078"; }
public override string f1079() { return "B.f1079"; }
public override string f1080() { return "B.f1080"; }
public override string f1081() { return "B.f1081"; }
public override string f1082() { return "B.f1082"; }
public override string f1083() { return "B.f1083"; }
public override string f1084() { return "B.f1084"; }
public override string f1085() { return "B.f1085"; }
public override string f1086() { return "B.f1086"; }
public override string f1087() { return "B.f1087"; }
public override string f1088() { return "B.f1088"; }
public override string f1089() { return "B.f1089"; }
public override string f1090() { return "B.f1090"; }
public override string f1091() { return "B.f1091"; }
public override string f1092() { return "B.f1092"; }
public override string f1093() { return "B.f1093"; }
public override string f1094() { return "B.f1094"; }
public override string f1095() { return "B.f1095"; }
public override string f1096() { return "B.f1096"; }
public override string f1097() { return "B.f1097"; }
public override string f1098() { return "B.f1098"; }
public override string f1099() { return "B.f1099"; }
public override string f1100() { return "B.f1100"; }
public override string f1101() { return "B.f1101"; }
public override string f1102() { return "B.f1102"; }
public override string f1103() { return "B.f1103"; }
public override string f1104() { return "B.f1104"; }
public override string f1105() { return "B.f1105"; }
public override string f1106() { return "B.f1106"; }
public override string f1107() { return "B.f1107"; }
public override string f1108() { return "B.f1108"; }
public override string f1109() { return "B.f1109"; }
public override string f1110() { return "B.f1110"; }
public override string f1111() { return "B.f1111"; }
public override string f1112() { return "B.f1112"; }
public override string f1113() { return "B.f1113"; }
public override string f1114() { return "B.f1114"; }
public override string f1115() { return "B.f1115"; }
public override string f1116() { return "B.f1116"; }
public override string f1117() { return "B.f1117"; }
public override string f1118() { return "B.f1118"; }
public override string f1119() { return "B.f1119"; }
public override string f1120() { return "B.f1120"; }
public override string f1121() { return "B.f1121"; }
public override string f1122() { return "B.f1122"; }
public override string f1123() { return "B.f1123"; }
public override string f1124() { return "B.f1124"; }
public override string f1125() { return "B.f1125"; }
public override string f1126() { return "B.f1126"; }
public override string f1127() { return "B.f1127"; }
public override string f1128() { return "B.f1128"; }
public override string f1129() { return "B.f1129"; }
public override string f1130() { return "B.f1130"; }
public override string f1131() { return "B.f1131"; }
public override string f1132() { return "B.f1132"; }
public override string f1133() { return "B.f1133"; }
public override string f1134() { return "B.f1134"; }
public override string f1135() { return "B.f1135"; }
public override string f1136() { return "B.f1136"; }
public override string f1137() { return "B.f1137"; }
public override string f1138() { return "B.f1138"; }
public override string f1139() { return "B.f1139"; }
public override string f1140() { return "B.f1140"; }
public override string f1141() { return "B.f1141"; }
public override string f1142() { return "B.f1142"; }
public override string f1143() { return "B.f1143"; }
public override string f1144() { return "B.f1144"; }
public override string f1145() { return "B.f1145"; }
public override string f1146() { return "B.f1146"; }
public override string f1147() { return "B.f1147"; }
public override string f1148() { return "B.f1148"; }
public override string f1149() { return "B.f1149"; }
public override string f1150() { return "B.f1150"; }
public override string f1151() { return "B.f1151"; }
public override string f1152() { return "B.f1152"; }
public override string f1153() { return "B.f1153"; }
public override string f1154() { return "B.f1154"; }
public override string f1155() { return "B.f1155"; }
public override string f1156() { return "B.f1156"; }
public override string f1157() { return "B.f1157"; }
public override string f1158() { return "B.f1158"; }
public override string f1159() { return "B.f1159"; }
public override string f1160() { return "B.f1160"; }
public override string f1161() { return "B.f1161"; }
public override string f1162() { return "B.f1162"; }
public override string f1163() { return "B.f1163"; }
public override string f1164() { return "B.f1164"; }
public override string f1165() { return "B.f1165"; }
public override string f1166() { return "B.f1166"; }
public override string f1167() { return "B.f1167"; }
public override string f1168() { return "B.f1168"; }
public override string f1169() { return "B.f1169"; }
public override string f1170() { return "B.f1170"; }
public override string f1171() { return "B.f1171"; }
public override string f1172() { return "B.f1172"; }
public override string f1173() { return "B.f1173"; }
public override string f1174() { return "B.f1174"; }
public override string f1175() { return "B.f1175"; }
public override string f1176() { return "B.f1176"; }
public override string f1177() { return "B.f1177"; }
public override string f1178() { return "B.f1178"; }
public override string f1179() { return "B.f1179"; }
public override string f1180() { return "B.f1180"; }
public override string f1181() { return "B.f1181"; }
public override string f1182() { return "B.f1182"; }
public override string f1183() { return "B.f1183"; }
public override string f1184() { return "B.f1184"; }
public override string f1185() { return "B.f1185"; }
public override string f1186() { return "B.f1186"; }
public override string f1187() { return "B.f1187"; }
public override string f1188() { return "B.f1188"; }
public override string f1189() { return "B.f1189"; }
public override string f1190() { return "B.f1190"; }
public override string f1191() { return "B.f1191"; }
public override string f1192() { return "B.f1192"; }
public override string f1193() { return "B.f1193"; }
public override string f1194() { return "B.f1194"; }
public override string f1195() { return "B.f1195"; }
public override string f1196() { return "B.f1196"; }
public override string f1197() { return "B.f1197"; }
public override string f1198() { return "B.f1198"; }
public override string f1199() { return "B.f1199"; }
public override string f1200() { return "B.f1200"; }
public override string f1201() { return "B.f1201"; }
public override string f1202() { return "B.f1202"; }
public override string f1203() { return "B.f1203"; }
public override string f1204() { return "B.f1204"; }
public override string f1205() { return "B.f1205"; }
public override string f1206() { return "B.f1206"; }
public override string f1207() { return "B.f1207"; }
public override string f1208() { return "B.f1208"; }
public override string f1209() { return "B.f1209"; }
public override string f1210() { return "B.f1210"; }
public override string f1211() { return "B.f1211"; }
public override string f1212() { return "B.f1212"; }
public override string f1213() { return "B.f1213"; }
public override string f1214() { return "B.f1214"; }
public override string f1215() { return "B.f1215"; }
public override string f1216() { return "B.f1216"; }
public override string f1217() { return "B.f1217"; }
public override string f1218() { return "B.f1218"; }
public override string f1219() { return "B.f1219"; }
public override string f1220() { return "B.f1220"; }
public override string f1221() { return "B.f1221"; }
public override string f1222() { return "B.f1222"; }
public override string f1223() { return "B.f1223"; }
public override string f1224() { return "B.f1224"; }
public override string f1225() { return "B.f1225"; }
public override string f1226() { return "B.f1226"; }
public override string f1227() { return "B.f1227"; }
public override string f1228() { return "B.f1228"; }
public override string f1229() { return "B.f1229"; }
public override string f1230() { return "B.f1230"; }
public override string f1231() { return "B.f1231"; }
public override string f1232() { return "B.f1232"; }
public override string f1233() { return "B.f1233"; }
public override string f1234() { return "B.f1234"; }
public override string f1235() { return "B.f1235"; }
public override string f1236() { return "B.f1236"; }
public override string f1237() { return "B.f1237"; }
public override string f1238() { return "B.f1238"; }
public override string f1239() { return "B.f1239"; }
public override string f1240() { return "B.f1240"; }
public override string f1241() { return "B.f1241"; }
public override string f1242() { return "B.f1242"; }
public override string f1243() { return "B.f1243"; }
public override string f1244() { return "B.f1244"; }
public override string f1245() { return "B.f1245"; }
public override string f1246() { return "B.f1246"; }
public override string f1247() { return "B.f1247"; }
public override string f1248() { return "B.f1248"; }
public override string f1249() { return "B.f1249"; }
public override string f1250() { return "B.f1250"; }
public override string f1251() { return "B.f1251"; }
public override string f1252() { return "B.f1252"; }
public override string f1253() { return "B.f1253"; }
public override string f1254() { return "B.f1254"; }
public override string f1255() { return "B.f1255"; }
public override string f1256() { return "B.f1256"; }
public override string f1257() { return "B.f1257"; }
public override string f1258() { return "B.f1258"; }
public override string f1259() { return "B.f1259"; }
public override string f1260() { return "B.f1260"; }
public override string f1261() { return "B.f1261"; }
public override string f1262() { return "B.f1262"; }
public override string f1263() { return "B.f1263"; }
public override string f1264() { return "B.f1264"; }
public override string f1265() { return "B.f1265"; }
public override string f1266() { return "B.f1266"; }
public override string f1267() { return "B.f1267"; }
public override string f1268() { return "B.f1268"; }
public override string f1269() { return "B.f1269"; }
public override string f1270() { return "B.f1270"; }
public override string f1271() { return "B.f1271"; }
public override string f1272() { return "B.f1272"; }
public override string f1273() { return "B.f1273"; }
public override string f1274() { return "B.f1274"; }
public override string f1275() { return "B.f1275"; }
public override string f1276() { return "B.f1276"; }
public override string f1277() { return "B.f1277"; }
public override string f1278() { return "B.f1278"; }
public override string f1279() { return "B.f1279"; }
public override string f1280() { return "B.f1280"; }
public override string f1281() { return "B.f1281"; }
public override string f1282() { return "B.f1282"; }
public override string f1283() { return "B.f1283"; }
public override string f1284() { return "B.f1284"; }
public override string f1285() { return "B.f1285"; }
public override string f1286() { return "B.f1286"; }
public override string f1287() { return "B.f1287"; }
public override string f1288() { return "B.f1288"; }
public override string f1289() { return "B.f1289"; }
public override string f1290() { return "B.f1290"; }
public override string f1291() { return "B.f1291"; }
public override string f1292() { return "B.f1292"; }
public override string f1293() { return "B.f1293"; }
public override string f1294() { return "B.f1294"; }
public override string f1295() { return "B.f1295"; }
public override string f1296() { return "B.f1296"; }
public override string f1297() { return "B.f1297"; }
public override string f1298() { return "B.f1298"; }
public override string f1299() { return "B.f1299"; }
public override string f1300() { return "B.f1300"; }
public override string f1301() { return "B.f1301"; }
public override string f1302() { return "B.f1302"; }
public override string f1303() { return "B.f1303"; }
public override string f1304() { return "B.f1304"; }
public override string f1305() { return "B.f1305"; }
public override string f1306() { return "B.f1306"; }
public override string f1307() { return "B.f1307"; }
public override string f1308() { return "B.f1308"; }
public override string f1309() { return "B.f1309"; }
public override string f1310() { return "B.f1310"; }
public override string f1311() { return "B.f1311"; }
public override string f1312() { return "B.f1312"; }
public override string f1313() { return "B.f1313"; }
public override string f1314() { return "B.f1314"; }
public override string f1315() { return "B.f1315"; }
public override string f1316() { return "B.f1316"; }
public override string f1317() { return "B.f1317"; }
public override string f1318() { return "B.f1318"; }
public override string f1319() { return "B.f1319"; }
public override string f1320() { return "B.f1320"; }
public override string f1321() { return "B.f1321"; }
public override string f1322() { return "B.f1322"; }
public override string f1323() { return "B.f1323"; }
public override string f1324() { return "B.f1324"; }
public override string f1325() { return "B.f1325"; }
public override string f1326() { return "B.f1326"; }
public override string f1327() { return "B.f1327"; }
public override string f1328() { return "B.f1328"; }
public override string f1329() { return "B.f1329"; }
public override string f1330() { return "B.f1330"; }
public override string f1331() { return "B.f1331"; }
public override string f1332() { return "B.f1332"; }
public override string f1333() { return "B.f1333"; }
public override string f1334() { return "B.f1334"; }
public override string f1335() { return "B.f1335"; }
public override string f1336() { return "B.f1336"; }
public override string f1337() { return "B.f1337"; }
public override string f1338() { return "B.f1338"; }
public override string f1339() { return "B.f1339"; }
public override string f1340() { return "B.f1340"; }
public override string f1341() { return "B.f1341"; }
public override string f1342() { return "B.f1342"; }
public override string f1343() { return "B.f1343"; }
public override string f1344() { return "B.f1344"; }
public override string f1345() { return "B.f1345"; }
public override string f1346() { return "B.f1346"; }
public override string f1347() { return "B.f1347"; }
public override string f1348() { return "B.f1348"; }
public override string f1349() { return "B.f1349"; }
public override string f1350() { return "B.f1350"; }
public override string f1351() { return "B.f1351"; }
public override string f1352() { return "B.f1352"; }
public override string f1353() { return "B.f1353"; }
public override string f1354() { return "B.f1354"; }
public override string f1355() { return "B.f1355"; }
public override string f1356() { return "B.f1356"; }
public override string f1357() { return "B.f1357"; }
public override string f1358() { return "B.f1358"; }
public override string f1359() { return "B.f1359"; }
public override string f1360() { return "B.f1360"; }
public override string f1361() { return "B.f1361"; }
public override string f1362() { return "B.f1362"; }
public override string f1363() { return "B.f1363"; }
public override string f1364() { return "B.f1364"; }
public override string f1365() { return "B.f1365"; }
public override string f1366() { return "B.f1366"; }
public override string f1367() { return "B.f1367"; }
public override string f1368() { return "B.f1368"; }
public override string f1369() { return "B.f1369"; }
public override string f1370() { return "B.f1370"; }
public override string f1371() { return "B.f1371"; }
public override string f1372() { return "B.f1372"; }
public override string f1373() { return "B.f1373"; }
public override string f1374() { return "B.f1374"; }
public override string f1375() { return "B.f1375"; }
public override string f1376() { return "B.f1376"; }
public override string f1377() { return "B.f1377"; }
public override string f1378() { return "B.f1378"; }
public override string f1379() { return "B.f1379"; }
public override string f1380() { return "B.f1380"; }
public override string f1381() { return "B.f1381"; }
public override string f1382() { return "B.f1382"; }
public override string f1383() { return "B.f1383"; }
public override string f1384() { return "B.f1384"; }
public override string f1385() { return "B.f1385"; }
public override string f1386() { return "B.f1386"; }
public override string f1387() { return "B.f1387"; }
public override string f1388() { return "B.f1388"; }
public override string f1389() { return "B.f1389"; }
public override string f1390() { return "B.f1390"; }
public override string f1391() { return "B.f1391"; }
public override string f1392() { return "B.f1392"; }
public override string f1393() { return "B.f1393"; }
public override string f1394() { return "B.f1394"; }
public override string f1395() { return "B.f1395"; }
public override string f1396() { return "B.f1396"; }
public override string f1397() { return "B.f1397"; }
public override string f1398() { return "B.f1398"; }
public override string f1399() { return "B.f1399"; }
public override string f1400() { return "B.f1400"; }
public override string f1401() { return "B.f1401"; }
public override string f1402() { return "B.f1402"; }
public override string f1403() { return "B.f1403"; }
public override string f1404() { return "B.f1404"; }
public override string f1405() { return "B.f1405"; }
public override string f1406() { return "B.f1406"; }
public override string f1407() { return "B.f1407"; }
public override string f1408() { return "B.f1408"; }
public override string f1409() { return "B.f1409"; }
public override string f1410() { return "B.f1410"; }
public override string f1411() { return "B.f1411"; }
public override string f1412() { return "B.f1412"; }
public override string f1413() { return "B.f1413"; }
public override string f1414() { return "B.f1414"; }
public override string f1415() { return "B.f1415"; }
public override string f1416() { return "B.f1416"; }
public override string f1417() { return "B.f1417"; }
public override string f1418() { return "B.f1418"; }
public override string f1419() { return "B.f1419"; }
public override string f1420() { return "B.f1420"; }
public override string f1421() { return "B.f1421"; }
public override string f1422() { return "B.f1422"; }
public override string f1423() { return "B.f1423"; }
public override string f1424() { return "B.f1424"; }
public override string f1425() { return "B.f1425"; }
public override string f1426() { return "B.f1426"; }
public override string f1427() { return "B.f1427"; }
public override string f1428() { return "B.f1428"; }
public override string f1429() { return "B.f1429"; }
public override string f1430() { return "B.f1430"; }
public override string f1431() { return "B.f1431"; }
public override string f1432() { return "B.f1432"; }
public override string f1433() { return "B.f1433"; }
public override string f1434() { return "B.f1434"; }
public override string f1435() { return "B.f1435"; }
public override string f1436() { return "B.f1436"; }
public override string f1437() { return "B.f1437"; }
public override string f1438() { return "B.f1438"; }
public override string f1439() { return "B.f1439"; }
public override string f1440() { return "B.f1440"; }
public override string f1441() { return "B.f1441"; }
public override string f1442() { return "B.f1442"; }
public override string f1443() { return "B.f1443"; }
public override string f1444() { return "B.f1444"; }
public override string f1445() { return "B.f1445"; }
public override string f1446() { return "B.f1446"; }
public override string f1447() { return "B.f1447"; }
public override string f1448() { return "B.f1448"; }
public override string f1449() { return "B.f1449"; }
public override string f1450() { return "B.f1450"; }
public override string f1451() { return "B.f1451"; }
public override string f1452() { return "B.f1452"; }
public override string f1453() { return "B.f1453"; }
public override string f1454() { return "B.f1454"; }
public override string f1455() { return "B.f1455"; }
public override string f1456() { return "B.f1456"; }
public override string f1457() { return "B.f1457"; }
public override string f1458() { return "B.f1458"; }
public override string f1459() { return "B.f1459"; }
public override string f1460() { return "B.f1460"; }
public override string f1461() { return "B.f1461"; }
public override string f1462() { return "B.f1462"; }
public override string f1463() { return "B.f1463"; }
public override string f1464() { return "B.f1464"; }
public override string f1465() { return "B.f1465"; }
public override string f1466() { return "B.f1466"; }
public override string f1467() { return "B.f1467"; }
public override string f1468() { return "B.f1468"; }
public override string f1469() { return "B.f1469"; }
public override string f1470() { return "B.f1470"; }
public override string f1471() { return "B.f1471"; }
public override string f1472() { return "B.f1472"; }
public override string f1473() { return "B.f1473"; }
public override string f1474() { return "B.f1474"; }
public override string f1475() { return "B.f1475"; }
public override string f1476() { return "B.f1476"; }
public override string f1477() { return "B.f1477"; }
public override string f1478() { return "B.f1478"; }
public override string f1479() { return "B.f1479"; }
public override string f1480() { return "B.f1480"; }
public override string f1481() { return "B.f1481"; }
public override string f1482() { return "B.f1482"; }
public override string f1483() { return "B.f1483"; }
public override string f1484() { return "B.f1484"; }
public override string f1485() { return "B.f1485"; }
public override string f1486() { return "B.f1486"; }
public override string f1487() { return "B.f1487"; }
public override string f1488() { return "B.f1488"; }
public override string f1489() { return "B.f1489"; }
public override string f1490() { return "B.f1490"; }
public override string f1491() { return "B.f1491"; }
public override string f1492() { return "B.f1492"; }
public override string f1493() { return "B.f1493"; }
public override string f1494() { return "B.f1494"; }
public override string f1495() { return "B.f1495"; }
public override string f1496() { return "B.f1496"; }
public override string f1497() { return "B.f1497"; }
public override string f1498() { return "B.f1498"; }
public override string f1499() { return "B.f1499"; }
public override string f1500() { return "B.f1500"; }
public override string f1501() { return "B.f1501"; }
public override string f1502() { return "B.f1502"; }
public override string f1503() { return "B.f1503"; }
public override string f1504() { return "B.f1504"; }
public override string f1505() { return "B.f1505"; }
public override string f1506() { return "B.f1506"; }
public override string f1507() { return "B.f1507"; }
public override string f1508() { return "B.f1508"; }
public override string f1509() { return "B.f1509"; }
public override string f1510() { return "B.f1510"; }
public override string f1511() { return "B.f1511"; }
public override string f1512() { return "B.f1512"; }
public override string f1513() { return "B.f1513"; }
public override string f1514() { return "B.f1514"; }
public override string f1515() { return "B.f1515"; }
public override string f1516() { return "B.f1516"; }
public override string f1517() { return "B.f1517"; }
public override string f1518() { return "B.f1518"; }
public override string f1519() { return "B.f1519"; }
public override string f1520() { return "B.f1520"; }
public override string f1521() { return "B.f1521"; }
public override string f1522() { return "B.f1522"; }
public override string f1523() { return "B.f1523"; }
public override string f1524() { return "B.f1524"; }
public override string f1525() { return "B.f1525"; }
public override string f1526() { return "B.f1526"; }
public override string f1527() { return "B.f1527"; }
public override string f1528() { return "B.f1528"; }
public override string f1529() { return "B.f1529"; }
public override string f1530() { return "B.f1530"; }
public override string f1531() { return "B.f1531"; }
public override string f1532() { return "B.f1532"; }
public override string f1533() { return "B.f1533"; }
public override string f1534() { return "B.f1534"; }
public override string f1535() { return "B.f1535"; }
public override string f1536() { return "B.f1536"; }
public override string f1537() { return "B.f1537"; }
public override string f1538() { return "B.f1538"; }
public override string f1539() { return "B.f1539"; }
public override string f1540() { return "B.f1540"; }
public override string f1541() { return "B.f1541"; }
public override string f1542() { return "B.f1542"; }
public override string f1543() { return "B.f1543"; }
public override string f1544() { return "B.f1544"; }
public override string f1545() { return "B.f1545"; }
public override string f1546() { return "B.f1546"; }
public override string f1547() { return "B.f1547"; }
public override string f1548() { return "B.f1548"; }
public override string f1549() { return "B.f1549"; }
public override string f1550() { return "B.f1550"; }
public override string f1551() { return "B.f1551"; }
public override string f1552() { return "B.f1552"; }
public override string f1553() { return "B.f1553"; }
public override string f1554() { return "B.f1554"; }
public override string f1555() { return "B.f1555"; }
public override string f1556() { return "B.f1556"; }
public override string f1557() { return "B.f1557"; }
public override string f1558() { return "B.f1558"; }
public override string f1559() { return "B.f1559"; }
public override string f1560() { return "B.f1560"; }
public override string f1561() { return "B.f1561"; }
public override string f1562() { return "B.f1562"; }
public override string f1563() { return "B.f1563"; }
public override string f1564() { return "B.f1564"; }
public override string f1565() { return "B.f1565"; }
public override string f1566() { return "B.f1566"; }
public override string f1567() { return "B.f1567"; }
public override string f1568() { return "B.f1568"; }
public override string f1569() { return "B.f1569"; }
public override string f1570() { return "B.f1570"; }
public override string f1571() { return "B.f1571"; }
public override string f1572() { return "B.f1572"; }
public override string f1573() { return "B.f1573"; }
public override string f1574() { return "B.f1574"; }
public override string f1575() { return "B.f1575"; }
public override string f1576() { return "B.f1576"; }
public override string f1577() { return "B.f1577"; }
public override string f1578() { return "B.f1578"; }
public override string f1579() { return "B.f1579"; }
public override string f1580() { return "B.f1580"; }
public override string f1581() { return "B.f1581"; }
public override string f1582() { return "B.f1582"; }
public override string f1583() { return "B.f1583"; }
public override string f1584() { return "B.f1584"; }
public override string f1585() { return "B.f1585"; }
public override string f1586() { return "B.f1586"; }
public override string f1587() { return "B.f1587"; }
public override string f1588() { return "B.f1588"; }
public override string f1589() { return "B.f1589"; }
public override string f1590() { return "B.f1590"; }
public override string f1591() { return "B.f1591"; }
public override string f1592() { return "B.f1592"; }
public override string f1593() { return "B.f1593"; }
public override string f1594() { return "B.f1594"; }
public override string f1595() { return "B.f1595"; }
public override string f1596() { return "B.f1596"; }
public override string f1597() { return "B.f1597"; }
public override string f1598() { return "B.f1598"; }
public override string f1599() { return "B.f1599"; }
public override string f1600() { return "B.f1600"; }
public override string f1601() { return "B.f1601"; }
public override string f1602() { return "B.f1602"; }
public override string f1603() { return "B.f1603"; }
public override string f1604() { return "B.f1604"; }
public override string f1605() { return "B.f1605"; }
public override string f1606() { return "B.f1606"; }
public override string f1607() { return "B.f1607"; }
public override string f1608() { return "B.f1608"; }
public override string f1609() { return "B.f1609"; }
public override string f1610() { return "B.f1610"; }
public override string f1611() { return "B.f1611"; }
public override string f1612() { return "B.f1612"; }
public override string f1613() { return "B.f1613"; }
public override string f1614() { return "B.f1614"; }
public override string f1615() { return "B.f1615"; }
public override string f1616() { return "B.f1616"; }
public override string f1617() { return "B.f1617"; }
public override string f1618() { return "B.f1618"; }
public override string f1619() { return "B.f1619"; }
public override string f1620() { return "B.f1620"; }
public override string f1621() { return "B.f1621"; }
public override string f1622() { return "B.f1622"; }
public override string f1623() { return "B.f1623"; }
public override string f1624() { return "B.f1624"; }
public override string f1625() { return "B.f1625"; }
public override string f1626() { return "B.f1626"; }
public override string f1627() { return "B.f1627"; }
public override string f1628() { return "B.f1628"; }
public override string f1629() { return "B.f1629"; }
public override string f1630() { return "B.f1630"; }
public override string f1631() { return "B.f1631"; }
public override string f1632() { return "B.f1632"; }
public override string f1633() { return "B.f1633"; }
public override string f1634() { return "B.f1634"; }
public override string f1635() { return "B.f1635"; }
public override string f1636() { return "B.f1636"; }
public override string f1637() { return "B.f1637"; }
public override string f1638() { return "B.f1638"; }
public override string f1639() { return "B.f1639"; }
public override string f1640() { return "B.f1640"; }
public override string f1641() { return "B.f1641"; }
public override string f1642() { return "B.f1642"; }
public override string f1643() { return "B.f1643"; }
public override string f1644() { return "B.f1644"; }
public override string f1645() { return "B.f1645"; }
public override string f1646() { return "B.f1646"; }
public override string f1647() { return "B.f1647"; }
public override string f1648() { return "B.f1648"; }
public override string f1649() { return "B.f1649"; }
public override string f1650() { return "B.f1650"; }
public override string f1651() { return "B.f1651"; }
public override string f1652() { return "B.f1652"; }
public override string f1653() { return "B.f1653"; }
public override string f1654() { return "B.f1654"; }
public override string f1655() { return "B.f1655"; }
public override string f1656() { return "B.f1656"; }
public override string f1657() { return "B.f1657"; }
public override string f1658() { return "B.f1658"; }
public override string f1659() { return "B.f1659"; }
public override string f1660() { return "B.f1660"; }
public override string f1661() { return "B.f1661"; }
public override string f1662() { return "B.f1662"; }
public override string f1663() { return "B.f1663"; }
public override string f1664() { return "B.f1664"; }
public override string f1665() { return "B.f1665"; }
public override string f1666() { return "B.f1666"; }
public override string f1667() { return "B.f1667"; }
public override string f1668() { return "B.f1668"; }
public override string f1669() { return "B.f1669"; }
public override string f1670() { return "B.f1670"; }
public override string f1671() { return "B.f1671"; }
public override string f1672() { return "B.f1672"; }
public override string f1673() { return "B.f1673"; }
public override string f1674() { return "B.f1674"; }
public override string f1675() { return "B.f1675"; }
public override string f1676() { return "B.f1676"; }
public override string f1677() { return "B.f1677"; }
public override string f1678() { return "B.f1678"; }
public override string f1679() { return "B.f1679"; }
public override string f1680() { return "B.f1680"; }
public override string f1681() { return "B.f1681"; }
public override string f1682() { return "B.f1682"; }
public override string f1683() { return "B.f1683"; }
public override string f1684() { return "B.f1684"; }
public override string f1685() { return "B.f1685"; }
public override string f1686() { return "B.f1686"; }
public override string f1687() { return "B.f1687"; }
public override string f1688() { return "B.f1688"; }
public override string f1689() { return "B.f1689"; }
public override string f1690() { return "B.f1690"; }
public override string f1691() { return "B.f1691"; }
public override string f1692() { return "B.f1692"; }
public override string f1693() { return "B.f1693"; }
public override string f1694() { return "B.f1694"; }
public override string f1695() { return "B.f1695"; }
public override string f1696() { return "B.f1696"; }
public override string f1697() { return "B.f1697"; }
public override string f1698() { return "B.f1698"; }
public override string f1699() { return "B.f1699"; }
public override string f1700() { return "B.f1700"; }
public override string f1701() { return "B.f1701"; }
public override string f1702() { return "B.f1702"; }
public override string f1703() { return "B.f1703"; }
public override string f1704() { return "B.f1704"; }
public override string f1705() { return "B.f1705"; }
public override string f1706() { return "B.f1706"; }
public override string f1707() { return "B.f1707"; }
public override string f1708() { return "B.f1708"; }
public override string f1709() { return "B.f1709"; }
public override string f1710() { return "B.f1710"; }
public override string f1711() { return "B.f1711"; }
public override string f1712() { return "B.f1712"; }
public override string f1713() { return "B.f1713"; }
public override string f1714() { return "B.f1714"; }
public override string f1715() { return "B.f1715"; }
public override string f1716() { return "B.f1716"; }
public override string f1717() { return "B.f1717"; }
public override string f1718() { return "B.f1718"; }
public override string f1719() { return "B.f1719"; }
public override string f1720() { return "B.f1720"; }
public override string f1721() { return "B.f1721"; }
public override string f1722() { return "B.f1722"; }
public override string f1723() { return "B.f1723"; }
public override string f1724() { return "B.f1724"; }
public override string f1725() { return "B.f1725"; }
public override string f1726() { return "B.f1726"; }
public override string f1727() { return "B.f1727"; }
public override string f1728() { return "B.f1728"; }
public override string f1729() { return "B.f1729"; }
public override string f1730() { return "B.f1730"; }
public override string f1731() { return "B.f1731"; }
public override string f1732() { return "B.f1732"; }
public override string f1733() { return "B.f1733"; }
public override string f1734() { return "B.f1734"; }
public override string f1735() { return "B.f1735"; }
public override string f1736() { return "B.f1736"; }
public override string f1737() { return "B.f1737"; }
public override string f1738() { return "B.f1738"; }
public override string f1739() { return "B.f1739"; }
public override string f1740() { return "B.f1740"; }
public override string f1741() { return "B.f1741"; }
public override string f1742() { return "B.f1742"; }
public override string f1743() { return "B.f1743"; }
public override string f1744() { return "B.f1744"; }
public override string f1745() { return "B.f1745"; }
public override string f1746() { return "B.f1746"; }
public override string f1747() { return "B.f1747"; }
public override string f1748() { return "B.f1748"; }
public override string f1749() { return "B.f1749"; }
public override string f1750() { return "B.f1750"; }
public override string f1751() { return "B.f1751"; }
public override string f1752() { return "B.f1752"; }
public override string f1753() { return "B.f1753"; }
public override string f1754() { return "B.f1754"; }
public override string f1755() { return "B.f1755"; }
public override string f1756() { return "B.f1756"; }
public override string f1757() { return "B.f1757"; }
public override string f1758() { return "B.f1758"; }
public override string f1759() { return "B.f1759"; }
public override string f1760() { return "B.f1760"; }
public override string f1761() { return "B.f1761"; }
public override string f1762() { return "B.f1762"; }
public override string f1763() { return "B.f1763"; }
public override string f1764() { return "B.f1764"; }
public override string f1765() { return "B.f1765"; }
public override string f1766() { return "B.f1766"; }
public override string f1767() { return "B.f1767"; }
public override string f1768() { return "B.f1768"; }
public override string f1769() { return "B.f1769"; }
public override string f1770() { return "B.f1770"; }
public override string f1771() { return "B.f1771"; }
public override string f1772() { return "B.f1772"; }
public override string f1773() { return "B.f1773"; }
public override string f1774() { return "B.f1774"; }
public override string f1775() { return "B.f1775"; }
public override string f1776() { return "B.f1776"; }
public override string f1777() { return "B.f1777"; }
public override string f1778() { return "B.f1778"; }
public override string f1779() { return "B.f1779"; }
public override string f1780() { return "B.f1780"; }
public override string f1781() { return "B.f1781"; }
public override string f1782() { return "B.f1782"; }
public override string f1783() { return "B.f1783"; }
public override string f1784() { return "B.f1784"; }
public override string f1785() { return "B.f1785"; }
public override string f1786() { return "B.f1786"; }
public override string f1787() { return "B.f1787"; }
public override string f1788() { return "B.f1788"; }
public override string f1789() { return "B.f1789"; }
public override string f1790() { return "B.f1790"; }
public override string f1791() { return "B.f1791"; }
public override string f1792() { return "B.f1792"; }
public override string f1793() { return "B.f1793"; }
public override string f1794() { return "B.f1794"; }
public override string f1795() { return "B.f1795"; }
public override string f1796() { return "B.f1796"; }
public override string f1797() { return "B.f1797"; }
public override string f1798() { return "B.f1798"; }
public override string f1799() { return "B.f1799"; }
public override string f1800() { return "B.f1800"; }
public override string f1801() { return "B.f1801"; }
public override string f1802() { return "B.f1802"; }
public override string f1803() { return "B.f1803"; }
public override string f1804() { return "B.f1804"; }
public override string f1805() { return "B.f1805"; }
public override string f1806() { return "B.f1806"; }
public override string f1807() { return "B.f1807"; }
public override string f1808() { return "B.f1808"; }
public override string f1809() { return "B.f1809"; }
public override string f1810() { return "B.f1810"; }
public override string f1811() { return "B.f1811"; }
public override string f1812() { return "B.f1812"; }
public override string f1813() { return "B.f1813"; }
public override string f1814() { return "B.f1814"; }
public override string f1815() { return "B.f1815"; }
public override string f1816() { return "B.f1816"; }
public override string f1817() { return "B.f1817"; }
public override string f1818() { return "B.f1818"; }
public override string f1819() { return "B.f1819"; }
public override string f1820() { return "B.f1820"; }
public override string f1821() { return "B.f1821"; }
public override string f1822() { return "B.f1822"; }
public override string f1823() { return "B.f1823"; }
public override string f1824() { return "B.f1824"; }
public override string f1825() { return "B.f1825"; }
public override string f1826() { return "B.f1826"; }
public override string f1827() { return "B.f1827"; }
public override string f1828() { return "B.f1828"; }
public override string f1829() { return "B.f1829"; }
public override string f1830() { return "B.f1830"; }
public override string f1831() { return "B.f1831"; }
public override string f1832() { return "B.f1832"; }
public override string f1833() { return "B.f1833"; }
public override string f1834() { return "B.f1834"; }
public override string f1835() { return "B.f1835"; }
public override string f1836() { return "B.f1836"; }
public override string f1837() { return "B.f1837"; }
public override string f1838() { return "B.f1838"; }
public override string f1839() { return "B.f1839"; }
public override string f1840() { return "B.f1840"; }
public override string f1841() { return "B.f1841"; }
public override string f1842() { return "B.f1842"; }
public override string f1843() { return "B.f1843"; }
public override string f1844() { return "B.f1844"; }
public override string f1845() { return "B.f1845"; }
public override string f1846() { return "B.f1846"; }
public override string f1847() { return "B.f1847"; }
public override string f1848() { return "B.f1848"; }
public override string f1849() { return "B.f1849"; }
public override string f1850() { return "B.f1850"; }
public override string f1851() { return "B.f1851"; }
public override string f1852() { return "B.f1852"; }
public override string f1853() { return "B.f1853"; }
public override string f1854() { return "B.f1854"; }
public override string f1855() { return "B.f1855"; }
public override string f1856() { return "B.f1856"; }
public override string f1857() { return "B.f1857"; }
public override string f1858() { return "B.f1858"; }
public override string f1859() { return "B.f1859"; }
public override string f1860() { return "B.f1860"; }
public override string f1861() { return "B.f1861"; }
public override string f1862() { return "B.f1862"; }
public override string f1863() { return "B.f1863"; }
public override string f1864() { return "B.f1864"; }
public override string f1865() { return "B.f1865"; }
public override string f1866() { return "B.f1866"; }
public override string f1867() { return "B.f1867"; }
public override string f1868() { return "B.f1868"; }
public override string f1869() { return "B.f1869"; }
public override string f1870() { return "B.f1870"; }
public override string f1871() { return "B.f1871"; }
public override string f1872() { return "B.f1872"; }
public override string f1873() { return "B.f1873"; }
public override string f1874() { return "B.f1874"; }
public override string f1875() { return "B.f1875"; }
public override string f1876() { return "B.f1876"; }
public override string f1877() { return "B.f1877"; }
public override string f1878() { return "B.f1878"; }
public override string f1879() { return "B.f1879"; }
public override string f1880() { return "B.f1880"; }
public override string f1881() { return "B.f1881"; }
public override string f1882() { return "B.f1882"; }
public override string f1883() { return "B.f1883"; }
public override string f1884() { return "B.f1884"; }
public override string f1885() { return "B.f1885"; }
public override string f1886() { return "B.f1886"; }
public override string f1887() { return "B.f1887"; }
public override string f1888() { return "B.f1888"; }
public override string f1889() { return "B.f1889"; }
public override string f1890() { return "B.f1890"; }
public override string f1891() { return "B.f1891"; }
public override string f1892() { return "B.f1892"; }
public override string f1893() { return "B.f1893"; }
public override string f1894() { return "B.f1894"; }
public override string f1895() { return "B.f1895"; }
public override string f1896() { return "B.f1896"; }
public override string f1897() { return "B.f1897"; }
public override string f1898() { return "B.f1898"; }
public override string f1899() { return "B.f1899"; }
public override string f1900() { return "B.f1900"; }
public override string f1901() { return "B.f1901"; }
public override string f1902() { return "B.f1902"; }
public override string f1903() { return "B.f1903"; }
public override string f1904() { return "B.f1904"; }
public override string f1905() { return "B.f1905"; }
public override string f1906() { return "B.f1906"; }
public override string f1907() { return "B.f1907"; }
public override string f1908() { return "B.f1908"; }
public override string f1909() { return "B.f1909"; }
public override string f1910() { return "B.f1910"; }
public override string f1911() { return "B.f1911"; }
public override string f1912() { return "B.f1912"; }
public override string f1913() { return "B.f1913"; }
public override string f1914() { return "B.f1914"; }
public override string f1915() { return "B.f1915"; }
public override string f1916() { return "B.f1916"; }
public override string f1917() { return "B.f1917"; }
public override string f1918() { return "B.f1918"; }
public override string f1919() { return "B.f1919"; }
public override string f1920() { return "B.f1920"; }
public override string f1921() { return "B.f1921"; }
public override string f1922() { return "B.f1922"; }
public override string f1923() { return "B.f1923"; }
public override string f1924() { return "B.f1924"; }
public override string f1925() { return "B.f1925"; }
public override string f1926() { return "B.f1926"; }
public override string f1927() { return "B.f1927"; }
public override string f1928() { return "B.f1928"; }
public override string f1929() { return "B.f1929"; }
public override string f1930() { return "B.f1930"; }
public override string f1931() { return "B.f1931"; }
public override string f1932() { return "B.f1932"; }
public override string f1933() { return "B.f1933"; }
public override string f1934() { return "B.f1934"; }
public override string f1935() { return "B.f1935"; }
public override string f1936() { return "B.f1936"; }
public override string f1937() { return "B.f1937"; }
public override string f1938() { return "B.f1938"; }
public override string f1939() { return "B.f1939"; }
public override string f1940() { return "B.f1940"; }
public override string f1941() { return "B.f1941"; }
public override string f1942() { return "B.f1942"; }
public override string f1943() { return "B.f1943"; }
public override string f1944() { return "B.f1944"; }
public override string f1945() { return "B.f1945"; }
public override string f1946() { return "B.f1946"; }
public override string f1947() { return "B.f1947"; }
public override string f1948() { return "B.f1948"; }
public override string f1949() { return "B.f1949"; }
public override string f1950() { return "B.f1950"; }
public override string f1951() { return "B.f1951"; }
public override string f1952() { return "B.f1952"; }
public override string f1953() { return "B.f1953"; }
public override string f1954() { return "B.f1954"; }
public override string f1955() { return "B.f1955"; }
public override string f1956() { return "B.f1956"; }
public override string f1957() { return "B.f1957"; }
public override string f1958() { return "B.f1958"; }
public override string f1959() { return "B.f1959"; }
public override string f1960() { return "B.f1960"; }
public override string f1961() { return "B.f1961"; }
public override string f1962() { return "B.f1962"; }
public override string f1963() { return "B.f1963"; }
public override string f1964() { return "B.f1964"; }
public override string f1965() { return "B.f1965"; }
public override string f1966() { return "B.f1966"; }
public override string f1967() { return "B.f1967"; }
public override string f1968() { return "B.f1968"; }
public override string f1969() { return "B.f1969"; }
public override string f1970() { return "B.f1970"; }
public override string f1971() { return "B.f1971"; }
public override string f1972() { return "B.f1972"; }
public override string f1973() { return "B.f1973"; }
public override string f1974() { return "B.f1974"; }
public override string f1975() { return "B.f1975"; }
public override string f1976() { return "B.f1976"; }
public override string f1977() { return "B.f1977"; }
public override string f1978() { return "B.f1978"; }
public override string f1979() { return "B.f1979"; }
public override string f1980() { return "B.f1980"; }
public override string f1981() { return "B.f1981"; }
public override string f1982() { return "B.f1982"; }
public override string f1983() { return "B.f1983"; }
public override string f1984() { return "B.f1984"; }
public override string f1985() { return "B.f1985"; }
public override string f1986() { return "B.f1986"; }
public override string f1987() { return "B.f1987"; }
public override string f1988() { return "B.f1988"; }
public override string f1989() { return "B.f1989"; }
public override string f1990() { return "B.f1990"; }
public override string f1991() { return "B.f1991"; }
public override string f1992() { return "B.f1992"; }
public override string f1993() { return "B.f1993"; }
public override string f1994() { return "B.f1994"; }
public override string f1995() { return "B.f1995"; }
public override string f1996() { return "B.f1996"; }
public override string f1997() { return "B.f1997"; }
public override string f1998() { return "B.f1998"; }
public override string f1999() { return "B.f1999"; }
public override string f2000() { return "B.f2000"; }
public override string f2001() { return "B.f2001"; }
public override string f2002() { return "B.f2002"; }
public override string f2003() { return "B.f2003"; }
public override string f2004() { return "B.f2004"; }
public override string f2005() { return "B.f2005"; }
public override string f2006() { return "B.f2006"; }
public override string f2007() { return "B.f2007"; }
public override string f2008() { return "B.f2008"; }
public override string f2009() { return "B.f2009"; }
public override string f2010() { return "B.f2010"; }
public override string f2011() { return "B.f2011"; }
public override string f2012() { return "B.f2012"; }
public override string f2013() { return "B.f2013"; }
public override string f2014() { return "B.f2014"; }
public override string f2015() { return "B.f2015"; }
public override string f2016() { return "B.f2016"; }
public override string f2017() { return "B.f2017"; }
public override string f2018() { return "B.f2018"; }
public override string f2019() { return "B.f2019"; }
public override string f2020() { return "B.f2020"; }
public override string f2021() { return "B.f2021"; }
public override string f2022() { return "B.f2022"; }
public override string f2023() { return "B.f2023"; }
public override string f2024() { return "B.f2024"; }
public override string f2025() { return "B.f2025"; }
public override string f2026() { return "B.f2026"; }
public override string f2027() { return "B.f2027"; }
public override string f2028() { return "B.f2028"; }
public override string f2029() { return "B.f2029"; }
public override string f2030() { return "B.f2030"; }
public override string f2031() { return "B.f2031"; }
public override string f2032() { return "B.f2032"; }
public override string f2033() { return "B.f2033"; }
public override string f2034() { return "B.f2034"; }
public override string f2035() { return "B.f2035"; }
public override string f2036() { return "B.f2036"; }
public override string f2037() { return "B.f2037"; }
public override string f2038() { return "B.f2038"; }
public override string f2039() { return "B.f2039"; }
public override string f2040() { return "B.f2040"; }
public override string f2041() { return "B.f2041"; }
public override string f2042() { return "B.f2042"; }
public override string f2043() { return "B.f2043"; }
public override string f2044() { return "B.f2044"; }
public override string f2045() { return "B.f2045"; }
public override string f2046() { return "B.f2046"; }
public override string f2047() { return "B.f2047"; }
public override string f2048() { return "B.f2048"; }
public override string f2049() { return "B.f2049"; }
public override string f2050() { return "B.f2050"; }
public override string f2051() { return "B.f2051"; }
public override string f2052() { return "B.f2052"; }
public override string f2053() { return "B.f2053"; }
public override string f2054() { return "B.f2054"; }
public override string f2055() { return "B.f2055"; }
public override string f2056() { return "B.f2056"; }
public override string f2057() { return "B.f2057"; }
public override string f2058() { return "B.f2058"; }
public override string f2059() { return "B.f2059"; }
public override string f2060() { return "B.f2060"; }
public override string f2061() { return "B.f2061"; }
public override string f2062() { return "B.f2062"; }
public override string f2063() { return "B.f2063"; }
public override string f2064() { return "B.f2064"; }
public override string f2065() { return "B.f2065"; }
public override string f2066() { return "B.f2066"; }
public override string f2067() { return "B.f2067"; }
public override string f2068() { return "B.f2068"; }
public override string f2069() { return "B.f2069"; }
public override string f2070() { return "B.f2070"; }
public override string f2071() { return "B.f2071"; }
public override string f2072() { return "B.f2072"; }
public override string f2073() { return "B.f2073"; }
public override string f2074() { return "B.f2074"; }
public override string f2075() { return "B.f2075"; }
public override string f2076() { return "B.f2076"; }
public override string f2077() { return "B.f2077"; }
public override string f2078() { return "B.f2078"; }
public override string f2079() { return "B.f2079"; }
public override string f2080() { return "B.f2080"; }
public override string f2081() { return "B.f2081"; }
public override string f2082() { return "B.f2082"; }
public override string f2083() { return "B.f2083"; }
public override string f2084() { return "B.f2084"; }
public override string f2085() { return "B.f2085"; }
public override string f2086() { return "B.f2086"; }
public override string f2087() { return "B.f2087"; }
public override string f2088() { return "B.f2088"; }
public override string f2089() { return "B.f2089"; }
public override string f2090() { return "B.f2090"; }
public override string f2091() { return "B.f2091"; }
public override string f2092() { return "B.f2092"; }
public override string f2093() { return "B.f2093"; }
public override string f2094() { return "B.f2094"; }
public override string f2095() { return "B.f2095"; }
public override string f2096() { return "B.f2096"; }
public override string f2097() { return "B.f2097"; }
public override string f2098() { return "B.f2098"; }
public override string f2099() { return "B.f2099"; }
public override string f2100() { return "B.f2100"; }
public override string f2101() { return "B.f2101"; }
public override string f2102() { return "B.f2102"; }
public override string f2103() { return "B.f2103"; }
public override string f2104() { return "B.f2104"; }
public override string f2105() { return "B.f2105"; }
public override string f2106() { return "B.f2106"; }
public override string f2107() { return "B.f2107"; }
public override string f2108() { return "B.f2108"; }
public override string f2109() { return "B.f2109"; }
public override string f2110() { return "B.f2110"; }
public override string f2111() { return "B.f2111"; }
public override string f2112() { return "B.f2112"; }
public override string f2113() { return "B.f2113"; }
public override string f2114() { return "B.f2114"; }
public override string f2115() { return "B.f2115"; }
public override string f2116() { return "B.f2116"; }
public override string f2117() { return "B.f2117"; }
public override string f2118() { return "B.f2118"; }
public override string f2119() { return "B.f2119"; }
public override string f2120() { return "B.f2120"; }
public override string f2121() { return "B.f2121"; }
public override string f2122() { return "B.f2122"; }
public override string f2123() { return "B.f2123"; }
public override string f2124() { return "B.f2124"; }
public override string f2125() { return "B.f2125"; }
public override string f2126() { return "B.f2126"; }
public override string f2127() { return "B.f2127"; }
public override string f2128() { return "B.f2128"; }
public override string f2129() { return "B.f2129"; }
public override string f2130() { return "B.f2130"; }
public override string f2131() { return "B.f2131"; }
public override string f2132() { return "B.f2132"; }
public override string f2133() { return "B.f2133"; }
public override string f2134() { return "B.f2134"; }
public override string f2135() { return "B.f2135"; }
public override string f2136() { return "B.f2136"; }
public override string f2137() { return "B.f2137"; }
public override string f2138() { return "B.f2138"; }
public override string f2139() { return "B.f2139"; }
public override string f2140() { return "B.f2140"; }
public override string f2141() { return "B.f2141"; }
public override string f2142() { return "B.f2142"; }
public override string f2143() { return "B.f2143"; }
public override string f2144() { return "B.f2144"; }
public override string f2145() { return "B.f2145"; }
public override string f2146() { return "B.f2146"; }
public override string f2147() { return "B.f2147"; }
public override string f2148() { return "B.f2148"; }
public override string f2149() { return "B.f2149"; }
public override string f2150() { return "B.f2150"; }
public override string f2151() { return "B.f2151"; }
public override string f2152() { return "B.f2152"; }
public override string f2153() { return "B.f2153"; }
public override string f2154() { return "B.f2154"; }
public override string f2155() { return "B.f2155"; }
public override string f2156() { return "B.f2156"; }
public override string f2157() { return "B.f2157"; }
public override string f2158() { return "B.f2158"; }
public override string f2159() { return "B.f2159"; }
public override string f2160() { return "B.f2160"; }
public override string f2161() { return "B.f2161"; }
public override string f2162() { return "B.f2162"; }
public override string f2163() { return "B.f2163"; }
public override string f2164() { return "B.f2164"; }
public override string f2165() { return "B.f2165"; }
public override string f2166() { return "B.f2166"; }
public override string f2167() { return "B.f2167"; }
public override string f2168() { return "B.f2168"; }
public override string f2169() { return "B.f2169"; }
public override string f2170() { return "B.f2170"; }
public override string f2171() { return "B.f2171"; }
public override string f2172() { return "B.f2172"; }
public override string f2173() { return "B.f2173"; }
public override string f2174() { return "B.f2174"; }
public override string f2175() { return "B.f2175"; }
public override string f2176() { return "B.f2176"; }
public override string f2177() { return "B.f2177"; }
public override string f2178() { return "B.f2178"; }
public override string f2179() { return "B.f2179"; }
public override string f2180() { return "B.f2180"; }
public override string f2181() { return "B.f2181"; }
public override string f2182() { return "B.f2182"; }
public override string f2183() { return "B.f2183"; }
public override string f2184() { return "B.f2184"; }
public override string f2185() { return "B.f2185"; }
public override string f2186() { return "B.f2186"; }
public override string f2187() { return "B.f2187"; }
public override string f2188() { return "B.f2188"; }
public override string f2189() { return "B.f2189"; }
public override string f2190() { return "B.f2190"; }
public override string f2191() { return "B.f2191"; }
public override string f2192() { return "B.f2192"; }
public override string f2193() { return "B.f2193"; }
public override string f2194() { return "B.f2194"; }
public override string f2195() { return "B.f2195"; }
public override string f2196() { return "B.f2196"; }
public override string f2197() { return "B.f2197"; }
public override string f2198() { return "B.f2198"; }
public override string f2199() { return "B.f2199"; }
public override string f2200() { return "B.f2200"; }
public override string f2201() { return "B.f2201"; }
public override string f2202() { return "B.f2202"; }
public override string f2203() { return "B.f2203"; }
public override string f2204() { return "B.f2204"; }
public override string f2205() { return "B.f2205"; }
public override string f2206() { return "B.f2206"; }
public override string f2207() { return "B.f2207"; }
public override string f2208() { return "B.f2208"; }
public override string f2209() { return "B.f2209"; }
public override string f2210() { return "B.f2210"; }
public override string f2211() { return "B.f2211"; }
public override string f2212() { return "B.f2212"; }
public override string f2213() { return "B.f2213"; }
public override string f2214() { return "B.f2214"; }
public override string f2215() { return "B.f2215"; }
public override string f2216() { return "B.f2216"; }
public override string f2217() { return "B.f2217"; }
public override string f2218() { return "B.f2218"; }
public override string f2219() { return "B.f2219"; }
public override string f2220() { return "B.f2220"; }
public override string f2221() { return "B.f2221"; }
public override string f2222() { return "B.f2222"; }
public override string f2223() { return "B.f2223"; }
public override string f2224() { return "B.f2224"; }
public override string f2225() { return "B.f2225"; }
public override string f2226() { return "B.f2226"; }
public override string f2227() { return "B.f2227"; }
public override string f2228() { return "B.f2228"; }
public override string f2229() { return "B.f2229"; }
public override string f2230() { return "B.f2230"; }
public override string f2231() { return "B.f2231"; }
public override string f2232() { return "B.f2232"; }
public override string f2233() { return "B.f2233"; }
public override string f2234() { return "B.f2234"; }
public override string f2235() { return "B.f2235"; }
public override string f2236() { return "B.f2236"; }
public override string f2237() { return "B.f2237"; }
public override string f2238() { return "B.f2238"; }
public override string f2239() { return "B.f2239"; }
public override string f2240() { return "B.f2240"; }
public override string f2241() { return "B.f2241"; }
public override string f2242() { return "B.f2242"; }
public override string f2243() { return "B.f2243"; }
public override string f2244() { return "B.f2244"; }
public override string f2245() { return "B.f2245"; }
public override string f2246() { return "B.f2246"; }
public override string f2247() { return "B.f2247"; }
public override string f2248() { return "B.f2248"; }
public override string f2249() { return "B.f2249"; }
public override string f2250() { return "B.f2250"; }
public override string f2251() { return "B.f2251"; }
public override string f2252() { return "B.f2252"; }
public override string f2253() { return "B.f2253"; }
public override string f2254() { return "B.f2254"; }
public override string f2255() { return "B.f2255"; }
public override string f2256() { return "B.f2256"; }
public override string f2257() { return "B.f2257"; }
public override string f2258() { return "B.f2258"; }
public override string f2259() { return "B.f2259"; }
public override string f2260() { return "B.f2260"; }
public override string f2261() { return "B.f2261"; }
public override string f2262() { return "B.f2262"; }
public override string f2263() { return "B.f2263"; }
public override string f2264() { return "B.f2264"; }
public override string f2265() { return "B.f2265"; }
public override string f2266() { return "B.f2266"; }
public override string f2267() { return "B.f2267"; }
public override string f2268() { return "B.f2268"; }
public override string f2269() { return "B.f2269"; }
public override string f2270() { return "B.f2270"; }
public override string f2271() { return "B.f2271"; }
public override string f2272() { return "B.f2272"; }
public override string f2273() { return "B.f2273"; }
public override string f2274() { return "B.f2274"; }
public override string f2275() { return "B.f2275"; }
public override string f2276() { return "B.f2276"; }
public override string f2277() { return "B.f2277"; }
public override string f2278() { return "B.f2278"; }
public override string f2279() { return "B.f2279"; }
public override string f2280() { return "B.f2280"; }
public override string f2281() { return "B.f2281"; }
public override string f2282() { return "B.f2282"; }
public override string f2283() { return "B.f2283"; }
public override string f2284() { return "B.f2284"; }
public override string f2285() { return "B.f2285"; }
public override string f2286() { return "B.f2286"; }
public override string f2287() { return "B.f2287"; }
public override string f2288() { return "B.f2288"; }
public override string f2289() { return "B.f2289"; }
public override string f2290() { return "B.f2290"; }
public override string f2291() { return "B.f2291"; }
public override string f2292() { return "B.f2292"; }
public override string f2293() { return "B.f2293"; }
public override string f2294() { return "B.f2294"; }
public override string f2295() { return "B.f2295"; }
public override string f2296() { return "B.f2296"; }
public override string f2297() { return "B.f2297"; }
public override string f2298() { return "B.f2298"; }
public override string f2299() { return "B.f2299"; }
public override string f2300() { return "B.f2300"; }
public override string f2301() { return "B.f2301"; }
public override string f2302() { return "B.f2302"; }
public override string f2303() { return "B.f2303"; }
public override string f2304() { return "B.f2304"; }
public override string f2305() { return "B.f2305"; }
public override string f2306() { return "B.f2306"; }
public override string f2307() { return "B.f2307"; }
public override string f2308() { return "B.f2308"; }
public override string f2309() { return "B.f2309"; }
public override string f2310() { return "B.f2310"; }
public override string f2311() { return "B.f2311"; }
public override string f2312() { return "B.f2312"; }
public override string f2313() { return "B.f2313"; }
public override string f2314() { return "B.f2314"; }
public override string f2315() { return "B.f2315"; }
public override string f2316() { return "B.f2316"; }
public override string f2317() { return "B.f2317"; }
public override string f2318() { return "B.f2318"; }
public override string f2319() { return "B.f2319"; }
public override string f2320() { return "B.f2320"; }
public override string f2321() { return "B.f2321"; }
public override string f2322() { return "B.f2322"; }
public override string f2323() { return "B.f2323"; }
public override string f2324() { return "B.f2324"; }
public override string f2325() { return "B.f2325"; }
public override string f2326() { return "B.f2326"; }
public override string f2327() { return "B.f2327"; }
public override string f2328() { return "B.f2328"; }
public override string f2329() { return "B.f2329"; }
public override string f2330() { return "B.f2330"; }
public override string f2331() { return "B.f2331"; }
public override string f2332() { return "B.f2332"; }
public override string f2333() { return "B.f2333"; }
public override string f2334() { return "B.f2334"; }
public override string f2335() { return "B.f2335"; }
public override string f2336() { return "B.f2336"; }
public override string f2337() { return "B.f2337"; }
public override string f2338() { return "B.f2338"; }
public override string f2339() { return "B.f2339"; }
public override string f2340() { return "B.f2340"; }
public override string f2341() { return "B.f2341"; }
public override string f2342() { return "B.f2342"; }
public override string f2343() { return "B.f2343"; }
public override string f2344() { return "B.f2344"; }
public override string f2345() { return "B.f2345"; }
public override string f2346() { return "B.f2346"; }
public override string f2347() { return "B.f2347"; }
public override string f2348() { return "B.f2348"; }
public override string f2349() { return "B.f2349"; }
public override string f2350() { return "B.f2350"; }
public override string f2351() { return "B.f2351"; }
public override string f2352() { return "B.f2352"; }
public override string f2353() { return "B.f2353"; }
public override string f2354() { return "B.f2354"; }
public override string f2355() { return "B.f2355"; }
public override string f2356() { return "B.f2356"; }
public override string f2357() { return "B.f2357"; }
public override string f2358() { return "B.f2358"; }
public override string f2359() { return "B.f2359"; }
public override string f2360() { return "B.f2360"; }
public override string f2361() { return "B.f2361"; }
public override string f2362() { return "B.f2362"; }
public override string f2363() { return "B.f2363"; }
public override string f2364() { return "B.f2364"; }
public override string f2365() { return "B.f2365"; }
public override string f2366() { return "B.f2366"; }
public override string f2367() { return "B.f2367"; }
public override string f2368() { return "B.f2368"; }
public override string f2369() { return "B.f2369"; }
public override string f2370() { return "B.f2370"; }
public override string f2371() { return "B.f2371"; }
public override string f2372() { return "B.f2372"; }
public override string f2373() { return "B.f2373"; }
public override string f2374() { return "B.f2374"; }
public override string f2375() { return "B.f2375"; }
public override string f2376() { return "B.f2376"; }
public override string f2377() { return "B.f2377"; }
public override string f2378() { return "B.f2378"; }
public override string f2379() { return "B.f2379"; }
public override string f2380() { return "B.f2380"; }
public override string f2381() { return "B.f2381"; }
public override string f2382() { return "B.f2382"; }
public override string f2383() { return "B.f2383"; }
public override string f2384() { return "B.f2384"; }
public override string f2385() { return "B.f2385"; }
public override string f2386() { return "B.f2386"; }
public override string f2387() { return "B.f2387"; }
public override string f2388() { return "B.f2388"; }
public override string f2389() { return "B.f2389"; }
public override string f2390() { return "B.f2390"; }
public override string f2391() { return "B.f2391"; }
public override string f2392() { return "B.f2392"; }
public override string f2393() { return "B.f2393"; }
public override string f2394() { return "B.f2394"; }
public override string f2395() { return "B.f2395"; }
public override string f2396() { return "B.f2396"; }
public override string f2397() { return "B.f2397"; }
public override string f2398() { return "B.f2398"; }
public override string f2399() { return "B.f2399"; }
public override string f2400() { return "B.f2400"; }
public override string f2401() { return "B.f2401"; }
public override string f2402() { return "B.f2402"; }
public override string f2403() { return "B.f2403"; }
public override string f2404() { return "B.f2404"; }
public override string f2405() { return "B.f2405"; }
public override string f2406() { return "B.f2406"; }
public override string f2407() { return "B.f2407"; }
public override string f2408() { return "B.f2408"; }
public override string f2409() { return "B.f2409"; }
public override string f2410() { return "B.f2410"; }
public override string f2411() { return "B.f2411"; }
public override string f2412() { return "B.f2412"; }
public override string f2413() { return "B.f2413"; }
public override string f2414() { return "B.f2414"; }
public override string f2415() { return "B.f2415"; }
public override string f2416() { return "B.f2416"; }
public override string f2417() { return "B.f2417"; }
public override string f2418() { return "B.f2418"; }
public override string f2419() { return "B.f2419"; }
public override string f2420() { return "B.f2420"; }
public override string f2421() { return "B.f2421"; }
public override string f2422() { return "B.f2422"; }
public override string f2423() { return "B.f2423"; }
public override string f2424() { return "B.f2424"; }
public override string f2425() { return "B.f2425"; }
public override string f2426() { return "B.f2426"; }
public override string f2427() { return "B.f2427"; }
public override string f2428() { return "B.f2428"; }
public override string f2429() { return "B.f2429"; }
public override string f2430() { return "B.f2430"; }
public override string f2431() { return "B.f2431"; }
public override string f2432() { return "B.f2432"; }
public override string f2433() { return "B.f2433"; }
public override string f2434() { return "B.f2434"; }
public override string f2435() { return "B.f2435"; }
public override string f2436() { return "B.f2436"; }
public override string f2437() { return "B.f2437"; }
public override string f2438() { return "B.f2438"; }
public override string f2439() { return "B.f2439"; }
public override string f2440() { return "B.f2440"; }
public override string f2441() { return "B.f2441"; }
public override string f2442() { return "B.f2442"; }
public override string f2443() { return "B.f2443"; }
public override string f2444() { return "B.f2444"; }
public override string f2445() { return "B.f2445"; }
public override string f2446() { return "B.f2446"; }
public override string f2447() { return "B.f2447"; }
public override string f2448() { return "B.f2448"; }
public override string f2449() { return "B.f2449"; }
public override string f2450() { return "B.f2450"; }
public override string f2451() { return "B.f2451"; }
public override string f2452() { return "B.f2452"; }
public override string f2453() { return "B.f2453"; }
public override string f2454() { return "B.f2454"; }
public override string f2455() { return "B.f2455"; }
public override string f2456() { return "B.f2456"; }
public override string f2457() { return "B.f2457"; }
public override string f2458() { return "B.f2458"; }
public override string f2459() { return "B.f2459"; }
public override string f2460() { return "B.f2460"; }
public override string f2461() { return "B.f2461"; }
public override string f2462() { return "B.f2462"; }
public override string f2463() { return "B.f2463"; }
public override string f2464() { return "B.f2464"; }
public override string f2465() { return "B.f2465"; }
public override string f2466() { return "B.f2466"; }
public override string f2467() { return "B.f2467"; }
public override string f2468() { return "B.f2468"; }
public override string f2469() { return "B.f2469"; }
public override string f2470() { return "B.f2470"; }
public override string f2471() { return "B.f2471"; }
public override string f2472() { return "B.f2472"; }
public override string f2473() { return "B.f2473"; }
public override string f2474() { return "B.f2474"; }
public override string f2475() { return "B.f2475"; }
public override string f2476() { return "B.f2476"; }
public override string f2477() { return "B.f2477"; }
public override string f2478() { return "B.f2478"; }
public override string f2479() { return "B.f2479"; }
public override string f2480() { return "B.f2480"; }
public override string f2481() { return "B.f2481"; }
public override string f2482() { return "B.f2482"; }
public override string f2483() { return "B.f2483"; }
public override string f2484() { return "B.f2484"; }
public override string f2485() { return "B.f2485"; }
public override string f2486() { return "B.f2486"; }
public override string f2487() { return "B.f2487"; }
public override string f2488() { return "B.f2488"; }
public override string f2489() { return "B.f2489"; }
public override string f2490() { return "B.f2490"; }
public override string f2491() { return "B.f2491"; }
public override string f2492() { return "B.f2492"; }
public override string f2493() { return "B.f2493"; }
public override string f2494() { return "B.f2494"; }
public override string f2495() { return "B.f2495"; }
public override string f2496() { return "B.f2496"; }
public override string f2497() { return "B.f2497"; }
public override string f2498() { return "B.f2498"; }
public override string f2499() { return "B.f2499"; }
public override string f2500() { return "B.f2500"; }
public override string f2501() { return "B.f2501"; }
public override string f2502() { return "B.f2502"; }
public override string f2503() { return "B.f2503"; }
public override string f2504() { return "B.f2504"; }
public override string f2505() { return "B.f2505"; }
public override string f2506() { return "B.f2506"; }
public override string f2507() { return "B.f2507"; }
public override string f2508() { return "B.f2508"; }
public override string f2509() { return "B.f2509"; }
public override string f2510() { return "B.f2510"; }
public override string f2511() { return "B.f2511"; }
public override string f2512() { return "B.f2512"; }
public override string f2513() { return "B.f2513"; }
public override string f2514() { return "B.f2514"; }
public override string f2515() { return "B.f2515"; }
public override string f2516() { return "B.f2516"; }
public override string f2517() { return "B.f2517"; }
public override string f2518() { return "B.f2518"; }
public override string f2519() { return "B.f2519"; }
public override string f2520() { return "B.f2520"; }
public override string f2521() { return "B.f2521"; }
public override string f2522() { return "B.f2522"; }
public override string f2523() { return "B.f2523"; }
public override string f2524() { return "B.f2524"; }
public override string f2525() { return "B.f2525"; }
public override string f2526() { return "B.f2526"; }
public override string f2527() { return "B.f2527"; }
public override string f2528() { return "B.f2528"; }
public override string f2529() { return "B.f2529"; }
public override string f2530() { return "B.f2530"; }
public override string f2531() { return "B.f2531"; }
public override string f2532() { return "B.f2532"; }
public override string f2533() { return "B.f2533"; }
public override string f2534() { return "B.f2534"; }
public override string f2535() { return "B.f2535"; }
public override string f2536() { return "B.f2536"; }
public override string f2537() { return "B.f2537"; }
public override string f2538() { return "B.f2538"; }
public override string f2539() { return "B.f2539"; }
public override string f2540() { return "B.f2540"; }
public override string f2541() { return "B.f2541"; }
public override string f2542() { return "B.f2542"; }
public override string f2543() { return "B.f2543"; }
public override string f2544() { return "B.f2544"; }
public override string f2545() { return "B.f2545"; }
public override string f2546() { return "B.f2546"; }
public override string f2547() { return "B.f2547"; }
public override string f2548() { return "B.f2548"; }
public override string f2549() { return "B.f2549"; }
public override string f2550() { return "B.f2550"; }
public override string f2551() { return "B.f2551"; }
public override string f2552() { return "B.f2552"; }
public override string f2553() { return "B.f2553"; }
public override string f2554() { return "B.f2554"; }
public override string f2555() { return "B.f2555"; }
public override string f2556() { return "B.f2556"; }
public override string f2557() { return "B.f2557"; }
public override string f2558() { return "B.f2558"; }
public override string f2559() { return "B.f2559"; }
public override string f2560() { return "B.f2560"; }
public override string f2561() { return "B.f2561"; }
public override string f2562() { return "B.f2562"; }
public override string f2563() { return "B.f2563"; }
public override string f2564() { return "B.f2564"; }
public override string f2565() { return "B.f2565"; }
public override string f2566() { return "B.f2566"; }
public override string f2567() { return "B.f2567"; }
public override string f2568() { return "B.f2568"; }
public override string f2569() { return "B.f2569"; }
public override string f2570() { return "B.f2570"; }
public override string f2571() { return "B.f2571"; }
public override string f2572() { return "B.f2572"; }
public override string f2573() { return "B.f2573"; }
public override string f2574() { return "B.f2574"; }
public override string f2575() { return "B.f2575"; }
public override string f2576() { return "B.f2576"; }
public override string f2577() { return "B.f2577"; }
public override string f2578() { return "B.f2578"; }
public override string f2579() { return "B.f2579"; }
public override string f2580() { return "B.f2580"; }
public override string f2581() { return "B.f2581"; }
public override string f2582() { return "B.f2582"; }
public override string f2583() { return "B.f2583"; }
public override string f2584() { return "B.f2584"; }
public override string f2585() { return "B.f2585"; }
public override string f2586() { return "B.f2586"; }
public override string f2587() { return "B.f2587"; }
public override string f2588() { return "B.f2588"; }
public override string f2589() { return "B.f2589"; }
public override string f2590() { return "B.f2590"; }
public override string f2591() { return "B.f2591"; }
public override string f2592() { return "B.f2592"; }
public override string f2593() { return "B.f2593"; }
public override string f2594() { return "B.f2594"; }
public override string f2595() { return "B.f2595"; }
public override string f2596() { return "B.f2596"; }
public override string f2597() { return "B.f2597"; }
public override string f2598() { return "B.f2598"; }
public override string f2599() { return "B.f2599"; }
public override string f2600() { return "B.f2600"; }
public override string f2601() { return "B.f2601"; }
public override string f2602() { return "B.f2602"; }
public override string f2603() { return "B.f2603"; }
public override string f2604() { return "B.f2604"; }
public override string f2605() { return "B.f2605"; }
public override string f2606() { return "B.f2606"; }
public override string f2607() { return "B.f2607"; }
public override string f2608() { return "B.f2608"; }
public override string f2609() { return "B.f2609"; }
public override string f2610() { return "B.f2610"; }
public override string f2611() { return "B.f2611"; }
public override string f2612() { return "B.f2612"; }
public override string f2613() { return "B.f2613"; }
public override string f2614() { return "B.f2614"; }
public override string f2615() { return "B.f2615"; }
public override string f2616() { return "B.f2616"; }
public override string f2617() { return "B.f2617"; }
public override string f2618() { return "B.f2618"; }
public override string f2619() { return "B.f2619"; }
public override string f2620() { return "B.f2620"; }
public override string f2621() { return "B.f2621"; }
public override string f2622() { return "B.f2622"; }
public override string f2623() { return "B.f2623"; }
public override string f2624() { return "B.f2624"; }
public override string f2625() { return "B.f2625"; }
public override string f2626() { return "B.f2626"; }
public override string f2627() { return "B.f2627"; }
public override string f2628() { return "B.f2628"; }
public override string f2629() { return "B.f2629"; }
public override string f2630() { return "B.f2630"; }
public override string f2631() { return "B.f2631"; }
public override string f2632() { return "B.f2632"; }
public override string f2633() { return "B.f2633"; }
public override string f2634() { return "B.f2634"; }
public override string f2635() { return "B.f2635"; }
public override string f2636() { return "B.f2636"; }
public override string f2637() { return "B.f2637"; }
public override string f2638() { return "B.f2638"; }
public override string f2639() { return "B.f2639"; }
public override string f2640() { return "B.f2640"; }
public override string f2641() { return "B.f2641"; }
public override string f2642() { return "B.f2642"; }
public override string f2643() { return "B.f2643"; }
public override string f2644() { return "B.f2644"; }
public override string f2645() { return "B.f2645"; }
public override string f2646() { return "B.f2646"; }
public override string f2647() { return "B.f2647"; }
public override string f2648() { return "B.f2648"; }
public override string f2649() { return "B.f2649"; }
public override string f2650() { return "B.f2650"; }
public override string f2651() { return "B.f2651"; }
public override string f2652() { return "B.f2652"; }
public override string f2653() { return "B.f2653"; }
public override string f2654() { return "B.f2654"; }
public override string f2655() { return "B.f2655"; }
public override string f2656() { return "B.f2656"; }
public override string f2657() { return "B.f2657"; }
public override string f2658() { return "B.f2658"; }
public override string f2659() { return "B.f2659"; }
public override string f2660() { return "B.f2660"; }
public override string f2661() { return "B.f2661"; }
public override string f2662() { return "B.f2662"; }
public override string f2663() { return "B.f2663"; }
public override string f2664() { return "B.f2664"; }
public override string f2665() { return "B.f2665"; }
public override string f2666() { return "B.f2666"; }
public override string f2667() { return "B.f2667"; }
public override string f2668() { return "B.f2668"; }
public override string f2669() { return "B.f2669"; }
public override string f2670() { return "B.f2670"; }
public override string f2671() { return "B.f2671"; }
public override string f2672() { return "B.f2672"; }
public override string f2673() { return "B.f2673"; }
public override string f2674() { return "B.f2674"; }
public override string f2675() { return "B.f2675"; }
public override string f2676() { return "B.f2676"; }
public override string f2677() { return "B.f2677"; }
public override string f2678() { return "B.f2678"; }
public override string f2679() { return "B.f2679"; }
public override string f2680() { return "B.f2680"; }
public override string f2681() { return "B.f2681"; }
public override string f2682() { return "B.f2682"; }
public override string f2683() { return "B.f2683"; }
public override string f2684() { return "B.f2684"; }
public override string f2685() { return "B.f2685"; }
public override string f2686() { return "B.f2686"; }
public override string f2687() { return "B.f2687"; }
public override string f2688() { return "B.f2688"; }
public override string f2689() { return "B.f2689"; }
public override string f2690() { return "B.f2690"; }
public override string f2691() { return "B.f2691"; }
public override string f2692() { return "B.f2692"; }
public override string f2693() { return "B.f2693"; }
public override string f2694() { return "B.f2694"; }
public override string f2695() { return "B.f2695"; }
public override string f2696() { return "B.f2696"; }
public override string f2697() { return "B.f2697"; }
public override string f2698() { return "B.f2698"; }
public override string f2699() { return "B.f2699"; }
public override string f2700() { return "B.f2700"; }
public override string f2701() { return "B.f2701"; }
public override string f2702() { return "B.f2702"; }
public override string f2703() { return "B.f2703"; }
public override string f2704() { return "B.f2704"; }
public override string f2705() { return "B.f2705"; }
public override string f2706() { return "B.f2706"; }
public override string f2707() { return "B.f2707"; }
public override string f2708() { return "B.f2708"; }
public override string f2709() { return "B.f2709"; }
public override string f2710() { return "B.f2710"; }
public override string f2711() { return "B.f2711"; }
public override string f2712() { return "B.f2712"; }
public override string f2713() { return "B.f2713"; }
public override string f2714() { return "B.f2714"; }
public override string f2715() { return "B.f2715"; }
public override string f2716() { return "B.f2716"; }
public override string f2717() { return "B.f2717"; }
public override string f2718() { return "B.f2718"; }
public override string f2719() { return "B.f2719"; }
public override string f2720() { return "B.f2720"; }
public override string f2721() { return "B.f2721"; }
public override string f2722() { return "B.f2722"; }
public override string f2723() { return "B.f2723"; }
public override string f2724() { return "B.f2724"; }
public override string f2725() { return "B.f2725"; }
public override string f2726() { return "B.f2726"; }
public override string f2727() { return "B.f2727"; }
public override string f2728() { return "B.f2728"; }
public override string f2729() { return "B.f2729"; }
public override string f2730() { return "B.f2730"; }
public override string f2731() { return "B.f2731"; }
public override string f2732() { return "B.f2732"; }
public override string f2733() { return "B.f2733"; }
public override string f2734() { return "B.f2734"; }
public override string f2735() { return "B.f2735"; }
public override string f2736() { return "B.f2736"; }
public override string f2737() { return "B.f2737"; }
public override string f2738() { return "B.f2738"; }
public override string f2739() { return "B.f2739"; }
public override string f2740() { return "B.f2740"; }
public override string f2741() { return "B.f2741"; }
public override string f2742() { return "B.f2742"; }
public override string f2743() { return "B.f2743"; }
public override string f2744() { return "B.f2744"; }
public override string f2745() { return "B.f2745"; }
public override string f2746() { return "B.f2746"; }
public override string f2747() { return "B.f2747"; }
public override string f2748() { return "B.f2748"; }
public override string f2749() { return "B.f2749"; }
public override string f2750() { return "B.f2750"; }
public override string f2751() { return "B.f2751"; }
public override string f2752() { return "B.f2752"; }
public override string f2753() { return "B.f2753"; }
public override string f2754() { return "B.f2754"; }
public override string f2755() { return "B.f2755"; }
public override string f2756() { return "B.f2756"; }
public override string f2757() { return "B.f2757"; }
public override string f2758() { return "B.f2758"; }
public override string f2759() { return "B.f2759"; }
public override string f2760() { return "B.f2760"; }
public override string f2761() { return "B.f2761"; }
public override string f2762() { return "B.f2762"; }
public override string f2763() { return "B.f2763"; }
public override string f2764() { return "B.f2764"; }
public override string f2765() { return "B.f2765"; }
public override string f2766() { return "B.f2766"; }
public override string f2767() { return "B.f2767"; }
public override string f2768() { return "B.f2768"; }
public override string f2769() { return "B.f2769"; }
public override string f2770() { return "B.f2770"; }
public override string f2771() { return "B.f2771"; }
public override string f2772() { return "B.f2772"; }
public override string f2773() { return "B.f2773"; }
public override string f2774() { return "B.f2774"; }
public override string f2775() { return "B.f2775"; }
public override string f2776() { return "B.f2776"; }
public override string f2777() { return "B.f2777"; }
public override string f2778() { return "B.f2778"; }
public override string f2779() { return "B.f2779"; }
public override string f2780() { return "B.f2780"; }
public override string f2781() { return "B.f2781"; }
public override string f2782() { return "B.f2782"; }
public override string f2783() { return "B.f2783"; }
public override string f2784() { return "B.f2784"; }
public override string f2785() { return "B.f2785"; }
public override string f2786() { return "B.f2786"; }
public override string f2787() { return "B.f2787"; }
public override string f2788() { return "B.f2788"; }
public override string f2789() { return "B.f2789"; }
public override string f2790() { return "B.f2790"; }
public override string f2791() { return "B.f2791"; }
public override string f2792() { return "B.f2792"; }
public override string f2793() { return "B.f2793"; }
public override string f2794() { return "B.f2794"; }
public override string f2795() { return "B.f2795"; }
public override string f2796() { return "B.f2796"; }
public override string f2797() { return "B.f2797"; }
public override string f2798() { return "B.f2798"; }
public override string f2799() { return "B.f2799"; }
public override string f2800() { return "B.f2800"; }
public override string f2801() { return "B.f2801"; }
public override string f2802() { return "B.f2802"; }
public override string f2803() { return "B.f2803"; }
public override string f2804() { return "B.f2804"; }
public override string f2805() { return "B.f2805"; }
public override string f2806() { return "B.f2806"; }
public override string f2807() { return "B.f2807"; }
public override string f2808() { return "B.f2808"; }
public override string f2809() { return "B.f2809"; }
public override string f2810() { return "B.f2810"; }
public override string f2811() { return "B.f2811"; }
public override string f2812() { return "B.f2812"; }
public override string f2813() { return "B.f2813"; }
public override string f2814() { return "B.f2814"; }
public override string f2815() { return "B.f2815"; }
public override string f2816() { return "B.f2816"; }
public override string f2817() { return "B.f2817"; }
public override string f2818() { return "B.f2818"; }
public override string f2819() { return "B.f2819"; }
public override string f2820() { return "B.f2820"; }
public override string f2821() { return "B.f2821"; }
public override string f2822() { return "B.f2822"; }
public override string f2823() { return "B.f2823"; }
public override string f2824() { return "B.f2824"; }
public override string f2825() { return "B.f2825"; }
public override string f2826() { return "B.f2826"; }
public override string f2827() { return "B.f2827"; }
public override string f2828() { return "B.f2828"; }
public override string f2829() { return "B.f2829"; }
public override string f2830() { return "B.f2830"; }
public override string f2831() { return "B.f2831"; }
public override string f2832() { return "B.f2832"; }
public override string f2833() { return "B.f2833"; }
public override string f2834() { return "B.f2834"; }
public override string f2835() { return "B.f2835"; }
public override string f2836() { return "B.f2836"; }
public override string f2837() { return "B.f2837"; }
public override string f2838() { return "B.f2838"; }
public override string f2839() { return "B.f2839"; }
public override string f2840() { return "B.f2840"; }
public override string f2841() { return "B.f2841"; }
public override string f2842() { return "B.f2842"; }
public override string f2843() { return "B.f2843"; }
public override string f2844() { return "B.f2844"; }
public override string f2845() { return "B.f2845"; }
public override string f2846() { return "B.f2846"; }
public override string f2847() { return "B.f2847"; }
public override string f2848() { return "B.f2848"; }
public override string f2849() { return "B.f2849"; }
public override string f2850() { return "B.f2850"; }
public override string f2851() { return "B.f2851"; }
public override string f2852() { return "B.f2852"; }
public override string f2853() { return "B.f2853"; }
public override string f2854() { return "B.f2854"; }
public override string f2855() { return "B.f2855"; }
public override string f2856() { return "B.f2856"; }
public override string f2857() { return "B.f2857"; }
public override string f2858() { return "B.f2858"; }
public override string f2859() { return "B.f2859"; }
public override string f2860() { return "B.f2860"; }
public override string f2861() { return "B.f2861"; }
public override string f2862() { return "B.f2862"; }
public override string f2863() { return "B.f2863"; }
public override string f2864() { return "B.f2864"; }
public override string f2865() { return "B.f2865"; }
public override string f2866() { return "B.f2866"; }
public override string f2867() { return "B.f2867"; }
public override string f2868() { return "B.f2868"; }
public override string f2869() { return "B.f2869"; }
public override string f2870() { return "B.f2870"; }
public override string f2871() { return "B.f2871"; }
public override string f2872() { return "B.f2872"; }
public override string f2873() { return "B.f2873"; }
public override string f2874() { return "B.f2874"; }
public override string f2875() { return "B.f2875"; }
public override string f2876() { return "B.f2876"; }
public override string f2877() { return "B.f2877"; }
public override string f2878() { return "B.f2878"; }
public override string f2879() { return "B.f2879"; }
public override string f2880() { return "B.f2880"; }
public override string f2881() { return "B.f2881"; }
public override string f2882() { return "B.f2882"; }
public override string f2883() { return "B.f2883"; }
public override string f2884() { return "B.f2884"; }
public override string f2885() { return "B.f2885"; }
public override string f2886() { return "B.f2886"; }
public override string f2887() { return "B.f2887"; }
public override string f2888() { return "B.f2888"; }
public override string f2889() { return "B.f2889"; }
public override string f2890() { return "B.f2890"; }
public override string f2891() { return "B.f2891"; }
public override string f2892() { return "B.f2892"; }
public override string f2893() { return "B.f2893"; }
public override string f2894() { return "B.f2894"; }
public override string f2895() { return "B.f2895"; }
public override string f2896() { return "B.f2896"; }
public override string f2897() { return "B.f2897"; }
public override string f2898() { return "B.f2898"; }
public override string f2899() { return "B.f2899"; }
public override string f2900() { return "B.f2900"; }
public override string f2901() { return "B.f2901"; }
public override string f2902() { return "B.f2902"; }
public override string f2903() { return "B.f2903"; }
public override string f2904() { return "B.f2904"; }
public override string f2905() { return "B.f2905"; }
public override string f2906() { return "B.f2906"; }
public override string f2907() { return "B.f2907"; }
public override string f2908() { return "B.f2908"; }
public override string f2909() { return "B.f2909"; }
public override string f2910() { return "B.f2910"; }
public override string f2911() { return "B.f2911"; }
public override string f2912() { return "B.f2912"; }
public override string f2913() { return "B.f2913"; }
public override string f2914() { return "B.f2914"; }
public override string f2915() { return "B.f2915"; }
public override string f2916() { return "B.f2916"; }
public override string f2917() { return "B.f2917"; }
public override string f2918() { return "B.f2918"; }
public override string f2919() { return "B.f2919"; }
public override string f2920() { return "B.f2920"; }
public override string f2921() { return "B.f2921"; }
public override string f2922() { return "B.f2922"; }
public override string f2923() { return "B.f2923"; }
public override string f2924() { return "B.f2924"; }
public override string f2925() { return "B.f2925"; }
public override string f2926() { return "B.f2926"; }
public override string f2927() { return "B.f2927"; }
public override string f2928() { return "B.f2928"; }
public override string f2929() { return "B.f2929"; }
public override string f2930() { return "B.f2930"; }
public override string f2931() { return "B.f2931"; }
public override string f2932() { return "B.f2932"; }
public override string f2933() { return "B.f2933"; }
public override string f2934() { return "B.f2934"; }
public override string f2935() { return "B.f2935"; }
public override string f2936() { return "B.f2936"; }
public override string f2937() { return "B.f2937"; }
public override string f2938() { return "B.f2938"; }
public override string f2939() { return "B.f2939"; }
public override string f2940() { return "B.f2940"; }
public override string f2941() { return "B.f2941"; }
public override string f2942() { return "B.f2942"; }
public override string f2943() { return "B.f2943"; }
public override string f2944() { return "B.f2944"; }
public override string f2945() { return "B.f2945"; }
public override string f2946() { return "B.f2946"; }
public override string f2947() { return "B.f2947"; }
public override string f2948() { return "B.f2948"; }
public override string f2949() { return "B.f2949"; }
public override string f2950() { return "B.f2950"; }
public override string f2951() { return "B.f2951"; }
public override string f2952() { return "B.f2952"; }
public override string f2953() { return "B.f2953"; }
public override string f2954() { return "B.f2954"; }
public override string f2955() { return "B.f2955"; }
public override string f2956() { return "B.f2956"; }
public override string f2957() { return "B.f2957"; }
public override string f2958() { return "B.f2958"; }
public override string f2959() { return "B.f2959"; }
public override string f2960() { return "B.f2960"; }
public override string f2961() { return "B.f2961"; }
public override string f2962() { return "B.f2962"; }
public override string f2963() { return "B.f2963"; }
public override string f2964() { return "B.f2964"; }
public override string f2965() { return "B.f2965"; }
public override string f2966() { return "B.f2966"; }
public override string f2967() { return "B.f2967"; }
public override string f2968() { return "B.f2968"; }
public override string f2969() { return "B.f2969"; }
public override string f2970() { return "B.f2970"; }
public override string f2971() { return "B.f2971"; }
public override string f2972() { return "B.f2972"; }
public override string f2973() { return "B.f2973"; }
public override string f2974() { return "B.f2974"; }
public override string f2975() { return "B.f2975"; }
public override string f2976() { return "B.f2976"; }
public override string f2977() { return "B.f2977"; }
public override string f2978() { return "B.f2978"; }
public override string f2979() { return "B.f2979"; }
public override string f2980() { return "B.f2980"; }
public override string f2981() { return "B.f2981"; }
public override string f2982() { return "B.f2982"; }
public override string f2983() { return "B.f2983"; }
public override string f2984() { return "B.f2984"; }
public override string f2985() { return "B.f2985"; }
public override string f2986() { return "B.f2986"; }
public override string f2987() { return "B.f2987"; }
public override string f2988() { return "B.f2988"; }
public override string f2989() { return "B.f2989"; }
public override string f2990() { return "B.f2990"; }
public override string f2991() { return "B.f2991"; }
public override string f2992() { return "B.f2992"; }
public override string f2993() { return "B.f2993"; }
public override string f2994() { return "B.f2994"; }
public override string f2995() { return "B.f2995"; }
public override string f2996() { return "B.f2996"; }
public override string f2997() { return "B.f2997"; }
public override string f2998() { return "B.f2998"; }
public override string f2999() { return "B.f2999"; }
}
internal class C : B
{
new public virtual string f1() { return "C.f1"; }
new public virtual string f2() { return "C.f2"; }
new public virtual string f3() { return "C.f3"; }
new public virtual string f4() { return "C.f4"; }
new public virtual string f5() { return "C.f5"; }
new public virtual string f6() { return "C.f6"; }
new public virtual string f7() { return "C.f7"; }
new public virtual string f8() { return "C.f8"; }
new public virtual string f9() { return "C.f9"; }
new public virtual string f10() { return "C.f10"; }
new public virtual string f11() { return "C.f11"; }
new public virtual string f12() { return "C.f12"; }
new public virtual string f13() { return "C.f13"; }
new public virtual string f14() { return "C.f14"; }
new public virtual string f15() { return "C.f15"; }
new public virtual string f16() { return "C.f16"; }
new public virtual string f17() { return "C.f17"; }
new public virtual string f18() { return "C.f18"; }
new public virtual string f19() { return "C.f19"; }
new public virtual string f20() { return "C.f20"; }
new public virtual string f21() { return "C.f21"; }
new public virtual string f22() { return "C.f22"; }
new public virtual string f23() { return "C.f23"; }
new public virtual string f24() { return "C.f24"; }
new public virtual string f25() { return "C.f25"; }
new public virtual string f26() { return "C.f26"; }
new public virtual string f27() { return "C.f27"; }
new public virtual string f28() { return "C.f28"; }
new public virtual string f29() { return "C.f29"; }
new public virtual string f30() { return "C.f30"; }
new public virtual string f31() { return "C.f31"; }
new public virtual string f32() { return "C.f32"; }
new public virtual string f33() { return "C.f33"; }
new public virtual string f34() { return "C.f34"; }
new public virtual string f35() { return "C.f35"; }
new public virtual string f36() { return "C.f36"; }
new public virtual string f37() { return "C.f37"; }
new public virtual string f38() { return "C.f38"; }
new public virtual string f39() { return "C.f39"; }
new public virtual string f40() { return "C.f40"; }
new public virtual string f41() { return "C.f41"; }
new public virtual string f42() { return "C.f42"; }
new public virtual string f43() { return "C.f43"; }
new public virtual string f44() { return "C.f44"; }
new public virtual string f45() { return "C.f45"; }
new public virtual string f46() { return "C.f46"; }
new public virtual string f47() { return "C.f47"; }
new public virtual string f48() { return "C.f48"; }
new public virtual string f49() { return "C.f49"; }
new public virtual string f50() { return "C.f50"; }
new public virtual string f51() { return "C.f51"; }
new public virtual string f52() { return "C.f52"; }
new public virtual string f53() { return "C.f53"; }
new public virtual string f54() { return "C.f54"; }
new public virtual string f55() { return "C.f55"; }
new public virtual string f56() { return "C.f56"; }
new public virtual string f57() { return "C.f57"; }
new public virtual string f58() { return "C.f58"; }
new public virtual string f59() { return "C.f59"; }
new public virtual string f60() { return "C.f60"; }
new public virtual string f61() { return "C.f61"; }
new public virtual string f62() { return "C.f62"; }
new public virtual string f63() { return "C.f63"; }
new public virtual string f64() { return "C.f64"; }
new public virtual string f65() { return "C.f65"; }
new public virtual string f66() { return "C.f66"; }
new public virtual string f67() { return "C.f67"; }
new public virtual string f68() { return "C.f68"; }
new public virtual string f69() { return "C.f69"; }
new public virtual string f70() { return "C.f70"; }
new public virtual string f71() { return "C.f71"; }
new public virtual string f72() { return "C.f72"; }
new public virtual string f73() { return "C.f73"; }
new public virtual string f74() { return "C.f74"; }
new public virtual string f75() { return "C.f75"; }
new public virtual string f76() { return "C.f76"; }
new public virtual string f77() { return "C.f77"; }
new public virtual string f78() { return "C.f78"; }
new public virtual string f79() { return "C.f79"; }
new public virtual string f80() { return "C.f80"; }
new public virtual string f81() { return "C.f81"; }
new public virtual string f82() { return "C.f82"; }
new public virtual string f83() { return "C.f83"; }
new public virtual string f84() { return "C.f84"; }
new public virtual string f85() { return "C.f85"; }
new public virtual string f86() { return "C.f86"; }
new public virtual string f87() { return "C.f87"; }
new public virtual string f88() { return "C.f88"; }
new public virtual string f89() { return "C.f89"; }
new public virtual string f90() { return "C.f90"; }
new public virtual string f91() { return "C.f91"; }
new public virtual string f92() { return "C.f92"; }
new public virtual string f93() { return "C.f93"; }
new public virtual string f94() { return "C.f94"; }
new public virtual string f95() { return "C.f95"; }
new public virtual string f96() { return "C.f96"; }
new public virtual string f97() { return "C.f97"; }
new public virtual string f98() { return "C.f98"; }
new public virtual string f99() { return "C.f99"; }
new public virtual string f100() { return "C.f100"; }
new public virtual string f101() { return "C.f101"; }
new public virtual string f102() { return "C.f102"; }
new public virtual string f103() { return "C.f103"; }
new public virtual string f104() { return "C.f104"; }
new public virtual string f105() { return "C.f105"; }
new public virtual string f106() { return "C.f106"; }
new public virtual string f107() { return "C.f107"; }
new public virtual string f108() { return "C.f108"; }
new public virtual string f109() { return "C.f109"; }
new public virtual string f110() { return "C.f110"; }
new public virtual string f111() { return "C.f111"; }
new public virtual string f112() { return "C.f112"; }
new public virtual string f113() { return "C.f113"; }
new public virtual string f114() { return "C.f114"; }
new public virtual string f115() { return "C.f115"; }
new public virtual string f116() { return "C.f116"; }
new public virtual string f117() { return "C.f117"; }
new public virtual string f118() { return "C.f118"; }
new public virtual string f119() { return "C.f119"; }
new public virtual string f120() { return "C.f120"; }
new public virtual string f121() { return "C.f121"; }
new public virtual string f122() { return "C.f122"; }
new public virtual string f123() { return "C.f123"; }
new public virtual string f124() { return "C.f124"; }
new public virtual string f125() { return "C.f125"; }
new public virtual string f126() { return "C.f126"; }
new public virtual string f127() { return "C.f127"; }
new public virtual string f128() { return "C.f128"; }
new public virtual string f129() { return "C.f129"; }
new public virtual string f130() { return "C.f130"; }
new public virtual string f131() { return "C.f131"; }
new public virtual string f132() { return "C.f132"; }
new public virtual string f133() { return "C.f133"; }
new public virtual string f134() { return "C.f134"; }
new public virtual string f135() { return "C.f135"; }
new public virtual string f136() { return "C.f136"; }
new public virtual string f137() { return "C.f137"; }
new public virtual string f138() { return "C.f138"; }
new public virtual string f139() { return "C.f139"; }
new public virtual string f140() { return "C.f140"; }
new public virtual string f141() { return "C.f141"; }
new public virtual string f142() { return "C.f142"; }
new public virtual string f143() { return "C.f143"; }
new public virtual string f144() { return "C.f144"; }
new public virtual string f145() { return "C.f145"; }
new public virtual string f146() { return "C.f146"; }
new public virtual string f147() { return "C.f147"; }
new public virtual string f148() { return "C.f148"; }
new public virtual string f149() { return "C.f149"; }
new public virtual string f150() { return "C.f150"; }
new public virtual string f151() { return "C.f151"; }
new public virtual string f152() { return "C.f152"; }
new public virtual string f153() { return "C.f153"; }
new public virtual string f154() { return "C.f154"; }
new public virtual string f155() { return "C.f155"; }
new public virtual string f156() { return "C.f156"; }
new public virtual string f157() { return "C.f157"; }
new public virtual string f158() { return "C.f158"; }
new public virtual string f159() { return "C.f159"; }
new public virtual string f160() { return "C.f160"; }
new public virtual string f161() { return "C.f161"; }
new public virtual string f162() { return "C.f162"; }
new public virtual string f163() { return "C.f163"; }
new public virtual string f164() { return "C.f164"; }
new public virtual string f165() { return "C.f165"; }
new public virtual string f166() { return "C.f166"; }
new public virtual string f167() { return "C.f167"; }
new public virtual string f168() { return "C.f168"; }
new public virtual string f169() { return "C.f169"; }
new public virtual string f170() { return "C.f170"; }
new public virtual string f171() { return "C.f171"; }
new public virtual string f172() { return "C.f172"; }
new public virtual string f173() { return "C.f173"; }
new public virtual string f174() { return "C.f174"; }
new public virtual string f175() { return "C.f175"; }
new public virtual string f176() { return "C.f176"; }
new public virtual string f177() { return "C.f177"; }
new public virtual string f178() { return "C.f178"; }
new public virtual string f179() { return "C.f179"; }
new public virtual string f180() { return "C.f180"; }
new public virtual string f181() { return "C.f181"; }
new public virtual string f182() { return "C.f182"; }
new public virtual string f183() { return "C.f183"; }
new public virtual string f184() { return "C.f184"; }
new public virtual string f185() { return "C.f185"; }
new public virtual string f186() { return "C.f186"; }
new public virtual string f187() { return "C.f187"; }
new public virtual string f188() { return "C.f188"; }
new public virtual string f189() { return "C.f189"; }
new public virtual string f190() { return "C.f190"; }
new public virtual string f191() { return "C.f191"; }
new public virtual string f192() { return "C.f192"; }
new public virtual string f193() { return "C.f193"; }
new public virtual string f194() { return "C.f194"; }
new public virtual string f195() { return "C.f195"; }
new public virtual string f196() { return "C.f196"; }
new public virtual string f197() { return "C.f197"; }
new public virtual string f198() { return "C.f198"; }
new public virtual string f199() { return "C.f199"; }
new public virtual string f200() { return "C.f200"; }
new public virtual string f201() { return "C.f201"; }
new public virtual string f202() { return "C.f202"; }
new public virtual string f203() { return "C.f203"; }
new public virtual string f204() { return "C.f204"; }
new public virtual string f205() { return "C.f205"; }
new public virtual string f206() { return "C.f206"; }
new public virtual string f207() { return "C.f207"; }
new public virtual string f208() { return "C.f208"; }
new public virtual string f209() { return "C.f209"; }
new public virtual string f210() { return "C.f210"; }
new public virtual string f211() { return "C.f211"; }
new public virtual string f212() { return "C.f212"; }
new public virtual string f213() { return "C.f213"; }
new public virtual string f214() { return "C.f214"; }
new public virtual string f215() { return "C.f215"; }
new public virtual string f216() { return "C.f216"; }
new public virtual string f217() { return "C.f217"; }
new public virtual string f218() { return "C.f218"; }
new public virtual string f219() { return "C.f219"; }
new public virtual string f220() { return "C.f220"; }
new public virtual string f221() { return "C.f221"; }
new public virtual string f222() { return "C.f222"; }
new public virtual string f223() { return "C.f223"; }
new public virtual string f224() { return "C.f224"; }
new public virtual string f225() { return "C.f225"; }
new public virtual string f226() { return "C.f226"; }
new public virtual string f227() { return "C.f227"; }
new public virtual string f228() { return "C.f228"; }
new public virtual string f229() { return "C.f229"; }
new public virtual string f230() { return "C.f230"; }
new public virtual string f231() { return "C.f231"; }
new public virtual string f232() { return "C.f232"; }
new public virtual string f233() { return "C.f233"; }
new public virtual string f234() { return "C.f234"; }
new public virtual string f235() { return "C.f235"; }
new public virtual string f236() { return "C.f236"; }
new public virtual string f237() { return "C.f237"; }
new public virtual string f238() { return "C.f238"; }
new public virtual string f239() { return "C.f239"; }
new public virtual string f240() { return "C.f240"; }
new public virtual string f241() { return "C.f241"; }
new public virtual string f242() { return "C.f242"; }
new public virtual string f243() { return "C.f243"; }
new public virtual string f244() { return "C.f244"; }
new public virtual string f245() { return "C.f245"; }
new public virtual string f246() { return "C.f246"; }
new public virtual string f247() { return "C.f247"; }
new public virtual string f248() { return "C.f248"; }
new public virtual string f249() { return "C.f249"; }
new public virtual string f250() { return "C.f250"; }
new public virtual string f251() { return "C.f251"; }
new public virtual string f252() { return "C.f252"; }
new public virtual string f253() { return "C.f253"; }
new public virtual string f254() { return "C.f254"; }
new public virtual string f255() { return "C.f255"; }
new public virtual string f256() { return "C.f256"; }
new public virtual string f257() { return "C.f257"; }
new public virtual string f258() { return "C.f258"; }
new public virtual string f259() { return "C.f259"; }
new public virtual string f260() { return "C.f260"; }
new public virtual string f261() { return "C.f261"; }
new public virtual string f262() { return "C.f262"; }
new public virtual string f263() { return "C.f263"; }
new public virtual string f264() { return "C.f264"; }
new public virtual string f265() { return "C.f265"; }
new public virtual string f266() { return "C.f266"; }
new public virtual string f267() { return "C.f267"; }
new public virtual string f268() { return "C.f268"; }
new public virtual string f269() { return "C.f269"; }
new public virtual string f270() { return "C.f270"; }
new public virtual string f271() { return "C.f271"; }
new public virtual string f272() { return "C.f272"; }
new public virtual string f273() { return "C.f273"; }
new public virtual string f274() { return "C.f274"; }
new public virtual string f275() { return "C.f275"; }
new public virtual string f276() { return "C.f276"; }
new public virtual string f277() { return "C.f277"; }
new public virtual string f278() { return "C.f278"; }
new public virtual string f279() { return "C.f279"; }
new public virtual string f280() { return "C.f280"; }
new public virtual string f281() { return "C.f281"; }
new public virtual string f282() { return "C.f282"; }
new public virtual string f283() { return "C.f283"; }
new public virtual string f284() { return "C.f284"; }
new public virtual string f285() { return "C.f285"; }
new public virtual string f286() { return "C.f286"; }
new public virtual string f287() { return "C.f287"; }
new public virtual string f288() { return "C.f288"; }
new public virtual string f289() { return "C.f289"; }
new public virtual string f290() { return "C.f290"; }
new public virtual string f291() { return "C.f291"; }
new public virtual string f292() { return "C.f292"; }
new public virtual string f293() { return "C.f293"; }
new public virtual string f294() { return "C.f294"; }
new public virtual string f295() { return "C.f295"; }
new public virtual string f296() { return "C.f296"; }
new public virtual string f297() { return "C.f297"; }
new public virtual string f298() { return "C.f298"; }
new public virtual string f299() { return "C.f299"; }
new public virtual string f300() { return "C.f300"; }
new public virtual string f301() { return "C.f301"; }
new public virtual string f302() { return "C.f302"; }
new public virtual string f303() { return "C.f303"; }
new public virtual string f304() { return "C.f304"; }
new public virtual string f305() { return "C.f305"; }
new public virtual string f306() { return "C.f306"; }
new public virtual string f307() { return "C.f307"; }
new public virtual string f308() { return "C.f308"; }
new public virtual string f309() { return "C.f309"; }
new public virtual string f310() { return "C.f310"; }
new public virtual string f311() { return "C.f311"; }
new public virtual string f312() { return "C.f312"; }
new public virtual string f313() { return "C.f313"; }
new public virtual string f314() { return "C.f314"; }
new public virtual string f315() { return "C.f315"; }
new public virtual string f316() { return "C.f316"; }
new public virtual string f317() { return "C.f317"; }
new public virtual string f318() { return "C.f318"; }
new public virtual string f319() { return "C.f319"; }
new public virtual string f320() { return "C.f320"; }
new public virtual string f321() { return "C.f321"; }
new public virtual string f322() { return "C.f322"; }
new public virtual string f323() { return "C.f323"; }
new public virtual string f324() { return "C.f324"; }
new public virtual string f325() { return "C.f325"; }
new public virtual string f326() { return "C.f326"; }
new public virtual string f327() { return "C.f327"; }
new public virtual string f328() { return "C.f328"; }
new public virtual string f329() { return "C.f329"; }
new public virtual string f330() { return "C.f330"; }
new public virtual string f331() { return "C.f331"; }
new public virtual string f332() { return "C.f332"; }
new public virtual string f333() { return "C.f333"; }
new public virtual string f334() { return "C.f334"; }
new public virtual string f335() { return "C.f335"; }
new public virtual string f336() { return "C.f336"; }
new public virtual string f337() { return "C.f337"; }
new public virtual string f338() { return "C.f338"; }
new public virtual string f339() { return "C.f339"; }
new public virtual string f340() { return "C.f340"; }
new public virtual string f341() { return "C.f341"; }
new public virtual string f342() { return "C.f342"; }
new public virtual string f343() { return "C.f343"; }
new public virtual string f344() { return "C.f344"; }
new public virtual string f345() { return "C.f345"; }
new public virtual string f346() { return "C.f346"; }
new public virtual string f347() { return "C.f347"; }
new public virtual string f348() { return "C.f348"; }
new public virtual string f349() { return "C.f349"; }
new public virtual string f350() { return "C.f350"; }
new public virtual string f351() { return "C.f351"; }
new public virtual string f352() { return "C.f352"; }
new public virtual string f353() { return "C.f353"; }
new public virtual string f354() { return "C.f354"; }
new public virtual string f355() { return "C.f355"; }
new public virtual string f356() { return "C.f356"; }
new public virtual string f357() { return "C.f357"; }
new public virtual string f358() { return "C.f358"; }
new public virtual string f359() { return "C.f359"; }
new public virtual string f360() { return "C.f360"; }
new public virtual string f361() { return "C.f361"; }
new public virtual string f362() { return "C.f362"; }
new public virtual string f363() { return "C.f363"; }
new public virtual string f364() { return "C.f364"; }
new public virtual string f365() { return "C.f365"; }
new public virtual string f366() { return "C.f366"; }
new public virtual string f367() { return "C.f367"; }
new public virtual string f368() { return "C.f368"; }
new public virtual string f369() { return "C.f369"; }
new public virtual string f370() { return "C.f370"; }
new public virtual string f371() { return "C.f371"; }
new public virtual string f372() { return "C.f372"; }
new public virtual string f373() { return "C.f373"; }
new public virtual string f374() { return "C.f374"; }
new public virtual string f375() { return "C.f375"; }
new public virtual string f376() { return "C.f376"; }
new public virtual string f377() { return "C.f377"; }
new public virtual string f378() { return "C.f378"; }
new public virtual string f379() { return "C.f379"; }
new public virtual string f380() { return "C.f380"; }
new public virtual string f381() { return "C.f381"; }
new public virtual string f382() { return "C.f382"; }
new public virtual string f383() { return "C.f383"; }
new public virtual string f384() { return "C.f384"; }
new public virtual string f385() { return "C.f385"; }
new public virtual string f386() { return "C.f386"; }
new public virtual string f387() { return "C.f387"; }
new public virtual string f388() { return "C.f388"; }
new public virtual string f389() { return "C.f389"; }
new public virtual string f390() { return "C.f390"; }
new public virtual string f391() { return "C.f391"; }
new public virtual string f392() { return "C.f392"; }
new public virtual string f393() { return "C.f393"; }
new public virtual string f394() { return "C.f394"; }
new public virtual string f395() { return "C.f395"; }
new public virtual string f396() { return "C.f396"; }
new public virtual string f397() { return "C.f397"; }
new public virtual string f398() { return "C.f398"; }
new public virtual string f399() { return "C.f399"; }
new public virtual string f400() { return "C.f400"; }
new public virtual string f401() { return "C.f401"; }
new public virtual string f402() { return "C.f402"; }
new public virtual string f403() { return "C.f403"; }
new public virtual string f404() { return "C.f404"; }
new public virtual string f405() { return "C.f405"; }
new public virtual string f406() { return "C.f406"; }
new public virtual string f407() { return "C.f407"; }
new public virtual string f408() { return "C.f408"; }
new public virtual string f409() { return "C.f409"; }
new public virtual string f410() { return "C.f410"; }
new public virtual string f411() { return "C.f411"; }
new public virtual string f412() { return "C.f412"; }
new public virtual string f413() { return "C.f413"; }
new public virtual string f414() { return "C.f414"; }
new public virtual string f415() { return "C.f415"; }
new public virtual string f416() { return "C.f416"; }
new public virtual string f417() { return "C.f417"; }
new public virtual string f418() { return "C.f418"; }
new public virtual string f419() { return "C.f419"; }
new public virtual string f420() { return "C.f420"; }
new public virtual string f421() { return "C.f421"; }
new public virtual string f422() { return "C.f422"; }
new public virtual string f423() { return "C.f423"; }
new public virtual string f424() { return "C.f424"; }
new public virtual string f425() { return "C.f425"; }
new public virtual string f426() { return "C.f426"; }
new public virtual string f427() { return "C.f427"; }
new public virtual string f428() { return "C.f428"; }
new public virtual string f429() { return "C.f429"; }
new public virtual string f430() { return "C.f430"; }
new public virtual string f431() { return "C.f431"; }
new public virtual string f432() { return "C.f432"; }
new public virtual string f433() { return "C.f433"; }
new public virtual string f434() { return "C.f434"; }
new public virtual string f435() { return "C.f435"; }
new public virtual string f436() { return "C.f436"; }
new public virtual string f437() { return "C.f437"; }
new public virtual string f438() { return "C.f438"; }
new public virtual string f439() { return "C.f439"; }
new public virtual string f440() { return "C.f440"; }
new public virtual string f441() { return "C.f441"; }
new public virtual string f442() { return "C.f442"; }
new public virtual string f443() { return "C.f443"; }
new public virtual string f444() { return "C.f444"; }
new public virtual string f445() { return "C.f445"; }
new public virtual string f446() { return "C.f446"; }
new public virtual string f447() { return "C.f447"; }
new public virtual string f448() { return "C.f448"; }
new public virtual string f449() { return "C.f449"; }
new public virtual string f450() { return "C.f450"; }
new public virtual string f451() { return "C.f451"; }
new public virtual string f452() { return "C.f452"; }
new public virtual string f453() { return "C.f453"; }
new public virtual string f454() { return "C.f454"; }
new public virtual string f455() { return "C.f455"; }
new public virtual string f456() { return "C.f456"; }
new public virtual string f457() { return "C.f457"; }
new public virtual string f458() { return "C.f458"; }
new public virtual string f459() { return "C.f459"; }
new public virtual string f460() { return "C.f460"; }
new public virtual string f461() { return "C.f461"; }
new public virtual string f462() { return "C.f462"; }
new public virtual string f463() { return "C.f463"; }
new public virtual string f464() { return "C.f464"; }
new public virtual string f465() { return "C.f465"; }
new public virtual string f466() { return "C.f466"; }
new public virtual string f467() { return "C.f467"; }
new public virtual string f468() { return "C.f468"; }
new public virtual string f469() { return "C.f469"; }
new public virtual string f470() { return "C.f470"; }
new public virtual string f471() { return "C.f471"; }
new public virtual string f472() { return "C.f472"; }
new public virtual string f473() { return "C.f473"; }
new public virtual string f474() { return "C.f474"; }
new public virtual string f475() { return "C.f475"; }
new public virtual string f476() { return "C.f476"; }
new public virtual string f477() { return "C.f477"; }
new public virtual string f478() { return "C.f478"; }
new public virtual string f479() { return "C.f479"; }
new public virtual string f480() { return "C.f480"; }
new public virtual string f481() { return "C.f481"; }
new public virtual string f482() { return "C.f482"; }
new public virtual string f483() { return "C.f483"; }
new public virtual string f484() { return "C.f484"; }
new public virtual string f485() { return "C.f485"; }
new public virtual string f486() { return "C.f486"; }
new public virtual string f487() { return "C.f487"; }
new public virtual string f488() { return "C.f488"; }
new public virtual string f489() { return "C.f489"; }
new public virtual string f490() { return "C.f490"; }
new public virtual string f491() { return "C.f491"; }
new public virtual string f492() { return "C.f492"; }
new public virtual string f493() { return "C.f493"; }
new public virtual string f494() { return "C.f494"; }
new public virtual string f495() { return "C.f495"; }
new public virtual string f496() { return "C.f496"; }
new public virtual string f497() { return "C.f497"; }
new public virtual string f498() { return "C.f498"; }
new public virtual string f499() { return "C.f499"; }
new public virtual string f500() { return "C.f500"; }
new public virtual string f501() { return "C.f501"; }
new public virtual string f502() { return "C.f502"; }
new public virtual string f503() { return "C.f503"; }
new public virtual string f504() { return "C.f504"; }
new public virtual string f505() { return "C.f505"; }
new public virtual string f506() { return "C.f506"; }
new public virtual string f507() { return "C.f507"; }
new public virtual string f508() { return "C.f508"; }
new public virtual string f509() { return "C.f509"; }
new public virtual string f510() { return "C.f510"; }
new public virtual string f511() { return "C.f511"; }
new public virtual string f512() { return "C.f512"; }
new public virtual string f513() { return "C.f513"; }
new public virtual string f514() { return "C.f514"; }
new public virtual string f515() { return "C.f515"; }
new public virtual string f516() { return "C.f516"; }
new public virtual string f517() { return "C.f517"; }
new public virtual string f518() { return "C.f518"; }
new public virtual string f519() { return "C.f519"; }
new public virtual string f520() { return "C.f520"; }
new public virtual string f521() { return "C.f521"; }
new public virtual string f522() { return "C.f522"; }
new public virtual string f523() { return "C.f523"; }
new public virtual string f524() { return "C.f524"; }
new public virtual string f525() { return "C.f525"; }
new public virtual string f526() { return "C.f526"; }
new public virtual string f527() { return "C.f527"; }
new public virtual string f528() { return "C.f528"; }
new public virtual string f529() { return "C.f529"; }
new public virtual string f530() { return "C.f530"; }
new public virtual string f531() { return "C.f531"; }
new public virtual string f532() { return "C.f532"; }
new public virtual string f533() { return "C.f533"; }
new public virtual string f534() { return "C.f534"; }
new public virtual string f535() { return "C.f535"; }
new public virtual string f536() { return "C.f536"; }
new public virtual string f537() { return "C.f537"; }
new public virtual string f538() { return "C.f538"; }
new public virtual string f539() { return "C.f539"; }
new public virtual string f540() { return "C.f540"; }
new public virtual string f541() { return "C.f541"; }
new public virtual string f542() { return "C.f542"; }
new public virtual string f543() { return "C.f543"; }
new public virtual string f544() { return "C.f544"; }
new public virtual string f545() { return "C.f545"; }
new public virtual string f546() { return "C.f546"; }
new public virtual string f547() { return "C.f547"; }
new public virtual string f548() { return "C.f548"; }
new public virtual string f549() { return "C.f549"; }
new public virtual string f550() { return "C.f550"; }
new public virtual string f551() { return "C.f551"; }
new public virtual string f552() { return "C.f552"; }
new public virtual string f553() { return "C.f553"; }
new public virtual string f554() { return "C.f554"; }
new public virtual string f555() { return "C.f555"; }
new public virtual string f556() { return "C.f556"; }
new public virtual string f557() { return "C.f557"; }
new public virtual string f558() { return "C.f558"; }
new public virtual string f559() { return "C.f559"; }
new public virtual string f560() { return "C.f560"; }
new public virtual string f561() { return "C.f561"; }
new public virtual string f562() { return "C.f562"; }
new public virtual string f563() { return "C.f563"; }
new public virtual string f564() { return "C.f564"; }
new public virtual string f565() { return "C.f565"; }
new public virtual string f566() { return "C.f566"; }
new public virtual string f567() { return "C.f567"; }
new public virtual string f568() { return "C.f568"; }
new public virtual string f569() { return "C.f569"; }
new public virtual string f570() { return "C.f570"; }
new public virtual string f571() { return "C.f571"; }
new public virtual string f572() { return "C.f572"; }
new public virtual string f573() { return "C.f573"; }
new public virtual string f574() { return "C.f574"; }
new public virtual string f575() { return "C.f575"; }
new public virtual string f576() { return "C.f576"; }
new public virtual string f577() { return "C.f577"; }
new public virtual string f578() { return "C.f578"; }
new public virtual string f579() { return "C.f579"; }
new public virtual string f580() { return "C.f580"; }
new public virtual string f581() { return "C.f581"; }
new public virtual string f582() { return "C.f582"; }
new public virtual string f583() { return "C.f583"; }
new public virtual string f584() { return "C.f584"; }
new public virtual string f585() { return "C.f585"; }
new public virtual string f586() { return "C.f586"; }
new public virtual string f587() { return "C.f587"; }
new public virtual string f588() { return "C.f588"; }
new public virtual string f589() { return "C.f589"; }
new public virtual string f590() { return "C.f590"; }
new public virtual string f591() { return "C.f591"; }
new public virtual string f592() { return "C.f592"; }
new public virtual string f593() { return "C.f593"; }
new public virtual string f594() { return "C.f594"; }
new public virtual string f595() { return "C.f595"; }
new public virtual string f596() { return "C.f596"; }
new public virtual string f597() { return "C.f597"; }
new public virtual string f598() { return "C.f598"; }
new public virtual string f599() { return "C.f599"; }
new public virtual string f600() { return "C.f600"; }
new public virtual string f601() { return "C.f601"; }
new public virtual string f602() { return "C.f602"; }
new public virtual string f603() { return "C.f603"; }
new public virtual string f604() { return "C.f604"; }
new public virtual string f605() { return "C.f605"; }
new public virtual string f606() { return "C.f606"; }
new public virtual string f607() { return "C.f607"; }
new public virtual string f608() { return "C.f608"; }
new public virtual string f609() { return "C.f609"; }
new public virtual string f610() { return "C.f610"; }
new public virtual string f611() { return "C.f611"; }
new public virtual string f612() { return "C.f612"; }
new public virtual string f613() { return "C.f613"; }
new public virtual string f614() { return "C.f614"; }
new public virtual string f615() { return "C.f615"; }
new public virtual string f616() { return "C.f616"; }
new public virtual string f617() { return "C.f617"; }
new public virtual string f618() { return "C.f618"; }
new public virtual string f619() { return "C.f619"; }
new public virtual string f620() { return "C.f620"; }
new public virtual string f621() { return "C.f621"; }
new public virtual string f622() { return "C.f622"; }
new public virtual string f623() { return "C.f623"; }
new public virtual string f624() { return "C.f624"; }
new public virtual string f625() { return "C.f625"; }
new public virtual string f626() { return "C.f626"; }
new public virtual string f627() { return "C.f627"; }
new public virtual string f628() { return "C.f628"; }
new public virtual string f629() { return "C.f629"; }
new public virtual string f630() { return "C.f630"; }
new public virtual string f631() { return "C.f631"; }
new public virtual string f632() { return "C.f632"; }
new public virtual string f633() { return "C.f633"; }
new public virtual string f634() { return "C.f634"; }
new public virtual string f635() { return "C.f635"; }
new public virtual string f636() { return "C.f636"; }
new public virtual string f637() { return "C.f637"; }
new public virtual string f638() { return "C.f638"; }
new public virtual string f639() { return "C.f639"; }
new public virtual string f640() { return "C.f640"; }
new public virtual string f641() { return "C.f641"; }
new public virtual string f642() { return "C.f642"; }
new public virtual string f643() { return "C.f643"; }
new public virtual string f644() { return "C.f644"; }
new public virtual string f645() { return "C.f645"; }
new public virtual string f646() { return "C.f646"; }
new public virtual string f647() { return "C.f647"; }
new public virtual string f648() { return "C.f648"; }
new public virtual string f649() { return "C.f649"; }
new public virtual string f650() { return "C.f650"; }
new public virtual string f651() { return "C.f651"; }
new public virtual string f652() { return "C.f652"; }
new public virtual string f653() { return "C.f653"; }
new public virtual string f654() { return "C.f654"; }
new public virtual string f655() { return "C.f655"; }
new public virtual string f656() { return "C.f656"; }
new public virtual string f657() { return "C.f657"; }
new public virtual string f658() { return "C.f658"; }
new public virtual string f659() { return "C.f659"; }
new public virtual string f660() { return "C.f660"; }
new public virtual string f661() { return "C.f661"; }
new public virtual string f662() { return "C.f662"; }
new public virtual string f663() { return "C.f663"; }
new public virtual string f664() { return "C.f664"; }
new public virtual string f665() { return "C.f665"; }
new public virtual string f666() { return "C.f666"; }
new public virtual string f667() { return "C.f667"; }
new public virtual string f668() { return "C.f668"; }
new public virtual string f669() { return "C.f669"; }
new public virtual string f670() { return "C.f670"; }
new public virtual string f671() { return "C.f671"; }
new public virtual string f672() { return "C.f672"; }
new public virtual string f673() { return "C.f673"; }
new public virtual string f674() { return "C.f674"; }
new public virtual string f675() { return "C.f675"; }
new public virtual string f676() { return "C.f676"; }
new public virtual string f677() { return "C.f677"; }
new public virtual string f678() { return "C.f678"; }
new public virtual string f679() { return "C.f679"; }
new public virtual string f680() { return "C.f680"; }
new public virtual string f681() { return "C.f681"; }
new public virtual string f682() { return "C.f682"; }
new public virtual string f683() { return "C.f683"; }
new public virtual string f684() { return "C.f684"; }
new public virtual string f685() { return "C.f685"; }
new public virtual string f686() { return "C.f686"; }
new public virtual string f687() { return "C.f687"; }
new public virtual string f688() { return "C.f688"; }
new public virtual string f689() { return "C.f689"; }
new public virtual string f690() { return "C.f690"; }
new public virtual string f691() { return "C.f691"; }
new public virtual string f692() { return "C.f692"; }
new public virtual string f693() { return "C.f693"; }
new public virtual string f694() { return "C.f694"; }
new public virtual string f695() { return "C.f695"; }
new public virtual string f696() { return "C.f696"; }
new public virtual string f697() { return "C.f697"; }
new public virtual string f698() { return "C.f698"; }
new public virtual string f699() { return "C.f699"; }
new public virtual string f700() { return "C.f700"; }
new public virtual string f701() { return "C.f701"; }
new public virtual string f702() { return "C.f702"; }
new public virtual string f703() { return "C.f703"; }
new public virtual string f704() { return "C.f704"; }
new public virtual string f705() { return "C.f705"; }
new public virtual string f706() { return "C.f706"; }
new public virtual string f707() { return "C.f707"; }
new public virtual string f708() { return "C.f708"; }
new public virtual string f709() { return "C.f709"; }
new public virtual string f710() { return "C.f710"; }
new public virtual string f711() { return "C.f711"; }
new public virtual string f712() { return "C.f712"; }
new public virtual string f713() { return "C.f713"; }
new public virtual string f714() { return "C.f714"; }
new public virtual string f715() { return "C.f715"; }
new public virtual string f716() { return "C.f716"; }
new public virtual string f717() { return "C.f717"; }
new public virtual string f718() { return "C.f718"; }
new public virtual string f719() { return "C.f719"; }
new public virtual string f720() { return "C.f720"; }
new public virtual string f721() { return "C.f721"; }
new public virtual string f722() { return "C.f722"; }
new public virtual string f723() { return "C.f723"; }
new public virtual string f724() { return "C.f724"; }
new public virtual string f725() { return "C.f725"; }
new public virtual string f726() { return "C.f726"; }
new public virtual string f727() { return "C.f727"; }
new public virtual string f728() { return "C.f728"; }
new public virtual string f729() { return "C.f729"; }
new public virtual string f730() { return "C.f730"; }
new public virtual string f731() { return "C.f731"; }
new public virtual string f732() { return "C.f732"; }
new public virtual string f733() { return "C.f733"; }
new public virtual string f734() { return "C.f734"; }
new public virtual string f735() { return "C.f735"; }
new public virtual string f736() { return "C.f736"; }
new public virtual string f737() { return "C.f737"; }
new public virtual string f738() { return "C.f738"; }
new public virtual string f739() { return "C.f739"; }
new public virtual string f740() { return "C.f740"; }
new public virtual string f741() { return "C.f741"; }
new public virtual string f742() { return "C.f742"; }
new public virtual string f743() { return "C.f743"; }
new public virtual string f744() { return "C.f744"; }
new public virtual string f745() { return "C.f745"; }
new public virtual string f746() { return "C.f746"; }
new public virtual string f747() { return "C.f747"; }
new public virtual string f748() { return "C.f748"; }
new public virtual string f749() { return "C.f749"; }
new public virtual string f750() { return "C.f750"; }
new public virtual string f751() { return "C.f751"; }
new public virtual string f752() { return "C.f752"; }
new public virtual string f753() { return "C.f753"; }
new public virtual string f754() { return "C.f754"; }
new public virtual string f755() { return "C.f755"; }
new public virtual string f756() { return "C.f756"; }
new public virtual string f757() { return "C.f757"; }
new public virtual string f758() { return "C.f758"; }
new public virtual string f759() { return "C.f759"; }
new public virtual string f760() { return "C.f760"; }
new public virtual string f761() { return "C.f761"; }
new public virtual string f762() { return "C.f762"; }
new public virtual string f763() { return "C.f763"; }
new public virtual string f764() { return "C.f764"; }
new public virtual string f765() { return "C.f765"; }
new public virtual string f766() { return "C.f766"; }
new public virtual string f767() { return "C.f767"; }
new public virtual string f768() { return "C.f768"; }
new public virtual string f769() { return "C.f769"; }
new public virtual string f770() { return "C.f770"; }
new public virtual string f771() { return "C.f771"; }
new public virtual string f772() { return "C.f772"; }
new public virtual string f773() { return "C.f773"; }
new public virtual string f774() { return "C.f774"; }
new public virtual string f775() { return "C.f775"; }
new public virtual string f776() { return "C.f776"; }
new public virtual string f777() { return "C.f777"; }
new public virtual string f778() { return "C.f778"; }
new public virtual string f779() { return "C.f779"; }
new public virtual string f780() { return "C.f780"; }
new public virtual string f781() { return "C.f781"; }
new public virtual string f782() { return "C.f782"; }
new public virtual string f783() { return "C.f783"; }
new public virtual string f784() { return "C.f784"; }
new public virtual string f785() { return "C.f785"; }
new public virtual string f786() { return "C.f786"; }
new public virtual string f787() { return "C.f787"; }
new public virtual string f788() { return "C.f788"; }
new public virtual string f789() { return "C.f789"; }
new public virtual string f790() { return "C.f790"; }
new public virtual string f791() { return "C.f791"; }
new public virtual string f792() { return "C.f792"; }
new public virtual string f793() { return "C.f793"; }
new public virtual string f794() { return "C.f794"; }
new public virtual string f795() { return "C.f795"; }
new public virtual string f796() { return "C.f796"; }
new public virtual string f797() { return "C.f797"; }
new public virtual string f798() { return "C.f798"; }
new public virtual string f799() { return "C.f799"; }
new public virtual string f800() { return "C.f800"; }
new public virtual string f801() { return "C.f801"; }
new public virtual string f802() { return "C.f802"; }
new public virtual string f803() { return "C.f803"; }
new public virtual string f804() { return "C.f804"; }
new public virtual string f805() { return "C.f805"; }
new public virtual string f806() { return "C.f806"; }
new public virtual string f807() { return "C.f807"; }
new public virtual string f808() { return "C.f808"; }
new public virtual string f809() { return "C.f809"; }
new public virtual string f810() { return "C.f810"; }
new public virtual string f811() { return "C.f811"; }
new public virtual string f812() { return "C.f812"; }
new public virtual string f813() { return "C.f813"; }
new public virtual string f814() { return "C.f814"; }
new public virtual string f815() { return "C.f815"; }
new public virtual string f816() { return "C.f816"; }
new public virtual string f817() { return "C.f817"; }
new public virtual string f818() { return "C.f818"; }
new public virtual string f819() { return "C.f819"; }
new public virtual string f820() { return "C.f820"; }
new public virtual string f821() { return "C.f821"; }
new public virtual string f822() { return "C.f822"; }
new public virtual string f823() { return "C.f823"; }
new public virtual string f824() { return "C.f824"; }
new public virtual string f825() { return "C.f825"; }
new public virtual string f826() { return "C.f826"; }
new public virtual string f827() { return "C.f827"; }
new public virtual string f828() { return "C.f828"; }
new public virtual string f829() { return "C.f829"; }
new public virtual string f830() { return "C.f830"; }
new public virtual string f831() { return "C.f831"; }
new public virtual string f832() { return "C.f832"; }
new public virtual string f833() { return "C.f833"; }
new public virtual string f834() { return "C.f834"; }
new public virtual string f835() { return "C.f835"; }
new public virtual string f836() { return "C.f836"; }
new public virtual string f837() { return "C.f837"; }
new public virtual string f838() { return "C.f838"; }
new public virtual string f839() { return "C.f839"; }
new public virtual string f840() { return "C.f840"; }
new public virtual string f841() { return "C.f841"; }
new public virtual string f842() { return "C.f842"; }
new public virtual string f843() { return "C.f843"; }
new public virtual string f844() { return "C.f844"; }
new public virtual string f845() { return "C.f845"; }
new public virtual string f846() { return "C.f846"; }
new public virtual string f847() { return "C.f847"; }
new public virtual string f848() { return "C.f848"; }
new public virtual string f849() { return "C.f849"; }
new public virtual string f850() { return "C.f850"; }
new public virtual string f851() { return "C.f851"; }
new public virtual string f852() { return "C.f852"; }
new public virtual string f853() { return "C.f853"; }
new public virtual string f854() { return "C.f854"; }
new public virtual string f855() { return "C.f855"; }
new public virtual string f856() { return "C.f856"; }
new public virtual string f857() { return "C.f857"; }
new public virtual string f858() { return "C.f858"; }
new public virtual string f859() { return "C.f859"; }
new public virtual string f860() { return "C.f860"; }
new public virtual string f861() { return "C.f861"; }
new public virtual string f862() { return "C.f862"; }
new public virtual string f863() { return "C.f863"; }
new public virtual string f864() { return "C.f864"; }
new public virtual string f865() { return "C.f865"; }
new public virtual string f866() { return "C.f866"; }
new public virtual string f867() { return "C.f867"; }
new public virtual string f868() { return "C.f868"; }
new public virtual string f869() { return "C.f869"; }
new public virtual string f870() { return "C.f870"; }
new public virtual string f871() { return "C.f871"; }
new public virtual string f872() { return "C.f872"; }
new public virtual string f873() { return "C.f873"; }
new public virtual string f874() { return "C.f874"; }
new public virtual string f875() { return "C.f875"; }
new public virtual string f876() { return "C.f876"; }
new public virtual string f877() { return "C.f877"; }
new public virtual string f878() { return "C.f878"; }
new public virtual string f879() { return "C.f879"; }
new public virtual string f880() { return "C.f880"; }
new public virtual string f881() { return "C.f881"; }
new public virtual string f882() { return "C.f882"; }
new public virtual string f883() { return "C.f883"; }
new public virtual string f884() { return "C.f884"; }
new public virtual string f885() { return "C.f885"; }
new public virtual string f886() { return "C.f886"; }
new public virtual string f887() { return "C.f887"; }
new public virtual string f888() { return "C.f888"; }
new public virtual string f889() { return "C.f889"; }
new public virtual string f890() { return "C.f890"; }
new public virtual string f891() { return "C.f891"; }
new public virtual string f892() { return "C.f892"; }
new public virtual string f893() { return "C.f893"; }
new public virtual string f894() { return "C.f894"; }
new public virtual string f895() { return "C.f895"; }
new public virtual string f896() { return "C.f896"; }
new public virtual string f897() { return "C.f897"; }
new public virtual string f898() { return "C.f898"; }
new public virtual string f899() { return "C.f899"; }
new public virtual string f900() { return "C.f900"; }
new public virtual string f901() { return "C.f901"; }
new public virtual string f902() { return "C.f902"; }
new public virtual string f903() { return "C.f903"; }
new public virtual string f904() { return "C.f904"; }
new public virtual string f905() { return "C.f905"; }
new public virtual string f906() { return "C.f906"; }
new public virtual string f907() { return "C.f907"; }
new public virtual string f908() { return "C.f908"; }
new public virtual string f909() { return "C.f909"; }
new public virtual string f910() { return "C.f910"; }
new public virtual string f911() { return "C.f911"; }
new public virtual string f912() { return "C.f912"; }
new public virtual string f913() { return "C.f913"; }
new public virtual string f914() { return "C.f914"; }
new public virtual string f915() { return "C.f915"; }
new public virtual string f916() { return "C.f916"; }
new public virtual string f917() { return "C.f917"; }
new public virtual string f918() { return "C.f918"; }
new public virtual string f919() { return "C.f919"; }
new public virtual string f920() { return "C.f920"; }
new public virtual string f921() { return "C.f921"; }
new public virtual string f922() { return "C.f922"; }
new public virtual string f923() { return "C.f923"; }
new public virtual string f924() { return "C.f924"; }
new public virtual string f925() { return "C.f925"; }
new public virtual string f926() { return "C.f926"; }
new public virtual string f927() { return "C.f927"; }
new public virtual string f928() { return "C.f928"; }
new public virtual string f929() { return "C.f929"; }
new public virtual string f930() { return "C.f930"; }
new public virtual string f931() { return "C.f931"; }
new public virtual string f932() { return "C.f932"; }
new public virtual string f933() { return "C.f933"; }
new public virtual string f934() { return "C.f934"; }
new public virtual string f935() { return "C.f935"; }
new public virtual string f936() { return "C.f936"; }
new public virtual string f937() { return "C.f937"; }
new public virtual string f938() { return "C.f938"; }
new public virtual string f939() { return "C.f939"; }
new public virtual string f940() { return "C.f940"; }
new public virtual string f941() { return "C.f941"; }
new public virtual string f942() { return "C.f942"; }
new public virtual string f943() { return "C.f943"; }
new public virtual string f944() { return "C.f944"; }
new public virtual string f945() { return "C.f945"; }
new public virtual string f946() { return "C.f946"; }
new public virtual string f947() { return "C.f947"; }
new public virtual string f948() { return "C.f948"; }
new public virtual string f949() { return "C.f949"; }
new public virtual string f950() { return "C.f950"; }
new public virtual string f951() { return "C.f951"; }
new public virtual string f952() { return "C.f952"; }
new public virtual string f953() { return "C.f953"; }
new public virtual string f954() { return "C.f954"; }
new public virtual string f955() { return "C.f955"; }
new public virtual string f956() { return "C.f956"; }
new public virtual string f957() { return "C.f957"; }
new public virtual string f958() { return "C.f958"; }
new public virtual string f959() { return "C.f959"; }
new public virtual string f960() { return "C.f960"; }
new public virtual string f961() { return "C.f961"; }
new public virtual string f962() { return "C.f962"; }
new public virtual string f963() { return "C.f963"; }
new public virtual string f964() { return "C.f964"; }
new public virtual string f965() { return "C.f965"; }
new public virtual string f966() { return "C.f966"; }
new public virtual string f967() { return "C.f967"; }
new public virtual string f968() { return "C.f968"; }
new public virtual string f969() { return "C.f969"; }
new public virtual string f970() { return "C.f970"; }
new public virtual string f971() { return "C.f971"; }
new public virtual string f972() { return "C.f972"; }
new public virtual string f973() { return "C.f973"; }
new public virtual string f974() { return "C.f974"; }
new public virtual string f975() { return "C.f975"; }
new public virtual string f976() { return "C.f976"; }
new public virtual string f977() { return "C.f977"; }
new public virtual string f978() { return "C.f978"; }
new public virtual string f979() { return "C.f979"; }
new public virtual string f980() { return "C.f980"; }
new public virtual string f981() { return "C.f981"; }
new public virtual string f982() { return "C.f982"; }
new public virtual string f983() { return "C.f983"; }
new public virtual string f984() { return "C.f984"; }
new public virtual string f985() { return "C.f985"; }
new public virtual string f986() { return "C.f986"; }
new public virtual string f987() { return "C.f987"; }
new public virtual string f988() { return "C.f988"; }
new public virtual string f989() { return "C.f989"; }
new public virtual string f990() { return "C.f990"; }
new public virtual string f991() { return "C.f991"; }
new public virtual string f992() { return "C.f992"; }
new public virtual string f993() { return "C.f993"; }
new public virtual string f994() { return "C.f994"; }
new public virtual string f995() { return "C.f995"; }
new public virtual string f996() { return "C.f996"; }
new public virtual string f997() { return "C.f997"; }
new public virtual string f998() { return "C.f998"; }
new public virtual string f999() { return "C.f999"; }
new public virtual string f1000() { return "C.f1000"; }
new public virtual string f1001() { return "C.f1001"; }
new public virtual string f1002() { return "C.f1002"; }
new public virtual string f1003() { return "C.f1003"; }
new public virtual string f1004() { return "C.f1004"; }
new public virtual string f1005() { return "C.f1005"; }
new public virtual string f1006() { return "C.f1006"; }
new public virtual string f1007() { return "C.f1007"; }
new public virtual string f1008() { return "C.f1008"; }
new public virtual string f1009() { return "C.f1009"; }
new public virtual string f1010() { return "C.f1010"; }
new public virtual string f1011() { return "C.f1011"; }
new public virtual string f1012() { return "C.f1012"; }
new public virtual string f1013() { return "C.f1013"; }
new public virtual string f1014() { return "C.f1014"; }
new public virtual string f1015() { return "C.f1015"; }
new public virtual string f1016() { return "C.f1016"; }
new public virtual string f1017() { return "C.f1017"; }
new public virtual string f1018() { return "C.f1018"; }
new public virtual string f1019() { return "C.f1019"; }
new public virtual string f1020() { return "C.f1020"; }
new public virtual string f1021() { return "C.f1021"; }
new public virtual string f1022() { return "C.f1022"; }
new public virtual string f1023() { return "C.f1023"; }
new public virtual string f1024() { return "C.f1024"; }
new public virtual string f1025() { return "C.f1025"; }
new public virtual string f1026() { return "C.f1026"; }
new public virtual string f1027() { return "C.f1027"; }
new public virtual string f1028() { return "C.f1028"; }
new public virtual string f1029() { return "C.f1029"; }
new public virtual string f1030() { return "C.f1030"; }
new public virtual string f1031() { return "C.f1031"; }
new public virtual string f1032() { return "C.f1032"; }
new public virtual string f1033() { return "C.f1033"; }
new public virtual string f1034() { return "C.f1034"; }
new public virtual string f1035() { return "C.f1035"; }
new public virtual string f1036() { return "C.f1036"; }
new public virtual string f1037() { return "C.f1037"; }
new public virtual string f1038() { return "C.f1038"; }
new public virtual string f1039() { return "C.f1039"; }
new public virtual string f1040() { return "C.f1040"; }
new public virtual string f1041() { return "C.f1041"; }
new public virtual string f1042() { return "C.f1042"; }
new public virtual string f1043() { return "C.f1043"; }
new public virtual string f1044() { return "C.f1044"; }
new public virtual string f1045() { return "C.f1045"; }
new public virtual string f1046() { return "C.f1046"; }
new public virtual string f1047() { return "C.f1047"; }
new public virtual string f1048() { return "C.f1048"; }
new public virtual string f1049() { return "C.f1049"; }
new public virtual string f1050() { return "C.f1050"; }
new public virtual string f1051() { return "C.f1051"; }
new public virtual string f1052() { return "C.f1052"; }
new public virtual string f1053() { return "C.f1053"; }
new public virtual string f1054() { return "C.f1054"; }
new public virtual string f1055() { return "C.f1055"; }
new public virtual string f1056() { return "C.f1056"; }
new public virtual string f1057() { return "C.f1057"; }
new public virtual string f1058() { return "C.f1058"; }
new public virtual string f1059() { return "C.f1059"; }
new public virtual string f1060() { return "C.f1060"; }
new public virtual string f1061() { return "C.f1061"; }
new public virtual string f1062() { return "C.f1062"; }
new public virtual string f1063() { return "C.f1063"; }
new public virtual string f1064() { return "C.f1064"; }
new public virtual string f1065() { return "C.f1065"; }
new public virtual string f1066() { return "C.f1066"; }
new public virtual string f1067() { return "C.f1067"; }
new public virtual string f1068() { return "C.f1068"; }
new public virtual string f1069() { return "C.f1069"; }
new public virtual string f1070() { return "C.f1070"; }
new public virtual string f1071() { return "C.f1071"; }
new public virtual string f1072() { return "C.f1072"; }
new public virtual string f1073() { return "C.f1073"; }
new public virtual string f1074() { return "C.f1074"; }
new public virtual string f1075() { return "C.f1075"; }
new public virtual string f1076() { return "C.f1076"; }
new public virtual string f1077() { return "C.f1077"; }
new public virtual string f1078() { return "C.f1078"; }
new public virtual string f1079() { return "C.f1079"; }
new public virtual string f1080() { return "C.f1080"; }
new public virtual string f1081() { return "C.f1081"; }
new public virtual string f1082() { return "C.f1082"; }
new public virtual string f1083() { return "C.f1083"; }
new public virtual string f1084() { return "C.f1084"; }
new public virtual string f1085() { return "C.f1085"; }
new public virtual string f1086() { return "C.f1086"; }
new public virtual string f1087() { return "C.f1087"; }
new public virtual string f1088() { return "C.f1088"; }
new public virtual string f1089() { return "C.f1089"; }
new public virtual string f1090() { return "C.f1090"; }
new public virtual string f1091() { return "C.f1091"; }
new public virtual string f1092() { return "C.f1092"; }
new public virtual string f1093() { return "C.f1093"; }
new public virtual string f1094() { return "C.f1094"; }
new public virtual string f1095() { return "C.f1095"; }
new public virtual string f1096() { return "C.f1096"; }
new public virtual string f1097() { return "C.f1097"; }
new public virtual string f1098() { return "C.f1098"; }
new public virtual string f1099() { return "C.f1099"; }
new public virtual string f1100() { return "C.f1100"; }
new public virtual string f1101() { return "C.f1101"; }
new public virtual string f1102() { return "C.f1102"; }
new public virtual string f1103() { return "C.f1103"; }
new public virtual string f1104() { return "C.f1104"; }
new public virtual string f1105() { return "C.f1105"; }
new public virtual string f1106() { return "C.f1106"; }
new public virtual string f1107() { return "C.f1107"; }
new public virtual string f1108() { return "C.f1108"; }
new public virtual string f1109() { return "C.f1109"; }
new public virtual string f1110() { return "C.f1110"; }
new public virtual string f1111() { return "C.f1111"; }
new public virtual string f1112() { return "C.f1112"; }
new public virtual string f1113() { return "C.f1113"; }
new public virtual string f1114() { return "C.f1114"; }
new public virtual string f1115() { return "C.f1115"; }
new public virtual string f1116() { return "C.f1116"; }
new public virtual string f1117() { return "C.f1117"; }
new public virtual string f1118() { return "C.f1118"; }
new public virtual string f1119() { return "C.f1119"; }
new public virtual string f1120() { return "C.f1120"; }
new public virtual string f1121() { return "C.f1121"; }
new public virtual string f1122() { return "C.f1122"; }
new public virtual string f1123() { return "C.f1123"; }
new public virtual string f1124() { return "C.f1124"; }
new public virtual string f1125() { return "C.f1125"; }
new public virtual string f1126() { return "C.f1126"; }
new public virtual string f1127() { return "C.f1127"; }
new public virtual string f1128() { return "C.f1128"; }
new public virtual string f1129() { return "C.f1129"; }
new public virtual string f1130() { return "C.f1130"; }
new public virtual string f1131() { return "C.f1131"; }
new public virtual string f1132() { return "C.f1132"; }
new public virtual string f1133() { return "C.f1133"; }
new public virtual string f1134() { return "C.f1134"; }
new public virtual string f1135() { return "C.f1135"; }
new public virtual string f1136() { return "C.f1136"; }
new public virtual string f1137() { return "C.f1137"; }
new public virtual string f1138() { return "C.f1138"; }
new public virtual string f1139() { return "C.f1139"; }
new public virtual string f1140() { return "C.f1140"; }
new public virtual string f1141() { return "C.f1141"; }
new public virtual string f1142() { return "C.f1142"; }
new public virtual string f1143() { return "C.f1143"; }
new public virtual string f1144() { return "C.f1144"; }
new public virtual string f1145() { return "C.f1145"; }
new public virtual string f1146() { return "C.f1146"; }
new public virtual string f1147() { return "C.f1147"; }
new public virtual string f1148() { return "C.f1148"; }
new public virtual string f1149() { return "C.f1149"; }
new public virtual string f1150() { return "C.f1150"; }
new public virtual string f1151() { return "C.f1151"; }
new public virtual string f1152() { return "C.f1152"; }
new public virtual string f1153() { return "C.f1153"; }
new public virtual string f1154() { return "C.f1154"; }
new public virtual string f1155() { return "C.f1155"; }
new public virtual string f1156() { return "C.f1156"; }
new public virtual string f1157() { return "C.f1157"; }
new public virtual string f1158() { return "C.f1158"; }
new public virtual string f1159() { return "C.f1159"; }
new public virtual string f1160() { return "C.f1160"; }
new public virtual string f1161() { return "C.f1161"; }
new public virtual string f1162() { return "C.f1162"; }
new public virtual string f1163() { return "C.f1163"; }
new public virtual string f1164() { return "C.f1164"; }
new public virtual string f1165() { return "C.f1165"; }
new public virtual string f1166() { return "C.f1166"; }
new public virtual string f1167() { return "C.f1167"; }
new public virtual string f1168() { return "C.f1168"; }
new public virtual string f1169() { return "C.f1169"; }
new public virtual string f1170() { return "C.f1170"; }
new public virtual string f1171() { return "C.f1171"; }
new public virtual string f1172() { return "C.f1172"; }
new public virtual string f1173() { return "C.f1173"; }
new public virtual string f1174() { return "C.f1174"; }
new public virtual string f1175() { return "C.f1175"; }
new public virtual string f1176() { return "C.f1176"; }
new public virtual string f1177() { return "C.f1177"; }
new public virtual string f1178() { return "C.f1178"; }
new public virtual string f1179() { return "C.f1179"; }
new public virtual string f1180() { return "C.f1180"; }
new public virtual string f1181() { return "C.f1181"; }
new public virtual string f1182() { return "C.f1182"; }
new public virtual string f1183() { return "C.f1183"; }
new public virtual string f1184() { return "C.f1184"; }
new public virtual string f1185() { return "C.f1185"; }
new public virtual string f1186() { return "C.f1186"; }
new public virtual string f1187() { return "C.f1187"; }
new public virtual string f1188() { return "C.f1188"; }
new public virtual string f1189() { return "C.f1189"; }
new public virtual string f1190() { return "C.f1190"; }
new public virtual string f1191() { return "C.f1191"; }
new public virtual string f1192() { return "C.f1192"; }
new public virtual string f1193() { return "C.f1193"; }
new public virtual string f1194() { return "C.f1194"; }
new public virtual string f1195() { return "C.f1195"; }
new public virtual string f1196() { return "C.f1196"; }
new public virtual string f1197() { return "C.f1197"; }
new public virtual string f1198() { return "C.f1198"; }
new public virtual string f1199() { return "C.f1199"; }
new public virtual string f1200() { return "C.f1200"; }
new public virtual string f1201() { return "C.f1201"; }
new public virtual string f1202() { return "C.f1202"; }
new public virtual string f1203() { return "C.f1203"; }
new public virtual string f1204() { return "C.f1204"; }
new public virtual string f1205() { return "C.f1205"; }
new public virtual string f1206() { return "C.f1206"; }
new public virtual string f1207() { return "C.f1207"; }
new public virtual string f1208() { return "C.f1208"; }
new public virtual string f1209() { return "C.f1209"; }
new public virtual string f1210() { return "C.f1210"; }
new public virtual string f1211() { return "C.f1211"; }
new public virtual string f1212() { return "C.f1212"; }
new public virtual string f1213() { return "C.f1213"; }
new public virtual string f1214() { return "C.f1214"; }
new public virtual string f1215() { return "C.f1215"; }
new public virtual string f1216() { return "C.f1216"; }
new public virtual string f1217() { return "C.f1217"; }
new public virtual string f1218() { return "C.f1218"; }
new public virtual string f1219() { return "C.f1219"; }
new public virtual string f1220() { return "C.f1220"; }
new public virtual string f1221() { return "C.f1221"; }
new public virtual string f1222() { return "C.f1222"; }
new public virtual string f1223() { return "C.f1223"; }
new public virtual string f1224() { return "C.f1224"; }
new public virtual string f1225() { return "C.f1225"; }
new public virtual string f1226() { return "C.f1226"; }
new public virtual string f1227() { return "C.f1227"; }
new public virtual string f1228() { return "C.f1228"; }
new public virtual string f1229() { return "C.f1229"; }
new public virtual string f1230() { return "C.f1230"; }
new public virtual string f1231() { return "C.f1231"; }
new public virtual string f1232() { return "C.f1232"; }
new public virtual string f1233() { return "C.f1233"; }
new public virtual string f1234() { return "C.f1234"; }
new public virtual string f1235() { return "C.f1235"; }
new public virtual string f1236() { return "C.f1236"; }
new public virtual string f1237() { return "C.f1237"; }
new public virtual string f1238() { return "C.f1238"; }
new public virtual string f1239() { return "C.f1239"; }
new public virtual string f1240() { return "C.f1240"; }
new public virtual string f1241() { return "C.f1241"; }
new public virtual string f1242() { return "C.f1242"; }
new public virtual string f1243() { return "C.f1243"; }
new public virtual string f1244() { return "C.f1244"; }
new public virtual string f1245() { return "C.f1245"; }
new public virtual string f1246() { return "C.f1246"; }
new public virtual string f1247() { return "C.f1247"; }
new public virtual string f1248() { return "C.f1248"; }
new public virtual string f1249() { return "C.f1249"; }
new public virtual string f1250() { return "C.f1250"; }
new public virtual string f1251() { return "C.f1251"; }
new public virtual string f1252() { return "C.f1252"; }
new public virtual string f1253() { return "C.f1253"; }
new public virtual string f1254() { return "C.f1254"; }
new public virtual string f1255() { return "C.f1255"; }
new public virtual string f1256() { return "C.f1256"; }
new public virtual string f1257() { return "C.f1257"; }
new public virtual string f1258() { return "C.f1258"; }
new public virtual string f1259() { return "C.f1259"; }
new public virtual string f1260() { return "C.f1260"; }
new public virtual string f1261() { return "C.f1261"; }
new public virtual string f1262() { return "C.f1262"; }
new public virtual string f1263() { return "C.f1263"; }
new public virtual string f1264() { return "C.f1264"; }
new public virtual string f1265() { return "C.f1265"; }
new public virtual string f1266() { return "C.f1266"; }
new public virtual string f1267() { return "C.f1267"; }
new public virtual string f1268() { return "C.f1268"; }
new public virtual string f1269() { return "C.f1269"; }
new public virtual string f1270() { return "C.f1270"; }
new public virtual string f1271() { return "C.f1271"; }
new public virtual string f1272() { return "C.f1272"; }
new public virtual string f1273() { return "C.f1273"; }
new public virtual string f1274() { return "C.f1274"; }
new public virtual string f1275() { return "C.f1275"; }
new public virtual string f1276() { return "C.f1276"; }
new public virtual string f1277() { return "C.f1277"; }
new public virtual string f1278() { return "C.f1278"; }
new public virtual string f1279() { return "C.f1279"; }
new public virtual string f1280() { return "C.f1280"; }
new public virtual string f1281() { return "C.f1281"; }
new public virtual string f1282() { return "C.f1282"; }
new public virtual string f1283() { return "C.f1283"; }
new public virtual string f1284() { return "C.f1284"; }
new public virtual string f1285() { return "C.f1285"; }
new public virtual string f1286() { return "C.f1286"; }
new public virtual string f1287() { return "C.f1287"; }
new public virtual string f1288() { return "C.f1288"; }
new public virtual string f1289() { return "C.f1289"; }
new public virtual string f1290() { return "C.f1290"; }
new public virtual string f1291() { return "C.f1291"; }
new public virtual string f1292() { return "C.f1292"; }
new public virtual string f1293() { return "C.f1293"; }
new public virtual string f1294() { return "C.f1294"; }
new public virtual string f1295() { return "C.f1295"; }
new public virtual string f1296() { return "C.f1296"; }
new public virtual string f1297() { return "C.f1297"; }
new public virtual string f1298() { return "C.f1298"; }
new public virtual string f1299() { return "C.f1299"; }
new public virtual string f1300() { return "C.f1300"; }
new public virtual string f1301() { return "C.f1301"; }
new public virtual string f1302() { return "C.f1302"; }
new public virtual string f1303() { return "C.f1303"; }
new public virtual string f1304() { return "C.f1304"; }
new public virtual string f1305() { return "C.f1305"; }
new public virtual string f1306() { return "C.f1306"; }
new public virtual string f1307() { return "C.f1307"; }
new public virtual string f1308() { return "C.f1308"; }
new public virtual string f1309() { return "C.f1309"; }
new public virtual string f1310() { return "C.f1310"; }
new public virtual string f1311() { return "C.f1311"; }
new public virtual string f1312() { return "C.f1312"; }
new public virtual string f1313() { return "C.f1313"; }
new public virtual string f1314() { return "C.f1314"; }
new public virtual string f1315() { return "C.f1315"; }
new public virtual string f1316() { return "C.f1316"; }
new public virtual string f1317() { return "C.f1317"; }
new public virtual string f1318() { return "C.f1318"; }
new public virtual string f1319() { return "C.f1319"; }
new public virtual string f1320() { return "C.f1320"; }
new public virtual string f1321() { return "C.f1321"; }
new public virtual string f1322() { return "C.f1322"; }
new public virtual string f1323() { return "C.f1323"; }
new public virtual string f1324() { return "C.f1324"; }
new public virtual string f1325() { return "C.f1325"; }
new public virtual string f1326() { return "C.f1326"; }
new public virtual string f1327() { return "C.f1327"; }
new public virtual string f1328() { return "C.f1328"; }
new public virtual string f1329() { return "C.f1329"; }
new public virtual string f1330() { return "C.f1330"; }
new public virtual string f1331() { return "C.f1331"; }
new public virtual string f1332() { return "C.f1332"; }
new public virtual string f1333() { return "C.f1333"; }
new public virtual string f1334() { return "C.f1334"; }
new public virtual string f1335() { return "C.f1335"; }
new public virtual string f1336() { return "C.f1336"; }
new public virtual string f1337() { return "C.f1337"; }
new public virtual string f1338() { return "C.f1338"; }
new public virtual string f1339() { return "C.f1339"; }
new public virtual string f1340() { return "C.f1340"; }
new public virtual string f1341() { return "C.f1341"; }
new public virtual string f1342() { return "C.f1342"; }
new public virtual string f1343() { return "C.f1343"; }
new public virtual string f1344() { return "C.f1344"; }
new public virtual string f1345() { return "C.f1345"; }
new public virtual string f1346() { return "C.f1346"; }
new public virtual string f1347() { return "C.f1347"; }
new public virtual string f1348() { return "C.f1348"; }
new public virtual string f1349() { return "C.f1349"; }
new public virtual string f1350() { return "C.f1350"; }
new public virtual string f1351() { return "C.f1351"; }
new public virtual string f1352() { return "C.f1352"; }
new public virtual string f1353() { return "C.f1353"; }
new public virtual string f1354() { return "C.f1354"; }
new public virtual string f1355() { return "C.f1355"; }
new public virtual string f1356() { return "C.f1356"; }
new public virtual string f1357() { return "C.f1357"; }
new public virtual string f1358() { return "C.f1358"; }
new public virtual string f1359() { return "C.f1359"; }
new public virtual string f1360() { return "C.f1360"; }
new public virtual string f1361() { return "C.f1361"; }
new public virtual string f1362() { return "C.f1362"; }
new public virtual string f1363() { return "C.f1363"; }
new public virtual string f1364() { return "C.f1364"; }
new public virtual string f1365() { return "C.f1365"; }
new public virtual string f1366() { return "C.f1366"; }
new public virtual string f1367() { return "C.f1367"; }
new public virtual string f1368() { return "C.f1368"; }
new public virtual string f1369() { return "C.f1369"; }
new public virtual string f1370() { return "C.f1370"; }
new public virtual string f1371() { return "C.f1371"; }
new public virtual string f1372() { return "C.f1372"; }
new public virtual string f1373() { return "C.f1373"; }
new public virtual string f1374() { return "C.f1374"; }
new public virtual string f1375() { return "C.f1375"; }
new public virtual string f1376() { return "C.f1376"; }
new public virtual string f1377() { return "C.f1377"; }
new public virtual string f1378() { return "C.f1378"; }
new public virtual string f1379() { return "C.f1379"; }
new public virtual string f1380() { return "C.f1380"; }
new public virtual string f1381() { return "C.f1381"; }
new public virtual string f1382() { return "C.f1382"; }
new public virtual string f1383() { return "C.f1383"; }
new public virtual string f1384() { return "C.f1384"; }
new public virtual string f1385() { return "C.f1385"; }
new public virtual string f1386() { return "C.f1386"; }
new public virtual string f1387() { return "C.f1387"; }
new public virtual string f1388() { return "C.f1388"; }
new public virtual string f1389() { return "C.f1389"; }
new public virtual string f1390() { return "C.f1390"; }
new public virtual string f1391() { return "C.f1391"; }
new public virtual string f1392() { return "C.f1392"; }
new public virtual string f1393() { return "C.f1393"; }
new public virtual string f1394() { return "C.f1394"; }
new public virtual string f1395() { return "C.f1395"; }
new public virtual string f1396() { return "C.f1396"; }
new public virtual string f1397() { return "C.f1397"; }
new public virtual string f1398() { return "C.f1398"; }
new public virtual string f1399() { return "C.f1399"; }
new public virtual string f1400() { return "C.f1400"; }
new public virtual string f1401() { return "C.f1401"; }
new public virtual string f1402() { return "C.f1402"; }
new public virtual string f1403() { return "C.f1403"; }
new public virtual string f1404() { return "C.f1404"; }
new public virtual string f1405() { return "C.f1405"; }
new public virtual string f1406() { return "C.f1406"; }
new public virtual string f1407() { return "C.f1407"; }
new public virtual string f1408() { return "C.f1408"; }
new public virtual string f1409() { return "C.f1409"; }
new public virtual string f1410() { return "C.f1410"; }
new public virtual string f1411() { return "C.f1411"; }
new public virtual string f1412() { return "C.f1412"; }
new public virtual string f1413() { return "C.f1413"; }
new public virtual string f1414() { return "C.f1414"; }
new public virtual string f1415() { return "C.f1415"; }
new public virtual string f1416() { return "C.f1416"; }
new public virtual string f1417() { return "C.f1417"; }
new public virtual string f1418() { return "C.f1418"; }
new public virtual string f1419() { return "C.f1419"; }
new public virtual string f1420() { return "C.f1420"; }
new public virtual string f1421() { return "C.f1421"; }
new public virtual string f1422() { return "C.f1422"; }
new public virtual string f1423() { return "C.f1423"; }
new public virtual string f1424() { return "C.f1424"; }
new public virtual string f1425() { return "C.f1425"; }
new public virtual string f1426() { return "C.f1426"; }
new public virtual string f1427() { return "C.f1427"; }
new public virtual string f1428() { return "C.f1428"; }
new public virtual string f1429() { return "C.f1429"; }
new public virtual string f1430() { return "C.f1430"; }
new public virtual string f1431() { return "C.f1431"; }
new public virtual string f1432() { return "C.f1432"; }
new public virtual string f1433() { return "C.f1433"; }
new public virtual string f1434() { return "C.f1434"; }
new public virtual string f1435() { return "C.f1435"; }
new public virtual string f1436() { return "C.f1436"; }
new public virtual string f1437() { return "C.f1437"; }
new public virtual string f1438() { return "C.f1438"; }
new public virtual string f1439() { return "C.f1439"; }
new public virtual string f1440() { return "C.f1440"; }
new public virtual string f1441() { return "C.f1441"; }
new public virtual string f1442() { return "C.f1442"; }
new public virtual string f1443() { return "C.f1443"; }
new public virtual string f1444() { return "C.f1444"; }
new public virtual string f1445() { return "C.f1445"; }
new public virtual string f1446() { return "C.f1446"; }
new public virtual string f1447() { return "C.f1447"; }
new public virtual string f1448() { return "C.f1448"; }
new public virtual string f1449() { return "C.f1449"; }
new public virtual string f1450() { return "C.f1450"; }
new public virtual string f1451() { return "C.f1451"; }
new public virtual string f1452() { return "C.f1452"; }
new public virtual string f1453() { return "C.f1453"; }
new public virtual string f1454() { return "C.f1454"; }
new public virtual string f1455() { return "C.f1455"; }
new public virtual string f1456() { return "C.f1456"; }
new public virtual string f1457() { return "C.f1457"; }
new public virtual string f1458() { return "C.f1458"; }
new public virtual string f1459() { return "C.f1459"; }
new public virtual string f1460() { return "C.f1460"; }
new public virtual string f1461() { return "C.f1461"; }
new public virtual string f1462() { return "C.f1462"; }
new public virtual string f1463() { return "C.f1463"; }
new public virtual string f1464() { return "C.f1464"; }
new public virtual string f1465() { return "C.f1465"; }
new public virtual string f1466() { return "C.f1466"; }
new public virtual string f1467() { return "C.f1467"; }
new public virtual string f1468() { return "C.f1468"; }
new public virtual string f1469() { return "C.f1469"; }
new public virtual string f1470() { return "C.f1470"; }
new public virtual string f1471() { return "C.f1471"; }
new public virtual string f1472() { return "C.f1472"; }
new public virtual string f1473() { return "C.f1473"; }
new public virtual string f1474() { return "C.f1474"; }
new public virtual string f1475() { return "C.f1475"; }
new public virtual string f1476() { return "C.f1476"; }
new public virtual string f1477() { return "C.f1477"; }
new public virtual string f1478() { return "C.f1478"; }
new public virtual string f1479() { return "C.f1479"; }
new public virtual string f1480() { return "C.f1480"; }
new public virtual string f1481() { return "C.f1481"; }
new public virtual string f1482() { return "C.f1482"; }
new public virtual string f1483() { return "C.f1483"; }
new public virtual string f1484() { return "C.f1484"; }
new public virtual string f1485() { return "C.f1485"; }
new public virtual string f1486() { return "C.f1486"; }
new public virtual string f1487() { return "C.f1487"; }
new public virtual string f1488() { return "C.f1488"; }
new public virtual string f1489() { return "C.f1489"; }
new public virtual string f1490() { return "C.f1490"; }
new public virtual string f1491() { return "C.f1491"; }
new public virtual string f1492() { return "C.f1492"; }
new public virtual string f1493() { return "C.f1493"; }
new public virtual string f1494() { return "C.f1494"; }
new public virtual string f1495() { return "C.f1495"; }
new public virtual string f1496() { return "C.f1496"; }
new public virtual string f1497() { return "C.f1497"; }
new public virtual string f1498() { return "C.f1498"; }
new public virtual string f1499() { return "C.f1499"; }
new public virtual string f1500() { return "C.f1500"; }
new public virtual string f1501() { return "C.f1501"; }
new public virtual string f1502() { return "C.f1502"; }
new public virtual string f1503() { return "C.f1503"; }
new public virtual string f1504() { return "C.f1504"; }
new public virtual string f1505() { return "C.f1505"; }
new public virtual string f1506() { return "C.f1506"; }
new public virtual string f1507() { return "C.f1507"; }
new public virtual string f1508() { return "C.f1508"; }
new public virtual string f1509() { return "C.f1509"; }
new public virtual string f1510() { return "C.f1510"; }
new public virtual string f1511() { return "C.f1511"; }
new public virtual string f1512() { return "C.f1512"; }
new public virtual string f1513() { return "C.f1513"; }
new public virtual string f1514() { return "C.f1514"; }
new public virtual string f1515() { return "C.f1515"; }
new public virtual string f1516() { return "C.f1516"; }
new public virtual string f1517() { return "C.f1517"; }
new public virtual string f1518() { return "C.f1518"; }
new public virtual string f1519() { return "C.f1519"; }
new public virtual string f1520() { return "C.f1520"; }
new public virtual string f1521() { return "C.f1521"; }
new public virtual string f1522() { return "C.f1522"; }
new public virtual string f1523() { return "C.f1523"; }
new public virtual string f1524() { return "C.f1524"; }
new public virtual string f1525() { return "C.f1525"; }
new public virtual string f1526() { return "C.f1526"; }
new public virtual string f1527() { return "C.f1527"; }
new public virtual string f1528() { return "C.f1528"; }
new public virtual string f1529() { return "C.f1529"; }
new public virtual string f1530() { return "C.f1530"; }
new public virtual string f1531() { return "C.f1531"; }
new public virtual string f1532() { return "C.f1532"; }
new public virtual string f1533() { return "C.f1533"; }
new public virtual string f1534() { return "C.f1534"; }
new public virtual string f1535() { return "C.f1535"; }
new public virtual string f1536() { return "C.f1536"; }
new public virtual string f1537() { return "C.f1537"; }
new public virtual string f1538() { return "C.f1538"; }
new public virtual string f1539() { return "C.f1539"; }
new public virtual string f1540() { return "C.f1540"; }
new public virtual string f1541() { return "C.f1541"; }
new public virtual string f1542() { return "C.f1542"; }
new public virtual string f1543() { return "C.f1543"; }
new public virtual string f1544() { return "C.f1544"; }
new public virtual string f1545() { return "C.f1545"; }
new public virtual string f1546() { return "C.f1546"; }
new public virtual string f1547() { return "C.f1547"; }
new public virtual string f1548() { return "C.f1548"; }
new public virtual string f1549() { return "C.f1549"; }
new public virtual string f1550() { return "C.f1550"; }
new public virtual string f1551() { return "C.f1551"; }
new public virtual string f1552() { return "C.f1552"; }
new public virtual string f1553() { return "C.f1553"; }
new public virtual string f1554() { return "C.f1554"; }
new public virtual string f1555() { return "C.f1555"; }
new public virtual string f1556() { return "C.f1556"; }
new public virtual string f1557() { return "C.f1557"; }
new public virtual string f1558() { return "C.f1558"; }
new public virtual string f1559() { return "C.f1559"; }
new public virtual string f1560() { return "C.f1560"; }
new public virtual string f1561() { return "C.f1561"; }
new public virtual string f1562() { return "C.f1562"; }
new public virtual string f1563() { return "C.f1563"; }
new public virtual string f1564() { return "C.f1564"; }
new public virtual string f1565() { return "C.f1565"; }
new public virtual string f1566() { return "C.f1566"; }
new public virtual string f1567() { return "C.f1567"; }
new public virtual string f1568() { return "C.f1568"; }
new public virtual string f1569() { return "C.f1569"; }
new public virtual string f1570() { return "C.f1570"; }
new public virtual string f1571() { return "C.f1571"; }
new public virtual string f1572() { return "C.f1572"; }
new public virtual string f1573() { return "C.f1573"; }
new public virtual string f1574() { return "C.f1574"; }
new public virtual string f1575() { return "C.f1575"; }
new public virtual string f1576() { return "C.f1576"; }
new public virtual string f1577() { return "C.f1577"; }
new public virtual string f1578() { return "C.f1578"; }
new public virtual string f1579() { return "C.f1579"; }
new public virtual string f1580() { return "C.f1580"; }
new public virtual string f1581() { return "C.f1581"; }
new public virtual string f1582() { return "C.f1582"; }
new public virtual string f1583() { return "C.f1583"; }
new public virtual string f1584() { return "C.f1584"; }
new public virtual string f1585() { return "C.f1585"; }
new public virtual string f1586() { return "C.f1586"; }
new public virtual string f1587() { return "C.f1587"; }
new public virtual string f1588() { return "C.f1588"; }
new public virtual string f1589() { return "C.f1589"; }
new public virtual string f1590() { return "C.f1590"; }
new public virtual string f1591() { return "C.f1591"; }
new public virtual string f1592() { return "C.f1592"; }
new public virtual string f1593() { return "C.f1593"; }
new public virtual string f1594() { return "C.f1594"; }
new public virtual string f1595() { return "C.f1595"; }
new public virtual string f1596() { return "C.f1596"; }
new public virtual string f1597() { return "C.f1597"; }
new public virtual string f1598() { return "C.f1598"; }
new public virtual string f1599() { return "C.f1599"; }
new public virtual string f1600() { return "C.f1600"; }
new public virtual string f1601() { return "C.f1601"; }
new public virtual string f1602() { return "C.f1602"; }
new public virtual string f1603() { return "C.f1603"; }
new public virtual string f1604() { return "C.f1604"; }
new public virtual string f1605() { return "C.f1605"; }
new public virtual string f1606() { return "C.f1606"; }
new public virtual string f1607() { return "C.f1607"; }
new public virtual string f1608() { return "C.f1608"; }
new public virtual string f1609() { return "C.f1609"; }
new public virtual string f1610() { return "C.f1610"; }
new public virtual string f1611() { return "C.f1611"; }
new public virtual string f1612() { return "C.f1612"; }
new public virtual string f1613() { return "C.f1613"; }
new public virtual string f1614() { return "C.f1614"; }
new public virtual string f1615() { return "C.f1615"; }
new public virtual string f1616() { return "C.f1616"; }
new public virtual string f1617() { return "C.f1617"; }
new public virtual string f1618() { return "C.f1618"; }
new public virtual string f1619() { return "C.f1619"; }
new public virtual string f1620() { return "C.f1620"; }
new public virtual string f1621() { return "C.f1621"; }
new public virtual string f1622() { return "C.f1622"; }
new public virtual string f1623() { return "C.f1623"; }
new public virtual string f1624() { return "C.f1624"; }
new public virtual string f1625() { return "C.f1625"; }
new public virtual string f1626() { return "C.f1626"; }
new public virtual string f1627() { return "C.f1627"; }
new public virtual string f1628() { return "C.f1628"; }
new public virtual string f1629() { return "C.f1629"; }
new public virtual string f1630() { return "C.f1630"; }
new public virtual string f1631() { return "C.f1631"; }
new public virtual string f1632() { return "C.f1632"; }
new public virtual string f1633() { return "C.f1633"; }
new public virtual string f1634() { return "C.f1634"; }
new public virtual string f1635() { return "C.f1635"; }
new public virtual string f1636() { return "C.f1636"; }
new public virtual string f1637() { return "C.f1637"; }
new public virtual string f1638() { return "C.f1638"; }
new public virtual string f1639() { return "C.f1639"; }
new public virtual string f1640() { return "C.f1640"; }
new public virtual string f1641() { return "C.f1641"; }
new public virtual string f1642() { return "C.f1642"; }
new public virtual string f1643() { return "C.f1643"; }
new public virtual string f1644() { return "C.f1644"; }
new public virtual string f1645() { return "C.f1645"; }
new public virtual string f1646() { return "C.f1646"; }
new public virtual string f1647() { return "C.f1647"; }
new public virtual string f1648() { return "C.f1648"; }
new public virtual string f1649() { return "C.f1649"; }
new public virtual string f1650() { return "C.f1650"; }
new public virtual string f1651() { return "C.f1651"; }
new public virtual string f1652() { return "C.f1652"; }
new public virtual string f1653() { return "C.f1653"; }
new public virtual string f1654() { return "C.f1654"; }
new public virtual string f1655() { return "C.f1655"; }
new public virtual string f1656() { return "C.f1656"; }
new public virtual string f1657() { return "C.f1657"; }
new public virtual string f1658() { return "C.f1658"; }
new public virtual string f1659() { return "C.f1659"; }
new public virtual string f1660() { return "C.f1660"; }
new public virtual string f1661() { return "C.f1661"; }
new public virtual string f1662() { return "C.f1662"; }
new public virtual string f1663() { return "C.f1663"; }
new public virtual string f1664() { return "C.f1664"; }
new public virtual string f1665() { return "C.f1665"; }
new public virtual string f1666() { return "C.f1666"; }
new public virtual string f1667() { return "C.f1667"; }
new public virtual string f1668() { return "C.f1668"; }
new public virtual string f1669() { return "C.f1669"; }
new public virtual string f1670() { return "C.f1670"; }
new public virtual string f1671() { return "C.f1671"; }
new public virtual string f1672() { return "C.f1672"; }
new public virtual string f1673() { return "C.f1673"; }
new public virtual string f1674() { return "C.f1674"; }
new public virtual string f1675() { return "C.f1675"; }
new public virtual string f1676() { return "C.f1676"; }
new public virtual string f1677() { return "C.f1677"; }
new public virtual string f1678() { return "C.f1678"; }
new public virtual string f1679() { return "C.f1679"; }
new public virtual string f1680() { return "C.f1680"; }
new public virtual string f1681() { return "C.f1681"; }
new public virtual string f1682() { return "C.f1682"; }
new public virtual string f1683() { return "C.f1683"; }
new public virtual string f1684() { return "C.f1684"; }
new public virtual string f1685() { return "C.f1685"; }
new public virtual string f1686() { return "C.f1686"; }
new public virtual string f1687() { return "C.f1687"; }
new public virtual string f1688() { return "C.f1688"; }
new public virtual string f1689() { return "C.f1689"; }
new public virtual string f1690() { return "C.f1690"; }
new public virtual string f1691() { return "C.f1691"; }
new public virtual string f1692() { return "C.f1692"; }
new public virtual string f1693() { return "C.f1693"; }
new public virtual string f1694() { return "C.f1694"; }
new public virtual string f1695() { return "C.f1695"; }
new public virtual string f1696() { return "C.f1696"; }
new public virtual string f1697() { return "C.f1697"; }
new public virtual string f1698() { return "C.f1698"; }
new public virtual string f1699() { return "C.f1699"; }
new public virtual string f1700() { return "C.f1700"; }
new public virtual string f1701() { return "C.f1701"; }
new public virtual string f1702() { return "C.f1702"; }
new public virtual string f1703() { return "C.f1703"; }
new public virtual string f1704() { return "C.f1704"; }
new public virtual string f1705() { return "C.f1705"; }
new public virtual string f1706() { return "C.f1706"; }
new public virtual string f1707() { return "C.f1707"; }
new public virtual string f1708() { return "C.f1708"; }
new public virtual string f1709() { return "C.f1709"; }
new public virtual string f1710() { return "C.f1710"; }
new public virtual string f1711() { return "C.f1711"; }
new public virtual string f1712() { return "C.f1712"; }
new public virtual string f1713() { return "C.f1713"; }
new public virtual string f1714() { return "C.f1714"; }
new public virtual string f1715() { return "C.f1715"; }
new public virtual string f1716() { return "C.f1716"; }
new public virtual string f1717() { return "C.f1717"; }
new public virtual string f1718() { return "C.f1718"; }
new public virtual string f1719() { return "C.f1719"; }
new public virtual string f1720() { return "C.f1720"; }
new public virtual string f1721() { return "C.f1721"; }
new public virtual string f1722() { return "C.f1722"; }
new public virtual string f1723() { return "C.f1723"; }
new public virtual string f1724() { return "C.f1724"; }
new public virtual string f1725() { return "C.f1725"; }
new public virtual string f1726() { return "C.f1726"; }
new public virtual string f1727() { return "C.f1727"; }
new public virtual string f1728() { return "C.f1728"; }
new public virtual string f1729() { return "C.f1729"; }
new public virtual string f1730() { return "C.f1730"; }
new public virtual string f1731() { return "C.f1731"; }
new public virtual string f1732() { return "C.f1732"; }
new public virtual string f1733() { return "C.f1733"; }
new public virtual string f1734() { return "C.f1734"; }
new public virtual string f1735() { return "C.f1735"; }
new public virtual string f1736() { return "C.f1736"; }
new public virtual string f1737() { return "C.f1737"; }
new public virtual string f1738() { return "C.f1738"; }
new public virtual string f1739() { return "C.f1739"; }
new public virtual string f1740() { return "C.f1740"; }
new public virtual string f1741() { return "C.f1741"; }
new public virtual string f1742() { return "C.f1742"; }
new public virtual string f1743() { return "C.f1743"; }
new public virtual string f1744() { return "C.f1744"; }
new public virtual string f1745() { return "C.f1745"; }
new public virtual string f1746() { return "C.f1746"; }
new public virtual string f1747() { return "C.f1747"; }
new public virtual string f1748() { return "C.f1748"; }
new public virtual string f1749() { return "C.f1749"; }
new public virtual string f1750() { return "C.f1750"; }
new public virtual string f1751() { return "C.f1751"; }
new public virtual string f1752() { return "C.f1752"; }
new public virtual string f1753() { return "C.f1753"; }
new public virtual string f1754() { return "C.f1754"; }
new public virtual string f1755() { return "C.f1755"; }
new public virtual string f1756() { return "C.f1756"; }
new public virtual string f1757() { return "C.f1757"; }
new public virtual string f1758() { return "C.f1758"; }
new public virtual string f1759() { return "C.f1759"; }
new public virtual string f1760() { return "C.f1760"; }
new public virtual string f1761() { return "C.f1761"; }
new public virtual string f1762() { return "C.f1762"; }
new public virtual string f1763() { return "C.f1763"; }
new public virtual string f1764() { return "C.f1764"; }
new public virtual string f1765() { return "C.f1765"; }
new public virtual string f1766() { return "C.f1766"; }
new public virtual string f1767() { return "C.f1767"; }
new public virtual string f1768() { return "C.f1768"; }
new public virtual string f1769() { return "C.f1769"; }
new public virtual string f1770() { return "C.f1770"; }
new public virtual string f1771() { return "C.f1771"; }
new public virtual string f1772() { return "C.f1772"; }
new public virtual string f1773() { return "C.f1773"; }
new public virtual string f1774() { return "C.f1774"; }
new public virtual string f1775() { return "C.f1775"; }
new public virtual string f1776() { return "C.f1776"; }
new public virtual string f1777() { return "C.f1777"; }
new public virtual string f1778() { return "C.f1778"; }
new public virtual string f1779() { return "C.f1779"; }
new public virtual string f1780() { return "C.f1780"; }
new public virtual string f1781() { return "C.f1781"; }
new public virtual string f1782() { return "C.f1782"; }
new public virtual string f1783() { return "C.f1783"; }
new public virtual string f1784() { return "C.f1784"; }
new public virtual string f1785() { return "C.f1785"; }
new public virtual string f1786() { return "C.f1786"; }
new public virtual string f1787() { return "C.f1787"; }
new public virtual string f1788() { return "C.f1788"; }
new public virtual string f1789() { return "C.f1789"; }
new public virtual string f1790() { return "C.f1790"; }
new public virtual string f1791() { return "C.f1791"; }
new public virtual string f1792() { return "C.f1792"; }
new public virtual string f1793() { return "C.f1793"; }
new public virtual string f1794() { return "C.f1794"; }
new public virtual string f1795() { return "C.f1795"; }
new public virtual string f1796() { return "C.f1796"; }
new public virtual string f1797() { return "C.f1797"; }
new public virtual string f1798() { return "C.f1798"; }
new public virtual string f1799() { return "C.f1799"; }
new public virtual string f1800() { return "C.f1800"; }
new public virtual string f1801() { return "C.f1801"; }
new public virtual string f1802() { return "C.f1802"; }
new public virtual string f1803() { return "C.f1803"; }
new public virtual string f1804() { return "C.f1804"; }
new public virtual string f1805() { return "C.f1805"; }
new public virtual string f1806() { return "C.f1806"; }
new public virtual string f1807() { return "C.f1807"; }
new public virtual string f1808() { return "C.f1808"; }
new public virtual string f1809() { return "C.f1809"; }
new public virtual string f1810() { return "C.f1810"; }
new public virtual string f1811() { return "C.f1811"; }
new public virtual string f1812() { return "C.f1812"; }
new public virtual string f1813() { return "C.f1813"; }
new public virtual string f1814() { return "C.f1814"; }
new public virtual string f1815() { return "C.f1815"; }
new public virtual string f1816() { return "C.f1816"; }
new public virtual string f1817() { return "C.f1817"; }
new public virtual string f1818() { return "C.f1818"; }
new public virtual string f1819() { return "C.f1819"; }
new public virtual string f1820() { return "C.f1820"; }
new public virtual string f1821() { return "C.f1821"; }
new public virtual string f1822() { return "C.f1822"; }
new public virtual string f1823() { return "C.f1823"; }
new public virtual string f1824() { return "C.f1824"; }
new public virtual string f1825() { return "C.f1825"; }
new public virtual string f1826() { return "C.f1826"; }
new public virtual string f1827() { return "C.f1827"; }
new public virtual string f1828() { return "C.f1828"; }
new public virtual string f1829() { return "C.f1829"; }
new public virtual string f1830() { return "C.f1830"; }
new public virtual string f1831() { return "C.f1831"; }
new public virtual string f1832() { return "C.f1832"; }
new public virtual string f1833() { return "C.f1833"; }
new public virtual string f1834() { return "C.f1834"; }
new public virtual string f1835() { return "C.f1835"; }
new public virtual string f1836() { return "C.f1836"; }
new public virtual string f1837() { return "C.f1837"; }
new public virtual string f1838() { return "C.f1838"; }
new public virtual string f1839() { return "C.f1839"; }
new public virtual string f1840() { return "C.f1840"; }
new public virtual string f1841() { return "C.f1841"; }
new public virtual string f1842() { return "C.f1842"; }
new public virtual string f1843() { return "C.f1843"; }
new public virtual string f1844() { return "C.f1844"; }
new public virtual string f1845() { return "C.f1845"; }
new public virtual string f1846() { return "C.f1846"; }
new public virtual string f1847() { return "C.f1847"; }
new public virtual string f1848() { return "C.f1848"; }
new public virtual string f1849() { return "C.f1849"; }
new public virtual string f1850() { return "C.f1850"; }
new public virtual string f1851() { return "C.f1851"; }
new public virtual string f1852() { return "C.f1852"; }
new public virtual string f1853() { return "C.f1853"; }
new public virtual string f1854() { return "C.f1854"; }
new public virtual string f1855() { return "C.f1855"; }
new public virtual string f1856() { return "C.f1856"; }
new public virtual string f1857() { return "C.f1857"; }
new public virtual string f1858() { return "C.f1858"; }
new public virtual string f1859() { return "C.f1859"; }
new public virtual string f1860() { return "C.f1860"; }
new public virtual string f1861() { return "C.f1861"; }
new public virtual string f1862() { return "C.f1862"; }
new public virtual string f1863() { return "C.f1863"; }
new public virtual string f1864() { return "C.f1864"; }
new public virtual string f1865() { return "C.f1865"; }
new public virtual string f1866() { return "C.f1866"; }
new public virtual string f1867() { return "C.f1867"; }
new public virtual string f1868() { return "C.f1868"; }
new public virtual string f1869() { return "C.f1869"; }
new public virtual string f1870() { return "C.f1870"; }
new public virtual string f1871() { return "C.f1871"; }
new public virtual string f1872() { return "C.f1872"; }
new public virtual string f1873() { return "C.f1873"; }
new public virtual string f1874() { return "C.f1874"; }
new public virtual string f1875() { return "C.f1875"; }
new public virtual string f1876() { return "C.f1876"; }
new public virtual string f1877() { return "C.f1877"; }
new public virtual string f1878() { return "C.f1878"; }
new public virtual string f1879() { return "C.f1879"; }
new public virtual string f1880() { return "C.f1880"; }
new public virtual string f1881() { return "C.f1881"; }
new public virtual string f1882() { return "C.f1882"; }
new public virtual string f1883() { return "C.f1883"; }
new public virtual string f1884() { return "C.f1884"; }
new public virtual string f1885() { return "C.f1885"; }
new public virtual string f1886() { return "C.f1886"; }
new public virtual string f1887() { return "C.f1887"; }
new public virtual string f1888() { return "C.f1888"; }
new public virtual string f1889() { return "C.f1889"; }
new public virtual string f1890() { return "C.f1890"; }
new public virtual string f1891() { return "C.f1891"; }
new public virtual string f1892() { return "C.f1892"; }
new public virtual string f1893() { return "C.f1893"; }
new public virtual string f1894() { return "C.f1894"; }
new public virtual string f1895() { return "C.f1895"; }
new public virtual string f1896() { return "C.f1896"; }
new public virtual string f1897() { return "C.f1897"; }
new public virtual string f1898() { return "C.f1898"; }
new public virtual string f1899() { return "C.f1899"; }
new public virtual string f1900() { return "C.f1900"; }
new public virtual string f1901() { return "C.f1901"; }
new public virtual string f1902() { return "C.f1902"; }
new public virtual string f1903() { return "C.f1903"; }
new public virtual string f1904() { return "C.f1904"; }
new public virtual string f1905() { return "C.f1905"; }
new public virtual string f1906() { return "C.f1906"; }
new public virtual string f1907() { return "C.f1907"; }
new public virtual string f1908() { return "C.f1908"; }
new public virtual string f1909() { return "C.f1909"; }
new public virtual string f1910() { return "C.f1910"; }
new public virtual string f1911() { return "C.f1911"; }
new public virtual string f1912() { return "C.f1912"; }
new public virtual string f1913() { return "C.f1913"; }
new public virtual string f1914() { return "C.f1914"; }
new public virtual string f1915() { return "C.f1915"; }
new public virtual string f1916() { return "C.f1916"; }
new public virtual string f1917() { return "C.f1917"; }
new public virtual string f1918() { return "C.f1918"; }
new public virtual string f1919() { return "C.f1919"; }
new public virtual string f1920() { return "C.f1920"; }
new public virtual string f1921() { return "C.f1921"; }
new public virtual string f1922() { return "C.f1922"; }
new public virtual string f1923() { return "C.f1923"; }
new public virtual string f1924() { return "C.f1924"; }
new public virtual string f1925() { return "C.f1925"; }
new public virtual string f1926() { return "C.f1926"; }
new public virtual string f1927() { return "C.f1927"; }
new public virtual string f1928() { return "C.f1928"; }
new public virtual string f1929() { return "C.f1929"; }
new public virtual string f1930() { return "C.f1930"; }
new public virtual string f1931() { return "C.f1931"; }
new public virtual string f1932() { return "C.f1932"; }
new public virtual string f1933() { return "C.f1933"; }
new public virtual string f1934() { return "C.f1934"; }
new public virtual string f1935() { return "C.f1935"; }
new public virtual string f1936() { return "C.f1936"; }
new public virtual string f1937() { return "C.f1937"; }
new public virtual string f1938() { return "C.f1938"; }
new public virtual string f1939() { return "C.f1939"; }
new public virtual string f1940() { return "C.f1940"; }
new public virtual string f1941() { return "C.f1941"; }
new public virtual string f1942() { return "C.f1942"; }
new public virtual string f1943() { return "C.f1943"; }
new public virtual string f1944() { return "C.f1944"; }
new public virtual string f1945() { return "C.f1945"; }
new public virtual string f1946() { return "C.f1946"; }
new public virtual string f1947() { return "C.f1947"; }
new public virtual string f1948() { return "C.f1948"; }
new public virtual string f1949() { return "C.f1949"; }
new public virtual string f1950() { return "C.f1950"; }
new public virtual string f1951() { return "C.f1951"; }
new public virtual string f1952() { return "C.f1952"; }
new public virtual string f1953() { return "C.f1953"; }
new public virtual string f1954() { return "C.f1954"; }
new public virtual string f1955() { return "C.f1955"; }
new public virtual string f1956() { return "C.f1956"; }
new public virtual string f1957() { return "C.f1957"; }
new public virtual string f1958() { return "C.f1958"; }
new public virtual string f1959() { return "C.f1959"; }
new public virtual string f1960() { return "C.f1960"; }
new public virtual string f1961() { return "C.f1961"; }
new public virtual string f1962() { return "C.f1962"; }
new public virtual string f1963() { return "C.f1963"; }
new public virtual string f1964() { return "C.f1964"; }
new public virtual string f1965() { return "C.f1965"; }
new public virtual string f1966() { return "C.f1966"; }
new public virtual string f1967() { return "C.f1967"; }
new public virtual string f1968() { return "C.f1968"; }
new public virtual string f1969() { return "C.f1969"; }
new public virtual string f1970() { return "C.f1970"; }
new public virtual string f1971() { return "C.f1971"; }
new public virtual string f1972() { return "C.f1972"; }
new public virtual string f1973() { return "C.f1973"; }
new public virtual string f1974() { return "C.f1974"; }
new public virtual string f1975() { return "C.f1975"; }
new public virtual string f1976() { return "C.f1976"; }
new public virtual string f1977() { return "C.f1977"; }
new public virtual string f1978() { return "C.f1978"; }
new public virtual string f1979() { return "C.f1979"; }
new public virtual string f1980() { return "C.f1980"; }
new public virtual string f1981() { return "C.f1981"; }
new public virtual string f1982() { return "C.f1982"; }
new public virtual string f1983() { return "C.f1983"; }
new public virtual string f1984() { return "C.f1984"; }
new public virtual string f1985() { return "C.f1985"; }
new public virtual string f1986() { return "C.f1986"; }
new public virtual string f1987() { return "C.f1987"; }
new public virtual string f1988() { return "C.f1988"; }
new public virtual string f1989() { return "C.f1989"; }
new public virtual string f1990() { return "C.f1990"; }
new public virtual string f1991() { return "C.f1991"; }
new public virtual string f1992() { return "C.f1992"; }
new public virtual string f1993() { return "C.f1993"; }
new public virtual string f1994() { return "C.f1994"; }
new public virtual string f1995() { return "C.f1995"; }
new public virtual string f1996() { return "C.f1996"; }
new public virtual string f1997() { return "C.f1997"; }
new public virtual string f1998() { return "C.f1998"; }
new public virtual string f1999() { return "C.f1999"; }
new public virtual string f2000() { return "C.f2000"; }
new public virtual string f2001() { return "C.f2001"; }
new public virtual string f2002() { return "C.f2002"; }
new public virtual string f2003() { return "C.f2003"; }
new public virtual string f2004() { return "C.f2004"; }
new public virtual string f2005() { return "C.f2005"; }
new public virtual string f2006() { return "C.f2006"; }
new public virtual string f2007() { return "C.f2007"; }
new public virtual string f2008() { return "C.f2008"; }
new public virtual string f2009() { return "C.f2009"; }
new public virtual string f2010() { return "C.f2010"; }
new public virtual string f2011() { return "C.f2011"; }
new public virtual string f2012() { return "C.f2012"; }
new public virtual string f2013() { return "C.f2013"; }
new public virtual string f2014() { return "C.f2014"; }
new public virtual string f2015() { return "C.f2015"; }
new public virtual string f2016() { return "C.f2016"; }
new public virtual string f2017() { return "C.f2017"; }
new public virtual string f2018() { return "C.f2018"; }
new public virtual string f2019() { return "C.f2019"; }
new public virtual string f2020() { return "C.f2020"; }
new public virtual string f2021() { return "C.f2021"; }
new public virtual string f2022() { return "C.f2022"; }
new public virtual string f2023() { return "C.f2023"; }
new public virtual string f2024() { return "C.f2024"; }
new public virtual string f2025() { return "C.f2025"; }
new public virtual string f2026() { return "C.f2026"; }
new public virtual string f2027() { return "C.f2027"; }
new public virtual string f2028() { return "C.f2028"; }
new public virtual string f2029() { return "C.f2029"; }
new public virtual string f2030() { return "C.f2030"; }
new public virtual string f2031() { return "C.f2031"; }
new public virtual string f2032() { return "C.f2032"; }
new public virtual string f2033() { return "C.f2033"; }
new public virtual string f2034() { return "C.f2034"; }
new public virtual string f2035() { return "C.f2035"; }
new public virtual string f2036() { return "C.f2036"; }
new public virtual string f2037() { return "C.f2037"; }
new public virtual string f2038() { return "C.f2038"; }
new public virtual string f2039() { return "C.f2039"; }
new public virtual string f2040() { return "C.f2040"; }
new public virtual string f2041() { return "C.f2041"; }
new public virtual string f2042() { return "C.f2042"; }
new public virtual string f2043() { return "C.f2043"; }
new public virtual string f2044() { return "C.f2044"; }
new public virtual string f2045() { return "C.f2045"; }
new public virtual string f2046() { return "C.f2046"; }
new public virtual string f2047() { return "C.f2047"; }
new public virtual string f2048() { return "C.f2048"; }
new public virtual string f2049() { return "C.f2049"; }
new public virtual string f2050() { return "C.f2050"; }
new public virtual string f2051() { return "C.f2051"; }
new public virtual string f2052() { return "C.f2052"; }
new public virtual string f2053() { return "C.f2053"; }
new public virtual string f2054() { return "C.f2054"; }
new public virtual string f2055() { return "C.f2055"; }
new public virtual string f2056() { return "C.f2056"; }
new public virtual string f2057() { return "C.f2057"; }
new public virtual string f2058() { return "C.f2058"; }
new public virtual string f2059() { return "C.f2059"; }
new public virtual string f2060() { return "C.f2060"; }
new public virtual string f2061() { return "C.f2061"; }
new public virtual string f2062() { return "C.f2062"; }
new public virtual string f2063() { return "C.f2063"; }
new public virtual string f2064() { return "C.f2064"; }
new public virtual string f2065() { return "C.f2065"; }
new public virtual string f2066() { return "C.f2066"; }
new public virtual string f2067() { return "C.f2067"; }
new public virtual string f2068() { return "C.f2068"; }
new public virtual string f2069() { return "C.f2069"; }
new public virtual string f2070() { return "C.f2070"; }
new public virtual string f2071() { return "C.f2071"; }
new public virtual string f2072() { return "C.f2072"; }
new public virtual string f2073() { return "C.f2073"; }
new public virtual string f2074() { return "C.f2074"; }
new public virtual string f2075() { return "C.f2075"; }
new public virtual string f2076() { return "C.f2076"; }
new public virtual string f2077() { return "C.f2077"; }
new public virtual string f2078() { return "C.f2078"; }
new public virtual string f2079() { return "C.f2079"; }
new public virtual string f2080() { return "C.f2080"; }
new public virtual string f2081() { return "C.f2081"; }
new public virtual string f2082() { return "C.f2082"; }
new public virtual string f2083() { return "C.f2083"; }
new public virtual string f2084() { return "C.f2084"; }
new public virtual string f2085() { return "C.f2085"; }
new public virtual string f2086() { return "C.f2086"; }
new public virtual string f2087() { return "C.f2087"; }
new public virtual string f2088() { return "C.f2088"; }
new public virtual string f2089() { return "C.f2089"; }
new public virtual string f2090() { return "C.f2090"; }
new public virtual string f2091() { return "C.f2091"; }
new public virtual string f2092() { return "C.f2092"; }
new public virtual string f2093() { return "C.f2093"; }
new public virtual string f2094() { return "C.f2094"; }
new public virtual string f2095() { return "C.f2095"; }
new public virtual string f2096() { return "C.f2096"; }
new public virtual string f2097() { return "C.f2097"; }
new public virtual string f2098() { return "C.f2098"; }
new public virtual string f2099() { return "C.f2099"; }
new public virtual string f2100() { return "C.f2100"; }
new public virtual string f2101() { return "C.f2101"; }
new public virtual string f2102() { return "C.f2102"; }
new public virtual string f2103() { return "C.f2103"; }
new public virtual string f2104() { return "C.f2104"; }
new public virtual string f2105() { return "C.f2105"; }
new public virtual string f2106() { return "C.f2106"; }
new public virtual string f2107() { return "C.f2107"; }
new public virtual string f2108() { return "C.f2108"; }
new public virtual string f2109() { return "C.f2109"; }
new public virtual string f2110() { return "C.f2110"; }
new public virtual string f2111() { return "C.f2111"; }
new public virtual string f2112() { return "C.f2112"; }
new public virtual string f2113() { return "C.f2113"; }
new public virtual string f2114() { return "C.f2114"; }
new public virtual string f2115() { return "C.f2115"; }
new public virtual string f2116() { return "C.f2116"; }
new public virtual string f2117() { return "C.f2117"; }
new public virtual string f2118() { return "C.f2118"; }
new public virtual string f2119() { return "C.f2119"; }
new public virtual string f2120() { return "C.f2120"; }
new public virtual string f2121() { return "C.f2121"; }
new public virtual string f2122() { return "C.f2122"; }
new public virtual string f2123() { return "C.f2123"; }
new public virtual string f2124() { return "C.f2124"; }
new public virtual string f2125() { return "C.f2125"; }
new public virtual string f2126() { return "C.f2126"; }
new public virtual string f2127() { return "C.f2127"; }
new public virtual string f2128() { return "C.f2128"; }
new public virtual string f2129() { return "C.f2129"; }
new public virtual string f2130() { return "C.f2130"; }
new public virtual string f2131() { return "C.f2131"; }
new public virtual string f2132() { return "C.f2132"; }
new public virtual string f2133() { return "C.f2133"; }
new public virtual string f2134() { return "C.f2134"; }
new public virtual string f2135() { return "C.f2135"; }
new public virtual string f2136() { return "C.f2136"; }
new public virtual string f2137() { return "C.f2137"; }
new public virtual string f2138() { return "C.f2138"; }
new public virtual string f2139() { return "C.f2139"; }
new public virtual string f2140() { return "C.f2140"; }
new public virtual string f2141() { return "C.f2141"; }
new public virtual string f2142() { return "C.f2142"; }
new public virtual string f2143() { return "C.f2143"; }
new public virtual string f2144() { return "C.f2144"; }
new public virtual string f2145() { return "C.f2145"; }
new public virtual string f2146() { return "C.f2146"; }
new public virtual string f2147() { return "C.f2147"; }
new public virtual string f2148() { return "C.f2148"; }
new public virtual string f2149() { return "C.f2149"; }
new public virtual string f2150() { return "C.f2150"; }
new public virtual string f2151() { return "C.f2151"; }
new public virtual string f2152() { return "C.f2152"; }
new public virtual string f2153() { return "C.f2153"; }
new public virtual string f2154() { return "C.f2154"; }
new public virtual string f2155() { return "C.f2155"; }
new public virtual string f2156() { return "C.f2156"; }
new public virtual string f2157() { return "C.f2157"; }
new public virtual string f2158() { return "C.f2158"; }
new public virtual string f2159() { return "C.f2159"; }
new public virtual string f2160() { return "C.f2160"; }
new public virtual string f2161() { return "C.f2161"; }
new public virtual string f2162() { return "C.f2162"; }
new public virtual string f2163() { return "C.f2163"; }
new public virtual string f2164() { return "C.f2164"; }
new public virtual string f2165() { return "C.f2165"; }
new public virtual string f2166() { return "C.f2166"; }
new public virtual string f2167() { return "C.f2167"; }
new public virtual string f2168() { return "C.f2168"; }
new public virtual string f2169() { return "C.f2169"; }
new public virtual string f2170() { return "C.f2170"; }
new public virtual string f2171() { return "C.f2171"; }
new public virtual string f2172() { return "C.f2172"; }
new public virtual string f2173() { return "C.f2173"; }
new public virtual string f2174() { return "C.f2174"; }
new public virtual string f2175() { return "C.f2175"; }
new public virtual string f2176() { return "C.f2176"; }
new public virtual string f2177() { return "C.f2177"; }
new public virtual string f2178() { return "C.f2178"; }
new public virtual string f2179() { return "C.f2179"; }
new public virtual string f2180() { return "C.f2180"; }
new public virtual string f2181() { return "C.f2181"; }
new public virtual string f2182() { return "C.f2182"; }
new public virtual string f2183() { return "C.f2183"; }
new public virtual string f2184() { return "C.f2184"; }
new public virtual string f2185() { return "C.f2185"; }
new public virtual string f2186() { return "C.f2186"; }
new public virtual string f2187() { return "C.f2187"; }
new public virtual string f2188() { return "C.f2188"; }
new public virtual string f2189() { return "C.f2189"; }
new public virtual string f2190() { return "C.f2190"; }
new public virtual string f2191() { return "C.f2191"; }
new public virtual string f2192() { return "C.f2192"; }
new public virtual string f2193() { return "C.f2193"; }
new public virtual string f2194() { return "C.f2194"; }
new public virtual string f2195() { return "C.f2195"; }
new public virtual string f2196() { return "C.f2196"; }
new public virtual string f2197() { return "C.f2197"; }
new public virtual string f2198() { return "C.f2198"; }
new public virtual string f2199() { return "C.f2199"; }
new public virtual string f2200() { return "C.f2200"; }
new public virtual string f2201() { return "C.f2201"; }
new public virtual string f2202() { return "C.f2202"; }
new public virtual string f2203() { return "C.f2203"; }
new public virtual string f2204() { return "C.f2204"; }
new public virtual string f2205() { return "C.f2205"; }
new public virtual string f2206() { return "C.f2206"; }
new public virtual string f2207() { return "C.f2207"; }
new public virtual string f2208() { return "C.f2208"; }
new public virtual string f2209() { return "C.f2209"; }
new public virtual string f2210() { return "C.f2210"; }
new public virtual string f2211() { return "C.f2211"; }
new public virtual string f2212() { return "C.f2212"; }
new public virtual string f2213() { return "C.f2213"; }
new public virtual string f2214() { return "C.f2214"; }
new public virtual string f2215() { return "C.f2215"; }
new public virtual string f2216() { return "C.f2216"; }
new public virtual string f2217() { return "C.f2217"; }
new public virtual string f2218() { return "C.f2218"; }
new public virtual string f2219() { return "C.f2219"; }
new public virtual string f2220() { return "C.f2220"; }
new public virtual string f2221() { return "C.f2221"; }
new public virtual string f2222() { return "C.f2222"; }
new public virtual string f2223() { return "C.f2223"; }
new public virtual string f2224() { return "C.f2224"; }
new public virtual string f2225() { return "C.f2225"; }
new public virtual string f2226() { return "C.f2226"; }
new public virtual string f2227() { return "C.f2227"; }
new public virtual string f2228() { return "C.f2228"; }
new public virtual string f2229() { return "C.f2229"; }
new public virtual string f2230() { return "C.f2230"; }
new public virtual string f2231() { return "C.f2231"; }
new public virtual string f2232() { return "C.f2232"; }
new public virtual string f2233() { return "C.f2233"; }
new public virtual string f2234() { return "C.f2234"; }
new public virtual string f2235() { return "C.f2235"; }
new public virtual string f2236() { return "C.f2236"; }
new public virtual string f2237() { return "C.f2237"; }
new public virtual string f2238() { return "C.f2238"; }
new public virtual string f2239() { return "C.f2239"; }
new public virtual string f2240() { return "C.f2240"; }
new public virtual string f2241() { return "C.f2241"; }
new public virtual string f2242() { return "C.f2242"; }
new public virtual string f2243() { return "C.f2243"; }
new public virtual string f2244() { return "C.f2244"; }
new public virtual string f2245() { return "C.f2245"; }
new public virtual string f2246() { return "C.f2246"; }
new public virtual string f2247() { return "C.f2247"; }
new public virtual string f2248() { return "C.f2248"; }
new public virtual string f2249() { return "C.f2249"; }
new public virtual string f2250() { return "C.f2250"; }
new public virtual string f2251() { return "C.f2251"; }
new public virtual string f2252() { return "C.f2252"; }
new public virtual string f2253() { return "C.f2253"; }
new public virtual string f2254() { return "C.f2254"; }
new public virtual string f2255() { return "C.f2255"; }
new public virtual string f2256() { return "C.f2256"; }
new public virtual string f2257() { return "C.f2257"; }
new public virtual string f2258() { return "C.f2258"; }
new public virtual string f2259() { return "C.f2259"; }
new public virtual string f2260() { return "C.f2260"; }
new public virtual string f2261() { return "C.f2261"; }
new public virtual string f2262() { return "C.f2262"; }
new public virtual string f2263() { return "C.f2263"; }
new public virtual string f2264() { return "C.f2264"; }
new public virtual string f2265() { return "C.f2265"; }
new public virtual string f2266() { return "C.f2266"; }
new public virtual string f2267() { return "C.f2267"; }
new public virtual string f2268() { return "C.f2268"; }
new public virtual string f2269() { return "C.f2269"; }
new public virtual string f2270() { return "C.f2270"; }
new public virtual string f2271() { return "C.f2271"; }
new public virtual string f2272() { return "C.f2272"; }
new public virtual string f2273() { return "C.f2273"; }
new public virtual string f2274() { return "C.f2274"; }
new public virtual string f2275() { return "C.f2275"; }
new public virtual string f2276() { return "C.f2276"; }
new public virtual string f2277() { return "C.f2277"; }
new public virtual string f2278() { return "C.f2278"; }
new public virtual string f2279() { return "C.f2279"; }
new public virtual string f2280() { return "C.f2280"; }
new public virtual string f2281() { return "C.f2281"; }
new public virtual string f2282() { return "C.f2282"; }
new public virtual string f2283() { return "C.f2283"; }
new public virtual string f2284() { return "C.f2284"; }
new public virtual string f2285() { return "C.f2285"; }
new public virtual string f2286() { return "C.f2286"; }
new public virtual string f2287() { return "C.f2287"; }
new public virtual string f2288() { return "C.f2288"; }
new public virtual string f2289() { return "C.f2289"; }
new public virtual string f2290() { return "C.f2290"; }
new public virtual string f2291() { return "C.f2291"; }
new public virtual string f2292() { return "C.f2292"; }
new public virtual string f2293() { return "C.f2293"; }
new public virtual string f2294() { return "C.f2294"; }
new public virtual string f2295() { return "C.f2295"; }
new public virtual string f2296() { return "C.f2296"; }
new public virtual string f2297() { return "C.f2297"; }
new public virtual string f2298() { return "C.f2298"; }
new public virtual string f2299() { return "C.f2299"; }
new public virtual string f2300() { return "C.f2300"; }
new public virtual string f2301() { return "C.f2301"; }
new public virtual string f2302() { return "C.f2302"; }
new public virtual string f2303() { return "C.f2303"; }
new public virtual string f2304() { return "C.f2304"; }
new public virtual string f2305() { return "C.f2305"; }
new public virtual string f2306() { return "C.f2306"; }
new public virtual string f2307() { return "C.f2307"; }
new public virtual string f2308() { return "C.f2308"; }
new public virtual string f2309() { return "C.f2309"; }
new public virtual string f2310() { return "C.f2310"; }
new public virtual string f2311() { return "C.f2311"; }
new public virtual string f2312() { return "C.f2312"; }
new public virtual string f2313() { return "C.f2313"; }
new public virtual string f2314() { return "C.f2314"; }
new public virtual string f2315() { return "C.f2315"; }
new public virtual string f2316() { return "C.f2316"; }
new public virtual string f2317() { return "C.f2317"; }
new public virtual string f2318() { return "C.f2318"; }
new public virtual string f2319() { return "C.f2319"; }
new public virtual string f2320() { return "C.f2320"; }
new public virtual string f2321() { return "C.f2321"; }
new public virtual string f2322() { return "C.f2322"; }
new public virtual string f2323() { return "C.f2323"; }
new public virtual string f2324() { return "C.f2324"; }
new public virtual string f2325() { return "C.f2325"; }
new public virtual string f2326() { return "C.f2326"; }
new public virtual string f2327() { return "C.f2327"; }
new public virtual string f2328() { return "C.f2328"; }
new public virtual string f2329() { return "C.f2329"; }
new public virtual string f2330() { return "C.f2330"; }
new public virtual string f2331() { return "C.f2331"; }
new public virtual string f2332() { return "C.f2332"; }
new public virtual string f2333() { return "C.f2333"; }
new public virtual string f2334() { return "C.f2334"; }
new public virtual string f2335() { return "C.f2335"; }
new public virtual string f2336() { return "C.f2336"; }
new public virtual string f2337() { return "C.f2337"; }
new public virtual string f2338() { return "C.f2338"; }
new public virtual string f2339() { return "C.f2339"; }
new public virtual string f2340() { return "C.f2340"; }
new public virtual string f2341() { return "C.f2341"; }
new public virtual string f2342() { return "C.f2342"; }
new public virtual string f2343() { return "C.f2343"; }
new public virtual string f2344() { return "C.f2344"; }
new public virtual string f2345() { return "C.f2345"; }
new public virtual string f2346() { return "C.f2346"; }
new public virtual string f2347() { return "C.f2347"; }
new public virtual string f2348() { return "C.f2348"; }
new public virtual string f2349() { return "C.f2349"; }
new public virtual string f2350() { return "C.f2350"; }
new public virtual string f2351() { return "C.f2351"; }
new public virtual string f2352() { return "C.f2352"; }
new public virtual string f2353() { return "C.f2353"; }
new public virtual string f2354() { return "C.f2354"; }
new public virtual string f2355() { return "C.f2355"; }
new public virtual string f2356() { return "C.f2356"; }
new public virtual string f2357() { return "C.f2357"; }
new public virtual string f2358() { return "C.f2358"; }
new public virtual string f2359() { return "C.f2359"; }
new public virtual string f2360() { return "C.f2360"; }
new public virtual string f2361() { return "C.f2361"; }
new public virtual string f2362() { return "C.f2362"; }
new public virtual string f2363() { return "C.f2363"; }
new public virtual string f2364() { return "C.f2364"; }
new public virtual string f2365() { return "C.f2365"; }
new public virtual string f2366() { return "C.f2366"; }
new public virtual string f2367() { return "C.f2367"; }
new public virtual string f2368() { return "C.f2368"; }
new public virtual string f2369() { return "C.f2369"; }
new public virtual string f2370() { return "C.f2370"; }
new public virtual string f2371() { return "C.f2371"; }
new public virtual string f2372() { return "C.f2372"; }
new public virtual string f2373() { return "C.f2373"; }
new public virtual string f2374() { return "C.f2374"; }
new public virtual string f2375() { return "C.f2375"; }
new public virtual string f2376() { return "C.f2376"; }
new public virtual string f2377() { return "C.f2377"; }
new public virtual string f2378() { return "C.f2378"; }
new public virtual string f2379() { return "C.f2379"; }
new public virtual string f2380() { return "C.f2380"; }
new public virtual string f2381() { return "C.f2381"; }
new public virtual string f2382() { return "C.f2382"; }
new public virtual string f2383() { return "C.f2383"; }
new public virtual string f2384() { return "C.f2384"; }
new public virtual string f2385() { return "C.f2385"; }
new public virtual string f2386() { return "C.f2386"; }
new public virtual string f2387() { return "C.f2387"; }
new public virtual string f2388() { return "C.f2388"; }
new public virtual string f2389() { return "C.f2389"; }
new public virtual string f2390() { return "C.f2390"; }
new public virtual string f2391() { return "C.f2391"; }
new public virtual string f2392() { return "C.f2392"; }
new public virtual string f2393() { return "C.f2393"; }
new public virtual string f2394() { return "C.f2394"; }
new public virtual string f2395() { return "C.f2395"; }
new public virtual string f2396() { return "C.f2396"; }
new public virtual string f2397() { return "C.f2397"; }
new public virtual string f2398() { return "C.f2398"; }
new public virtual string f2399() { return "C.f2399"; }
new public virtual string f2400() { return "C.f2400"; }
new public virtual string f2401() { return "C.f2401"; }
new public virtual string f2402() { return "C.f2402"; }
new public virtual string f2403() { return "C.f2403"; }
new public virtual string f2404() { return "C.f2404"; }
new public virtual string f2405() { return "C.f2405"; }
new public virtual string f2406() { return "C.f2406"; }
new public virtual string f2407() { return "C.f2407"; }
new public virtual string f2408() { return "C.f2408"; }
new public virtual string f2409() { return "C.f2409"; }
new public virtual string f2410() { return "C.f2410"; }
new public virtual string f2411() { return "C.f2411"; }
new public virtual string f2412() { return "C.f2412"; }
new public virtual string f2413() { return "C.f2413"; }
new public virtual string f2414() { return "C.f2414"; }
new public virtual string f2415() { return "C.f2415"; }
new public virtual string f2416() { return "C.f2416"; }
new public virtual string f2417() { return "C.f2417"; }
new public virtual string f2418() { return "C.f2418"; }
new public virtual string f2419() { return "C.f2419"; }
new public virtual string f2420() { return "C.f2420"; }
new public virtual string f2421() { return "C.f2421"; }
new public virtual string f2422() { return "C.f2422"; }
new public virtual string f2423() { return "C.f2423"; }
new public virtual string f2424() { return "C.f2424"; }
new public virtual string f2425() { return "C.f2425"; }
new public virtual string f2426() { return "C.f2426"; }
new public virtual string f2427() { return "C.f2427"; }
new public virtual string f2428() { return "C.f2428"; }
new public virtual string f2429() { return "C.f2429"; }
new public virtual string f2430() { return "C.f2430"; }
new public virtual string f2431() { return "C.f2431"; }
new public virtual string f2432() { return "C.f2432"; }
new public virtual string f2433() { return "C.f2433"; }
new public virtual string f2434() { return "C.f2434"; }
new public virtual string f2435() { return "C.f2435"; }
new public virtual string f2436() { return "C.f2436"; }
new public virtual string f2437() { return "C.f2437"; }
new public virtual string f2438() { return "C.f2438"; }
new public virtual string f2439() { return "C.f2439"; }
new public virtual string f2440() { return "C.f2440"; }
new public virtual string f2441() { return "C.f2441"; }
new public virtual string f2442() { return "C.f2442"; }
new public virtual string f2443() { return "C.f2443"; }
new public virtual string f2444() { return "C.f2444"; }
new public virtual string f2445() { return "C.f2445"; }
new public virtual string f2446() { return "C.f2446"; }
new public virtual string f2447() { return "C.f2447"; }
new public virtual string f2448() { return "C.f2448"; }
new public virtual string f2449() { return "C.f2449"; }
new public virtual string f2450() { return "C.f2450"; }
new public virtual string f2451() { return "C.f2451"; }
new public virtual string f2452() { return "C.f2452"; }
new public virtual string f2453() { return "C.f2453"; }
new public virtual string f2454() { return "C.f2454"; }
new public virtual string f2455() { return "C.f2455"; }
new public virtual string f2456() { return "C.f2456"; }
new public virtual string f2457() { return "C.f2457"; }
new public virtual string f2458() { return "C.f2458"; }
new public virtual string f2459() { return "C.f2459"; }
new public virtual string f2460() { return "C.f2460"; }
new public virtual string f2461() { return "C.f2461"; }
new public virtual string f2462() { return "C.f2462"; }
new public virtual string f2463() { return "C.f2463"; }
new public virtual string f2464() { return "C.f2464"; }
new public virtual string f2465() { return "C.f2465"; }
new public virtual string f2466() { return "C.f2466"; }
new public virtual string f2467() { return "C.f2467"; }
new public virtual string f2468() { return "C.f2468"; }
new public virtual string f2469() { return "C.f2469"; }
new public virtual string f2470() { return "C.f2470"; }
new public virtual string f2471() { return "C.f2471"; }
new public virtual string f2472() { return "C.f2472"; }
new public virtual string f2473() { return "C.f2473"; }
new public virtual string f2474() { return "C.f2474"; }
new public virtual string f2475() { return "C.f2475"; }
new public virtual string f2476() { return "C.f2476"; }
new public virtual string f2477() { return "C.f2477"; }
new public virtual string f2478() { return "C.f2478"; }
new public virtual string f2479() { return "C.f2479"; }
new public virtual string f2480() { return "C.f2480"; }
new public virtual string f2481() { return "C.f2481"; }
new public virtual string f2482() { return "C.f2482"; }
new public virtual string f2483() { return "C.f2483"; }
new public virtual string f2484() { return "C.f2484"; }
new public virtual string f2485() { return "C.f2485"; }
new public virtual string f2486() { return "C.f2486"; }
new public virtual string f2487() { return "C.f2487"; }
new public virtual string f2488() { return "C.f2488"; }
new public virtual string f2489() { return "C.f2489"; }
new public virtual string f2490() { return "C.f2490"; }
new public virtual string f2491() { return "C.f2491"; }
new public virtual string f2492() { return "C.f2492"; }
new public virtual string f2493() { return "C.f2493"; }
new public virtual string f2494() { return "C.f2494"; }
new public virtual string f2495() { return "C.f2495"; }
new public virtual string f2496() { return "C.f2496"; }
new public virtual string f2497() { return "C.f2497"; }
new public virtual string f2498() { return "C.f2498"; }
new public virtual string f2499() { return "C.f2499"; }
new public virtual string f2500() { return "C.f2500"; }
new public virtual string f2501() { return "C.f2501"; }
new public virtual string f2502() { return "C.f2502"; }
new public virtual string f2503() { return "C.f2503"; }
new public virtual string f2504() { return "C.f2504"; }
new public virtual string f2505() { return "C.f2505"; }
new public virtual string f2506() { return "C.f2506"; }
new public virtual string f2507() { return "C.f2507"; }
new public virtual string f2508() { return "C.f2508"; }
new public virtual string f2509() { return "C.f2509"; }
new public virtual string f2510() { return "C.f2510"; }
new public virtual string f2511() { return "C.f2511"; }
new public virtual string f2512() { return "C.f2512"; }
new public virtual string f2513() { return "C.f2513"; }
new public virtual string f2514() { return "C.f2514"; }
new public virtual string f2515() { return "C.f2515"; }
new public virtual string f2516() { return "C.f2516"; }
new public virtual string f2517() { return "C.f2517"; }
new public virtual string f2518() { return "C.f2518"; }
new public virtual string f2519() { return "C.f2519"; }
new public virtual string f2520() { return "C.f2520"; }
new public virtual string f2521() { return "C.f2521"; }
new public virtual string f2522() { return "C.f2522"; }
new public virtual string f2523() { return "C.f2523"; }
new public virtual string f2524() { return "C.f2524"; }
new public virtual string f2525() { return "C.f2525"; }
new public virtual string f2526() { return "C.f2526"; }
new public virtual string f2527() { return "C.f2527"; }
new public virtual string f2528() { return "C.f2528"; }
new public virtual string f2529() { return "C.f2529"; }
new public virtual string f2530() { return "C.f2530"; }
new public virtual string f2531() { return "C.f2531"; }
new public virtual string f2532() { return "C.f2532"; }
new public virtual string f2533() { return "C.f2533"; }
new public virtual string f2534() { return "C.f2534"; }
new public virtual string f2535() { return "C.f2535"; }
new public virtual string f2536() { return "C.f2536"; }
new public virtual string f2537() { return "C.f2537"; }
new public virtual string f2538() { return "C.f2538"; }
new public virtual string f2539() { return "C.f2539"; }
new public virtual string f2540() { return "C.f2540"; }
new public virtual string f2541() { return "C.f2541"; }
new public virtual string f2542() { return "C.f2542"; }
new public virtual string f2543() { return "C.f2543"; }
new public virtual string f2544() { return "C.f2544"; }
new public virtual string f2545() { return "C.f2545"; }
new public virtual string f2546() { return "C.f2546"; }
new public virtual string f2547() { return "C.f2547"; }
new public virtual string f2548() { return "C.f2548"; }
new public virtual string f2549() { return "C.f2549"; }
new public virtual string f2550() { return "C.f2550"; }
new public virtual string f2551() { return "C.f2551"; }
new public virtual string f2552() { return "C.f2552"; }
new public virtual string f2553() { return "C.f2553"; }
new public virtual string f2554() { return "C.f2554"; }
new public virtual string f2555() { return "C.f2555"; }
new public virtual string f2556() { return "C.f2556"; }
new public virtual string f2557() { return "C.f2557"; }
new public virtual string f2558() { return "C.f2558"; }
new public virtual string f2559() { return "C.f2559"; }
new public virtual string f2560() { return "C.f2560"; }
new public virtual string f2561() { return "C.f2561"; }
new public virtual string f2562() { return "C.f2562"; }
new public virtual string f2563() { return "C.f2563"; }
new public virtual string f2564() { return "C.f2564"; }
new public virtual string f2565() { return "C.f2565"; }
new public virtual string f2566() { return "C.f2566"; }
new public virtual string f2567() { return "C.f2567"; }
new public virtual string f2568() { return "C.f2568"; }
new public virtual string f2569() { return "C.f2569"; }
new public virtual string f2570() { return "C.f2570"; }
new public virtual string f2571() { return "C.f2571"; }
new public virtual string f2572() { return "C.f2572"; }
new public virtual string f2573() { return "C.f2573"; }
new public virtual string f2574() { return "C.f2574"; }
new public virtual string f2575() { return "C.f2575"; }
new public virtual string f2576() { return "C.f2576"; }
new public virtual string f2577() { return "C.f2577"; }
new public virtual string f2578() { return "C.f2578"; }
new public virtual string f2579() { return "C.f2579"; }
new public virtual string f2580() { return "C.f2580"; }
new public virtual string f2581() { return "C.f2581"; }
new public virtual string f2582() { return "C.f2582"; }
new public virtual string f2583() { return "C.f2583"; }
new public virtual string f2584() { return "C.f2584"; }
new public virtual string f2585() { return "C.f2585"; }
new public virtual string f2586() { return "C.f2586"; }
new public virtual string f2587() { return "C.f2587"; }
new public virtual string f2588() { return "C.f2588"; }
new public virtual string f2589() { return "C.f2589"; }
new public virtual string f2590() { return "C.f2590"; }
new public virtual string f2591() { return "C.f2591"; }
new public virtual string f2592() { return "C.f2592"; }
new public virtual string f2593() { return "C.f2593"; }
new public virtual string f2594() { return "C.f2594"; }
new public virtual string f2595() { return "C.f2595"; }
new public virtual string f2596() { return "C.f2596"; }
new public virtual string f2597() { return "C.f2597"; }
new public virtual string f2598() { return "C.f2598"; }
new public virtual string f2599() { return "C.f2599"; }
new public virtual string f2600() { return "C.f2600"; }
new public virtual string f2601() { return "C.f2601"; }
new public virtual string f2602() { return "C.f2602"; }
new public virtual string f2603() { return "C.f2603"; }
new public virtual string f2604() { return "C.f2604"; }
new public virtual string f2605() { return "C.f2605"; }
new public virtual string f2606() { return "C.f2606"; }
new public virtual string f2607() { return "C.f2607"; }
new public virtual string f2608() { return "C.f2608"; }
new public virtual string f2609() { return "C.f2609"; }
new public virtual string f2610() { return "C.f2610"; }
new public virtual string f2611() { return "C.f2611"; }
new public virtual string f2612() { return "C.f2612"; }
new public virtual string f2613() { return "C.f2613"; }
new public virtual string f2614() { return "C.f2614"; }
new public virtual string f2615() { return "C.f2615"; }
new public virtual string f2616() { return "C.f2616"; }
new public virtual string f2617() { return "C.f2617"; }
new public virtual string f2618() { return "C.f2618"; }
new public virtual string f2619() { return "C.f2619"; }
new public virtual string f2620() { return "C.f2620"; }
new public virtual string f2621() { return "C.f2621"; }
new public virtual string f2622() { return "C.f2622"; }
new public virtual string f2623() { return "C.f2623"; }
new public virtual string f2624() { return "C.f2624"; }
new public virtual string f2625() { return "C.f2625"; }
new public virtual string f2626() { return "C.f2626"; }
new public virtual string f2627() { return "C.f2627"; }
new public virtual string f2628() { return "C.f2628"; }
new public virtual string f2629() { return "C.f2629"; }
new public virtual string f2630() { return "C.f2630"; }
new public virtual string f2631() { return "C.f2631"; }
new public virtual string f2632() { return "C.f2632"; }
new public virtual string f2633() { return "C.f2633"; }
new public virtual string f2634() { return "C.f2634"; }
new public virtual string f2635() { return "C.f2635"; }
new public virtual string f2636() { return "C.f2636"; }
new public virtual string f2637() { return "C.f2637"; }
new public virtual string f2638() { return "C.f2638"; }
new public virtual string f2639() { return "C.f2639"; }
new public virtual string f2640() { return "C.f2640"; }
new public virtual string f2641() { return "C.f2641"; }
new public virtual string f2642() { return "C.f2642"; }
new public virtual string f2643() { return "C.f2643"; }
new public virtual string f2644() { return "C.f2644"; }
new public virtual string f2645() { return "C.f2645"; }
new public virtual string f2646() { return "C.f2646"; }
new public virtual string f2647() { return "C.f2647"; }
new public virtual string f2648() { return "C.f2648"; }
new public virtual string f2649() { return "C.f2649"; }
new public virtual string f2650() { return "C.f2650"; }
new public virtual string f2651() { return "C.f2651"; }
new public virtual string f2652() { return "C.f2652"; }
new public virtual string f2653() { return "C.f2653"; }
new public virtual string f2654() { return "C.f2654"; }
new public virtual string f2655() { return "C.f2655"; }
new public virtual string f2656() { return "C.f2656"; }
new public virtual string f2657() { return "C.f2657"; }
new public virtual string f2658() { return "C.f2658"; }
new public virtual string f2659() { return "C.f2659"; }
new public virtual string f2660() { return "C.f2660"; }
new public virtual string f2661() { return "C.f2661"; }
new public virtual string f2662() { return "C.f2662"; }
new public virtual string f2663() { return "C.f2663"; }
new public virtual string f2664() { return "C.f2664"; }
new public virtual string f2665() { return "C.f2665"; }
new public virtual string f2666() { return "C.f2666"; }
new public virtual string f2667() { return "C.f2667"; }
new public virtual string f2668() { return "C.f2668"; }
new public virtual string f2669() { return "C.f2669"; }
new public virtual string f2670() { return "C.f2670"; }
new public virtual string f2671() { return "C.f2671"; }
new public virtual string f2672() { return "C.f2672"; }
new public virtual string f2673() { return "C.f2673"; }
new public virtual string f2674() { return "C.f2674"; }
new public virtual string f2675() { return "C.f2675"; }
new public virtual string f2676() { return "C.f2676"; }
new public virtual string f2677() { return "C.f2677"; }
new public virtual string f2678() { return "C.f2678"; }
new public virtual string f2679() { return "C.f2679"; }
new public virtual string f2680() { return "C.f2680"; }
new public virtual string f2681() { return "C.f2681"; }
new public virtual string f2682() { return "C.f2682"; }
new public virtual string f2683() { return "C.f2683"; }
new public virtual string f2684() { return "C.f2684"; }
new public virtual string f2685() { return "C.f2685"; }
new public virtual string f2686() { return "C.f2686"; }
new public virtual string f2687() { return "C.f2687"; }
new public virtual string f2688() { return "C.f2688"; }
new public virtual string f2689() { return "C.f2689"; }
new public virtual string f2690() { return "C.f2690"; }
new public virtual string f2691() { return "C.f2691"; }
new public virtual string f2692() { return "C.f2692"; }
new public virtual string f2693() { return "C.f2693"; }
new public virtual string f2694() { return "C.f2694"; }
new public virtual string f2695() { return "C.f2695"; }
new public virtual string f2696() { return "C.f2696"; }
new public virtual string f2697() { return "C.f2697"; }
new public virtual string f2698() { return "C.f2698"; }
new public virtual string f2699() { return "C.f2699"; }
new public virtual string f2700() { return "C.f2700"; }
new public virtual string f2701() { return "C.f2701"; }
new public virtual string f2702() { return "C.f2702"; }
new public virtual string f2703() { return "C.f2703"; }
new public virtual string f2704() { return "C.f2704"; }
new public virtual string f2705() { return "C.f2705"; }
new public virtual string f2706() { return "C.f2706"; }
new public virtual string f2707() { return "C.f2707"; }
new public virtual string f2708() { return "C.f2708"; }
new public virtual string f2709() { return "C.f2709"; }
new public virtual string f2710() { return "C.f2710"; }
new public virtual string f2711() { return "C.f2711"; }
new public virtual string f2712() { return "C.f2712"; }
new public virtual string f2713() { return "C.f2713"; }
new public virtual string f2714() { return "C.f2714"; }
new public virtual string f2715() { return "C.f2715"; }
new public virtual string f2716() { return "C.f2716"; }
new public virtual string f2717() { return "C.f2717"; }
new public virtual string f2718() { return "C.f2718"; }
new public virtual string f2719() { return "C.f2719"; }
new public virtual string f2720() { return "C.f2720"; }
new public virtual string f2721() { return "C.f2721"; }
new public virtual string f2722() { return "C.f2722"; }
new public virtual string f2723() { return "C.f2723"; }
new public virtual string f2724() { return "C.f2724"; }
new public virtual string f2725() { return "C.f2725"; }
new public virtual string f2726() { return "C.f2726"; }
new public virtual string f2727() { return "C.f2727"; }
new public virtual string f2728() { return "C.f2728"; }
new public virtual string f2729() { return "C.f2729"; }
new public virtual string f2730() { return "C.f2730"; }
new public virtual string f2731() { return "C.f2731"; }
new public virtual string f2732() { return "C.f2732"; }
new public virtual string f2733() { return "C.f2733"; }
new public virtual string f2734() { return "C.f2734"; }
new public virtual string f2735() { return "C.f2735"; }
new public virtual string f2736() { return "C.f2736"; }
new public virtual string f2737() { return "C.f2737"; }
new public virtual string f2738() { return "C.f2738"; }
new public virtual string f2739() { return "C.f2739"; }
new public virtual string f2740() { return "C.f2740"; }
new public virtual string f2741() { return "C.f2741"; }
new public virtual string f2742() { return "C.f2742"; }
new public virtual string f2743() { return "C.f2743"; }
new public virtual string f2744() { return "C.f2744"; }
new public virtual string f2745() { return "C.f2745"; }
new public virtual string f2746() { return "C.f2746"; }
new public virtual string f2747() { return "C.f2747"; }
new public virtual string f2748() { return "C.f2748"; }
new public virtual string f2749() { return "C.f2749"; }
new public virtual string f2750() { return "C.f2750"; }
new public virtual string f2751() { return "C.f2751"; }
new public virtual string f2752() { return "C.f2752"; }
new public virtual string f2753() { return "C.f2753"; }
new public virtual string f2754() { return "C.f2754"; }
new public virtual string f2755() { return "C.f2755"; }
new public virtual string f2756() { return "C.f2756"; }
new public virtual string f2757() { return "C.f2757"; }
new public virtual string f2758() { return "C.f2758"; }
new public virtual string f2759() { return "C.f2759"; }
new public virtual string f2760() { return "C.f2760"; }
new public virtual string f2761() { return "C.f2761"; }
new public virtual string f2762() { return "C.f2762"; }
new public virtual string f2763() { return "C.f2763"; }
new public virtual string f2764() { return "C.f2764"; }
new public virtual string f2765() { return "C.f2765"; }
new public virtual string f2766() { return "C.f2766"; }
new public virtual string f2767() { return "C.f2767"; }
new public virtual string f2768() { return "C.f2768"; }
new public virtual string f2769() { return "C.f2769"; }
new public virtual string f2770() { return "C.f2770"; }
new public virtual string f2771() { return "C.f2771"; }
new public virtual string f2772() { return "C.f2772"; }
new public virtual string f2773() { return "C.f2773"; }
new public virtual string f2774() { return "C.f2774"; }
new public virtual string f2775() { return "C.f2775"; }
new public virtual string f2776() { return "C.f2776"; }
new public virtual string f2777() { return "C.f2777"; }
new public virtual string f2778() { return "C.f2778"; }
new public virtual string f2779() { return "C.f2779"; }
new public virtual string f2780() { return "C.f2780"; }
new public virtual string f2781() { return "C.f2781"; }
new public virtual string f2782() { return "C.f2782"; }
new public virtual string f2783() { return "C.f2783"; }
new public virtual string f2784() { return "C.f2784"; }
new public virtual string f2785() { return "C.f2785"; }
new public virtual string f2786() { return "C.f2786"; }
new public virtual string f2787() { return "C.f2787"; }
new public virtual string f2788() { return "C.f2788"; }
new public virtual string f2789() { return "C.f2789"; }
new public virtual string f2790() { return "C.f2790"; }
new public virtual string f2791() { return "C.f2791"; }
new public virtual string f2792() { return "C.f2792"; }
new public virtual string f2793() { return "C.f2793"; }
new public virtual string f2794() { return "C.f2794"; }
new public virtual string f2795() { return "C.f2795"; }
new public virtual string f2796() { return "C.f2796"; }
new public virtual string f2797() { return "C.f2797"; }
new public virtual string f2798() { return "C.f2798"; }
new public virtual string f2799() { return "C.f2799"; }
new public virtual string f2800() { return "C.f2800"; }
new public virtual string f2801() { return "C.f2801"; }
new public virtual string f2802() { return "C.f2802"; }
new public virtual string f2803() { return "C.f2803"; }
new public virtual string f2804() { return "C.f2804"; }
new public virtual string f2805() { return "C.f2805"; }
new public virtual string f2806() { return "C.f2806"; }
new public virtual string f2807() { return "C.f2807"; }
new public virtual string f2808() { return "C.f2808"; }
new public virtual string f2809() { return "C.f2809"; }
new public virtual string f2810() { return "C.f2810"; }
new public virtual string f2811() { return "C.f2811"; }
new public virtual string f2812() { return "C.f2812"; }
new public virtual string f2813() { return "C.f2813"; }
new public virtual string f2814() { return "C.f2814"; }
new public virtual string f2815() { return "C.f2815"; }
new public virtual string f2816() { return "C.f2816"; }
new public virtual string f2817() { return "C.f2817"; }
new public virtual string f2818() { return "C.f2818"; }
new public virtual string f2819() { return "C.f2819"; }
new public virtual string f2820() { return "C.f2820"; }
new public virtual string f2821() { return "C.f2821"; }
new public virtual string f2822() { return "C.f2822"; }
new public virtual string f2823() { return "C.f2823"; }
new public virtual string f2824() { return "C.f2824"; }
new public virtual string f2825() { return "C.f2825"; }
new public virtual string f2826() { return "C.f2826"; }
new public virtual string f2827() { return "C.f2827"; }
new public virtual string f2828() { return "C.f2828"; }
new public virtual string f2829() { return "C.f2829"; }
new public virtual string f2830() { return "C.f2830"; }
new public virtual string f2831() { return "C.f2831"; }
new public virtual string f2832() { return "C.f2832"; }
new public virtual string f2833() { return "C.f2833"; }
new public virtual string f2834() { return "C.f2834"; }
new public virtual string f2835() { return "C.f2835"; }
new public virtual string f2836() { return "C.f2836"; }
new public virtual string f2837() { return "C.f2837"; }
new public virtual string f2838() { return "C.f2838"; }
new public virtual string f2839() { return "C.f2839"; }
new public virtual string f2840() { return "C.f2840"; }
new public virtual string f2841() { return "C.f2841"; }
new public virtual string f2842() { return "C.f2842"; }
new public virtual string f2843() { return "C.f2843"; }
new public virtual string f2844() { return "C.f2844"; }
new public virtual string f2845() { return "C.f2845"; }
new public virtual string f2846() { return "C.f2846"; }
new public virtual string f2847() { return "C.f2847"; }
new public virtual string f2848() { return "C.f2848"; }
new public virtual string f2849() { return "C.f2849"; }
new public virtual string f2850() { return "C.f2850"; }
new public virtual string f2851() { return "C.f2851"; }
new public virtual string f2852() { return "C.f2852"; }
new public virtual string f2853() { return "C.f2853"; }
new public virtual string f2854() { return "C.f2854"; }
new public virtual string f2855() { return "C.f2855"; }
new public virtual string f2856() { return "C.f2856"; }
new public virtual string f2857() { return "C.f2857"; }
new public virtual string f2858() { return "C.f2858"; }
new public virtual string f2859() { return "C.f2859"; }
new public virtual string f2860() { return "C.f2860"; }
new public virtual string f2861() { return "C.f2861"; }
new public virtual string f2862() { return "C.f2862"; }
new public virtual string f2863() { return "C.f2863"; }
new public virtual string f2864() { return "C.f2864"; }
new public virtual string f2865() { return "C.f2865"; }
new public virtual string f2866() { return "C.f2866"; }
new public virtual string f2867() { return "C.f2867"; }
new public virtual string f2868() { return "C.f2868"; }
new public virtual string f2869() { return "C.f2869"; }
new public virtual string f2870() { return "C.f2870"; }
new public virtual string f2871() { return "C.f2871"; }
new public virtual string f2872() { return "C.f2872"; }
new public virtual string f2873() { return "C.f2873"; }
new public virtual string f2874() { return "C.f2874"; }
new public virtual string f2875() { return "C.f2875"; }
new public virtual string f2876() { return "C.f2876"; }
new public virtual string f2877() { return "C.f2877"; }
new public virtual string f2878() { return "C.f2878"; }
new public virtual string f2879() { return "C.f2879"; }
new public virtual string f2880() { return "C.f2880"; }
new public virtual string f2881() { return "C.f2881"; }
new public virtual string f2882() { return "C.f2882"; }
new public virtual string f2883() { return "C.f2883"; }
new public virtual string f2884() { return "C.f2884"; }
new public virtual string f2885() { return "C.f2885"; }
new public virtual string f2886() { return "C.f2886"; }
new public virtual string f2887() { return "C.f2887"; }
new public virtual string f2888() { return "C.f2888"; }
new public virtual string f2889() { return "C.f2889"; }
new public virtual string f2890() { return "C.f2890"; }
new public virtual string f2891() { return "C.f2891"; }
new public virtual string f2892() { return "C.f2892"; }
new public virtual string f2893() { return "C.f2893"; }
new public virtual string f2894() { return "C.f2894"; }
new public virtual string f2895() { return "C.f2895"; }
new public virtual string f2896() { return "C.f2896"; }
new public virtual string f2897() { return "C.f2897"; }
new public virtual string f2898() { return "C.f2898"; }
new public virtual string f2899() { return "C.f2899"; }
new public virtual string f2900() { return "C.f2900"; }
new public virtual string f2901() { return "C.f2901"; }
new public virtual string f2902() { return "C.f2902"; }
new public virtual string f2903() { return "C.f2903"; }
new public virtual string f2904() { return "C.f2904"; }
new public virtual string f2905() { return "C.f2905"; }
new public virtual string f2906() { return "C.f2906"; }
new public virtual string f2907() { return "C.f2907"; }
new public virtual string f2908() { return "C.f2908"; }
new public virtual string f2909() { return "C.f2909"; }
new public virtual string f2910() { return "C.f2910"; }
new public virtual string f2911() { return "C.f2911"; }
new public virtual string f2912() { return "C.f2912"; }
new public virtual string f2913() { return "C.f2913"; }
new public virtual string f2914() { return "C.f2914"; }
new public virtual string f2915() { return "C.f2915"; }
new public virtual string f2916() { return "C.f2916"; }
new public virtual string f2917() { return "C.f2917"; }
new public virtual string f2918() { return "C.f2918"; }
new public virtual string f2919() { return "C.f2919"; }
new public virtual string f2920() { return "C.f2920"; }
new public virtual string f2921() { return "C.f2921"; }
new public virtual string f2922() { return "C.f2922"; }
new public virtual string f2923() { return "C.f2923"; }
new public virtual string f2924() { return "C.f2924"; }
new public virtual string f2925() { return "C.f2925"; }
new public virtual string f2926() { return "C.f2926"; }
new public virtual string f2927() { return "C.f2927"; }
new public virtual string f2928() { return "C.f2928"; }
new public virtual string f2929() { return "C.f2929"; }
new public virtual string f2930() { return "C.f2930"; }
new public virtual string f2931() { return "C.f2931"; }
new public virtual string f2932() { return "C.f2932"; }
new public virtual string f2933() { return "C.f2933"; }
new public virtual string f2934() { return "C.f2934"; }
new public virtual string f2935() { return "C.f2935"; }
new public virtual string f2936() { return "C.f2936"; }
new public virtual string f2937() { return "C.f2937"; }
new public virtual string f2938() { return "C.f2938"; }
new public virtual string f2939() { return "C.f2939"; }
new public virtual string f2940() { return "C.f2940"; }
new public virtual string f2941() { return "C.f2941"; }
new public virtual string f2942() { return "C.f2942"; }
new public virtual string f2943() { return "C.f2943"; }
new public virtual string f2944() { return "C.f2944"; }
new public virtual string f2945() { return "C.f2945"; }
new public virtual string f2946() { return "C.f2946"; }
new public virtual string f2947() { return "C.f2947"; }
new public virtual string f2948() { return "C.f2948"; }
new public virtual string f2949() { return "C.f2949"; }
new public virtual string f2950() { return "C.f2950"; }
new public virtual string f2951() { return "C.f2951"; }
new public virtual string f2952() { return "C.f2952"; }
new public virtual string f2953() { return "C.f2953"; }
new public virtual string f2954() { return "C.f2954"; }
new public virtual string f2955() { return "C.f2955"; }
new public virtual string f2956() { return "C.f2956"; }
new public virtual string f2957() { return "C.f2957"; }
new public virtual string f2958() { return "C.f2958"; }
new public virtual string f2959() { return "C.f2959"; }
new public virtual string f2960() { return "C.f2960"; }
new public virtual string f2961() { return "C.f2961"; }
new public virtual string f2962() { return "C.f2962"; }
new public virtual string f2963() { return "C.f2963"; }
new public virtual string f2964() { return "C.f2964"; }
new public virtual string f2965() { return "C.f2965"; }
new public virtual string f2966() { return "C.f2966"; }
new public virtual string f2967() { return "C.f2967"; }
new public virtual string f2968() { return "C.f2968"; }
new public virtual string f2969() { return "C.f2969"; }
new public virtual string f2970() { return "C.f2970"; }
new public virtual string f2971() { return "C.f2971"; }
new public virtual string f2972() { return "C.f2972"; }
new public virtual string f2973() { return "C.f2973"; }
new public virtual string f2974() { return "C.f2974"; }
new public virtual string f2975() { return "C.f2975"; }
new public virtual string f2976() { return "C.f2976"; }
new public virtual string f2977() { return "C.f2977"; }
new public virtual string f2978() { return "C.f2978"; }
new public virtual string f2979() { return "C.f2979"; }
new public virtual string f2980() { return "C.f2980"; }
new public virtual string f2981() { return "C.f2981"; }
new public virtual string f2982() { return "C.f2982"; }
new public virtual string f2983() { return "C.f2983"; }
new public virtual string f2984() { return "C.f2984"; }
new public virtual string f2985() { return "C.f2985"; }
new public virtual string f2986() { return "C.f2986"; }
new public virtual string f2987() { return "C.f2987"; }
new public virtual string f2988() { return "C.f2988"; }
new public virtual string f2989() { return "C.f2989"; }
new public virtual string f2990() { return "C.f2990"; }
new public virtual string f2991() { return "C.f2991"; }
new public virtual string f2992() { return "C.f2992"; }
new public virtual string f2993() { return "C.f2993"; }
new public virtual string f2994() { return "C.f2994"; }
new public virtual string f2995() { return "C.f2995"; }
new public virtual string f2996() { return "C.f2996"; }
new public virtual string f2997() { return "C.f2997"; }
new public virtual string f2998() { return "C.f2998"; }
new public virtual string f2999() { return "C.f2999"; }
}
internal class D : C
{
public override string f1() { return "D.f1"; }
public override string f2() { return "D.f2"; }
public override string f3() { return "D.f3"; }
public override string f4() { return "D.f4"; }
public override string f5() { return "D.f5"; }
public override string f6() { return "D.f6"; }
public override string f7() { return "D.f7"; }
public override string f8() { return "D.f8"; }
public override string f9() { return "D.f9"; }
public override string f10() { return "D.f10"; }
public override string f11() { return "D.f11"; }
public override string f12() { return "D.f12"; }
public override string f13() { return "D.f13"; }
public override string f14() { return "D.f14"; }
public override string f15() { return "D.f15"; }
public override string f16() { return "D.f16"; }
public override string f17() { return "D.f17"; }
public override string f18() { return "D.f18"; }
public override string f19() { return "D.f19"; }
public override string f20() { return "D.f20"; }
public override string f21() { return "D.f21"; }
public override string f22() { return "D.f22"; }
public override string f23() { return "D.f23"; }
public override string f24() { return "D.f24"; }
public override string f25() { return "D.f25"; }
public override string f26() { return "D.f26"; }
public override string f27() { return "D.f27"; }
public override string f28() { return "D.f28"; }
public override string f29() { return "D.f29"; }
public override string f30() { return "D.f30"; }
public override string f31() { return "D.f31"; }
public override string f32() { return "D.f32"; }
public override string f33() { return "D.f33"; }
public override string f34() { return "D.f34"; }
public override string f35() { return "D.f35"; }
public override string f36() { return "D.f36"; }
public override string f37() { return "D.f37"; }
public override string f38() { return "D.f38"; }
public override string f39() { return "D.f39"; }
public override string f40() { return "D.f40"; }
public override string f41() { return "D.f41"; }
public override string f42() { return "D.f42"; }
public override string f43() { return "D.f43"; }
public override string f44() { return "D.f44"; }
public override string f45() { return "D.f45"; }
public override string f46() { return "D.f46"; }
public override string f47() { return "D.f47"; }
public override string f48() { return "D.f48"; }
public override string f49() { return "D.f49"; }
public override string f50() { return "D.f50"; }
public override string f51() { return "D.f51"; }
public override string f52() { return "D.f52"; }
public override string f53() { return "D.f53"; }
public override string f54() { return "D.f54"; }
public override string f55() { return "D.f55"; }
public override string f56() { return "D.f56"; }
public override string f57() { return "D.f57"; }
public override string f58() { return "D.f58"; }
public override string f59() { return "D.f59"; }
public override string f60() { return "D.f60"; }
public override string f61() { return "D.f61"; }
public override string f62() { return "D.f62"; }
public override string f63() { return "D.f63"; }
public override string f64() { return "D.f64"; }
public override string f65() { return "D.f65"; }
public override string f66() { return "D.f66"; }
public override string f67() { return "D.f67"; }
public override string f68() { return "D.f68"; }
public override string f69() { return "D.f69"; }
public override string f70() { return "D.f70"; }
public override string f71() { return "D.f71"; }
public override string f72() { return "D.f72"; }
public override string f73() { return "D.f73"; }
public override string f74() { return "D.f74"; }
public override string f75() { return "D.f75"; }
public override string f76() { return "D.f76"; }
public override string f77() { return "D.f77"; }
public override string f78() { return "D.f78"; }
public override string f79() { return "D.f79"; }
public override string f80() { return "D.f80"; }
public override string f81() { return "D.f81"; }
public override string f82() { return "D.f82"; }
public override string f83() { return "D.f83"; }
public override string f84() { return "D.f84"; }
public override string f85() { return "D.f85"; }
public override string f86() { return "D.f86"; }
public override string f87() { return "D.f87"; }
public override string f88() { return "D.f88"; }
public override string f89() { return "D.f89"; }
public override string f90() { return "D.f90"; }
public override string f91() { return "D.f91"; }
public override string f92() { return "D.f92"; }
public override string f93() { return "D.f93"; }
public override string f94() { return "D.f94"; }
public override string f95() { return "D.f95"; }
public override string f96() { return "D.f96"; }
public override string f97() { return "D.f97"; }
public override string f98() { return "D.f98"; }
public override string f99() { return "D.f99"; }
public override string f100() { return "D.f100"; }
public override string f101() { return "D.f101"; }
public override string f102() { return "D.f102"; }
public override string f103() { return "D.f103"; }
public override string f104() { return "D.f104"; }
public override string f105() { return "D.f105"; }
public override string f106() { return "D.f106"; }
public override string f107() { return "D.f107"; }
public override string f108() { return "D.f108"; }
public override string f109() { return "D.f109"; }
public override string f110() { return "D.f110"; }
public override string f111() { return "D.f111"; }
public override string f112() { return "D.f112"; }
public override string f113() { return "D.f113"; }
public override string f114() { return "D.f114"; }
public override string f115() { return "D.f115"; }
public override string f116() { return "D.f116"; }
public override string f117() { return "D.f117"; }
public override string f118() { return "D.f118"; }
public override string f119() { return "D.f119"; }
public override string f120() { return "D.f120"; }
public override string f121() { return "D.f121"; }
public override string f122() { return "D.f122"; }
public override string f123() { return "D.f123"; }
public override string f124() { return "D.f124"; }
public override string f125() { return "D.f125"; }
public override string f126() { return "D.f126"; }
public override string f127() { return "D.f127"; }
public override string f128() { return "D.f128"; }
public override string f129() { return "D.f129"; }
public override string f130() { return "D.f130"; }
public override string f131() { return "D.f131"; }
public override string f132() { return "D.f132"; }
public override string f133() { return "D.f133"; }
public override string f134() { return "D.f134"; }
public override string f135() { return "D.f135"; }
public override string f136() { return "D.f136"; }
public override string f137() { return "D.f137"; }
public override string f138() { return "D.f138"; }
public override string f139() { return "D.f139"; }
public override string f140() { return "D.f140"; }
public override string f141() { return "D.f141"; }
public override string f142() { return "D.f142"; }
public override string f143() { return "D.f143"; }
public override string f144() { return "D.f144"; }
public override string f145() { return "D.f145"; }
public override string f146() { return "D.f146"; }
public override string f147() { return "D.f147"; }
public override string f148() { return "D.f148"; }
public override string f149() { return "D.f149"; }
public override string f150() { return "D.f150"; }
public override string f151() { return "D.f151"; }
public override string f152() { return "D.f152"; }
public override string f153() { return "D.f153"; }
public override string f154() { return "D.f154"; }
public override string f155() { return "D.f155"; }
public override string f156() { return "D.f156"; }
public override string f157() { return "D.f157"; }
public override string f158() { return "D.f158"; }
public override string f159() { return "D.f159"; }
public override string f160() { return "D.f160"; }
public override string f161() { return "D.f161"; }
public override string f162() { return "D.f162"; }
public override string f163() { return "D.f163"; }
public override string f164() { return "D.f164"; }
public override string f165() { return "D.f165"; }
public override string f166() { return "D.f166"; }
public override string f167() { return "D.f167"; }
public override string f168() { return "D.f168"; }
public override string f169() { return "D.f169"; }
public override string f170() { return "D.f170"; }
public override string f171() { return "D.f171"; }
public override string f172() { return "D.f172"; }
public override string f173() { return "D.f173"; }
public override string f174() { return "D.f174"; }
public override string f175() { return "D.f175"; }
public override string f176() { return "D.f176"; }
public override string f177() { return "D.f177"; }
public override string f178() { return "D.f178"; }
public override string f179() { return "D.f179"; }
public override string f180() { return "D.f180"; }
public override string f181() { return "D.f181"; }
public override string f182() { return "D.f182"; }
public override string f183() { return "D.f183"; }
public override string f184() { return "D.f184"; }
public override string f185() { return "D.f185"; }
public override string f186() { return "D.f186"; }
public override string f187() { return "D.f187"; }
public override string f188() { return "D.f188"; }
public override string f189() { return "D.f189"; }
public override string f190() { return "D.f190"; }
public override string f191() { return "D.f191"; }
public override string f192() { return "D.f192"; }
public override string f193() { return "D.f193"; }
public override string f194() { return "D.f194"; }
public override string f195() { return "D.f195"; }
public override string f196() { return "D.f196"; }
public override string f197() { return "D.f197"; }
public override string f198() { return "D.f198"; }
public override string f199() { return "D.f199"; }
public override string f200() { return "D.f200"; }
public override string f201() { return "D.f201"; }
public override string f202() { return "D.f202"; }
public override string f203() { return "D.f203"; }
public override string f204() { return "D.f204"; }
public override string f205() { return "D.f205"; }
public override string f206() { return "D.f206"; }
public override string f207() { return "D.f207"; }
public override string f208() { return "D.f208"; }
public override string f209() { return "D.f209"; }
public override string f210() { return "D.f210"; }
public override string f211() { return "D.f211"; }
public override string f212() { return "D.f212"; }
public override string f213() { return "D.f213"; }
public override string f214() { return "D.f214"; }
public override string f215() { return "D.f215"; }
public override string f216() { return "D.f216"; }
public override string f217() { return "D.f217"; }
public override string f218() { return "D.f218"; }
public override string f219() { return "D.f219"; }
public override string f220() { return "D.f220"; }
public override string f221() { return "D.f221"; }
public override string f222() { return "D.f222"; }
public override string f223() { return "D.f223"; }
public override string f224() { return "D.f224"; }
public override string f225() { return "D.f225"; }
public override string f226() { return "D.f226"; }
public override string f227() { return "D.f227"; }
public override string f228() { return "D.f228"; }
public override string f229() { return "D.f229"; }
public override string f230() { return "D.f230"; }
public override string f231() { return "D.f231"; }
public override string f232() { return "D.f232"; }
public override string f233() { return "D.f233"; }
public override string f234() { return "D.f234"; }
public override string f235() { return "D.f235"; }
public override string f236() { return "D.f236"; }
public override string f237() { return "D.f237"; }
public override string f238() { return "D.f238"; }
public override string f239() { return "D.f239"; }
public override string f240() { return "D.f240"; }
public override string f241() { return "D.f241"; }
public override string f242() { return "D.f242"; }
public override string f243() { return "D.f243"; }
public override string f244() { return "D.f244"; }
public override string f245() { return "D.f245"; }
public override string f246() { return "D.f246"; }
public override string f247() { return "D.f247"; }
public override string f248() { return "D.f248"; }
public override string f249() { return "D.f249"; }
public override string f250() { return "D.f250"; }
public override string f251() { return "D.f251"; }
public override string f252() { return "D.f252"; }
public override string f253() { return "D.f253"; }
public override string f254() { return "D.f254"; }
public override string f255() { return "D.f255"; }
public override string f256() { return "D.f256"; }
public override string f257() { return "D.f257"; }
public override string f258() { return "D.f258"; }
public override string f259() { return "D.f259"; }
public override string f260() { return "D.f260"; }
public override string f261() { return "D.f261"; }
public override string f262() { return "D.f262"; }
public override string f263() { return "D.f263"; }
public override string f264() { return "D.f264"; }
public override string f265() { return "D.f265"; }
public override string f266() { return "D.f266"; }
public override string f267() { return "D.f267"; }
public override string f268() { return "D.f268"; }
public override string f269() { return "D.f269"; }
public override string f270() { return "D.f270"; }
public override string f271() { return "D.f271"; }
public override string f272() { return "D.f272"; }
public override string f273() { return "D.f273"; }
public override string f274() { return "D.f274"; }
public override string f275() { return "D.f275"; }
public override string f276() { return "D.f276"; }
public override string f277() { return "D.f277"; }
public override string f278() { return "D.f278"; }
public override string f279() { return "D.f279"; }
public override string f280() { return "D.f280"; }
public override string f281() { return "D.f281"; }
public override string f282() { return "D.f282"; }
public override string f283() { return "D.f283"; }
public override string f284() { return "D.f284"; }
public override string f285() { return "D.f285"; }
public override string f286() { return "D.f286"; }
public override string f287() { return "D.f287"; }
public override string f288() { return "D.f288"; }
public override string f289() { return "D.f289"; }
public override string f290() { return "D.f290"; }
public override string f291() { return "D.f291"; }
public override string f292() { return "D.f292"; }
public override string f293() { return "D.f293"; }
public override string f294() { return "D.f294"; }
public override string f295() { return "D.f295"; }
public override string f296() { return "D.f296"; }
public override string f297() { return "D.f297"; }
public override string f298() { return "D.f298"; }
public override string f299() { return "D.f299"; }
public override string f300() { return "D.f300"; }
public override string f301() { return "D.f301"; }
public override string f302() { return "D.f302"; }
public override string f303() { return "D.f303"; }
public override string f304() { return "D.f304"; }
public override string f305() { return "D.f305"; }
public override string f306() { return "D.f306"; }
public override string f307() { return "D.f307"; }
public override string f308() { return "D.f308"; }
public override string f309() { return "D.f309"; }
public override string f310() { return "D.f310"; }
public override string f311() { return "D.f311"; }
public override string f312() { return "D.f312"; }
public override string f313() { return "D.f313"; }
public override string f314() { return "D.f314"; }
public override string f315() { return "D.f315"; }
public override string f316() { return "D.f316"; }
public override string f317() { return "D.f317"; }
public override string f318() { return "D.f318"; }
public override string f319() { return "D.f319"; }
public override string f320() { return "D.f320"; }
public override string f321() { return "D.f321"; }
public override string f322() { return "D.f322"; }
public override string f323() { return "D.f323"; }
public override string f324() { return "D.f324"; }
public override string f325() { return "D.f325"; }
public override string f326() { return "D.f326"; }
public override string f327() { return "D.f327"; }
public override string f328() { return "D.f328"; }
public override string f329() { return "D.f329"; }
public override string f330() { return "D.f330"; }
public override string f331() { return "D.f331"; }
public override string f332() { return "D.f332"; }
public override string f333() { return "D.f333"; }
public override string f334() { return "D.f334"; }
public override string f335() { return "D.f335"; }
public override string f336() { return "D.f336"; }
public override string f337() { return "D.f337"; }
public override string f338() { return "D.f338"; }
public override string f339() { return "D.f339"; }
public override string f340() { return "D.f340"; }
public override string f341() { return "D.f341"; }
public override string f342() { return "D.f342"; }
public override string f343() { return "D.f343"; }
public override string f344() { return "D.f344"; }
public override string f345() { return "D.f345"; }
public override string f346() { return "D.f346"; }
public override string f347() { return "D.f347"; }
public override string f348() { return "D.f348"; }
public override string f349() { return "D.f349"; }
public override string f350() { return "D.f350"; }
public override string f351() { return "D.f351"; }
public override string f352() { return "D.f352"; }
public override string f353() { return "D.f353"; }
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public override string f355() { return "D.f355"; }
public override string f356() { return "D.f356"; }
public override string f357() { return "D.f357"; }
public override string f358() { return "D.f358"; }
public override string f359() { return "D.f359"; }
public override string f360() { return "D.f360"; }
public override string f361() { return "D.f361"; }
public override string f362() { return "D.f362"; }
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public override string f364() { return "D.f364"; }
public override string f365() { return "D.f365"; }
public override string f366() { return "D.f366"; }
public override string f367() { return "D.f367"; }
public override string f368() { return "D.f368"; }
public override string f369() { return "D.f369"; }
public override string f370() { return "D.f370"; }
public override string f371() { return "D.f371"; }
public override string f372() { return "D.f372"; }
public override string f373() { return "D.f373"; }
public override string f374() { return "D.f374"; }
public override string f375() { return "D.f375"; }
public override string f376() { return "D.f376"; }
public override string f377() { return "D.f377"; }
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public override string f379() { return "D.f379"; }
public override string f380() { return "D.f380"; }
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public override string f382() { return "D.f382"; }
public override string f383() { return "D.f383"; }
public override string f384() { return "D.f384"; }
public override string f385() { return "D.f385"; }
public override string f386() { return "D.f386"; }
public override string f387() { return "D.f387"; }
public override string f388() { return "D.f388"; }
public override string f389() { return "D.f389"; }
public override string f390() { return "D.f390"; }
public override string f391() { return "D.f391"; }
public override string f392() { return "D.f392"; }
public override string f393() { return "D.f393"; }
public override string f394() { return "D.f394"; }
public override string f395() { return "D.f395"; }
public override string f396() { return "D.f396"; }
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public override string f398() { return "D.f398"; }
public override string f399() { return "D.f399"; }
public override string f400() { return "D.f400"; }
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public override string f402() { return "D.f402"; }
public override string f403() { return "D.f403"; }
public override string f404() { return "D.f404"; }
public override string f405() { return "D.f405"; }
public override string f406() { return "D.f406"; }
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public override string f414() { return "D.f414"; }
public override string f415() { return "D.f415"; }
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public override string f423() { return "D.f423"; }
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public override string f428() { return "D.f428"; }
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public override string f430() { return "D.f430"; }
public override string f431() { return "D.f431"; }
public override string f432() { return "D.f432"; }
public override string f433() { return "D.f433"; }
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public override string f435() { return "D.f435"; }
public override string f436() { return "D.f436"; }
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public override string f440() { return "D.f440"; }
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public override string f446() { return "D.f446"; }
public override string f447() { return "D.f447"; }
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public override string f450() { return "D.f450"; }
public override string f451() { return "D.f451"; }
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public override string f455() { return "D.f455"; }
public override string f456() { return "D.f456"; }
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public override string f459() { return "D.f459"; }
public override string f460() { return "D.f460"; }
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public override string f465() { return "D.f465"; }
public override string f466() { return "D.f466"; }
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public override string f468() { return "D.f468"; }
public override string f469() { return "D.f469"; }
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public override string f472() { return "D.f472"; }
public override string f473() { return "D.f473"; }
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public override string f475() { return "D.f475"; }
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public override string f481() { return "D.f481"; }
public override string f482() { return "D.f482"; }
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public override string f485() { return "D.f485"; }
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public override string f488() { return "D.f488"; }
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public override string f491() { return "D.f491"; }
public override string f492() { return "D.f492"; }
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public override string f495() { return "D.f495"; }
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public override string f499() { return "D.f499"; }
public override string f500() { return "D.f500"; }
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public override string f502() { return "D.f502"; }
public override string f503() { return "D.f503"; }
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public override string f506() { return "D.f506"; }
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public override string f509() { return "D.f509"; }
public override string f510() { return "D.f510"; }
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public override string f512() { return "D.f512"; }
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public override string f515() { return "D.f515"; }
public override string f516() { return "D.f516"; }
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public override string f518() { return "D.f518"; }
public override string f519() { return "D.f519"; }
public override string f520() { return "D.f520"; }
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public override string f522() { return "D.f522"; }
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public override string f524() { return "D.f524"; }
public override string f525() { return "D.f525"; }
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public override string f527() { return "D.f527"; }
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public override string f529() { return "D.f529"; }
public override string f530() { return "D.f530"; }
public override string f531() { return "D.f531"; }
public override string f532() { return "D.f532"; }
public override string f533() { return "D.f533"; }
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public override string f535() { return "D.f535"; }
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public override string f540() { return "D.f540"; }
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public override string f542() { return "D.f542"; }
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public override string f545() { return "D.f545"; }
public override string f546() { return "D.f546"; }
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public override string f550() { return "D.f550"; }
public override string f551() { return "D.f551"; }
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public override string f555() { return "D.f555"; }
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public override string f562() { return "D.f562"; }
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public override string f564() { return "D.f564"; }
public override string f565() { return "D.f565"; }
public override string f566() { return "D.f566"; }
public override string f567() { return "D.f567"; }
public override string f568() { return "D.f568"; }
public override string f569() { return "D.f569"; }
public override string f570() { return "D.f570"; }
public override string f571() { return "D.f571"; }
public override string f572() { return "D.f572"; }
public override string f573() { return "D.f573"; }
public override string f574() { return "D.f574"; }
public override string f575() { return "D.f575"; }
public override string f576() { return "D.f576"; }
public override string f577() { return "D.f577"; }
public override string f578() { return "D.f578"; }
public override string f579() { return "D.f579"; }
public override string f580() { return "D.f580"; }
public override string f581() { return "D.f581"; }
public override string f582() { return "D.f582"; }
public override string f583() { return "D.f583"; }
public override string f584() { return "D.f584"; }
public override string f585() { return "D.f585"; }
public override string f586() { return "D.f586"; }
public override string f587() { return "D.f587"; }
public override string f588() { return "D.f588"; }
public override string f589() { return "D.f589"; }
public override string f590() { return "D.f590"; }
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public override string f594() { return "D.f594"; }
public override string f595() { return "D.f595"; }
public override string f596() { return "D.f596"; }
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public override string f599() { return "D.f599"; }
public override string f600() { return "D.f600"; }
public override string f601() { return "D.f601"; }
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public override string f603() { return "D.f603"; }
public override string f604() { return "D.f604"; }
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public override string f606() { return "D.f606"; }
public override string f607() { return "D.f607"; }
public override string f608() { return "D.f608"; }
public override string f609() { return "D.f609"; }
public override string f610() { return "D.f610"; }
public override string f611() { return "D.f611"; }
public override string f612() { return "D.f612"; }
public override string f613() { return "D.f613"; }
public override string f614() { return "D.f614"; }
public override string f615() { return "D.f615"; }
public override string f616() { return "D.f616"; }
public override string f617() { return "D.f617"; }
public override string f618() { return "D.f618"; }
public override string f619() { return "D.f619"; }
public override string f620() { return "D.f620"; }
public override string f621() { return "D.f621"; }
public override string f622() { return "D.f622"; }
public override string f623() { return "D.f623"; }
public override string f624() { return "D.f624"; }
public override string f625() { return "D.f625"; }
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public override string f629() { return "D.f629"; }
public override string f630() { return "D.f630"; }
public override string f631() { return "D.f631"; }
public override string f632() { return "D.f632"; }
public override string f633() { return "D.f633"; }
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public override string f635() { return "D.f635"; }
public override string f636() { return "D.f636"; }
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public override string f640() { return "D.f640"; }
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public override string f647() { return "D.f647"; }
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public override string f650() { return "D.f650"; }
public override string f651() { return "D.f651"; }
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public override string f653() { return "D.f653"; }
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public override string f656() { return "D.f656"; }
public override string f657() { return "D.f657"; }
public override string f658() { return "D.f658"; }
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public override string f660() { return "D.f660"; }
public override string f661() { return "D.f661"; }
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public override string f663() { return "D.f663"; }
public override string f664() { return "D.f664"; }
public override string f665() { return "D.f665"; }
public override string f666() { return "D.f666"; }
public override string f667() { return "D.f667"; }
public override string f668() { return "D.f668"; }
public override string f669() { return "D.f669"; }
public override string f670() { return "D.f670"; }
public override string f671() { return "D.f671"; }
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public override string f673() { return "D.f673"; }
public override string f674() { return "D.f674"; }
public override string f675() { return "D.f675"; }
public override string f676() { return "D.f676"; }
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public override string f680() { return "D.f680"; }
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public override string f685() { return "D.f685"; }
public override string f686() { return "D.f686"; }
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public override string f689() { return "D.f689"; }
public override string f690() { return "D.f690"; }
public override string f691() { return "D.f691"; }
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public override string f693() { return "D.f693"; }
public override string f694() { return "D.f694"; }
public override string f695() { return "D.f695"; }
public override string f696() { return "D.f696"; }
public override string f697() { return "D.f697"; }
public override string f698() { return "D.f698"; }
public override string f699() { return "D.f699"; }
public override string f700() { return "D.f700"; }
public override string f701() { return "D.f701"; }
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public override string f703() { return "D.f703"; }
public override string f704() { return "D.f704"; }
public override string f705() { return "D.f705"; }
public override string f706() { return "D.f706"; }
public override string f707() { return "D.f707"; }
public override string f708() { return "D.f708"; }
public override string f709() { return "D.f709"; }
public override string f710() { return "D.f710"; }
public override string f711() { return "D.f711"; }
public override string f712() { return "D.f712"; }
public override string f713() { return "D.f713"; }
public override string f714() { return "D.f714"; }
public override string f715() { return "D.f715"; }
public override string f716() { return "D.f716"; }
public override string f717() { return "D.f717"; }
public override string f718() { return "D.f718"; }
public override string f719() { return "D.f719"; }
public override string f720() { return "D.f720"; }
public override string f721() { return "D.f721"; }
public override string f722() { return "D.f722"; }
public override string f723() { return "D.f723"; }
public override string f724() { return "D.f724"; }
public override string f725() { return "D.f725"; }
public override string f726() { return "D.f726"; }
public override string f727() { return "D.f727"; }
public override string f728() { return "D.f728"; }
public override string f729() { return "D.f729"; }
public override string f730() { return "D.f730"; }
public override string f731() { return "D.f731"; }
public override string f732() { return "D.f732"; }
public override string f733() { return "D.f733"; }
public override string f734() { return "D.f734"; }
public override string f735() { return "D.f735"; }
public override string f736() { return "D.f736"; }
public override string f737() { return "D.f737"; }
public override string f738() { return "D.f738"; }
public override string f739() { return "D.f739"; }
public override string f740() { return "D.f740"; }
public override string f741() { return "D.f741"; }
public override string f742() { return "D.f742"; }
public override string f743() { return "D.f743"; }
public override string f744() { return "D.f744"; }
public override string f745() { return "D.f745"; }
public override string f746() { return "D.f746"; }
public override string f747() { return "D.f747"; }
public override string f748() { return "D.f748"; }
public override string f749() { return "D.f749"; }
public override string f750() { return "D.f750"; }
public override string f751() { return "D.f751"; }
public override string f752() { return "D.f752"; }
public override string f753() { return "D.f753"; }
public override string f754() { return "D.f754"; }
public override string f755() { return "D.f755"; }
public override string f756() { return "D.f756"; }
public override string f757() { return "D.f757"; }
public override string f758() { return "D.f758"; }
public override string f759() { return "D.f759"; }
public override string f760() { return "D.f760"; }
public override string f761() { return "D.f761"; }
public override string f762() { return "D.f762"; }
public override string f763() { return "D.f763"; }
public override string f764() { return "D.f764"; }
public override string f765() { return "D.f765"; }
public override string f766() { return "D.f766"; }
public override string f767() { return "D.f767"; }
public override string f768() { return "D.f768"; }
public override string f769() { return "D.f769"; }
public override string f770() { return "D.f770"; }
public override string f771() { return "D.f771"; }
public override string f772() { return "D.f772"; }
public override string f773() { return "D.f773"; }
public override string f774() { return "D.f774"; }
public override string f775() { return "D.f775"; }
public override string f776() { return "D.f776"; }
public override string f777() { return "D.f777"; }
public override string f778() { return "D.f778"; }
public override string f779() { return "D.f779"; }
public override string f780() { return "D.f780"; }
public override string f781() { return "D.f781"; }
public override string f782() { return "D.f782"; }
public override string f783() { return "D.f783"; }
public override string f784() { return "D.f784"; }
public override string f785() { return "D.f785"; }
public override string f786() { return "D.f786"; }
public override string f787() { return "D.f787"; }
public override string f788() { return "D.f788"; }
public override string f789() { return "D.f789"; }
public override string f790() { return "D.f790"; }
public override string f791() { return "D.f791"; }
public override string f792() { return "D.f792"; }
public override string f793() { return "D.f793"; }
public override string f794() { return "D.f794"; }
public override string f795() { return "D.f795"; }
public override string f796() { return "D.f796"; }
public override string f797() { return "D.f797"; }
public override string f798() { return "D.f798"; }
public override string f799() { return "D.f799"; }
public override string f800() { return "D.f800"; }
public override string f801() { return "D.f801"; }
public override string f802() { return "D.f802"; }
public override string f803() { return "D.f803"; }
public override string f804() { return "D.f804"; }
public override string f805() { return "D.f805"; }
public override string f806() { return "D.f806"; }
public override string f807() { return "D.f807"; }
public override string f808() { return "D.f808"; }
public override string f809() { return "D.f809"; }
public override string f810() { return "D.f810"; }
public override string f811() { return "D.f811"; }
public override string f812() { return "D.f812"; }
public override string f813() { return "D.f813"; }
public override string f814() { return "D.f814"; }
public override string f815() { return "D.f815"; }
public override string f816() { return "D.f816"; }
public override string f817() { return "D.f817"; }
public override string f818() { return "D.f818"; }
public override string f819() { return "D.f819"; }
public override string f820() { return "D.f820"; }
public override string f821() { return "D.f821"; }
public override string f822() { return "D.f822"; }
public override string f823() { return "D.f823"; }
public override string f824() { return "D.f824"; }
public override string f825() { return "D.f825"; }
public override string f826() { return "D.f826"; }
public override string f827() { return "D.f827"; }
public override string f828() { return "D.f828"; }
public override string f829() { return "D.f829"; }
public override string f830() { return "D.f830"; }
public override string f831() { return "D.f831"; }
public override string f832() { return "D.f832"; }
public override string f833() { return "D.f833"; }
public override string f834() { return "D.f834"; }
public override string f835() { return "D.f835"; }
public override string f836() { return "D.f836"; }
public override string f837() { return "D.f837"; }
public override string f838() { return "D.f838"; }
public override string f839() { return "D.f839"; }
public override string f840() { return "D.f840"; }
public override string f841() { return "D.f841"; }
public override string f842() { return "D.f842"; }
public override string f843() { return "D.f843"; }
public override string f844() { return "D.f844"; }
public override string f845() { return "D.f845"; }
public override string f846() { return "D.f846"; }
public override string f847() { return "D.f847"; }
public override string f848() { return "D.f848"; }
public override string f849() { return "D.f849"; }
public override string f850() { return "D.f850"; }
public override string f851() { return "D.f851"; }
public override string f852() { return "D.f852"; }
public override string f853() { return "D.f853"; }
public override string f854() { return "D.f854"; }
public override string f855() { return "D.f855"; }
public override string f856() { return "D.f856"; }
public override string f857() { return "D.f857"; }
public override string f858() { return "D.f858"; }
public override string f859() { return "D.f859"; }
public override string f860() { return "D.f860"; }
public override string f861() { return "D.f861"; }
public override string f862() { return "D.f862"; }
public override string f863() { return "D.f863"; }
public override string f864() { return "D.f864"; }
public override string f865() { return "D.f865"; }
public override string f866() { return "D.f866"; }
public override string f867() { return "D.f867"; }
public override string f868() { return "D.f868"; }
public override string f869() { return "D.f869"; }
public override string f870() { return "D.f870"; }
public override string f871() { return "D.f871"; }
public override string f872() { return "D.f872"; }
public override string f873() { return "D.f873"; }
public override string f874() { return "D.f874"; }
public override string f875() { return "D.f875"; }
public override string f876() { return "D.f876"; }
public override string f877() { return "D.f877"; }
public override string f878() { return "D.f878"; }
public override string f879() { return "D.f879"; }
public override string f880() { return "D.f880"; }
public override string f881() { return "D.f881"; }
public override string f882() { return "D.f882"; }
public override string f883() { return "D.f883"; }
public override string f884() { return "D.f884"; }
public override string f885() { return "D.f885"; }
public override string f886() { return "D.f886"; }
public override string f887() { return "D.f887"; }
public override string f888() { return "D.f888"; }
public override string f889() { return "D.f889"; }
public override string f890() { return "D.f890"; }
public override string f891() { return "D.f891"; }
public override string f892() { return "D.f892"; }
public override string f893() { return "D.f893"; }
public override string f894() { return "D.f894"; }
public override string f895() { return "D.f895"; }
public override string f896() { return "D.f896"; }
public override string f897() { return "D.f897"; }
public override string f898() { return "D.f898"; }
public override string f899() { return "D.f899"; }
public override string f900() { return "D.f900"; }
public override string f901() { return "D.f901"; }
public override string f902() { return "D.f902"; }
public override string f903() { return "D.f903"; }
public override string f904() { return "D.f904"; }
public override string f905() { return "D.f905"; }
public override string f906() { return "D.f906"; }
public override string f907() { return "D.f907"; }
public override string f908() { return "D.f908"; }
public override string f909() { return "D.f909"; }
public override string f910() { return "D.f910"; }
public override string f911() { return "D.f911"; }
public override string f912() { return "D.f912"; }
public override string f913() { return "D.f913"; }
public override string f914() { return "D.f914"; }
public override string f915() { return "D.f915"; }
public override string f916() { return "D.f916"; }
public override string f917() { return "D.f917"; }
public override string f918() { return "D.f918"; }
public override string f919() { return "D.f919"; }
public override string f920() { return "D.f920"; }
public override string f921() { return "D.f921"; }
public override string f922() { return "D.f922"; }
public override string f923() { return "D.f923"; }
public override string f924() { return "D.f924"; }
public override string f925() { return "D.f925"; }
public override string f926() { return "D.f926"; }
public override string f927() { return "D.f927"; }
public override string f928() { return "D.f928"; }
public override string f929() { return "D.f929"; }
public override string f930() { return "D.f930"; }
public override string f931() { return "D.f931"; }
public override string f932() { return "D.f932"; }
public override string f933() { return "D.f933"; }
public override string f934() { return "D.f934"; }
public override string f935() { return "D.f935"; }
public override string f936() { return "D.f936"; }
public override string f937() { return "D.f937"; }
public override string f938() { return "D.f938"; }
public override string f939() { return "D.f939"; }
public override string f940() { return "D.f940"; }
public override string f941() { return "D.f941"; }
public override string f942() { return "D.f942"; }
public override string f943() { return "D.f943"; }
public override string f944() { return "D.f944"; }
public override string f945() { return "D.f945"; }
public override string f946() { return "D.f946"; }
public override string f947() { return "D.f947"; }
public override string f948() { return "D.f948"; }
public override string f949() { return "D.f949"; }
public override string f950() { return "D.f950"; }
public override string f951() { return "D.f951"; }
public override string f952() { return "D.f952"; }
public override string f953() { return "D.f953"; }
public override string f954() { return "D.f954"; }
public override string f955() { return "D.f955"; }
public override string f956() { return "D.f956"; }
public override string f957() { return "D.f957"; }
public override string f958() { return "D.f958"; }
public override string f959() { return "D.f959"; }
public override string f960() { return "D.f960"; }
public override string f961() { return "D.f961"; }
public override string f962() { return "D.f962"; }
public override string f963() { return "D.f963"; }
public override string f964() { return "D.f964"; }
public override string f965() { return "D.f965"; }
public override string f966() { return "D.f966"; }
public override string f967() { return "D.f967"; }
public override string f968() { return "D.f968"; }
public override string f969() { return "D.f969"; }
public override string f970() { return "D.f970"; }
public override string f971() { return "D.f971"; }
public override string f972() { return "D.f972"; }
public override string f973() { return "D.f973"; }
public override string f974() { return "D.f974"; }
public override string f975() { return "D.f975"; }
public override string f976() { return "D.f976"; }
public override string f977() { return "D.f977"; }
public override string f978() { return "D.f978"; }
public override string f979() { return "D.f979"; }
public override string f980() { return "D.f980"; }
public override string f981() { return "D.f981"; }
public override string f982() { return "D.f982"; }
public override string f983() { return "D.f983"; }
public override string f984() { return "D.f984"; }
public override string f985() { return "D.f985"; }
public override string f986() { return "D.f986"; }
public override string f987() { return "D.f987"; }
public override string f988() { return "D.f988"; }
public override string f989() { return "D.f989"; }
public override string f990() { return "D.f990"; }
public override string f991() { return "D.f991"; }
public override string f992() { return "D.f992"; }
public override string f993() { return "D.f993"; }
public override string f994() { return "D.f994"; }
public override string f995() { return "D.f995"; }
public override string f996() { return "D.f996"; }
public override string f997() { return "D.f997"; }
public override string f998() { return "D.f998"; }
public override string f999() { return "D.f999"; }
public override string f1000() { return "D.f1000"; }
public override string f1001() { return "D.f1001"; }
public override string f1002() { return "D.f1002"; }
public override string f1003() { return "D.f1003"; }
public override string f1004() { return "D.f1004"; }
public override string f1005() { return "D.f1005"; }
public override string f1006() { return "D.f1006"; }
public override string f1007() { return "D.f1007"; }
public override string f1008() { return "D.f1008"; }
public override string f1009() { return "D.f1009"; }
public override string f1010() { return "D.f1010"; }
public override string f1011() { return "D.f1011"; }
public override string f1012() { return "D.f1012"; }
public override string f1013() { return "D.f1013"; }
public override string f1014() { return "D.f1014"; }
public override string f1015() { return "D.f1015"; }
public override string f1016() { return "D.f1016"; }
public override string f1017() { return "D.f1017"; }
public override string f1018() { return "D.f1018"; }
public override string f1019() { return "D.f1019"; }
public override string f1020() { return "D.f1020"; }
public override string f1021() { return "D.f1021"; }
public override string f1022() { return "D.f1022"; }
public override string f1023() { return "D.f1023"; }
public override string f1024() { return "D.f1024"; }
public override string f1025() { return "D.f1025"; }
public override string f1026() { return "D.f1026"; }
public override string f1027() { return "D.f1027"; }
public override string f1028() { return "D.f1028"; }
public override string f1029() { return "D.f1029"; }
public override string f1030() { return "D.f1030"; }
public override string f1031() { return "D.f1031"; }
public override string f1032() { return "D.f1032"; }
public override string f1033() { return "D.f1033"; }
public override string f1034() { return "D.f1034"; }
public override string f1035() { return "D.f1035"; }
public override string f1036() { return "D.f1036"; }
public override string f1037() { return "D.f1037"; }
public override string f1038() { return "D.f1038"; }
public override string f1039() { return "D.f1039"; }
public override string f1040() { return "D.f1040"; }
public override string f1041() { return "D.f1041"; }
public override string f1042() { return "D.f1042"; }
public override string f1043() { return "D.f1043"; }
public override string f1044() { return "D.f1044"; }
public override string f1045() { return "D.f1045"; }
public override string f1046() { return "D.f1046"; }
public override string f1047() { return "D.f1047"; }
public override string f1048() { return "D.f1048"; }
public override string f1049() { return "D.f1049"; }
public override string f1050() { return "D.f1050"; }
public override string f1051() { return "D.f1051"; }
public override string f1052() { return "D.f1052"; }
public override string f1053() { return "D.f1053"; }
public override string f1054() { return "D.f1054"; }
public override string f1055() { return "D.f1055"; }
public override string f1056() { return "D.f1056"; }
public override string f1057() { return "D.f1057"; }
public override string f1058() { return "D.f1058"; }
public override string f1059() { return "D.f1059"; }
public override string f1060() { return "D.f1060"; }
public override string f1061() { return "D.f1061"; }
public override string f1062() { return "D.f1062"; }
public override string f1063() { return "D.f1063"; }
public override string f1064() { return "D.f1064"; }
public override string f1065() { return "D.f1065"; }
public override string f1066() { return "D.f1066"; }
public override string f1067() { return "D.f1067"; }
public override string f1068() { return "D.f1068"; }
public override string f1069() { return "D.f1069"; }
public override string f1070() { return "D.f1070"; }
public override string f1071() { return "D.f1071"; }
public override string f1072() { return "D.f1072"; }
public override string f1073() { return "D.f1073"; }
public override string f1074() { return "D.f1074"; }
public override string f1075() { return "D.f1075"; }
public override string f1076() { return "D.f1076"; }
public override string f1077() { return "D.f1077"; }
public override string f1078() { return "D.f1078"; }
public override string f1079() { return "D.f1079"; }
public override string f1080() { return "D.f1080"; }
public override string f1081() { return "D.f1081"; }
public override string f1082() { return "D.f1082"; }
public override string f1083() { return "D.f1083"; }
public override string f1084() { return "D.f1084"; }
public override string f1085() { return "D.f1085"; }
public override string f1086() { return "D.f1086"; }
public override string f1087() { return "D.f1087"; }
public override string f1088() { return "D.f1088"; }
public override string f1089() { return "D.f1089"; }
public override string f1090() { return "D.f1090"; }
public override string f1091() { return "D.f1091"; }
public override string f1092() { return "D.f1092"; }
public override string f1093() { return "D.f1093"; }
public override string f1094() { return "D.f1094"; }
public override string f1095() { return "D.f1095"; }
public override string f1096() { return "D.f1096"; }
public override string f1097() { return "D.f1097"; }
public override string f1098() { return "D.f1098"; }
public override string f1099() { return "D.f1099"; }
public override string f1100() { return "D.f1100"; }
public override string f1101() { return "D.f1101"; }
public override string f1102() { return "D.f1102"; }
public override string f1103() { return "D.f1103"; }
public override string f1104() { return "D.f1104"; }
public override string f1105() { return "D.f1105"; }
public override string f1106() { return "D.f1106"; }
public override string f1107() { return "D.f1107"; }
public override string f1108() { return "D.f1108"; }
public override string f1109() { return "D.f1109"; }
public override string f1110() { return "D.f1110"; }
public override string f1111() { return "D.f1111"; }
public override string f1112() { return "D.f1112"; }
public override string f1113() { return "D.f1113"; }
public override string f1114() { return "D.f1114"; }
public override string f1115() { return "D.f1115"; }
public override string f1116() { return "D.f1116"; }
public override string f1117() { return "D.f1117"; }
public override string f1118() { return "D.f1118"; }
public override string f1119() { return "D.f1119"; }
public override string f1120() { return "D.f1120"; }
public override string f1121() { return "D.f1121"; }
public override string f1122() { return "D.f1122"; }
public override string f1123() { return "D.f1123"; }
public override string f1124() { return "D.f1124"; }
public override string f1125() { return "D.f1125"; }
public override string f1126() { return "D.f1126"; }
public override string f1127() { return "D.f1127"; }
public override string f1128() { return "D.f1128"; }
public override string f1129() { return "D.f1129"; }
public override string f1130() { return "D.f1130"; }
public override string f1131() { return "D.f1131"; }
public override string f1132() { return "D.f1132"; }
public override string f1133() { return "D.f1133"; }
public override string f1134() { return "D.f1134"; }
public override string f1135() { return "D.f1135"; }
public override string f1136() { return "D.f1136"; }
public override string f1137() { return "D.f1137"; }
public override string f1138() { return "D.f1138"; }
public override string f1139() { return "D.f1139"; }
public override string f1140() { return "D.f1140"; }
public override string f1141() { return "D.f1141"; }
public override string f1142() { return "D.f1142"; }
public override string f1143() { return "D.f1143"; }
public override string f1144() { return "D.f1144"; }
public override string f1145() { return "D.f1145"; }
public override string f1146() { return "D.f1146"; }
public override string f1147() { return "D.f1147"; }
public override string f1148() { return "D.f1148"; }
public override string f1149() { return "D.f1149"; }
public override string f1150() { return "D.f1150"; }
public override string f1151() { return "D.f1151"; }
public override string f1152() { return "D.f1152"; }
public override string f1153() { return "D.f1153"; }
public override string f1154() { return "D.f1154"; }
public override string f1155() { return "D.f1155"; }
public override string f1156() { return "D.f1156"; }
public override string f1157() { return "D.f1157"; }
public override string f1158() { return "D.f1158"; }
public override string f1159() { return "D.f1159"; }
public override string f1160() { return "D.f1160"; }
public override string f1161() { return "D.f1161"; }
public override string f1162() { return "D.f1162"; }
public override string f1163() { return "D.f1163"; }
public override string f1164() { return "D.f1164"; }
public override string f1165() { return "D.f1165"; }
public override string f1166() { return "D.f1166"; }
public override string f1167() { return "D.f1167"; }
public override string f1168() { return "D.f1168"; }
public override string f1169() { return "D.f1169"; }
public override string f1170() { return "D.f1170"; }
public override string f1171() { return "D.f1171"; }
public override string f1172() { return "D.f1172"; }
public override string f1173() { return "D.f1173"; }
public override string f1174() { return "D.f1174"; }
public override string f1175() { return "D.f1175"; }
public override string f1176() { return "D.f1176"; }
public override string f1177() { return "D.f1177"; }
public override string f1178() { return "D.f1178"; }
public override string f1179() { return "D.f1179"; }
public override string f1180() { return "D.f1180"; }
public override string f1181() { return "D.f1181"; }
public override string f1182() { return "D.f1182"; }
public override string f1183() { return "D.f1183"; }
public override string f1184() { return "D.f1184"; }
public override string f1185() { return "D.f1185"; }
public override string f1186() { return "D.f1186"; }
public override string f1187() { return "D.f1187"; }
public override string f1188() { return "D.f1188"; }
public override string f1189() { return "D.f1189"; }
public override string f1190() { return "D.f1190"; }
public override string f1191() { return "D.f1191"; }
public override string f1192() { return "D.f1192"; }
public override string f1193() { return "D.f1193"; }
public override string f1194() { return "D.f1194"; }
public override string f1195() { return "D.f1195"; }
public override string f1196() { return "D.f1196"; }
public override string f1197() { return "D.f1197"; }
public override string f1198() { return "D.f1198"; }
public override string f1199() { return "D.f1199"; }
public override string f1200() { return "D.f1200"; }
public override string f1201() { return "D.f1201"; }
public override string f1202() { return "D.f1202"; }
public override string f1203() { return "D.f1203"; }
public override string f1204() { return "D.f1204"; }
public override string f1205() { return "D.f1205"; }
public override string f1206() { return "D.f1206"; }
public override string f1207() { return "D.f1207"; }
public override string f1208() { return "D.f1208"; }
public override string f1209() { return "D.f1209"; }
public override string f1210() { return "D.f1210"; }
public override string f1211() { return "D.f1211"; }
public override string f1212() { return "D.f1212"; }
public override string f1213() { return "D.f1213"; }
public override string f1214() { return "D.f1214"; }
public override string f1215() { return "D.f1215"; }
public override string f1216() { return "D.f1216"; }
public override string f1217() { return "D.f1217"; }
public override string f1218() { return "D.f1218"; }
public override string f1219() { return "D.f1219"; }
public override string f1220() { return "D.f1220"; }
public override string f1221() { return "D.f1221"; }
public override string f1222() { return "D.f1222"; }
public override string f1223() { return "D.f1223"; }
public override string f1224() { return "D.f1224"; }
public override string f1225() { return "D.f1225"; }
public override string f1226() { return "D.f1226"; }
public override string f1227() { return "D.f1227"; }
public override string f1228() { return "D.f1228"; }
public override string f1229() { return "D.f1229"; }
public override string f1230() { return "D.f1230"; }
public override string f1231() { return "D.f1231"; }
public override string f1232() { return "D.f1232"; }
public override string f1233() { return "D.f1233"; }
public override string f1234() { return "D.f1234"; }
public override string f1235() { return "D.f1235"; }
public override string f1236() { return "D.f1236"; }
public override string f1237() { return "D.f1237"; }
public override string f1238() { return "D.f1238"; }
public override string f1239() { return "D.f1239"; }
public override string f1240() { return "D.f1240"; }
public override string f1241() { return "D.f1241"; }
public override string f1242() { return "D.f1242"; }
public override string f1243() { return "D.f1243"; }
public override string f1244() { return "D.f1244"; }
public override string f1245() { return "D.f1245"; }
public override string f1246() { return "D.f1246"; }
public override string f1247() { return "D.f1247"; }
public override string f1248() { return "D.f1248"; }
public override string f1249() { return "D.f1249"; }
public override string f1250() { return "D.f1250"; }
public override string f1251() { return "D.f1251"; }
public override string f1252() { return "D.f1252"; }
public override string f1253() { return "D.f1253"; }
public override string f1254() { return "D.f1254"; }
public override string f1255() { return "D.f1255"; }
public override string f1256() { return "D.f1256"; }
public override string f1257() { return "D.f1257"; }
public override string f1258() { return "D.f1258"; }
public override string f1259() { return "D.f1259"; }
public override string f1260() { return "D.f1260"; }
public override string f1261() { return "D.f1261"; }
public override string f1262() { return "D.f1262"; }
public override string f1263() { return "D.f1263"; }
public override string f1264() { return "D.f1264"; }
public override string f1265() { return "D.f1265"; }
public override string f1266() { return "D.f1266"; }
public override string f1267() { return "D.f1267"; }
public override string f1268() { return "D.f1268"; }
public override string f1269() { return "D.f1269"; }
public override string f1270() { return "D.f1270"; }
public override string f1271() { return "D.f1271"; }
public override string f1272() { return "D.f1272"; }
public override string f1273() { return "D.f1273"; }
public override string f1274() { return "D.f1274"; }
public override string f1275() { return "D.f1275"; }
public override string f1276() { return "D.f1276"; }
public override string f1277() { return "D.f1277"; }
public override string f1278() { return "D.f1278"; }
public override string f1279() { return "D.f1279"; }
public override string f1280() { return "D.f1280"; }
public override string f1281() { return "D.f1281"; }
public override string f1282() { return "D.f1282"; }
public override string f1283() { return "D.f1283"; }
public override string f1284() { return "D.f1284"; }
public override string f1285() { return "D.f1285"; }
public override string f1286() { return "D.f1286"; }
public override string f1287() { return "D.f1287"; }
public override string f1288() { return "D.f1288"; }
public override string f1289() { return "D.f1289"; }
public override string f1290() { return "D.f1290"; }
public override string f1291() { return "D.f1291"; }
public override string f1292() { return "D.f1292"; }
public override string f1293() { return "D.f1293"; }
public override string f1294() { return "D.f1294"; }
public override string f1295() { return "D.f1295"; }
public override string f1296() { return "D.f1296"; }
public override string f1297() { return "D.f1297"; }
public override string f1298() { return "D.f1298"; }
public override string f1299() { return "D.f1299"; }
public override string f1300() { return "D.f1300"; }
public override string f1301() { return "D.f1301"; }
public override string f1302() { return "D.f1302"; }
public override string f1303() { return "D.f1303"; }
public override string f1304() { return "D.f1304"; }
public override string f1305() { return "D.f1305"; }
public override string f1306() { return "D.f1306"; }
public override string f1307() { return "D.f1307"; }
public override string f1308() { return "D.f1308"; }
public override string f1309() { return "D.f1309"; }
public override string f1310() { return "D.f1310"; }
public override string f1311() { return "D.f1311"; }
public override string f1312() { return "D.f1312"; }
public override string f1313() { return "D.f1313"; }
public override string f1314() { return "D.f1314"; }
public override string f1315() { return "D.f1315"; }
public override string f1316() { return "D.f1316"; }
public override string f1317() { return "D.f1317"; }
public override string f1318() { return "D.f1318"; }
public override string f1319() { return "D.f1319"; }
public override string f1320() { return "D.f1320"; }
public override string f1321() { return "D.f1321"; }
public override string f1322() { return "D.f1322"; }
public override string f1323() { return "D.f1323"; }
public override string f1324() { return "D.f1324"; }
public override string f1325() { return "D.f1325"; }
public override string f1326() { return "D.f1326"; }
public override string f1327() { return "D.f1327"; }
public override string f1328() { return "D.f1328"; }
public override string f1329() { return "D.f1329"; }
public override string f1330() { return "D.f1330"; }
public override string f1331() { return "D.f1331"; }
public override string f1332() { return "D.f1332"; }
public override string f1333() { return "D.f1333"; }
public override string f1334() { return "D.f1334"; }
public override string f1335() { return "D.f1335"; }
public override string f1336() { return "D.f1336"; }
public override string f1337() { return "D.f1337"; }
public override string f1338() { return "D.f1338"; }
public override string f1339() { return "D.f1339"; }
public override string f1340() { return "D.f1340"; }
public override string f1341() { return "D.f1341"; }
public override string f1342() { return "D.f1342"; }
public override string f1343() { return "D.f1343"; }
public override string f1344() { return "D.f1344"; }
public override string f1345() { return "D.f1345"; }
public override string f1346() { return "D.f1346"; }
public override string f1347() { return "D.f1347"; }
public override string f1348() { return "D.f1348"; }
public override string f1349() { return "D.f1349"; }
public override string f1350() { return "D.f1350"; }
public override string f1351() { return "D.f1351"; }
public override string f1352() { return "D.f1352"; }
public override string f1353() { return "D.f1353"; }
public override string f1354() { return "D.f1354"; }
public override string f1355() { return "D.f1355"; }
public override string f1356() { return "D.f1356"; }
public override string f1357() { return "D.f1357"; }
public override string f1358() { return "D.f1358"; }
public override string f1359() { return "D.f1359"; }
public override string f1360() { return "D.f1360"; }
public override string f1361() { return "D.f1361"; }
public override string f1362() { return "D.f1362"; }
public override string f1363() { return "D.f1363"; }
public override string f1364() { return "D.f1364"; }
public override string f1365() { return "D.f1365"; }
public override string f1366() { return "D.f1366"; }
public override string f1367() { return "D.f1367"; }
public override string f1368() { return "D.f1368"; }
public override string f1369() { return "D.f1369"; }
public override string f1370() { return "D.f1370"; }
public override string f1371() { return "D.f1371"; }
public override string f1372() { return "D.f1372"; }
public override string f1373() { return "D.f1373"; }
public override string f1374() { return "D.f1374"; }
public override string f1375() { return "D.f1375"; }
public override string f1376() { return "D.f1376"; }
public override string f1377() { return "D.f1377"; }
public override string f1378() { return "D.f1378"; }
public override string f1379() { return "D.f1379"; }
public override string f1380() { return "D.f1380"; }
public override string f1381() { return "D.f1381"; }
public override string f1382() { return "D.f1382"; }
public override string f1383() { return "D.f1383"; }
public override string f1384() { return "D.f1384"; }
public override string f1385() { return "D.f1385"; }
public override string f1386() { return "D.f1386"; }
public override string f1387() { return "D.f1387"; }
public override string f1388() { return "D.f1388"; }
public override string f1389() { return "D.f1389"; }
public override string f1390() { return "D.f1390"; }
public override string f1391() { return "D.f1391"; }
public override string f1392() { return "D.f1392"; }
public override string f1393() { return "D.f1393"; }
public override string f1394() { return "D.f1394"; }
public override string f1395() { return "D.f1395"; }
public override string f1396() { return "D.f1396"; }
public override string f1397() { return "D.f1397"; }
public override string f1398() { return "D.f1398"; }
public override string f1399() { return "D.f1399"; }
public override string f1400() { return "D.f1400"; }
public override string f1401() { return "D.f1401"; }
public override string f1402() { return "D.f1402"; }
public override string f1403() { return "D.f1403"; }
public override string f1404() { return "D.f1404"; }
public override string f1405() { return "D.f1405"; }
public override string f1406() { return "D.f1406"; }
public override string f1407() { return "D.f1407"; }
public override string f1408() { return "D.f1408"; }
public override string f1409() { return "D.f1409"; }
public override string f1410() { return "D.f1410"; }
public override string f1411() { return "D.f1411"; }
public override string f1412() { return "D.f1412"; }
public override string f1413() { return "D.f1413"; }
public override string f1414() { return "D.f1414"; }
public override string f1415() { return "D.f1415"; }
public override string f1416() { return "D.f1416"; }
public override string f1417() { return "D.f1417"; }
public override string f1418() { return "D.f1418"; }
public override string f1419() { return "D.f1419"; }
public override string f1420() { return "D.f1420"; }
public override string f1421() { return "D.f1421"; }
public override string f1422() { return "D.f1422"; }
public override string f1423() { return "D.f1423"; }
public override string f1424() { return "D.f1424"; }
public override string f1425() { return "D.f1425"; }
public override string f1426() { return "D.f1426"; }
public override string f1427() { return "D.f1427"; }
public override string f1428() { return "D.f1428"; }
public override string f1429() { return "D.f1429"; }
public override string f1430() { return "D.f1430"; }
public override string f1431() { return "D.f1431"; }
public override string f1432() { return "D.f1432"; }
public override string f1433() { return "D.f1433"; }
public override string f1434() { return "D.f1434"; }
public override string f1435() { return "D.f1435"; }
public override string f1436() { return "D.f1436"; }
public override string f1437() { return "D.f1437"; }
public override string f1438() { return "D.f1438"; }
public override string f1439() { return "D.f1439"; }
public override string f1440() { return "D.f1440"; }
public override string f1441() { return "D.f1441"; }
public override string f1442() { return "D.f1442"; }
public override string f1443() { return "D.f1443"; }
public override string f1444() { return "D.f1444"; }
public override string f1445() { return "D.f1445"; }
public override string f1446() { return "D.f1446"; }
public override string f1447() { return "D.f1447"; }
public override string f1448() { return "D.f1448"; }
public override string f1449() { return "D.f1449"; }
public override string f1450() { return "D.f1450"; }
public override string f1451() { return "D.f1451"; }
public override string f1452() { return "D.f1452"; }
public override string f1453() { return "D.f1453"; }
public override string f1454() { return "D.f1454"; }
public override string f1455() { return "D.f1455"; }
public override string f1456() { return "D.f1456"; }
public override string f1457() { return "D.f1457"; }
public override string f1458() { return "D.f1458"; }
public override string f1459() { return "D.f1459"; }
public override string f1460() { return "D.f1460"; }
public override string f1461() { return "D.f1461"; }
public override string f1462() { return "D.f1462"; }
public override string f1463() { return "D.f1463"; }
public override string f1464() { return "D.f1464"; }
public override string f1465() { return "D.f1465"; }
public override string f1466() { return "D.f1466"; }
public override string f1467() { return "D.f1467"; }
public override string f1468() { return "D.f1468"; }
public override string f1469() { return "D.f1469"; }
public override string f1470() { return "D.f1470"; }
public override string f1471() { return "D.f1471"; }
public override string f1472() { return "D.f1472"; }
public override string f1473() { return "D.f1473"; }
public override string f1474() { return "D.f1474"; }
public override string f1475() { return "D.f1475"; }
public override string f1476() { return "D.f1476"; }
public override string f1477() { return "D.f1477"; }
public override string f1478() { return "D.f1478"; }
public override string f1479() { return "D.f1479"; }
public override string f1480() { return "D.f1480"; }
public override string f1481() { return "D.f1481"; }
public override string f1482() { return "D.f1482"; }
public override string f1483() { return "D.f1483"; }
public override string f1484() { return "D.f1484"; }
public override string f1485() { return "D.f1485"; }
public override string f1486() { return "D.f1486"; }
public override string f1487() { return "D.f1487"; }
public override string f1488() { return "D.f1488"; }
public override string f1489() { return "D.f1489"; }
public override string f1490() { return "D.f1490"; }
public override string f1491() { return "D.f1491"; }
public override string f1492() { return "D.f1492"; }
public override string f1493() { return "D.f1493"; }
public override string f1494() { return "D.f1494"; }
public override string f1495() { return "D.f1495"; }
public override string f1496() { return "D.f1496"; }
public override string f1497() { return "D.f1497"; }
public override string f1498() { return "D.f1498"; }
public override string f1499() { return "D.f1499"; }
public override string f1500() { return "D.f1500"; }
public override string f1501() { return "D.f1501"; }
public override string f1502() { return "D.f1502"; }
public override string f1503() { return "D.f1503"; }
public override string f1504() { return "D.f1504"; }
public override string f1505() { return "D.f1505"; }
public override string f1506() { return "D.f1506"; }
public override string f1507() { return "D.f1507"; }
public override string f1508() { return "D.f1508"; }
public override string f1509() { return "D.f1509"; }
public override string f1510() { return "D.f1510"; }
public override string f1511() { return "D.f1511"; }
public override string f1512() { return "D.f1512"; }
public override string f1513() { return "D.f1513"; }
public override string f1514() { return "D.f1514"; }
public override string f1515() { return "D.f1515"; }
public override string f1516() { return "D.f1516"; }
public override string f1517() { return "D.f1517"; }
public override string f1518() { return "D.f1518"; }
public override string f1519() { return "D.f1519"; }
public override string f1520() { return "D.f1520"; }
public override string f1521() { return "D.f1521"; }
public override string f1522() { return "D.f1522"; }
public override string f1523() { return "D.f1523"; }
public override string f1524() { return "D.f1524"; }
public override string f1525() { return "D.f1525"; }
public override string f1526() { return "D.f1526"; }
public override string f1527() { return "D.f1527"; }
public override string f1528() { return "D.f1528"; }
public override string f1529() { return "D.f1529"; }
public override string f1530() { return "D.f1530"; }
public override string f1531() { return "D.f1531"; }
public override string f1532() { return "D.f1532"; }
public override string f1533() { return "D.f1533"; }
public override string f1534() { return "D.f1534"; }
public override string f1535() { return "D.f1535"; }
public override string f1536() { return "D.f1536"; }
public override string f1537() { return "D.f1537"; }
public override string f1538() { return "D.f1538"; }
public override string f1539() { return "D.f1539"; }
public override string f1540() { return "D.f1540"; }
public override string f1541() { return "D.f1541"; }
public override string f1542() { return "D.f1542"; }
public override string f1543() { return "D.f1543"; }
public override string f1544() { return "D.f1544"; }
public override string f1545() { return "D.f1545"; }
public override string f1546() { return "D.f1546"; }
public override string f1547() { return "D.f1547"; }
public override string f1548() { return "D.f1548"; }
public override string f1549() { return "D.f1549"; }
public override string f1550() { return "D.f1550"; }
public override string f1551() { return "D.f1551"; }
public override string f1552() { return "D.f1552"; }
public override string f1553() { return "D.f1553"; }
public override string f1554() { return "D.f1554"; }
public override string f1555() { return "D.f1555"; }
public override string f1556() { return "D.f1556"; }
public override string f1557() { return "D.f1557"; }
public override string f1558() { return "D.f1558"; }
public override string f1559() { return "D.f1559"; }
public override string f1560() { return "D.f1560"; }
public override string f1561() { return "D.f1561"; }
public override string f1562() { return "D.f1562"; }
public override string f1563() { return "D.f1563"; }
public override string f1564() { return "D.f1564"; }
public override string f1565() { return "D.f1565"; }
public override string f1566() { return "D.f1566"; }
public override string f1567() { return "D.f1567"; }
public override string f1568() { return "D.f1568"; }
public override string f1569() { return "D.f1569"; }
public override string f1570() { return "D.f1570"; }
public override string f1571() { return "D.f1571"; }
public override string f1572() { return "D.f1572"; }
public override string f1573() { return "D.f1573"; }
public override string f1574() { return "D.f1574"; }
public override string f1575() { return "D.f1575"; }
public override string f1576() { return "D.f1576"; }
public override string f1577() { return "D.f1577"; }
public override string f1578() { return "D.f1578"; }
public override string f1579() { return "D.f1579"; }
public override string f1580() { return "D.f1580"; }
public override string f1581() { return "D.f1581"; }
public override string f1582() { return "D.f1582"; }
public override string f1583() { return "D.f1583"; }
public override string f1584() { return "D.f1584"; }
public override string f1585() { return "D.f1585"; }
public override string f1586() { return "D.f1586"; }
public override string f1587() { return "D.f1587"; }
public override string f1588() { return "D.f1588"; }
public override string f1589() { return "D.f1589"; }
public override string f1590() { return "D.f1590"; }
public override string f1591() { return "D.f1591"; }
public override string f1592() { return "D.f1592"; }
public override string f1593() { return "D.f1593"; }
public override string f1594() { return "D.f1594"; }
public override string f1595() { return "D.f1595"; }
public override string f1596() { return "D.f1596"; }
public override string f1597() { return "D.f1597"; }
public override string f1598() { return "D.f1598"; }
public override string f1599() { return "D.f1599"; }
public override string f1600() { return "D.f1600"; }
public override string f1601() { return "D.f1601"; }
public override string f1602() { return "D.f1602"; }
public override string f1603() { return "D.f1603"; }
public override string f1604() { return "D.f1604"; }
public override string f1605() { return "D.f1605"; }
public override string f1606() { return "D.f1606"; }
public override string f1607() { return "D.f1607"; }
public override string f1608() { return "D.f1608"; }
public override string f1609() { return "D.f1609"; }
public override string f1610() { return "D.f1610"; }
public override string f1611() { return "D.f1611"; }
public override string f1612() { return "D.f1612"; }
public override string f1613() { return "D.f1613"; }
public override string f1614() { return "D.f1614"; }
public override string f1615() { return "D.f1615"; }
public override string f1616() { return "D.f1616"; }
public override string f1617() { return "D.f1617"; }
public override string f1618() { return "D.f1618"; }
public override string f1619() { return "D.f1619"; }
public override string f1620() { return "D.f1620"; }
public override string f1621() { return "D.f1621"; }
public override string f1622() { return "D.f1622"; }
public override string f1623() { return "D.f1623"; }
public override string f1624() { return "D.f1624"; }
public override string f1625() { return "D.f1625"; }
public override string f1626() { return "D.f1626"; }
public override string f1627() { return "D.f1627"; }
public override string f1628() { return "D.f1628"; }
public override string f1629() { return "D.f1629"; }
public override string f1630() { return "D.f1630"; }
public override string f1631() { return "D.f1631"; }
public override string f1632() { return "D.f1632"; }
public override string f1633() { return "D.f1633"; }
public override string f1634() { return "D.f1634"; }
public override string f1635() { return "D.f1635"; }
public override string f1636() { return "D.f1636"; }
public override string f1637() { return "D.f1637"; }
public override string f1638() { return "D.f1638"; }
public override string f1639() { return "D.f1639"; }
public override string f1640() { return "D.f1640"; }
public override string f1641() { return "D.f1641"; }
public override string f1642() { return "D.f1642"; }
public override string f1643() { return "D.f1643"; }
public override string f1644() { return "D.f1644"; }
public override string f1645() { return "D.f1645"; }
public override string f1646() { return "D.f1646"; }
public override string f1647() { return "D.f1647"; }
public override string f1648() { return "D.f1648"; }
public override string f1649() { return "D.f1649"; }
public override string f1650() { return "D.f1650"; }
public override string f1651() { return "D.f1651"; }
public override string f1652() { return "D.f1652"; }
public override string f1653() { return "D.f1653"; }
public override string f1654() { return "D.f1654"; }
public override string f1655() { return "D.f1655"; }
public override string f1656() { return "D.f1656"; }
public override string f1657() { return "D.f1657"; }
public override string f1658() { return "D.f1658"; }
public override string f1659() { return "D.f1659"; }
public override string f1660() { return "D.f1660"; }
public override string f1661() { return "D.f1661"; }
public override string f1662() { return "D.f1662"; }
public override string f1663() { return "D.f1663"; }
public override string f1664() { return "D.f1664"; }
public override string f1665() { return "D.f1665"; }
public override string f1666() { return "D.f1666"; }
public override string f1667() { return "D.f1667"; }
public override string f1668() { return "D.f1668"; }
public override string f1669() { return "D.f1669"; }
public override string f1670() { return "D.f1670"; }
public override string f1671() { return "D.f1671"; }
public override string f1672() { return "D.f1672"; }
public override string f1673() { return "D.f1673"; }
public override string f1674() { return "D.f1674"; }
public override string f1675() { return "D.f1675"; }
public override string f1676() { return "D.f1676"; }
public override string f1677() { return "D.f1677"; }
public override string f1678() { return "D.f1678"; }
public override string f1679() { return "D.f1679"; }
public override string f1680() { return "D.f1680"; }
public override string f1681() { return "D.f1681"; }
public override string f1682() { return "D.f1682"; }
public override string f1683() { return "D.f1683"; }
public override string f1684() { return "D.f1684"; }
public override string f1685() { return "D.f1685"; }
public override string f1686() { return "D.f1686"; }
public override string f1687() { return "D.f1687"; }
public override string f1688() { return "D.f1688"; }
public override string f1689() { return "D.f1689"; }
public override string f1690() { return "D.f1690"; }
public override string f1691() { return "D.f1691"; }
public override string f1692() { return "D.f1692"; }
public override string f1693() { return "D.f1693"; }
public override string f1694() { return "D.f1694"; }
public override string f1695() { return "D.f1695"; }
public override string f1696() { return "D.f1696"; }
public override string f1697() { return "D.f1697"; }
public override string f1698() { return "D.f1698"; }
public override string f1699() { return "D.f1699"; }
public override string f1700() { return "D.f1700"; }
public override string f1701() { return "D.f1701"; }
public override string f1702() { return "D.f1702"; }
public override string f1703() { return "D.f1703"; }
public override string f1704() { return "D.f1704"; }
public override string f1705() { return "D.f1705"; }
public override string f1706() { return "D.f1706"; }
public override string f1707() { return "D.f1707"; }
public override string f1708() { return "D.f1708"; }
public override string f1709() { return "D.f1709"; }
public override string f1710() { return "D.f1710"; }
public override string f1711() { return "D.f1711"; }
public override string f1712() { return "D.f1712"; }
public override string f1713() { return "D.f1713"; }
public override string f1714() { return "D.f1714"; }
public override string f1715() { return "D.f1715"; }
public override string f1716() { return "D.f1716"; }
public override string f1717() { return "D.f1717"; }
public override string f1718() { return "D.f1718"; }
public override string f1719() { return "D.f1719"; }
public override string f1720() { return "D.f1720"; }
public override string f1721() { return "D.f1721"; }
public override string f1722() { return "D.f1722"; }
public override string f1723() { return "D.f1723"; }
public override string f1724() { return "D.f1724"; }
public override string f1725() { return "D.f1725"; }
public override string f1726() { return "D.f1726"; }
public override string f1727() { return "D.f1727"; }
public override string f1728() { return "D.f1728"; }
public override string f1729() { return "D.f1729"; }
public override string f1730() { return "D.f1730"; }
public override string f1731() { return "D.f1731"; }
public override string f1732() { return "D.f1732"; }
public override string f1733() { return "D.f1733"; }
public override string f1734() { return "D.f1734"; }
public override string f1735() { return "D.f1735"; }
public override string f1736() { return "D.f1736"; }
public override string f1737() { return "D.f1737"; }
public override string f1738() { return "D.f1738"; }
public override string f1739() { return "D.f1739"; }
public override string f1740() { return "D.f1740"; }
public override string f1741() { return "D.f1741"; }
public override string f1742() { return "D.f1742"; }
public override string f1743() { return "D.f1743"; }
public override string f1744() { return "D.f1744"; }
public override string f1745() { return "D.f1745"; }
public override string f1746() { return "D.f1746"; }
public override string f1747() { return "D.f1747"; }
public override string f1748() { return "D.f1748"; }
public override string f1749() { return "D.f1749"; }
public override string f1750() { return "D.f1750"; }
public override string f1751() { return "D.f1751"; }
public override string f1752() { return "D.f1752"; }
public override string f1753() { return "D.f1753"; }
public override string f1754() { return "D.f1754"; }
public override string f1755() { return "D.f1755"; }
public override string f1756() { return "D.f1756"; }
public override string f1757() { return "D.f1757"; }
public override string f1758() { return "D.f1758"; }
public override string f1759() { return "D.f1759"; }
public override string f1760() { return "D.f1760"; }
public override string f1761() { return "D.f1761"; }
public override string f1762() { return "D.f1762"; }
public override string f1763() { return "D.f1763"; }
public override string f1764() { return "D.f1764"; }
public override string f1765() { return "D.f1765"; }
public override string f1766() { return "D.f1766"; }
public override string f1767() { return "D.f1767"; }
public override string f1768() { return "D.f1768"; }
public override string f1769() { return "D.f1769"; }
public override string f1770() { return "D.f1770"; }
public override string f1771() { return "D.f1771"; }
public override string f1772() { return "D.f1772"; }
public override string f1773() { return "D.f1773"; }
public override string f1774() { return "D.f1774"; }
public override string f1775() { return "D.f1775"; }
public override string f1776() { return "D.f1776"; }
public override string f1777() { return "D.f1777"; }
public override string f1778() { return "D.f1778"; }
public override string f1779() { return "D.f1779"; }
public override string f1780() { return "D.f1780"; }
public override string f1781() { return "D.f1781"; }
public override string f1782() { return "D.f1782"; }
public override string f1783() { return "D.f1783"; }
public override string f1784() { return "D.f1784"; }
public override string f1785() { return "D.f1785"; }
public override string f1786() { return "D.f1786"; }
public override string f1787() { return "D.f1787"; }
public override string f1788() { return "D.f1788"; }
public override string f1789() { return "D.f1789"; }
public override string f1790() { return "D.f1790"; }
public override string f1791() { return "D.f1791"; }
public override string f1792() { return "D.f1792"; }
public override string f1793() { return "D.f1793"; }
public override string f1794() { return "D.f1794"; }
public override string f1795() { return "D.f1795"; }
public override string f1796() { return "D.f1796"; }
public override string f1797() { return "D.f1797"; }
public override string f1798() { return "D.f1798"; }
public override string f1799() { return "D.f1799"; }
public override string f1800() { return "D.f1800"; }
public override string f1801() { return "D.f1801"; }
public override string f1802() { return "D.f1802"; }
public override string f1803() { return "D.f1803"; }
public override string f1804() { return "D.f1804"; }
public override string f1805() { return "D.f1805"; }
public override string f1806() { return "D.f1806"; }
public override string f1807() { return "D.f1807"; }
public override string f1808() { return "D.f1808"; }
public override string f1809() { return "D.f1809"; }
public override string f1810() { return "D.f1810"; }
public override string f1811() { return "D.f1811"; }
public override string f1812() { return "D.f1812"; }
public override string f1813() { return "D.f1813"; }
public override string f1814() { return "D.f1814"; }
public override string f1815() { return "D.f1815"; }
public override string f1816() { return "D.f1816"; }
public override string f1817() { return "D.f1817"; }
public override string f1818() { return "D.f1818"; }
public override string f1819() { return "D.f1819"; }
public override string f1820() { return "D.f1820"; }
public override string f1821() { return "D.f1821"; }
public override string f1822() { return "D.f1822"; }
public override string f1823() { return "D.f1823"; }
public override string f1824() { return "D.f1824"; }
public override string f1825() { return "D.f1825"; }
public override string f1826() { return "D.f1826"; }
public override string f1827() { return "D.f1827"; }
public override string f1828() { return "D.f1828"; }
public override string f1829() { return "D.f1829"; }
public override string f1830() { return "D.f1830"; }
public override string f1831() { return "D.f1831"; }
public override string f1832() { return "D.f1832"; }
public override string f1833() { return "D.f1833"; }
public override string f1834() { return "D.f1834"; }
public override string f1835() { return "D.f1835"; }
public override string f1836() { return "D.f1836"; }
public override string f1837() { return "D.f1837"; }
public override string f1838() { return "D.f1838"; }
public override string f1839() { return "D.f1839"; }
public override string f1840() { return "D.f1840"; }
public override string f1841() { return "D.f1841"; }
public override string f1842() { return "D.f1842"; }
public override string f1843() { return "D.f1843"; }
public override string f1844() { return "D.f1844"; }
public override string f1845() { return "D.f1845"; }
public override string f1846() { return "D.f1846"; }
public override string f1847() { return "D.f1847"; }
public override string f1848() { return "D.f1848"; }
public override string f1849() { return "D.f1849"; }
public override string f1850() { return "D.f1850"; }
public override string f1851() { return "D.f1851"; }
public override string f1852() { return "D.f1852"; }
public override string f1853() { return "D.f1853"; }
public override string f1854() { return "D.f1854"; }
public override string f1855() { return "D.f1855"; }
public override string f1856() { return "D.f1856"; }
public override string f1857() { return "D.f1857"; }
public override string f1858() { return "D.f1858"; }
public override string f1859() { return "D.f1859"; }
public override string f1860() { return "D.f1860"; }
public override string f1861() { return "D.f1861"; }
public override string f1862() { return "D.f1862"; }
public override string f1863() { return "D.f1863"; }
public override string f1864() { return "D.f1864"; }
public override string f1865() { return "D.f1865"; }
public override string f1866() { return "D.f1866"; }
public override string f1867() { return "D.f1867"; }
public override string f1868() { return "D.f1868"; }
public override string f1869() { return "D.f1869"; }
public override string f1870() { return "D.f1870"; }
public override string f1871() { return "D.f1871"; }
public override string f1872() { return "D.f1872"; }
public override string f1873() { return "D.f1873"; }
public override string f1874() { return "D.f1874"; }
public override string f1875() { return "D.f1875"; }
public override string f1876() { return "D.f1876"; }
public override string f1877() { return "D.f1877"; }
public override string f1878() { return "D.f1878"; }
public override string f1879() { return "D.f1879"; }
public override string f1880() { return "D.f1880"; }
public override string f1881() { return "D.f1881"; }
public override string f1882() { return "D.f1882"; }
public override string f1883() { return "D.f1883"; }
public override string f1884() { return "D.f1884"; }
public override string f1885() { return "D.f1885"; }
public override string f1886() { return "D.f1886"; }
public override string f1887() { return "D.f1887"; }
public override string f1888() { return "D.f1888"; }
public override string f1889() { return "D.f1889"; }
public override string f1890() { return "D.f1890"; }
public override string f1891() { return "D.f1891"; }
public override string f1892() { return "D.f1892"; }
public override string f1893() { return "D.f1893"; }
public override string f1894() { return "D.f1894"; }
public override string f1895() { return "D.f1895"; }
public override string f1896() { return "D.f1896"; }
public override string f1897() { return "D.f1897"; }
public override string f1898() { return "D.f1898"; }
public override string f1899() { return "D.f1899"; }
public override string f1900() { return "D.f1900"; }
public override string f1901() { return "D.f1901"; }
public override string f1902() { return "D.f1902"; }
public override string f1903() { return "D.f1903"; }
public override string f1904() { return "D.f1904"; }
public override string f1905() { return "D.f1905"; }
public override string f1906() { return "D.f1906"; }
public override string f1907() { return "D.f1907"; }
public override string f1908() { return "D.f1908"; }
public override string f1909() { return "D.f1909"; }
public override string f1910() { return "D.f1910"; }
public override string f1911() { return "D.f1911"; }
public override string f1912() { return "D.f1912"; }
public override string f1913() { return "D.f1913"; }
public override string f1914() { return "D.f1914"; }
public override string f1915() { return "D.f1915"; }
public override string f1916() { return "D.f1916"; }
public override string f1917() { return "D.f1917"; }
public override string f1918() { return "D.f1918"; }
public override string f1919() { return "D.f1919"; }
public override string f1920() { return "D.f1920"; }
public override string f1921() { return "D.f1921"; }
public override string f1922() { return "D.f1922"; }
public override string f1923() { return "D.f1923"; }
public override string f1924() { return "D.f1924"; }
public override string f1925() { return "D.f1925"; }
public override string f1926() { return "D.f1926"; }
public override string f1927() { return "D.f1927"; }
public override string f1928() { return "D.f1928"; }
public override string f1929() { return "D.f1929"; }
public override string f1930() { return "D.f1930"; }
public override string f1931() { return "D.f1931"; }
public override string f1932() { return "D.f1932"; }
public override string f1933() { return "D.f1933"; }
public override string f1934() { return "D.f1934"; }
public override string f1935() { return "D.f1935"; }
public override string f1936() { return "D.f1936"; }
public override string f1937() { return "D.f1937"; }
public override string f1938() { return "D.f1938"; }
public override string f1939() { return "D.f1939"; }
public override string f1940() { return "D.f1940"; }
public override string f1941() { return "D.f1941"; }
public override string f1942() { return "D.f1942"; }
public override string f1943() { return "D.f1943"; }
public override string f1944() { return "D.f1944"; }
public override string f1945() { return "D.f1945"; }
public override string f1946() { return "D.f1946"; }
public override string f1947() { return "D.f1947"; }
public override string f1948() { return "D.f1948"; }
public override string f1949() { return "D.f1949"; }
public override string f1950() { return "D.f1950"; }
public override string f1951() { return "D.f1951"; }
public override string f1952() { return "D.f1952"; }
public override string f1953() { return "D.f1953"; }
public override string f1954() { return "D.f1954"; }
public override string f1955() { return "D.f1955"; }
public override string f1956() { return "D.f1956"; }
public override string f1957() { return "D.f1957"; }
public override string f1958() { return "D.f1958"; }
public override string f1959() { return "D.f1959"; }
public override string f1960() { return "D.f1960"; }
public override string f1961() { return "D.f1961"; }
public override string f1962() { return "D.f1962"; }
public override string f1963() { return "D.f1963"; }
public override string f1964() { return "D.f1964"; }
public override string f1965() { return "D.f1965"; }
public override string f1966() { return "D.f1966"; }
public override string f1967() { return "D.f1967"; }
public override string f1968() { return "D.f1968"; }
public override string f1969() { return "D.f1969"; }
public override string f1970() { return "D.f1970"; }
public override string f1971() { return "D.f1971"; }
public override string f1972() { return "D.f1972"; }
public override string f1973() { return "D.f1973"; }
public override string f1974() { return "D.f1974"; }
public override string f1975() { return "D.f1975"; }
public override string f1976() { return "D.f1976"; }
public override string f1977() { return "D.f1977"; }
public override string f1978() { return "D.f1978"; }
public override string f1979() { return "D.f1979"; }
public override string f1980() { return "D.f1980"; }
public override string f1981() { return "D.f1981"; }
public override string f1982() { return "D.f1982"; }
public override string f1983() { return "D.f1983"; }
public override string f1984() { return "D.f1984"; }
public override string f1985() { return "D.f1985"; }
public override string f1986() { return "D.f1986"; }
public override string f1987() { return "D.f1987"; }
public override string f1988() { return "D.f1988"; }
public override string f1989() { return "D.f1989"; }
public override string f1990() { return "D.f1990"; }
public override string f1991() { return "D.f1991"; }
public override string f1992() { return "D.f1992"; }
public override string f1993() { return "D.f1993"; }
public override string f1994() { return "D.f1994"; }
public override string f1995() { return "D.f1995"; }
public override string f1996() { return "D.f1996"; }
public override string f1997() { return "D.f1997"; }
public override string f1998() { return "D.f1998"; }
public override string f1999() { return "D.f1999"; }
public override string f2000() { return "D.f2000"; }
public override string f2001() { return "D.f2001"; }
public override string f2002() { return "D.f2002"; }
public override string f2003() { return "D.f2003"; }
public override string f2004() { return "D.f2004"; }
public override string f2005() { return "D.f2005"; }
public override string f2006() { return "D.f2006"; }
public override string f2007() { return "D.f2007"; }
public override string f2008() { return "D.f2008"; }
public override string f2009() { return "D.f2009"; }
public override string f2010() { return "D.f2010"; }
public override string f2011() { return "D.f2011"; }
public override string f2012() { return "D.f2012"; }
public override string f2013() { return "D.f2013"; }
public override string f2014() { return "D.f2014"; }
public override string f2015() { return "D.f2015"; }
public override string f2016() { return "D.f2016"; }
public override string f2017() { return "D.f2017"; }
public override string f2018() { return "D.f2018"; }
public override string f2019() { return "D.f2019"; }
public override string f2020() { return "D.f2020"; }
public override string f2021() { return "D.f2021"; }
public override string f2022() { return "D.f2022"; }
public override string f2023() { return "D.f2023"; }
public override string f2024() { return "D.f2024"; }
public override string f2025() { return "D.f2025"; }
public override string f2026() { return "D.f2026"; }
public override string f2027() { return "D.f2027"; }
public override string f2028() { return "D.f2028"; }
public override string f2029() { return "D.f2029"; }
public override string f2030() { return "D.f2030"; }
public override string f2031() { return "D.f2031"; }
public override string f2032() { return "D.f2032"; }
public override string f2033() { return "D.f2033"; }
public override string f2034() { return "D.f2034"; }
public override string f2035() { return "D.f2035"; }
public override string f2036() { return "D.f2036"; }
public override string f2037() { return "D.f2037"; }
public override string f2038() { return "D.f2038"; }
public override string f2039() { return "D.f2039"; }
public override string f2040() { return "D.f2040"; }
public override string f2041() { return "D.f2041"; }
public override string f2042() { return "D.f2042"; }
public override string f2043() { return "D.f2043"; }
public override string f2044() { return "D.f2044"; }
public override string f2045() { return "D.f2045"; }
public override string f2046() { return "D.f2046"; }
public override string f2047() { return "D.f2047"; }
public override string f2048() { return "D.f2048"; }
public override string f2049() { return "D.f2049"; }
public override string f2050() { return "D.f2050"; }
public override string f2051() { return "D.f2051"; }
public override string f2052() { return "D.f2052"; }
public override string f2053() { return "D.f2053"; }
public override string f2054() { return "D.f2054"; }
public override string f2055() { return "D.f2055"; }
public override string f2056() { return "D.f2056"; }
public override string f2057() { return "D.f2057"; }
public override string f2058() { return "D.f2058"; }
public override string f2059() { return "D.f2059"; }
public override string f2060() { return "D.f2060"; }
public override string f2061() { return "D.f2061"; }
public override string f2062() { return "D.f2062"; }
public override string f2063() { return "D.f2063"; }
public override string f2064() { return "D.f2064"; }
public override string f2065() { return "D.f2065"; }
public override string f2066() { return "D.f2066"; }
public override string f2067() { return "D.f2067"; }
public override string f2068() { return "D.f2068"; }
public override string f2069() { return "D.f2069"; }
public override string f2070() { return "D.f2070"; }
public override string f2071() { return "D.f2071"; }
public override string f2072() { return "D.f2072"; }
public override string f2073() { return "D.f2073"; }
public override string f2074() { return "D.f2074"; }
public override string f2075() { return "D.f2075"; }
public override string f2076() { return "D.f2076"; }
public override string f2077() { return "D.f2077"; }
public override string f2078() { return "D.f2078"; }
public override string f2079() { return "D.f2079"; }
public override string f2080() { return "D.f2080"; }
public override string f2081() { return "D.f2081"; }
public override string f2082() { return "D.f2082"; }
public override string f2083() { return "D.f2083"; }
public override string f2084() { return "D.f2084"; }
public override string f2085() { return "D.f2085"; }
public override string f2086() { return "D.f2086"; }
public override string f2087() { return "D.f2087"; }
public override string f2088() { return "D.f2088"; }
public override string f2089() { return "D.f2089"; }
public override string f2090() { return "D.f2090"; }
public override string f2091() { return "D.f2091"; }
public override string f2092() { return "D.f2092"; }
public override string f2093() { return "D.f2093"; }
public override string f2094() { return "D.f2094"; }
public override string f2095() { return "D.f2095"; }
public override string f2096() { return "D.f2096"; }
public override string f2097() { return "D.f2097"; }
public override string f2098() { return "D.f2098"; }
public override string f2099() { return "D.f2099"; }
public override string f2100() { return "D.f2100"; }
public override string f2101() { return "D.f2101"; }
public override string f2102() { return "D.f2102"; }
public override string f2103() { return "D.f2103"; }
public override string f2104() { return "D.f2104"; }
public override string f2105() { return "D.f2105"; }
public override string f2106() { return "D.f2106"; }
public override string f2107() { return "D.f2107"; }
public override string f2108() { return "D.f2108"; }
public override string f2109() { return "D.f2109"; }
public override string f2110() { return "D.f2110"; }
public override string f2111() { return "D.f2111"; }
public override string f2112() { return "D.f2112"; }
public override string f2113() { return "D.f2113"; }
public override string f2114() { return "D.f2114"; }
public override string f2115() { return "D.f2115"; }
public override string f2116() { return "D.f2116"; }
public override string f2117() { return "D.f2117"; }
public override string f2118() { return "D.f2118"; }
public override string f2119() { return "D.f2119"; }
public override string f2120() { return "D.f2120"; }
public override string f2121() { return "D.f2121"; }
public override string f2122() { return "D.f2122"; }
public override string f2123() { return "D.f2123"; }
public override string f2124() { return "D.f2124"; }
public override string f2125() { return "D.f2125"; }
public override string f2126() { return "D.f2126"; }
public override string f2127() { return "D.f2127"; }
public override string f2128() { return "D.f2128"; }
public override string f2129() { return "D.f2129"; }
public override string f2130() { return "D.f2130"; }
public override string f2131() { return "D.f2131"; }
public override string f2132() { return "D.f2132"; }
public override string f2133() { return "D.f2133"; }
public override string f2134() { return "D.f2134"; }
public override string f2135() { return "D.f2135"; }
public override string f2136() { return "D.f2136"; }
public override string f2137() { return "D.f2137"; }
public override string f2138() { return "D.f2138"; }
public override string f2139() { return "D.f2139"; }
public override string f2140() { return "D.f2140"; }
public override string f2141() { return "D.f2141"; }
public override string f2142() { return "D.f2142"; }
public override string f2143() { return "D.f2143"; }
public override string f2144() { return "D.f2144"; }
public override string f2145() { return "D.f2145"; }
public override string f2146() { return "D.f2146"; }
public override string f2147() { return "D.f2147"; }
public override string f2148() { return "D.f2148"; }
public override string f2149() { return "D.f2149"; }
public override string f2150() { return "D.f2150"; }
public override string f2151() { return "D.f2151"; }
public override string f2152() { return "D.f2152"; }
public override string f2153() { return "D.f2153"; }
public override string f2154() { return "D.f2154"; }
public override string f2155() { return "D.f2155"; }
public override string f2156() { return "D.f2156"; }
public override string f2157() { return "D.f2157"; }
public override string f2158() { return "D.f2158"; }
public override string f2159() { return "D.f2159"; }
public override string f2160() { return "D.f2160"; }
public override string f2161() { return "D.f2161"; }
public override string f2162() { return "D.f2162"; }
public override string f2163() { return "D.f2163"; }
public override string f2164() { return "D.f2164"; }
public override string f2165() { return "D.f2165"; }
public override string f2166() { return "D.f2166"; }
public override string f2167() { return "D.f2167"; }
public override string f2168() { return "D.f2168"; }
public override string f2169() { return "D.f2169"; }
public override string f2170() { return "D.f2170"; }
public override string f2171() { return "D.f2171"; }
public override string f2172() { return "D.f2172"; }
public override string f2173() { return "D.f2173"; }
public override string f2174() { return "D.f2174"; }
public override string f2175() { return "D.f2175"; }
public override string f2176() { return "D.f2176"; }
public override string f2177() { return "D.f2177"; }
public override string f2178() { return "D.f2178"; }
public override string f2179() { return "D.f2179"; }
public override string f2180() { return "D.f2180"; }
public override string f2181() { return "D.f2181"; }
public override string f2182() { return "D.f2182"; }
public override string f2183() { return "D.f2183"; }
public override string f2184() { return "D.f2184"; }
public override string f2185() { return "D.f2185"; }
public override string f2186() { return "D.f2186"; }
public override string f2187() { return "D.f2187"; }
public override string f2188() { return "D.f2188"; }
public override string f2189() { return "D.f2189"; }
public override string f2190() { return "D.f2190"; }
public override string f2191() { return "D.f2191"; }
public override string f2192() { return "D.f2192"; }
public override string f2193() { return "D.f2193"; }
public override string f2194() { return "D.f2194"; }
public override string f2195() { return "D.f2195"; }
public override string f2196() { return "D.f2196"; }
public override string f2197() { return "D.f2197"; }
public override string f2198() { return "D.f2198"; }
public override string f2199() { return "D.f2199"; }
public override string f2200() { return "D.f2200"; }
public override string f2201() { return "D.f2201"; }
public override string f2202() { return "D.f2202"; }
public override string f2203() { return "D.f2203"; }
public override string f2204() { return "D.f2204"; }
public override string f2205() { return "D.f2205"; }
public override string f2206() { return "D.f2206"; }
public override string f2207() { return "D.f2207"; }
public override string f2208() { return "D.f2208"; }
public override string f2209() { return "D.f2209"; }
public override string f2210() { return "D.f2210"; }
public override string f2211() { return "D.f2211"; }
public override string f2212() { return "D.f2212"; }
public override string f2213() { return "D.f2213"; }
public override string f2214() { return "D.f2214"; }
public override string f2215() { return "D.f2215"; }
public override string f2216() { return "D.f2216"; }
public override string f2217() { return "D.f2217"; }
public override string f2218() { return "D.f2218"; }
public override string f2219() { return "D.f2219"; }
public override string f2220() { return "D.f2220"; }
public override string f2221() { return "D.f2221"; }
public override string f2222() { return "D.f2222"; }
public override string f2223() { return "D.f2223"; }
public override string f2224() { return "D.f2224"; }
public override string f2225() { return "D.f2225"; }
public override string f2226() { return "D.f2226"; }
public override string f2227() { return "D.f2227"; }
public override string f2228() { return "D.f2228"; }
public override string f2229() { return "D.f2229"; }
public override string f2230() { return "D.f2230"; }
public override string f2231() { return "D.f2231"; }
public override string f2232() { return "D.f2232"; }
public override string f2233() { return "D.f2233"; }
public override string f2234() { return "D.f2234"; }
public override string f2235() { return "D.f2235"; }
public override string f2236() { return "D.f2236"; }
public override string f2237() { return "D.f2237"; }
public override string f2238() { return "D.f2238"; }
public override string f2239() { return "D.f2239"; }
public override string f2240() { return "D.f2240"; }
public override string f2241() { return "D.f2241"; }
public override string f2242() { return "D.f2242"; }
public override string f2243() { return "D.f2243"; }
public override string f2244() { return "D.f2244"; }
public override string f2245() { return "D.f2245"; }
public override string f2246() { return "D.f2246"; }
public override string f2247() { return "D.f2247"; }
public override string f2248() { return "D.f2248"; }
public override string f2249() { return "D.f2249"; }
public override string f2250() { return "D.f2250"; }
public override string f2251() { return "D.f2251"; }
public override string f2252() { return "D.f2252"; }
public override string f2253() { return "D.f2253"; }
public override string f2254() { return "D.f2254"; }
public override string f2255() { return "D.f2255"; }
public override string f2256() { return "D.f2256"; }
public override string f2257() { return "D.f2257"; }
public override string f2258() { return "D.f2258"; }
public override string f2259() { return "D.f2259"; }
public override string f2260() { return "D.f2260"; }
public override string f2261() { return "D.f2261"; }
public override string f2262() { return "D.f2262"; }
public override string f2263() { return "D.f2263"; }
public override string f2264() { return "D.f2264"; }
public override string f2265() { return "D.f2265"; }
public override string f2266() { return "D.f2266"; }
public override string f2267() { return "D.f2267"; }
public override string f2268() { return "D.f2268"; }
public override string f2269() { return "D.f2269"; }
public override string f2270() { return "D.f2270"; }
public override string f2271() { return "D.f2271"; }
public override string f2272() { return "D.f2272"; }
public override string f2273() { return "D.f2273"; }
public override string f2274() { return "D.f2274"; }
public override string f2275() { return "D.f2275"; }
public override string f2276() { return "D.f2276"; }
public override string f2277() { return "D.f2277"; }
public override string f2278() { return "D.f2278"; }
public override string f2279() { return "D.f2279"; }
public override string f2280() { return "D.f2280"; }
public override string f2281() { return "D.f2281"; }
public override string f2282() { return "D.f2282"; }
public override string f2283() { return "D.f2283"; }
public override string f2284() { return "D.f2284"; }
public override string f2285() { return "D.f2285"; }
public override string f2286() { return "D.f2286"; }
public override string f2287() { return "D.f2287"; }
public override string f2288() { return "D.f2288"; }
public override string f2289() { return "D.f2289"; }
public override string f2290() { return "D.f2290"; }
public override string f2291() { return "D.f2291"; }
public override string f2292() { return "D.f2292"; }
public override string f2293() { return "D.f2293"; }
public override string f2294() { return "D.f2294"; }
public override string f2295() { return "D.f2295"; }
public override string f2296() { return "D.f2296"; }
public override string f2297() { return "D.f2297"; }
public override string f2298() { return "D.f2298"; }
public override string f2299() { return "D.f2299"; }
public override string f2300() { return "D.f2300"; }
public override string f2301() { return "D.f2301"; }
public override string f2302() { return "D.f2302"; }
public override string f2303() { return "D.f2303"; }
public override string f2304() { return "D.f2304"; }
public override string f2305() { return "D.f2305"; }
public override string f2306() { return "D.f2306"; }
public override string f2307() { return "D.f2307"; }
public override string f2308() { return "D.f2308"; }
public override string f2309() { return "D.f2309"; }
public override string f2310() { return "D.f2310"; }
public override string f2311() { return "D.f2311"; }
public override string f2312() { return "D.f2312"; }
public override string f2313() { return "D.f2313"; }
public override string f2314() { return "D.f2314"; }
public override string f2315() { return "D.f2315"; }
public override string f2316() { return "D.f2316"; }
public override string f2317() { return "D.f2317"; }
public override string f2318() { return "D.f2318"; }
public override string f2319() { return "D.f2319"; }
public override string f2320() { return "D.f2320"; }
public override string f2321() { return "D.f2321"; }
public override string f2322() { return "D.f2322"; }
public override string f2323() { return "D.f2323"; }
public override string f2324() { return "D.f2324"; }
public override string f2325() { return "D.f2325"; }
public override string f2326() { return "D.f2326"; }
public override string f2327() { return "D.f2327"; }
public override string f2328() { return "D.f2328"; }
public override string f2329() { return "D.f2329"; }
public override string f2330() { return "D.f2330"; }
public override string f2331() { return "D.f2331"; }
public override string f2332() { return "D.f2332"; }
public override string f2333() { return "D.f2333"; }
public override string f2334() { return "D.f2334"; }
public override string f2335() { return "D.f2335"; }
public override string f2336() { return "D.f2336"; }
public override string f2337() { return "D.f2337"; }
public override string f2338() { return "D.f2338"; }
public override string f2339() { return "D.f2339"; }
public override string f2340() { return "D.f2340"; }
public override string f2341() { return "D.f2341"; }
public override string f2342() { return "D.f2342"; }
public override string f2343() { return "D.f2343"; }
public override string f2344() { return "D.f2344"; }
public override string f2345() { return "D.f2345"; }
public override string f2346() { return "D.f2346"; }
public override string f2347() { return "D.f2347"; }
public override string f2348() { return "D.f2348"; }
public override string f2349() { return "D.f2349"; }
public override string f2350() { return "D.f2350"; }
public override string f2351() { return "D.f2351"; }
public override string f2352() { return "D.f2352"; }
public override string f2353() { return "D.f2353"; }
public override string f2354() { return "D.f2354"; }
public override string f2355() { return "D.f2355"; }
public override string f2356() { return "D.f2356"; }
public override string f2357() { return "D.f2357"; }
public override string f2358() { return "D.f2358"; }
public override string f2359() { return "D.f2359"; }
public override string f2360() { return "D.f2360"; }
public override string f2361() { return "D.f2361"; }
public override string f2362() { return "D.f2362"; }
public override string f2363() { return "D.f2363"; }
public override string f2364() { return "D.f2364"; }
public override string f2365() { return "D.f2365"; }
public override string f2366() { return "D.f2366"; }
public override string f2367() { return "D.f2367"; }
public override string f2368() { return "D.f2368"; }
public override string f2369() { return "D.f2369"; }
public override string f2370() { return "D.f2370"; }
public override string f2371() { return "D.f2371"; }
public override string f2372() { return "D.f2372"; }
public override string f2373() { return "D.f2373"; }
public override string f2374() { return "D.f2374"; }
public override string f2375() { return "D.f2375"; }
public override string f2376() { return "D.f2376"; }
public override string f2377() { return "D.f2377"; }
public override string f2378() { return "D.f2378"; }
public override string f2379() { return "D.f2379"; }
public override string f2380() { return "D.f2380"; }
public override string f2381() { return "D.f2381"; }
public override string f2382() { return "D.f2382"; }
public override string f2383() { return "D.f2383"; }
public override string f2384() { return "D.f2384"; }
public override string f2385() { return "D.f2385"; }
public override string f2386() { return "D.f2386"; }
public override string f2387() { return "D.f2387"; }
public override string f2388() { return "D.f2388"; }
public override string f2389() { return "D.f2389"; }
public override string f2390() { return "D.f2390"; }
public override string f2391() { return "D.f2391"; }
public override string f2392() { return "D.f2392"; }
public override string f2393() { return "D.f2393"; }
public override string f2394() { return "D.f2394"; }
public override string f2395() { return "D.f2395"; }
public override string f2396() { return "D.f2396"; }
public override string f2397() { return "D.f2397"; }
public override string f2398() { return "D.f2398"; }
public override string f2399() { return "D.f2399"; }
public override string f2400() { return "D.f2400"; }
public override string f2401() { return "D.f2401"; }
public override string f2402() { return "D.f2402"; }
public override string f2403() { return "D.f2403"; }
public override string f2404() { return "D.f2404"; }
public override string f2405() { return "D.f2405"; }
public override string f2406() { return "D.f2406"; }
public override string f2407() { return "D.f2407"; }
public override string f2408() { return "D.f2408"; }
public override string f2409() { return "D.f2409"; }
public override string f2410() { return "D.f2410"; }
public override string f2411() { return "D.f2411"; }
public override string f2412() { return "D.f2412"; }
public override string f2413() { return "D.f2413"; }
public override string f2414() { return "D.f2414"; }
public override string f2415() { return "D.f2415"; }
public override string f2416() { return "D.f2416"; }
public override string f2417() { return "D.f2417"; }
public override string f2418() { return "D.f2418"; }
public override string f2419() { return "D.f2419"; }
public override string f2420() { return "D.f2420"; }
public override string f2421() { return "D.f2421"; }
public override string f2422() { return "D.f2422"; }
public override string f2423() { return "D.f2423"; }
public override string f2424() { return "D.f2424"; }
public override string f2425() { return "D.f2425"; }
public override string f2426() { return "D.f2426"; }
public override string f2427() { return "D.f2427"; }
public override string f2428() { return "D.f2428"; }
public override string f2429() { return "D.f2429"; }
public override string f2430() { return "D.f2430"; }
public override string f2431() { return "D.f2431"; }
public override string f2432() { return "D.f2432"; }
public override string f2433() { return "D.f2433"; }
public override string f2434() { return "D.f2434"; }
public override string f2435() { return "D.f2435"; }
public override string f2436() { return "D.f2436"; }
public override string f2437() { return "D.f2437"; }
public override string f2438() { return "D.f2438"; }
public override string f2439() { return "D.f2439"; }
public override string f2440() { return "D.f2440"; }
public override string f2441() { return "D.f2441"; }
public override string f2442() { return "D.f2442"; }
public override string f2443() { return "D.f2443"; }
public override string f2444() { return "D.f2444"; }
public override string f2445() { return "D.f2445"; }
public override string f2446() { return "D.f2446"; }
public override string f2447() { return "D.f2447"; }
public override string f2448() { return "D.f2448"; }
public override string f2449() { return "D.f2449"; }
public override string f2450() { return "D.f2450"; }
public override string f2451() { return "D.f2451"; }
public override string f2452() { return "D.f2452"; }
public override string f2453() { return "D.f2453"; }
public override string f2454() { return "D.f2454"; }
public override string f2455() { return "D.f2455"; }
public override string f2456() { return "D.f2456"; }
public override string f2457() { return "D.f2457"; }
public override string f2458() { return "D.f2458"; }
public override string f2459() { return "D.f2459"; }
public override string f2460() { return "D.f2460"; }
public override string f2461() { return "D.f2461"; }
public override string f2462() { return "D.f2462"; }
public override string f2463() { return "D.f2463"; }
public override string f2464() { return "D.f2464"; }
public override string f2465() { return "D.f2465"; }
public override string f2466() { return "D.f2466"; }
public override string f2467() { return "D.f2467"; }
public override string f2468() { return "D.f2468"; }
public override string f2469() { return "D.f2469"; }
public override string f2470() { return "D.f2470"; }
public override string f2471() { return "D.f2471"; }
public override string f2472() { return "D.f2472"; }
public override string f2473() { return "D.f2473"; }
public override string f2474() { return "D.f2474"; }
public override string f2475() { return "D.f2475"; }
public override string f2476() { return "D.f2476"; }
public override string f2477() { return "D.f2477"; }
public override string f2478() { return "D.f2478"; }
public override string f2479() { return "D.f2479"; }
public override string f2480() { return "D.f2480"; }
public override string f2481() { return "D.f2481"; }
public override string f2482() { return "D.f2482"; }
public override string f2483() { return "D.f2483"; }
public override string f2484() { return "D.f2484"; }
public override string f2485() { return "D.f2485"; }
public override string f2486() { return "D.f2486"; }
public override string f2487() { return "D.f2487"; }
public override string f2488() { return "D.f2488"; }
public override string f2489() { return "D.f2489"; }
public override string f2490() { return "D.f2490"; }
public override string f2491() { return "D.f2491"; }
public override string f2492() { return "D.f2492"; }
public override string f2493() { return "D.f2493"; }
public override string f2494() { return "D.f2494"; }
public override string f2495() { return "D.f2495"; }
public override string f2496() { return "D.f2496"; }
public override string f2497() { return "D.f2497"; }
public override string f2498() { return "D.f2498"; }
public override string f2499() { return "D.f2499"; }
public override string f2500() { return "D.f2500"; }
public override string f2501() { return "D.f2501"; }
public override string f2502() { return "D.f2502"; }
public override string f2503() { return "D.f2503"; }
public override string f2504() { return "D.f2504"; }
public override string f2505() { return "D.f2505"; }
public override string f2506() { return "D.f2506"; }
public override string f2507() { return "D.f2507"; }
public override string f2508() { return "D.f2508"; }
public override string f2509() { return "D.f2509"; }
public override string f2510() { return "D.f2510"; }
public override string f2511() { return "D.f2511"; }
public override string f2512() { return "D.f2512"; }
public override string f2513() { return "D.f2513"; }
public override string f2514() { return "D.f2514"; }
public override string f2515() { return "D.f2515"; }
public override string f2516() { return "D.f2516"; }
public override string f2517() { return "D.f2517"; }
public override string f2518() { return "D.f2518"; }
public override string f2519() { return "D.f2519"; }
public override string f2520() { return "D.f2520"; }
public override string f2521() { return "D.f2521"; }
public override string f2522() { return "D.f2522"; }
public override string f2523() { return "D.f2523"; }
public override string f2524() { return "D.f2524"; }
public override string f2525() { return "D.f2525"; }
public override string f2526() { return "D.f2526"; }
public override string f2527() { return "D.f2527"; }
public override string f2528() { return "D.f2528"; }
public override string f2529() { return "D.f2529"; }
public override string f2530() { return "D.f2530"; }
public override string f2531() { return "D.f2531"; }
public override string f2532() { return "D.f2532"; }
public override string f2533() { return "D.f2533"; }
public override string f2534() { return "D.f2534"; }
public override string f2535() { return "D.f2535"; }
public override string f2536() { return "D.f2536"; }
public override string f2537() { return "D.f2537"; }
public override string f2538() { return "D.f2538"; }
public override string f2539() { return "D.f2539"; }
public override string f2540() { return "D.f2540"; }
public override string f2541() { return "D.f2541"; }
public override string f2542() { return "D.f2542"; }
public override string f2543() { return "D.f2543"; }
public override string f2544() { return "D.f2544"; }
public override string f2545() { return "D.f2545"; }
public override string f2546() { return "D.f2546"; }
public override string f2547() { return "D.f2547"; }
public override string f2548() { return "D.f2548"; }
public override string f2549() { return "D.f2549"; }
public override string f2550() { return "D.f2550"; }
public override string f2551() { return "D.f2551"; }
public override string f2552() { return "D.f2552"; }
public override string f2553() { return "D.f2553"; }
public override string f2554() { return "D.f2554"; }
public override string f2555() { return "D.f2555"; }
public override string f2556() { return "D.f2556"; }
public override string f2557() { return "D.f2557"; }
public override string f2558() { return "D.f2558"; }
public override string f2559() { return "D.f2559"; }
public override string f2560() { return "D.f2560"; }
public override string f2561() { return "D.f2561"; }
public override string f2562() { return "D.f2562"; }
public override string f2563() { return "D.f2563"; }
public override string f2564() { return "D.f2564"; }
public override string f2565() { return "D.f2565"; }
public override string f2566() { return "D.f2566"; }
public override string f2567() { return "D.f2567"; }
public override string f2568() { return "D.f2568"; }
public override string f2569() { return "D.f2569"; }
public override string f2570() { return "D.f2570"; }
public override string f2571() { return "D.f2571"; }
public override string f2572() { return "D.f2572"; }
public override string f2573() { return "D.f2573"; }
public override string f2574() { return "D.f2574"; }
public override string f2575() { return "D.f2575"; }
public override string f2576() { return "D.f2576"; }
public override string f2577() { return "D.f2577"; }
public override string f2578() { return "D.f2578"; }
public override string f2579() { return "D.f2579"; }
public override string f2580() { return "D.f2580"; }
public override string f2581() { return "D.f2581"; }
public override string f2582() { return "D.f2582"; }
public override string f2583() { return "D.f2583"; }
public override string f2584() { return "D.f2584"; }
public override string f2585() { return "D.f2585"; }
public override string f2586() { return "D.f2586"; }
public override string f2587() { return "D.f2587"; }
public override string f2588() { return "D.f2588"; }
public override string f2589() { return "D.f2589"; }
public override string f2590() { return "D.f2590"; }
public override string f2591() { return "D.f2591"; }
public override string f2592() { return "D.f2592"; }
public override string f2593() { return "D.f2593"; }
public override string f2594() { return "D.f2594"; }
public override string f2595() { return "D.f2595"; }
public override string f2596() { return "D.f2596"; }
public override string f2597() { return "D.f2597"; }
public override string f2598() { return "D.f2598"; }
public override string f2599() { return "D.f2599"; }
public override string f2600() { return "D.f2600"; }
public override string f2601() { return "D.f2601"; }
public override string f2602() { return "D.f2602"; }
public override string f2603() { return "D.f2603"; }
public override string f2604() { return "D.f2604"; }
public override string f2605() { return "D.f2605"; }
public override string f2606() { return "D.f2606"; }
public override string f2607() { return "D.f2607"; }
public override string f2608() { return "D.f2608"; }
public override string f2609() { return "D.f2609"; }
public override string f2610() { return "D.f2610"; }
public override string f2611() { return "D.f2611"; }
public override string f2612() { return "D.f2612"; }
public override string f2613() { return "D.f2613"; }
public override string f2614() { return "D.f2614"; }
public override string f2615() { return "D.f2615"; }
public override string f2616() { return "D.f2616"; }
public override string f2617() { return "D.f2617"; }
public override string f2618() { return "D.f2618"; }
public override string f2619() { return "D.f2619"; }
public override string f2620() { return "D.f2620"; }
public override string f2621() { return "D.f2621"; }
public override string f2622() { return "D.f2622"; }
public override string f2623() { return "D.f2623"; }
public override string f2624() { return "D.f2624"; }
public override string f2625() { return "D.f2625"; }
public override string f2626() { return "D.f2626"; }
public override string f2627() { return "D.f2627"; }
public override string f2628() { return "D.f2628"; }
public override string f2629() { return "D.f2629"; }
public override string f2630() { return "D.f2630"; }
public override string f2631() { return "D.f2631"; }
public override string f2632() { return "D.f2632"; }
public override string f2633() { return "D.f2633"; }
public override string f2634() { return "D.f2634"; }
public override string f2635() { return "D.f2635"; }
public override string f2636() { return "D.f2636"; }
public override string f2637() { return "D.f2637"; }
public override string f2638() { return "D.f2638"; }
public override string f2639() { return "D.f2639"; }
public override string f2640() { return "D.f2640"; }
public override string f2641() { return "D.f2641"; }
public override string f2642() { return "D.f2642"; }
public override string f2643() { return "D.f2643"; }
public override string f2644() { return "D.f2644"; }
public override string f2645() { return "D.f2645"; }
public override string f2646() { return "D.f2646"; }
public override string f2647() { return "D.f2647"; }
public override string f2648() { return "D.f2648"; }
public override string f2649() { return "D.f2649"; }
public override string f2650() { return "D.f2650"; }
public override string f2651() { return "D.f2651"; }
public override string f2652() { return "D.f2652"; }
public override string f2653() { return "D.f2653"; }
public override string f2654() { return "D.f2654"; }
public override string f2655() { return "D.f2655"; }
public override string f2656() { return "D.f2656"; }
public override string f2657() { return "D.f2657"; }
public override string f2658() { return "D.f2658"; }
public override string f2659() { return "D.f2659"; }
public override string f2660() { return "D.f2660"; }
public override string f2661() { return "D.f2661"; }
public override string f2662() { return "D.f2662"; }
public override string f2663() { return "D.f2663"; }
public override string f2664() { return "D.f2664"; }
public override string f2665() { return "D.f2665"; }
public override string f2666() { return "D.f2666"; }
public override string f2667() { return "D.f2667"; }
public override string f2668() { return "D.f2668"; }
public override string f2669() { return "D.f2669"; }
public override string f2670() { return "D.f2670"; }
public override string f2671() { return "D.f2671"; }
public override string f2672() { return "D.f2672"; }
public override string f2673() { return "D.f2673"; }
public override string f2674() { return "D.f2674"; }
public override string f2675() { return "D.f2675"; }
public override string f2676() { return "D.f2676"; }
public override string f2677() { return "D.f2677"; }
public override string f2678() { return "D.f2678"; }
public override string f2679() { return "D.f2679"; }
public override string f2680() { return "D.f2680"; }
public override string f2681() { return "D.f2681"; }
public override string f2682() { return "D.f2682"; }
public override string f2683() { return "D.f2683"; }
public override string f2684() { return "D.f2684"; }
public override string f2685() { return "D.f2685"; }
public override string f2686() { return "D.f2686"; }
public override string f2687() { return "D.f2687"; }
public override string f2688() { return "D.f2688"; }
public override string f2689() { return "D.f2689"; }
public override string f2690() { return "D.f2690"; }
public override string f2691() { return "D.f2691"; }
public override string f2692() { return "D.f2692"; }
public override string f2693() { return "D.f2693"; }
public override string f2694() { return "D.f2694"; }
public override string f2695() { return "D.f2695"; }
public override string f2696() { return "D.f2696"; }
public override string f2697() { return "D.f2697"; }
public override string f2698() { return "D.f2698"; }
public override string f2699() { return "D.f2699"; }
public override string f2700() { return "D.f2700"; }
public override string f2701() { return "D.f2701"; }
public override string f2702() { return "D.f2702"; }
public override string f2703() { return "D.f2703"; }
public override string f2704() { return "D.f2704"; }
public override string f2705() { return "D.f2705"; }
public override string f2706() { return "D.f2706"; }
public override string f2707() { return "D.f2707"; }
public override string f2708() { return "D.f2708"; }
public override string f2709() { return "D.f2709"; }
public override string f2710() { return "D.f2710"; }
public override string f2711() { return "D.f2711"; }
public override string f2712() { return "D.f2712"; }
public override string f2713() { return "D.f2713"; }
public override string f2714() { return "D.f2714"; }
public override string f2715() { return "D.f2715"; }
public override string f2716() { return "D.f2716"; }
public override string f2717() { return "D.f2717"; }
public override string f2718() { return "D.f2718"; }
public override string f2719() { return "D.f2719"; }
public override string f2720() { return "D.f2720"; }
public override string f2721() { return "D.f2721"; }
public override string f2722() { return "D.f2722"; }
public override string f2723() { return "D.f2723"; }
public override string f2724() { return "D.f2724"; }
public override string f2725() { return "D.f2725"; }
public override string f2726() { return "D.f2726"; }
public override string f2727() { return "D.f2727"; }
public override string f2728() { return "D.f2728"; }
public override string f2729() { return "D.f2729"; }
public override string f2730() { return "D.f2730"; }
public override string f2731() { return "D.f2731"; }
public override string f2732() { return "D.f2732"; }
public override string f2733() { return "D.f2733"; }
public override string f2734() { return "D.f2734"; }
public override string f2735() { return "D.f2735"; }
public override string f2736() { return "D.f2736"; }
public override string f2737() { return "D.f2737"; }
public override string f2738() { return "D.f2738"; }
public override string f2739() { return "D.f2739"; }
public override string f2740() { return "D.f2740"; }
public override string f2741() { return "D.f2741"; }
public override string f2742() { return "D.f2742"; }
public override string f2743() { return "D.f2743"; }
public override string f2744() { return "D.f2744"; }
public override string f2745() { return "D.f2745"; }
public override string f2746() { return "D.f2746"; }
public override string f2747() { return "D.f2747"; }
public override string f2748() { return "D.f2748"; }
public override string f2749() { return "D.f2749"; }
public override string f2750() { return "D.f2750"; }
public override string f2751() { return "D.f2751"; }
public override string f2752() { return "D.f2752"; }
public override string f2753() { return "D.f2753"; }
public override string f2754() { return "D.f2754"; }
public override string f2755() { return "D.f2755"; }
public override string f2756() { return "D.f2756"; }
public override string f2757() { return "D.f2757"; }
public override string f2758() { return "D.f2758"; }
public override string f2759() { return "D.f2759"; }
public override string f2760() { return "D.f2760"; }
public override string f2761() { return "D.f2761"; }
public override string f2762() { return "D.f2762"; }
public override string f2763() { return "D.f2763"; }
public override string f2764() { return "D.f2764"; }
public override string f2765() { return "D.f2765"; }
public override string f2766() { return "D.f2766"; }
public override string f2767() { return "D.f2767"; }
public override string f2768() { return "D.f2768"; }
public override string f2769() { return "D.f2769"; }
public override string f2770() { return "D.f2770"; }
public override string f2771() { return "D.f2771"; }
public override string f2772() { return "D.f2772"; }
public override string f2773() { return "D.f2773"; }
public override string f2774() { return "D.f2774"; }
public override string f2775() { return "D.f2775"; }
public override string f2776() { return "D.f2776"; }
public override string f2777() { return "D.f2777"; }
public override string f2778() { return "D.f2778"; }
public override string f2779() { return "D.f2779"; }
public override string f2780() { return "D.f2780"; }
public override string f2781() { return "D.f2781"; }
public override string f2782() { return "D.f2782"; }
public override string f2783() { return "D.f2783"; }
public override string f2784() { return "D.f2784"; }
public override string f2785() { return "D.f2785"; }
public override string f2786() { return "D.f2786"; }
public override string f2787() { return "D.f2787"; }
public override string f2788() { return "D.f2788"; }
public override string f2789() { return "D.f2789"; }
public override string f2790() { return "D.f2790"; }
public override string f2791() { return "D.f2791"; }
public override string f2792() { return "D.f2792"; }
public override string f2793() { return "D.f2793"; }
public override string f2794() { return "D.f2794"; }
public override string f2795() { return "D.f2795"; }
public override string f2796() { return "D.f2796"; }
public override string f2797() { return "D.f2797"; }
public override string f2798() { return "D.f2798"; }
public override string f2799() { return "D.f2799"; }
public override string f2800() { return "D.f2800"; }
public override string f2801() { return "D.f2801"; }
public override string f2802() { return "D.f2802"; }
public override string f2803() { return "D.f2803"; }
public override string f2804() { return "D.f2804"; }
public override string f2805() { return "D.f2805"; }
public override string f2806() { return "D.f2806"; }
public override string f2807() { return "D.f2807"; }
public override string f2808() { return "D.f2808"; }
public override string f2809() { return "D.f2809"; }
public override string f2810() { return "D.f2810"; }
public override string f2811() { return "D.f2811"; }
public override string f2812() { return "D.f2812"; }
public override string f2813() { return "D.f2813"; }
public override string f2814() { return "D.f2814"; }
public override string f2815() { return "D.f2815"; }
public override string f2816() { return "D.f2816"; }
public override string f2817() { return "D.f2817"; }
public override string f2818() { return "D.f2818"; }
public override string f2819() { return "D.f2819"; }
public override string f2820() { return "D.f2820"; }
public override string f2821() { return "D.f2821"; }
public override string f2822() { return "D.f2822"; }
public override string f2823() { return "D.f2823"; }
public override string f2824() { return "D.f2824"; }
public override string f2825() { return "D.f2825"; }
public override string f2826() { return "D.f2826"; }
public override string f2827() { return "D.f2827"; }
public override string f2828() { return "D.f2828"; }
public override string f2829() { return "D.f2829"; }
public override string f2830() { return "D.f2830"; }
public override string f2831() { return "D.f2831"; }
public override string f2832() { return "D.f2832"; }
public override string f2833() { return "D.f2833"; }
public override string f2834() { return "D.f2834"; }
public override string f2835() { return "D.f2835"; }
public override string f2836() { return "D.f2836"; }
public override string f2837() { return "D.f2837"; }
public override string f2838() { return "D.f2838"; }
public override string f2839() { return "D.f2839"; }
public override string f2840() { return "D.f2840"; }
public override string f2841() { return "D.f2841"; }
public override string f2842() { return "D.f2842"; }
public override string f2843() { return "D.f2843"; }
public override string f2844() { return "D.f2844"; }
public override string f2845() { return "D.f2845"; }
public override string f2846() { return "D.f2846"; }
public override string f2847() { return "D.f2847"; }
public override string f2848() { return "D.f2848"; }
public override string f2849() { return "D.f2849"; }
public override string f2850() { return "D.f2850"; }
public override string f2851() { return "D.f2851"; }
public override string f2852() { return "D.f2852"; }
public override string f2853() { return "D.f2853"; }
public override string f2854() { return "D.f2854"; }
public override string f2855() { return "D.f2855"; }
public override string f2856() { return "D.f2856"; }
public override string f2857() { return "D.f2857"; }
public override string f2858() { return "D.f2858"; }
public override string f2859() { return "D.f2859"; }
public override string f2860() { return "D.f2860"; }
public override string f2861() { return "D.f2861"; }
public override string f2862() { return "D.f2862"; }
public override string f2863() { return "D.f2863"; }
public override string f2864() { return "D.f2864"; }
public override string f2865() { return "D.f2865"; }
public override string f2866() { return "D.f2866"; }
public override string f2867() { return "D.f2867"; }
public override string f2868() { return "D.f2868"; }
public override string f2869() { return "D.f2869"; }
public override string f2870() { return "D.f2870"; }
public override string f2871() { return "D.f2871"; }
public override string f2872() { return "D.f2872"; }
public override string f2873() { return "D.f2873"; }
public override string f2874() { return "D.f2874"; }
public override string f2875() { return "D.f2875"; }
public override string f2876() { return "D.f2876"; }
public override string f2877() { return "D.f2877"; }
public override string f2878() { return "D.f2878"; }
public override string f2879() { return "D.f2879"; }
public override string f2880() { return "D.f2880"; }
public override string f2881() { return "D.f2881"; }
public override string f2882() { return "D.f2882"; }
public override string f2883() { return "D.f2883"; }
public override string f2884() { return "D.f2884"; }
public override string f2885() { return "D.f2885"; }
public override string f2886() { return "D.f2886"; }
public override string f2887() { return "D.f2887"; }
public override string f2888() { return "D.f2888"; }
public override string f2889() { return "D.f2889"; }
public override string f2890() { return "D.f2890"; }
public override string f2891() { return "D.f2891"; }
public override string f2892() { return "D.f2892"; }
public override string f2893() { return "D.f2893"; }
public override string f2894() { return "D.f2894"; }
public override string f2895() { return "D.f2895"; }
public override string f2896() { return "D.f2896"; }
public override string f2897() { return "D.f2897"; }
public override string f2898() { return "D.f2898"; }
public override string f2899() { return "D.f2899"; }
public override string f2900() { return "D.f2900"; }
public override string f2901() { return "D.f2901"; }
public override string f2902() { return "D.f2902"; }
public override string f2903() { return "D.f2903"; }
public override string f2904() { return "D.f2904"; }
public override string f2905() { return "D.f2905"; }
public override string f2906() { return "D.f2906"; }
public override string f2907() { return "D.f2907"; }
public override string f2908() { return "D.f2908"; }
public override string f2909() { return "D.f2909"; }
public override string f2910() { return "D.f2910"; }
public override string f2911() { return "D.f2911"; }
public override string f2912() { return "D.f2912"; }
public override string f2913() { return "D.f2913"; }
public override string f2914() { return "D.f2914"; }
public override string f2915() { return "D.f2915"; }
public override string f2916() { return "D.f2916"; }
public override string f2917() { return "D.f2917"; }
public override string f2918() { return "D.f2918"; }
public override string f2919() { return "D.f2919"; }
public override string f2920() { return "D.f2920"; }
public override string f2921() { return "D.f2921"; }
public override string f2922() { return "D.f2922"; }
public override string f2923() { return "D.f2923"; }
public override string f2924() { return "D.f2924"; }
public override string f2925() { return "D.f2925"; }
public override string f2926() { return "D.f2926"; }
public override string f2927() { return "D.f2927"; }
public override string f2928() { return "D.f2928"; }
public override string f2929() { return "D.f2929"; }
public override string f2930() { return "D.f2930"; }
public override string f2931() { return "D.f2931"; }
public override string f2932() { return "D.f2932"; }
public override string f2933() { return "D.f2933"; }
public override string f2934() { return "D.f2934"; }
public override string f2935() { return "D.f2935"; }
public override string f2936() { return "D.f2936"; }
public override string f2937() { return "D.f2937"; }
public override string f2938() { return "D.f2938"; }
public override string f2939() { return "D.f2939"; }
public override string f2940() { return "D.f2940"; }
public override string f2941() { return "D.f2941"; }
public override string f2942() { return "D.f2942"; }
public override string f2943() { return "D.f2943"; }
public override string f2944() { return "D.f2944"; }
public override string f2945() { return "D.f2945"; }
public override string f2946() { return "D.f2946"; }
public override string f2947() { return "D.f2947"; }
public override string f2948() { return "D.f2948"; }
public override string f2949() { return "D.f2949"; }
public override string f2950() { return "D.f2950"; }
public override string f2951() { return "D.f2951"; }
public override string f2952() { return "D.f2952"; }
public override string f2953() { return "D.f2953"; }
public override string f2954() { return "D.f2954"; }
public override string f2955() { return "D.f2955"; }
public override string f2956() { return "D.f2956"; }
public override string f2957() { return "D.f2957"; }
public override string f2958() { return "D.f2958"; }
public override string f2959() { return "D.f2959"; }
public override string f2960() { return "D.f2960"; }
public override string f2961() { return "D.f2961"; }
public override string f2962() { return "D.f2962"; }
public override string f2963() { return "D.f2963"; }
public override string f2964() { return "D.f2964"; }
public override string f2965() { return "D.f2965"; }
public override string f2966() { return "D.f2966"; }
public override string f2967() { return "D.f2967"; }
public override string f2968() { return "D.f2968"; }
public override string f2969() { return "D.f2969"; }
public override string f2970() { return "D.f2970"; }
public override string f2971() { return "D.f2971"; }
public override string f2972() { return "D.f2972"; }
public override string f2973() { return "D.f2973"; }
public override string f2974() { return "D.f2974"; }
public override string f2975() { return "D.f2975"; }
public override string f2976() { return "D.f2976"; }
public override string f2977() { return "D.f2977"; }
public override string f2978() { return "D.f2978"; }
public override string f2979() { return "D.f2979"; }
public override string f2980() { return "D.f2980"; }
public override string f2981() { return "D.f2981"; }
public override string f2982() { return "D.f2982"; }
public override string f2983() { return "D.f2983"; }
public override string f2984() { return "D.f2984"; }
public override string f2985() { return "D.f2985"; }
public override string f2986() { return "D.f2986"; }
public override string f2987() { return "D.f2987"; }
public override string f2988() { return "D.f2988"; }
public override string f2989() { return "D.f2989"; }
public override string f2990() { return "D.f2990"; }
public override string f2991() { return "D.f2991"; }
public override string f2992() { return "D.f2992"; }
public override string f2993() { return "D.f2993"; }
public override string f2994() { return "D.f2994"; }
public override string f2995() { return "D.f2995"; }
public override string f2996() { return "D.f2996"; }
public override string f2997() { return "D.f2997"; }
public override string f2998() { return "D.f2998"; }
public override string f2999() { return "D.f2999"; }
}
internal class CTest
{
private static int Main()
{
D d = new D();
A a = d;
B b = d;
C c = d;
if (a.f1() != "B.f1") { Console.WriteLine("FAILED: a.f1()!=\"B.f1\""); return 1; }
if (a.f2() != "B.f2") { Console.WriteLine("FAILED: a.f2()!=\"B.f2\""); return 1; }
if (a.f3() != "B.f3") { Console.WriteLine("FAILED: a.f3()!=\"B.f3\""); return 1; }
if (a.f4() != "B.f4") { Console.WriteLine("FAILED: a.f4()!=\"B.f4\""); return 1; }
if (a.f5() != "B.f5") { Console.WriteLine("FAILED: a.f5()!=\"B.f5\""); return 1; }
if (a.f6() != "B.f6") { Console.WriteLine("FAILED: a.f6()!=\"B.f6\""); return 1; }
if (a.f7() != "B.f7") { Console.WriteLine("FAILED: a.f7()!=\"B.f7\""); return 1; }
if (a.f8() != "B.f8") { Console.WriteLine("FAILED: a.f8()!=\"B.f8\""); return 1; }
if (a.f9() != "B.f9") { Console.WriteLine("FAILED: a.f9()!=\"B.f9\""); return 1; }
if (a.f10() != "B.f10") { Console.WriteLine("FAILED: a.f10()!=\"B.f10\""); return 1; }
if (a.f11() != "B.f11") { Console.WriteLine("FAILED: a.f11()!=\"B.f11\""); return 1; }
if (a.f12() != "B.f12") { Console.WriteLine("FAILED: a.f12()!=\"B.f12\""); return 1; }
if (a.f13() != "B.f13") { Console.WriteLine("FAILED: a.f13()!=\"B.f13\""); return 1; }
if (a.f14() != "B.f14") { Console.WriteLine("FAILED: a.f14()!=\"B.f14\""); return 1; }
if (a.f15() != "B.f15") { Console.WriteLine("FAILED: a.f15()!=\"B.f15\""); return 1; }
if (a.f16() != "B.f16") { Console.WriteLine("FAILED: a.f16()!=\"B.f16\""); return 1; }
if (a.f17() != "B.f17") { Console.WriteLine("FAILED: a.f17()!=\"B.f17\""); return 1; }
if (a.f18() != "B.f18") { Console.WriteLine("FAILED: a.f18()!=\"B.f18\""); return 1; }
if (a.f19() != "B.f19") { Console.WriteLine("FAILED: a.f19()!=\"B.f19\""); return 1; }
if (a.f20() != "B.f20") { Console.WriteLine("FAILED: a.f20()!=\"B.f20\""); return 1; }
if (a.f21() != "B.f21") { Console.WriteLine("FAILED: a.f21()!=\"B.f21\""); return 1; }
if (a.f22() != "B.f22") { Console.WriteLine("FAILED: a.f22()!=\"B.f22\""); return 1; }
if (a.f23() != "B.f23") { Console.WriteLine("FAILED: a.f23()!=\"B.f23\""); return 1; }
if (a.f24() != "B.f24") { Console.WriteLine("FAILED: a.f24()!=\"B.f24\""); return 1; }
if (a.f25() != "B.f25") { Console.WriteLine("FAILED: a.f25()!=\"B.f25\""); return 1; }
if (a.f26() != "B.f26") { Console.WriteLine("FAILED: a.f26()!=\"B.f26\""); return 1; }
if (a.f27() != "B.f27") { Console.WriteLine("FAILED: a.f27()!=\"B.f27\""); return 1; }
if (a.f28() != "B.f28") { Console.WriteLine("FAILED: a.f28()!=\"B.f28\""); return 1; }
if (a.f29() != "B.f29") { Console.WriteLine("FAILED: a.f29()!=\"B.f29\""); return 1; }
if (a.f30() != "B.f30") { Console.WriteLine("FAILED: a.f30()!=\"B.f30\""); return 1; }
if (a.f31() != "B.f31") { Console.WriteLine("FAILED: a.f31()!=\"B.f31\""); return 1; }
if (a.f32() != "B.f32") { Console.WriteLine("FAILED: a.f32()!=\"B.f32\""); return 1; }
if (a.f33() != "B.f33") { Console.WriteLine("FAILED: a.f33()!=\"B.f33\""); return 1; }
if (a.f34() != "B.f34") { Console.WriteLine("FAILED: a.f34()!=\"B.f34\""); return 1; }
if (a.f35() != "B.f35") { Console.WriteLine("FAILED: a.f35()!=\"B.f35\""); return 1; }
if (a.f36() != "B.f36") { Console.WriteLine("FAILED: a.f36()!=\"B.f36\""); return 1; }
if (a.f37() != "B.f37") { Console.WriteLine("FAILED: a.f37()!=\"B.f37\""); return 1; }
if (a.f38() != "B.f38") { Console.WriteLine("FAILED: a.f38()!=\"B.f38\""); return 1; }
if (a.f39() != "B.f39") { Console.WriteLine("FAILED: a.f39()!=\"B.f39\""); return 1; }
if (a.f40() != "B.f40") { Console.WriteLine("FAILED: a.f40()!=\"B.f40\""); return 1; }
if (a.f41() != "B.f41") { Console.WriteLine("FAILED: a.f41()!=\"B.f41\""); return 1; }
if (a.f42() != "B.f42") { Console.WriteLine("FAILED: a.f42()!=\"B.f42\""); return 1; }
if (a.f43() != "B.f43") { Console.WriteLine("FAILED: a.f43()!=\"B.f43\""); return 1; }
if (a.f44() != "B.f44") { Console.WriteLine("FAILED: a.f44()!=\"B.f44\""); return 1; }
if (a.f45() != "B.f45") { Console.WriteLine("FAILED: a.f45()!=\"B.f45\""); return 1; }
if (a.f46() != "B.f46") { Console.WriteLine("FAILED: a.f46()!=\"B.f46\""); return 1; }
if (a.f47() != "B.f47") { Console.WriteLine("FAILED: a.f47()!=\"B.f47\""); return 1; }
if (a.f48() != "B.f48") { Console.WriteLine("FAILED: a.f48()!=\"B.f48\""); return 1; }
if (a.f49() != "B.f49") { Console.WriteLine("FAILED: a.f49()!=\"B.f49\""); return 1; }
if (a.f50() != "B.f50") { Console.WriteLine("FAILED: a.f50()!=\"B.f50\""); return 1; }
if (a.f51() != "B.f51") { Console.WriteLine("FAILED: a.f51()!=\"B.f51\""); return 1; }
if (a.f52() != "B.f52") { Console.WriteLine("FAILED: a.f52()!=\"B.f52\""); return 1; }
if (a.f53() != "B.f53") { Console.WriteLine("FAILED: a.f53()!=\"B.f53\""); return 1; }
if (a.f54() != "B.f54") { Console.WriteLine("FAILED: a.f54()!=\"B.f54\""); return 1; }
if (a.f55() != "B.f55") { Console.WriteLine("FAILED: a.f55()!=\"B.f55\""); return 1; }
if (a.f56() != "B.f56") { Console.WriteLine("FAILED: a.f56()!=\"B.f56\""); return 1; }
if (a.f57() != "B.f57") { Console.WriteLine("FAILED: a.f57()!=\"B.f57\""); return 1; }
if (a.f58() != "B.f58") { Console.WriteLine("FAILED: a.f58()!=\"B.f58\""); return 1; }
if (a.f59() != "B.f59") { Console.WriteLine("FAILED: a.f59()!=\"B.f59\""); return 1; }
if (a.f60() != "B.f60") { Console.WriteLine("FAILED: a.f60()!=\"B.f60\""); return 1; }
if (a.f61() != "B.f61") { Console.WriteLine("FAILED: a.f61()!=\"B.f61\""); return 1; }
if (a.f62() != "B.f62") { Console.WriteLine("FAILED: a.f62()!=\"B.f62\""); return 1; }
if (a.f63() != "B.f63") { Console.WriteLine("FAILED: a.f63()!=\"B.f63\""); return 1; }
if (a.f64() != "B.f64") { Console.WriteLine("FAILED: a.f64()!=\"B.f64\""); return 1; }
if (a.f65() != "B.f65") { Console.WriteLine("FAILED: a.f65()!=\"B.f65\""); return 1; }
if (a.f66() != "B.f66") { Console.WriteLine("FAILED: a.f66()!=\"B.f66\""); return 1; }
if (a.f67() != "B.f67") { Console.WriteLine("FAILED: a.f67()!=\"B.f67\""); return 1; }
if (a.f68() != "B.f68") { Console.WriteLine("FAILED: a.f68()!=\"B.f68\""); return 1; }
if (a.f69() != "B.f69") { Console.WriteLine("FAILED: a.f69()!=\"B.f69\""); return 1; }
if (a.f70() != "B.f70") { Console.WriteLine("FAILED: a.f70()!=\"B.f70\""); return 1; }
if (a.f71() != "B.f71") { Console.WriteLine("FAILED: a.f71()!=\"B.f71\""); return 1; }
if (a.f72() != "B.f72") { Console.WriteLine("FAILED: a.f72()!=\"B.f72\""); return 1; }
if (a.f73() != "B.f73") { Console.WriteLine("FAILED: a.f73()!=\"B.f73\""); return 1; }
if (a.f74() != "B.f74") { Console.WriteLine("FAILED: a.f74()!=\"B.f74\""); return 1; }
if (a.f75() != "B.f75") { Console.WriteLine("FAILED: a.f75()!=\"B.f75\""); return 1; }
if (a.f76() != "B.f76") { Console.WriteLine("FAILED: a.f76()!=\"B.f76\""); return 1; }
if (a.f77() != "B.f77") { Console.WriteLine("FAILED: a.f77()!=\"B.f77\""); return 1; }
if (a.f78() != "B.f78") { Console.WriteLine("FAILED: a.f78()!=\"B.f78\""); return 1; }
if (a.f79() != "B.f79") { Console.WriteLine("FAILED: a.f79()!=\"B.f79\""); return 1; }
if (a.f80() != "B.f80") { Console.WriteLine("FAILED: a.f80()!=\"B.f80\""); return 1; }
if (a.f81() != "B.f81") { Console.WriteLine("FAILED: a.f81()!=\"B.f81\""); return 1; }
if (a.f82() != "B.f82") { Console.WriteLine("FAILED: a.f82()!=\"B.f82\""); return 1; }
if (a.f83() != "B.f83") { Console.WriteLine("FAILED: a.f83()!=\"B.f83\""); return 1; }
if (a.f84() != "B.f84") { Console.WriteLine("FAILED: a.f84()!=\"B.f84\""); return 1; }
if (a.f85() != "B.f85") { Console.WriteLine("FAILED: a.f85()!=\"B.f85\""); return 1; }
if (a.f86() != "B.f86") { Console.WriteLine("FAILED: a.f86()!=\"B.f86\""); return 1; }
if (a.f87() != "B.f87") { Console.WriteLine("FAILED: a.f87()!=\"B.f87\""); return 1; }
if (a.f88() != "B.f88") { Console.WriteLine("FAILED: a.f88()!=\"B.f88\""); return 1; }
if (a.f89() != "B.f89") { Console.WriteLine("FAILED: a.f89()!=\"B.f89\""); return 1; }
if (a.f90() != "B.f90") { Console.WriteLine("FAILED: a.f90()!=\"B.f90\""); return 1; }
if (a.f91() != "B.f91") { Console.WriteLine("FAILED: a.f91()!=\"B.f91\""); return 1; }
if (a.f92() != "B.f92") { Console.WriteLine("FAILED: a.f92()!=\"B.f92\""); return 1; }
if (a.f93() != "B.f93") { Console.WriteLine("FAILED: a.f93()!=\"B.f93\""); return 1; }
if (a.f94() != "B.f94") { Console.WriteLine("FAILED: a.f94()!=\"B.f94\""); return 1; }
if (a.f95() != "B.f95") { Console.WriteLine("FAILED: a.f95()!=\"B.f95\""); return 1; }
if (a.f96() != "B.f96") { Console.WriteLine("FAILED: a.f96()!=\"B.f96\""); return 1; }
if (a.f97() != "B.f97") { Console.WriteLine("FAILED: a.f97()!=\"B.f97\""); return 1; }
if (a.f98() != "B.f98") { Console.WriteLine("FAILED: a.f98()!=\"B.f98\""); return 1; }
if (a.f99() != "B.f99") { Console.WriteLine("FAILED: a.f99()!=\"B.f99\""); return 1; }
if (a.f100() != "B.f100") { Console.WriteLine("FAILED: a.f100()!=\"B.f100\""); return 1; }
if (a.f101() != "B.f101") { Console.WriteLine("FAILED: a.f101()!=\"B.f101\""); return 1; }
if (a.f102() != "B.f102") { Console.WriteLine("FAILED: a.f102()!=\"B.f102\""); return 1; }
if (a.f103() != "B.f103") { Console.WriteLine("FAILED: a.f103()!=\"B.f103\""); return 1; }
if (a.f104() != "B.f104") { Console.WriteLine("FAILED: a.f104()!=\"B.f104\""); return 1; }
if (a.f105() != "B.f105") { Console.WriteLine("FAILED: a.f105()!=\"B.f105\""); return 1; }
if (a.f106() != "B.f106") { Console.WriteLine("FAILED: a.f106()!=\"B.f106\""); return 1; }
if (a.f107() != "B.f107") { Console.WriteLine("FAILED: a.f107()!=\"B.f107\""); return 1; }
if (a.f108() != "B.f108") { Console.WriteLine("FAILED: a.f108()!=\"B.f108\""); return 1; }
if (a.f109() != "B.f109") { Console.WriteLine("FAILED: a.f109()!=\"B.f109\""); return 1; }
if (a.f110() != "B.f110") { Console.WriteLine("FAILED: a.f110()!=\"B.f110\""); return 1; }
if (a.f111() != "B.f111") { Console.WriteLine("FAILED: a.f111()!=\"B.f111\""); return 1; }
if (a.f112() != "B.f112") { Console.WriteLine("FAILED: a.f112()!=\"B.f112\""); return 1; }
if (a.f113() != "B.f113") { Console.WriteLine("FAILED: a.f113()!=\"B.f113\""); return 1; }
if (a.f114() != "B.f114") { Console.WriteLine("FAILED: a.f114()!=\"B.f114\""); return 1; }
if (a.f115() != "B.f115") { Console.WriteLine("FAILED: a.f115()!=\"B.f115\""); return 1; }
if (a.f116() != "B.f116") { Console.WriteLine("FAILED: a.f116()!=\"B.f116\""); return 1; }
if (a.f117() != "B.f117") { Console.WriteLine("FAILED: a.f117()!=\"B.f117\""); return 1; }
if (a.f118() != "B.f118") { Console.WriteLine("FAILED: a.f118()!=\"B.f118\""); return 1; }
if (a.f119() != "B.f119") { Console.WriteLine("FAILED: a.f119()!=\"B.f119\""); return 1; }
if (a.f120() != "B.f120") { Console.WriteLine("FAILED: a.f120()!=\"B.f120\""); return 1; }
if (a.f121() != "B.f121") { Console.WriteLine("FAILED: a.f121()!=\"B.f121\""); return 1; }
if (a.f122() != "B.f122") { Console.WriteLine("FAILED: a.f122()!=\"B.f122\""); return 1; }
if (a.f123() != "B.f123") { Console.WriteLine("FAILED: a.f123()!=\"B.f123\""); return 1; }
if (a.f124() != "B.f124") { Console.WriteLine("FAILED: a.f124()!=\"B.f124\""); return 1; }
if (a.f125() != "B.f125") { Console.WriteLine("FAILED: a.f125()!=\"B.f125\""); return 1; }
if (a.f126() != "B.f126") { Console.WriteLine("FAILED: a.f126()!=\"B.f126\""); return 1; }
if (a.f127() != "B.f127") { Console.WriteLine("FAILED: a.f127()!=\"B.f127\""); return 1; }
if (a.f128() != "B.f128") { Console.WriteLine("FAILED: a.f128()!=\"B.f128\""); return 1; }
if (a.f129() != "B.f129") { Console.WriteLine("FAILED: a.f129()!=\"B.f129\""); return 1; }
if (a.f130() != "B.f130") { Console.WriteLine("FAILED: a.f130()!=\"B.f130\""); return 1; }
if (a.f131() != "B.f131") { Console.WriteLine("FAILED: a.f131()!=\"B.f131\""); return 1; }
if (a.f132() != "B.f132") { Console.WriteLine("FAILED: a.f132()!=\"B.f132\""); return 1; }
if (a.f133() != "B.f133") { Console.WriteLine("FAILED: a.f133()!=\"B.f133\""); return 1; }
if (a.f134() != "B.f134") { Console.WriteLine("FAILED: a.f134()!=\"B.f134\""); return 1; }
if (a.f135() != "B.f135") { Console.WriteLine("FAILED: a.f135()!=\"B.f135\""); return 1; }
if (a.f136() != "B.f136") { Console.WriteLine("FAILED: a.f136()!=\"B.f136\""); return 1; }
if (a.f137() != "B.f137") { Console.WriteLine("FAILED: a.f137()!=\"B.f137\""); return 1; }
if (a.f138() != "B.f138") { Console.WriteLine("FAILED: a.f138()!=\"B.f138\""); return 1; }
if (a.f139() != "B.f139") { Console.WriteLine("FAILED: a.f139()!=\"B.f139\""); return 1; }
if (a.f140() != "B.f140") { Console.WriteLine("FAILED: a.f140()!=\"B.f140\""); return 1; }
if (a.f141() != "B.f141") { Console.WriteLine("FAILED: a.f141()!=\"B.f141\""); return 1; }
if (a.f142() != "B.f142") { Console.WriteLine("FAILED: a.f142()!=\"B.f142\""); return 1; }
if (a.f143() != "B.f143") { Console.WriteLine("FAILED: a.f143()!=\"B.f143\""); return 1; }
if (a.f144() != "B.f144") { Console.WriteLine("FAILED: a.f144()!=\"B.f144\""); return 1; }
if (a.f145() != "B.f145") { Console.WriteLine("FAILED: a.f145()!=\"B.f145\""); return 1; }
if (a.f146() != "B.f146") { Console.WriteLine("FAILED: a.f146()!=\"B.f146\""); return 1; }
if (a.f147() != "B.f147") { Console.WriteLine("FAILED: a.f147()!=\"B.f147\""); return 1; }
if (a.f148() != "B.f148") { Console.WriteLine("FAILED: a.f148()!=\"B.f148\""); return 1; }
if (a.f149() != "B.f149") { Console.WriteLine("FAILED: a.f149()!=\"B.f149\""); return 1; }
if (a.f150() != "B.f150") { Console.WriteLine("FAILED: a.f150()!=\"B.f150\""); return 1; }
if (a.f151() != "B.f151") { Console.WriteLine("FAILED: a.f151()!=\"B.f151\""); return 1; }
if (a.f152() != "B.f152") { Console.WriteLine("FAILED: a.f152()!=\"B.f152\""); return 1; }
if (a.f153() != "B.f153") { Console.WriteLine("FAILED: a.f153()!=\"B.f153\""); return 1; }
if (a.f154() != "B.f154") { Console.WriteLine("FAILED: a.f154()!=\"B.f154\""); return 1; }
if (a.f155() != "B.f155") { Console.WriteLine("FAILED: a.f155()!=\"B.f155\""); return 1; }
if (a.f156() != "B.f156") { Console.WriteLine("FAILED: a.f156()!=\"B.f156\""); return 1; }
if (a.f157() != "B.f157") { Console.WriteLine("FAILED: a.f157()!=\"B.f157\""); return 1; }
if (a.f158() != "B.f158") { Console.WriteLine("FAILED: a.f158()!=\"B.f158\""); return 1; }
if (a.f159() != "B.f159") { Console.WriteLine("FAILED: a.f159()!=\"B.f159\""); return 1; }
if (a.f160() != "B.f160") { Console.WriteLine("FAILED: a.f160()!=\"B.f160\""); return 1; }
if (a.f161() != "B.f161") { Console.WriteLine("FAILED: a.f161()!=\"B.f161\""); return 1; }
if (a.f162() != "B.f162") { Console.WriteLine("FAILED: a.f162()!=\"B.f162\""); return 1; }
if (a.f163() != "B.f163") { Console.WriteLine("FAILED: a.f163()!=\"B.f163\""); return 1; }
if (a.f164() != "B.f164") { Console.WriteLine("FAILED: a.f164()!=\"B.f164\""); return 1; }
if (a.f165() != "B.f165") { Console.WriteLine("FAILED: a.f165()!=\"B.f165\""); return 1; }
if (a.f166() != "B.f166") { Console.WriteLine("FAILED: a.f166()!=\"B.f166\""); return 1; }
if (a.f167() != "B.f167") { Console.WriteLine("FAILED: a.f167()!=\"B.f167\""); return 1; }
if (a.f168() != "B.f168") { Console.WriteLine("FAILED: a.f168()!=\"B.f168\""); return 1; }
if (a.f169() != "B.f169") { Console.WriteLine("FAILED: a.f169()!=\"B.f169\""); return 1; }
if (a.f170() != "B.f170") { Console.WriteLine("FAILED: a.f170()!=\"B.f170\""); return 1; }
if (a.f171() != "B.f171") { Console.WriteLine("FAILED: a.f171()!=\"B.f171\""); return 1; }
if (a.f172() != "B.f172") { Console.WriteLine("FAILED: a.f172()!=\"B.f172\""); return 1; }
if (a.f173() != "B.f173") { Console.WriteLine("FAILED: a.f173()!=\"B.f173\""); return 1; }
if (a.f174() != "B.f174") { Console.WriteLine("FAILED: a.f174()!=\"B.f174\""); return 1; }
if (a.f175() != "B.f175") { Console.WriteLine("FAILED: a.f175()!=\"B.f175\""); return 1; }
if (a.f176() != "B.f176") { Console.WriteLine("FAILED: a.f176()!=\"B.f176\""); return 1; }
if (a.f177() != "B.f177") { Console.WriteLine("FAILED: a.f177()!=\"B.f177\""); return 1; }
if (a.f178() != "B.f178") { Console.WriteLine("FAILED: a.f178()!=\"B.f178\""); return 1; }
if (a.f179() != "B.f179") { Console.WriteLine("FAILED: a.f179()!=\"B.f179\""); return 1; }
if (a.f180() != "B.f180") { Console.WriteLine("FAILED: a.f180()!=\"B.f180\""); return 1; }
if (a.f181() != "B.f181") { Console.WriteLine("FAILED: a.f181()!=\"B.f181\""); return 1; }
if (a.f182() != "B.f182") { Console.WriteLine("FAILED: a.f182()!=\"B.f182\""); return 1; }
if (a.f183() != "B.f183") { Console.WriteLine("FAILED: a.f183()!=\"B.f183\""); return 1; }
if (a.f184() != "B.f184") { Console.WriteLine("FAILED: a.f184()!=\"B.f184\""); return 1; }
if (a.f185() != "B.f185") { Console.WriteLine("FAILED: a.f185()!=\"B.f185\""); return 1; }
if (a.f186() != "B.f186") { Console.WriteLine("FAILED: a.f186()!=\"B.f186\""); return 1; }
if (a.f187() != "B.f187") { Console.WriteLine("FAILED: a.f187()!=\"B.f187\""); return 1; }
if (a.f188() != "B.f188") { Console.WriteLine("FAILED: a.f188()!=\"B.f188\""); return 1; }
if (a.f189() != "B.f189") { Console.WriteLine("FAILED: a.f189()!=\"B.f189\""); return 1; }
if (a.f190() != "B.f190") { Console.WriteLine("FAILED: a.f190()!=\"B.f190\""); return 1; }
if (a.f191() != "B.f191") { Console.WriteLine("FAILED: a.f191()!=\"B.f191\""); return 1; }
if (a.f192() != "B.f192") { Console.WriteLine("FAILED: a.f192()!=\"B.f192\""); return 1; }
if (a.f193() != "B.f193") { Console.WriteLine("FAILED: a.f193()!=\"B.f193\""); return 1; }
if (a.f194() != "B.f194") { Console.WriteLine("FAILED: a.f194()!=\"B.f194\""); return 1; }
if (a.f195() != "B.f195") { Console.WriteLine("FAILED: a.f195()!=\"B.f195\""); return 1; }
if (a.f196() != "B.f196") { Console.WriteLine("FAILED: a.f196()!=\"B.f196\""); return 1; }
if (a.f197() != "B.f197") { Console.WriteLine("FAILED: a.f197()!=\"B.f197\""); return 1; }
if (a.f198() != "B.f198") { Console.WriteLine("FAILED: a.f198()!=\"B.f198\""); return 1; }
if (a.f199() != "B.f199") { Console.WriteLine("FAILED: a.f199()!=\"B.f199\""); return 1; }
if (a.f200() != "B.f200") { Console.WriteLine("FAILED: a.f200()!=\"B.f200\""); return 1; }
if (a.f201() != "B.f201") { Console.WriteLine("FAILED: a.f201()!=\"B.f201\""); return 1; }
if (a.f202() != "B.f202") { Console.WriteLine("FAILED: a.f202()!=\"B.f202\""); return 1; }
if (a.f203() != "B.f203") { Console.WriteLine("FAILED: a.f203()!=\"B.f203\""); return 1; }
if (a.f204() != "B.f204") { Console.WriteLine("FAILED: a.f204()!=\"B.f204\""); return 1; }
if (a.f205() != "B.f205") { Console.WriteLine("FAILED: a.f205()!=\"B.f205\""); return 1; }
if (a.f206() != "B.f206") { Console.WriteLine("FAILED: a.f206()!=\"B.f206\""); return 1; }
if (a.f207() != "B.f207") { Console.WriteLine("FAILED: a.f207()!=\"B.f207\""); return 1; }
if (a.f208() != "B.f208") { Console.WriteLine("FAILED: a.f208()!=\"B.f208\""); return 1; }
if (a.f209() != "B.f209") { Console.WriteLine("FAILED: a.f209()!=\"B.f209\""); return 1; }
if (a.f210() != "B.f210") { Console.WriteLine("FAILED: a.f210()!=\"B.f210\""); return 1; }
if (a.f211() != "B.f211") { Console.WriteLine("FAILED: a.f211()!=\"B.f211\""); return 1; }
if (a.f212() != "B.f212") { Console.WriteLine("FAILED: a.f212()!=\"B.f212\""); return 1; }
if (a.f213() != "B.f213") { Console.WriteLine("FAILED: a.f213()!=\"B.f213\""); return 1; }
if (a.f214() != "B.f214") { Console.WriteLine("FAILED: a.f214()!=\"B.f214\""); return 1; }
if (a.f215() != "B.f215") { Console.WriteLine("FAILED: a.f215()!=\"B.f215\""); return 1; }
if (a.f216() != "B.f216") { Console.WriteLine("FAILED: a.f216()!=\"B.f216\""); return 1; }
if (a.f217() != "B.f217") { Console.WriteLine("FAILED: a.f217()!=\"B.f217\""); return 1; }
if (a.f218() != "B.f218") { Console.WriteLine("FAILED: a.f218()!=\"B.f218\""); return 1; }
if (a.f219() != "B.f219") { Console.WriteLine("FAILED: a.f219()!=\"B.f219\""); return 1; }
if (a.f220() != "B.f220") { Console.WriteLine("FAILED: a.f220()!=\"B.f220\""); return 1; }
if (a.f221() != "B.f221") { Console.WriteLine("FAILED: a.f221()!=\"B.f221\""); return 1; }
if (a.f222() != "B.f222") { Console.WriteLine("FAILED: a.f222()!=\"B.f222\""); return 1; }
if (a.f223() != "B.f223") { Console.WriteLine("FAILED: a.f223()!=\"B.f223\""); return 1; }
if (a.f224() != "B.f224") { Console.WriteLine("FAILED: a.f224()!=\"B.f224\""); return 1; }
if (a.f225() != "B.f225") { Console.WriteLine("FAILED: a.f225()!=\"B.f225\""); return 1; }
if (a.f226() != "B.f226") { Console.WriteLine("FAILED: a.f226()!=\"B.f226\""); return 1; }
if (a.f227() != "B.f227") { Console.WriteLine("FAILED: a.f227()!=\"B.f227\""); return 1; }
if (a.f228() != "B.f228") { Console.WriteLine("FAILED: a.f228()!=\"B.f228\""); return 1; }
if (a.f229() != "B.f229") { Console.WriteLine("FAILED: a.f229()!=\"B.f229\""); return 1; }
if (a.f230() != "B.f230") { Console.WriteLine("FAILED: a.f230()!=\"B.f230\""); return 1; }
if (a.f231() != "B.f231") { Console.WriteLine("FAILED: a.f231()!=\"B.f231\""); return 1; }
if (a.f232() != "B.f232") { Console.WriteLine("FAILED: a.f232()!=\"B.f232\""); return 1; }
if (a.f233() != "B.f233") { Console.WriteLine("FAILED: a.f233()!=\"B.f233\""); return 1; }
if (a.f234() != "B.f234") { Console.WriteLine("FAILED: a.f234()!=\"B.f234\""); return 1; }
if (a.f235() != "B.f235") { Console.WriteLine("FAILED: a.f235()!=\"B.f235\""); return 1; }
if (a.f236() != "B.f236") { Console.WriteLine("FAILED: a.f236()!=\"B.f236\""); return 1; }
if (a.f237() != "B.f237") { Console.WriteLine("FAILED: a.f237()!=\"B.f237\""); return 1; }
if (a.f238() != "B.f238") { Console.WriteLine("FAILED: a.f238()!=\"B.f238\""); return 1; }
if (a.f239() != "B.f239") { Console.WriteLine("FAILED: a.f239()!=\"B.f239\""); return 1; }
if (a.f240() != "B.f240") { Console.WriteLine("FAILED: a.f240()!=\"B.f240\""); return 1; }
if (a.f241() != "B.f241") { Console.WriteLine("FAILED: a.f241()!=\"B.f241\""); return 1; }
if (a.f242() != "B.f242") { Console.WriteLine("FAILED: a.f242()!=\"B.f242\""); return 1; }
if (a.f243() != "B.f243") { Console.WriteLine("FAILED: a.f243()!=\"B.f243\""); return 1; }
if (a.f244() != "B.f244") { Console.WriteLine("FAILED: a.f244()!=\"B.f244\""); return 1; }
if (a.f245() != "B.f245") { Console.WriteLine("FAILED: a.f245()!=\"B.f245\""); return 1; }
if (a.f246() != "B.f246") { Console.WriteLine("FAILED: a.f246()!=\"B.f246\""); return 1; }
if (a.f247() != "B.f247") { Console.WriteLine("FAILED: a.f247()!=\"B.f247\""); return 1; }
if (a.f248() != "B.f248") { Console.WriteLine("FAILED: a.f248()!=\"B.f248\""); return 1; }
if (a.f249() != "B.f249") { Console.WriteLine("FAILED: a.f249()!=\"B.f249\""); return 1; }
if (a.f250() != "B.f250") { Console.WriteLine("FAILED: a.f250()!=\"B.f250\""); return 1; }
if (a.f251() != "B.f251") { Console.WriteLine("FAILED: a.f251()!=\"B.f251\""); return 1; }
if (a.f252() != "B.f252") { Console.WriteLine("FAILED: a.f252()!=\"B.f252\""); return 1; }
if (a.f253() != "B.f253") { Console.WriteLine("FAILED: a.f253()!=\"B.f253\""); return 1; }
if (a.f254() != "B.f254") { Console.WriteLine("FAILED: a.f254()!=\"B.f254\""); return 1; }
if (a.f255() != "B.f255") { Console.WriteLine("FAILED: a.f255()!=\"B.f255\""); return 1; }
if (a.f256() != "B.f256") { Console.WriteLine("FAILED: a.f256()!=\"B.f256\""); return 1; }
if (a.f257() != "B.f257") { Console.WriteLine("FAILED: a.f257()!=\"B.f257\""); return 1; }
if (a.f258() != "B.f258") { Console.WriteLine("FAILED: a.f258()!=\"B.f258\""); return 1; }
if (a.f259() != "B.f259") { Console.WriteLine("FAILED: a.f259()!=\"B.f259\""); return 1; }
if (a.f260() != "B.f260") { Console.WriteLine("FAILED: a.f260()!=\"B.f260\""); return 1; }
if (a.f261() != "B.f261") { Console.WriteLine("FAILED: a.f261()!=\"B.f261\""); return 1; }
if (a.f262() != "B.f262") { Console.WriteLine("FAILED: a.f262()!=\"B.f262\""); return 1; }
if (a.f263() != "B.f263") { Console.WriteLine("FAILED: a.f263()!=\"B.f263\""); return 1; }
if (a.f264() != "B.f264") { Console.WriteLine("FAILED: a.f264()!=\"B.f264\""); return 1; }
if (a.f265() != "B.f265") { Console.WriteLine("FAILED: a.f265()!=\"B.f265\""); return 1; }
if (a.f266() != "B.f266") { Console.WriteLine("FAILED: a.f266()!=\"B.f266\""); return 1; }
if (a.f267() != "B.f267") { Console.WriteLine("FAILED: a.f267()!=\"B.f267\""); return 1; }
if (a.f268() != "B.f268") { Console.WriteLine("FAILED: a.f268()!=\"B.f268\""); return 1; }
if (a.f269() != "B.f269") { Console.WriteLine("FAILED: a.f269()!=\"B.f269\""); return 1; }
if (a.f270() != "B.f270") { Console.WriteLine("FAILED: a.f270()!=\"B.f270\""); return 1; }
if (a.f271() != "B.f271") { Console.WriteLine("FAILED: a.f271()!=\"B.f271\""); return 1; }
if (a.f272() != "B.f272") { Console.WriteLine("FAILED: a.f272()!=\"B.f272\""); return 1; }
if (a.f273() != "B.f273") { Console.WriteLine("FAILED: a.f273()!=\"B.f273\""); return 1; }
if (a.f274() != "B.f274") { Console.WriteLine("FAILED: a.f274()!=\"B.f274\""); return 1; }
if (a.f275() != "B.f275") { Console.WriteLine("FAILED: a.f275()!=\"B.f275\""); return 1; }
if (a.f276() != "B.f276") { Console.WriteLine("FAILED: a.f276()!=\"B.f276\""); return 1; }
if (a.f277() != "B.f277") { Console.WriteLine("FAILED: a.f277()!=\"B.f277\""); return 1; }
if (a.f278() != "B.f278") { Console.WriteLine("FAILED: a.f278()!=\"B.f278\""); return 1; }
if (a.f279() != "B.f279") { Console.WriteLine("FAILED: a.f279()!=\"B.f279\""); return 1; }
if (a.f280() != "B.f280") { Console.WriteLine("FAILED: a.f280()!=\"B.f280\""); return 1; }
if (a.f281() != "B.f281") { Console.WriteLine("FAILED: a.f281()!=\"B.f281\""); return 1; }
if (a.f282() != "B.f282") { Console.WriteLine("FAILED: a.f282()!=\"B.f282\""); return 1; }
if (a.f283() != "B.f283") { Console.WriteLine("FAILED: a.f283()!=\"B.f283\""); return 1; }
if (a.f284() != "B.f284") { Console.WriteLine("FAILED: a.f284()!=\"B.f284\""); return 1; }
if (a.f285() != "B.f285") { Console.WriteLine("FAILED: a.f285()!=\"B.f285\""); return 1; }
if (a.f286() != "B.f286") { Console.WriteLine("FAILED: a.f286()!=\"B.f286\""); return 1; }
if (a.f287() != "B.f287") { Console.WriteLine("FAILED: a.f287()!=\"B.f287\""); return 1; }
if (a.f288() != "B.f288") { Console.WriteLine("FAILED: a.f288()!=\"B.f288\""); return 1; }
if (a.f289() != "B.f289") { Console.WriteLine("FAILED: a.f289()!=\"B.f289\""); return 1; }
if (a.f290() != "B.f290") { Console.WriteLine("FAILED: a.f290()!=\"B.f290\""); return 1; }
if (a.f291() != "B.f291") { Console.WriteLine("FAILED: a.f291()!=\"B.f291\""); return 1; }
if (a.f292() != "B.f292") { Console.WriteLine("FAILED: a.f292()!=\"B.f292\""); return 1; }
if (a.f293() != "B.f293") { Console.WriteLine("FAILED: a.f293()!=\"B.f293\""); return 1; }
if (a.f294() != "B.f294") { Console.WriteLine("FAILED: a.f294()!=\"B.f294\""); return 1; }
if (a.f295() != "B.f295") { Console.WriteLine("FAILED: a.f295()!=\"B.f295\""); return 1; }
if (a.f296() != "B.f296") { Console.WriteLine("FAILED: a.f296()!=\"B.f296\""); return 1; }
if (a.f297() != "B.f297") { Console.WriteLine("FAILED: a.f297()!=\"B.f297\""); return 1; }
if (a.f298() != "B.f298") { Console.WriteLine("FAILED: a.f298()!=\"B.f298\""); return 1; }
if (a.f299() != "B.f299") { Console.WriteLine("FAILED: a.f299()!=\"B.f299\""); return 1; }
if (a.f300() != "B.f300") { Console.WriteLine("FAILED: a.f300()!=\"B.f300\""); return 1; }
if (a.f301() != "B.f301") { Console.WriteLine("FAILED: a.f301()!=\"B.f301\""); return 1; }
if (a.f302() != "B.f302") { Console.WriteLine("FAILED: a.f302()!=\"B.f302\""); return 1; }
if (a.f303() != "B.f303") { Console.WriteLine("FAILED: a.f303()!=\"B.f303\""); return 1; }
if (a.f304() != "B.f304") { Console.WriteLine("FAILED: a.f304()!=\"B.f304\""); return 1; }
if (a.f305() != "B.f305") { Console.WriteLine("FAILED: a.f305()!=\"B.f305\""); return 1; }
if (a.f306() != "B.f306") { Console.WriteLine("FAILED: a.f306()!=\"B.f306\""); return 1; }
if (a.f307() != "B.f307") { Console.WriteLine("FAILED: a.f307()!=\"B.f307\""); return 1; }
if (a.f308() != "B.f308") { Console.WriteLine("FAILED: a.f308()!=\"B.f308\""); return 1; }
if (a.f309() != "B.f309") { Console.WriteLine("FAILED: a.f309()!=\"B.f309\""); return 1; }
if (a.f310() != "B.f310") { Console.WriteLine("FAILED: a.f310()!=\"B.f310\""); return 1; }
if (a.f311() != "B.f311") { Console.WriteLine("FAILED: a.f311()!=\"B.f311\""); return 1; }
if (a.f312() != "B.f312") { Console.WriteLine("FAILED: a.f312()!=\"B.f312\""); return 1; }
if (a.f313() != "B.f313") { Console.WriteLine("FAILED: a.f313()!=\"B.f313\""); return 1; }
if (a.f314() != "B.f314") { Console.WriteLine("FAILED: a.f314()!=\"B.f314\""); return 1; }
if (a.f315() != "B.f315") { Console.WriteLine("FAILED: a.f315()!=\"B.f315\""); return 1; }
if (a.f316() != "B.f316") { Console.WriteLine("FAILED: a.f316()!=\"B.f316\""); return 1; }
if (a.f317() != "B.f317") { Console.WriteLine("FAILED: a.f317()!=\"B.f317\""); return 1; }
if (a.f318() != "B.f318") { Console.WriteLine("FAILED: a.f318()!=\"B.f318\""); return 1; }
if (a.f319() != "B.f319") { Console.WriteLine("FAILED: a.f319()!=\"B.f319\""); return 1; }
if (a.f320() != "B.f320") { Console.WriteLine("FAILED: a.f320()!=\"B.f320\""); return 1; }
if (a.f321() != "B.f321") { Console.WriteLine("FAILED: a.f321()!=\"B.f321\""); return 1; }
if (a.f322() != "B.f322") { Console.WriteLine("FAILED: a.f322()!=\"B.f322\""); return 1; }
if (a.f323() != "B.f323") { Console.WriteLine("FAILED: a.f323()!=\"B.f323\""); return 1; }
if (a.f324() != "B.f324") { Console.WriteLine("FAILED: a.f324()!=\"B.f324\""); return 1; }
if (a.f325() != "B.f325") { Console.WriteLine("FAILED: a.f325()!=\"B.f325\""); return 1; }
if (a.f326() != "B.f326") { Console.WriteLine("FAILED: a.f326()!=\"B.f326\""); return 1; }
if (a.f327() != "B.f327") { Console.WriteLine("FAILED: a.f327()!=\"B.f327\""); return 1; }
if (a.f328() != "B.f328") { Console.WriteLine("FAILED: a.f328()!=\"B.f328\""); return 1; }
if (a.f329() != "B.f329") { Console.WriteLine("FAILED: a.f329()!=\"B.f329\""); return 1; }
if (a.f330() != "B.f330") { Console.WriteLine("FAILED: a.f330()!=\"B.f330\""); return 1; }
if (a.f331() != "B.f331") { Console.WriteLine("FAILED: a.f331()!=\"B.f331\""); return 1; }
if (a.f332() != "B.f332") { Console.WriteLine("FAILED: a.f332()!=\"B.f332\""); return 1; }
if (a.f333() != "B.f333") { Console.WriteLine("FAILED: a.f333()!=\"B.f333\""); return 1; }
if (a.f334() != "B.f334") { Console.WriteLine("FAILED: a.f334()!=\"B.f334\""); return 1; }
if (a.f335() != "B.f335") { Console.WriteLine("FAILED: a.f335()!=\"B.f335\""); return 1; }
if (a.f336() != "B.f336") { Console.WriteLine("FAILED: a.f336()!=\"B.f336\""); return 1; }
if (a.f337() != "B.f337") { Console.WriteLine("FAILED: a.f337()!=\"B.f337\""); return 1; }
if (a.f338() != "B.f338") { Console.WriteLine("FAILED: a.f338()!=\"B.f338\""); return 1; }
if (a.f339() != "B.f339") { Console.WriteLine("FAILED: a.f339()!=\"B.f339\""); return 1; }
if (a.f340() != "B.f340") { Console.WriteLine("FAILED: a.f340()!=\"B.f340\""); return 1; }
if (a.f341() != "B.f341") { Console.WriteLine("FAILED: a.f341()!=\"B.f341\""); return 1; }
if (a.f342() != "B.f342") { Console.WriteLine("FAILED: a.f342()!=\"B.f342\""); return 1; }
if (a.f343() != "B.f343") { Console.WriteLine("FAILED: a.f343()!=\"B.f343\""); return 1; }
if (a.f344() != "B.f344") { Console.WriteLine("FAILED: a.f344()!=\"B.f344\""); return 1; }
if (a.f345() != "B.f345") { Console.WriteLine("FAILED: a.f345()!=\"B.f345\""); return 1; }
if (a.f346() != "B.f346") { Console.WriteLine("FAILED: a.f346()!=\"B.f346\""); return 1; }
if (a.f347() != "B.f347") { Console.WriteLine("FAILED: a.f347()!=\"B.f347\""); return 1; }
if (a.f348() != "B.f348") { Console.WriteLine("FAILED: a.f348()!=\"B.f348\""); return 1; }
if (a.f349() != "B.f349") { Console.WriteLine("FAILED: a.f349()!=\"B.f349\""); return 1; }
if (a.f350() != "B.f350") { Console.WriteLine("FAILED: a.f350()!=\"B.f350\""); return 1; }
if (a.f351() != "B.f351") { Console.WriteLine("FAILED: a.f351()!=\"B.f351\""); return 1; }
if (a.f352() != "B.f352") { Console.WriteLine("FAILED: a.f352()!=\"B.f352\""); return 1; }
if (a.f353() != "B.f353") { Console.WriteLine("FAILED: a.f353()!=\"B.f353\""); return 1; }
if (a.f354() != "B.f354") { Console.WriteLine("FAILED: a.f354()!=\"B.f354\""); return 1; }
if (a.f355() != "B.f355") { Console.WriteLine("FAILED: a.f355()!=\"B.f355\""); return 1; }
if (a.f356() != "B.f356") { Console.WriteLine("FAILED: a.f356()!=\"B.f356\""); return 1; }
if (a.f357() != "B.f357") { Console.WriteLine("FAILED: a.f357()!=\"B.f357\""); return 1; }
if (a.f358() != "B.f358") { Console.WriteLine("FAILED: a.f358()!=\"B.f358\""); return 1; }
if (a.f359() != "B.f359") { Console.WriteLine("FAILED: a.f359()!=\"B.f359\""); return 1; }
if (a.f360() != "B.f360") { Console.WriteLine("FAILED: a.f360()!=\"B.f360\""); return 1; }
if (a.f361() != "B.f361") { Console.WriteLine("FAILED: a.f361()!=\"B.f361\""); return 1; }
if (a.f362() != "B.f362") { Console.WriteLine("FAILED: a.f362()!=\"B.f362\""); return 1; }
if (a.f363() != "B.f363") { Console.WriteLine("FAILED: a.f363()!=\"B.f363\""); return 1; }
if (a.f364() != "B.f364") { Console.WriteLine("FAILED: a.f364()!=\"B.f364\""); return 1; }
if (a.f365() != "B.f365") { Console.WriteLine("FAILED: a.f365()!=\"B.f365\""); return 1; }
if (a.f366() != "B.f366") { Console.WriteLine("FAILED: a.f366()!=\"B.f366\""); return 1; }
if (a.f367() != "B.f367") { Console.WriteLine("FAILED: a.f367()!=\"B.f367\""); return 1; }
if (a.f368() != "B.f368") { Console.WriteLine("FAILED: a.f368()!=\"B.f368\""); return 1; }
if (a.f369() != "B.f369") { Console.WriteLine("FAILED: a.f369()!=\"B.f369\""); return 1; }
if (a.f370() != "B.f370") { Console.WriteLine("FAILED: a.f370()!=\"B.f370\""); return 1; }
if (a.f371() != "B.f371") { Console.WriteLine("FAILED: a.f371()!=\"B.f371\""); return 1; }
if (a.f372() != "B.f372") { Console.WriteLine("FAILED: a.f372()!=\"B.f372\""); return 1; }
if (a.f373() != "B.f373") { Console.WriteLine("FAILED: a.f373()!=\"B.f373\""); return 1; }
if (a.f374() != "B.f374") { Console.WriteLine("FAILED: a.f374()!=\"B.f374\""); return 1; }
if (a.f375() != "B.f375") { Console.WriteLine("FAILED: a.f375()!=\"B.f375\""); return 1; }
if (a.f376() != "B.f376") { Console.WriteLine("FAILED: a.f376()!=\"B.f376\""); return 1; }
if (a.f377() != "B.f377") { Console.WriteLine("FAILED: a.f377()!=\"B.f377\""); return 1; }
if (a.f378() != "B.f378") { Console.WriteLine("FAILED: a.f378()!=\"B.f378\""); return 1; }
if (a.f379() != "B.f379") { Console.WriteLine("FAILED: a.f379()!=\"B.f379\""); return 1; }
if (a.f380() != "B.f380") { Console.WriteLine("FAILED: a.f380()!=\"B.f380\""); return 1; }
if (a.f381() != "B.f381") { Console.WriteLine("FAILED: a.f381()!=\"B.f381\""); return 1; }
if (a.f382() != "B.f382") { Console.WriteLine("FAILED: a.f382()!=\"B.f382\""); return 1; }
if (a.f383() != "B.f383") { Console.WriteLine("FAILED: a.f383()!=\"B.f383\""); return 1; }
if (a.f384() != "B.f384") { Console.WriteLine("FAILED: a.f384()!=\"B.f384\""); return 1; }
if (a.f385() != "B.f385") { Console.WriteLine("FAILED: a.f385()!=\"B.f385\""); return 1; }
if (a.f386() != "B.f386") { Console.WriteLine("FAILED: a.f386()!=\"B.f386\""); return 1; }
if (a.f387() != "B.f387") { Console.WriteLine("FAILED: a.f387()!=\"B.f387\""); return 1; }
if (a.f388() != "B.f388") { Console.WriteLine("FAILED: a.f388()!=\"B.f388\""); return 1; }
if (a.f389() != "B.f389") { Console.WriteLine("FAILED: a.f389()!=\"B.f389\""); return 1; }
if (a.f390() != "B.f390") { Console.WriteLine("FAILED: a.f390()!=\"B.f390\""); return 1; }
if (a.f391() != "B.f391") { Console.WriteLine("FAILED: a.f391()!=\"B.f391\""); return 1; }
if (a.f392() != "B.f392") { Console.WriteLine("FAILED: a.f392()!=\"B.f392\""); return 1; }
if (a.f393() != "B.f393") { Console.WriteLine("FAILED: a.f393()!=\"B.f393\""); return 1; }
if (a.f394() != "B.f394") { Console.WriteLine("FAILED: a.f394()!=\"B.f394\""); return 1; }
if (a.f395() != "B.f395") { Console.WriteLine("FAILED: a.f395()!=\"B.f395\""); return 1; }
if (a.f396() != "B.f396") { Console.WriteLine("FAILED: a.f396()!=\"B.f396\""); return 1; }
if (a.f397() != "B.f397") { Console.WriteLine("FAILED: a.f397()!=\"B.f397\""); return 1; }
if (a.f398() != "B.f398") { Console.WriteLine("FAILED: a.f398()!=\"B.f398\""); return 1; }
if (a.f399() != "B.f399") { Console.WriteLine("FAILED: a.f399()!=\"B.f399\""); return 1; }
if (a.f400() != "B.f400") { Console.WriteLine("FAILED: a.f400()!=\"B.f400\""); return 1; }
if (a.f401() != "B.f401") { Console.WriteLine("FAILED: a.f401()!=\"B.f401\""); return 1; }
if (a.f402() != "B.f402") { Console.WriteLine("FAILED: a.f402()!=\"B.f402\""); return 1; }
if (a.f403() != "B.f403") { Console.WriteLine("FAILED: a.f403()!=\"B.f403\""); return 1; }
if (a.f404() != "B.f404") { Console.WriteLine("FAILED: a.f404()!=\"B.f404\""); return 1; }
if (a.f405() != "B.f405") { Console.WriteLine("FAILED: a.f405()!=\"B.f405\""); return 1; }
if (a.f406() != "B.f406") { Console.WriteLine("FAILED: a.f406()!=\"B.f406\""); return 1; }
if (a.f407() != "B.f407") { Console.WriteLine("FAILED: a.f407()!=\"B.f407\""); return 1; }
if (a.f408() != "B.f408") { Console.WriteLine("FAILED: a.f408()!=\"B.f408\""); return 1; }
if (a.f409() != "B.f409") { Console.WriteLine("FAILED: a.f409()!=\"B.f409\""); return 1; }
if (a.f410() != "B.f410") { Console.WriteLine("FAILED: a.f410()!=\"B.f410\""); return 1; }
if (a.f411() != "B.f411") { Console.WriteLine("FAILED: a.f411()!=\"B.f411\""); return 1; }
if (a.f412() != "B.f412") { Console.WriteLine("FAILED: a.f412()!=\"B.f412\""); return 1; }
if (a.f413() != "B.f413") { Console.WriteLine("FAILED: a.f413()!=\"B.f413\""); return 1; }
if (a.f414() != "B.f414") { Console.WriteLine("FAILED: a.f414()!=\"B.f414\""); return 1; }
if (a.f415() != "B.f415") { Console.WriteLine("FAILED: a.f415()!=\"B.f415\""); return 1; }
if (a.f416() != "B.f416") { Console.WriteLine("FAILED: a.f416()!=\"B.f416\""); return 1; }
if (a.f417() != "B.f417") { Console.WriteLine("FAILED: a.f417()!=\"B.f417\""); return 1; }
if (a.f418() != "B.f418") { Console.WriteLine("FAILED: a.f418()!=\"B.f418\""); return 1; }
if (a.f419() != "B.f419") { Console.WriteLine("FAILED: a.f419()!=\"B.f419\""); return 1; }
if (a.f420() != "B.f420") { Console.WriteLine("FAILED: a.f420()!=\"B.f420\""); return 1; }
if (a.f421() != "B.f421") { Console.WriteLine("FAILED: a.f421()!=\"B.f421\""); return 1; }
if (a.f422() != "B.f422") { Console.WriteLine("FAILED: a.f422()!=\"B.f422\""); return 1; }
if (a.f423() != "B.f423") { Console.WriteLine("FAILED: a.f423()!=\"B.f423\""); return 1; }
if (a.f424() != "B.f424") { Console.WriteLine("FAILED: a.f424()!=\"B.f424\""); return 1; }
if (a.f425() != "B.f425") { Console.WriteLine("FAILED: a.f425()!=\"B.f425\""); return 1; }
if (a.f426() != "B.f426") { Console.WriteLine("FAILED: a.f426()!=\"B.f426\""); return 1; }
if (a.f427() != "B.f427") { Console.WriteLine("FAILED: a.f427()!=\"B.f427\""); return 1; }
if (a.f428() != "B.f428") { Console.WriteLine("FAILED: a.f428()!=\"B.f428\""); return 1; }
if (a.f429() != "B.f429") { Console.WriteLine("FAILED: a.f429()!=\"B.f429\""); return 1; }
if (a.f430() != "B.f430") { Console.WriteLine("FAILED: a.f430()!=\"B.f430\""); return 1; }
if (a.f431() != "B.f431") { Console.WriteLine("FAILED: a.f431()!=\"B.f431\""); return 1; }
if (a.f432() != "B.f432") { Console.WriteLine("FAILED: a.f432()!=\"B.f432\""); return 1; }
if (a.f433() != "B.f433") { Console.WriteLine("FAILED: a.f433()!=\"B.f433\""); return 1; }
if (a.f434() != "B.f434") { Console.WriteLine("FAILED: a.f434()!=\"B.f434\""); return 1; }
if (a.f435() != "B.f435") { Console.WriteLine("FAILED: a.f435()!=\"B.f435\""); return 1; }
if (a.f436() != "B.f436") { Console.WriteLine("FAILED: a.f436()!=\"B.f436\""); return 1; }
if (a.f437() != "B.f437") { Console.WriteLine("FAILED: a.f437()!=\"B.f437\""); return 1; }
if (a.f438() != "B.f438") { Console.WriteLine("FAILED: a.f438()!=\"B.f438\""); return 1; }
if (a.f439() != "B.f439") { Console.WriteLine("FAILED: a.f439()!=\"B.f439\""); return 1; }
if (a.f440() != "B.f440") { Console.WriteLine("FAILED: a.f440()!=\"B.f440\""); return 1; }
if (a.f441() != "B.f441") { Console.WriteLine("FAILED: a.f441()!=\"B.f441\""); return 1; }
if (a.f442() != "B.f442") { Console.WriteLine("FAILED: a.f442()!=\"B.f442\""); return 1; }
if (a.f443() != "B.f443") { Console.WriteLine("FAILED: a.f443()!=\"B.f443\""); return 1; }
if (a.f444() != "B.f444") { Console.WriteLine("FAILED: a.f444()!=\"B.f444\""); return 1; }
if (a.f445() != "B.f445") { Console.WriteLine("FAILED: a.f445()!=\"B.f445\""); return 1; }
if (a.f446() != "B.f446") { Console.WriteLine("FAILED: a.f446()!=\"B.f446\""); return 1; }
if (a.f447() != "B.f447") { Console.WriteLine("FAILED: a.f447()!=\"B.f447\""); return 1; }
if (a.f448() != "B.f448") { Console.WriteLine("FAILED: a.f448()!=\"B.f448\""); return 1; }
if (a.f449() != "B.f449") { Console.WriteLine("FAILED: a.f449()!=\"B.f449\""); return 1; }
if (a.f450() != "B.f450") { Console.WriteLine("FAILED: a.f450()!=\"B.f450\""); return 1; }
if (a.f451() != "B.f451") { Console.WriteLine("FAILED: a.f451()!=\"B.f451\""); return 1; }
if (a.f452() != "B.f452") { Console.WriteLine("FAILED: a.f452()!=\"B.f452\""); return 1; }
if (a.f453() != "B.f453") { Console.WriteLine("FAILED: a.f453()!=\"B.f453\""); return 1; }
if (a.f454() != "B.f454") { Console.WriteLine("FAILED: a.f454()!=\"B.f454\""); return 1; }
if (a.f455() != "B.f455") { Console.WriteLine("FAILED: a.f455()!=\"B.f455\""); return 1; }
if (a.f456() != "B.f456") { Console.WriteLine("FAILED: a.f456()!=\"B.f456\""); return 1; }
if (a.f457() != "B.f457") { Console.WriteLine("FAILED: a.f457()!=\"B.f457\""); return 1; }
if (a.f458() != "B.f458") { Console.WriteLine("FAILED: a.f458()!=\"B.f458\""); return 1; }
if (a.f459() != "B.f459") { Console.WriteLine("FAILED: a.f459()!=\"B.f459\""); return 1; }
if (a.f460() != "B.f460") { Console.WriteLine("FAILED: a.f460()!=\"B.f460\""); return 1; }
if (a.f461() != "B.f461") { Console.WriteLine("FAILED: a.f461()!=\"B.f461\""); return 1; }
if (a.f462() != "B.f462") { Console.WriteLine("FAILED: a.f462()!=\"B.f462\""); return 1; }
if (a.f463() != "B.f463") { Console.WriteLine("FAILED: a.f463()!=\"B.f463\""); return 1; }
if (a.f464() != "B.f464") { Console.WriteLine("FAILED: a.f464()!=\"B.f464\""); return 1; }
if (a.f465() != "B.f465") { Console.WriteLine("FAILED: a.f465()!=\"B.f465\""); return 1; }
if (a.f466() != "B.f466") { Console.WriteLine("FAILED: a.f466()!=\"B.f466\""); return 1; }
if (a.f467() != "B.f467") { Console.WriteLine("FAILED: a.f467()!=\"B.f467\""); return 1; }
if (a.f468() != "B.f468") { Console.WriteLine("FAILED: a.f468()!=\"B.f468\""); return 1; }
if (a.f469() != "B.f469") { Console.WriteLine("FAILED: a.f469()!=\"B.f469\""); return 1; }
if (a.f470() != "B.f470") { Console.WriteLine("FAILED: a.f470()!=\"B.f470\""); return 1; }
if (a.f471() != "B.f471") { Console.WriteLine("FAILED: a.f471()!=\"B.f471\""); return 1; }
if (a.f472() != "B.f472") { Console.WriteLine("FAILED: a.f472()!=\"B.f472\""); return 1; }
if (a.f473() != "B.f473") { Console.WriteLine("FAILED: a.f473()!=\"B.f473\""); return 1; }
if (a.f474() != "B.f474") { Console.WriteLine("FAILED: a.f474()!=\"B.f474\""); return 1; }
if (a.f475() != "B.f475") { Console.WriteLine("FAILED: a.f475()!=\"B.f475\""); return 1; }
if (a.f476() != "B.f476") { Console.WriteLine("FAILED: a.f476()!=\"B.f476\""); return 1; }
if (a.f477() != "B.f477") { Console.WriteLine("FAILED: a.f477()!=\"B.f477\""); return 1; }
if (a.f478() != "B.f478") { Console.WriteLine("FAILED: a.f478()!=\"B.f478\""); return 1; }
if (a.f479() != "B.f479") { Console.WriteLine("FAILED: a.f479()!=\"B.f479\""); return 1; }
if (a.f480() != "B.f480") { Console.WriteLine("FAILED: a.f480()!=\"B.f480\""); return 1; }
if (a.f481() != "B.f481") { Console.WriteLine("FAILED: a.f481()!=\"B.f481\""); return 1; }
if (a.f482() != "B.f482") { Console.WriteLine("FAILED: a.f482()!=\"B.f482\""); return 1; }
if (a.f483() != "B.f483") { Console.WriteLine("FAILED: a.f483()!=\"B.f483\""); return 1; }
if (a.f484() != "B.f484") { Console.WriteLine("FAILED: a.f484()!=\"B.f484\""); return 1; }
if (a.f485() != "B.f485") { Console.WriteLine("FAILED: a.f485()!=\"B.f485\""); return 1; }
if (a.f486() != "B.f486") { Console.WriteLine("FAILED: a.f486()!=\"B.f486\""); return 1; }
if (a.f487() != "B.f487") { Console.WriteLine("FAILED: a.f487()!=\"B.f487\""); return 1; }
if (a.f488() != "B.f488") { Console.WriteLine("FAILED: a.f488()!=\"B.f488\""); return 1; }
if (a.f489() != "B.f489") { Console.WriteLine("FAILED: a.f489()!=\"B.f489\""); return 1; }
if (a.f490() != "B.f490") { Console.WriteLine("FAILED: a.f490()!=\"B.f490\""); return 1; }
if (a.f491() != "B.f491") { Console.WriteLine("FAILED: a.f491()!=\"B.f491\""); return 1; }
if (a.f492() != "B.f492") { Console.WriteLine("FAILED: a.f492()!=\"B.f492\""); return 1; }
if (a.f493() != "B.f493") { Console.WriteLine("FAILED: a.f493()!=\"B.f493\""); return 1; }
if (a.f494() != "B.f494") { Console.WriteLine("FAILED: a.f494()!=\"B.f494\""); return 1; }
if (a.f495() != "B.f495") { Console.WriteLine("FAILED: a.f495()!=\"B.f495\""); return 1; }
if (a.f496() != "B.f496") { Console.WriteLine("FAILED: a.f496()!=\"B.f496\""); return 1; }
if (a.f497() != "B.f497") { Console.WriteLine("FAILED: a.f497()!=\"B.f497\""); return 1; }
if (a.f498() != "B.f498") { Console.WriteLine("FAILED: a.f498()!=\"B.f498\""); return 1; }
if (a.f499() != "B.f499") { Console.WriteLine("FAILED: a.f499()!=\"B.f499\""); return 1; }
if (a.f500() != "B.f500") { Console.WriteLine("FAILED: a.f500()!=\"B.f500\""); return 1; }
if (a.f501() != "B.f501") { Console.WriteLine("FAILED: a.f501()!=\"B.f501\""); return 1; }
if (a.f502() != "B.f502") { Console.WriteLine("FAILED: a.f502()!=\"B.f502\""); return 1; }
if (a.f503() != "B.f503") { Console.WriteLine("FAILED: a.f503()!=\"B.f503\""); return 1; }
if (a.f504() != "B.f504") { Console.WriteLine("FAILED: a.f504()!=\"B.f504\""); return 1; }
if (a.f505() != "B.f505") { Console.WriteLine("FAILED: a.f505()!=\"B.f505\""); return 1; }
if (a.f506() != "B.f506") { Console.WriteLine("FAILED: a.f506()!=\"B.f506\""); return 1; }
if (a.f507() != "B.f507") { Console.WriteLine("FAILED: a.f507()!=\"B.f507\""); return 1; }
if (a.f508() != "B.f508") { Console.WriteLine("FAILED: a.f508()!=\"B.f508\""); return 1; }
if (a.f509() != "B.f509") { Console.WriteLine("FAILED: a.f509()!=\"B.f509\""); return 1; }
if (a.f510() != "B.f510") { Console.WriteLine("FAILED: a.f510()!=\"B.f510\""); return 1; }
if (a.f511() != "B.f511") { Console.WriteLine("FAILED: a.f511()!=\"B.f511\""); return 1; }
if (a.f512() != "B.f512") { Console.WriteLine("FAILED: a.f512()!=\"B.f512\""); return 1; }
if (a.f513() != "B.f513") { Console.WriteLine("FAILED: a.f513()!=\"B.f513\""); return 1; }
if (a.f514() != "B.f514") { Console.WriteLine("FAILED: a.f514()!=\"B.f514\""); return 1; }
if (a.f515() != "B.f515") { Console.WriteLine("FAILED: a.f515()!=\"B.f515\""); return 1; }
if (a.f516() != "B.f516") { Console.WriteLine("FAILED: a.f516()!=\"B.f516\""); return 1; }
if (a.f517() != "B.f517") { Console.WriteLine("FAILED: a.f517()!=\"B.f517\""); return 1; }
if (a.f518() != "B.f518") { Console.WriteLine("FAILED: a.f518()!=\"B.f518\""); return 1; }
if (a.f519() != "B.f519") { Console.WriteLine("FAILED: a.f519()!=\"B.f519\""); return 1; }
if (a.f520() != "B.f520") { Console.WriteLine("FAILED: a.f520()!=\"B.f520\""); return 1; }
if (a.f521() != "B.f521") { Console.WriteLine("FAILED: a.f521()!=\"B.f521\""); return 1; }
if (a.f522() != "B.f522") { Console.WriteLine("FAILED: a.f522()!=\"B.f522\""); return 1; }
if (a.f523() != "B.f523") { Console.WriteLine("FAILED: a.f523()!=\"B.f523\""); return 1; }
if (a.f524() != "B.f524") { Console.WriteLine("FAILED: a.f524()!=\"B.f524\""); return 1; }
if (a.f525() != "B.f525") { Console.WriteLine("FAILED: a.f525()!=\"B.f525\""); return 1; }
if (a.f526() != "B.f526") { Console.WriteLine("FAILED: a.f526()!=\"B.f526\""); return 1; }
if (a.f527() != "B.f527") { Console.WriteLine("FAILED: a.f527()!=\"B.f527\""); return 1; }
if (a.f528() != "B.f528") { Console.WriteLine("FAILED: a.f528()!=\"B.f528\""); return 1; }
if (a.f529() != "B.f529") { Console.WriteLine("FAILED: a.f529()!=\"B.f529\""); return 1; }
if (a.f530() != "B.f530") { Console.WriteLine("FAILED: a.f530()!=\"B.f530\""); return 1; }
if (a.f531() != "B.f531") { Console.WriteLine("FAILED: a.f531()!=\"B.f531\""); return 1; }
if (a.f532() != "B.f532") { Console.WriteLine("FAILED: a.f532()!=\"B.f532\""); return 1; }
if (a.f533() != "B.f533") { Console.WriteLine("FAILED: a.f533()!=\"B.f533\""); return 1; }
if (a.f534() != "B.f534") { Console.WriteLine("FAILED: a.f534()!=\"B.f534\""); return 1; }
if (a.f535() != "B.f535") { Console.WriteLine("FAILED: a.f535()!=\"B.f535\""); return 1; }
if (a.f536() != "B.f536") { Console.WriteLine("FAILED: a.f536()!=\"B.f536\""); return 1; }
if (a.f537() != "B.f537") { Console.WriteLine("FAILED: a.f537()!=\"B.f537\""); return 1; }
if (a.f538() != "B.f538") { Console.WriteLine("FAILED: a.f538()!=\"B.f538\""); return 1; }
if (a.f539() != "B.f539") { Console.WriteLine("FAILED: a.f539()!=\"B.f539\""); return 1; }
if (a.f540() != "B.f540") { Console.WriteLine("FAILED: a.f540()!=\"B.f540\""); return 1; }
if (a.f541() != "B.f541") { Console.WriteLine("FAILED: a.f541()!=\"B.f541\""); return 1; }
if (a.f542() != "B.f542") { Console.WriteLine("FAILED: a.f542()!=\"B.f542\""); return 1; }
if (a.f543() != "B.f543") { Console.WriteLine("FAILED: a.f543()!=\"B.f543\""); return 1; }
if (a.f544() != "B.f544") { Console.WriteLine("FAILED: a.f544()!=\"B.f544\""); return 1; }
if (a.f545() != "B.f545") { Console.WriteLine("FAILED: a.f545()!=\"B.f545\""); return 1; }
if (a.f546() != "B.f546") { Console.WriteLine("FAILED: a.f546()!=\"B.f546\""); return 1; }
if (a.f547() != "B.f547") { Console.WriteLine("FAILED: a.f547()!=\"B.f547\""); return 1; }
if (a.f548() != "B.f548") { Console.WriteLine("FAILED: a.f548()!=\"B.f548\""); return 1; }
if (a.f549() != "B.f549") { Console.WriteLine("FAILED: a.f549()!=\"B.f549\""); return 1; }
if (a.f550() != "B.f550") { Console.WriteLine("FAILED: a.f550()!=\"B.f550\""); return 1; }
if (a.f551() != "B.f551") { Console.WriteLine("FAILED: a.f551()!=\"B.f551\""); return 1; }
if (a.f552() != "B.f552") { Console.WriteLine("FAILED: a.f552()!=\"B.f552\""); return 1; }
if (a.f553() != "B.f553") { Console.WriteLine("FAILED: a.f553()!=\"B.f553\""); return 1; }
if (a.f554() != "B.f554") { Console.WriteLine("FAILED: a.f554()!=\"B.f554\""); return 1; }
if (a.f555() != "B.f555") { Console.WriteLine("FAILED: a.f555()!=\"B.f555\""); return 1; }
if (a.f556() != "B.f556") { Console.WriteLine("FAILED: a.f556()!=\"B.f556\""); return 1; }
if (a.f557() != "B.f557") { Console.WriteLine("FAILED: a.f557()!=\"B.f557\""); return 1; }
if (a.f558() != "B.f558") { Console.WriteLine("FAILED: a.f558()!=\"B.f558\""); return 1; }
if (a.f559() != "B.f559") { Console.WriteLine("FAILED: a.f559()!=\"B.f559\""); return 1; }
if (a.f560() != "B.f560") { Console.WriteLine("FAILED: a.f560()!=\"B.f560\""); return 1; }
if (a.f561() != "B.f561") { Console.WriteLine("FAILED: a.f561()!=\"B.f561\""); return 1; }
if (a.f562() != "B.f562") { Console.WriteLine("FAILED: a.f562()!=\"B.f562\""); return 1; }
if (a.f563() != "B.f563") { Console.WriteLine("FAILED: a.f563()!=\"B.f563\""); return 1; }
if (a.f564() != "B.f564") { Console.WriteLine("FAILED: a.f564()!=\"B.f564\""); return 1; }
if (a.f565() != "B.f565") { Console.WriteLine("FAILED: a.f565()!=\"B.f565\""); return 1; }
if (a.f566() != "B.f566") { Console.WriteLine("FAILED: a.f566()!=\"B.f566\""); return 1; }
if (a.f567() != "B.f567") { Console.WriteLine("FAILED: a.f567()!=\"B.f567\""); return 1; }
if (a.f568() != "B.f568") { Console.WriteLine("FAILED: a.f568()!=\"B.f568\""); return 1; }
if (a.f569() != "B.f569") { Console.WriteLine("FAILED: a.f569()!=\"B.f569\""); return 1; }
if (a.f570() != "B.f570") { Console.WriteLine("FAILED: a.f570()!=\"B.f570\""); return 1; }
if (a.f571() != "B.f571") { Console.WriteLine("FAILED: a.f571()!=\"B.f571\""); return 1; }
if (a.f572() != "B.f572") { Console.WriteLine("FAILED: a.f572()!=\"B.f572\""); return 1; }
if (a.f573() != "B.f573") { Console.WriteLine("FAILED: a.f573()!=\"B.f573\""); return 1; }
if (a.f574() != "B.f574") { Console.WriteLine("FAILED: a.f574()!=\"B.f574\""); return 1; }
if (a.f575() != "B.f575") { Console.WriteLine("FAILED: a.f575()!=\"B.f575\""); return 1; }
if (a.f576() != "B.f576") { Console.WriteLine("FAILED: a.f576()!=\"B.f576\""); return 1; }
if (a.f577() != "B.f577") { Console.WriteLine("FAILED: a.f577()!=\"B.f577\""); return 1; }
if (a.f578() != "B.f578") { Console.WriteLine("FAILED: a.f578()!=\"B.f578\""); return 1; }
if (a.f579() != "B.f579") { Console.WriteLine("FAILED: a.f579()!=\"B.f579\""); return 1; }
if (a.f580() != "B.f580") { Console.WriteLine("FAILED: a.f580()!=\"B.f580\""); return 1; }
if (a.f581() != "B.f581") { Console.WriteLine("FAILED: a.f581()!=\"B.f581\""); return 1; }
if (a.f582() != "B.f582") { Console.WriteLine("FAILED: a.f582()!=\"B.f582\""); return 1; }
if (a.f583() != "B.f583") { Console.WriteLine("FAILED: a.f583()!=\"B.f583\""); return 1; }
if (a.f584() != "B.f584") { Console.WriteLine("FAILED: a.f584()!=\"B.f584\""); return 1; }
if (a.f585() != "B.f585") { Console.WriteLine("FAILED: a.f585()!=\"B.f585\""); return 1; }
if (a.f586() != "B.f586") { Console.WriteLine("FAILED: a.f586()!=\"B.f586\""); return 1; }
if (a.f587() != "B.f587") { Console.WriteLine("FAILED: a.f587()!=\"B.f587\""); return 1; }
if (a.f588() != "B.f588") { Console.WriteLine("FAILED: a.f588()!=\"B.f588\""); return 1; }
if (a.f589() != "B.f589") { Console.WriteLine("FAILED: a.f589()!=\"B.f589\""); return 1; }
if (a.f590() != "B.f590") { Console.WriteLine("FAILED: a.f590()!=\"B.f590\""); return 1; }
if (a.f591() != "B.f591") { Console.WriteLine("FAILED: a.f591()!=\"B.f591\""); return 1; }
if (a.f592() != "B.f592") { Console.WriteLine("FAILED: a.f592()!=\"B.f592\""); return 1; }
if (a.f593() != "B.f593") { Console.WriteLine("FAILED: a.f593()!=\"B.f593\""); return 1; }
if (a.f594() != "B.f594") { Console.WriteLine("FAILED: a.f594()!=\"B.f594\""); return 1; }
if (a.f595() != "B.f595") { Console.WriteLine("FAILED: a.f595()!=\"B.f595\""); return 1; }
if (a.f596() != "B.f596") { Console.WriteLine("FAILED: a.f596()!=\"B.f596\""); return 1; }
if (a.f597() != "B.f597") { Console.WriteLine("FAILED: a.f597()!=\"B.f597\""); return 1; }
if (a.f598() != "B.f598") { Console.WriteLine("FAILED: a.f598()!=\"B.f598\""); return 1; }
if (a.f599() != "B.f599") { Console.WriteLine("FAILED: a.f599()!=\"B.f599\""); return 1; }
if (a.f600() != "B.f600") { Console.WriteLine("FAILED: a.f600()!=\"B.f600\""); return 1; }
if (a.f601() != "B.f601") { Console.WriteLine("FAILED: a.f601()!=\"B.f601\""); return 1; }
if (a.f602() != "B.f602") { Console.WriteLine("FAILED: a.f602()!=\"B.f602\""); return 1; }
if (a.f603() != "B.f603") { Console.WriteLine("FAILED: a.f603()!=\"B.f603\""); return 1; }
if (a.f604() != "B.f604") { Console.WriteLine("FAILED: a.f604()!=\"B.f604\""); return 1; }
if (a.f605() != "B.f605") { Console.WriteLine("FAILED: a.f605()!=\"B.f605\""); return 1; }
if (a.f606() != "B.f606") { Console.WriteLine("FAILED: a.f606()!=\"B.f606\""); return 1; }
if (a.f607() != "B.f607") { Console.WriteLine("FAILED: a.f607()!=\"B.f607\""); return 1; }
if (a.f608() != "B.f608") { Console.WriteLine("FAILED: a.f608()!=\"B.f608\""); return 1; }
if (a.f609() != "B.f609") { Console.WriteLine("FAILED: a.f609()!=\"B.f609\""); return 1; }
if (a.f610() != "B.f610") { Console.WriteLine("FAILED: a.f610()!=\"B.f610\""); return 1; }
if (a.f611() != "B.f611") { Console.WriteLine("FAILED: a.f611()!=\"B.f611\""); return 1; }
if (a.f612() != "B.f612") { Console.WriteLine("FAILED: a.f612()!=\"B.f612\""); return 1; }
if (a.f613() != "B.f613") { Console.WriteLine("FAILED: a.f613()!=\"B.f613\""); return 1; }
if (a.f614() != "B.f614") { Console.WriteLine("FAILED: a.f614()!=\"B.f614\""); return 1; }
if (a.f615() != "B.f615") { Console.WriteLine("FAILED: a.f615()!=\"B.f615\""); return 1; }
if (a.f616() != "B.f616") { Console.WriteLine("FAILED: a.f616()!=\"B.f616\""); return 1; }
if (a.f617() != "B.f617") { Console.WriteLine("FAILED: a.f617()!=\"B.f617\""); return 1; }
if (a.f618() != "B.f618") { Console.WriteLine("FAILED: a.f618()!=\"B.f618\""); return 1; }
if (a.f619() != "B.f619") { Console.WriteLine("FAILED: a.f619()!=\"B.f619\""); return 1; }
if (a.f620() != "B.f620") { Console.WriteLine("FAILED: a.f620()!=\"B.f620\""); return 1; }
if (a.f621() != "B.f621") { Console.WriteLine("FAILED: a.f621()!=\"B.f621\""); return 1; }
if (a.f622() != "B.f622") { Console.WriteLine("FAILED: a.f622()!=\"B.f622\""); return 1; }
if (a.f623() != "B.f623") { Console.WriteLine("FAILED: a.f623()!=\"B.f623\""); return 1; }
if (a.f624() != "B.f624") { Console.WriteLine("FAILED: a.f624()!=\"B.f624\""); return 1; }
if (a.f625() != "B.f625") { Console.WriteLine("FAILED: a.f625()!=\"B.f625\""); return 1; }
if (a.f626() != "B.f626") { Console.WriteLine("FAILED: a.f626()!=\"B.f626\""); return 1; }
if (a.f627() != "B.f627") { Console.WriteLine("FAILED: a.f627()!=\"B.f627\""); return 1; }
if (a.f628() != "B.f628") { Console.WriteLine("FAILED: a.f628()!=\"B.f628\""); return 1; }
if (a.f629() != "B.f629") { Console.WriteLine("FAILED: a.f629()!=\"B.f629\""); return 1; }
if (a.f630() != "B.f630") { Console.WriteLine("FAILED: a.f630()!=\"B.f630\""); return 1; }
if (a.f631() != "B.f631") { Console.WriteLine("FAILED: a.f631()!=\"B.f631\""); return 1; }
if (a.f632() != "B.f632") { Console.WriteLine("FAILED: a.f632()!=\"B.f632\""); return 1; }
if (a.f633() != "B.f633") { Console.WriteLine("FAILED: a.f633()!=\"B.f633\""); return 1; }
if (a.f634() != "B.f634") { Console.WriteLine("FAILED: a.f634()!=\"B.f634\""); return 1; }
if (a.f635() != "B.f635") { Console.WriteLine("FAILED: a.f635()!=\"B.f635\""); return 1; }
if (a.f636() != "B.f636") { Console.WriteLine("FAILED: a.f636()!=\"B.f636\""); return 1; }
if (a.f637() != "B.f637") { Console.WriteLine("FAILED: a.f637()!=\"B.f637\""); return 1; }
if (a.f638() != "B.f638") { Console.WriteLine("FAILED: a.f638()!=\"B.f638\""); return 1; }
if (a.f639() != "B.f639") { Console.WriteLine("FAILED: a.f639()!=\"B.f639\""); return 1; }
if (a.f640() != "B.f640") { Console.WriteLine("FAILED: a.f640()!=\"B.f640\""); return 1; }
if (a.f641() != "B.f641") { Console.WriteLine("FAILED: a.f641()!=\"B.f641\""); return 1; }
if (a.f642() != "B.f642") { Console.WriteLine("FAILED: a.f642()!=\"B.f642\""); return 1; }
if (a.f643() != "B.f643") { Console.WriteLine("FAILED: a.f643()!=\"B.f643\""); return 1; }
if (a.f644() != "B.f644") { Console.WriteLine("FAILED: a.f644()!=\"B.f644\""); return 1; }
if (a.f645() != "B.f645") { Console.WriteLine("FAILED: a.f645()!=\"B.f645\""); return 1; }
if (a.f646() != "B.f646") { Console.WriteLine("FAILED: a.f646()!=\"B.f646\""); return 1; }
if (a.f647() != "B.f647") { Console.WriteLine("FAILED: a.f647()!=\"B.f647\""); return 1; }
if (a.f648() != "B.f648") { Console.WriteLine("FAILED: a.f648()!=\"B.f648\""); return 1; }
if (a.f649() != "B.f649") { Console.WriteLine("FAILED: a.f649()!=\"B.f649\""); return 1; }
if (a.f650() != "B.f650") { Console.WriteLine("FAILED: a.f650()!=\"B.f650\""); return 1; }
if (a.f651() != "B.f651") { Console.WriteLine("FAILED: a.f651()!=\"B.f651\""); return 1; }
if (a.f652() != "B.f652") { Console.WriteLine("FAILED: a.f652()!=\"B.f652\""); return 1; }
if (a.f653() != "B.f653") { Console.WriteLine("FAILED: a.f653()!=\"B.f653\""); return 1; }
if (a.f654() != "B.f654") { Console.WriteLine("FAILED: a.f654()!=\"B.f654\""); return 1; }
if (a.f655() != "B.f655") { Console.WriteLine("FAILED: a.f655()!=\"B.f655\""); return 1; }
if (a.f656() != "B.f656") { Console.WriteLine("FAILED: a.f656()!=\"B.f656\""); return 1; }
if (a.f657() != "B.f657") { Console.WriteLine("FAILED: a.f657()!=\"B.f657\""); return 1; }
if (a.f658() != "B.f658") { Console.WriteLine("FAILED: a.f658()!=\"B.f658\""); return 1; }
if (a.f659() != "B.f659") { Console.WriteLine("FAILED: a.f659()!=\"B.f659\""); return 1; }
if (a.f660() != "B.f660") { Console.WriteLine("FAILED: a.f660()!=\"B.f660\""); return 1; }
if (a.f661() != "B.f661") { Console.WriteLine("FAILED: a.f661()!=\"B.f661\""); return 1; }
if (a.f662() != "B.f662") { Console.WriteLine("FAILED: a.f662()!=\"B.f662\""); return 1; }
if (a.f663() != "B.f663") { Console.WriteLine("FAILED: a.f663()!=\"B.f663\""); return 1; }
if (a.f664() != "B.f664") { Console.WriteLine("FAILED: a.f664()!=\"B.f664\""); return 1; }
if (a.f665() != "B.f665") { Console.WriteLine("FAILED: a.f665()!=\"B.f665\""); return 1; }
if (a.f666() != "B.f666") { Console.WriteLine("FAILED: a.f666()!=\"B.f666\""); return 1; }
if (a.f667() != "B.f667") { Console.WriteLine("FAILED: a.f667()!=\"B.f667\""); return 1; }
if (a.f668() != "B.f668") { Console.WriteLine("FAILED: a.f668()!=\"B.f668\""); return 1; }
if (a.f669() != "B.f669") { Console.WriteLine("FAILED: a.f669()!=\"B.f669\""); return 1; }
if (a.f670() != "B.f670") { Console.WriteLine("FAILED: a.f670()!=\"B.f670\""); return 1; }
if (a.f671() != "B.f671") { Console.WriteLine("FAILED: a.f671()!=\"B.f671\""); return 1; }
if (a.f672() != "B.f672") { Console.WriteLine("FAILED: a.f672()!=\"B.f672\""); return 1; }
if (a.f673() != "B.f673") { Console.WriteLine("FAILED: a.f673()!=\"B.f673\""); return 1; }
if (a.f674() != "B.f674") { Console.WriteLine("FAILED: a.f674()!=\"B.f674\""); return 1; }
if (a.f675() != "B.f675") { Console.WriteLine("FAILED: a.f675()!=\"B.f675\""); return 1; }
if (a.f676() != "B.f676") { Console.WriteLine("FAILED: a.f676()!=\"B.f676\""); return 1; }
if (a.f677() != "B.f677") { Console.WriteLine("FAILED: a.f677()!=\"B.f677\""); return 1; }
if (a.f678() != "B.f678") { Console.WriteLine("FAILED: a.f678()!=\"B.f678\""); return 1; }
if (a.f679() != "B.f679") { Console.WriteLine("FAILED: a.f679()!=\"B.f679\""); return 1; }
if (a.f680() != "B.f680") { Console.WriteLine("FAILED: a.f680()!=\"B.f680\""); return 1; }
if (a.f681() != "B.f681") { Console.WriteLine("FAILED: a.f681()!=\"B.f681\""); return 1; }
if (a.f682() != "B.f682") { Console.WriteLine("FAILED: a.f682()!=\"B.f682\""); return 1; }
if (a.f683() != "B.f683") { Console.WriteLine("FAILED: a.f683()!=\"B.f683\""); return 1; }
if (a.f684() != "B.f684") { Console.WriteLine("FAILED: a.f684()!=\"B.f684\""); return 1; }
if (a.f685() != "B.f685") { Console.WriteLine("FAILED: a.f685()!=\"B.f685\""); return 1; }
if (a.f686() != "B.f686") { Console.WriteLine("FAILED: a.f686()!=\"B.f686\""); return 1; }
if (a.f687() != "B.f687") { Console.WriteLine("FAILED: a.f687()!=\"B.f687\""); return 1; }
if (a.f688() != "B.f688") { Console.WriteLine("FAILED: a.f688()!=\"B.f688\""); return 1; }
if (a.f689() != "B.f689") { Console.WriteLine("FAILED: a.f689()!=\"B.f689\""); return 1; }
if (a.f690() != "B.f690") { Console.WriteLine("FAILED: a.f690()!=\"B.f690\""); return 1; }
if (a.f691() != "B.f691") { Console.WriteLine("FAILED: a.f691()!=\"B.f691\""); return 1; }
if (a.f692() != "B.f692") { Console.WriteLine("FAILED: a.f692()!=\"B.f692\""); return 1; }
if (a.f693() != "B.f693") { Console.WriteLine("FAILED: a.f693()!=\"B.f693\""); return 1; }
if (a.f694() != "B.f694") { Console.WriteLine("FAILED: a.f694()!=\"B.f694\""); return 1; }
if (a.f695() != "B.f695") { Console.WriteLine("FAILED: a.f695()!=\"B.f695\""); return 1; }
if (a.f696() != "B.f696") { Console.WriteLine("FAILED: a.f696()!=\"B.f696\""); return 1; }
if (a.f697() != "B.f697") { Console.WriteLine("FAILED: a.f697()!=\"B.f697\""); return 1; }
if (a.f698() != "B.f698") { Console.WriteLine("FAILED: a.f698()!=\"B.f698\""); return 1; }
if (a.f699() != "B.f699") { Console.WriteLine("FAILED: a.f699()!=\"B.f699\""); return 1; }
if (a.f700() != "B.f700") { Console.WriteLine("FAILED: a.f700()!=\"B.f700\""); return 1; }
if (a.f701() != "B.f701") { Console.WriteLine("FAILED: a.f701()!=\"B.f701\""); return 1; }
if (a.f702() != "B.f702") { Console.WriteLine("FAILED: a.f702()!=\"B.f702\""); return 1; }
if (a.f703() != "B.f703") { Console.WriteLine("FAILED: a.f703()!=\"B.f703\""); return 1; }
if (a.f704() != "B.f704") { Console.WriteLine("FAILED: a.f704()!=\"B.f704\""); return 1; }
if (a.f705() != "B.f705") { Console.WriteLine("FAILED: a.f705()!=\"B.f705\""); return 1; }
if (a.f706() != "B.f706") { Console.WriteLine("FAILED: a.f706()!=\"B.f706\""); return 1; }
if (a.f707() != "B.f707") { Console.WriteLine("FAILED: a.f707()!=\"B.f707\""); return 1; }
if (a.f708() != "B.f708") { Console.WriteLine("FAILED: a.f708()!=\"B.f708\""); return 1; }
if (a.f709() != "B.f709") { Console.WriteLine("FAILED: a.f709()!=\"B.f709\""); return 1; }
if (a.f710() != "B.f710") { Console.WriteLine("FAILED: a.f710()!=\"B.f710\""); return 1; }
if (a.f711() != "B.f711") { Console.WriteLine("FAILED: a.f711()!=\"B.f711\""); return 1; }
if (a.f712() != "B.f712") { Console.WriteLine("FAILED: a.f712()!=\"B.f712\""); return 1; }
if (a.f713() != "B.f713") { Console.WriteLine("FAILED: a.f713()!=\"B.f713\""); return 1; }
if (a.f714() != "B.f714") { Console.WriteLine("FAILED: a.f714()!=\"B.f714\""); return 1; }
if (a.f715() != "B.f715") { Console.WriteLine("FAILED: a.f715()!=\"B.f715\""); return 1; }
if (a.f716() != "B.f716") { Console.WriteLine("FAILED: a.f716()!=\"B.f716\""); return 1; }
if (a.f717() != "B.f717") { Console.WriteLine("FAILED: a.f717()!=\"B.f717\""); return 1; }
if (a.f718() != "B.f718") { Console.WriteLine("FAILED: a.f718()!=\"B.f718\""); return 1; }
if (a.f719() != "B.f719") { Console.WriteLine("FAILED: a.f719()!=\"B.f719\""); return 1; }
if (a.f720() != "B.f720") { Console.WriteLine("FAILED: a.f720()!=\"B.f720\""); return 1; }
if (a.f721() != "B.f721") { Console.WriteLine("FAILED: a.f721()!=\"B.f721\""); return 1; }
if (a.f722() != "B.f722") { Console.WriteLine("FAILED: a.f722()!=\"B.f722\""); return 1; }
if (a.f723() != "B.f723") { Console.WriteLine("FAILED: a.f723()!=\"B.f723\""); return 1; }
if (a.f724() != "B.f724") { Console.WriteLine("FAILED: a.f724()!=\"B.f724\""); return 1; }
if (a.f725() != "B.f725") { Console.WriteLine("FAILED: a.f725()!=\"B.f725\""); return 1; }
if (a.f726() != "B.f726") { Console.WriteLine("FAILED: a.f726()!=\"B.f726\""); return 1; }
if (a.f727() != "B.f727") { Console.WriteLine("FAILED: a.f727()!=\"B.f727\""); return 1; }
if (a.f728() != "B.f728") { Console.WriteLine("FAILED: a.f728()!=\"B.f728\""); return 1; }
if (a.f729() != "B.f729") { Console.WriteLine("FAILED: a.f729()!=\"B.f729\""); return 1; }
if (a.f730() != "B.f730") { Console.WriteLine("FAILED: a.f730()!=\"B.f730\""); return 1; }
if (a.f731() != "B.f731") { Console.WriteLine("FAILED: a.f731()!=\"B.f731\""); return 1; }
if (a.f732() != "B.f732") { Console.WriteLine("FAILED: a.f732()!=\"B.f732\""); return 1; }
if (a.f733() != "B.f733") { Console.WriteLine("FAILED: a.f733()!=\"B.f733\""); return 1; }
if (a.f734() != "B.f734") { Console.WriteLine("FAILED: a.f734()!=\"B.f734\""); return 1; }
if (a.f735() != "B.f735") { Console.WriteLine("FAILED: a.f735()!=\"B.f735\""); return 1; }
if (a.f736() != "B.f736") { Console.WriteLine("FAILED: a.f736()!=\"B.f736\""); return 1; }
if (a.f737() != "B.f737") { Console.WriteLine("FAILED: a.f737()!=\"B.f737\""); return 1; }
if (a.f738() != "B.f738") { Console.WriteLine("FAILED: a.f738()!=\"B.f738\""); return 1; }
if (a.f739() != "B.f739") { Console.WriteLine("FAILED: a.f739()!=\"B.f739\""); return 1; }
if (a.f740() != "B.f740") { Console.WriteLine("FAILED: a.f740()!=\"B.f740\""); return 1; }
if (a.f741() != "B.f741") { Console.WriteLine("FAILED: a.f741()!=\"B.f741\""); return 1; }
if (a.f742() != "B.f742") { Console.WriteLine("FAILED: a.f742()!=\"B.f742\""); return 1; }
if (a.f743() != "B.f743") { Console.WriteLine("FAILED: a.f743()!=\"B.f743\""); return 1; }
if (a.f744() != "B.f744") { Console.WriteLine("FAILED: a.f744()!=\"B.f744\""); return 1; }
if (a.f745() != "B.f745") { Console.WriteLine("FAILED: a.f745()!=\"B.f745\""); return 1; }
if (a.f746() != "B.f746") { Console.WriteLine("FAILED: a.f746()!=\"B.f746\""); return 1; }
if (a.f747() != "B.f747") { Console.WriteLine("FAILED: a.f747()!=\"B.f747\""); return 1; }
if (a.f748() != "B.f748") { Console.WriteLine("FAILED: a.f748()!=\"B.f748\""); return 1; }
if (a.f749() != "B.f749") { Console.WriteLine("FAILED: a.f749()!=\"B.f749\""); return 1; }
if (a.f750() != "B.f750") { Console.WriteLine("FAILED: a.f750()!=\"B.f750\""); return 1; }
if (a.f751() != "B.f751") { Console.WriteLine("FAILED: a.f751()!=\"B.f751\""); return 1; }
if (a.f752() != "B.f752") { Console.WriteLine("FAILED: a.f752()!=\"B.f752\""); return 1; }
if (a.f753() != "B.f753") { Console.WriteLine("FAILED: a.f753()!=\"B.f753\""); return 1; }
if (a.f754() != "B.f754") { Console.WriteLine("FAILED: a.f754()!=\"B.f754\""); return 1; }
if (a.f755() != "B.f755") { Console.WriteLine("FAILED: a.f755()!=\"B.f755\""); return 1; }
if (a.f756() != "B.f756") { Console.WriteLine("FAILED: a.f756()!=\"B.f756\""); return 1; }
if (a.f757() != "B.f757") { Console.WriteLine("FAILED: a.f757()!=\"B.f757\""); return 1; }
if (a.f758() != "B.f758") { Console.WriteLine("FAILED: a.f758()!=\"B.f758\""); return 1; }
if (a.f759() != "B.f759") { Console.WriteLine("FAILED: a.f759()!=\"B.f759\""); return 1; }
if (a.f760() != "B.f760") { Console.WriteLine("FAILED: a.f760()!=\"B.f760\""); return 1; }
if (a.f761() != "B.f761") { Console.WriteLine("FAILED: a.f761()!=\"B.f761\""); return 1; }
if (a.f762() != "B.f762") { Console.WriteLine("FAILED: a.f762()!=\"B.f762\""); return 1; }
if (a.f763() != "B.f763") { Console.WriteLine("FAILED: a.f763()!=\"B.f763\""); return 1; }
if (a.f764() != "B.f764") { Console.WriteLine("FAILED: a.f764()!=\"B.f764\""); return 1; }
if (a.f765() != "B.f765") { Console.WriteLine("FAILED: a.f765()!=\"B.f765\""); return 1; }
if (a.f766() != "B.f766") { Console.WriteLine("FAILED: a.f766()!=\"B.f766\""); return 1; }
if (a.f767() != "B.f767") { Console.WriteLine("FAILED: a.f767()!=\"B.f767\""); return 1; }
if (a.f768() != "B.f768") { Console.WriteLine("FAILED: a.f768()!=\"B.f768\""); return 1; }
if (a.f769() != "B.f769") { Console.WriteLine("FAILED: a.f769()!=\"B.f769\""); return 1; }
if (a.f770() != "B.f770") { Console.WriteLine("FAILED: a.f770()!=\"B.f770\""); return 1; }
if (a.f771() != "B.f771") { Console.WriteLine("FAILED: a.f771()!=\"B.f771\""); return 1; }
if (a.f772() != "B.f772") { Console.WriteLine("FAILED: a.f772()!=\"B.f772\""); return 1; }
if (a.f773() != "B.f773") { Console.WriteLine("FAILED: a.f773()!=\"B.f773\""); return 1; }
if (a.f774() != "B.f774") { Console.WriteLine("FAILED: a.f774()!=\"B.f774\""); return 1; }
if (a.f775() != "B.f775") { Console.WriteLine("FAILED: a.f775()!=\"B.f775\""); return 1; }
if (a.f776() != "B.f776") { Console.WriteLine("FAILED: a.f776()!=\"B.f776\""); return 1; }
if (a.f777() != "B.f777") { Console.WriteLine("FAILED: a.f777()!=\"B.f777\""); return 1; }
if (a.f778() != "B.f778") { Console.WriteLine("FAILED: a.f778()!=\"B.f778\""); return 1; }
if (a.f779() != "B.f779") { Console.WriteLine("FAILED: a.f779()!=\"B.f779\""); return 1; }
if (a.f780() != "B.f780") { Console.WriteLine("FAILED: a.f780()!=\"B.f780\""); return 1; }
if (a.f781() != "B.f781") { Console.WriteLine("FAILED: a.f781()!=\"B.f781\""); return 1; }
if (a.f782() != "B.f782") { Console.WriteLine("FAILED: a.f782()!=\"B.f782\""); return 1; }
if (a.f783() != "B.f783") { Console.WriteLine("FAILED: a.f783()!=\"B.f783\""); return 1; }
if (a.f784() != "B.f784") { Console.WriteLine("FAILED: a.f784()!=\"B.f784\""); return 1; }
if (a.f785() != "B.f785") { Console.WriteLine("FAILED: a.f785()!=\"B.f785\""); return 1; }
if (a.f786() != "B.f786") { Console.WriteLine("FAILED: a.f786()!=\"B.f786\""); return 1; }
if (a.f787() != "B.f787") { Console.WriteLine("FAILED: a.f787()!=\"B.f787\""); return 1; }
if (a.f788() != "B.f788") { Console.WriteLine("FAILED: a.f788()!=\"B.f788\""); return 1; }
if (a.f789() != "B.f789") { Console.WriteLine("FAILED: a.f789()!=\"B.f789\""); return 1; }
if (a.f790() != "B.f790") { Console.WriteLine("FAILED: a.f790()!=\"B.f790\""); return 1; }
if (a.f791() != "B.f791") { Console.WriteLine("FAILED: a.f791()!=\"B.f791\""); return 1; }
if (a.f792() != "B.f792") { Console.WriteLine("FAILED: a.f792()!=\"B.f792\""); return 1; }
if (a.f793() != "B.f793") { Console.WriteLine("FAILED: a.f793()!=\"B.f793\""); return 1; }
if (a.f794() != "B.f794") { Console.WriteLine("FAILED: a.f794()!=\"B.f794\""); return 1; }
if (a.f795() != "B.f795") { Console.WriteLine("FAILED: a.f795()!=\"B.f795\""); return 1; }
if (a.f796() != "B.f796") { Console.WriteLine("FAILED: a.f796()!=\"B.f796\""); return 1; }
if (a.f797() != "B.f797") { Console.WriteLine("FAILED: a.f797()!=\"B.f797\""); return 1; }
if (a.f798() != "B.f798") { Console.WriteLine("FAILED: a.f798()!=\"B.f798\""); return 1; }
if (a.f799() != "B.f799") { Console.WriteLine("FAILED: a.f799()!=\"B.f799\""); return 1; }
if (a.f800() != "B.f800") { Console.WriteLine("FAILED: a.f800()!=\"B.f800\""); return 1; }
if (a.f801() != "B.f801") { Console.WriteLine("FAILED: a.f801()!=\"B.f801\""); return 1; }
if (a.f802() != "B.f802") { Console.WriteLine("FAILED: a.f802()!=\"B.f802\""); return 1; }
if (a.f803() != "B.f803") { Console.WriteLine("FAILED: a.f803()!=\"B.f803\""); return 1; }
if (a.f804() != "B.f804") { Console.WriteLine("FAILED: a.f804()!=\"B.f804\""); return 1; }
if (a.f805() != "B.f805") { Console.WriteLine("FAILED: a.f805()!=\"B.f805\""); return 1; }
if (a.f806() != "B.f806") { Console.WriteLine("FAILED: a.f806()!=\"B.f806\""); return 1; }
if (a.f807() != "B.f807") { Console.WriteLine("FAILED: a.f807()!=\"B.f807\""); return 1; }
if (a.f808() != "B.f808") { Console.WriteLine("FAILED: a.f808()!=\"B.f808\""); return 1; }
if (a.f809() != "B.f809") { Console.WriteLine("FAILED: a.f809()!=\"B.f809\""); return 1; }
if (a.f810() != "B.f810") { Console.WriteLine("FAILED: a.f810()!=\"B.f810\""); return 1; }
if (a.f811() != "B.f811") { Console.WriteLine("FAILED: a.f811()!=\"B.f811\""); return 1; }
if (a.f812() != "B.f812") { Console.WriteLine("FAILED: a.f812()!=\"B.f812\""); return 1; }
if (a.f813() != "B.f813") { Console.WriteLine("FAILED: a.f813()!=\"B.f813\""); return 1; }
if (a.f814() != "B.f814") { Console.WriteLine("FAILED: a.f814()!=\"B.f814\""); return 1; }
if (a.f815() != "B.f815") { Console.WriteLine("FAILED: a.f815()!=\"B.f815\""); return 1; }
if (a.f816() != "B.f816") { Console.WriteLine("FAILED: a.f816()!=\"B.f816\""); return 1; }
if (a.f817() != "B.f817") { Console.WriteLine("FAILED: a.f817()!=\"B.f817\""); return 1; }
if (a.f818() != "B.f818") { Console.WriteLine("FAILED: a.f818()!=\"B.f818\""); return 1; }
if (a.f819() != "B.f819") { Console.WriteLine("FAILED: a.f819()!=\"B.f819\""); return 1; }
if (a.f820() != "B.f820") { Console.WriteLine("FAILED: a.f820()!=\"B.f820\""); return 1; }
if (a.f821() != "B.f821") { Console.WriteLine("FAILED: a.f821()!=\"B.f821\""); return 1; }
if (a.f822() != "B.f822") { Console.WriteLine("FAILED: a.f822()!=\"B.f822\""); return 1; }
if (a.f823() != "B.f823") { Console.WriteLine("FAILED: a.f823()!=\"B.f823\""); return 1; }
if (a.f824() != "B.f824") { Console.WriteLine("FAILED: a.f824()!=\"B.f824\""); return 1; }
if (a.f825() != "B.f825") { Console.WriteLine("FAILED: a.f825()!=\"B.f825\""); return 1; }
if (a.f826() != "B.f826") { Console.WriteLine("FAILED: a.f826()!=\"B.f826\""); return 1; }
if (a.f827() != "B.f827") { Console.WriteLine("FAILED: a.f827()!=\"B.f827\""); return 1; }
if (a.f828() != "B.f828") { Console.WriteLine("FAILED: a.f828()!=\"B.f828\""); return 1; }
if (a.f829() != "B.f829") { Console.WriteLine("FAILED: a.f829()!=\"B.f829\""); return 1; }
if (a.f830() != "B.f830") { Console.WriteLine("FAILED: a.f830()!=\"B.f830\""); return 1; }
if (a.f831() != "B.f831") { Console.WriteLine("FAILED: a.f831()!=\"B.f831\""); return 1; }
if (a.f832() != "B.f832") { Console.WriteLine("FAILED: a.f832()!=\"B.f832\""); return 1; }
if (a.f833() != "B.f833") { Console.WriteLine("FAILED: a.f833()!=\"B.f833\""); return 1; }
if (a.f834() != "B.f834") { Console.WriteLine("FAILED: a.f834()!=\"B.f834\""); return 1; }
if (a.f835() != "B.f835") { Console.WriteLine("FAILED: a.f835()!=\"B.f835\""); return 1; }
if (a.f836() != "B.f836") { Console.WriteLine("FAILED: a.f836()!=\"B.f836\""); return 1; }
if (a.f837() != "B.f837") { Console.WriteLine("FAILED: a.f837()!=\"B.f837\""); return 1; }
if (a.f838() != "B.f838") { Console.WriteLine("FAILED: a.f838()!=\"B.f838\""); return 1; }
if (a.f839() != "B.f839") { Console.WriteLine("FAILED: a.f839()!=\"B.f839\""); return 1; }
if (a.f840() != "B.f840") { Console.WriteLine("FAILED: a.f840()!=\"B.f840\""); return 1; }
if (a.f841() != "B.f841") { Console.WriteLine("FAILED: a.f841()!=\"B.f841\""); return 1; }
if (a.f842() != "B.f842") { Console.WriteLine("FAILED: a.f842()!=\"B.f842\""); return 1; }
if (a.f843() != "B.f843") { Console.WriteLine("FAILED: a.f843()!=\"B.f843\""); return 1; }
if (a.f844() != "B.f844") { Console.WriteLine("FAILED: a.f844()!=\"B.f844\""); return 1; }
if (a.f845() != "B.f845") { Console.WriteLine("FAILED: a.f845()!=\"B.f845\""); return 1; }
if (a.f846() != "B.f846") { Console.WriteLine("FAILED: a.f846()!=\"B.f846\""); return 1; }
if (a.f847() != "B.f847") { Console.WriteLine("FAILED: a.f847()!=\"B.f847\""); return 1; }
if (a.f848() != "B.f848") { Console.WriteLine("FAILED: a.f848()!=\"B.f848\""); return 1; }
if (a.f849() != "B.f849") { Console.WriteLine("FAILED: a.f849()!=\"B.f849\""); return 1; }
if (a.f850() != "B.f850") { Console.WriteLine("FAILED: a.f850()!=\"B.f850\""); return 1; }
if (a.f851() != "B.f851") { Console.WriteLine("FAILED: a.f851()!=\"B.f851\""); return 1; }
if (a.f852() != "B.f852") { Console.WriteLine("FAILED: a.f852()!=\"B.f852\""); return 1; }
if (a.f853() != "B.f853") { Console.WriteLine("FAILED: a.f853()!=\"B.f853\""); return 1; }
if (a.f854() != "B.f854") { Console.WriteLine("FAILED: a.f854()!=\"B.f854\""); return 1; }
if (a.f855() != "B.f855") { Console.WriteLine("FAILED: a.f855()!=\"B.f855\""); return 1; }
if (a.f856() != "B.f856") { Console.WriteLine("FAILED: a.f856()!=\"B.f856\""); return 1; }
if (a.f857() != "B.f857") { Console.WriteLine("FAILED: a.f857()!=\"B.f857\""); return 1; }
if (a.f858() != "B.f858") { Console.WriteLine("FAILED: a.f858()!=\"B.f858\""); return 1; }
if (a.f859() != "B.f859") { Console.WriteLine("FAILED: a.f859()!=\"B.f859\""); return 1; }
if (a.f860() != "B.f860") { Console.WriteLine("FAILED: a.f860()!=\"B.f860\""); return 1; }
if (a.f861() != "B.f861") { Console.WriteLine("FAILED: a.f861()!=\"B.f861\""); return 1; }
if (a.f862() != "B.f862") { Console.WriteLine("FAILED: a.f862()!=\"B.f862\""); return 1; }
if (a.f863() != "B.f863") { Console.WriteLine("FAILED: a.f863()!=\"B.f863\""); return 1; }
if (a.f864() != "B.f864") { Console.WriteLine("FAILED: a.f864()!=\"B.f864\""); return 1; }
if (a.f865() != "B.f865") { Console.WriteLine("FAILED: a.f865()!=\"B.f865\""); return 1; }
if (a.f866() != "B.f866") { Console.WriteLine("FAILED: a.f866()!=\"B.f866\""); return 1; }
if (a.f867() != "B.f867") { Console.WriteLine("FAILED: a.f867()!=\"B.f867\""); return 1; }
if (a.f868() != "B.f868") { Console.WriteLine("FAILED: a.f868()!=\"B.f868\""); return 1; }
if (a.f869() != "B.f869") { Console.WriteLine("FAILED: a.f869()!=\"B.f869\""); return 1; }
if (a.f870() != "B.f870") { Console.WriteLine("FAILED: a.f870()!=\"B.f870\""); return 1; }
if (a.f871() != "B.f871") { Console.WriteLine("FAILED: a.f871()!=\"B.f871\""); return 1; }
if (a.f872() != "B.f872") { Console.WriteLine("FAILED: a.f872()!=\"B.f872\""); return 1; }
if (a.f873() != "B.f873") { Console.WriteLine("FAILED: a.f873()!=\"B.f873\""); return 1; }
if (a.f874() != "B.f874") { Console.WriteLine("FAILED: a.f874()!=\"B.f874\""); return 1; }
if (a.f875() != "B.f875") { Console.WriteLine("FAILED: a.f875()!=\"B.f875\""); return 1; }
if (a.f876() != "B.f876") { Console.WriteLine("FAILED: a.f876()!=\"B.f876\""); return 1; }
if (a.f877() != "B.f877") { Console.WriteLine("FAILED: a.f877()!=\"B.f877\""); return 1; }
if (a.f878() != "B.f878") { Console.WriteLine("FAILED: a.f878()!=\"B.f878\""); return 1; }
if (a.f879() != "B.f879") { Console.WriteLine("FAILED: a.f879()!=\"B.f879\""); return 1; }
if (a.f880() != "B.f880") { Console.WriteLine("FAILED: a.f880()!=\"B.f880\""); return 1; }
if (a.f881() != "B.f881") { Console.WriteLine("FAILED: a.f881()!=\"B.f881\""); return 1; }
if (a.f882() != "B.f882") { Console.WriteLine("FAILED: a.f882()!=\"B.f882\""); return 1; }
if (a.f883() != "B.f883") { Console.WriteLine("FAILED: a.f883()!=\"B.f883\""); return 1; }
if (a.f884() != "B.f884") { Console.WriteLine("FAILED: a.f884()!=\"B.f884\""); return 1; }
if (a.f885() != "B.f885") { Console.WriteLine("FAILED: a.f885()!=\"B.f885\""); return 1; }
if (a.f886() != "B.f886") { Console.WriteLine("FAILED: a.f886()!=\"B.f886\""); return 1; }
if (a.f887() != "B.f887") { Console.WriteLine("FAILED: a.f887()!=\"B.f887\""); return 1; }
if (a.f888() != "B.f888") { Console.WriteLine("FAILED: a.f888()!=\"B.f888\""); return 1; }
if (a.f889() != "B.f889") { Console.WriteLine("FAILED: a.f889()!=\"B.f889\""); return 1; }
if (a.f890() != "B.f890") { Console.WriteLine("FAILED: a.f890()!=\"B.f890\""); return 1; }
if (a.f891() != "B.f891") { Console.WriteLine("FAILED: a.f891()!=\"B.f891\""); return 1; }
if (a.f892() != "B.f892") { Console.WriteLine("FAILED: a.f892()!=\"B.f892\""); return 1; }
if (a.f893() != "B.f893") { Console.WriteLine("FAILED: a.f893()!=\"B.f893\""); return 1; }
if (a.f894() != "B.f894") { Console.WriteLine("FAILED: a.f894()!=\"B.f894\""); return 1; }
if (a.f895() != "B.f895") { Console.WriteLine("FAILED: a.f895()!=\"B.f895\""); return 1; }
if (a.f896() != "B.f896") { Console.WriteLine("FAILED: a.f896()!=\"B.f896\""); return 1; }
if (a.f897() != "B.f897") { Console.WriteLine("FAILED: a.f897()!=\"B.f897\""); return 1; }
if (a.f898() != "B.f898") { Console.WriteLine("FAILED: a.f898()!=\"B.f898\""); return 1; }
if (a.f899() != "B.f899") { Console.WriteLine("FAILED: a.f899()!=\"B.f899\""); return 1; }
if (a.f900() != "B.f900") { Console.WriteLine("FAILED: a.f900()!=\"B.f900\""); return 1; }
if (a.f901() != "B.f901") { Console.WriteLine("FAILED: a.f901()!=\"B.f901\""); return 1; }
if (a.f902() != "B.f902") { Console.WriteLine("FAILED: a.f902()!=\"B.f902\""); return 1; }
if (a.f903() != "B.f903") { Console.WriteLine("FAILED: a.f903()!=\"B.f903\""); return 1; }
if (a.f904() != "B.f904") { Console.WriteLine("FAILED: a.f904()!=\"B.f904\""); return 1; }
if (a.f905() != "B.f905") { Console.WriteLine("FAILED: a.f905()!=\"B.f905\""); return 1; }
if (a.f906() != "B.f906") { Console.WriteLine("FAILED: a.f906()!=\"B.f906\""); return 1; }
if (a.f907() != "B.f907") { Console.WriteLine("FAILED: a.f907()!=\"B.f907\""); return 1; }
if (a.f908() != "B.f908") { Console.WriteLine("FAILED: a.f908()!=\"B.f908\""); return 1; }
if (a.f909() != "B.f909") { Console.WriteLine("FAILED: a.f909()!=\"B.f909\""); return 1; }
if (a.f910() != "B.f910") { Console.WriteLine("FAILED: a.f910()!=\"B.f910\""); return 1; }
if (a.f911() != "B.f911") { Console.WriteLine("FAILED: a.f911()!=\"B.f911\""); return 1; }
if (a.f912() != "B.f912") { Console.WriteLine("FAILED: a.f912()!=\"B.f912\""); return 1; }
if (a.f913() != "B.f913") { Console.WriteLine("FAILED: a.f913()!=\"B.f913\""); return 1; }
if (a.f914() != "B.f914") { Console.WriteLine("FAILED: a.f914()!=\"B.f914\""); return 1; }
if (a.f915() != "B.f915") { Console.WriteLine("FAILED: a.f915()!=\"B.f915\""); return 1; }
if (a.f916() != "B.f916") { Console.WriteLine("FAILED: a.f916()!=\"B.f916\""); return 1; }
if (a.f917() != "B.f917") { Console.WriteLine("FAILED: a.f917()!=\"B.f917\""); return 1; }
if (a.f918() != "B.f918") { Console.WriteLine("FAILED: a.f918()!=\"B.f918\""); return 1; }
if (a.f919() != "B.f919") { Console.WriteLine("FAILED: a.f919()!=\"B.f919\""); return 1; }
if (a.f920() != "B.f920") { Console.WriteLine("FAILED: a.f920()!=\"B.f920\""); return 1; }
if (a.f921() != "B.f921") { Console.WriteLine("FAILED: a.f921()!=\"B.f921\""); return 1; }
if (a.f922() != "B.f922") { Console.WriteLine("FAILED: a.f922()!=\"B.f922\""); return 1; }
if (a.f923() != "B.f923") { Console.WriteLine("FAILED: a.f923()!=\"B.f923\""); return 1; }
if (a.f924() != "B.f924") { Console.WriteLine("FAILED: a.f924()!=\"B.f924\""); return 1; }
if (a.f925() != "B.f925") { Console.WriteLine("FAILED: a.f925()!=\"B.f925\""); return 1; }
if (a.f926() != "B.f926") { Console.WriteLine("FAILED: a.f926()!=\"B.f926\""); return 1; }
if (a.f927() != "B.f927") { Console.WriteLine("FAILED: a.f927()!=\"B.f927\""); return 1; }
if (a.f928() != "B.f928") { Console.WriteLine("FAILED: a.f928()!=\"B.f928\""); return 1; }
if (a.f929() != "B.f929") { Console.WriteLine("FAILED: a.f929()!=\"B.f929\""); return 1; }
if (a.f930() != "B.f930") { Console.WriteLine("FAILED: a.f930()!=\"B.f930\""); return 1; }
if (a.f931() != "B.f931") { Console.WriteLine("FAILED: a.f931()!=\"B.f931\""); return 1; }
if (a.f932() != "B.f932") { Console.WriteLine("FAILED: a.f932()!=\"B.f932\""); return 1; }
if (a.f933() != "B.f933") { Console.WriteLine("FAILED: a.f933()!=\"B.f933\""); return 1; }
if (a.f934() != "B.f934") { Console.WriteLine("FAILED: a.f934()!=\"B.f934\""); return 1; }
if (a.f935() != "B.f935") { Console.WriteLine("FAILED: a.f935()!=\"B.f935\""); return 1; }
if (a.f936() != "B.f936") { Console.WriteLine("FAILED: a.f936()!=\"B.f936\""); return 1; }
if (a.f937() != "B.f937") { Console.WriteLine("FAILED: a.f937()!=\"B.f937\""); return 1; }
if (a.f938() != "B.f938") { Console.WriteLine("FAILED: a.f938()!=\"B.f938\""); return 1; }
if (a.f939() != "B.f939") { Console.WriteLine("FAILED: a.f939()!=\"B.f939\""); return 1; }
if (a.f940() != "B.f940") { Console.WriteLine("FAILED: a.f940()!=\"B.f940\""); return 1; }
if (a.f941() != "B.f941") { Console.WriteLine("FAILED: a.f941()!=\"B.f941\""); return 1; }
if (a.f942() != "B.f942") { Console.WriteLine("FAILED: a.f942()!=\"B.f942\""); return 1; }
if (a.f943() != "B.f943") { Console.WriteLine("FAILED: a.f943()!=\"B.f943\""); return 1; }
if (a.f944() != "B.f944") { Console.WriteLine("FAILED: a.f944()!=\"B.f944\""); return 1; }
if (a.f945() != "B.f945") { Console.WriteLine("FAILED: a.f945()!=\"B.f945\""); return 1; }
if (a.f946() != "B.f946") { Console.WriteLine("FAILED: a.f946()!=\"B.f946\""); return 1; }
if (a.f947() != "B.f947") { Console.WriteLine("FAILED: a.f947()!=\"B.f947\""); return 1; }
if (a.f948() != "B.f948") { Console.WriteLine("FAILED: a.f948()!=\"B.f948\""); return 1; }
if (a.f949() != "B.f949") { Console.WriteLine("FAILED: a.f949()!=\"B.f949\""); return 1; }
if (a.f950() != "B.f950") { Console.WriteLine("FAILED: a.f950()!=\"B.f950\""); return 1; }
if (a.f951() != "B.f951") { Console.WriteLine("FAILED: a.f951()!=\"B.f951\""); return 1; }
if (a.f952() != "B.f952") { Console.WriteLine("FAILED: a.f952()!=\"B.f952\""); return 1; }
if (a.f953() != "B.f953") { Console.WriteLine("FAILED: a.f953()!=\"B.f953\""); return 1; }
if (a.f954() != "B.f954") { Console.WriteLine("FAILED: a.f954()!=\"B.f954\""); return 1; }
if (a.f955() != "B.f955") { Console.WriteLine("FAILED: a.f955()!=\"B.f955\""); return 1; }
if (a.f956() != "B.f956") { Console.WriteLine("FAILED: a.f956()!=\"B.f956\""); return 1; }
if (a.f957() != "B.f957") { Console.WriteLine("FAILED: a.f957()!=\"B.f957\""); return 1; }
if (a.f958() != "B.f958") { Console.WriteLine("FAILED: a.f958()!=\"B.f958\""); return 1; }
if (a.f959() != "B.f959") { Console.WriteLine("FAILED: a.f959()!=\"B.f959\""); return 1; }
if (a.f960() != "B.f960") { Console.WriteLine("FAILED: a.f960()!=\"B.f960\""); return 1; }
if (a.f961() != "B.f961") { Console.WriteLine("FAILED: a.f961()!=\"B.f961\""); return 1; }
if (a.f962() != "B.f962") { Console.WriteLine("FAILED: a.f962()!=\"B.f962\""); return 1; }
if (a.f963() != "B.f963") { Console.WriteLine("FAILED: a.f963()!=\"B.f963\""); return 1; }
if (a.f964() != "B.f964") { Console.WriteLine("FAILED: a.f964()!=\"B.f964\""); return 1; }
if (a.f965() != "B.f965") { Console.WriteLine("FAILED: a.f965()!=\"B.f965\""); return 1; }
if (a.f966() != "B.f966") { Console.WriteLine("FAILED: a.f966()!=\"B.f966\""); return 1; }
if (a.f967() != "B.f967") { Console.WriteLine("FAILED: a.f967()!=\"B.f967\""); return 1; }
if (a.f968() != "B.f968") { Console.WriteLine("FAILED: a.f968()!=\"B.f968\""); return 1; }
if (a.f969() != "B.f969") { Console.WriteLine("FAILED: a.f969()!=\"B.f969\""); return 1; }
if (a.f970() != "B.f970") { Console.WriteLine("FAILED: a.f970()!=\"B.f970\""); return 1; }
if (a.f971() != "B.f971") { Console.WriteLine("FAILED: a.f971()!=\"B.f971\""); return 1; }
if (a.f972() != "B.f972") { Console.WriteLine("FAILED: a.f972()!=\"B.f972\""); return 1; }
if (a.f973() != "B.f973") { Console.WriteLine("FAILED: a.f973()!=\"B.f973\""); return 1; }
if (a.f974() != "B.f974") { Console.WriteLine("FAILED: a.f974()!=\"B.f974\""); return 1; }
if (a.f975() != "B.f975") { Console.WriteLine("FAILED: a.f975()!=\"B.f975\""); return 1; }
if (a.f976() != "B.f976") { Console.WriteLine("FAILED: a.f976()!=\"B.f976\""); return 1; }
if (a.f977() != "B.f977") { Console.WriteLine("FAILED: a.f977()!=\"B.f977\""); return 1; }
if (a.f978() != "B.f978") { Console.WriteLine("FAILED: a.f978()!=\"B.f978\""); return 1; }
if (a.f979() != "B.f979") { Console.WriteLine("FAILED: a.f979()!=\"B.f979\""); return 1; }
if (a.f980() != "B.f980") { Console.WriteLine("FAILED: a.f980()!=\"B.f980\""); return 1; }
if (a.f981() != "B.f981") { Console.WriteLine("FAILED: a.f981()!=\"B.f981\""); return 1; }
if (a.f982() != "B.f982") { Console.WriteLine("FAILED: a.f982()!=\"B.f982\""); return 1; }
if (a.f983() != "B.f983") { Console.WriteLine("FAILED: a.f983()!=\"B.f983\""); return 1; }
if (a.f984() != "B.f984") { Console.WriteLine("FAILED: a.f984()!=\"B.f984\""); return 1; }
if (a.f985() != "B.f985") { Console.WriteLine("FAILED: a.f985()!=\"B.f985\""); return 1; }
if (a.f986() != "B.f986") { Console.WriteLine("FAILED: a.f986()!=\"B.f986\""); return 1; }
if (a.f987() != "B.f987") { Console.WriteLine("FAILED: a.f987()!=\"B.f987\""); return 1; }
if (a.f988() != "B.f988") { Console.WriteLine("FAILED: a.f988()!=\"B.f988\""); return 1; }
if (a.f989() != "B.f989") { Console.WriteLine("FAILED: a.f989()!=\"B.f989\""); return 1; }
if (a.f990() != "B.f990") { Console.WriteLine("FAILED: a.f990()!=\"B.f990\""); return 1; }
if (a.f991() != "B.f991") { Console.WriteLine("FAILED: a.f991()!=\"B.f991\""); return 1; }
if (a.f992() != "B.f992") { Console.WriteLine("FAILED: a.f992()!=\"B.f992\""); return 1; }
if (a.f993() != "B.f993") { Console.WriteLine("FAILED: a.f993()!=\"B.f993\""); return 1; }
if (a.f994() != "B.f994") { Console.WriteLine("FAILED: a.f994()!=\"B.f994\""); return 1; }
if (a.f995() != "B.f995") { Console.WriteLine("FAILED: a.f995()!=\"B.f995\""); return 1; }
if (a.f996() != "B.f996") { Console.WriteLine("FAILED: a.f996()!=\"B.f996\""); return 1; }
if (a.f997() != "B.f997") { Console.WriteLine("FAILED: a.f997()!=\"B.f997\""); return 1; }
if (a.f998() != "B.f998") { Console.WriteLine("FAILED: a.f998()!=\"B.f998\""); return 1; }
if (a.f999() != "B.f999") { Console.WriteLine("FAILED: a.f999()!=\"B.f999\""); return 1; }
if (a.f1000() != "B.f1000") { Console.WriteLine("FAILED: a.f1000()!=\"B.f1000\""); return 1; }
if (a.f1001() != "B.f1001") { Console.WriteLine("FAILED: a.f1001()!=\"B.f1001\""); return 1; }
if (a.f1002() != "B.f1002") { Console.WriteLine("FAILED: a.f1002()!=\"B.f1002\""); return 1; }
if (a.f1003() != "B.f1003") { Console.WriteLine("FAILED: a.f1003()!=\"B.f1003\""); return 1; }
if (a.f1004() != "B.f1004") { Console.WriteLine("FAILED: a.f1004()!=\"B.f1004\""); return 1; }
if (a.f1005() != "B.f1005") { Console.WriteLine("FAILED: a.f1005()!=\"B.f1005\""); return 1; }
if (a.f1006() != "B.f1006") { Console.WriteLine("FAILED: a.f1006()!=\"B.f1006\""); return 1; }
if (a.f1007() != "B.f1007") { Console.WriteLine("FAILED: a.f1007()!=\"B.f1007\""); return 1; }
if (a.f1008() != "B.f1008") { Console.WriteLine("FAILED: a.f1008()!=\"B.f1008\""); return 1; }
if (a.f1009() != "B.f1009") { Console.WriteLine("FAILED: a.f1009()!=\"B.f1009\""); return 1; }
if (a.f1010() != "B.f1010") { Console.WriteLine("FAILED: a.f1010()!=\"B.f1010\""); return 1; }
if (a.f1011() != "B.f1011") { Console.WriteLine("FAILED: a.f1011()!=\"B.f1011\""); return 1; }
if (a.f1012() != "B.f1012") { Console.WriteLine("FAILED: a.f1012()!=\"B.f1012\""); return 1; }
if (a.f1013() != "B.f1013") { Console.WriteLine("FAILED: a.f1013()!=\"B.f1013\""); return 1; }
if (a.f1014() != "B.f1014") { Console.WriteLine("FAILED: a.f1014()!=\"B.f1014\""); return 1; }
if (a.f1015() != "B.f1015") { Console.WriteLine("FAILED: a.f1015()!=\"B.f1015\""); return 1; }
if (a.f1016() != "B.f1016") { Console.WriteLine("FAILED: a.f1016()!=\"B.f1016\""); return 1; }
if (a.f1017() != "B.f1017") { Console.WriteLine("FAILED: a.f1017()!=\"B.f1017\""); return 1; }
if (a.f1018() != "B.f1018") { Console.WriteLine("FAILED: a.f1018()!=\"B.f1018\""); return 1; }
if (a.f1019() != "B.f1019") { Console.WriteLine("FAILED: a.f1019()!=\"B.f1019\""); return 1; }
if (a.f1020() != "B.f1020") { Console.WriteLine("FAILED: a.f1020()!=\"B.f1020\""); return 1; }
if (a.f1021() != "B.f1021") { Console.WriteLine("FAILED: a.f1021()!=\"B.f1021\""); return 1; }
if (a.f1022() != "B.f1022") { Console.WriteLine("FAILED: a.f1022()!=\"B.f1022\""); return 1; }
if (a.f1023() != "B.f1023") { Console.WriteLine("FAILED: a.f1023()!=\"B.f1023\""); return 1; }
if (a.f1024() != "B.f1024") { Console.WriteLine("FAILED: a.f1024()!=\"B.f1024\""); return 1; }
if (a.f1025() != "B.f1025") { Console.WriteLine("FAILED: a.f1025()!=\"B.f1025\""); return 1; }
if (a.f1026() != "B.f1026") { Console.WriteLine("FAILED: a.f1026()!=\"B.f1026\""); return 1; }
if (a.f1027() != "B.f1027") { Console.WriteLine("FAILED: a.f1027()!=\"B.f1027\""); return 1; }
if (a.f1028() != "B.f1028") { Console.WriteLine("FAILED: a.f1028()!=\"B.f1028\""); return 1; }
if (a.f1029() != "B.f1029") { Console.WriteLine("FAILED: a.f1029()!=\"B.f1029\""); return 1; }
if (a.f1030() != "B.f1030") { Console.WriteLine("FAILED: a.f1030()!=\"B.f1030\""); return 1; }
if (a.f1031() != "B.f1031") { Console.WriteLine("FAILED: a.f1031()!=\"B.f1031\""); return 1; }
if (a.f1032() != "B.f1032") { Console.WriteLine("FAILED: a.f1032()!=\"B.f1032\""); return 1; }
if (a.f1033() != "B.f1033") { Console.WriteLine("FAILED: a.f1033()!=\"B.f1033\""); return 1; }
if (a.f1034() != "B.f1034") { Console.WriteLine("FAILED: a.f1034()!=\"B.f1034\""); return 1; }
if (a.f1035() != "B.f1035") { Console.WriteLine("FAILED: a.f1035()!=\"B.f1035\""); return 1; }
if (a.f1036() != "B.f1036") { Console.WriteLine("FAILED: a.f1036()!=\"B.f1036\""); return 1; }
if (a.f1037() != "B.f1037") { Console.WriteLine("FAILED: a.f1037()!=\"B.f1037\""); return 1; }
if (a.f1038() != "B.f1038") { Console.WriteLine("FAILED: a.f1038()!=\"B.f1038\""); return 1; }
if (a.f1039() != "B.f1039") { Console.WriteLine("FAILED: a.f1039()!=\"B.f1039\""); return 1; }
if (a.f1040() != "B.f1040") { Console.WriteLine("FAILED: a.f1040()!=\"B.f1040\""); return 1; }
if (a.f1041() != "B.f1041") { Console.WriteLine("FAILED: a.f1041()!=\"B.f1041\""); return 1; }
if (a.f1042() != "B.f1042") { Console.WriteLine("FAILED: a.f1042()!=\"B.f1042\""); return 1; }
if (a.f1043() != "B.f1043") { Console.WriteLine("FAILED: a.f1043()!=\"B.f1043\""); return 1; }
if (a.f1044() != "B.f1044") { Console.WriteLine("FAILED: a.f1044()!=\"B.f1044\""); return 1; }
if (a.f1045() != "B.f1045") { Console.WriteLine("FAILED: a.f1045()!=\"B.f1045\""); return 1; }
if (a.f1046() != "B.f1046") { Console.WriteLine("FAILED: a.f1046()!=\"B.f1046\""); return 1; }
if (a.f1047() != "B.f1047") { Console.WriteLine("FAILED: a.f1047()!=\"B.f1047\""); return 1; }
if (a.f1048() != "B.f1048") { Console.WriteLine("FAILED: a.f1048()!=\"B.f1048\""); return 1; }
if (a.f1049() != "B.f1049") { Console.WriteLine("FAILED: a.f1049()!=\"B.f1049\""); return 1; }
if (a.f1050() != "B.f1050") { Console.WriteLine("FAILED: a.f1050()!=\"B.f1050\""); return 1; }
if (a.f1051() != "B.f1051") { Console.WriteLine("FAILED: a.f1051()!=\"B.f1051\""); return 1; }
if (a.f1052() != "B.f1052") { Console.WriteLine("FAILED: a.f1052()!=\"B.f1052\""); return 1; }
if (a.f1053() != "B.f1053") { Console.WriteLine("FAILED: a.f1053()!=\"B.f1053\""); return 1; }
if (a.f1054() != "B.f1054") { Console.WriteLine("FAILED: a.f1054()!=\"B.f1054\""); return 1; }
if (a.f1055() != "B.f1055") { Console.WriteLine("FAILED: a.f1055()!=\"B.f1055\""); return 1; }
if (a.f1056() != "B.f1056") { Console.WriteLine("FAILED: a.f1056()!=\"B.f1056\""); return 1; }
if (a.f1057() != "B.f1057") { Console.WriteLine("FAILED: a.f1057()!=\"B.f1057\""); return 1; }
if (a.f1058() != "B.f1058") { Console.WriteLine("FAILED: a.f1058()!=\"B.f1058\""); return 1; }
if (a.f1059() != "B.f1059") { Console.WriteLine("FAILED: a.f1059()!=\"B.f1059\""); return 1; }
if (a.f1060() != "B.f1060") { Console.WriteLine("FAILED: a.f1060()!=\"B.f1060\""); return 1; }
if (a.f1061() != "B.f1061") { Console.WriteLine("FAILED: a.f1061()!=\"B.f1061\""); return 1; }
if (a.f1062() != "B.f1062") { Console.WriteLine("FAILED: a.f1062()!=\"B.f1062\""); return 1; }
if (a.f1063() != "B.f1063") { Console.WriteLine("FAILED: a.f1063()!=\"B.f1063\""); return 1; }
if (a.f1064() != "B.f1064") { Console.WriteLine("FAILED: a.f1064()!=\"B.f1064\""); return 1; }
if (a.f1065() != "B.f1065") { Console.WriteLine("FAILED: a.f1065()!=\"B.f1065\""); return 1; }
if (a.f1066() != "B.f1066") { Console.WriteLine("FAILED: a.f1066()!=\"B.f1066\""); return 1; }
if (a.f1067() != "B.f1067") { Console.WriteLine("FAILED: a.f1067()!=\"B.f1067\""); return 1; }
if (a.f1068() != "B.f1068") { Console.WriteLine("FAILED: a.f1068()!=\"B.f1068\""); return 1; }
if (a.f1069() != "B.f1069") { Console.WriteLine("FAILED: a.f1069()!=\"B.f1069\""); return 1; }
if (a.f1070() != "B.f1070") { Console.WriteLine("FAILED: a.f1070()!=\"B.f1070\""); return 1; }
if (a.f1071() != "B.f1071") { Console.WriteLine("FAILED: a.f1071()!=\"B.f1071\""); return 1; }
if (a.f1072() != "B.f1072") { Console.WriteLine("FAILED: a.f1072()!=\"B.f1072\""); return 1; }
if (a.f1073() != "B.f1073") { Console.WriteLine("FAILED: a.f1073()!=\"B.f1073\""); return 1; }
if (a.f1074() != "B.f1074") { Console.WriteLine("FAILED: a.f1074()!=\"B.f1074\""); return 1; }
if (a.f1075() != "B.f1075") { Console.WriteLine("FAILED: a.f1075()!=\"B.f1075\""); return 1; }
if (a.f1076() != "B.f1076") { Console.WriteLine("FAILED: a.f1076()!=\"B.f1076\""); return 1; }
if (a.f1077() != "B.f1077") { Console.WriteLine("FAILED: a.f1077()!=\"B.f1077\""); return 1; }
if (a.f1078() != "B.f1078") { Console.WriteLine("FAILED: a.f1078()!=\"B.f1078\""); return 1; }
if (a.f1079() != "B.f1079") { Console.WriteLine("FAILED: a.f1079()!=\"B.f1079\""); return 1; }
if (a.f1080() != "B.f1080") { Console.WriteLine("FAILED: a.f1080()!=\"B.f1080\""); return 1; }
if (a.f1081() != "B.f1081") { Console.WriteLine("FAILED: a.f1081()!=\"B.f1081\""); return 1; }
if (a.f1082() != "B.f1082") { Console.WriteLine("FAILED: a.f1082()!=\"B.f1082\""); return 1; }
if (a.f1083() != "B.f1083") { Console.WriteLine("FAILED: a.f1083()!=\"B.f1083\""); return 1; }
if (a.f1084() != "B.f1084") { Console.WriteLine("FAILED: a.f1084()!=\"B.f1084\""); return 1; }
if (a.f1085() != "B.f1085") { Console.WriteLine("FAILED: a.f1085()!=\"B.f1085\""); return 1; }
if (a.f1086() != "B.f1086") { Console.WriteLine("FAILED: a.f1086()!=\"B.f1086\""); return 1; }
if (a.f1087() != "B.f1087") { Console.WriteLine("FAILED: a.f1087()!=\"B.f1087\""); return 1; }
if (a.f1088() != "B.f1088") { Console.WriteLine("FAILED: a.f1088()!=\"B.f1088\""); return 1; }
if (a.f1089() != "B.f1089") { Console.WriteLine("FAILED: a.f1089()!=\"B.f1089\""); return 1; }
if (a.f1090() != "B.f1090") { Console.WriteLine("FAILED: a.f1090()!=\"B.f1090\""); return 1; }
if (a.f1091() != "B.f1091") { Console.WriteLine("FAILED: a.f1091()!=\"B.f1091\""); return 1; }
if (a.f1092() != "B.f1092") { Console.WriteLine("FAILED: a.f1092()!=\"B.f1092\""); return 1; }
if (a.f1093() != "B.f1093") { Console.WriteLine("FAILED: a.f1093()!=\"B.f1093\""); return 1; }
if (a.f1094() != "B.f1094") { Console.WriteLine("FAILED: a.f1094()!=\"B.f1094\""); return 1; }
if (a.f1095() != "B.f1095") { Console.WriteLine("FAILED: a.f1095()!=\"B.f1095\""); return 1; }
if (a.f1096() != "B.f1096") { Console.WriteLine("FAILED: a.f1096()!=\"B.f1096\""); return 1; }
if (a.f1097() != "B.f1097") { Console.WriteLine("FAILED: a.f1097()!=\"B.f1097\""); return 1; }
if (a.f1098() != "B.f1098") { Console.WriteLine("FAILED: a.f1098()!=\"B.f1098\""); return 1; }
if (a.f1099() != "B.f1099") { Console.WriteLine("FAILED: a.f1099()!=\"B.f1099\""); return 1; }
if (a.f1100() != "B.f1100") { Console.WriteLine("FAILED: a.f1100()!=\"B.f1100\""); return 1; }
if (a.f1101() != "B.f1101") { Console.WriteLine("FAILED: a.f1101()!=\"B.f1101\""); return 1; }
if (a.f1102() != "B.f1102") { Console.WriteLine("FAILED: a.f1102()!=\"B.f1102\""); return 1; }
if (a.f1103() != "B.f1103") { Console.WriteLine("FAILED: a.f1103()!=\"B.f1103\""); return 1; }
if (a.f1104() != "B.f1104") { Console.WriteLine("FAILED: a.f1104()!=\"B.f1104\""); return 1; }
if (a.f1105() != "B.f1105") { Console.WriteLine("FAILED: a.f1105()!=\"B.f1105\""); return 1; }
if (a.f1106() != "B.f1106") { Console.WriteLine("FAILED: a.f1106()!=\"B.f1106\""); return 1; }
if (a.f1107() != "B.f1107") { Console.WriteLine("FAILED: a.f1107()!=\"B.f1107\""); return 1; }
if (a.f1108() != "B.f1108") { Console.WriteLine("FAILED: a.f1108()!=\"B.f1108\""); return 1; }
if (a.f1109() != "B.f1109") { Console.WriteLine("FAILED: a.f1109()!=\"B.f1109\""); return 1; }
if (a.f1110() != "B.f1110") { Console.WriteLine("FAILED: a.f1110()!=\"B.f1110\""); return 1; }
if (a.f1111() != "B.f1111") { Console.WriteLine("FAILED: a.f1111()!=\"B.f1111\""); return 1; }
if (a.f1112() != "B.f1112") { Console.WriteLine("FAILED: a.f1112()!=\"B.f1112\""); return 1; }
if (a.f1113() != "B.f1113") { Console.WriteLine("FAILED: a.f1113()!=\"B.f1113\""); return 1; }
if (a.f1114() != "B.f1114") { Console.WriteLine("FAILED: a.f1114()!=\"B.f1114\""); return 1; }
if (a.f1115() != "B.f1115") { Console.WriteLine("FAILED: a.f1115()!=\"B.f1115\""); return 1; }
if (a.f1116() != "B.f1116") { Console.WriteLine("FAILED: a.f1116()!=\"B.f1116\""); return 1; }
if (a.f1117() != "B.f1117") { Console.WriteLine("FAILED: a.f1117()!=\"B.f1117\""); return 1; }
if (a.f1118() != "B.f1118") { Console.WriteLine("FAILED: a.f1118()!=\"B.f1118\""); return 1; }
if (a.f1119() != "B.f1119") { Console.WriteLine("FAILED: a.f1119()!=\"B.f1119\""); return 1; }
if (a.f1120() != "B.f1120") { Console.WriteLine("FAILED: a.f1120()!=\"B.f1120\""); return 1; }
if (a.f1121() != "B.f1121") { Console.WriteLine("FAILED: a.f1121()!=\"B.f1121\""); return 1; }
if (a.f1122() != "B.f1122") { Console.WriteLine("FAILED: a.f1122()!=\"B.f1122\""); return 1; }
if (a.f1123() != "B.f1123") { Console.WriteLine("FAILED: a.f1123()!=\"B.f1123\""); return 1; }
if (a.f1124() != "B.f1124") { Console.WriteLine("FAILED: a.f1124()!=\"B.f1124\""); return 1; }
if (a.f1125() != "B.f1125") { Console.WriteLine("FAILED: a.f1125()!=\"B.f1125\""); return 1; }
if (a.f1126() != "B.f1126") { Console.WriteLine("FAILED: a.f1126()!=\"B.f1126\""); return 1; }
if (a.f1127() != "B.f1127") { Console.WriteLine("FAILED: a.f1127()!=\"B.f1127\""); return 1; }
if (a.f1128() != "B.f1128") { Console.WriteLine("FAILED: a.f1128()!=\"B.f1128\""); return 1; }
if (a.f1129() != "B.f1129") { Console.WriteLine("FAILED: a.f1129()!=\"B.f1129\""); return 1; }
if (a.f1130() != "B.f1130") { Console.WriteLine("FAILED: a.f1130()!=\"B.f1130\""); return 1; }
if (a.f1131() != "B.f1131") { Console.WriteLine("FAILED: a.f1131()!=\"B.f1131\""); return 1; }
if (a.f1132() != "B.f1132") { Console.WriteLine("FAILED: a.f1132()!=\"B.f1132\""); return 1; }
if (a.f1133() != "B.f1133") { Console.WriteLine("FAILED: a.f1133()!=\"B.f1133\""); return 1; }
if (a.f1134() != "B.f1134") { Console.WriteLine("FAILED: a.f1134()!=\"B.f1134\""); return 1; }
if (a.f1135() != "B.f1135") { Console.WriteLine("FAILED: a.f1135()!=\"B.f1135\""); return 1; }
if (a.f1136() != "B.f1136") { Console.WriteLine("FAILED: a.f1136()!=\"B.f1136\""); return 1; }
if (a.f1137() != "B.f1137") { Console.WriteLine("FAILED: a.f1137()!=\"B.f1137\""); return 1; }
if (a.f1138() != "B.f1138") { Console.WriteLine("FAILED: a.f1138()!=\"B.f1138\""); return 1; }
if (a.f1139() != "B.f1139") { Console.WriteLine("FAILED: a.f1139()!=\"B.f1139\""); return 1; }
if (a.f1140() != "B.f1140") { Console.WriteLine("FAILED: a.f1140()!=\"B.f1140\""); return 1; }
if (a.f1141() != "B.f1141") { Console.WriteLine("FAILED: a.f1141()!=\"B.f1141\""); return 1; }
if (a.f1142() != "B.f1142") { Console.WriteLine("FAILED: a.f1142()!=\"B.f1142\""); return 1; }
if (a.f1143() != "B.f1143") { Console.WriteLine("FAILED: a.f1143()!=\"B.f1143\""); return 1; }
if (a.f1144() != "B.f1144") { Console.WriteLine("FAILED: a.f1144()!=\"B.f1144\""); return 1; }
if (a.f1145() != "B.f1145") { Console.WriteLine("FAILED: a.f1145()!=\"B.f1145\""); return 1; }
if (a.f1146() != "B.f1146") { Console.WriteLine("FAILED: a.f1146()!=\"B.f1146\""); return 1; }
if (a.f1147() != "B.f1147") { Console.WriteLine("FAILED: a.f1147()!=\"B.f1147\""); return 1; }
if (a.f1148() != "B.f1148") { Console.WriteLine("FAILED: a.f1148()!=\"B.f1148\""); return 1; }
if (a.f1149() != "B.f1149") { Console.WriteLine("FAILED: a.f1149()!=\"B.f1149\""); return 1; }
if (a.f1150() != "B.f1150") { Console.WriteLine("FAILED: a.f1150()!=\"B.f1150\""); return 1; }
if (a.f1151() != "B.f1151") { Console.WriteLine("FAILED: a.f1151()!=\"B.f1151\""); return 1; }
if (a.f1152() != "B.f1152") { Console.WriteLine("FAILED: a.f1152()!=\"B.f1152\""); return 1; }
if (a.f1153() != "B.f1153") { Console.WriteLine("FAILED: a.f1153()!=\"B.f1153\""); return 1; }
if (a.f1154() != "B.f1154") { Console.WriteLine("FAILED: a.f1154()!=\"B.f1154\""); return 1; }
if (a.f1155() != "B.f1155") { Console.WriteLine("FAILED: a.f1155()!=\"B.f1155\""); return 1; }
if (a.f1156() != "B.f1156") { Console.WriteLine("FAILED: a.f1156()!=\"B.f1156\""); return 1; }
if (a.f1157() != "B.f1157") { Console.WriteLine("FAILED: a.f1157()!=\"B.f1157\""); return 1; }
if (a.f1158() != "B.f1158") { Console.WriteLine("FAILED: a.f1158()!=\"B.f1158\""); return 1; }
if (a.f1159() != "B.f1159") { Console.WriteLine("FAILED: a.f1159()!=\"B.f1159\""); return 1; }
if (a.f1160() != "B.f1160") { Console.WriteLine("FAILED: a.f1160()!=\"B.f1160\""); return 1; }
if (a.f1161() != "B.f1161") { Console.WriteLine("FAILED: a.f1161()!=\"B.f1161\""); return 1; }
if (a.f1162() != "B.f1162") { Console.WriteLine("FAILED: a.f1162()!=\"B.f1162\""); return 1; }
if (a.f1163() != "B.f1163") { Console.WriteLine("FAILED: a.f1163()!=\"B.f1163\""); return 1; }
if (a.f1164() != "B.f1164") { Console.WriteLine("FAILED: a.f1164()!=\"B.f1164\""); return 1; }
if (a.f1165() != "B.f1165") { Console.WriteLine("FAILED: a.f1165()!=\"B.f1165\""); return 1; }
if (a.f1166() != "B.f1166") { Console.WriteLine("FAILED: a.f1166()!=\"B.f1166\""); return 1; }
if (a.f1167() != "B.f1167") { Console.WriteLine("FAILED: a.f1167()!=\"B.f1167\""); return 1; }
if (a.f1168() != "B.f1168") { Console.WriteLine("FAILED: a.f1168()!=\"B.f1168\""); return 1; }
if (a.f1169() != "B.f1169") { Console.WriteLine("FAILED: a.f1169()!=\"B.f1169\""); return 1; }
if (a.f1170() != "B.f1170") { Console.WriteLine("FAILED: a.f1170()!=\"B.f1170\""); return 1; }
if (a.f1171() != "B.f1171") { Console.WriteLine("FAILED: a.f1171()!=\"B.f1171\""); return 1; }
if (a.f1172() != "B.f1172") { Console.WriteLine("FAILED: a.f1172()!=\"B.f1172\""); return 1; }
if (a.f1173() != "B.f1173") { Console.WriteLine("FAILED: a.f1173()!=\"B.f1173\""); return 1; }
if (a.f1174() != "B.f1174") { Console.WriteLine("FAILED: a.f1174()!=\"B.f1174\""); return 1; }
if (a.f1175() != "B.f1175") { Console.WriteLine("FAILED: a.f1175()!=\"B.f1175\""); return 1; }
if (a.f1176() != "B.f1176") { Console.WriteLine("FAILED: a.f1176()!=\"B.f1176\""); return 1; }
if (a.f1177() != "B.f1177") { Console.WriteLine("FAILED: a.f1177()!=\"B.f1177\""); return 1; }
if (a.f1178() != "B.f1178") { Console.WriteLine("FAILED: a.f1178()!=\"B.f1178\""); return 1; }
if (a.f1179() != "B.f1179") { Console.WriteLine("FAILED: a.f1179()!=\"B.f1179\""); return 1; }
if (a.f1180() != "B.f1180") { Console.WriteLine("FAILED: a.f1180()!=\"B.f1180\""); return 1; }
if (a.f1181() != "B.f1181") { Console.WriteLine("FAILED: a.f1181()!=\"B.f1181\""); return 1; }
if (a.f1182() != "B.f1182") { Console.WriteLine("FAILED: a.f1182()!=\"B.f1182\""); return 1; }
if (a.f1183() != "B.f1183") { Console.WriteLine("FAILED: a.f1183()!=\"B.f1183\""); return 1; }
if (a.f1184() != "B.f1184") { Console.WriteLine("FAILED: a.f1184()!=\"B.f1184\""); return 1; }
if (a.f1185() != "B.f1185") { Console.WriteLine("FAILED: a.f1185()!=\"B.f1185\""); return 1; }
if (a.f1186() != "B.f1186") { Console.WriteLine("FAILED: a.f1186()!=\"B.f1186\""); return 1; }
if (a.f1187() != "B.f1187") { Console.WriteLine("FAILED: a.f1187()!=\"B.f1187\""); return 1; }
if (a.f1188() != "B.f1188") { Console.WriteLine("FAILED: a.f1188()!=\"B.f1188\""); return 1; }
if (a.f1189() != "B.f1189") { Console.WriteLine("FAILED: a.f1189()!=\"B.f1189\""); return 1; }
if (a.f1190() != "B.f1190") { Console.WriteLine("FAILED: a.f1190()!=\"B.f1190\""); return 1; }
if (a.f1191() != "B.f1191") { Console.WriteLine("FAILED: a.f1191()!=\"B.f1191\""); return 1; }
if (a.f1192() != "B.f1192") { Console.WriteLine("FAILED: a.f1192()!=\"B.f1192\""); return 1; }
if (a.f1193() != "B.f1193") { Console.WriteLine("FAILED: a.f1193()!=\"B.f1193\""); return 1; }
if (a.f1194() != "B.f1194") { Console.WriteLine("FAILED: a.f1194()!=\"B.f1194\""); return 1; }
if (a.f1195() != "B.f1195") { Console.WriteLine("FAILED: a.f1195()!=\"B.f1195\""); return 1; }
if (a.f1196() != "B.f1196") { Console.WriteLine("FAILED: a.f1196()!=\"B.f1196\""); return 1; }
if (a.f1197() != "B.f1197") { Console.WriteLine("FAILED: a.f1197()!=\"B.f1197\""); return 1; }
if (a.f1198() != "B.f1198") { Console.WriteLine("FAILED: a.f1198()!=\"B.f1198\""); return 1; }
if (a.f1199() != "B.f1199") { Console.WriteLine("FAILED: a.f1199()!=\"B.f1199\""); return 1; }
if (a.f1200() != "B.f1200") { Console.WriteLine("FAILED: a.f1200()!=\"B.f1200\""); return 1; }
if (a.f1201() != "B.f1201") { Console.WriteLine("FAILED: a.f1201()!=\"B.f1201\""); return 1; }
if (a.f1202() != "B.f1202") { Console.WriteLine("FAILED: a.f1202()!=\"B.f1202\""); return 1; }
if (a.f1203() != "B.f1203") { Console.WriteLine("FAILED: a.f1203()!=\"B.f1203\""); return 1; }
if (a.f1204() != "B.f1204") { Console.WriteLine("FAILED: a.f1204()!=\"B.f1204\""); return 1; }
if (a.f1205() != "B.f1205") { Console.WriteLine("FAILED: a.f1205()!=\"B.f1205\""); return 1; }
if (a.f1206() != "B.f1206") { Console.WriteLine("FAILED: a.f1206()!=\"B.f1206\""); return 1; }
if (a.f1207() != "B.f1207") { Console.WriteLine("FAILED: a.f1207()!=\"B.f1207\""); return 1; }
if (a.f1208() != "B.f1208") { Console.WriteLine("FAILED: a.f1208()!=\"B.f1208\""); return 1; }
if (a.f1209() != "B.f1209") { Console.WriteLine("FAILED: a.f1209()!=\"B.f1209\""); return 1; }
if (a.f1210() != "B.f1210") { Console.WriteLine("FAILED: a.f1210()!=\"B.f1210\""); return 1; }
if (a.f1211() != "B.f1211") { Console.WriteLine("FAILED: a.f1211()!=\"B.f1211\""); return 1; }
if (a.f1212() != "B.f1212") { Console.WriteLine("FAILED: a.f1212()!=\"B.f1212\""); return 1; }
if (a.f1213() != "B.f1213") { Console.WriteLine("FAILED: a.f1213()!=\"B.f1213\""); return 1; }
if (a.f1214() != "B.f1214") { Console.WriteLine("FAILED: a.f1214()!=\"B.f1214\""); return 1; }
if (a.f1215() != "B.f1215") { Console.WriteLine("FAILED: a.f1215()!=\"B.f1215\""); return 1; }
if (a.f1216() != "B.f1216") { Console.WriteLine("FAILED: a.f1216()!=\"B.f1216\""); return 1; }
if (a.f1217() != "B.f1217") { Console.WriteLine("FAILED: a.f1217()!=\"B.f1217\""); return 1; }
if (a.f1218() != "B.f1218") { Console.WriteLine("FAILED: a.f1218()!=\"B.f1218\""); return 1; }
if (a.f1219() != "B.f1219") { Console.WriteLine("FAILED: a.f1219()!=\"B.f1219\""); return 1; }
if (a.f1220() != "B.f1220") { Console.WriteLine("FAILED: a.f1220()!=\"B.f1220\""); return 1; }
if (a.f1221() != "B.f1221") { Console.WriteLine("FAILED: a.f1221()!=\"B.f1221\""); return 1; }
if (a.f1222() != "B.f1222") { Console.WriteLine("FAILED: a.f1222()!=\"B.f1222\""); return 1; }
if (a.f1223() != "B.f1223") { Console.WriteLine("FAILED: a.f1223()!=\"B.f1223\""); return 1; }
if (a.f1224() != "B.f1224") { Console.WriteLine("FAILED: a.f1224()!=\"B.f1224\""); return 1; }
if (a.f1225() != "B.f1225") { Console.WriteLine("FAILED: a.f1225()!=\"B.f1225\""); return 1; }
if (a.f1226() != "B.f1226") { Console.WriteLine("FAILED: a.f1226()!=\"B.f1226\""); return 1; }
if (a.f1227() != "B.f1227") { Console.WriteLine("FAILED: a.f1227()!=\"B.f1227\""); return 1; }
if (a.f1228() != "B.f1228") { Console.WriteLine("FAILED: a.f1228()!=\"B.f1228\""); return 1; }
if (a.f1229() != "B.f1229") { Console.WriteLine("FAILED: a.f1229()!=\"B.f1229\""); return 1; }
if (a.f1230() != "B.f1230") { Console.WriteLine("FAILED: a.f1230()!=\"B.f1230\""); return 1; }
if (a.f1231() != "B.f1231") { Console.WriteLine("FAILED: a.f1231()!=\"B.f1231\""); return 1; }
if (a.f1232() != "B.f1232") { Console.WriteLine("FAILED: a.f1232()!=\"B.f1232\""); return 1; }
if (a.f1233() != "B.f1233") { Console.WriteLine("FAILED: a.f1233()!=\"B.f1233\""); return 1; }
if (a.f1234() != "B.f1234") { Console.WriteLine("FAILED: a.f1234()!=\"B.f1234\""); return 1; }
if (a.f1235() != "B.f1235") { Console.WriteLine("FAILED: a.f1235()!=\"B.f1235\""); return 1; }
if (a.f1236() != "B.f1236") { Console.WriteLine("FAILED: a.f1236()!=\"B.f1236\""); return 1; }
if (a.f1237() != "B.f1237") { Console.WriteLine("FAILED: a.f1237()!=\"B.f1237\""); return 1; }
if (a.f1238() != "B.f1238") { Console.WriteLine("FAILED: a.f1238()!=\"B.f1238\""); return 1; }
if (a.f1239() != "B.f1239") { Console.WriteLine("FAILED: a.f1239()!=\"B.f1239\""); return 1; }
if (a.f1240() != "B.f1240") { Console.WriteLine("FAILED: a.f1240()!=\"B.f1240\""); return 1; }
if (a.f1241() != "B.f1241") { Console.WriteLine("FAILED: a.f1241()!=\"B.f1241\""); return 1; }
if (a.f1242() != "B.f1242") { Console.WriteLine("FAILED: a.f1242()!=\"B.f1242\""); return 1; }
if (a.f1243() != "B.f1243") { Console.WriteLine("FAILED: a.f1243()!=\"B.f1243\""); return 1; }
if (a.f1244() != "B.f1244") { Console.WriteLine("FAILED: a.f1244()!=\"B.f1244\""); return 1; }
if (a.f1245() != "B.f1245") { Console.WriteLine("FAILED: a.f1245()!=\"B.f1245\""); return 1; }
if (a.f1246() != "B.f1246") { Console.WriteLine("FAILED: a.f1246()!=\"B.f1246\""); return 1; }
if (a.f1247() != "B.f1247") { Console.WriteLine("FAILED: a.f1247()!=\"B.f1247\""); return 1; }
if (a.f1248() != "B.f1248") { Console.WriteLine("FAILED: a.f1248()!=\"B.f1248\""); return 1; }
if (a.f1249() != "B.f1249") { Console.WriteLine("FAILED: a.f1249()!=\"B.f1249\""); return 1; }
if (a.f1250() != "B.f1250") { Console.WriteLine("FAILED: a.f1250()!=\"B.f1250\""); return 1; }
if (a.f1251() != "B.f1251") { Console.WriteLine("FAILED: a.f1251()!=\"B.f1251\""); return 1; }
if (a.f1252() != "B.f1252") { Console.WriteLine("FAILED: a.f1252()!=\"B.f1252\""); return 1; }
if (a.f1253() != "B.f1253") { Console.WriteLine("FAILED: a.f1253()!=\"B.f1253\""); return 1; }
if (a.f1254() != "B.f1254") { Console.WriteLine("FAILED: a.f1254()!=\"B.f1254\""); return 1; }
if (a.f1255() != "B.f1255") { Console.WriteLine("FAILED: a.f1255()!=\"B.f1255\""); return 1; }
if (a.f1256() != "B.f1256") { Console.WriteLine("FAILED: a.f1256()!=\"B.f1256\""); return 1; }
if (a.f1257() != "B.f1257") { Console.WriteLine("FAILED: a.f1257()!=\"B.f1257\""); return 1; }
if (a.f1258() != "B.f1258") { Console.WriteLine("FAILED: a.f1258()!=\"B.f1258\""); return 1; }
if (a.f1259() != "B.f1259") { Console.WriteLine("FAILED: a.f1259()!=\"B.f1259\""); return 1; }
if (a.f1260() != "B.f1260") { Console.WriteLine("FAILED: a.f1260()!=\"B.f1260\""); return 1; }
if (a.f1261() != "B.f1261") { Console.WriteLine("FAILED: a.f1261()!=\"B.f1261\""); return 1; }
if (a.f1262() != "B.f1262") { Console.WriteLine("FAILED: a.f1262()!=\"B.f1262\""); return 1; }
if (a.f1263() != "B.f1263") { Console.WriteLine("FAILED: a.f1263()!=\"B.f1263\""); return 1; }
if (a.f1264() != "B.f1264") { Console.WriteLine("FAILED: a.f1264()!=\"B.f1264\""); return 1; }
if (a.f1265() != "B.f1265") { Console.WriteLine("FAILED: a.f1265()!=\"B.f1265\""); return 1; }
if (a.f1266() != "B.f1266") { Console.WriteLine("FAILED: a.f1266()!=\"B.f1266\""); return 1; }
if (a.f1267() != "B.f1267") { Console.WriteLine("FAILED: a.f1267()!=\"B.f1267\""); return 1; }
if (a.f1268() != "B.f1268") { Console.WriteLine("FAILED: a.f1268()!=\"B.f1268\""); return 1; }
if (a.f1269() != "B.f1269") { Console.WriteLine("FAILED: a.f1269()!=\"B.f1269\""); return 1; }
if (a.f1270() != "B.f1270") { Console.WriteLine("FAILED: a.f1270()!=\"B.f1270\""); return 1; }
if (a.f1271() != "B.f1271") { Console.WriteLine("FAILED: a.f1271()!=\"B.f1271\""); return 1; }
if (a.f1272() != "B.f1272") { Console.WriteLine("FAILED: a.f1272()!=\"B.f1272\""); return 1; }
if (a.f1273() != "B.f1273") { Console.WriteLine("FAILED: a.f1273()!=\"B.f1273\""); return 1; }
if (a.f1274() != "B.f1274") { Console.WriteLine("FAILED: a.f1274()!=\"B.f1274\""); return 1; }
if (a.f1275() != "B.f1275") { Console.WriteLine("FAILED: a.f1275()!=\"B.f1275\""); return 1; }
if (a.f1276() != "B.f1276") { Console.WriteLine("FAILED: a.f1276()!=\"B.f1276\""); return 1; }
if (a.f1277() != "B.f1277") { Console.WriteLine("FAILED: a.f1277()!=\"B.f1277\""); return 1; }
if (a.f1278() != "B.f1278") { Console.WriteLine("FAILED: a.f1278()!=\"B.f1278\""); return 1; }
if (a.f1279() != "B.f1279") { Console.WriteLine("FAILED: a.f1279()!=\"B.f1279\""); return 1; }
if (a.f1280() != "B.f1280") { Console.WriteLine("FAILED: a.f1280()!=\"B.f1280\""); return 1; }
if (a.f1281() != "B.f1281") { Console.WriteLine("FAILED: a.f1281()!=\"B.f1281\""); return 1; }
if (a.f1282() != "B.f1282") { Console.WriteLine("FAILED: a.f1282()!=\"B.f1282\""); return 1; }
if (a.f1283() != "B.f1283") { Console.WriteLine("FAILED: a.f1283()!=\"B.f1283\""); return 1; }
if (a.f1284() != "B.f1284") { Console.WriteLine("FAILED: a.f1284()!=\"B.f1284\""); return 1; }
if (a.f1285() != "B.f1285") { Console.WriteLine("FAILED: a.f1285()!=\"B.f1285\""); return 1; }
if (a.f1286() != "B.f1286") { Console.WriteLine("FAILED: a.f1286()!=\"B.f1286\""); return 1; }
if (a.f1287() != "B.f1287") { Console.WriteLine("FAILED: a.f1287()!=\"B.f1287\""); return 1; }
if (a.f1288() != "B.f1288") { Console.WriteLine("FAILED: a.f1288()!=\"B.f1288\""); return 1; }
if (a.f1289() != "B.f1289") { Console.WriteLine("FAILED: a.f1289()!=\"B.f1289\""); return 1; }
if (a.f1290() != "B.f1290") { Console.WriteLine("FAILED: a.f1290()!=\"B.f1290\""); return 1; }
if (a.f1291() != "B.f1291") { Console.WriteLine("FAILED: a.f1291()!=\"B.f1291\""); return 1; }
if (a.f1292() != "B.f1292") { Console.WriteLine("FAILED: a.f1292()!=\"B.f1292\""); return 1; }
if (a.f1293() != "B.f1293") { Console.WriteLine("FAILED: a.f1293()!=\"B.f1293\""); return 1; }
if (a.f1294() != "B.f1294") { Console.WriteLine("FAILED: a.f1294()!=\"B.f1294\""); return 1; }
if (a.f1295() != "B.f1295") { Console.WriteLine("FAILED: a.f1295()!=\"B.f1295\""); return 1; }
if (a.f1296() != "B.f1296") { Console.WriteLine("FAILED: a.f1296()!=\"B.f1296\""); return 1; }
if (a.f1297() != "B.f1297") { Console.WriteLine("FAILED: a.f1297()!=\"B.f1297\""); return 1; }
if (a.f1298() != "B.f1298") { Console.WriteLine("FAILED: a.f1298()!=\"B.f1298\""); return 1; }
if (a.f1299() != "B.f1299") { Console.WriteLine("FAILED: a.f1299()!=\"B.f1299\""); return 1; }
if (a.f1300() != "B.f1300") { Console.WriteLine("FAILED: a.f1300()!=\"B.f1300\""); return 1; }
if (a.f1301() != "B.f1301") { Console.WriteLine("FAILED: a.f1301()!=\"B.f1301\""); return 1; }
if (a.f1302() != "B.f1302") { Console.WriteLine("FAILED: a.f1302()!=\"B.f1302\""); return 1; }
if (a.f1303() != "B.f1303") { Console.WriteLine("FAILED: a.f1303()!=\"B.f1303\""); return 1; }
if (a.f1304() != "B.f1304") { Console.WriteLine("FAILED: a.f1304()!=\"B.f1304\""); return 1; }
if (a.f1305() != "B.f1305") { Console.WriteLine("FAILED: a.f1305()!=\"B.f1305\""); return 1; }
if (a.f1306() != "B.f1306") { Console.WriteLine("FAILED: a.f1306()!=\"B.f1306\""); return 1; }
if (a.f1307() != "B.f1307") { Console.WriteLine("FAILED: a.f1307()!=\"B.f1307\""); return 1; }
if (a.f1308() != "B.f1308") { Console.WriteLine("FAILED: a.f1308()!=\"B.f1308\""); return 1; }
if (a.f1309() != "B.f1309") { Console.WriteLine("FAILED: a.f1309()!=\"B.f1309\""); return 1; }
if (a.f1310() != "B.f1310") { Console.WriteLine("FAILED: a.f1310()!=\"B.f1310\""); return 1; }
if (a.f1311() != "B.f1311") { Console.WriteLine("FAILED: a.f1311()!=\"B.f1311\""); return 1; }
if (a.f1312() != "B.f1312") { Console.WriteLine("FAILED: a.f1312()!=\"B.f1312\""); return 1; }
if (a.f1313() != "B.f1313") { Console.WriteLine("FAILED: a.f1313()!=\"B.f1313\""); return 1; }
if (a.f1314() != "B.f1314") { Console.WriteLine("FAILED: a.f1314()!=\"B.f1314\""); return 1; }
if (a.f1315() != "B.f1315") { Console.WriteLine("FAILED: a.f1315()!=\"B.f1315\""); return 1; }
if (a.f1316() != "B.f1316") { Console.WriteLine("FAILED: a.f1316()!=\"B.f1316\""); return 1; }
if (a.f1317() != "B.f1317") { Console.WriteLine("FAILED: a.f1317()!=\"B.f1317\""); return 1; }
if (a.f1318() != "B.f1318") { Console.WriteLine("FAILED: a.f1318()!=\"B.f1318\""); return 1; }
if (a.f1319() != "B.f1319") { Console.WriteLine("FAILED: a.f1319()!=\"B.f1319\""); return 1; }
if (a.f1320() != "B.f1320") { Console.WriteLine("FAILED: a.f1320()!=\"B.f1320\""); return 1; }
if (a.f1321() != "B.f1321") { Console.WriteLine("FAILED: a.f1321()!=\"B.f1321\""); return 1; }
if (a.f1322() != "B.f1322") { Console.WriteLine("FAILED: a.f1322()!=\"B.f1322\""); return 1; }
if (a.f1323() != "B.f1323") { Console.WriteLine("FAILED: a.f1323()!=\"B.f1323\""); return 1; }
if (a.f1324() != "B.f1324") { Console.WriteLine("FAILED: a.f1324()!=\"B.f1324\""); return 1; }
if (a.f1325() != "B.f1325") { Console.WriteLine("FAILED: a.f1325()!=\"B.f1325\""); return 1; }
if (a.f1326() != "B.f1326") { Console.WriteLine("FAILED: a.f1326()!=\"B.f1326\""); return 1; }
if (a.f1327() != "B.f1327") { Console.WriteLine("FAILED: a.f1327()!=\"B.f1327\""); return 1; }
if (a.f1328() != "B.f1328") { Console.WriteLine("FAILED: a.f1328()!=\"B.f1328\""); return 1; }
if (a.f1329() != "B.f1329") { Console.WriteLine("FAILED: a.f1329()!=\"B.f1329\""); return 1; }
if (a.f1330() != "B.f1330") { Console.WriteLine("FAILED: a.f1330()!=\"B.f1330\""); return 1; }
if (a.f1331() != "B.f1331") { Console.WriteLine("FAILED: a.f1331()!=\"B.f1331\""); return 1; }
if (a.f1332() != "B.f1332") { Console.WriteLine("FAILED: a.f1332()!=\"B.f1332\""); return 1; }
if (a.f1333() != "B.f1333") { Console.WriteLine("FAILED: a.f1333()!=\"B.f1333\""); return 1; }
if (a.f1334() != "B.f1334") { Console.WriteLine("FAILED: a.f1334()!=\"B.f1334\""); return 1; }
if (a.f1335() != "B.f1335") { Console.WriteLine("FAILED: a.f1335()!=\"B.f1335\""); return 1; }
if (a.f1336() != "B.f1336") { Console.WriteLine("FAILED: a.f1336()!=\"B.f1336\""); return 1; }
if (a.f1337() != "B.f1337") { Console.WriteLine("FAILED: a.f1337()!=\"B.f1337\""); return 1; }
if (a.f1338() != "B.f1338") { Console.WriteLine("FAILED: a.f1338()!=\"B.f1338\""); return 1; }
if (a.f1339() != "B.f1339") { Console.WriteLine("FAILED: a.f1339()!=\"B.f1339\""); return 1; }
if (a.f1340() != "B.f1340") { Console.WriteLine("FAILED: a.f1340()!=\"B.f1340\""); return 1; }
if (a.f1341() != "B.f1341") { Console.WriteLine("FAILED: a.f1341()!=\"B.f1341\""); return 1; }
if (a.f1342() != "B.f1342") { Console.WriteLine("FAILED: a.f1342()!=\"B.f1342\""); return 1; }
if (a.f1343() != "B.f1343") { Console.WriteLine("FAILED: a.f1343()!=\"B.f1343\""); return 1; }
if (a.f1344() != "B.f1344") { Console.WriteLine("FAILED: a.f1344()!=\"B.f1344\""); return 1; }
if (a.f1345() != "B.f1345") { Console.WriteLine("FAILED: a.f1345()!=\"B.f1345\""); return 1; }
if (a.f1346() != "B.f1346") { Console.WriteLine("FAILED: a.f1346()!=\"B.f1346\""); return 1; }
if (a.f1347() != "B.f1347") { Console.WriteLine("FAILED: a.f1347()!=\"B.f1347\""); return 1; }
if (a.f1348() != "B.f1348") { Console.WriteLine("FAILED: a.f1348()!=\"B.f1348\""); return 1; }
if (a.f1349() != "B.f1349") { Console.WriteLine("FAILED: a.f1349()!=\"B.f1349\""); return 1; }
if (a.f1350() != "B.f1350") { Console.WriteLine("FAILED: a.f1350()!=\"B.f1350\""); return 1; }
if (a.f1351() != "B.f1351") { Console.WriteLine("FAILED: a.f1351()!=\"B.f1351\""); return 1; }
if (a.f1352() != "B.f1352") { Console.WriteLine("FAILED: a.f1352()!=\"B.f1352\""); return 1; }
if (a.f1353() != "B.f1353") { Console.WriteLine("FAILED: a.f1353()!=\"B.f1353\""); return 1; }
if (a.f1354() != "B.f1354") { Console.WriteLine("FAILED: a.f1354()!=\"B.f1354\""); return 1; }
if (a.f1355() != "B.f1355") { Console.WriteLine("FAILED: a.f1355()!=\"B.f1355\""); return 1; }
if (a.f1356() != "B.f1356") { Console.WriteLine("FAILED: a.f1356()!=\"B.f1356\""); return 1; }
if (a.f1357() != "B.f1357") { Console.WriteLine("FAILED: a.f1357()!=\"B.f1357\""); return 1; }
if (a.f1358() != "B.f1358") { Console.WriteLine("FAILED: a.f1358()!=\"B.f1358\""); return 1; }
if (a.f1359() != "B.f1359") { Console.WriteLine("FAILED: a.f1359()!=\"B.f1359\""); return 1; }
if (a.f1360() != "B.f1360") { Console.WriteLine("FAILED: a.f1360()!=\"B.f1360\""); return 1; }
if (a.f1361() != "B.f1361") { Console.WriteLine("FAILED: a.f1361()!=\"B.f1361\""); return 1; }
if (a.f1362() != "B.f1362") { Console.WriteLine("FAILED: a.f1362()!=\"B.f1362\""); return 1; }
if (a.f1363() != "B.f1363") { Console.WriteLine("FAILED: a.f1363()!=\"B.f1363\""); return 1; }
if (a.f1364() != "B.f1364") { Console.WriteLine("FAILED: a.f1364()!=\"B.f1364\""); return 1; }
if (a.f1365() != "B.f1365") { Console.WriteLine("FAILED: a.f1365()!=\"B.f1365\""); return 1; }
if (a.f1366() != "B.f1366") { Console.WriteLine("FAILED: a.f1366()!=\"B.f1366\""); return 1; }
if (a.f1367() != "B.f1367") { Console.WriteLine("FAILED: a.f1367()!=\"B.f1367\""); return 1; }
if (a.f1368() != "B.f1368") { Console.WriteLine("FAILED: a.f1368()!=\"B.f1368\""); return 1; }
if (a.f1369() != "B.f1369") { Console.WriteLine("FAILED: a.f1369()!=\"B.f1369\""); return 1; }
if (a.f1370() != "B.f1370") { Console.WriteLine("FAILED: a.f1370()!=\"B.f1370\""); return 1; }
if (a.f1371() != "B.f1371") { Console.WriteLine("FAILED: a.f1371()!=\"B.f1371\""); return 1; }
if (a.f1372() != "B.f1372") { Console.WriteLine("FAILED: a.f1372()!=\"B.f1372\""); return 1; }
if (a.f1373() != "B.f1373") { Console.WriteLine("FAILED: a.f1373()!=\"B.f1373\""); return 1; }
if (a.f1374() != "B.f1374") { Console.WriteLine("FAILED: a.f1374()!=\"B.f1374\""); return 1; }
if (a.f1375() != "B.f1375") { Console.WriteLine("FAILED: a.f1375()!=\"B.f1375\""); return 1; }
if (a.f1376() != "B.f1376") { Console.WriteLine("FAILED: a.f1376()!=\"B.f1376\""); return 1; }
if (a.f1377() != "B.f1377") { Console.WriteLine("FAILED: a.f1377()!=\"B.f1377\""); return 1; }
if (a.f1378() != "B.f1378") { Console.WriteLine("FAILED: a.f1378()!=\"B.f1378\""); return 1; }
if (a.f1379() != "B.f1379") { Console.WriteLine("FAILED: a.f1379()!=\"B.f1379\""); return 1; }
if (a.f1380() != "B.f1380") { Console.WriteLine("FAILED: a.f1380()!=\"B.f1380\""); return 1; }
if (a.f1381() != "B.f1381") { Console.WriteLine("FAILED: a.f1381()!=\"B.f1381\""); return 1; }
if (a.f1382() != "B.f1382") { Console.WriteLine("FAILED: a.f1382()!=\"B.f1382\""); return 1; }
if (a.f1383() != "B.f1383") { Console.WriteLine("FAILED: a.f1383()!=\"B.f1383\""); return 1; }
if (a.f1384() != "B.f1384") { Console.WriteLine("FAILED: a.f1384()!=\"B.f1384\""); return 1; }
if (a.f1385() != "B.f1385") { Console.WriteLine("FAILED: a.f1385()!=\"B.f1385\""); return 1; }
if (a.f1386() != "B.f1386") { Console.WriteLine("FAILED: a.f1386()!=\"B.f1386\""); return 1; }
if (a.f1387() != "B.f1387") { Console.WriteLine("FAILED: a.f1387()!=\"B.f1387\""); return 1; }
if (a.f1388() != "B.f1388") { Console.WriteLine("FAILED: a.f1388()!=\"B.f1388\""); return 1; }
if (a.f1389() != "B.f1389") { Console.WriteLine("FAILED: a.f1389()!=\"B.f1389\""); return 1; }
if (a.f1390() != "B.f1390") { Console.WriteLine("FAILED: a.f1390()!=\"B.f1390\""); return 1; }
if (a.f1391() != "B.f1391") { Console.WriteLine("FAILED: a.f1391()!=\"B.f1391\""); return 1; }
if (a.f1392() != "B.f1392") { Console.WriteLine("FAILED: a.f1392()!=\"B.f1392\""); return 1; }
if (a.f1393() != "B.f1393") { Console.WriteLine("FAILED: a.f1393()!=\"B.f1393\""); return 1; }
if (a.f1394() != "B.f1394") { Console.WriteLine("FAILED: a.f1394()!=\"B.f1394\""); return 1; }
if (a.f1395() != "B.f1395") { Console.WriteLine("FAILED: a.f1395()!=\"B.f1395\""); return 1; }
if (a.f1396() != "B.f1396") { Console.WriteLine("FAILED: a.f1396()!=\"B.f1396\""); return 1; }
if (a.f1397() != "B.f1397") { Console.WriteLine("FAILED: a.f1397()!=\"B.f1397\""); return 1; }
if (a.f1398() != "B.f1398") { Console.WriteLine("FAILED: a.f1398()!=\"B.f1398\""); return 1; }
if (a.f1399() != "B.f1399") { Console.WriteLine("FAILED: a.f1399()!=\"B.f1399\""); return 1; }
if (a.f1400() != "B.f1400") { Console.WriteLine("FAILED: a.f1400()!=\"B.f1400\""); return 1; }
if (a.f1401() != "B.f1401") { Console.WriteLine("FAILED: a.f1401()!=\"B.f1401\""); return 1; }
if (a.f1402() != "B.f1402") { Console.WriteLine("FAILED: a.f1402()!=\"B.f1402\""); return 1; }
if (a.f1403() != "B.f1403") { Console.WriteLine("FAILED: a.f1403()!=\"B.f1403\""); return 1; }
if (a.f1404() != "B.f1404") { Console.WriteLine("FAILED: a.f1404()!=\"B.f1404\""); return 1; }
if (a.f1405() != "B.f1405") { Console.WriteLine("FAILED: a.f1405()!=\"B.f1405\""); return 1; }
if (a.f1406() != "B.f1406") { Console.WriteLine("FAILED: a.f1406()!=\"B.f1406\""); return 1; }
if (a.f1407() != "B.f1407") { Console.WriteLine("FAILED: a.f1407()!=\"B.f1407\""); return 1; }
if (a.f1408() != "B.f1408") { Console.WriteLine("FAILED: a.f1408()!=\"B.f1408\""); return 1; }
if (a.f1409() != "B.f1409") { Console.WriteLine("FAILED: a.f1409()!=\"B.f1409\""); return 1; }
if (a.f1410() != "B.f1410") { Console.WriteLine("FAILED: a.f1410()!=\"B.f1410\""); return 1; }
if (a.f1411() != "B.f1411") { Console.WriteLine("FAILED: a.f1411()!=\"B.f1411\""); return 1; }
if (a.f1412() != "B.f1412") { Console.WriteLine("FAILED: a.f1412()!=\"B.f1412\""); return 1; }
if (a.f1413() != "B.f1413") { Console.WriteLine("FAILED: a.f1413()!=\"B.f1413\""); return 1; }
if (a.f1414() != "B.f1414") { Console.WriteLine("FAILED: a.f1414()!=\"B.f1414\""); return 1; }
if (a.f1415() != "B.f1415") { Console.WriteLine("FAILED: a.f1415()!=\"B.f1415\""); return 1; }
if (a.f1416() != "B.f1416") { Console.WriteLine("FAILED: a.f1416()!=\"B.f1416\""); return 1; }
if (a.f1417() != "B.f1417") { Console.WriteLine("FAILED: a.f1417()!=\"B.f1417\""); return 1; }
if (a.f1418() != "B.f1418") { Console.WriteLine("FAILED: a.f1418()!=\"B.f1418\""); return 1; }
if (a.f1419() != "B.f1419") { Console.WriteLine("FAILED: a.f1419()!=\"B.f1419\""); return 1; }
if (a.f1420() != "B.f1420") { Console.WriteLine("FAILED: a.f1420()!=\"B.f1420\""); return 1; }
if (a.f1421() != "B.f1421") { Console.WriteLine("FAILED: a.f1421()!=\"B.f1421\""); return 1; }
if (a.f1422() != "B.f1422") { Console.WriteLine("FAILED: a.f1422()!=\"B.f1422\""); return 1; }
if (a.f1423() != "B.f1423") { Console.WriteLine("FAILED: a.f1423()!=\"B.f1423\""); return 1; }
if (a.f1424() != "B.f1424") { Console.WriteLine("FAILED: a.f1424()!=\"B.f1424\""); return 1; }
if (a.f1425() != "B.f1425") { Console.WriteLine("FAILED: a.f1425()!=\"B.f1425\""); return 1; }
if (a.f1426() != "B.f1426") { Console.WriteLine("FAILED: a.f1426()!=\"B.f1426\""); return 1; }
if (a.f1427() != "B.f1427") { Console.WriteLine("FAILED: a.f1427()!=\"B.f1427\""); return 1; }
if (a.f1428() != "B.f1428") { Console.WriteLine("FAILED: a.f1428()!=\"B.f1428\""); return 1; }
if (a.f1429() != "B.f1429") { Console.WriteLine("FAILED: a.f1429()!=\"B.f1429\""); return 1; }
if (a.f1430() != "B.f1430") { Console.WriteLine("FAILED: a.f1430()!=\"B.f1430\""); return 1; }
if (a.f1431() != "B.f1431") { Console.WriteLine("FAILED: a.f1431()!=\"B.f1431\""); return 1; }
if (a.f1432() != "B.f1432") { Console.WriteLine("FAILED: a.f1432()!=\"B.f1432\""); return 1; }
if (a.f1433() != "B.f1433") { Console.WriteLine("FAILED: a.f1433()!=\"B.f1433\""); return 1; }
if (a.f1434() != "B.f1434") { Console.WriteLine("FAILED: a.f1434()!=\"B.f1434\""); return 1; }
if (a.f1435() != "B.f1435") { Console.WriteLine("FAILED: a.f1435()!=\"B.f1435\""); return 1; }
if (a.f1436() != "B.f1436") { Console.WriteLine("FAILED: a.f1436()!=\"B.f1436\""); return 1; }
if (a.f1437() != "B.f1437") { Console.WriteLine("FAILED: a.f1437()!=\"B.f1437\""); return 1; }
if (a.f1438() != "B.f1438") { Console.WriteLine("FAILED: a.f1438()!=\"B.f1438\""); return 1; }
if (a.f1439() != "B.f1439") { Console.WriteLine("FAILED: a.f1439()!=\"B.f1439\""); return 1; }
if (a.f1440() != "B.f1440") { Console.WriteLine("FAILED: a.f1440()!=\"B.f1440\""); return 1; }
if (a.f1441() != "B.f1441") { Console.WriteLine("FAILED: a.f1441()!=\"B.f1441\""); return 1; }
if (a.f1442() != "B.f1442") { Console.WriteLine("FAILED: a.f1442()!=\"B.f1442\""); return 1; }
if (a.f1443() != "B.f1443") { Console.WriteLine("FAILED: a.f1443()!=\"B.f1443\""); return 1; }
if (a.f1444() != "B.f1444") { Console.WriteLine("FAILED: a.f1444()!=\"B.f1444\""); return 1; }
if (a.f1445() != "B.f1445") { Console.WriteLine("FAILED: a.f1445()!=\"B.f1445\""); return 1; }
if (a.f1446() != "B.f1446") { Console.WriteLine("FAILED: a.f1446()!=\"B.f1446\""); return 1; }
if (a.f1447() != "B.f1447") { Console.WriteLine("FAILED: a.f1447()!=\"B.f1447\""); return 1; }
if (a.f1448() != "B.f1448") { Console.WriteLine("FAILED: a.f1448()!=\"B.f1448\""); return 1; }
if (a.f1449() != "B.f1449") { Console.WriteLine("FAILED: a.f1449()!=\"B.f1449\""); return 1; }
if (a.f1450() != "B.f1450") { Console.WriteLine("FAILED: a.f1450()!=\"B.f1450\""); return 1; }
if (a.f1451() != "B.f1451") { Console.WriteLine("FAILED: a.f1451()!=\"B.f1451\""); return 1; }
if (a.f1452() != "B.f1452") { Console.WriteLine("FAILED: a.f1452()!=\"B.f1452\""); return 1; }
if (a.f1453() != "B.f1453") { Console.WriteLine("FAILED: a.f1453()!=\"B.f1453\""); return 1; }
if (a.f1454() != "B.f1454") { Console.WriteLine("FAILED: a.f1454()!=\"B.f1454\""); return 1; }
if (a.f1455() != "B.f1455") { Console.WriteLine("FAILED: a.f1455()!=\"B.f1455\""); return 1; }
if (a.f1456() != "B.f1456") { Console.WriteLine("FAILED: a.f1456()!=\"B.f1456\""); return 1; }
if (a.f1457() != "B.f1457") { Console.WriteLine("FAILED: a.f1457()!=\"B.f1457\""); return 1; }
if (a.f1458() != "B.f1458") { Console.WriteLine("FAILED: a.f1458()!=\"B.f1458\""); return 1; }
if (a.f1459() != "B.f1459") { Console.WriteLine("FAILED: a.f1459()!=\"B.f1459\""); return 1; }
if (a.f1460() != "B.f1460") { Console.WriteLine("FAILED: a.f1460()!=\"B.f1460\""); return 1; }
if (a.f1461() != "B.f1461") { Console.WriteLine("FAILED: a.f1461()!=\"B.f1461\""); return 1; }
if (a.f1462() != "B.f1462") { Console.WriteLine("FAILED: a.f1462()!=\"B.f1462\""); return 1; }
if (a.f1463() != "B.f1463") { Console.WriteLine("FAILED: a.f1463()!=\"B.f1463\""); return 1; }
if (a.f1464() != "B.f1464") { Console.WriteLine("FAILED: a.f1464()!=\"B.f1464\""); return 1; }
if (a.f1465() != "B.f1465") { Console.WriteLine("FAILED: a.f1465()!=\"B.f1465\""); return 1; }
if (a.f1466() != "B.f1466") { Console.WriteLine("FAILED: a.f1466()!=\"B.f1466\""); return 1; }
if (a.f1467() != "B.f1467") { Console.WriteLine("FAILED: a.f1467()!=\"B.f1467\""); return 1; }
if (a.f1468() != "B.f1468") { Console.WriteLine("FAILED: a.f1468()!=\"B.f1468\""); return 1; }
if (a.f1469() != "B.f1469") { Console.WriteLine("FAILED: a.f1469()!=\"B.f1469\""); return 1; }
if (a.f1470() != "B.f1470") { Console.WriteLine("FAILED: a.f1470()!=\"B.f1470\""); return 1; }
if (a.f1471() != "B.f1471") { Console.WriteLine("FAILED: a.f1471()!=\"B.f1471\""); return 1; }
if (a.f1472() != "B.f1472") { Console.WriteLine("FAILED: a.f1472()!=\"B.f1472\""); return 1; }
if (a.f1473() != "B.f1473") { Console.WriteLine("FAILED: a.f1473()!=\"B.f1473\""); return 1; }
if (a.f1474() != "B.f1474") { Console.WriteLine("FAILED: a.f1474()!=\"B.f1474\""); return 1; }
if (a.f1475() != "B.f1475") { Console.WriteLine("FAILED: a.f1475()!=\"B.f1475\""); return 1; }
if (a.f1476() != "B.f1476") { Console.WriteLine("FAILED: a.f1476()!=\"B.f1476\""); return 1; }
if (a.f1477() != "B.f1477") { Console.WriteLine("FAILED: a.f1477()!=\"B.f1477\""); return 1; }
if (a.f1478() != "B.f1478") { Console.WriteLine("FAILED: a.f1478()!=\"B.f1478\""); return 1; }
if (a.f1479() != "B.f1479") { Console.WriteLine("FAILED: a.f1479()!=\"B.f1479\""); return 1; }
if (a.f1480() != "B.f1480") { Console.WriteLine("FAILED: a.f1480()!=\"B.f1480\""); return 1; }
if (a.f1481() != "B.f1481") { Console.WriteLine("FAILED: a.f1481()!=\"B.f1481\""); return 1; }
if (a.f1482() != "B.f1482") { Console.WriteLine("FAILED: a.f1482()!=\"B.f1482\""); return 1; }
if (a.f1483() != "B.f1483") { Console.WriteLine("FAILED: a.f1483()!=\"B.f1483\""); return 1; }
if (a.f1484() != "B.f1484") { Console.WriteLine("FAILED: a.f1484()!=\"B.f1484\""); return 1; }
if (a.f1485() != "B.f1485") { Console.WriteLine("FAILED: a.f1485()!=\"B.f1485\""); return 1; }
if (a.f1486() != "B.f1486") { Console.WriteLine("FAILED: a.f1486()!=\"B.f1486\""); return 1; }
if (a.f1487() != "B.f1487") { Console.WriteLine("FAILED: a.f1487()!=\"B.f1487\""); return 1; }
if (a.f1488() != "B.f1488") { Console.WriteLine("FAILED: a.f1488()!=\"B.f1488\""); return 1; }
if (a.f1489() != "B.f1489") { Console.WriteLine("FAILED: a.f1489()!=\"B.f1489\""); return 1; }
if (a.f1490() != "B.f1490") { Console.WriteLine("FAILED: a.f1490()!=\"B.f1490\""); return 1; }
if (a.f1491() != "B.f1491") { Console.WriteLine("FAILED: a.f1491()!=\"B.f1491\""); return 1; }
if (a.f1492() != "B.f1492") { Console.WriteLine("FAILED: a.f1492()!=\"B.f1492\""); return 1; }
if (a.f1493() != "B.f1493") { Console.WriteLine("FAILED: a.f1493()!=\"B.f1493\""); return 1; }
if (a.f1494() != "B.f1494") { Console.WriteLine("FAILED: a.f1494()!=\"B.f1494\""); return 1; }
if (a.f1495() != "B.f1495") { Console.WriteLine("FAILED: a.f1495()!=\"B.f1495\""); return 1; }
if (a.f1496() != "B.f1496") { Console.WriteLine("FAILED: a.f1496()!=\"B.f1496\""); return 1; }
if (a.f1497() != "B.f1497") { Console.WriteLine("FAILED: a.f1497()!=\"B.f1497\""); return 1; }
if (a.f1498() != "B.f1498") { Console.WriteLine("FAILED: a.f1498()!=\"B.f1498\""); return 1; }
if (a.f1499() != "B.f1499") { Console.WriteLine("FAILED: a.f1499()!=\"B.f1499\""); return 1; }
if (a.f1500() != "B.f1500") { Console.WriteLine("FAILED: a.f1500()!=\"B.f1500\""); return 1; }
if (a.f1501() != "B.f1501") { Console.WriteLine("FAILED: a.f1501()!=\"B.f1501\""); return 1; }
if (a.f1502() != "B.f1502") { Console.WriteLine("FAILED: a.f1502()!=\"B.f1502\""); return 1; }
if (a.f1503() != "B.f1503") { Console.WriteLine("FAILED: a.f1503()!=\"B.f1503\""); return 1; }
if (a.f1504() != "B.f1504") { Console.WriteLine("FAILED: a.f1504()!=\"B.f1504\""); return 1; }
if (a.f1505() != "B.f1505") { Console.WriteLine("FAILED: a.f1505()!=\"B.f1505\""); return 1; }
if (a.f1506() != "B.f1506") { Console.WriteLine("FAILED: a.f1506()!=\"B.f1506\""); return 1; }
if (a.f1507() != "B.f1507") { Console.WriteLine("FAILED: a.f1507()!=\"B.f1507\""); return 1; }
if (a.f1508() != "B.f1508") { Console.WriteLine("FAILED: a.f1508()!=\"B.f1508\""); return 1; }
if (a.f1509() != "B.f1509") { Console.WriteLine("FAILED: a.f1509()!=\"B.f1509\""); return 1; }
if (a.f1510() != "B.f1510") { Console.WriteLine("FAILED: a.f1510()!=\"B.f1510\""); return 1; }
if (a.f1511() != "B.f1511") { Console.WriteLine("FAILED: a.f1511()!=\"B.f1511\""); return 1; }
if (a.f1512() != "B.f1512") { Console.WriteLine("FAILED: a.f1512()!=\"B.f1512\""); return 1; }
if (a.f1513() != "B.f1513") { Console.WriteLine("FAILED: a.f1513()!=\"B.f1513\""); return 1; }
if (a.f1514() != "B.f1514") { Console.WriteLine("FAILED: a.f1514()!=\"B.f1514\""); return 1; }
if (a.f1515() != "B.f1515") { Console.WriteLine("FAILED: a.f1515()!=\"B.f1515\""); return 1; }
if (a.f1516() != "B.f1516") { Console.WriteLine("FAILED: a.f1516()!=\"B.f1516\""); return 1; }
if (a.f1517() != "B.f1517") { Console.WriteLine("FAILED: a.f1517()!=\"B.f1517\""); return 1; }
if (a.f1518() != "B.f1518") { Console.WriteLine("FAILED: a.f1518()!=\"B.f1518\""); return 1; }
if (a.f1519() != "B.f1519") { Console.WriteLine("FAILED: a.f1519()!=\"B.f1519\""); return 1; }
if (a.f1520() != "B.f1520") { Console.WriteLine("FAILED: a.f1520()!=\"B.f1520\""); return 1; }
if (a.f1521() != "B.f1521") { Console.WriteLine("FAILED: a.f1521()!=\"B.f1521\""); return 1; }
if (a.f1522() != "B.f1522") { Console.WriteLine("FAILED: a.f1522()!=\"B.f1522\""); return 1; }
if (a.f1523() != "B.f1523") { Console.WriteLine("FAILED: a.f1523()!=\"B.f1523\""); return 1; }
if (a.f1524() != "B.f1524") { Console.WriteLine("FAILED: a.f1524()!=\"B.f1524\""); return 1; }
if (a.f1525() != "B.f1525") { Console.WriteLine("FAILED: a.f1525()!=\"B.f1525\""); return 1; }
if (a.f1526() != "B.f1526") { Console.WriteLine("FAILED: a.f1526()!=\"B.f1526\""); return 1; }
if (a.f1527() != "B.f1527") { Console.WriteLine("FAILED: a.f1527()!=\"B.f1527\""); return 1; }
if (a.f1528() != "B.f1528") { Console.WriteLine("FAILED: a.f1528()!=\"B.f1528\""); return 1; }
if (a.f1529() != "B.f1529") { Console.WriteLine("FAILED: a.f1529()!=\"B.f1529\""); return 1; }
if (a.f1530() != "B.f1530") { Console.WriteLine("FAILED: a.f1530()!=\"B.f1530\""); return 1; }
if (a.f1531() != "B.f1531") { Console.WriteLine("FAILED: a.f1531()!=\"B.f1531\""); return 1; }
if (a.f1532() != "B.f1532") { Console.WriteLine("FAILED: a.f1532()!=\"B.f1532\""); return 1; }
if (a.f1533() != "B.f1533") { Console.WriteLine("FAILED: a.f1533()!=\"B.f1533\""); return 1; }
if (a.f1534() != "B.f1534") { Console.WriteLine("FAILED: a.f1534()!=\"B.f1534\""); return 1; }
if (a.f1535() != "B.f1535") { Console.WriteLine("FAILED: a.f1535()!=\"B.f1535\""); return 1; }
if (a.f1536() != "B.f1536") { Console.WriteLine("FAILED: a.f1536()!=\"B.f1536\""); return 1; }
if (a.f1537() != "B.f1537") { Console.WriteLine("FAILED: a.f1537()!=\"B.f1537\""); return 1; }
if (a.f1538() != "B.f1538") { Console.WriteLine("FAILED: a.f1538()!=\"B.f1538\""); return 1; }
if (a.f1539() != "B.f1539") { Console.WriteLine("FAILED: a.f1539()!=\"B.f1539\""); return 1; }
if (a.f1540() != "B.f1540") { Console.WriteLine("FAILED: a.f1540()!=\"B.f1540\""); return 1; }
if (a.f1541() != "B.f1541") { Console.WriteLine("FAILED: a.f1541()!=\"B.f1541\""); return 1; }
if (a.f1542() != "B.f1542") { Console.WriteLine("FAILED: a.f1542()!=\"B.f1542\""); return 1; }
if (a.f1543() != "B.f1543") { Console.WriteLine("FAILED: a.f1543()!=\"B.f1543\""); return 1; }
if (a.f1544() != "B.f1544") { Console.WriteLine("FAILED: a.f1544()!=\"B.f1544\""); return 1; }
if (a.f1545() != "B.f1545") { Console.WriteLine("FAILED: a.f1545()!=\"B.f1545\""); return 1; }
if (a.f1546() != "B.f1546") { Console.WriteLine("FAILED: a.f1546()!=\"B.f1546\""); return 1; }
if (a.f1547() != "B.f1547") { Console.WriteLine("FAILED: a.f1547()!=\"B.f1547\""); return 1; }
if (a.f1548() != "B.f1548") { Console.WriteLine("FAILED: a.f1548()!=\"B.f1548\""); return 1; }
if (a.f1549() != "B.f1549") { Console.WriteLine("FAILED: a.f1549()!=\"B.f1549\""); return 1; }
if (a.f1550() != "B.f1550") { Console.WriteLine("FAILED: a.f1550()!=\"B.f1550\""); return 1; }
if (a.f1551() != "B.f1551") { Console.WriteLine("FAILED: a.f1551()!=\"B.f1551\""); return 1; }
if (a.f1552() != "B.f1552") { Console.WriteLine("FAILED: a.f1552()!=\"B.f1552\""); return 1; }
if (a.f1553() != "B.f1553") { Console.WriteLine("FAILED: a.f1553()!=\"B.f1553\""); return 1; }
if (a.f1554() != "B.f1554") { Console.WriteLine("FAILED: a.f1554()!=\"B.f1554\""); return 1; }
if (a.f1555() != "B.f1555") { Console.WriteLine("FAILED: a.f1555()!=\"B.f1555\""); return 1; }
if (a.f1556() != "B.f1556") { Console.WriteLine("FAILED: a.f1556()!=\"B.f1556\""); return 1; }
if (a.f1557() != "B.f1557") { Console.WriteLine("FAILED: a.f1557()!=\"B.f1557\""); return 1; }
if (a.f1558() != "B.f1558") { Console.WriteLine("FAILED: a.f1558()!=\"B.f1558\""); return 1; }
if (a.f1559() != "B.f1559") { Console.WriteLine("FAILED: a.f1559()!=\"B.f1559\""); return 1; }
if (a.f1560() != "B.f1560") { Console.WriteLine("FAILED: a.f1560()!=\"B.f1560\""); return 1; }
if (a.f1561() != "B.f1561") { Console.WriteLine("FAILED: a.f1561()!=\"B.f1561\""); return 1; }
if (a.f1562() != "B.f1562") { Console.WriteLine("FAILED: a.f1562()!=\"B.f1562\""); return 1; }
if (a.f1563() != "B.f1563") { Console.WriteLine("FAILED: a.f1563()!=\"B.f1563\""); return 1; }
if (a.f1564() != "B.f1564") { Console.WriteLine("FAILED: a.f1564()!=\"B.f1564\""); return 1; }
if (a.f1565() != "B.f1565") { Console.WriteLine("FAILED: a.f1565()!=\"B.f1565\""); return 1; }
if (a.f1566() != "B.f1566") { Console.WriteLine("FAILED: a.f1566()!=\"B.f1566\""); return 1; }
if (a.f1567() != "B.f1567") { Console.WriteLine("FAILED: a.f1567()!=\"B.f1567\""); return 1; }
if (a.f1568() != "B.f1568") { Console.WriteLine("FAILED: a.f1568()!=\"B.f1568\""); return 1; }
if (a.f1569() != "B.f1569") { Console.WriteLine("FAILED: a.f1569()!=\"B.f1569\""); return 1; }
if (a.f1570() != "B.f1570") { Console.WriteLine("FAILED: a.f1570()!=\"B.f1570\""); return 1; }
if (a.f1571() != "B.f1571") { Console.WriteLine("FAILED: a.f1571()!=\"B.f1571\""); return 1; }
if (a.f1572() != "B.f1572") { Console.WriteLine("FAILED: a.f1572()!=\"B.f1572\""); return 1; }
if (a.f1573() != "B.f1573") { Console.WriteLine("FAILED: a.f1573()!=\"B.f1573\""); return 1; }
if (a.f1574() != "B.f1574") { Console.WriteLine("FAILED: a.f1574()!=\"B.f1574\""); return 1; }
if (a.f1575() != "B.f1575") { Console.WriteLine("FAILED: a.f1575()!=\"B.f1575\""); return 1; }
if (a.f1576() != "B.f1576") { Console.WriteLine("FAILED: a.f1576()!=\"B.f1576\""); return 1; }
if (a.f1577() != "B.f1577") { Console.WriteLine("FAILED: a.f1577()!=\"B.f1577\""); return 1; }
if (a.f1578() != "B.f1578") { Console.WriteLine("FAILED: a.f1578()!=\"B.f1578\""); return 1; }
if (a.f1579() != "B.f1579") { Console.WriteLine("FAILED: a.f1579()!=\"B.f1579\""); return 1; }
if (a.f1580() != "B.f1580") { Console.WriteLine("FAILED: a.f1580()!=\"B.f1580\""); return 1; }
if (a.f1581() != "B.f1581") { Console.WriteLine("FAILED: a.f1581()!=\"B.f1581\""); return 1; }
if (a.f1582() != "B.f1582") { Console.WriteLine("FAILED: a.f1582()!=\"B.f1582\""); return 1; }
if (a.f1583() != "B.f1583") { Console.WriteLine("FAILED: a.f1583()!=\"B.f1583\""); return 1; }
if (a.f1584() != "B.f1584") { Console.WriteLine("FAILED: a.f1584()!=\"B.f1584\""); return 1; }
if (a.f1585() != "B.f1585") { Console.WriteLine("FAILED: a.f1585()!=\"B.f1585\""); return 1; }
if (a.f1586() != "B.f1586") { Console.WriteLine("FAILED: a.f1586()!=\"B.f1586\""); return 1; }
if (a.f1587() != "B.f1587") { Console.WriteLine("FAILED: a.f1587()!=\"B.f1587\""); return 1; }
if (a.f1588() != "B.f1588") { Console.WriteLine("FAILED: a.f1588()!=\"B.f1588\""); return 1; }
if (a.f1589() != "B.f1589") { Console.WriteLine("FAILED: a.f1589()!=\"B.f1589\""); return 1; }
if (a.f1590() != "B.f1590") { Console.WriteLine("FAILED: a.f1590()!=\"B.f1590\""); return 1; }
if (a.f1591() != "B.f1591") { Console.WriteLine("FAILED: a.f1591()!=\"B.f1591\""); return 1; }
if (a.f1592() != "B.f1592") { Console.WriteLine("FAILED: a.f1592()!=\"B.f1592\""); return 1; }
if (a.f1593() != "B.f1593") { Console.WriteLine("FAILED: a.f1593()!=\"B.f1593\""); return 1; }
if (a.f1594() != "B.f1594") { Console.WriteLine("FAILED: a.f1594()!=\"B.f1594\""); return 1; }
if (a.f1595() != "B.f1595") { Console.WriteLine("FAILED: a.f1595()!=\"B.f1595\""); return 1; }
if (a.f1596() != "B.f1596") { Console.WriteLine("FAILED: a.f1596()!=\"B.f1596\""); return 1; }
if (a.f1597() != "B.f1597") { Console.WriteLine("FAILED: a.f1597()!=\"B.f1597\""); return 1; }
if (a.f1598() != "B.f1598") { Console.WriteLine("FAILED: a.f1598()!=\"B.f1598\""); return 1; }
if (a.f1599() != "B.f1599") { Console.WriteLine("FAILED: a.f1599()!=\"B.f1599\""); return 1; }
if (a.f1600() != "B.f1600") { Console.WriteLine("FAILED: a.f1600()!=\"B.f1600\""); return 1; }
if (a.f1601() != "B.f1601") { Console.WriteLine("FAILED: a.f1601()!=\"B.f1601\""); return 1; }
if (a.f1602() != "B.f1602") { Console.WriteLine("FAILED: a.f1602()!=\"B.f1602\""); return 1; }
if (a.f1603() != "B.f1603") { Console.WriteLine("FAILED: a.f1603()!=\"B.f1603\""); return 1; }
if (a.f1604() != "B.f1604") { Console.WriteLine("FAILED: a.f1604()!=\"B.f1604\""); return 1; }
if (a.f1605() != "B.f1605") { Console.WriteLine("FAILED: a.f1605()!=\"B.f1605\""); return 1; }
if (a.f1606() != "B.f1606") { Console.WriteLine("FAILED: a.f1606()!=\"B.f1606\""); return 1; }
if (a.f1607() != "B.f1607") { Console.WriteLine("FAILED: a.f1607()!=\"B.f1607\""); return 1; }
if (a.f1608() != "B.f1608") { Console.WriteLine("FAILED: a.f1608()!=\"B.f1608\""); return 1; }
if (a.f1609() != "B.f1609") { Console.WriteLine("FAILED: a.f1609()!=\"B.f1609\""); return 1; }
if (a.f1610() != "B.f1610") { Console.WriteLine("FAILED: a.f1610()!=\"B.f1610\""); return 1; }
if (a.f1611() != "B.f1611") { Console.WriteLine("FAILED: a.f1611()!=\"B.f1611\""); return 1; }
if (a.f1612() != "B.f1612") { Console.WriteLine("FAILED: a.f1612()!=\"B.f1612\""); return 1; }
if (a.f1613() != "B.f1613") { Console.WriteLine("FAILED: a.f1613()!=\"B.f1613\""); return 1; }
if (a.f1614() != "B.f1614") { Console.WriteLine("FAILED: a.f1614()!=\"B.f1614\""); return 1; }
if (a.f1615() != "B.f1615") { Console.WriteLine("FAILED: a.f1615()!=\"B.f1615\""); return 1; }
if (a.f1616() != "B.f1616") { Console.WriteLine("FAILED: a.f1616()!=\"B.f1616\""); return 1; }
if (a.f1617() != "B.f1617") { Console.WriteLine("FAILED: a.f1617()!=\"B.f1617\""); return 1; }
if (a.f1618() != "B.f1618") { Console.WriteLine("FAILED: a.f1618()!=\"B.f1618\""); return 1; }
if (a.f1619() != "B.f1619") { Console.WriteLine("FAILED: a.f1619()!=\"B.f1619\""); return 1; }
if (a.f1620() != "B.f1620") { Console.WriteLine("FAILED: a.f1620()!=\"B.f1620\""); return 1; }
if (a.f1621() != "B.f1621") { Console.WriteLine("FAILED: a.f1621()!=\"B.f1621\""); return 1; }
if (a.f1622() != "B.f1622") { Console.WriteLine("FAILED: a.f1622()!=\"B.f1622\""); return 1; }
if (a.f1623() != "B.f1623") { Console.WriteLine("FAILED: a.f1623()!=\"B.f1623\""); return 1; }
if (a.f1624() != "B.f1624") { Console.WriteLine("FAILED: a.f1624()!=\"B.f1624\""); return 1; }
if (a.f1625() != "B.f1625") { Console.WriteLine("FAILED: a.f1625()!=\"B.f1625\""); return 1; }
if (a.f1626() != "B.f1626") { Console.WriteLine("FAILED: a.f1626()!=\"B.f1626\""); return 1; }
if (a.f1627() != "B.f1627") { Console.WriteLine("FAILED: a.f1627()!=\"B.f1627\""); return 1; }
if (a.f1628() != "B.f1628") { Console.WriteLine("FAILED: a.f1628()!=\"B.f1628\""); return 1; }
if (a.f1629() != "B.f1629") { Console.WriteLine("FAILED: a.f1629()!=\"B.f1629\""); return 1; }
if (a.f1630() != "B.f1630") { Console.WriteLine("FAILED: a.f1630()!=\"B.f1630\""); return 1; }
if (a.f1631() != "B.f1631") { Console.WriteLine("FAILED: a.f1631()!=\"B.f1631\""); return 1; }
if (a.f1632() != "B.f1632") { Console.WriteLine("FAILED: a.f1632()!=\"B.f1632\""); return 1; }
if (a.f1633() != "B.f1633") { Console.WriteLine("FAILED: a.f1633()!=\"B.f1633\""); return 1; }
if (a.f1634() != "B.f1634") { Console.WriteLine("FAILED: a.f1634()!=\"B.f1634\""); return 1; }
if (a.f1635() != "B.f1635") { Console.WriteLine("FAILED: a.f1635()!=\"B.f1635\""); return 1; }
if (a.f1636() != "B.f1636") { Console.WriteLine("FAILED: a.f1636()!=\"B.f1636\""); return 1; }
if (a.f1637() != "B.f1637") { Console.WriteLine("FAILED: a.f1637()!=\"B.f1637\""); return 1; }
if (a.f1638() != "B.f1638") { Console.WriteLine("FAILED: a.f1638()!=\"B.f1638\""); return 1; }
if (a.f1639() != "B.f1639") { Console.WriteLine("FAILED: a.f1639()!=\"B.f1639\""); return 1; }
if (a.f1640() != "B.f1640") { Console.WriteLine("FAILED: a.f1640()!=\"B.f1640\""); return 1; }
if (a.f1641() != "B.f1641") { Console.WriteLine("FAILED: a.f1641()!=\"B.f1641\""); return 1; }
if (a.f1642() != "B.f1642") { Console.WriteLine("FAILED: a.f1642()!=\"B.f1642\""); return 1; }
if (a.f1643() != "B.f1643") { Console.WriteLine("FAILED: a.f1643()!=\"B.f1643\""); return 1; }
if (a.f1644() != "B.f1644") { Console.WriteLine("FAILED: a.f1644()!=\"B.f1644\""); return 1; }
if (a.f1645() != "B.f1645") { Console.WriteLine("FAILED: a.f1645()!=\"B.f1645\""); return 1; }
if (a.f1646() != "B.f1646") { Console.WriteLine("FAILED: a.f1646()!=\"B.f1646\""); return 1; }
if (a.f1647() != "B.f1647") { Console.WriteLine("FAILED: a.f1647()!=\"B.f1647\""); return 1; }
if (a.f1648() != "B.f1648") { Console.WriteLine("FAILED: a.f1648()!=\"B.f1648\""); return 1; }
if (a.f1649() != "B.f1649") { Console.WriteLine("FAILED: a.f1649()!=\"B.f1649\""); return 1; }
if (a.f1650() != "B.f1650") { Console.WriteLine("FAILED: a.f1650()!=\"B.f1650\""); return 1; }
if (a.f1651() != "B.f1651") { Console.WriteLine("FAILED: a.f1651()!=\"B.f1651\""); return 1; }
if (a.f1652() != "B.f1652") { Console.WriteLine("FAILED: a.f1652()!=\"B.f1652\""); return 1; }
if (a.f1653() != "B.f1653") { Console.WriteLine("FAILED: a.f1653()!=\"B.f1653\""); return 1; }
if (a.f1654() != "B.f1654") { Console.WriteLine("FAILED: a.f1654()!=\"B.f1654\""); return 1; }
if (a.f1655() != "B.f1655") { Console.WriteLine("FAILED: a.f1655()!=\"B.f1655\""); return 1; }
if (a.f1656() != "B.f1656") { Console.WriteLine("FAILED: a.f1656()!=\"B.f1656\""); return 1; }
if (a.f1657() != "B.f1657") { Console.WriteLine("FAILED: a.f1657()!=\"B.f1657\""); return 1; }
if (a.f1658() != "B.f1658") { Console.WriteLine("FAILED: a.f1658()!=\"B.f1658\""); return 1; }
if (a.f1659() != "B.f1659") { Console.WriteLine("FAILED: a.f1659()!=\"B.f1659\""); return 1; }
if (a.f1660() != "B.f1660") { Console.WriteLine("FAILED: a.f1660()!=\"B.f1660\""); return 1; }
if (a.f1661() != "B.f1661") { Console.WriteLine("FAILED: a.f1661()!=\"B.f1661\""); return 1; }
if (a.f1662() != "B.f1662") { Console.WriteLine("FAILED: a.f1662()!=\"B.f1662\""); return 1; }
if (a.f1663() != "B.f1663") { Console.WriteLine("FAILED: a.f1663()!=\"B.f1663\""); return 1; }
if (a.f1664() != "B.f1664") { Console.WriteLine("FAILED: a.f1664()!=\"B.f1664\""); return 1; }
if (a.f1665() != "B.f1665") { Console.WriteLine("FAILED: a.f1665()!=\"B.f1665\""); return 1; }
if (a.f1666() != "B.f1666") { Console.WriteLine("FAILED: a.f1666()!=\"B.f1666\""); return 1; }
if (a.f1667() != "B.f1667") { Console.WriteLine("FAILED: a.f1667()!=\"B.f1667\""); return 1; }
if (a.f1668() != "B.f1668") { Console.WriteLine("FAILED: a.f1668()!=\"B.f1668\""); return 1; }
if (a.f1669() != "B.f1669") { Console.WriteLine("FAILED: a.f1669()!=\"B.f1669\""); return 1; }
if (a.f1670() != "B.f1670") { Console.WriteLine("FAILED: a.f1670()!=\"B.f1670\""); return 1; }
if (a.f1671() != "B.f1671") { Console.WriteLine("FAILED: a.f1671()!=\"B.f1671\""); return 1; }
if (a.f1672() != "B.f1672") { Console.WriteLine("FAILED: a.f1672()!=\"B.f1672\""); return 1; }
if (a.f1673() != "B.f1673") { Console.WriteLine("FAILED: a.f1673()!=\"B.f1673\""); return 1; }
if (a.f1674() != "B.f1674") { Console.WriteLine("FAILED: a.f1674()!=\"B.f1674\""); return 1; }
if (a.f1675() != "B.f1675") { Console.WriteLine("FAILED: a.f1675()!=\"B.f1675\""); return 1; }
if (a.f1676() != "B.f1676") { Console.WriteLine("FAILED: a.f1676()!=\"B.f1676\""); return 1; }
if (a.f1677() != "B.f1677") { Console.WriteLine("FAILED: a.f1677()!=\"B.f1677\""); return 1; }
if (a.f1678() != "B.f1678") { Console.WriteLine("FAILED: a.f1678()!=\"B.f1678\""); return 1; }
if (a.f1679() != "B.f1679") { Console.WriteLine("FAILED: a.f1679()!=\"B.f1679\""); return 1; }
if (a.f1680() != "B.f1680") { Console.WriteLine("FAILED: a.f1680()!=\"B.f1680\""); return 1; }
if (a.f1681() != "B.f1681") { Console.WriteLine("FAILED: a.f1681()!=\"B.f1681\""); return 1; }
if (a.f1682() != "B.f1682") { Console.WriteLine("FAILED: a.f1682()!=\"B.f1682\""); return 1; }
if (a.f1683() != "B.f1683") { Console.WriteLine("FAILED: a.f1683()!=\"B.f1683\""); return 1; }
if (a.f1684() != "B.f1684") { Console.WriteLine("FAILED: a.f1684()!=\"B.f1684\""); return 1; }
if (a.f1685() != "B.f1685") { Console.WriteLine("FAILED: a.f1685()!=\"B.f1685\""); return 1; }
if (a.f1686() != "B.f1686") { Console.WriteLine("FAILED: a.f1686()!=\"B.f1686\""); return 1; }
if (a.f1687() != "B.f1687") { Console.WriteLine("FAILED: a.f1687()!=\"B.f1687\""); return 1; }
if (a.f1688() != "B.f1688") { Console.WriteLine("FAILED: a.f1688()!=\"B.f1688\""); return 1; }
if (a.f1689() != "B.f1689") { Console.WriteLine("FAILED: a.f1689()!=\"B.f1689\""); return 1; }
if (a.f1690() != "B.f1690") { Console.WriteLine("FAILED: a.f1690()!=\"B.f1690\""); return 1; }
if (a.f1691() != "B.f1691") { Console.WriteLine("FAILED: a.f1691()!=\"B.f1691\""); return 1; }
if (a.f1692() != "B.f1692") { Console.WriteLine("FAILED: a.f1692()!=\"B.f1692\""); return 1; }
if (a.f1693() != "B.f1693") { Console.WriteLine("FAILED: a.f1693()!=\"B.f1693\""); return 1; }
if (a.f1694() != "B.f1694") { Console.WriteLine("FAILED: a.f1694()!=\"B.f1694\""); return 1; }
if (a.f1695() != "B.f1695") { Console.WriteLine("FAILED: a.f1695()!=\"B.f1695\""); return 1; }
if (a.f1696() != "B.f1696") { Console.WriteLine("FAILED: a.f1696()!=\"B.f1696\""); return 1; }
if (a.f1697() != "B.f1697") { Console.WriteLine("FAILED: a.f1697()!=\"B.f1697\""); return 1; }
if (a.f1698() != "B.f1698") { Console.WriteLine("FAILED: a.f1698()!=\"B.f1698\""); return 1; }
if (a.f1699() != "B.f1699") { Console.WriteLine("FAILED: a.f1699()!=\"B.f1699\""); return 1; }
if (a.f1700() != "B.f1700") { Console.WriteLine("FAILED: a.f1700()!=\"B.f1700\""); return 1; }
if (a.f1701() != "B.f1701") { Console.WriteLine("FAILED: a.f1701()!=\"B.f1701\""); return 1; }
if (a.f1702() != "B.f1702") { Console.WriteLine("FAILED: a.f1702()!=\"B.f1702\""); return 1; }
if (a.f1703() != "B.f1703") { Console.WriteLine("FAILED: a.f1703()!=\"B.f1703\""); return 1; }
if (a.f1704() != "B.f1704") { Console.WriteLine("FAILED: a.f1704()!=\"B.f1704\""); return 1; }
if (a.f1705() != "B.f1705") { Console.WriteLine("FAILED: a.f1705()!=\"B.f1705\""); return 1; }
if (a.f1706() != "B.f1706") { Console.WriteLine("FAILED: a.f1706()!=\"B.f1706\""); return 1; }
if (a.f1707() != "B.f1707") { Console.WriteLine("FAILED: a.f1707()!=\"B.f1707\""); return 1; }
if (a.f1708() != "B.f1708") { Console.WriteLine("FAILED: a.f1708()!=\"B.f1708\""); return 1; }
if (a.f1709() != "B.f1709") { Console.WriteLine("FAILED: a.f1709()!=\"B.f1709\""); return 1; }
if (a.f1710() != "B.f1710") { Console.WriteLine("FAILED: a.f1710()!=\"B.f1710\""); return 1; }
if (a.f1711() != "B.f1711") { Console.WriteLine("FAILED: a.f1711()!=\"B.f1711\""); return 1; }
if (a.f1712() != "B.f1712") { Console.WriteLine("FAILED: a.f1712()!=\"B.f1712\""); return 1; }
if (a.f1713() != "B.f1713") { Console.WriteLine("FAILED: a.f1713()!=\"B.f1713\""); return 1; }
if (a.f1714() != "B.f1714") { Console.WriteLine("FAILED: a.f1714()!=\"B.f1714\""); return 1; }
if (a.f1715() != "B.f1715") { Console.WriteLine("FAILED: a.f1715()!=\"B.f1715\""); return 1; }
if (a.f1716() != "B.f1716") { Console.WriteLine("FAILED: a.f1716()!=\"B.f1716\""); return 1; }
if (a.f1717() != "B.f1717") { Console.WriteLine("FAILED: a.f1717()!=\"B.f1717\""); return 1; }
if (a.f1718() != "B.f1718") { Console.WriteLine("FAILED: a.f1718()!=\"B.f1718\""); return 1; }
if (a.f1719() != "B.f1719") { Console.WriteLine("FAILED: a.f1719()!=\"B.f1719\""); return 1; }
if (a.f1720() != "B.f1720") { Console.WriteLine("FAILED: a.f1720()!=\"B.f1720\""); return 1; }
if (a.f1721() != "B.f1721") { Console.WriteLine("FAILED: a.f1721()!=\"B.f1721\""); return 1; }
if (a.f1722() != "B.f1722") { Console.WriteLine("FAILED: a.f1722()!=\"B.f1722\""); return 1; }
if (a.f1723() != "B.f1723") { Console.WriteLine("FAILED: a.f1723()!=\"B.f1723\""); return 1; }
if (a.f1724() != "B.f1724") { Console.WriteLine("FAILED: a.f1724()!=\"B.f1724\""); return 1; }
if (a.f1725() != "B.f1725") { Console.WriteLine("FAILED: a.f1725()!=\"B.f1725\""); return 1; }
if (a.f1726() != "B.f1726") { Console.WriteLine("FAILED: a.f1726()!=\"B.f1726\""); return 1; }
if (a.f1727() != "B.f1727") { Console.WriteLine("FAILED: a.f1727()!=\"B.f1727\""); return 1; }
if (a.f1728() != "B.f1728") { Console.WriteLine("FAILED: a.f1728()!=\"B.f1728\""); return 1; }
if (a.f1729() != "B.f1729") { Console.WriteLine("FAILED: a.f1729()!=\"B.f1729\""); return 1; }
if (a.f1730() != "B.f1730") { Console.WriteLine("FAILED: a.f1730()!=\"B.f1730\""); return 1; }
if (a.f1731() != "B.f1731") { Console.WriteLine("FAILED: a.f1731()!=\"B.f1731\""); return 1; }
if (a.f1732() != "B.f1732") { Console.WriteLine("FAILED: a.f1732()!=\"B.f1732\""); return 1; }
if (a.f1733() != "B.f1733") { Console.WriteLine("FAILED: a.f1733()!=\"B.f1733\""); return 1; }
if (a.f1734() != "B.f1734") { Console.WriteLine("FAILED: a.f1734()!=\"B.f1734\""); return 1; }
if (a.f1735() != "B.f1735") { Console.WriteLine("FAILED: a.f1735()!=\"B.f1735\""); return 1; }
if (a.f1736() != "B.f1736") { Console.WriteLine("FAILED: a.f1736()!=\"B.f1736\""); return 1; }
if (a.f1737() != "B.f1737") { Console.WriteLine("FAILED: a.f1737()!=\"B.f1737\""); return 1; }
if (a.f1738() != "B.f1738") { Console.WriteLine("FAILED: a.f1738()!=\"B.f1738\""); return 1; }
if (a.f1739() != "B.f1739") { Console.WriteLine("FAILED: a.f1739()!=\"B.f1739\""); return 1; }
if (a.f1740() != "B.f1740") { Console.WriteLine("FAILED: a.f1740()!=\"B.f1740\""); return 1; }
if (a.f1741() != "B.f1741") { Console.WriteLine("FAILED: a.f1741()!=\"B.f1741\""); return 1; }
if (a.f1742() != "B.f1742") { Console.WriteLine("FAILED: a.f1742()!=\"B.f1742\""); return 1; }
if (a.f1743() != "B.f1743") { Console.WriteLine("FAILED: a.f1743()!=\"B.f1743\""); return 1; }
if (a.f1744() != "B.f1744") { Console.WriteLine("FAILED: a.f1744()!=\"B.f1744\""); return 1; }
if (a.f1745() != "B.f1745") { Console.WriteLine("FAILED: a.f1745()!=\"B.f1745\""); return 1; }
if (a.f1746() != "B.f1746") { Console.WriteLine("FAILED: a.f1746()!=\"B.f1746\""); return 1; }
if (a.f1747() != "B.f1747") { Console.WriteLine("FAILED: a.f1747()!=\"B.f1747\""); return 1; }
if (a.f1748() != "B.f1748") { Console.WriteLine("FAILED: a.f1748()!=\"B.f1748\""); return 1; }
if (a.f1749() != "B.f1749") { Console.WriteLine("FAILED: a.f1749()!=\"B.f1749\""); return 1; }
if (a.f1750() != "B.f1750") { Console.WriteLine("FAILED: a.f1750()!=\"B.f1750\""); return 1; }
if (a.f1751() != "B.f1751") { Console.WriteLine("FAILED: a.f1751()!=\"B.f1751\""); return 1; }
if (a.f1752() != "B.f1752") { Console.WriteLine("FAILED: a.f1752()!=\"B.f1752\""); return 1; }
if (a.f1753() != "B.f1753") { Console.WriteLine("FAILED: a.f1753()!=\"B.f1753\""); return 1; }
if (a.f1754() != "B.f1754") { Console.WriteLine("FAILED: a.f1754()!=\"B.f1754\""); return 1; }
if (a.f1755() != "B.f1755") { Console.WriteLine("FAILED: a.f1755()!=\"B.f1755\""); return 1; }
if (a.f1756() != "B.f1756") { Console.WriteLine("FAILED: a.f1756()!=\"B.f1756\""); return 1; }
if (a.f1757() != "B.f1757") { Console.WriteLine("FAILED: a.f1757()!=\"B.f1757\""); return 1; }
if (a.f1758() != "B.f1758") { Console.WriteLine("FAILED: a.f1758()!=\"B.f1758\""); return 1; }
if (a.f1759() != "B.f1759") { Console.WriteLine("FAILED: a.f1759()!=\"B.f1759\""); return 1; }
if (a.f1760() != "B.f1760") { Console.WriteLine("FAILED: a.f1760()!=\"B.f1760\""); return 1; }
if (a.f1761() != "B.f1761") { Console.WriteLine("FAILED: a.f1761()!=\"B.f1761\""); return 1; }
if (a.f1762() != "B.f1762") { Console.WriteLine("FAILED: a.f1762()!=\"B.f1762\""); return 1; }
if (a.f1763() != "B.f1763") { Console.WriteLine("FAILED: a.f1763()!=\"B.f1763\""); return 1; }
if (a.f1764() != "B.f1764") { Console.WriteLine("FAILED: a.f1764()!=\"B.f1764\""); return 1; }
if (a.f1765() != "B.f1765") { Console.WriteLine("FAILED: a.f1765()!=\"B.f1765\""); return 1; }
if (a.f1766() != "B.f1766") { Console.WriteLine("FAILED: a.f1766()!=\"B.f1766\""); return 1; }
if (a.f1767() != "B.f1767") { Console.WriteLine("FAILED: a.f1767()!=\"B.f1767\""); return 1; }
if (a.f1768() != "B.f1768") { Console.WriteLine("FAILED: a.f1768()!=\"B.f1768\""); return 1; }
if (a.f1769() != "B.f1769") { Console.WriteLine("FAILED: a.f1769()!=\"B.f1769\""); return 1; }
if (a.f1770() != "B.f1770") { Console.WriteLine("FAILED: a.f1770()!=\"B.f1770\""); return 1; }
if (a.f1771() != "B.f1771") { Console.WriteLine("FAILED: a.f1771()!=\"B.f1771\""); return 1; }
if (a.f1772() != "B.f1772") { Console.WriteLine("FAILED: a.f1772()!=\"B.f1772\""); return 1; }
if (a.f1773() != "B.f1773") { Console.WriteLine("FAILED: a.f1773()!=\"B.f1773\""); return 1; }
if (a.f1774() != "B.f1774") { Console.WriteLine("FAILED: a.f1774()!=\"B.f1774\""); return 1; }
if (a.f1775() != "B.f1775") { Console.WriteLine("FAILED: a.f1775()!=\"B.f1775\""); return 1; }
if (a.f1776() != "B.f1776") { Console.WriteLine("FAILED: a.f1776()!=\"B.f1776\""); return 1; }
if (a.f1777() != "B.f1777") { Console.WriteLine("FAILED: a.f1777()!=\"B.f1777\""); return 1; }
if (a.f1778() != "B.f1778") { Console.WriteLine("FAILED: a.f1778()!=\"B.f1778\""); return 1; }
if (a.f1779() != "B.f1779") { Console.WriteLine("FAILED: a.f1779()!=\"B.f1779\""); return 1; }
if (a.f1780() != "B.f1780") { Console.WriteLine("FAILED: a.f1780()!=\"B.f1780\""); return 1; }
if (a.f1781() != "B.f1781") { Console.WriteLine("FAILED: a.f1781()!=\"B.f1781\""); return 1; }
if (a.f1782() != "B.f1782") { Console.WriteLine("FAILED: a.f1782()!=\"B.f1782\""); return 1; }
if (a.f1783() != "B.f1783") { Console.WriteLine("FAILED: a.f1783()!=\"B.f1783\""); return 1; }
if (a.f1784() != "B.f1784") { Console.WriteLine("FAILED: a.f1784()!=\"B.f1784\""); return 1; }
if (a.f1785() != "B.f1785") { Console.WriteLine("FAILED: a.f1785()!=\"B.f1785\""); return 1; }
if (a.f1786() != "B.f1786") { Console.WriteLine("FAILED: a.f1786()!=\"B.f1786\""); return 1; }
if (a.f1787() != "B.f1787") { Console.WriteLine("FAILED: a.f1787()!=\"B.f1787\""); return 1; }
if (a.f1788() != "B.f1788") { Console.WriteLine("FAILED: a.f1788()!=\"B.f1788\""); return 1; }
if (a.f1789() != "B.f1789") { Console.WriteLine("FAILED: a.f1789()!=\"B.f1789\""); return 1; }
if (a.f1790() != "B.f1790") { Console.WriteLine("FAILED: a.f1790()!=\"B.f1790\""); return 1; }
if (a.f1791() != "B.f1791") { Console.WriteLine("FAILED: a.f1791()!=\"B.f1791\""); return 1; }
if (a.f1792() != "B.f1792") { Console.WriteLine("FAILED: a.f1792()!=\"B.f1792\""); return 1; }
if (a.f1793() != "B.f1793") { Console.WriteLine("FAILED: a.f1793()!=\"B.f1793\""); return 1; }
if (a.f1794() != "B.f1794") { Console.WriteLine("FAILED: a.f1794()!=\"B.f1794\""); return 1; }
if (a.f1795() != "B.f1795") { Console.WriteLine("FAILED: a.f1795()!=\"B.f1795\""); return 1; }
if (a.f1796() != "B.f1796") { Console.WriteLine("FAILED: a.f1796()!=\"B.f1796\""); return 1; }
if (a.f1797() != "B.f1797") { Console.WriteLine("FAILED: a.f1797()!=\"B.f1797\""); return 1; }
if (a.f1798() != "B.f1798") { Console.WriteLine("FAILED: a.f1798()!=\"B.f1798\""); return 1; }
if (a.f1799() != "B.f1799") { Console.WriteLine("FAILED: a.f1799()!=\"B.f1799\""); return 1; }
if (a.f1800() != "B.f1800") { Console.WriteLine("FAILED: a.f1800()!=\"B.f1800\""); return 1; }
if (a.f1801() != "B.f1801") { Console.WriteLine("FAILED: a.f1801()!=\"B.f1801\""); return 1; }
if (a.f1802() != "B.f1802") { Console.WriteLine("FAILED: a.f1802()!=\"B.f1802\""); return 1; }
if (a.f1803() != "B.f1803") { Console.WriteLine("FAILED: a.f1803()!=\"B.f1803\""); return 1; }
if (a.f1804() != "B.f1804") { Console.WriteLine("FAILED: a.f1804()!=\"B.f1804\""); return 1; }
if (a.f1805() != "B.f1805") { Console.WriteLine("FAILED: a.f1805()!=\"B.f1805\""); return 1; }
if (a.f1806() != "B.f1806") { Console.WriteLine("FAILED: a.f1806()!=\"B.f1806\""); return 1; }
if (a.f1807() != "B.f1807") { Console.WriteLine("FAILED: a.f1807()!=\"B.f1807\""); return 1; }
if (a.f1808() != "B.f1808") { Console.WriteLine("FAILED: a.f1808()!=\"B.f1808\""); return 1; }
if (a.f1809() != "B.f1809") { Console.WriteLine("FAILED: a.f1809()!=\"B.f1809\""); return 1; }
if (a.f1810() != "B.f1810") { Console.WriteLine("FAILED: a.f1810()!=\"B.f1810\""); return 1; }
if (a.f1811() != "B.f1811") { Console.WriteLine("FAILED: a.f1811()!=\"B.f1811\""); return 1; }
if (a.f1812() != "B.f1812") { Console.WriteLine("FAILED: a.f1812()!=\"B.f1812\""); return 1; }
if (a.f1813() != "B.f1813") { Console.WriteLine("FAILED: a.f1813()!=\"B.f1813\""); return 1; }
if (a.f1814() != "B.f1814") { Console.WriteLine("FAILED: a.f1814()!=\"B.f1814\""); return 1; }
if (a.f1815() != "B.f1815") { Console.WriteLine("FAILED: a.f1815()!=\"B.f1815\""); return 1; }
if (a.f1816() != "B.f1816") { Console.WriteLine("FAILED: a.f1816()!=\"B.f1816\""); return 1; }
if (a.f1817() != "B.f1817") { Console.WriteLine("FAILED: a.f1817()!=\"B.f1817\""); return 1; }
if (a.f1818() != "B.f1818") { Console.WriteLine("FAILED: a.f1818()!=\"B.f1818\""); return 1; }
if (a.f1819() != "B.f1819") { Console.WriteLine("FAILED: a.f1819()!=\"B.f1819\""); return 1; }
if (a.f1820() != "B.f1820") { Console.WriteLine("FAILED: a.f1820()!=\"B.f1820\""); return 1; }
if (a.f1821() != "B.f1821") { Console.WriteLine("FAILED: a.f1821()!=\"B.f1821\""); return 1; }
if (a.f1822() != "B.f1822") { Console.WriteLine("FAILED: a.f1822()!=\"B.f1822\""); return 1; }
if (a.f1823() != "B.f1823") { Console.WriteLine("FAILED: a.f1823()!=\"B.f1823\""); return 1; }
if (a.f1824() != "B.f1824") { Console.WriteLine("FAILED: a.f1824()!=\"B.f1824\""); return 1; }
if (a.f1825() != "B.f1825") { Console.WriteLine("FAILED: a.f1825()!=\"B.f1825\""); return 1; }
if (a.f1826() != "B.f1826") { Console.WriteLine("FAILED: a.f1826()!=\"B.f1826\""); return 1; }
if (a.f1827() != "B.f1827") { Console.WriteLine("FAILED: a.f1827()!=\"B.f1827\""); return 1; }
if (a.f1828() != "B.f1828") { Console.WriteLine("FAILED: a.f1828()!=\"B.f1828\""); return 1; }
if (a.f1829() != "B.f1829") { Console.WriteLine("FAILED: a.f1829()!=\"B.f1829\""); return 1; }
if (a.f1830() != "B.f1830") { Console.WriteLine("FAILED: a.f1830()!=\"B.f1830\""); return 1; }
if (a.f1831() != "B.f1831") { Console.WriteLine("FAILED: a.f1831()!=\"B.f1831\""); return 1; }
if (a.f1832() != "B.f1832") { Console.WriteLine("FAILED: a.f1832()!=\"B.f1832\""); return 1; }
if (a.f1833() != "B.f1833") { Console.WriteLine("FAILED: a.f1833()!=\"B.f1833\""); return 1; }
if (a.f1834() != "B.f1834") { Console.WriteLine("FAILED: a.f1834()!=\"B.f1834\""); return 1; }
if (a.f1835() != "B.f1835") { Console.WriteLine("FAILED: a.f1835()!=\"B.f1835\""); return 1; }
if (a.f1836() != "B.f1836") { Console.WriteLine("FAILED: a.f1836()!=\"B.f1836\""); return 1; }
if (a.f1837() != "B.f1837") { Console.WriteLine("FAILED: a.f1837()!=\"B.f1837\""); return 1; }
if (a.f1838() != "B.f1838") { Console.WriteLine("FAILED: a.f1838()!=\"B.f1838\""); return 1; }
if (a.f1839() != "B.f1839") { Console.WriteLine("FAILED: a.f1839()!=\"B.f1839\""); return 1; }
if (a.f1840() != "B.f1840") { Console.WriteLine("FAILED: a.f1840()!=\"B.f1840\""); return 1; }
if (a.f1841() != "B.f1841") { Console.WriteLine("FAILED: a.f1841()!=\"B.f1841\""); return 1; }
if (a.f1842() != "B.f1842") { Console.WriteLine("FAILED: a.f1842()!=\"B.f1842\""); return 1; }
if (a.f1843() != "B.f1843") { Console.WriteLine("FAILED: a.f1843()!=\"B.f1843\""); return 1; }
if (a.f1844() != "B.f1844") { Console.WriteLine("FAILED: a.f1844()!=\"B.f1844\""); return 1; }
if (a.f1845() != "B.f1845") { Console.WriteLine("FAILED: a.f1845()!=\"B.f1845\""); return 1; }
if (a.f1846() != "B.f1846") { Console.WriteLine("FAILED: a.f1846()!=\"B.f1846\""); return 1; }
if (a.f1847() != "B.f1847") { Console.WriteLine("FAILED: a.f1847()!=\"B.f1847\""); return 1; }
if (a.f1848() != "B.f1848") { Console.WriteLine("FAILED: a.f1848()!=\"B.f1848\""); return 1; }
if (a.f1849() != "B.f1849") { Console.WriteLine("FAILED: a.f1849()!=\"B.f1849\""); return 1; }
if (a.f1850() != "B.f1850") { Console.WriteLine("FAILED: a.f1850()!=\"B.f1850\""); return 1; }
if (a.f1851() != "B.f1851") { Console.WriteLine("FAILED: a.f1851()!=\"B.f1851\""); return 1; }
if (a.f1852() != "B.f1852") { Console.WriteLine("FAILED: a.f1852()!=\"B.f1852\""); return 1; }
if (a.f1853() != "B.f1853") { Console.WriteLine("FAILED: a.f1853()!=\"B.f1853\""); return 1; }
if (a.f1854() != "B.f1854") { Console.WriteLine("FAILED: a.f1854()!=\"B.f1854\""); return 1; }
if (a.f1855() != "B.f1855") { Console.WriteLine("FAILED: a.f1855()!=\"B.f1855\""); return 1; }
if (a.f1856() != "B.f1856") { Console.WriteLine("FAILED: a.f1856()!=\"B.f1856\""); return 1; }
if (a.f1857() != "B.f1857") { Console.WriteLine("FAILED: a.f1857()!=\"B.f1857\""); return 1; }
if (a.f1858() != "B.f1858") { Console.WriteLine("FAILED: a.f1858()!=\"B.f1858\""); return 1; }
if (a.f1859() != "B.f1859") { Console.WriteLine("FAILED: a.f1859()!=\"B.f1859\""); return 1; }
if (a.f1860() != "B.f1860") { Console.WriteLine("FAILED: a.f1860()!=\"B.f1860\""); return 1; }
if (a.f1861() != "B.f1861") { Console.WriteLine("FAILED: a.f1861()!=\"B.f1861\""); return 1; }
if (a.f1862() != "B.f1862") { Console.WriteLine("FAILED: a.f1862()!=\"B.f1862\""); return 1; }
if (a.f1863() != "B.f1863") { Console.WriteLine("FAILED: a.f1863()!=\"B.f1863\""); return 1; }
if (a.f1864() != "B.f1864") { Console.WriteLine("FAILED: a.f1864()!=\"B.f1864\""); return 1; }
if (a.f1865() != "B.f1865") { Console.WriteLine("FAILED: a.f1865()!=\"B.f1865\""); return 1; }
if (a.f1866() != "B.f1866") { Console.WriteLine("FAILED: a.f1866()!=\"B.f1866\""); return 1; }
if (a.f1867() != "B.f1867") { Console.WriteLine("FAILED: a.f1867()!=\"B.f1867\""); return 1; }
if (a.f1868() != "B.f1868") { Console.WriteLine("FAILED: a.f1868()!=\"B.f1868\""); return 1; }
if (a.f1869() != "B.f1869") { Console.WriteLine("FAILED: a.f1869()!=\"B.f1869\""); return 1; }
if (a.f1870() != "B.f1870") { Console.WriteLine("FAILED: a.f1870()!=\"B.f1870\""); return 1; }
if (a.f1871() != "B.f1871") { Console.WriteLine("FAILED: a.f1871()!=\"B.f1871\""); return 1; }
if (a.f1872() != "B.f1872") { Console.WriteLine("FAILED: a.f1872()!=\"B.f1872\""); return 1; }
if (a.f1873() != "B.f1873") { Console.WriteLine("FAILED: a.f1873()!=\"B.f1873\""); return 1; }
if (a.f1874() != "B.f1874") { Console.WriteLine("FAILED: a.f1874()!=\"B.f1874\""); return 1; }
if (a.f1875() != "B.f1875") { Console.WriteLine("FAILED: a.f1875()!=\"B.f1875\""); return 1; }
if (a.f1876() != "B.f1876") { Console.WriteLine("FAILED: a.f1876()!=\"B.f1876\""); return 1; }
if (a.f1877() != "B.f1877") { Console.WriteLine("FAILED: a.f1877()!=\"B.f1877\""); return 1; }
if (a.f1878() != "B.f1878") { Console.WriteLine("FAILED: a.f1878()!=\"B.f1878\""); return 1; }
if (a.f1879() != "B.f1879") { Console.WriteLine("FAILED: a.f1879()!=\"B.f1879\""); return 1; }
if (a.f1880() != "B.f1880") { Console.WriteLine("FAILED: a.f1880()!=\"B.f1880\""); return 1; }
if (a.f1881() != "B.f1881") { Console.WriteLine("FAILED: a.f1881()!=\"B.f1881\""); return 1; }
if (a.f1882() != "B.f1882") { Console.WriteLine("FAILED: a.f1882()!=\"B.f1882\""); return 1; }
if (a.f1883() != "B.f1883") { Console.WriteLine("FAILED: a.f1883()!=\"B.f1883\""); return 1; }
if (a.f1884() != "B.f1884") { Console.WriteLine("FAILED: a.f1884()!=\"B.f1884\""); return 1; }
if (a.f1885() != "B.f1885") { Console.WriteLine("FAILED: a.f1885()!=\"B.f1885\""); return 1; }
if (a.f1886() != "B.f1886") { Console.WriteLine("FAILED: a.f1886()!=\"B.f1886\""); return 1; }
if (a.f1887() != "B.f1887") { Console.WriteLine("FAILED: a.f1887()!=\"B.f1887\""); return 1; }
if (a.f1888() != "B.f1888") { Console.WriteLine("FAILED: a.f1888()!=\"B.f1888\""); return 1; }
if (a.f1889() != "B.f1889") { Console.WriteLine("FAILED: a.f1889()!=\"B.f1889\""); return 1; }
if (a.f1890() != "B.f1890") { Console.WriteLine("FAILED: a.f1890()!=\"B.f1890\""); return 1; }
if (a.f1891() != "B.f1891") { Console.WriteLine("FAILED: a.f1891()!=\"B.f1891\""); return 1; }
if (a.f1892() != "B.f1892") { Console.WriteLine("FAILED: a.f1892()!=\"B.f1892\""); return 1; }
if (a.f1893() != "B.f1893") { Console.WriteLine("FAILED: a.f1893()!=\"B.f1893\""); return 1; }
if (a.f1894() != "B.f1894") { Console.WriteLine("FAILED: a.f1894()!=\"B.f1894\""); return 1; }
if (a.f1895() != "B.f1895") { Console.WriteLine("FAILED: a.f1895()!=\"B.f1895\""); return 1; }
if (a.f1896() != "B.f1896") { Console.WriteLine("FAILED: a.f1896()!=\"B.f1896\""); return 1; }
if (a.f1897() != "B.f1897") { Console.WriteLine("FAILED: a.f1897()!=\"B.f1897\""); return 1; }
if (a.f1898() != "B.f1898") { Console.WriteLine("FAILED: a.f1898()!=\"B.f1898\""); return 1; }
if (a.f1899() != "B.f1899") { Console.WriteLine("FAILED: a.f1899()!=\"B.f1899\""); return 1; }
if (a.f1900() != "B.f1900") { Console.WriteLine("FAILED: a.f1900()!=\"B.f1900\""); return 1; }
if (a.f1901() != "B.f1901") { Console.WriteLine("FAILED: a.f1901()!=\"B.f1901\""); return 1; }
if (a.f1902() != "B.f1902") { Console.WriteLine("FAILED: a.f1902()!=\"B.f1902\""); return 1; }
if (a.f1903() != "B.f1903") { Console.WriteLine("FAILED: a.f1903()!=\"B.f1903\""); return 1; }
if (a.f1904() != "B.f1904") { Console.WriteLine("FAILED: a.f1904()!=\"B.f1904\""); return 1; }
if (a.f1905() != "B.f1905") { Console.WriteLine("FAILED: a.f1905()!=\"B.f1905\""); return 1; }
if (a.f1906() != "B.f1906") { Console.WriteLine("FAILED: a.f1906()!=\"B.f1906\""); return 1; }
if (a.f1907() != "B.f1907") { Console.WriteLine("FAILED: a.f1907()!=\"B.f1907\""); return 1; }
if (a.f1908() != "B.f1908") { Console.WriteLine("FAILED: a.f1908()!=\"B.f1908\""); return 1; }
if (a.f1909() != "B.f1909") { Console.WriteLine("FAILED: a.f1909()!=\"B.f1909\""); return 1; }
if (a.f1910() != "B.f1910") { Console.WriteLine("FAILED: a.f1910()!=\"B.f1910\""); return 1; }
if (a.f1911() != "B.f1911") { Console.WriteLine("FAILED: a.f1911()!=\"B.f1911\""); return 1; }
if (a.f1912() != "B.f1912") { Console.WriteLine("FAILED: a.f1912()!=\"B.f1912\""); return 1; }
if (a.f1913() != "B.f1913") { Console.WriteLine("FAILED: a.f1913()!=\"B.f1913\""); return 1; }
if (a.f1914() != "B.f1914") { Console.WriteLine("FAILED: a.f1914()!=\"B.f1914\""); return 1; }
if (a.f1915() != "B.f1915") { Console.WriteLine("FAILED: a.f1915()!=\"B.f1915\""); return 1; }
if (a.f1916() != "B.f1916") { Console.WriteLine("FAILED: a.f1916()!=\"B.f1916\""); return 1; }
if (a.f1917() != "B.f1917") { Console.WriteLine("FAILED: a.f1917()!=\"B.f1917\""); return 1; }
if (a.f1918() != "B.f1918") { Console.WriteLine("FAILED: a.f1918()!=\"B.f1918\""); return 1; }
if (a.f1919() != "B.f1919") { Console.WriteLine("FAILED: a.f1919()!=\"B.f1919\""); return 1; }
if (a.f1920() != "B.f1920") { Console.WriteLine("FAILED: a.f1920()!=\"B.f1920\""); return 1; }
if (a.f1921() != "B.f1921") { Console.WriteLine("FAILED: a.f1921()!=\"B.f1921\""); return 1; }
if (a.f1922() != "B.f1922") { Console.WriteLine("FAILED: a.f1922()!=\"B.f1922\""); return 1; }
if (a.f1923() != "B.f1923") { Console.WriteLine("FAILED: a.f1923()!=\"B.f1923\""); return 1; }
if (a.f1924() != "B.f1924") { Console.WriteLine("FAILED: a.f1924()!=\"B.f1924\""); return 1; }
if (a.f1925() != "B.f1925") { Console.WriteLine("FAILED: a.f1925()!=\"B.f1925\""); return 1; }
if (a.f1926() != "B.f1926") { Console.WriteLine("FAILED: a.f1926()!=\"B.f1926\""); return 1; }
if (a.f1927() != "B.f1927") { Console.WriteLine("FAILED: a.f1927()!=\"B.f1927\""); return 1; }
if (a.f1928() != "B.f1928") { Console.WriteLine("FAILED: a.f1928()!=\"B.f1928\""); return 1; }
if (a.f1929() != "B.f1929") { Console.WriteLine("FAILED: a.f1929()!=\"B.f1929\""); return 1; }
if (a.f1930() != "B.f1930") { Console.WriteLine("FAILED: a.f1930()!=\"B.f1930\""); return 1; }
if (a.f1931() != "B.f1931") { Console.WriteLine("FAILED: a.f1931()!=\"B.f1931\""); return 1; }
if (a.f1932() != "B.f1932") { Console.WriteLine("FAILED: a.f1932()!=\"B.f1932\""); return 1; }
if (a.f1933() != "B.f1933") { Console.WriteLine("FAILED: a.f1933()!=\"B.f1933\""); return 1; }
if (a.f1934() != "B.f1934") { Console.WriteLine("FAILED: a.f1934()!=\"B.f1934\""); return 1; }
if (a.f1935() != "B.f1935") { Console.WriteLine("FAILED: a.f1935()!=\"B.f1935\""); return 1; }
if (a.f1936() != "B.f1936") { Console.WriteLine("FAILED: a.f1936()!=\"B.f1936\""); return 1; }
if (a.f1937() != "B.f1937") { Console.WriteLine("FAILED: a.f1937()!=\"B.f1937\""); return 1; }
if (a.f1938() != "B.f1938") { Console.WriteLine("FAILED: a.f1938()!=\"B.f1938\""); return 1; }
if (a.f1939() != "B.f1939") { Console.WriteLine("FAILED: a.f1939()!=\"B.f1939\""); return 1; }
if (a.f1940() != "B.f1940") { Console.WriteLine("FAILED: a.f1940()!=\"B.f1940\""); return 1; }
if (a.f1941() != "B.f1941") { Console.WriteLine("FAILED: a.f1941()!=\"B.f1941\""); return 1; }
if (a.f1942() != "B.f1942") { Console.WriteLine("FAILED: a.f1942()!=\"B.f1942\""); return 1; }
if (a.f1943() != "B.f1943") { Console.WriteLine("FAILED: a.f1943()!=\"B.f1943\""); return 1; }
if (a.f1944() != "B.f1944") { Console.WriteLine("FAILED: a.f1944()!=\"B.f1944\""); return 1; }
if (a.f1945() != "B.f1945") { Console.WriteLine("FAILED: a.f1945()!=\"B.f1945\""); return 1; }
if (a.f1946() != "B.f1946") { Console.WriteLine("FAILED: a.f1946()!=\"B.f1946\""); return 1; }
if (a.f1947() != "B.f1947") { Console.WriteLine("FAILED: a.f1947()!=\"B.f1947\""); return 1; }
if (a.f1948() != "B.f1948") { Console.WriteLine("FAILED: a.f1948()!=\"B.f1948\""); return 1; }
if (a.f1949() != "B.f1949") { Console.WriteLine("FAILED: a.f1949()!=\"B.f1949\""); return 1; }
if (a.f1950() != "B.f1950") { Console.WriteLine("FAILED: a.f1950()!=\"B.f1950\""); return 1; }
if (a.f1951() != "B.f1951") { Console.WriteLine("FAILED: a.f1951()!=\"B.f1951\""); return 1; }
if (a.f1952() != "B.f1952") { Console.WriteLine("FAILED: a.f1952()!=\"B.f1952\""); return 1; }
if (a.f1953() != "B.f1953") { Console.WriteLine("FAILED: a.f1953()!=\"B.f1953\""); return 1; }
if (a.f1954() != "B.f1954") { Console.WriteLine("FAILED: a.f1954()!=\"B.f1954\""); return 1; }
if (a.f1955() != "B.f1955") { Console.WriteLine("FAILED: a.f1955()!=\"B.f1955\""); return 1; }
if (a.f1956() != "B.f1956") { Console.WriteLine("FAILED: a.f1956()!=\"B.f1956\""); return 1; }
if (a.f1957() != "B.f1957") { Console.WriteLine("FAILED: a.f1957()!=\"B.f1957\""); return 1; }
if (a.f1958() != "B.f1958") { Console.WriteLine("FAILED: a.f1958()!=\"B.f1958\""); return 1; }
if (a.f1959() != "B.f1959") { Console.WriteLine("FAILED: a.f1959()!=\"B.f1959\""); return 1; }
if (a.f1960() != "B.f1960") { Console.WriteLine("FAILED: a.f1960()!=\"B.f1960\""); return 1; }
if (a.f1961() != "B.f1961") { Console.WriteLine("FAILED: a.f1961()!=\"B.f1961\""); return 1; }
if (a.f1962() != "B.f1962") { Console.WriteLine("FAILED: a.f1962()!=\"B.f1962\""); return 1; }
if (a.f1963() != "B.f1963") { Console.WriteLine("FAILED: a.f1963()!=\"B.f1963\""); return 1; }
if (a.f1964() != "B.f1964") { Console.WriteLine("FAILED: a.f1964()!=\"B.f1964\""); return 1; }
if (a.f1965() != "B.f1965") { Console.WriteLine("FAILED: a.f1965()!=\"B.f1965\""); return 1; }
if (a.f1966() != "B.f1966") { Console.WriteLine("FAILED: a.f1966()!=\"B.f1966\""); return 1; }
if (a.f1967() != "B.f1967") { Console.WriteLine("FAILED: a.f1967()!=\"B.f1967\""); return 1; }
if (a.f1968() != "B.f1968") { Console.WriteLine("FAILED: a.f1968()!=\"B.f1968\""); return 1; }
if (a.f1969() != "B.f1969") { Console.WriteLine("FAILED: a.f1969()!=\"B.f1969\""); return 1; }
if (a.f1970() != "B.f1970") { Console.WriteLine("FAILED: a.f1970()!=\"B.f1970\""); return 1; }
if (a.f1971() != "B.f1971") { Console.WriteLine("FAILED: a.f1971()!=\"B.f1971\""); return 1; }
if (a.f1972() != "B.f1972") { Console.WriteLine("FAILED: a.f1972()!=\"B.f1972\""); return 1; }
if (a.f1973() != "B.f1973") { Console.WriteLine("FAILED: a.f1973()!=\"B.f1973\""); return 1; }
if (a.f1974() != "B.f1974") { Console.WriteLine("FAILED: a.f1974()!=\"B.f1974\""); return 1; }
if (a.f1975() != "B.f1975") { Console.WriteLine("FAILED: a.f1975()!=\"B.f1975\""); return 1; }
if (a.f1976() != "B.f1976") { Console.WriteLine("FAILED: a.f1976()!=\"B.f1976\""); return 1; }
if (a.f1977() != "B.f1977") { Console.WriteLine("FAILED: a.f1977()!=\"B.f1977\""); return 1; }
if (a.f1978() != "B.f1978") { Console.WriteLine("FAILED: a.f1978()!=\"B.f1978\""); return 1; }
if (a.f1979() != "B.f1979") { Console.WriteLine("FAILED: a.f1979()!=\"B.f1979\""); return 1; }
if (a.f1980() != "B.f1980") { Console.WriteLine("FAILED: a.f1980()!=\"B.f1980\""); return 1; }
if (a.f1981() != "B.f1981") { Console.WriteLine("FAILED: a.f1981()!=\"B.f1981\""); return 1; }
if (a.f1982() != "B.f1982") { Console.WriteLine("FAILED: a.f1982()!=\"B.f1982\""); return 1; }
if (a.f1983() != "B.f1983") { Console.WriteLine("FAILED: a.f1983()!=\"B.f1983\""); return 1; }
if (a.f1984() != "B.f1984") { Console.WriteLine("FAILED: a.f1984()!=\"B.f1984\""); return 1; }
if (a.f1985() != "B.f1985") { Console.WriteLine("FAILED: a.f1985()!=\"B.f1985\""); return 1; }
if (a.f1986() != "B.f1986") { Console.WriteLine("FAILED: a.f1986()!=\"B.f1986\""); return 1; }
if (a.f1987() != "B.f1987") { Console.WriteLine("FAILED: a.f1987()!=\"B.f1987\""); return 1; }
if (a.f1988() != "B.f1988") { Console.WriteLine("FAILED: a.f1988()!=\"B.f1988\""); return 1; }
if (a.f1989() != "B.f1989") { Console.WriteLine("FAILED: a.f1989()!=\"B.f1989\""); return 1; }
if (a.f1990() != "B.f1990") { Console.WriteLine("FAILED: a.f1990()!=\"B.f1990\""); return 1; }
if (a.f1991() != "B.f1991") { Console.WriteLine("FAILED: a.f1991()!=\"B.f1991\""); return 1; }
if (a.f1992() != "B.f1992") { Console.WriteLine("FAILED: a.f1992()!=\"B.f1992\""); return 1; }
if (a.f1993() != "B.f1993") { Console.WriteLine("FAILED: a.f1993()!=\"B.f1993\""); return 1; }
if (a.f1994() != "B.f1994") { Console.WriteLine("FAILED: a.f1994()!=\"B.f1994\""); return 1; }
if (a.f1995() != "B.f1995") { Console.WriteLine("FAILED: a.f1995()!=\"B.f1995\""); return 1; }
if (a.f1996() != "B.f1996") { Console.WriteLine("FAILED: a.f1996()!=\"B.f1996\""); return 1; }
if (a.f1997() != "B.f1997") { Console.WriteLine("FAILED: a.f1997()!=\"B.f1997\""); return 1; }
if (a.f1998() != "B.f1998") { Console.WriteLine("FAILED: a.f1998()!=\"B.f1998\""); return 1; }
if (a.f1999() != "B.f1999") { Console.WriteLine("FAILED: a.f1999()!=\"B.f1999\""); return 1; }
if (a.f2000() != "B.f2000") { Console.WriteLine("FAILED: a.f2000()!=\"B.f2000\""); return 1; }
if (a.f2001() != "B.f2001") { Console.WriteLine("FAILED: a.f2001()!=\"B.f2001\""); return 1; }
if (a.f2002() != "B.f2002") { Console.WriteLine("FAILED: a.f2002()!=\"B.f2002\""); return 1; }
if (a.f2003() != "B.f2003") { Console.WriteLine("FAILED: a.f2003()!=\"B.f2003\""); return 1; }
if (a.f2004() != "B.f2004") { Console.WriteLine("FAILED: a.f2004()!=\"B.f2004\""); return 1; }
if (a.f2005() != "B.f2005") { Console.WriteLine("FAILED: a.f2005()!=\"B.f2005\""); return 1; }
if (a.f2006() != "B.f2006") { Console.WriteLine("FAILED: a.f2006()!=\"B.f2006\""); return 1; }
if (a.f2007() != "B.f2007") { Console.WriteLine("FAILED: a.f2007()!=\"B.f2007\""); return 1; }
if (a.f2008() != "B.f2008") { Console.WriteLine("FAILED: a.f2008()!=\"B.f2008\""); return 1; }
if (a.f2009() != "B.f2009") { Console.WriteLine("FAILED: a.f2009()!=\"B.f2009\""); return 1; }
if (a.f2010() != "B.f2010") { Console.WriteLine("FAILED: a.f2010()!=\"B.f2010\""); return 1; }
if (a.f2011() != "B.f2011") { Console.WriteLine("FAILED: a.f2011()!=\"B.f2011\""); return 1; }
if (a.f2012() != "B.f2012") { Console.WriteLine("FAILED: a.f2012()!=\"B.f2012\""); return 1; }
if (a.f2013() != "B.f2013") { Console.WriteLine("FAILED: a.f2013()!=\"B.f2013\""); return 1; }
if (a.f2014() != "B.f2014") { Console.WriteLine("FAILED: a.f2014()!=\"B.f2014\""); return 1; }
if (a.f2015() != "B.f2015") { Console.WriteLine("FAILED: a.f2015()!=\"B.f2015\""); return 1; }
if (a.f2016() != "B.f2016") { Console.WriteLine("FAILED: a.f2016()!=\"B.f2016\""); return 1; }
if (a.f2017() != "B.f2017") { Console.WriteLine("FAILED: a.f2017()!=\"B.f2017\""); return 1; }
if (a.f2018() != "B.f2018") { Console.WriteLine("FAILED: a.f2018()!=\"B.f2018\""); return 1; }
if (a.f2019() != "B.f2019") { Console.WriteLine("FAILED: a.f2019()!=\"B.f2019\""); return 1; }
if (a.f2020() != "B.f2020") { Console.WriteLine("FAILED: a.f2020()!=\"B.f2020\""); return 1; }
if (a.f2021() != "B.f2021") { Console.WriteLine("FAILED: a.f2021()!=\"B.f2021\""); return 1; }
if (a.f2022() != "B.f2022") { Console.WriteLine("FAILED: a.f2022()!=\"B.f2022\""); return 1; }
if (a.f2023() != "B.f2023") { Console.WriteLine("FAILED: a.f2023()!=\"B.f2023\""); return 1; }
if (a.f2024() != "B.f2024") { Console.WriteLine("FAILED: a.f2024()!=\"B.f2024\""); return 1; }
if (a.f2025() != "B.f2025") { Console.WriteLine("FAILED: a.f2025()!=\"B.f2025\""); return 1; }
if (a.f2026() != "B.f2026") { Console.WriteLine("FAILED: a.f2026()!=\"B.f2026\""); return 1; }
if (a.f2027() != "B.f2027") { Console.WriteLine("FAILED: a.f2027()!=\"B.f2027\""); return 1; }
if (a.f2028() != "B.f2028") { Console.WriteLine("FAILED: a.f2028()!=\"B.f2028\""); return 1; }
if (a.f2029() != "B.f2029") { Console.WriteLine("FAILED: a.f2029()!=\"B.f2029\""); return 1; }
if (a.f2030() != "B.f2030") { Console.WriteLine("FAILED: a.f2030()!=\"B.f2030\""); return 1; }
if (a.f2031() != "B.f2031") { Console.WriteLine("FAILED: a.f2031()!=\"B.f2031\""); return 1; }
if (a.f2032() != "B.f2032") { Console.WriteLine("FAILED: a.f2032()!=\"B.f2032\""); return 1; }
if (a.f2033() != "B.f2033") { Console.WriteLine("FAILED: a.f2033()!=\"B.f2033\""); return 1; }
if (a.f2034() != "B.f2034") { Console.WriteLine("FAILED: a.f2034()!=\"B.f2034\""); return 1; }
if (a.f2035() != "B.f2035") { Console.WriteLine("FAILED: a.f2035()!=\"B.f2035\""); return 1; }
if (a.f2036() != "B.f2036") { Console.WriteLine("FAILED: a.f2036()!=\"B.f2036\""); return 1; }
if (a.f2037() != "B.f2037") { Console.WriteLine("FAILED: a.f2037()!=\"B.f2037\""); return 1; }
if (a.f2038() != "B.f2038") { Console.WriteLine("FAILED: a.f2038()!=\"B.f2038\""); return 1; }
if (a.f2039() != "B.f2039") { Console.WriteLine("FAILED: a.f2039()!=\"B.f2039\""); return 1; }
if (a.f2040() != "B.f2040") { Console.WriteLine("FAILED: a.f2040()!=\"B.f2040\""); return 1; }
if (a.f2041() != "B.f2041") { Console.WriteLine("FAILED: a.f2041()!=\"B.f2041\""); return 1; }
if (a.f2042() != "B.f2042") { Console.WriteLine("FAILED: a.f2042()!=\"B.f2042\""); return 1; }
if (a.f2043() != "B.f2043") { Console.WriteLine("FAILED: a.f2043()!=\"B.f2043\""); return 1; }
if (a.f2044() != "B.f2044") { Console.WriteLine("FAILED: a.f2044()!=\"B.f2044\""); return 1; }
if (a.f2045() != "B.f2045") { Console.WriteLine("FAILED: a.f2045()!=\"B.f2045\""); return 1; }
if (a.f2046() != "B.f2046") { Console.WriteLine("FAILED: a.f2046()!=\"B.f2046\""); return 1; }
if (a.f2047() != "B.f2047") { Console.WriteLine("FAILED: a.f2047()!=\"B.f2047\""); return 1; }
if (a.f2048() != "B.f2048") { Console.WriteLine("FAILED: a.f2048()!=\"B.f2048\""); return 1; }
if (a.f2049() != "B.f2049") { Console.WriteLine("FAILED: a.f2049()!=\"B.f2049\""); return 1; }
if (a.f2050() != "B.f2050") { Console.WriteLine("FAILED: a.f2050()!=\"B.f2050\""); return 1; }
if (a.f2051() != "B.f2051") { Console.WriteLine("FAILED: a.f2051()!=\"B.f2051\""); return 1; }
if (a.f2052() != "B.f2052") { Console.WriteLine("FAILED: a.f2052()!=\"B.f2052\""); return 1; }
if (a.f2053() != "B.f2053") { Console.WriteLine("FAILED: a.f2053()!=\"B.f2053\""); return 1; }
if (a.f2054() != "B.f2054") { Console.WriteLine("FAILED: a.f2054()!=\"B.f2054\""); return 1; }
if (a.f2055() != "B.f2055") { Console.WriteLine("FAILED: a.f2055()!=\"B.f2055\""); return 1; }
if (a.f2056() != "B.f2056") { Console.WriteLine("FAILED: a.f2056()!=\"B.f2056\""); return 1; }
if (a.f2057() != "B.f2057") { Console.WriteLine("FAILED: a.f2057()!=\"B.f2057\""); return 1; }
if (a.f2058() != "B.f2058") { Console.WriteLine("FAILED: a.f2058()!=\"B.f2058\""); return 1; }
if (a.f2059() != "B.f2059") { Console.WriteLine("FAILED: a.f2059()!=\"B.f2059\""); return 1; }
if (a.f2060() != "B.f2060") { Console.WriteLine("FAILED: a.f2060()!=\"B.f2060\""); return 1; }
if (a.f2061() != "B.f2061") { Console.WriteLine("FAILED: a.f2061()!=\"B.f2061\""); return 1; }
if (a.f2062() != "B.f2062") { Console.WriteLine("FAILED: a.f2062()!=\"B.f2062\""); return 1; }
if (a.f2063() != "B.f2063") { Console.WriteLine("FAILED: a.f2063()!=\"B.f2063\""); return 1; }
if (a.f2064() != "B.f2064") { Console.WriteLine("FAILED: a.f2064()!=\"B.f2064\""); return 1; }
if (a.f2065() != "B.f2065") { Console.WriteLine("FAILED: a.f2065()!=\"B.f2065\""); return 1; }
if (a.f2066() != "B.f2066") { Console.WriteLine("FAILED: a.f2066()!=\"B.f2066\""); return 1; }
if (a.f2067() != "B.f2067") { Console.WriteLine("FAILED: a.f2067()!=\"B.f2067\""); return 1; }
if (a.f2068() != "B.f2068") { Console.WriteLine("FAILED: a.f2068()!=\"B.f2068\""); return 1; }
if (a.f2069() != "B.f2069") { Console.WriteLine("FAILED: a.f2069()!=\"B.f2069\""); return 1; }
if (a.f2070() != "B.f2070") { Console.WriteLine("FAILED: a.f2070()!=\"B.f2070\""); return 1; }
if (a.f2071() != "B.f2071") { Console.WriteLine("FAILED: a.f2071()!=\"B.f2071\""); return 1; }
if (a.f2072() != "B.f2072") { Console.WriteLine("FAILED: a.f2072()!=\"B.f2072\""); return 1; }
if (a.f2073() != "B.f2073") { Console.WriteLine("FAILED: a.f2073()!=\"B.f2073\""); return 1; }
if (a.f2074() != "B.f2074") { Console.WriteLine("FAILED: a.f2074()!=\"B.f2074\""); return 1; }
if (a.f2075() != "B.f2075") { Console.WriteLine("FAILED: a.f2075()!=\"B.f2075\""); return 1; }
if (a.f2076() != "B.f2076") { Console.WriteLine("FAILED: a.f2076()!=\"B.f2076\""); return 1; }
if (a.f2077() != "B.f2077") { Console.WriteLine("FAILED: a.f2077()!=\"B.f2077\""); return 1; }
if (a.f2078() != "B.f2078") { Console.WriteLine("FAILED: a.f2078()!=\"B.f2078\""); return 1; }
if (a.f2079() != "B.f2079") { Console.WriteLine("FAILED: a.f2079()!=\"B.f2079\""); return 1; }
if (a.f2080() != "B.f2080") { Console.WriteLine("FAILED: a.f2080()!=\"B.f2080\""); return 1; }
if (a.f2081() != "B.f2081") { Console.WriteLine("FAILED: a.f2081()!=\"B.f2081\""); return 1; }
if (a.f2082() != "B.f2082") { Console.WriteLine("FAILED: a.f2082()!=\"B.f2082\""); return 1; }
if (a.f2083() != "B.f2083") { Console.WriteLine("FAILED: a.f2083()!=\"B.f2083\""); return 1; }
if (a.f2084() != "B.f2084") { Console.WriteLine("FAILED: a.f2084()!=\"B.f2084\""); return 1; }
if (a.f2085() != "B.f2085") { Console.WriteLine("FAILED: a.f2085()!=\"B.f2085\""); return 1; }
if (a.f2086() != "B.f2086") { Console.WriteLine("FAILED: a.f2086()!=\"B.f2086\""); return 1; }
if (a.f2087() != "B.f2087") { Console.WriteLine("FAILED: a.f2087()!=\"B.f2087\""); return 1; }
if (a.f2088() != "B.f2088") { Console.WriteLine("FAILED: a.f2088()!=\"B.f2088\""); return 1; }
if (a.f2089() != "B.f2089") { Console.WriteLine("FAILED: a.f2089()!=\"B.f2089\""); return 1; }
if (a.f2090() != "B.f2090") { Console.WriteLine("FAILED: a.f2090()!=\"B.f2090\""); return 1; }
if (a.f2091() != "B.f2091") { Console.WriteLine("FAILED: a.f2091()!=\"B.f2091\""); return 1; }
if (a.f2092() != "B.f2092") { Console.WriteLine("FAILED: a.f2092()!=\"B.f2092\""); return 1; }
if (a.f2093() != "B.f2093") { Console.WriteLine("FAILED: a.f2093()!=\"B.f2093\""); return 1; }
if (a.f2094() != "B.f2094") { Console.WriteLine("FAILED: a.f2094()!=\"B.f2094\""); return 1; }
if (a.f2095() != "B.f2095") { Console.WriteLine("FAILED: a.f2095()!=\"B.f2095\""); return 1; }
if (a.f2096() != "B.f2096") { Console.WriteLine("FAILED: a.f2096()!=\"B.f2096\""); return 1; }
if (a.f2097() != "B.f2097") { Console.WriteLine("FAILED: a.f2097()!=\"B.f2097\""); return 1; }
if (a.f2098() != "B.f2098") { Console.WriteLine("FAILED: a.f2098()!=\"B.f2098\""); return 1; }
if (a.f2099() != "B.f2099") { Console.WriteLine("FAILED: a.f2099()!=\"B.f2099\""); return 1; }
if (a.f2100() != "B.f2100") { Console.WriteLine("FAILED: a.f2100()!=\"B.f2100\""); return 1; }
if (a.f2101() != "B.f2101") { Console.WriteLine("FAILED: a.f2101()!=\"B.f2101\""); return 1; }
if (a.f2102() != "B.f2102") { Console.WriteLine("FAILED: a.f2102()!=\"B.f2102\""); return 1; }
if (a.f2103() != "B.f2103") { Console.WriteLine("FAILED: a.f2103()!=\"B.f2103\""); return 1; }
if (a.f2104() != "B.f2104") { Console.WriteLine("FAILED: a.f2104()!=\"B.f2104\""); return 1; }
if (a.f2105() != "B.f2105") { Console.WriteLine("FAILED: a.f2105()!=\"B.f2105\""); return 1; }
if (a.f2106() != "B.f2106") { Console.WriteLine("FAILED: a.f2106()!=\"B.f2106\""); return 1; }
if (a.f2107() != "B.f2107") { Console.WriteLine("FAILED: a.f2107()!=\"B.f2107\""); return 1; }
if (a.f2108() != "B.f2108") { Console.WriteLine("FAILED: a.f2108()!=\"B.f2108\""); return 1; }
if (a.f2109() != "B.f2109") { Console.WriteLine("FAILED: a.f2109()!=\"B.f2109\""); return 1; }
if (a.f2110() != "B.f2110") { Console.WriteLine("FAILED: a.f2110()!=\"B.f2110\""); return 1; }
if (a.f2111() != "B.f2111") { Console.WriteLine("FAILED: a.f2111()!=\"B.f2111\""); return 1; }
if (a.f2112() != "B.f2112") { Console.WriteLine("FAILED: a.f2112()!=\"B.f2112\""); return 1; }
if (a.f2113() != "B.f2113") { Console.WriteLine("FAILED: a.f2113()!=\"B.f2113\""); return 1; }
if (a.f2114() != "B.f2114") { Console.WriteLine("FAILED: a.f2114()!=\"B.f2114\""); return 1; }
if (a.f2115() != "B.f2115") { Console.WriteLine("FAILED: a.f2115()!=\"B.f2115\""); return 1; }
if (a.f2116() != "B.f2116") { Console.WriteLine("FAILED: a.f2116()!=\"B.f2116\""); return 1; }
if (a.f2117() != "B.f2117") { Console.WriteLine("FAILED: a.f2117()!=\"B.f2117\""); return 1; }
if (a.f2118() != "B.f2118") { Console.WriteLine("FAILED: a.f2118()!=\"B.f2118\""); return 1; }
if (a.f2119() != "B.f2119") { Console.WriteLine("FAILED: a.f2119()!=\"B.f2119\""); return 1; }
if (a.f2120() != "B.f2120") { Console.WriteLine("FAILED: a.f2120()!=\"B.f2120\""); return 1; }
if (a.f2121() != "B.f2121") { Console.WriteLine("FAILED: a.f2121()!=\"B.f2121\""); return 1; }
if (a.f2122() != "B.f2122") { Console.WriteLine("FAILED: a.f2122()!=\"B.f2122\""); return 1; }
if (a.f2123() != "B.f2123") { Console.WriteLine("FAILED: a.f2123()!=\"B.f2123\""); return 1; }
if (a.f2124() != "B.f2124") { Console.WriteLine("FAILED: a.f2124()!=\"B.f2124\""); return 1; }
if (a.f2125() != "B.f2125") { Console.WriteLine("FAILED: a.f2125()!=\"B.f2125\""); return 1; }
if (a.f2126() != "B.f2126") { Console.WriteLine("FAILED: a.f2126()!=\"B.f2126\""); return 1; }
if (a.f2127() != "B.f2127") { Console.WriteLine("FAILED: a.f2127()!=\"B.f2127\""); return 1; }
if (a.f2128() != "B.f2128") { Console.WriteLine("FAILED: a.f2128()!=\"B.f2128\""); return 1; }
if (a.f2129() != "B.f2129") { Console.WriteLine("FAILED: a.f2129()!=\"B.f2129\""); return 1; }
if (a.f2130() != "B.f2130") { Console.WriteLine("FAILED: a.f2130()!=\"B.f2130\""); return 1; }
if (a.f2131() != "B.f2131") { Console.WriteLine("FAILED: a.f2131()!=\"B.f2131\""); return 1; }
if (a.f2132() != "B.f2132") { Console.WriteLine("FAILED: a.f2132()!=\"B.f2132\""); return 1; }
if (a.f2133() != "B.f2133") { Console.WriteLine("FAILED: a.f2133()!=\"B.f2133\""); return 1; }
if (a.f2134() != "B.f2134") { Console.WriteLine("FAILED: a.f2134()!=\"B.f2134\""); return 1; }
if (a.f2135() != "B.f2135") { Console.WriteLine("FAILED: a.f2135()!=\"B.f2135\""); return 1; }
if (a.f2136() != "B.f2136") { Console.WriteLine("FAILED: a.f2136()!=\"B.f2136\""); return 1; }
if (a.f2137() != "B.f2137") { Console.WriteLine("FAILED: a.f2137()!=\"B.f2137\""); return 1; }
if (a.f2138() != "B.f2138") { Console.WriteLine("FAILED: a.f2138()!=\"B.f2138\""); return 1; }
if (a.f2139() != "B.f2139") { Console.WriteLine("FAILED: a.f2139()!=\"B.f2139\""); return 1; }
if (a.f2140() != "B.f2140") { Console.WriteLine("FAILED: a.f2140()!=\"B.f2140\""); return 1; }
if (a.f2141() != "B.f2141") { Console.WriteLine("FAILED: a.f2141()!=\"B.f2141\""); return 1; }
if (a.f2142() != "B.f2142") { Console.WriteLine("FAILED: a.f2142()!=\"B.f2142\""); return 1; }
if (a.f2143() != "B.f2143") { Console.WriteLine("FAILED: a.f2143()!=\"B.f2143\""); return 1; }
if (a.f2144() != "B.f2144") { Console.WriteLine("FAILED: a.f2144()!=\"B.f2144\""); return 1; }
if (a.f2145() != "B.f2145") { Console.WriteLine("FAILED: a.f2145()!=\"B.f2145\""); return 1; }
if (a.f2146() != "B.f2146") { Console.WriteLine("FAILED: a.f2146()!=\"B.f2146\""); return 1; }
if (a.f2147() != "B.f2147") { Console.WriteLine("FAILED: a.f2147()!=\"B.f2147\""); return 1; }
if (a.f2148() != "B.f2148") { Console.WriteLine("FAILED: a.f2148()!=\"B.f2148\""); return 1; }
if (a.f2149() != "B.f2149") { Console.WriteLine("FAILED: a.f2149()!=\"B.f2149\""); return 1; }
if (a.f2150() != "B.f2150") { Console.WriteLine("FAILED: a.f2150()!=\"B.f2150\""); return 1; }
if (a.f2151() != "B.f2151") { Console.WriteLine("FAILED: a.f2151()!=\"B.f2151\""); return 1; }
if (a.f2152() != "B.f2152") { Console.WriteLine("FAILED: a.f2152()!=\"B.f2152\""); return 1; }
if (a.f2153() != "B.f2153") { Console.WriteLine("FAILED: a.f2153()!=\"B.f2153\""); return 1; }
if (a.f2154() != "B.f2154") { Console.WriteLine("FAILED: a.f2154()!=\"B.f2154\""); return 1; }
if (a.f2155() != "B.f2155") { Console.WriteLine("FAILED: a.f2155()!=\"B.f2155\""); return 1; }
if (a.f2156() != "B.f2156") { Console.WriteLine("FAILED: a.f2156()!=\"B.f2156\""); return 1; }
if (a.f2157() != "B.f2157") { Console.WriteLine("FAILED: a.f2157()!=\"B.f2157\""); return 1; }
if (a.f2158() != "B.f2158") { Console.WriteLine("FAILED: a.f2158()!=\"B.f2158\""); return 1; }
if (a.f2159() != "B.f2159") { Console.WriteLine("FAILED: a.f2159()!=\"B.f2159\""); return 1; }
if (a.f2160() != "B.f2160") { Console.WriteLine("FAILED: a.f2160()!=\"B.f2160\""); return 1; }
if (a.f2161() != "B.f2161") { Console.WriteLine("FAILED: a.f2161()!=\"B.f2161\""); return 1; }
if (a.f2162() != "B.f2162") { Console.WriteLine("FAILED: a.f2162()!=\"B.f2162\""); return 1; }
if (a.f2163() != "B.f2163") { Console.WriteLine("FAILED: a.f2163()!=\"B.f2163\""); return 1; }
if (a.f2164() != "B.f2164") { Console.WriteLine("FAILED: a.f2164()!=\"B.f2164\""); return 1; }
if (a.f2165() != "B.f2165") { Console.WriteLine("FAILED: a.f2165()!=\"B.f2165\""); return 1; }
if (a.f2166() != "B.f2166") { Console.WriteLine("FAILED: a.f2166()!=\"B.f2166\""); return 1; }
if (a.f2167() != "B.f2167") { Console.WriteLine("FAILED: a.f2167()!=\"B.f2167\""); return 1; }
if (a.f2168() != "B.f2168") { Console.WriteLine("FAILED: a.f2168()!=\"B.f2168\""); return 1; }
if (a.f2169() != "B.f2169") { Console.WriteLine("FAILED: a.f2169()!=\"B.f2169\""); return 1; }
if (a.f2170() != "B.f2170") { Console.WriteLine("FAILED: a.f2170()!=\"B.f2170\""); return 1; }
if (a.f2171() != "B.f2171") { Console.WriteLine("FAILED: a.f2171()!=\"B.f2171\""); return 1; }
if (a.f2172() != "B.f2172") { Console.WriteLine("FAILED: a.f2172()!=\"B.f2172\""); return 1; }
if (a.f2173() != "B.f2173") { Console.WriteLine("FAILED: a.f2173()!=\"B.f2173\""); return 1; }
if (a.f2174() != "B.f2174") { Console.WriteLine("FAILED: a.f2174()!=\"B.f2174\""); return 1; }
if (a.f2175() != "B.f2175") { Console.WriteLine("FAILED: a.f2175()!=\"B.f2175\""); return 1; }
if (a.f2176() != "B.f2176") { Console.WriteLine("FAILED: a.f2176()!=\"B.f2176\""); return 1; }
if (a.f2177() != "B.f2177") { Console.WriteLine("FAILED: a.f2177()!=\"B.f2177\""); return 1; }
if (a.f2178() != "B.f2178") { Console.WriteLine("FAILED: a.f2178()!=\"B.f2178\""); return 1; }
if (a.f2179() != "B.f2179") { Console.WriteLine("FAILED: a.f2179()!=\"B.f2179\""); return 1; }
if (a.f2180() != "B.f2180") { Console.WriteLine("FAILED: a.f2180()!=\"B.f2180\""); return 1; }
if (a.f2181() != "B.f2181") { Console.WriteLine("FAILED: a.f2181()!=\"B.f2181\""); return 1; }
if (a.f2182() != "B.f2182") { Console.WriteLine("FAILED: a.f2182()!=\"B.f2182\""); return 1; }
if (a.f2183() != "B.f2183") { Console.WriteLine("FAILED: a.f2183()!=\"B.f2183\""); return 1; }
if (a.f2184() != "B.f2184") { Console.WriteLine("FAILED: a.f2184()!=\"B.f2184\""); return 1; }
if (a.f2185() != "B.f2185") { Console.WriteLine("FAILED: a.f2185()!=\"B.f2185\""); return 1; }
if (a.f2186() != "B.f2186") { Console.WriteLine("FAILED: a.f2186()!=\"B.f2186\""); return 1; }
if (a.f2187() != "B.f2187") { Console.WriteLine("FAILED: a.f2187()!=\"B.f2187\""); return 1; }
if (a.f2188() != "B.f2188") { Console.WriteLine("FAILED: a.f2188()!=\"B.f2188\""); return 1; }
if (a.f2189() != "B.f2189") { Console.WriteLine("FAILED: a.f2189()!=\"B.f2189\""); return 1; }
if (a.f2190() != "B.f2190") { Console.WriteLine("FAILED: a.f2190()!=\"B.f2190\""); return 1; }
if (a.f2191() != "B.f2191") { Console.WriteLine("FAILED: a.f2191()!=\"B.f2191\""); return 1; }
if (a.f2192() != "B.f2192") { Console.WriteLine("FAILED: a.f2192()!=\"B.f2192\""); return 1; }
if (a.f2193() != "B.f2193") { Console.WriteLine("FAILED: a.f2193()!=\"B.f2193\""); return 1; }
if (a.f2194() != "B.f2194") { Console.WriteLine("FAILED: a.f2194()!=\"B.f2194\""); return 1; }
if (a.f2195() != "B.f2195") { Console.WriteLine("FAILED: a.f2195()!=\"B.f2195\""); return 1; }
if (a.f2196() != "B.f2196") { Console.WriteLine("FAILED: a.f2196()!=\"B.f2196\""); return 1; }
if (a.f2197() != "B.f2197") { Console.WriteLine("FAILED: a.f2197()!=\"B.f2197\""); return 1; }
if (a.f2198() != "B.f2198") { Console.WriteLine("FAILED: a.f2198()!=\"B.f2198\""); return 1; }
if (a.f2199() != "B.f2199") { Console.WriteLine("FAILED: a.f2199()!=\"B.f2199\""); return 1; }
if (a.f2200() != "B.f2200") { Console.WriteLine("FAILED: a.f2200()!=\"B.f2200\""); return 1; }
if (a.f2201() != "B.f2201") { Console.WriteLine("FAILED: a.f2201()!=\"B.f2201\""); return 1; }
if (a.f2202() != "B.f2202") { Console.WriteLine("FAILED: a.f2202()!=\"B.f2202\""); return 1; }
if (a.f2203() != "B.f2203") { Console.WriteLine("FAILED: a.f2203()!=\"B.f2203\""); return 1; }
if (a.f2204() != "B.f2204") { Console.WriteLine("FAILED: a.f2204()!=\"B.f2204\""); return 1; }
if (a.f2205() != "B.f2205") { Console.WriteLine("FAILED: a.f2205()!=\"B.f2205\""); return 1; }
if (a.f2206() != "B.f2206") { Console.WriteLine("FAILED: a.f2206()!=\"B.f2206\""); return 1; }
if (a.f2207() != "B.f2207") { Console.WriteLine("FAILED: a.f2207()!=\"B.f2207\""); return 1; }
if (a.f2208() != "B.f2208") { Console.WriteLine("FAILED: a.f2208()!=\"B.f2208\""); return 1; }
if (a.f2209() != "B.f2209") { Console.WriteLine("FAILED: a.f2209()!=\"B.f2209\""); return 1; }
if (a.f2210() != "B.f2210") { Console.WriteLine("FAILED: a.f2210()!=\"B.f2210\""); return 1; }
if (a.f2211() != "B.f2211") { Console.WriteLine("FAILED: a.f2211()!=\"B.f2211\""); return 1; }
if (a.f2212() != "B.f2212") { Console.WriteLine("FAILED: a.f2212()!=\"B.f2212\""); return 1; }
if (a.f2213() != "B.f2213") { Console.WriteLine("FAILED: a.f2213()!=\"B.f2213\""); return 1; }
if (a.f2214() != "B.f2214") { Console.WriteLine("FAILED: a.f2214()!=\"B.f2214\""); return 1; }
if (a.f2215() != "B.f2215") { Console.WriteLine("FAILED: a.f2215()!=\"B.f2215\""); return 1; }
if (a.f2216() != "B.f2216") { Console.WriteLine("FAILED: a.f2216()!=\"B.f2216\""); return 1; }
if (a.f2217() != "B.f2217") { Console.WriteLine("FAILED: a.f2217()!=\"B.f2217\""); return 1; }
if (a.f2218() != "B.f2218") { Console.WriteLine("FAILED: a.f2218()!=\"B.f2218\""); return 1; }
if (a.f2219() != "B.f2219") { Console.WriteLine("FAILED: a.f2219()!=\"B.f2219\""); return 1; }
if (a.f2220() != "B.f2220") { Console.WriteLine("FAILED: a.f2220()!=\"B.f2220\""); return 1; }
if (a.f2221() != "B.f2221") { Console.WriteLine("FAILED: a.f2221()!=\"B.f2221\""); return 1; }
if (a.f2222() != "B.f2222") { Console.WriteLine("FAILED: a.f2222()!=\"B.f2222\""); return 1; }
if (a.f2223() != "B.f2223") { Console.WriteLine("FAILED: a.f2223()!=\"B.f2223\""); return 1; }
if (a.f2224() != "B.f2224") { Console.WriteLine("FAILED: a.f2224()!=\"B.f2224\""); return 1; }
if (a.f2225() != "B.f2225") { Console.WriteLine("FAILED: a.f2225()!=\"B.f2225\""); return 1; }
if (a.f2226() != "B.f2226") { Console.WriteLine("FAILED: a.f2226()!=\"B.f2226\""); return 1; }
if (a.f2227() != "B.f2227") { Console.WriteLine("FAILED: a.f2227()!=\"B.f2227\""); return 1; }
if (a.f2228() != "B.f2228") { Console.WriteLine("FAILED: a.f2228()!=\"B.f2228\""); return 1; }
if (a.f2229() != "B.f2229") { Console.WriteLine("FAILED: a.f2229()!=\"B.f2229\""); return 1; }
if (a.f2230() != "B.f2230") { Console.WriteLine("FAILED: a.f2230()!=\"B.f2230\""); return 1; }
if (a.f2231() != "B.f2231") { Console.WriteLine("FAILED: a.f2231()!=\"B.f2231\""); return 1; }
if (a.f2232() != "B.f2232") { Console.WriteLine("FAILED: a.f2232()!=\"B.f2232\""); return 1; }
if (a.f2233() != "B.f2233") { Console.WriteLine("FAILED: a.f2233()!=\"B.f2233\""); return 1; }
if (a.f2234() != "B.f2234") { Console.WriteLine("FAILED: a.f2234()!=\"B.f2234\""); return 1; }
if (a.f2235() != "B.f2235") { Console.WriteLine("FAILED: a.f2235()!=\"B.f2235\""); return 1; }
if (a.f2236() != "B.f2236") { Console.WriteLine("FAILED: a.f2236()!=\"B.f2236\""); return 1; }
if (a.f2237() != "B.f2237") { Console.WriteLine("FAILED: a.f2237()!=\"B.f2237\""); return 1; }
if (a.f2238() != "B.f2238") { Console.WriteLine("FAILED: a.f2238()!=\"B.f2238\""); return 1; }
if (a.f2239() != "B.f2239") { Console.WriteLine("FAILED: a.f2239()!=\"B.f2239\""); return 1; }
if (a.f2240() != "B.f2240") { Console.WriteLine("FAILED: a.f2240()!=\"B.f2240\""); return 1; }
if (a.f2241() != "B.f2241") { Console.WriteLine("FAILED: a.f2241()!=\"B.f2241\""); return 1; }
if (a.f2242() != "B.f2242") { Console.WriteLine("FAILED: a.f2242()!=\"B.f2242\""); return 1; }
if (a.f2243() != "B.f2243") { Console.WriteLine("FAILED: a.f2243()!=\"B.f2243\""); return 1; }
if (a.f2244() != "B.f2244") { Console.WriteLine("FAILED: a.f2244()!=\"B.f2244\""); return 1; }
if (a.f2245() != "B.f2245") { Console.WriteLine("FAILED: a.f2245()!=\"B.f2245\""); return 1; }
if (a.f2246() != "B.f2246") { Console.WriteLine("FAILED: a.f2246()!=\"B.f2246\""); return 1; }
if (a.f2247() != "B.f2247") { Console.WriteLine("FAILED: a.f2247()!=\"B.f2247\""); return 1; }
if (a.f2248() != "B.f2248") { Console.WriteLine("FAILED: a.f2248()!=\"B.f2248\""); return 1; }
if (a.f2249() != "B.f2249") { Console.WriteLine("FAILED: a.f2249()!=\"B.f2249\""); return 1; }
if (a.f2250() != "B.f2250") { Console.WriteLine("FAILED: a.f2250()!=\"B.f2250\""); return 1; }
if (a.f2251() != "B.f2251") { Console.WriteLine("FAILED: a.f2251()!=\"B.f2251\""); return 1; }
if (a.f2252() != "B.f2252") { Console.WriteLine("FAILED: a.f2252()!=\"B.f2252\""); return 1; }
if (a.f2253() != "B.f2253") { Console.WriteLine("FAILED: a.f2253()!=\"B.f2253\""); return 1; }
if (a.f2254() != "B.f2254") { Console.WriteLine("FAILED: a.f2254()!=\"B.f2254\""); return 1; }
if (a.f2255() != "B.f2255") { Console.WriteLine("FAILED: a.f2255()!=\"B.f2255\""); return 1; }
if (a.f2256() != "B.f2256") { Console.WriteLine("FAILED: a.f2256()!=\"B.f2256\""); return 1; }
if (a.f2257() != "B.f2257") { Console.WriteLine("FAILED: a.f2257()!=\"B.f2257\""); return 1; }
if (a.f2258() != "B.f2258") { Console.WriteLine("FAILED: a.f2258()!=\"B.f2258\""); return 1; }
if (a.f2259() != "B.f2259") { Console.WriteLine("FAILED: a.f2259()!=\"B.f2259\""); return 1; }
if (a.f2260() != "B.f2260") { Console.WriteLine("FAILED: a.f2260()!=\"B.f2260\""); return 1; }
if (a.f2261() != "B.f2261") { Console.WriteLine("FAILED: a.f2261()!=\"B.f2261\""); return 1; }
if (a.f2262() != "B.f2262") { Console.WriteLine("FAILED: a.f2262()!=\"B.f2262\""); return 1; }
if (a.f2263() != "B.f2263") { Console.WriteLine("FAILED: a.f2263()!=\"B.f2263\""); return 1; }
if (a.f2264() != "B.f2264") { Console.WriteLine("FAILED: a.f2264()!=\"B.f2264\""); return 1; }
if (a.f2265() != "B.f2265") { Console.WriteLine("FAILED: a.f2265()!=\"B.f2265\""); return 1; }
if (a.f2266() != "B.f2266") { Console.WriteLine("FAILED: a.f2266()!=\"B.f2266\""); return 1; }
if (a.f2267() != "B.f2267") { Console.WriteLine("FAILED: a.f2267()!=\"B.f2267\""); return 1; }
if (a.f2268() != "B.f2268") { Console.WriteLine("FAILED: a.f2268()!=\"B.f2268\""); return 1; }
if (a.f2269() != "B.f2269") { Console.WriteLine("FAILED: a.f2269()!=\"B.f2269\""); return 1; }
if (a.f2270() != "B.f2270") { Console.WriteLine("FAILED: a.f2270()!=\"B.f2270\""); return 1; }
if (a.f2271() != "B.f2271") { Console.WriteLine("FAILED: a.f2271()!=\"B.f2271\""); return 1; }
if (a.f2272() != "B.f2272") { Console.WriteLine("FAILED: a.f2272()!=\"B.f2272\""); return 1; }
if (a.f2273() != "B.f2273") { Console.WriteLine("FAILED: a.f2273()!=\"B.f2273\""); return 1; }
if (a.f2274() != "B.f2274") { Console.WriteLine("FAILED: a.f2274()!=\"B.f2274\""); return 1; }
if (a.f2275() != "B.f2275") { Console.WriteLine("FAILED: a.f2275()!=\"B.f2275\""); return 1; }
if (a.f2276() != "B.f2276") { Console.WriteLine("FAILED: a.f2276()!=\"B.f2276\""); return 1; }
if (a.f2277() != "B.f2277") { Console.WriteLine("FAILED: a.f2277()!=\"B.f2277\""); return 1; }
if (a.f2278() != "B.f2278") { Console.WriteLine("FAILED: a.f2278()!=\"B.f2278\""); return 1; }
if (a.f2279() != "B.f2279") { Console.WriteLine("FAILED: a.f2279()!=\"B.f2279\""); return 1; }
if (a.f2280() != "B.f2280") { Console.WriteLine("FAILED: a.f2280()!=\"B.f2280\""); return 1; }
if (a.f2281() != "B.f2281") { Console.WriteLine("FAILED: a.f2281()!=\"B.f2281\""); return 1; }
if (a.f2282() != "B.f2282") { Console.WriteLine("FAILED: a.f2282()!=\"B.f2282\""); return 1; }
if (a.f2283() != "B.f2283") { Console.WriteLine("FAILED: a.f2283()!=\"B.f2283\""); return 1; }
if (a.f2284() != "B.f2284") { Console.WriteLine("FAILED: a.f2284()!=\"B.f2284\""); return 1; }
if (a.f2285() != "B.f2285") { Console.WriteLine("FAILED: a.f2285()!=\"B.f2285\""); return 1; }
if (a.f2286() != "B.f2286") { Console.WriteLine("FAILED: a.f2286()!=\"B.f2286\""); return 1; }
if (a.f2287() != "B.f2287") { Console.WriteLine("FAILED: a.f2287()!=\"B.f2287\""); return 1; }
if (a.f2288() != "B.f2288") { Console.WriteLine("FAILED: a.f2288()!=\"B.f2288\""); return 1; }
if (a.f2289() != "B.f2289") { Console.WriteLine("FAILED: a.f2289()!=\"B.f2289\""); return 1; }
if (a.f2290() != "B.f2290") { Console.WriteLine("FAILED: a.f2290()!=\"B.f2290\""); return 1; }
if (a.f2291() != "B.f2291") { Console.WriteLine("FAILED: a.f2291()!=\"B.f2291\""); return 1; }
if (a.f2292() != "B.f2292") { Console.WriteLine("FAILED: a.f2292()!=\"B.f2292\""); return 1; }
if (a.f2293() != "B.f2293") { Console.WriteLine("FAILED: a.f2293()!=\"B.f2293\""); return 1; }
if (a.f2294() != "B.f2294") { Console.WriteLine("FAILED: a.f2294()!=\"B.f2294\""); return 1; }
if (a.f2295() != "B.f2295") { Console.WriteLine("FAILED: a.f2295()!=\"B.f2295\""); return 1; }
if (a.f2296() != "B.f2296") { Console.WriteLine("FAILED: a.f2296()!=\"B.f2296\""); return 1; }
if (a.f2297() != "B.f2297") { Console.WriteLine("FAILED: a.f2297()!=\"B.f2297\""); return 1; }
if (a.f2298() != "B.f2298") { Console.WriteLine("FAILED: a.f2298()!=\"B.f2298\""); return 1; }
if (a.f2299() != "B.f2299") { Console.WriteLine("FAILED: a.f2299()!=\"B.f2299\""); return 1; }
if (a.f2300() != "B.f2300") { Console.WriteLine("FAILED: a.f2300()!=\"B.f2300\""); return 1; }
if (a.f2301() != "B.f2301") { Console.WriteLine("FAILED: a.f2301()!=\"B.f2301\""); return 1; }
if (a.f2302() != "B.f2302") { Console.WriteLine("FAILED: a.f2302()!=\"B.f2302\""); return 1; }
if (a.f2303() != "B.f2303") { Console.WriteLine("FAILED: a.f2303()!=\"B.f2303\""); return 1; }
if (a.f2304() != "B.f2304") { Console.WriteLine("FAILED: a.f2304()!=\"B.f2304\""); return 1; }
if (a.f2305() != "B.f2305") { Console.WriteLine("FAILED: a.f2305()!=\"B.f2305\""); return 1; }
if (a.f2306() != "B.f2306") { Console.WriteLine("FAILED: a.f2306()!=\"B.f2306\""); return 1; }
if (a.f2307() != "B.f2307") { Console.WriteLine("FAILED: a.f2307()!=\"B.f2307\""); return 1; }
if (a.f2308() != "B.f2308") { Console.WriteLine("FAILED: a.f2308()!=\"B.f2308\""); return 1; }
if (a.f2309() != "B.f2309") { Console.WriteLine("FAILED: a.f2309()!=\"B.f2309\""); return 1; }
if (a.f2310() != "B.f2310") { Console.WriteLine("FAILED: a.f2310()!=\"B.f2310\""); return 1; }
if (a.f2311() != "B.f2311") { Console.WriteLine("FAILED: a.f2311()!=\"B.f2311\""); return 1; }
if (a.f2312() != "B.f2312") { Console.WriteLine("FAILED: a.f2312()!=\"B.f2312\""); return 1; }
if (a.f2313() != "B.f2313") { Console.WriteLine("FAILED: a.f2313()!=\"B.f2313\""); return 1; }
if (a.f2314() != "B.f2314") { Console.WriteLine("FAILED: a.f2314()!=\"B.f2314\""); return 1; }
if (a.f2315() != "B.f2315") { Console.WriteLine("FAILED: a.f2315()!=\"B.f2315\""); return 1; }
if (a.f2316() != "B.f2316") { Console.WriteLine("FAILED: a.f2316()!=\"B.f2316\""); return 1; }
if (a.f2317() != "B.f2317") { Console.WriteLine("FAILED: a.f2317()!=\"B.f2317\""); return 1; }
if (a.f2318() != "B.f2318") { Console.WriteLine("FAILED: a.f2318()!=\"B.f2318\""); return 1; }
if (a.f2319() != "B.f2319") { Console.WriteLine("FAILED: a.f2319()!=\"B.f2319\""); return 1; }
if (a.f2320() != "B.f2320") { Console.WriteLine("FAILED: a.f2320()!=\"B.f2320\""); return 1; }
if (a.f2321() != "B.f2321") { Console.WriteLine("FAILED: a.f2321()!=\"B.f2321\""); return 1; }
if (a.f2322() != "B.f2322") { Console.WriteLine("FAILED: a.f2322()!=\"B.f2322\""); return 1; }
if (a.f2323() != "B.f2323") { Console.WriteLine("FAILED: a.f2323()!=\"B.f2323\""); return 1; }
if (a.f2324() != "B.f2324") { Console.WriteLine("FAILED: a.f2324()!=\"B.f2324\""); return 1; }
if (a.f2325() != "B.f2325") { Console.WriteLine("FAILED: a.f2325()!=\"B.f2325\""); return 1; }
if (a.f2326() != "B.f2326") { Console.WriteLine("FAILED: a.f2326()!=\"B.f2326\""); return 1; }
if (a.f2327() != "B.f2327") { Console.WriteLine("FAILED: a.f2327()!=\"B.f2327\""); return 1; }
if (a.f2328() != "B.f2328") { Console.WriteLine("FAILED: a.f2328()!=\"B.f2328\""); return 1; }
if (a.f2329() != "B.f2329") { Console.WriteLine("FAILED: a.f2329()!=\"B.f2329\""); return 1; }
if (a.f2330() != "B.f2330") { Console.WriteLine("FAILED: a.f2330()!=\"B.f2330\""); return 1; }
if (a.f2331() != "B.f2331") { Console.WriteLine("FAILED: a.f2331()!=\"B.f2331\""); return 1; }
if (a.f2332() != "B.f2332") { Console.WriteLine("FAILED: a.f2332()!=\"B.f2332\""); return 1; }
if (a.f2333() != "B.f2333") { Console.WriteLine("FAILED: a.f2333()!=\"B.f2333\""); return 1; }
if (a.f2334() != "B.f2334") { Console.WriteLine("FAILED: a.f2334()!=\"B.f2334\""); return 1; }
if (a.f2335() != "B.f2335") { Console.WriteLine("FAILED: a.f2335()!=\"B.f2335\""); return 1; }
if (a.f2336() != "B.f2336") { Console.WriteLine("FAILED: a.f2336()!=\"B.f2336\""); return 1; }
if (a.f2337() != "B.f2337") { Console.WriteLine("FAILED: a.f2337()!=\"B.f2337\""); return 1; }
if (a.f2338() != "B.f2338") { Console.WriteLine("FAILED: a.f2338()!=\"B.f2338\""); return 1; }
if (a.f2339() != "B.f2339") { Console.WriteLine("FAILED: a.f2339()!=\"B.f2339\""); return 1; }
if (a.f2340() != "B.f2340") { Console.WriteLine("FAILED: a.f2340()!=\"B.f2340\""); return 1; }
if (a.f2341() != "B.f2341") { Console.WriteLine("FAILED: a.f2341()!=\"B.f2341\""); return 1; }
if (a.f2342() != "B.f2342") { Console.WriteLine("FAILED: a.f2342()!=\"B.f2342\""); return 1; }
if (a.f2343() != "B.f2343") { Console.WriteLine("FAILED: a.f2343()!=\"B.f2343\""); return 1; }
if (a.f2344() != "B.f2344") { Console.WriteLine("FAILED: a.f2344()!=\"B.f2344\""); return 1; }
if (a.f2345() != "B.f2345") { Console.WriteLine("FAILED: a.f2345()!=\"B.f2345\""); return 1; }
if (a.f2346() != "B.f2346") { Console.WriteLine("FAILED: a.f2346()!=\"B.f2346\""); return 1; }
if (a.f2347() != "B.f2347") { Console.WriteLine("FAILED: a.f2347()!=\"B.f2347\""); return 1; }
if (a.f2348() != "B.f2348") { Console.WriteLine("FAILED: a.f2348()!=\"B.f2348\""); return 1; }
if (a.f2349() != "B.f2349") { Console.WriteLine("FAILED: a.f2349()!=\"B.f2349\""); return 1; }
if (a.f2350() != "B.f2350") { Console.WriteLine("FAILED: a.f2350()!=\"B.f2350\""); return 1; }
if (a.f2351() != "B.f2351") { Console.WriteLine("FAILED: a.f2351()!=\"B.f2351\""); return 1; }
if (a.f2352() != "B.f2352") { Console.WriteLine("FAILED: a.f2352()!=\"B.f2352\""); return 1; }
if (a.f2353() != "B.f2353") { Console.WriteLine("FAILED: a.f2353()!=\"B.f2353\""); return 1; }
if (a.f2354() != "B.f2354") { Console.WriteLine("FAILED: a.f2354()!=\"B.f2354\""); return 1; }
if (a.f2355() != "B.f2355") { Console.WriteLine("FAILED: a.f2355()!=\"B.f2355\""); return 1; }
if (a.f2356() != "B.f2356") { Console.WriteLine("FAILED: a.f2356()!=\"B.f2356\""); return 1; }
if (a.f2357() != "B.f2357") { Console.WriteLine("FAILED: a.f2357()!=\"B.f2357\""); return 1; }
if (a.f2358() != "B.f2358") { Console.WriteLine("FAILED: a.f2358()!=\"B.f2358\""); return 1; }
if (a.f2359() != "B.f2359") { Console.WriteLine("FAILED: a.f2359()!=\"B.f2359\""); return 1; }
if (a.f2360() != "B.f2360") { Console.WriteLine("FAILED: a.f2360()!=\"B.f2360\""); return 1; }
if (a.f2361() != "B.f2361") { Console.WriteLine("FAILED: a.f2361()!=\"B.f2361\""); return 1; }
if (a.f2362() != "B.f2362") { Console.WriteLine("FAILED: a.f2362()!=\"B.f2362\""); return 1; }
if (a.f2363() != "B.f2363") { Console.WriteLine("FAILED: a.f2363()!=\"B.f2363\""); return 1; }
if (a.f2364() != "B.f2364") { Console.WriteLine("FAILED: a.f2364()!=\"B.f2364\""); return 1; }
if (a.f2365() != "B.f2365") { Console.WriteLine("FAILED: a.f2365()!=\"B.f2365\""); return 1; }
if (a.f2366() != "B.f2366") { Console.WriteLine("FAILED: a.f2366()!=\"B.f2366\""); return 1; }
if (a.f2367() != "B.f2367") { Console.WriteLine("FAILED: a.f2367()!=\"B.f2367\""); return 1; }
if (a.f2368() != "B.f2368") { Console.WriteLine("FAILED: a.f2368()!=\"B.f2368\""); return 1; }
if (a.f2369() != "B.f2369") { Console.WriteLine("FAILED: a.f2369()!=\"B.f2369\""); return 1; }
if (a.f2370() != "B.f2370") { Console.WriteLine("FAILED: a.f2370()!=\"B.f2370\""); return 1; }
if (a.f2371() != "B.f2371") { Console.WriteLine("FAILED: a.f2371()!=\"B.f2371\""); return 1; }
if (a.f2372() != "B.f2372") { Console.WriteLine("FAILED: a.f2372()!=\"B.f2372\""); return 1; }
if (a.f2373() != "B.f2373") { Console.WriteLine("FAILED: a.f2373()!=\"B.f2373\""); return 1; }
if (a.f2374() != "B.f2374") { Console.WriteLine("FAILED: a.f2374()!=\"B.f2374\""); return 1; }
if (a.f2375() != "B.f2375") { Console.WriteLine("FAILED: a.f2375()!=\"B.f2375\""); return 1; }
if (a.f2376() != "B.f2376") { Console.WriteLine("FAILED: a.f2376()!=\"B.f2376\""); return 1; }
if (a.f2377() != "B.f2377") { Console.WriteLine("FAILED: a.f2377()!=\"B.f2377\""); return 1; }
if (a.f2378() != "B.f2378") { Console.WriteLine("FAILED: a.f2378()!=\"B.f2378\""); return 1; }
if (a.f2379() != "B.f2379") { Console.WriteLine("FAILED: a.f2379()!=\"B.f2379\""); return 1; }
if (a.f2380() != "B.f2380") { Console.WriteLine("FAILED: a.f2380()!=\"B.f2380\""); return 1; }
if (a.f2381() != "B.f2381") { Console.WriteLine("FAILED: a.f2381()!=\"B.f2381\""); return 1; }
if (a.f2382() != "B.f2382") { Console.WriteLine("FAILED: a.f2382()!=\"B.f2382\""); return 1; }
if (a.f2383() != "B.f2383") { Console.WriteLine("FAILED: a.f2383()!=\"B.f2383\""); return 1; }
if (a.f2384() != "B.f2384") { Console.WriteLine("FAILED: a.f2384()!=\"B.f2384\""); return 1; }
if (a.f2385() != "B.f2385") { Console.WriteLine("FAILED: a.f2385()!=\"B.f2385\""); return 1; }
if (a.f2386() != "B.f2386") { Console.WriteLine("FAILED: a.f2386()!=\"B.f2386\""); return 1; }
if (a.f2387() != "B.f2387") { Console.WriteLine("FAILED: a.f2387()!=\"B.f2387\""); return 1; }
if (a.f2388() != "B.f2388") { Console.WriteLine("FAILED: a.f2388()!=\"B.f2388\""); return 1; }
if (a.f2389() != "B.f2389") { Console.WriteLine("FAILED: a.f2389()!=\"B.f2389\""); return 1; }
if (a.f2390() != "B.f2390") { Console.WriteLine("FAILED: a.f2390()!=\"B.f2390\""); return 1; }
if (a.f2391() != "B.f2391") { Console.WriteLine("FAILED: a.f2391()!=\"B.f2391\""); return 1; }
if (a.f2392() != "B.f2392") { Console.WriteLine("FAILED: a.f2392()!=\"B.f2392\""); return 1; }
if (a.f2393() != "B.f2393") { Console.WriteLine("FAILED: a.f2393()!=\"B.f2393\""); return 1; }
if (a.f2394() != "B.f2394") { Console.WriteLine("FAILED: a.f2394()!=\"B.f2394\""); return 1; }
if (a.f2395() != "B.f2395") { Console.WriteLine("FAILED: a.f2395()!=\"B.f2395\""); return 1; }
if (a.f2396() != "B.f2396") { Console.WriteLine("FAILED: a.f2396()!=\"B.f2396\""); return 1; }
if (a.f2397() != "B.f2397") { Console.WriteLine("FAILED: a.f2397()!=\"B.f2397\""); return 1; }
if (a.f2398() != "B.f2398") { Console.WriteLine("FAILED: a.f2398()!=\"B.f2398\""); return 1; }
if (a.f2399() != "B.f2399") { Console.WriteLine("FAILED: a.f2399()!=\"B.f2399\""); return 1; }
if (a.f2400() != "B.f2400") { Console.WriteLine("FAILED: a.f2400()!=\"B.f2400\""); return 1; }
if (a.f2401() != "B.f2401") { Console.WriteLine("FAILED: a.f2401()!=\"B.f2401\""); return 1; }
if (a.f2402() != "B.f2402") { Console.WriteLine("FAILED: a.f2402()!=\"B.f2402\""); return 1; }
if (a.f2403() != "B.f2403") { Console.WriteLine("FAILED: a.f2403()!=\"B.f2403\""); return 1; }
if (a.f2404() != "B.f2404") { Console.WriteLine("FAILED: a.f2404()!=\"B.f2404\""); return 1; }
if (a.f2405() != "B.f2405") { Console.WriteLine("FAILED: a.f2405()!=\"B.f2405\""); return 1; }
if (a.f2406() != "B.f2406") { Console.WriteLine("FAILED: a.f2406()!=\"B.f2406\""); return 1; }
if (a.f2407() != "B.f2407") { Console.WriteLine("FAILED: a.f2407()!=\"B.f2407\""); return 1; }
if (a.f2408() != "B.f2408") { Console.WriteLine("FAILED: a.f2408()!=\"B.f2408\""); return 1; }
if (a.f2409() != "B.f2409") { Console.WriteLine("FAILED: a.f2409()!=\"B.f2409\""); return 1; }
if (a.f2410() != "B.f2410") { Console.WriteLine("FAILED: a.f2410()!=\"B.f2410\""); return 1; }
if (a.f2411() != "B.f2411") { Console.WriteLine("FAILED: a.f2411()!=\"B.f2411\""); return 1; }
if (a.f2412() != "B.f2412") { Console.WriteLine("FAILED: a.f2412()!=\"B.f2412\""); return 1; }
if (a.f2413() != "B.f2413") { Console.WriteLine("FAILED: a.f2413()!=\"B.f2413\""); return 1; }
if (a.f2414() != "B.f2414") { Console.WriteLine("FAILED: a.f2414()!=\"B.f2414\""); return 1; }
if (a.f2415() != "B.f2415") { Console.WriteLine("FAILED: a.f2415()!=\"B.f2415\""); return 1; }
if (a.f2416() != "B.f2416") { Console.WriteLine("FAILED: a.f2416()!=\"B.f2416\""); return 1; }
if (a.f2417() != "B.f2417") { Console.WriteLine("FAILED: a.f2417()!=\"B.f2417\""); return 1; }
if (a.f2418() != "B.f2418") { Console.WriteLine("FAILED: a.f2418()!=\"B.f2418\""); return 1; }
if (a.f2419() != "B.f2419") { Console.WriteLine("FAILED: a.f2419()!=\"B.f2419\""); return 1; }
if (a.f2420() != "B.f2420") { Console.WriteLine("FAILED: a.f2420()!=\"B.f2420\""); return 1; }
if (a.f2421() != "B.f2421") { Console.WriteLine("FAILED: a.f2421()!=\"B.f2421\""); return 1; }
if (a.f2422() != "B.f2422") { Console.WriteLine("FAILED: a.f2422()!=\"B.f2422\""); return 1; }
if (a.f2423() != "B.f2423") { Console.WriteLine("FAILED: a.f2423()!=\"B.f2423\""); return 1; }
if (a.f2424() != "B.f2424") { Console.WriteLine("FAILED: a.f2424()!=\"B.f2424\""); return 1; }
if (a.f2425() != "B.f2425") { Console.WriteLine("FAILED: a.f2425()!=\"B.f2425\""); return 1; }
if (a.f2426() != "B.f2426") { Console.WriteLine("FAILED: a.f2426()!=\"B.f2426\""); return 1; }
if (a.f2427() != "B.f2427") { Console.WriteLine("FAILED: a.f2427()!=\"B.f2427\""); return 1; }
if (a.f2428() != "B.f2428") { Console.WriteLine("FAILED: a.f2428()!=\"B.f2428\""); return 1; }
if (a.f2429() != "B.f2429") { Console.WriteLine("FAILED: a.f2429()!=\"B.f2429\""); return 1; }
if (a.f2430() != "B.f2430") { Console.WriteLine("FAILED: a.f2430()!=\"B.f2430\""); return 1; }
if (a.f2431() != "B.f2431") { Console.WriteLine("FAILED: a.f2431()!=\"B.f2431\""); return 1; }
if (a.f2432() != "B.f2432") { Console.WriteLine("FAILED: a.f2432()!=\"B.f2432\""); return 1; }
if (a.f2433() != "B.f2433") { Console.WriteLine("FAILED: a.f2433()!=\"B.f2433\""); return 1; }
if (a.f2434() != "B.f2434") { Console.WriteLine("FAILED: a.f2434()!=\"B.f2434\""); return 1; }
if (a.f2435() != "B.f2435") { Console.WriteLine("FAILED: a.f2435()!=\"B.f2435\""); return 1; }
if (a.f2436() != "B.f2436") { Console.WriteLine("FAILED: a.f2436()!=\"B.f2436\""); return 1; }
if (a.f2437() != "B.f2437") { Console.WriteLine("FAILED: a.f2437()!=\"B.f2437\""); return 1; }
if (a.f2438() != "B.f2438") { Console.WriteLine("FAILED: a.f2438()!=\"B.f2438\""); return 1; }
if (a.f2439() != "B.f2439") { Console.WriteLine("FAILED: a.f2439()!=\"B.f2439\""); return 1; }
if (a.f2440() != "B.f2440") { Console.WriteLine("FAILED: a.f2440()!=\"B.f2440\""); return 1; }
if (a.f2441() != "B.f2441") { Console.WriteLine("FAILED: a.f2441()!=\"B.f2441\""); return 1; }
if (a.f2442() != "B.f2442") { Console.WriteLine("FAILED: a.f2442()!=\"B.f2442\""); return 1; }
if (a.f2443() != "B.f2443") { Console.WriteLine("FAILED: a.f2443()!=\"B.f2443\""); return 1; }
if (a.f2444() != "B.f2444") { Console.WriteLine("FAILED: a.f2444()!=\"B.f2444\""); return 1; }
if (a.f2445() != "B.f2445") { Console.WriteLine("FAILED: a.f2445()!=\"B.f2445\""); return 1; }
if (a.f2446() != "B.f2446") { Console.WriteLine("FAILED: a.f2446()!=\"B.f2446\""); return 1; }
if (a.f2447() != "B.f2447") { Console.WriteLine("FAILED: a.f2447()!=\"B.f2447\""); return 1; }
if (a.f2448() != "B.f2448") { Console.WriteLine("FAILED: a.f2448()!=\"B.f2448\""); return 1; }
if (a.f2449() != "B.f2449") { Console.WriteLine("FAILED: a.f2449()!=\"B.f2449\""); return 1; }
if (a.f2450() != "B.f2450") { Console.WriteLine("FAILED: a.f2450()!=\"B.f2450\""); return 1; }
if (a.f2451() != "B.f2451") { Console.WriteLine("FAILED: a.f2451()!=\"B.f2451\""); return 1; }
if (a.f2452() != "B.f2452") { Console.WriteLine("FAILED: a.f2452()!=\"B.f2452\""); return 1; }
if (a.f2453() != "B.f2453") { Console.WriteLine("FAILED: a.f2453()!=\"B.f2453\""); return 1; }
if (a.f2454() != "B.f2454") { Console.WriteLine("FAILED: a.f2454()!=\"B.f2454\""); return 1; }
if (a.f2455() != "B.f2455") { Console.WriteLine("FAILED: a.f2455()!=\"B.f2455\""); return 1; }
if (a.f2456() != "B.f2456") { Console.WriteLine("FAILED: a.f2456()!=\"B.f2456\""); return 1; }
if (a.f2457() != "B.f2457") { Console.WriteLine("FAILED: a.f2457()!=\"B.f2457\""); return 1; }
if (a.f2458() != "B.f2458") { Console.WriteLine("FAILED: a.f2458()!=\"B.f2458\""); return 1; }
if (a.f2459() != "B.f2459") { Console.WriteLine("FAILED: a.f2459()!=\"B.f2459\""); return 1; }
if (a.f2460() != "B.f2460") { Console.WriteLine("FAILED: a.f2460()!=\"B.f2460\""); return 1; }
if (a.f2461() != "B.f2461") { Console.WriteLine("FAILED: a.f2461()!=\"B.f2461\""); return 1; }
if (a.f2462() != "B.f2462") { Console.WriteLine("FAILED: a.f2462()!=\"B.f2462\""); return 1; }
if (a.f2463() != "B.f2463") { Console.WriteLine("FAILED: a.f2463()!=\"B.f2463\""); return 1; }
if (a.f2464() != "B.f2464") { Console.WriteLine("FAILED: a.f2464()!=\"B.f2464\""); return 1; }
if (a.f2465() != "B.f2465") { Console.WriteLine("FAILED: a.f2465()!=\"B.f2465\""); return 1; }
if (a.f2466() != "B.f2466") { Console.WriteLine("FAILED: a.f2466()!=\"B.f2466\""); return 1; }
if (a.f2467() != "B.f2467") { Console.WriteLine("FAILED: a.f2467()!=\"B.f2467\""); return 1; }
if (a.f2468() != "B.f2468") { Console.WriteLine("FAILED: a.f2468()!=\"B.f2468\""); return 1; }
if (a.f2469() != "B.f2469") { Console.WriteLine("FAILED: a.f2469()!=\"B.f2469\""); return 1; }
if (a.f2470() != "B.f2470") { Console.WriteLine("FAILED: a.f2470()!=\"B.f2470\""); return 1; }
if (a.f2471() != "B.f2471") { Console.WriteLine("FAILED: a.f2471()!=\"B.f2471\""); return 1; }
if (a.f2472() != "B.f2472") { Console.WriteLine("FAILED: a.f2472()!=\"B.f2472\""); return 1; }
if (a.f2473() != "B.f2473") { Console.WriteLine("FAILED: a.f2473()!=\"B.f2473\""); return 1; }
if (a.f2474() != "B.f2474") { Console.WriteLine("FAILED: a.f2474()!=\"B.f2474\""); return 1; }
if (a.f2475() != "B.f2475") { Console.WriteLine("FAILED: a.f2475()!=\"B.f2475\""); return 1; }
if (a.f2476() != "B.f2476") { Console.WriteLine("FAILED: a.f2476()!=\"B.f2476\""); return 1; }
if (a.f2477() != "B.f2477") { Console.WriteLine("FAILED: a.f2477()!=\"B.f2477\""); return 1; }
if (a.f2478() != "B.f2478") { Console.WriteLine("FAILED: a.f2478()!=\"B.f2478\""); return 1; }
if (a.f2479() != "B.f2479") { Console.WriteLine("FAILED: a.f2479()!=\"B.f2479\""); return 1; }
if (a.f2480() != "B.f2480") { Console.WriteLine("FAILED: a.f2480()!=\"B.f2480\""); return 1; }
if (a.f2481() != "B.f2481") { Console.WriteLine("FAILED: a.f2481()!=\"B.f2481\""); return 1; }
if (a.f2482() != "B.f2482") { Console.WriteLine("FAILED: a.f2482()!=\"B.f2482\""); return 1; }
if (a.f2483() != "B.f2483") { Console.WriteLine("FAILED: a.f2483()!=\"B.f2483\""); return 1; }
if (a.f2484() != "B.f2484") { Console.WriteLine("FAILED: a.f2484()!=\"B.f2484\""); return 1; }
if (a.f2485() != "B.f2485") { Console.WriteLine("FAILED: a.f2485()!=\"B.f2485\""); return 1; }
if (a.f2486() != "B.f2486") { Console.WriteLine("FAILED: a.f2486()!=\"B.f2486\""); return 1; }
if (a.f2487() != "B.f2487") { Console.WriteLine("FAILED: a.f2487()!=\"B.f2487\""); return 1; }
if (a.f2488() != "B.f2488") { Console.WriteLine("FAILED: a.f2488()!=\"B.f2488\""); return 1; }
if (a.f2489() != "B.f2489") { Console.WriteLine("FAILED: a.f2489()!=\"B.f2489\""); return 1; }
if (a.f2490() != "B.f2490") { Console.WriteLine("FAILED: a.f2490()!=\"B.f2490\""); return 1; }
if (a.f2491() != "B.f2491") { Console.WriteLine("FAILED: a.f2491()!=\"B.f2491\""); return 1; }
if (a.f2492() != "B.f2492") { Console.WriteLine("FAILED: a.f2492()!=\"B.f2492\""); return 1; }
if (a.f2493() != "B.f2493") { Console.WriteLine("FAILED: a.f2493()!=\"B.f2493\""); return 1; }
if (a.f2494() != "B.f2494") { Console.WriteLine("FAILED: a.f2494()!=\"B.f2494\""); return 1; }
if (a.f2495() != "B.f2495") { Console.WriteLine("FAILED: a.f2495()!=\"B.f2495\""); return 1; }
if (a.f2496() != "B.f2496") { Console.WriteLine("FAILED: a.f2496()!=\"B.f2496\""); return 1; }
if (a.f2497() != "B.f2497") { Console.WriteLine("FAILED: a.f2497()!=\"B.f2497\""); return 1; }
if (a.f2498() != "B.f2498") { Console.WriteLine("FAILED: a.f2498()!=\"B.f2498\""); return 1; }
if (a.f2499() != "B.f2499") { Console.WriteLine("FAILED: a.f2499()!=\"B.f2499\""); return 1; }
if (a.f2500() != "B.f2500") { Console.WriteLine("FAILED: a.f2500()!=\"B.f2500\""); return 1; }
if (a.f2501() != "B.f2501") { Console.WriteLine("FAILED: a.f2501()!=\"B.f2501\""); return 1; }
if (a.f2502() != "B.f2502") { Console.WriteLine("FAILED: a.f2502()!=\"B.f2502\""); return 1; }
if (a.f2503() != "B.f2503") { Console.WriteLine("FAILED: a.f2503()!=\"B.f2503\""); return 1; }
if (a.f2504() != "B.f2504") { Console.WriteLine("FAILED: a.f2504()!=\"B.f2504\""); return 1; }
if (a.f2505() != "B.f2505") { Console.WriteLine("FAILED: a.f2505()!=\"B.f2505\""); return 1; }
if (a.f2506() != "B.f2506") { Console.WriteLine("FAILED: a.f2506()!=\"B.f2506\""); return 1; }
if (a.f2507() != "B.f2507") { Console.WriteLine("FAILED: a.f2507()!=\"B.f2507\""); return 1; }
if (a.f2508() != "B.f2508") { Console.WriteLine("FAILED: a.f2508()!=\"B.f2508\""); return 1; }
if (a.f2509() != "B.f2509") { Console.WriteLine("FAILED: a.f2509()!=\"B.f2509\""); return 1; }
if (a.f2510() != "B.f2510") { Console.WriteLine("FAILED: a.f2510()!=\"B.f2510\""); return 1; }
if (a.f2511() != "B.f2511") { Console.WriteLine("FAILED: a.f2511()!=\"B.f2511\""); return 1; }
if (a.f2512() != "B.f2512") { Console.WriteLine("FAILED: a.f2512()!=\"B.f2512\""); return 1; }
if (a.f2513() != "B.f2513") { Console.WriteLine("FAILED: a.f2513()!=\"B.f2513\""); return 1; }
if (a.f2514() != "B.f2514") { Console.WriteLine("FAILED: a.f2514()!=\"B.f2514\""); return 1; }
if (a.f2515() != "B.f2515") { Console.WriteLine("FAILED: a.f2515()!=\"B.f2515\""); return 1; }
if (a.f2516() != "B.f2516") { Console.WriteLine("FAILED: a.f2516()!=\"B.f2516\""); return 1; }
if (a.f2517() != "B.f2517") { Console.WriteLine("FAILED: a.f2517()!=\"B.f2517\""); return 1; }
if (a.f2518() != "B.f2518") { Console.WriteLine("FAILED: a.f2518()!=\"B.f2518\""); return 1; }
if (a.f2519() != "B.f2519") { Console.WriteLine("FAILED: a.f2519()!=\"B.f2519\""); return 1; }
if (a.f2520() != "B.f2520") { Console.WriteLine("FAILED: a.f2520()!=\"B.f2520\""); return 1; }
if (a.f2521() != "B.f2521") { Console.WriteLine("FAILED: a.f2521()!=\"B.f2521\""); return 1; }
if (a.f2522() != "B.f2522") { Console.WriteLine("FAILED: a.f2522()!=\"B.f2522\""); return 1; }
if (a.f2523() != "B.f2523") { Console.WriteLine("FAILED: a.f2523()!=\"B.f2523\""); return 1; }
if (a.f2524() != "B.f2524") { Console.WriteLine("FAILED: a.f2524()!=\"B.f2524\""); return 1; }
if (a.f2525() != "B.f2525") { Console.WriteLine("FAILED: a.f2525()!=\"B.f2525\""); return 1; }
if (a.f2526() != "B.f2526") { Console.WriteLine("FAILED: a.f2526()!=\"B.f2526\""); return 1; }
if (a.f2527() != "B.f2527") { Console.WriteLine("FAILED: a.f2527()!=\"B.f2527\""); return 1; }
if (a.f2528() != "B.f2528") { Console.WriteLine("FAILED: a.f2528()!=\"B.f2528\""); return 1; }
if (a.f2529() != "B.f2529") { Console.WriteLine("FAILED: a.f2529()!=\"B.f2529\""); return 1; }
if (a.f2530() != "B.f2530") { Console.WriteLine("FAILED: a.f2530()!=\"B.f2530\""); return 1; }
if (a.f2531() != "B.f2531") { Console.WriteLine("FAILED: a.f2531()!=\"B.f2531\""); return 1; }
if (a.f2532() != "B.f2532") { Console.WriteLine("FAILED: a.f2532()!=\"B.f2532\""); return 1; }
if (a.f2533() != "B.f2533") { Console.WriteLine("FAILED: a.f2533()!=\"B.f2533\""); return 1; }
if (a.f2534() != "B.f2534") { Console.WriteLine("FAILED: a.f2534()!=\"B.f2534\""); return 1; }
if (a.f2535() != "B.f2535") { Console.WriteLine("FAILED: a.f2535()!=\"B.f2535\""); return 1; }
if (a.f2536() != "B.f2536") { Console.WriteLine("FAILED: a.f2536()!=\"B.f2536\""); return 1; }
if (a.f2537() != "B.f2537") { Console.WriteLine("FAILED: a.f2537()!=\"B.f2537\""); return 1; }
if (a.f2538() != "B.f2538") { Console.WriteLine("FAILED: a.f2538()!=\"B.f2538\""); return 1; }
if (a.f2539() != "B.f2539") { Console.WriteLine("FAILED: a.f2539()!=\"B.f2539\""); return 1; }
if (a.f2540() != "B.f2540") { Console.WriteLine("FAILED: a.f2540()!=\"B.f2540\""); return 1; }
if (a.f2541() != "B.f2541") { Console.WriteLine("FAILED: a.f2541()!=\"B.f2541\""); return 1; }
if (a.f2542() != "B.f2542") { Console.WriteLine("FAILED: a.f2542()!=\"B.f2542\""); return 1; }
if (a.f2543() != "B.f2543") { Console.WriteLine("FAILED: a.f2543()!=\"B.f2543\""); return 1; }
if (a.f2544() != "B.f2544") { Console.WriteLine("FAILED: a.f2544()!=\"B.f2544\""); return 1; }
if (a.f2545() != "B.f2545") { Console.WriteLine("FAILED: a.f2545()!=\"B.f2545\""); return 1; }
if (a.f2546() != "B.f2546") { Console.WriteLine("FAILED: a.f2546()!=\"B.f2546\""); return 1; }
if (a.f2547() != "B.f2547") { Console.WriteLine("FAILED: a.f2547()!=\"B.f2547\""); return 1; }
if (a.f2548() != "B.f2548") { Console.WriteLine("FAILED: a.f2548()!=\"B.f2548\""); return 1; }
if (a.f2549() != "B.f2549") { Console.WriteLine("FAILED: a.f2549()!=\"B.f2549\""); return 1; }
if (a.f2550() != "B.f2550") { Console.WriteLine("FAILED: a.f2550()!=\"B.f2550\""); return 1; }
if (a.f2551() != "B.f2551") { Console.WriteLine("FAILED: a.f2551()!=\"B.f2551\""); return 1; }
if (a.f2552() != "B.f2552") { Console.WriteLine("FAILED: a.f2552()!=\"B.f2552\""); return 1; }
if (a.f2553() != "B.f2553") { Console.WriteLine("FAILED: a.f2553()!=\"B.f2553\""); return 1; }
if (a.f2554() != "B.f2554") { Console.WriteLine("FAILED: a.f2554()!=\"B.f2554\""); return 1; }
if (a.f2555() != "B.f2555") { Console.WriteLine("FAILED: a.f2555()!=\"B.f2555\""); return 1; }
if (a.f2556() != "B.f2556") { Console.WriteLine("FAILED: a.f2556()!=\"B.f2556\""); return 1; }
if (a.f2557() != "B.f2557") { Console.WriteLine("FAILED: a.f2557()!=\"B.f2557\""); return 1; }
if (a.f2558() != "B.f2558") { Console.WriteLine("FAILED: a.f2558()!=\"B.f2558\""); return 1; }
if (a.f2559() != "B.f2559") { Console.WriteLine("FAILED: a.f2559()!=\"B.f2559\""); return 1; }
if (a.f2560() != "B.f2560") { Console.WriteLine("FAILED: a.f2560()!=\"B.f2560\""); return 1; }
if (a.f2561() != "B.f2561") { Console.WriteLine("FAILED: a.f2561()!=\"B.f2561\""); return 1; }
if (a.f2562() != "B.f2562") { Console.WriteLine("FAILED: a.f2562()!=\"B.f2562\""); return 1; }
if (a.f2563() != "B.f2563") { Console.WriteLine("FAILED: a.f2563()!=\"B.f2563\""); return 1; }
if (a.f2564() != "B.f2564") { Console.WriteLine("FAILED: a.f2564()!=\"B.f2564\""); return 1; }
if (a.f2565() != "B.f2565") { Console.WriteLine("FAILED: a.f2565()!=\"B.f2565\""); return 1; }
if (a.f2566() != "B.f2566") { Console.WriteLine("FAILED: a.f2566()!=\"B.f2566\""); return 1; }
if (a.f2567() != "B.f2567") { Console.WriteLine("FAILED: a.f2567()!=\"B.f2567\""); return 1; }
if (a.f2568() != "B.f2568") { Console.WriteLine("FAILED: a.f2568()!=\"B.f2568\""); return 1; }
if (a.f2569() != "B.f2569") { Console.WriteLine("FAILED: a.f2569()!=\"B.f2569\""); return 1; }
if (a.f2570() != "B.f2570") { Console.WriteLine("FAILED: a.f2570()!=\"B.f2570\""); return 1; }
if (a.f2571() != "B.f2571") { Console.WriteLine("FAILED: a.f2571()!=\"B.f2571\""); return 1; }
if (a.f2572() != "B.f2572") { Console.WriteLine("FAILED: a.f2572()!=\"B.f2572\""); return 1; }
if (a.f2573() != "B.f2573") { Console.WriteLine("FAILED: a.f2573()!=\"B.f2573\""); return 1; }
if (a.f2574() != "B.f2574") { Console.WriteLine("FAILED: a.f2574()!=\"B.f2574\""); return 1; }
if (a.f2575() != "B.f2575") { Console.WriteLine("FAILED: a.f2575()!=\"B.f2575\""); return 1; }
if (a.f2576() != "B.f2576") { Console.WriteLine("FAILED: a.f2576()!=\"B.f2576\""); return 1; }
if (a.f2577() != "B.f2577") { Console.WriteLine("FAILED: a.f2577()!=\"B.f2577\""); return 1; }
if (a.f2578() != "B.f2578") { Console.WriteLine("FAILED: a.f2578()!=\"B.f2578\""); return 1; }
if (a.f2579() != "B.f2579") { Console.WriteLine("FAILED: a.f2579()!=\"B.f2579\""); return 1; }
if (a.f2580() != "B.f2580") { Console.WriteLine("FAILED: a.f2580()!=\"B.f2580\""); return 1; }
if (a.f2581() != "B.f2581") { Console.WriteLine("FAILED: a.f2581()!=\"B.f2581\""); return 1; }
if (a.f2582() != "B.f2582") { Console.WriteLine("FAILED: a.f2582()!=\"B.f2582\""); return 1; }
if (a.f2583() != "B.f2583") { Console.WriteLine("FAILED: a.f2583()!=\"B.f2583\""); return 1; }
if (a.f2584() != "B.f2584") { Console.WriteLine("FAILED: a.f2584()!=\"B.f2584\""); return 1; }
if (a.f2585() != "B.f2585") { Console.WriteLine("FAILED: a.f2585()!=\"B.f2585\""); return 1; }
if (a.f2586() != "B.f2586") { Console.WriteLine("FAILED: a.f2586()!=\"B.f2586\""); return 1; }
if (a.f2587() != "B.f2587") { Console.WriteLine("FAILED: a.f2587()!=\"B.f2587\""); return 1; }
if (a.f2588() != "B.f2588") { Console.WriteLine("FAILED: a.f2588()!=\"B.f2588\""); return 1; }
if (a.f2589() != "B.f2589") { Console.WriteLine("FAILED: a.f2589()!=\"B.f2589\""); return 1; }
if (a.f2590() != "B.f2590") { Console.WriteLine("FAILED: a.f2590()!=\"B.f2590\""); return 1; }
if (a.f2591() != "B.f2591") { Console.WriteLine("FAILED: a.f2591()!=\"B.f2591\""); return 1; }
if (a.f2592() != "B.f2592") { Console.WriteLine("FAILED: a.f2592()!=\"B.f2592\""); return 1; }
if (a.f2593() != "B.f2593") { Console.WriteLine("FAILED: a.f2593()!=\"B.f2593\""); return 1; }
if (a.f2594() != "B.f2594") { Console.WriteLine("FAILED: a.f2594()!=\"B.f2594\""); return 1; }
if (a.f2595() != "B.f2595") { Console.WriteLine("FAILED: a.f2595()!=\"B.f2595\""); return 1; }
if (a.f2596() != "B.f2596") { Console.WriteLine("FAILED: a.f2596()!=\"B.f2596\""); return 1; }
if (a.f2597() != "B.f2597") { Console.WriteLine("FAILED: a.f2597()!=\"B.f2597\""); return 1; }
if (a.f2598() != "B.f2598") { Console.WriteLine("FAILED: a.f2598()!=\"B.f2598\""); return 1; }
if (a.f2599() != "B.f2599") { Console.WriteLine("FAILED: a.f2599()!=\"B.f2599\""); return 1; }
if (a.f2600() != "B.f2600") { Console.WriteLine("FAILED: a.f2600()!=\"B.f2600\""); return 1; }
if (a.f2601() != "B.f2601") { Console.WriteLine("FAILED: a.f2601()!=\"B.f2601\""); return 1; }
if (a.f2602() != "B.f2602") { Console.WriteLine("FAILED: a.f2602()!=\"B.f2602\""); return 1; }
if (a.f2603() != "B.f2603") { Console.WriteLine("FAILED: a.f2603()!=\"B.f2603\""); return 1; }
if (a.f2604() != "B.f2604") { Console.WriteLine("FAILED: a.f2604()!=\"B.f2604\""); return 1; }
if (a.f2605() != "B.f2605") { Console.WriteLine("FAILED: a.f2605()!=\"B.f2605\""); return 1; }
if (a.f2606() != "B.f2606") { Console.WriteLine("FAILED: a.f2606()!=\"B.f2606\""); return 1; }
if (a.f2607() != "B.f2607") { Console.WriteLine("FAILED: a.f2607()!=\"B.f2607\""); return 1; }
if (a.f2608() != "B.f2608") { Console.WriteLine("FAILED: a.f2608()!=\"B.f2608\""); return 1; }
if (a.f2609() != "B.f2609") { Console.WriteLine("FAILED: a.f2609()!=\"B.f2609\""); return 1; }
if (a.f2610() != "B.f2610") { Console.WriteLine("FAILED: a.f2610()!=\"B.f2610\""); return 1; }
if (a.f2611() != "B.f2611") { Console.WriteLine("FAILED: a.f2611()!=\"B.f2611\""); return 1; }
if (a.f2612() != "B.f2612") { Console.WriteLine("FAILED: a.f2612()!=\"B.f2612\""); return 1; }
if (a.f2613() != "B.f2613") { Console.WriteLine("FAILED: a.f2613()!=\"B.f2613\""); return 1; }
if (a.f2614() != "B.f2614") { Console.WriteLine("FAILED: a.f2614()!=\"B.f2614\""); return 1; }
if (a.f2615() != "B.f2615") { Console.WriteLine("FAILED: a.f2615()!=\"B.f2615\""); return 1; }
if (a.f2616() != "B.f2616") { Console.WriteLine("FAILED: a.f2616()!=\"B.f2616\""); return 1; }
if (a.f2617() != "B.f2617") { Console.WriteLine("FAILED: a.f2617()!=\"B.f2617\""); return 1; }
if (a.f2618() != "B.f2618") { Console.WriteLine("FAILED: a.f2618()!=\"B.f2618\""); return 1; }
if (a.f2619() != "B.f2619") { Console.WriteLine("FAILED: a.f2619()!=\"B.f2619\""); return 1; }
if (a.f2620() != "B.f2620") { Console.WriteLine("FAILED: a.f2620()!=\"B.f2620\""); return 1; }
if (a.f2621() != "B.f2621") { Console.WriteLine("FAILED: a.f2621()!=\"B.f2621\""); return 1; }
if (a.f2622() != "B.f2622") { Console.WriteLine("FAILED: a.f2622()!=\"B.f2622\""); return 1; }
if (a.f2623() != "B.f2623") { Console.WriteLine("FAILED: a.f2623()!=\"B.f2623\""); return 1; }
if (a.f2624() != "B.f2624") { Console.WriteLine("FAILED: a.f2624()!=\"B.f2624\""); return 1; }
if (a.f2625() != "B.f2625") { Console.WriteLine("FAILED: a.f2625()!=\"B.f2625\""); return 1; }
if (a.f2626() != "B.f2626") { Console.WriteLine("FAILED: a.f2626()!=\"B.f2626\""); return 1; }
if (a.f2627() != "B.f2627") { Console.WriteLine("FAILED: a.f2627()!=\"B.f2627\""); return 1; }
if (a.f2628() != "B.f2628") { Console.WriteLine("FAILED: a.f2628()!=\"B.f2628\""); return 1; }
if (a.f2629() != "B.f2629") { Console.WriteLine("FAILED: a.f2629()!=\"B.f2629\""); return 1; }
if (a.f2630() != "B.f2630") { Console.WriteLine("FAILED: a.f2630()!=\"B.f2630\""); return 1; }
if (a.f2631() != "B.f2631") { Console.WriteLine("FAILED: a.f2631()!=\"B.f2631\""); return 1; }
if (a.f2632() != "B.f2632") { Console.WriteLine("FAILED: a.f2632()!=\"B.f2632\""); return 1; }
if (a.f2633() != "B.f2633") { Console.WriteLine("FAILED: a.f2633()!=\"B.f2633\""); return 1; }
if (a.f2634() != "B.f2634") { Console.WriteLine("FAILED: a.f2634()!=\"B.f2634\""); return 1; }
if (a.f2635() != "B.f2635") { Console.WriteLine("FAILED: a.f2635()!=\"B.f2635\""); return 1; }
if (a.f2636() != "B.f2636") { Console.WriteLine("FAILED: a.f2636()!=\"B.f2636\""); return 1; }
if (a.f2637() != "B.f2637") { Console.WriteLine("FAILED: a.f2637()!=\"B.f2637\""); return 1; }
if (a.f2638() != "B.f2638") { Console.WriteLine("FAILED: a.f2638()!=\"B.f2638\""); return 1; }
if (a.f2639() != "B.f2639") { Console.WriteLine("FAILED: a.f2639()!=\"B.f2639\""); return 1; }
if (a.f2640() != "B.f2640") { Console.WriteLine("FAILED: a.f2640()!=\"B.f2640\""); return 1; }
if (a.f2641() != "B.f2641") { Console.WriteLine("FAILED: a.f2641()!=\"B.f2641\""); return 1; }
if (a.f2642() != "B.f2642") { Console.WriteLine("FAILED: a.f2642()!=\"B.f2642\""); return 1; }
if (a.f2643() != "B.f2643") { Console.WriteLine("FAILED: a.f2643()!=\"B.f2643\""); return 1; }
if (a.f2644() != "B.f2644") { Console.WriteLine("FAILED: a.f2644()!=\"B.f2644\""); return 1; }
if (a.f2645() != "B.f2645") { Console.WriteLine("FAILED: a.f2645()!=\"B.f2645\""); return 1; }
if (a.f2646() != "B.f2646") { Console.WriteLine("FAILED: a.f2646()!=\"B.f2646\""); return 1; }
if (a.f2647() != "B.f2647") { Console.WriteLine("FAILED: a.f2647()!=\"B.f2647\""); return 1; }
if (a.f2648() != "B.f2648") { Console.WriteLine("FAILED: a.f2648()!=\"B.f2648\""); return 1; }
if (a.f2649() != "B.f2649") { Console.WriteLine("FAILED: a.f2649()!=\"B.f2649\""); return 1; }
if (a.f2650() != "B.f2650") { Console.WriteLine("FAILED: a.f2650()!=\"B.f2650\""); return 1; }
if (a.f2651() != "B.f2651") { Console.WriteLine("FAILED: a.f2651()!=\"B.f2651\""); return 1; }
if (a.f2652() != "B.f2652") { Console.WriteLine("FAILED: a.f2652()!=\"B.f2652\""); return 1; }
if (a.f2653() != "B.f2653") { Console.WriteLine("FAILED: a.f2653()!=\"B.f2653\""); return 1; }
if (a.f2654() != "B.f2654") { Console.WriteLine("FAILED: a.f2654()!=\"B.f2654\""); return 1; }
if (a.f2655() != "B.f2655") { Console.WriteLine("FAILED: a.f2655()!=\"B.f2655\""); return 1; }
if (a.f2656() != "B.f2656") { Console.WriteLine("FAILED: a.f2656()!=\"B.f2656\""); return 1; }
if (a.f2657() != "B.f2657") { Console.WriteLine("FAILED: a.f2657()!=\"B.f2657\""); return 1; }
if (a.f2658() != "B.f2658") { Console.WriteLine("FAILED: a.f2658()!=\"B.f2658\""); return 1; }
if (a.f2659() != "B.f2659") { Console.WriteLine("FAILED: a.f2659()!=\"B.f2659\""); return 1; }
if (a.f2660() != "B.f2660") { Console.WriteLine("FAILED: a.f2660()!=\"B.f2660\""); return 1; }
if (a.f2661() != "B.f2661") { Console.WriteLine("FAILED: a.f2661()!=\"B.f2661\""); return 1; }
if (a.f2662() != "B.f2662") { Console.WriteLine("FAILED: a.f2662()!=\"B.f2662\""); return 1; }
if (a.f2663() != "B.f2663") { Console.WriteLine("FAILED: a.f2663()!=\"B.f2663\""); return 1; }
if (a.f2664() != "B.f2664") { Console.WriteLine("FAILED: a.f2664()!=\"B.f2664\""); return 1; }
if (a.f2665() != "B.f2665") { Console.WriteLine("FAILED: a.f2665()!=\"B.f2665\""); return 1; }
if (a.f2666() != "B.f2666") { Console.WriteLine("FAILED: a.f2666()!=\"B.f2666\""); return 1; }
if (a.f2667() != "B.f2667") { Console.WriteLine("FAILED: a.f2667()!=\"B.f2667\""); return 1; }
if (a.f2668() != "B.f2668") { Console.WriteLine("FAILED: a.f2668()!=\"B.f2668\""); return 1; }
if (a.f2669() != "B.f2669") { Console.WriteLine("FAILED: a.f2669()!=\"B.f2669\""); return 1; }
if (a.f2670() != "B.f2670") { Console.WriteLine("FAILED: a.f2670()!=\"B.f2670\""); return 1; }
if (a.f2671() != "B.f2671") { Console.WriteLine("FAILED: a.f2671()!=\"B.f2671\""); return 1; }
if (a.f2672() != "B.f2672") { Console.WriteLine("FAILED: a.f2672()!=\"B.f2672\""); return 1; }
if (a.f2673() != "B.f2673") { Console.WriteLine("FAILED: a.f2673()!=\"B.f2673\""); return 1; }
if (a.f2674() != "B.f2674") { Console.WriteLine("FAILED: a.f2674()!=\"B.f2674\""); return 1; }
if (a.f2675() != "B.f2675") { Console.WriteLine("FAILED: a.f2675()!=\"B.f2675\""); return 1; }
if (a.f2676() != "B.f2676") { Console.WriteLine("FAILED: a.f2676()!=\"B.f2676\""); return 1; }
if (a.f2677() != "B.f2677") { Console.WriteLine("FAILED: a.f2677()!=\"B.f2677\""); return 1; }
if (a.f2678() != "B.f2678") { Console.WriteLine("FAILED: a.f2678()!=\"B.f2678\""); return 1; }
if (a.f2679() != "B.f2679") { Console.WriteLine("FAILED: a.f2679()!=\"B.f2679\""); return 1; }
if (a.f2680() != "B.f2680") { Console.WriteLine("FAILED: a.f2680()!=\"B.f2680\""); return 1; }
if (a.f2681() != "B.f2681") { Console.WriteLine("FAILED: a.f2681()!=\"B.f2681\""); return 1; }
if (a.f2682() != "B.f2682") { Console.WriteLine("FAILED: a.f2682()!=\"B.f2682\""); return 1; }
if (a.f2683() != "B.f2683") { Console.WriteLine("FAILED: a.f2683()!=\"B.f2683\""); return 1; }
if (a.f2684() != "B.f2684") { Console.WriteLine("FAILED: a.f2684()!=\"B.f2684\""); return 1; }
if (a.f2685() != "B.f2685") { Console.WriteLine("FAILED: a.f2685()!=\"B.f2685\""); return 1; }
if (a.f2686() != "B.f2686") { Console.WriteLine("FAILED: a.f2686()!=\"B.f2686\""); return 1; }
if (a.f2687() != "B.f2687") { Console.WriteLine("FAILED: a.f2687()!=\"B.f2687\""); return 1; }
if (a.f2688() != "B.f2688") { Console.WriteLine("FAILED: a.f2688()!=\"B.f2688\""); return 1; }
if (a.f2689() != "B.f2689") { Console.WriteLine("FAILED: a.f2689()!=\"B.f2689\""); return 1; }
if (a.f2690() != "B.f2690") { Console.WriteLine("FAILED: a.f2690()!=\"B.f2690\""); return 1; }
if (a.f2691() != "B.f2691") { Console.WriteLine("FAILED: a.f2691()!=\"B.f2691\""); return 1; }
if (a.f2692() != "B.f2692") { Console.WriteLine("FAILED: a.f2692()!=\"B.f2692\""); return 1; }
if (a.f2693() != "B.f2693") { Console.WriteLine("FAILED: a.f2693()!=\"B.f2693\""); return 1; }
if (a.f2694() != "B.f2694") { Console.WriteLine("FAILED: a.f2694()!=\"B.f2694\""); return 1; }
if (a.f2695() != "B.f2695") { Console.WriteLine("FAILED: a.f2695()!=\"B.f2695\""); return 1; }
if (a.f2696() != "B.f2696") { Console.WriteLine("FAILED: a.f2696()!=\"B.f2696\""); return 1; }
if (a.f2697() != "B.f2697") { Console.WriteLine("FAILED: a.f2697()!=\"B.f2697\""); return 1; }
if (a.f2698() != "B.f2698") { Console.WriteLine("FAILED: a.f2698()!=\"B.f2698\""); return 1; }
if (a.f2699() != "B.f2699") { Console.WriteLine("FAILED: a.f2699()!=\"B.f2699\""); return 1; }
if (a.f2700() != "B.f2700") { Console.WriteLine("FAILED: a.f2700()!=\"B.f2700\""); return 1; }
if (a.f2701() != "B.f2701") { Console.WriteLine("FAILED: a.f2701()!=\"B.f2701\""); return 1; }
if (a.f2702() != "B.f2702") { Console.WriteLine("FAILED: a.f2702()!=\"B.f2702\""); return 1; }
if (a.f2703() != "B.f2703") { Console.WriteLine("FAILED: a.f2703()!=\"B.f2703\""); return 1; }
if (a.f2704() != "B.f2704") { Console.WriteLine("FAILED: a.f2704()!=\"B.f2704\""); return 1; }
if (a.f2705() != "B.f2705") { Console.WriteLine("FAILED: a.f2705()!=\"B.f2705\""); return 1; }
if (a.f2706() != "B.f2706") { Console.WriteLine("FAILED: a.f2706()!=\"B.f2706\""); return 1; }
if (a.f2707() != "B.f2707") { Console.WriteLine("FAILED: a.f2707()!=\"B.f2707\""); return 1; }
if (a.f2708() != "B.f2708") { Console.WriteLine("FAILED: a.f2708()!=\"B.f2708\""); return 1; }
if (a.f2709() != "B.f2709") { Console.WriteLine("FAILED: a.f2709()!=\"B.f2709\""); return 1; }
if (a.f2710() != "B.f2710") { Console.WriteLine("FAILED: a.f2710()!=\"B.f2710\""); return 1; }
if (a.f2711() != "B.f2711") { Console.WriteLine("FAILED: a.f2711()!=\"B.f2711\""); return 1; }
if (a.f2712() != "B.f2712") { Console.WriteLine("FAILED: a.f2712()!=\"B.f2712\""); return 1; }
if (a.f2713() != "B.f2713") { Console.WriteLine("FAILED: a.f2713()!=\"B.f2713\""); return 1; }
if (a.f2714() != "B.f2714") { Console.WriteLine("FAILED: a.f2714()!=\"B.f2714\""); return 1; }
if (a.f2715() != "B.f2715") { Console.WriteLine("FAILED: a.f2715()!=\"B.f2715\""); return 1; }
if (a.f2716() != "B.f2716") { Console.WriteLine("FAILED: a.f2716()!=\"B.f2716\""); return 1; }
if (a.f2717() != "B.f2717") { Console.WriteLine("FAILED: a.f2717()!=\"B.f2717\""); return 1; }
if (a.f2718() != "B.f2718") { Console.WriteLine("FAILED: a.f2718()!=\"B.f2718\""); return 1; }
if (a.f2719() != "B.f2719") { Console.WriteLine("FAILED: a.f2719()!=\"B.f2719\""); return 1; }
if (a.f2720() != "B.f2720") { Console.WriteLine("FAILED: a.f2720()!=\"B.f2720\""); return 1; }
if (a.f2721() != "B.f2721") { Console.WriteLine("FAILED: a.f2721()!=\"B.f2721\""); return 1; }
if (a.f2722() != "B.f2722") { Console.WriteLine("FAILED: a.f2722()!=\"B.f2722\""); return 1; }
if (a.f2723() != "B.f2723") { Console.WriteLine("FAILED: a.f2723()!=\"B.f2723\""); return 1; }
if (a.f2724() != "B.f2724") { Console.WriteLine("FAILED: a.f2724()!=\"B.f2724\""); return 1; }
if (a.f2725() != "B.f2725") { Console.WriteLine("FAILED: a.f2725()!=\"B.f2725\""); return 1; }
if (a.f2726() != "B.f2726") { Console.WriteLine("FAILED: a.f2726()!=\"B.f2726\""); return 1; }
if (a.f2727() != "B.f2727") { Console.WriteLine("FAILED: a.f2727()!=\"B.f2727\""); return 1; }
if (a.f2728() != "B.f2728") { Console.WriteLine("FAILED: a.f2728()!=\"B.f2728\""); return 1; }
if (a.f2729() != "B.f2729") { Console.WriteLine("FAILED: a.f2729()!=\"B.f2729\""); return 1; }
if (a.f2730() != "B.f2730") { Console.WriteLine("FAILED: a.f2730()!=\"B.f2730\""); return 1; }
if (a.f2731() != "B.f2731") { Console.WriteLine("FAILED: a.f2731()!=\"B.f2731\""); return 1; }
if (a.f2732() != "B.f2732") { Console.WriteLine("FAILED: a.f2732()!=\"B.f2732\""); return 1; }
if (a.f2733() != "B.f2733") { Console.WriteLine("FAILED: a.f2733()!=\"B.f2733\""); return 1; }
if (a.f2734() != "B.f2734") { Console.WriteLine("FAILED: a.f2734()!=\"B.f2734\""); return 1; }
if (a.f2735() != "B.f2735") { Console.WriteLine("FAILED: a.f2735()!=\"B.f2735\""); return 1; }
if (a.f2736() != "B.f2736") { Console.WriteLine("FAILED: a.f2736()!=\"B.f2736\""); return 1; }
if (a.f2737() != "B.f2737") { Console.WriteLine("FAILED: a.f2737()!=\"B.f2737\""); return 1; }
if (a.f2738() != "B.f2738") { Console.WriteLine("FAILED: a.f2738()!=\"B.f2738\""); return 1; }
if (a.f2739() != "B.f2739") { Console.WriteLine("FAILED: a.f2739()!=\"B.f2739\""); return 1; }
if (a.f2740() != "B.f2740") { Console.WriteLine("FAILED: a.f2740()!=\"B.f2740\""); return 1; }
if (a.f2741() != "B.f2741") { Console.WriteLine("FAILED: a.f2741()!=\"B.f2741\""); return 1; }
if (a.f2742() != "B.f2742") { Console.WriteLine("FAILED: a.f2742()!=\"B.f2742\""); return 1; }
if (a.f2743() != "B.f2743") { Console.WriteLine("FAILED: a.f2743()!=\"B.f2743\""); return 1; }
if (a.f2744() != "B.f2744") { Console.WriteLine("FAILED: a.f2744()!=\"B.f2744\""); return 1; }
if (a.f2745() != "B.f2745") { Console.WriteLine("FAILED: a.f2745()!=\"B.f2745\""); return 1; }
if (a.f2746() != "B.f2746") { Console.WriteLine("FAILED: a.f2746()!=\"B.f2746\""); return 1; }
if (a.f2747() != "B.f2747") { Console.WriteLine("FAILED: a.f2747()!=\"B.f2747\""); return 1; }
if (a.f2748() != "B.f2748") { Console.WriteLine("FAILED: a.f2748()!=\"B.f2748\""); return 1; }
if (a.f2749() != "B.f2749") { Console.WriteLine("FAILED: a.f2749()!=\"B.f2749\""); return 1; }
if (a.f2750() != "B.f2750") { Console.WriteLine("FAILED: a.f2750()!=\"B.f2750\""); return 1; }
if (a.f2751() != "B.f2751") { Console.WriteLine("FAILED: a.f2751()!=\"B.f2751\""); return 1; }
if (a.f2752() != "B.f2752") { Console.WriteLine("FAILED: a.f2752()!=\"B.f2752\""); return 1; }
if (a.f2753() != "B.f2753") { Console.WriteLine("FAILED: a.f2753()!=\"B.f2753\""); return 1; }
if (a.f2754() != "B.f2754") { Console.WriteLine("FAILED: a.f2754()!=\"B.f2754\""); return 1; }
if (a.f2755() != "B.f2755") { Console.WriteLine("FAILED: a.f2755()!=\"B.f2755\""); return 1; }
if (a.f2756() != "B.f2756") { Console.WriteLine("FAILED: a.f2756()!=\"B.f2756\""); return 1; }
if (a.f2757() != "B.f2757") { Console.WriteLine("FAILED: a.f2757()!=\"B.f2757\""); return 1; }
if (a.f2758() != "B.f2758") { Console.WriteLine("FAILED: a.f2758()!=\"B.f2758\""); return 1; }
if (a.f2759() != "B.f2759") { Console.WriteLine("FAILED: a.f2759()!=\"B.f2759\""); return 1; }
if (a.f2760() != "B.f2760") { Console.WriteLine("FAILED: a.f2760()!=\"B.f2760\""); return 1; }
if (a.f2761() != "B.f2761") { Console.WriteLine("FAILED: a.f2761()!=\"B.f2761\""); return 1; }
if (a.f2762() != "B.f2762") { Console.WriteLine("FAILED: a.f2762()!=\"B.f2762\""); return 1; }
if (a.f2763() != "B.f2763") { Console.WriteLine("FAILED: a.f2763()!=\"B.f2763\""); return 1; }
if (a.f2764() != "B.f2764") { Console.WriteLine("FAILED: a.f2764()!=\"B.f2764\""); return 1; }
if (a.f2765() != "B.f2765") { Console.WriteLine("FAILED: a.f2765()!=\"B.f2765\""); return 1; }
if (a.f2766() != "B.f2766") { Console.WriteLine("FAILED: a.f2766()!=\"B.f2766\""); return 1; }
if (a.f2767() != "B.f2767") { Console.WriteLine("FAILED: a.f2767()!=\"B.f2767\""); return 1; }
if (a.f2768() != "B.f2768") { Console.WriteLine("FAILED: a.f2768()!=\"B.f2768\""); return 1; }
if (a.f2769() != "B.f2769") { Console.WriteLine("FAILED: a.f2769()!=\"B.f2769\""); return 1; }
if (a.f2770() != "B.f2770") { Console.WriteLine("FAILED: a.f2770()!=\"B.f2770\""); return 1; }
if (a.f2771() != "B.f2771") { Console.WriteLine("FAILED: a.f2771()!=\"B.f2771\""); return 1; }
if (a.f2772() != "B.f2772") { Console.WriteLine("FAILED: a.f2772()!=\"B.f2772\""); return 1; }
if (a.f2773() != "B.f2773") { Console.WriteLine("FAILED: a.f2773()!=\"B.f2773\""); return 1; }
if (a.f2774() != "B.f2774") { Console.WriteLine("FAILED: a.f2774()!=\"B.f2774\""); return 1; }
if (a.f2775() != "B.f2775") { Console.WriteLine("FAILED: a.f2775()!=\"B.f2775\""); return 1; }
if (a.f2776() != "B.f2776") { Console.WriteLine("FAILED: a.f2776()!=\"B.f2776\""); return 1; }
if (a.f2777() != "B.f2777") { Console.WriteLine("FAILED: a.f2777()!=\"B.f2777\""); return 1; }
if (a.f2778() != "B.f2778") { Console.WriteLine("FAILED: a.f2778()!=\"B.f2778\""); return 1; }
if (a.f2779() != "B.f2779") { Console.WriteLine("FAILED: a.f2779()!=\"B.f2779\""); return 1; }
if (a.f2780() != "B.f2780") { Console.WriteLine("FAILED: a.f2780()!=\"B.f2780\""); return 1; }
if (a.f2781() != "B.f2781") { Console.WriteLine("FAILED: a.f2781()!=\"B.f2781\""); return 1; }
if (a.f2782() != "B.f2782") { Console.WriteLine("FAILED: a.f2782()!=\"B.f2782\""); return 1; }
if (a.f2783() != "B.f2783") { Console.WriteLine("FAILED: a.f2783()!=\"B.f2783\""); return 1; }
if (a.f2784() != "B.f2784") { Console.WriteLine("FAILED: a.f2784()!=\"B.f2784\""); return 1; }
if (a.f2785() != "B.f2785") { Console.WriteLine("FAILED: a.f2785()!=\"B.f2785\""); return 1; }
if (a.f2786() != "B.f2786") { Console.WriteLine("FAILED: a.f2786()!=\"B.f2786\""); return 1; }
if (a.f2787() != "B.f2787") { Console.WriteLine("FAILED: a.f2787()!=\"B.f2787\""); return 1; }
if (a.f2788() != "B.f2788") { Console.WriteLine("FAILED: a.f2788()!=\"B.f2788\""); return 1; }
if (a.f2789() != "B.f2789") { Console.WriteLine("FAILED: a.f2789()!=\"B.f2789\""); return 1; }
if (a.f2790() != "B.f2790") { Console.WriteLine("FAILED: a.f2790()!=\"B.f2790\""); return 1; }
if (a.f2791() != "B.f2791") { Console.WriteLine("FAILED: a.f2791()!=\"B.f2791\""); return 1; }
if (a.f2792() != "B.f2792") { Console.WriteLine("FAILED: a.f2792()!=\"B.f2792\""); return 1; }
if (a.f2793() != "B.f2793") { Console.WriteLine("FAILED: a.f2793()!=\"B.f2793\""); return 1; }
if (a.f2794() != "B.f2794") { Console.WriteLine("FAILED: a.f2794()!=\"B.f2794\""); return 1; }
if (a.f2795() != "B.f2795") { Console.WriteLine("FAILED: a.f2795()!=\"B.f2795\""); return 1; }
if (a.f2796() != "B.f2796") { Console.WriteLine("FAILED: a.f2796()!=\"B.f2796\""); return 1; }
if (a.f2797() != "B.f2797") { Console.WriteLine("FAILED: a.f2797()!=\"B.f2797\""); return 1; }
if (a.f2798() != "B.f2798") { Console.WriteLine("FAILED: a.f2798()!=\"B.f2798\""); return 1; }
if (a.f2799() != "B.f2799") { Console.WriteLine("FAILED: a.f2799()!=\"B.f2799\""); return 1; }
if (a.f2800() != "B.f2800") { Console.WriteLine("FAILED: a.f2800()!=\"B.f2800\""); return 1; }
if (a.f2801() != "B.f2801") { Console.WriteLine("FAILED: a.f2801()!=\"B.f2801\""); return 1; }
if (a.f2802() != "B.f2802") { Console.WriteLine("FAILED: a.f2802()!=\"B.f2802\""); return 1; }
if (a.f2803() != "B.f2803") { Console.WriteLine("FAILED: a.f2803()!=\"B.f2803\""); return 1; }
if (a.f2804() != "B.f2804") { Console.WriteLine("FAILED: a.f2804()!=\"B.f2804\""); return 1; }
if (a.f2805() != "B.f2805") { Console.WriteLine("FAILED: a.f2805()!=\"B.f2805\""); return 1; }
if (a.f2806() != "B.f2806") { Console.WriteLine("FAILED: a.f2806()!=\"B.f2806\""); return 1; }
if (a.f2807() != "B.f2807") { Console.WriteLine("FAILED: a.f2807()!=\"B.f2807\""); return 1; }
if (a.f2808() != "B.f2808") { Console.WriteLine("FAILED: a.f2808()!=\"B.f2808\""); return 1; }
if (a.f2809() != "B.f2809") { Console.WriteLine("FAILED: a.f2809()!=\"B.f2809\""); return 1; }
if (a.f2810() != "B.f2810") { Console.WriteLine("FAILED: a.f2810()!=\"B.f2810\""); return 1; }
if (a.f2811() != "B.f2811") { Console.WriteLine("FAILED: a.f2811()!=\"B.f2811\""); return 1; }
if (a.f2812() != "B.f2812") { Console.WriteLine("FAILED: a.f2812()!=\"B.f2812\""); return 1; }
if (a.f2813() != "B.f2813") { Console.WriteLine("FAILED: a.f2813()!=\"B.f2813\""); return 1; }
if (a.f2814() != "B.f2814") { Console.WriteLine("FAILED: a.f2814()!=\"B.f2814\""); return 1; }
if (a.f2815() != "B.f2815") { Console.WriteLine("FAILED: a.f2815()!=\"B.f2815\""); return 1; }
if (a.f2816() != "B.f2816") { Console.WriteLine("FAILED: a.f2816()!=\"B.f2816\""); return 1; }
if (a.f2817() != "B.f2817") { Console.WriteLine("FAILED: a.f2817()!=\"B.f2817\""); return 1; }
if (a.f2818() != "B.f2818") { Console.WriteLine("FAILED: a.f2818()!=\"B.f2818\""); return 1; }
if (a.f2819() != "B.f2819") { Console.WriteLine("FAILED: a.f2819()!=\"B.f2819\""); return 1; }
if (a.f2820() != "B.f2820") { Console.WriteLine("FAILED: a.f2820()!=\"B.f2820\""); return 1; }
if (a.f2821() != "B.f2821") { Console.WriteLine("FAILED: a.f2821()!=\"B.f2821\""); return 1; }
if (a.f2822() != "B.f2822") { Console.WriteLine("FAILED: a.f2822()!=\"B.f2822\""); return 1; }
if (a.f2823() != "B.f2823") { Console.WriteLine("FAILED: a.f2823()!=\"B.f2823\""); return 1; }
if (a.f2824() != "B.f2824") { Console.WriteLine("FAILED: a.f2824()!=\"B.f2824\""); return 1; }
if (a.f2825() != "B.f2825") { Console.WriteLine("FAILED: a.f2825()!=\"B.f2825\""); return 1; }
if (a.f2826() != "B.f2826") { Console.WriteLine("FAILED: a.f2826()!=\"B.f2826\""); return 1; }
if (a.f2827() != "B.f2827") { Console.WriteLine("FAILED: a.f2827()!=\"B.f2827\""); return 1; }
if (a.f2828() != "B.f2828") { Console.WriteLine("FAILED: a.f2828()!=\"B.f2828\""); return 1; }
if (a.f2829() != "B.f2829") { Console.WriteLine("FAILED: a.f2829()!=\"B.f2829\""); return 1; }
if (a.f2830() != "B.f2830") { Console.WriteLine("FAILED: a.f2830()!=\"B.f2830\""); return 1; }
if (a.f2831() != "B.f2831") { Console.WriteLine("FAILED: a.f2831()!=\"B.f2831\""); return 1; }
if (a.f2832() != "B.f2832") { Console.WriteLine("FAILED: a.f2832()!=\"B.f2832\""); return 1; }
if (a.f2833() != "B.f2833") { Console.WriteLine("FAILED: a.f2833()!=\"B.f2833\""); return 1; }
if (a.f2834() != "B.f2834") { Console.WriteLine("FAILED: a.f2834()!=\"B.f2834\""); return 1; }
if (a.f2835() != "B.f2835") { Console.WriteLine("FAILED: a.f2835()!=\"B.f2835\""); return 1; }
if (a.f2836() != "B.f2836") { Console.WriteLine("FAILED: a.f2836()!=\"B.f2836\""); return 1; }
if (a.f2837() != "B.f2837") { Console.WriteLine("FAILED: a.f2837()!=\"B.f2837\""); return 1; }
if (a.f2838() != "B.f2838") { Console.WriteLine("FAILED: a.f2838()!=\"B.f2838\""); return 1; }
if (a.f2839() != "B.f2839") { Console.WriteLine("FAILED: a.f2839()!=\"B.f2839\""); return 1; }
if (a.f2840() != "B.f2840") { Console.WriteLine("FAILED: a.f2840()!=\"B.f2840\""); return 1; }
if (a.f2841() != "B.f2841") { Console.WriteLine("FAILED: a.f2841()!=\"B.f2841\""); return 1; }
if (a.f2842() != "B.f2842") { Console.WriteLine("FAILED: a.f2842()!=\"B.f2842\""); return 1; }
if (a.f2843() != "B.f2843") { Console.WriteLine("FAILED: a.f2843()!=\"B.f2843\""); return 1; }
if (a.f2844() != "B.f2844") { Console.WriteLine("FAILED: a.f2844()!=\"B.f2844\""); return 1; }
if (a.f2845() != "B.f2845") { Console.WriteLine("FAILED: a.f2845()!=\"B.f2845\""); return 1; }
if (a.f2846() != "B.f2846") { Console.WriteLine("FAILED: a.f2846()!=\"B.f2846\""); return 1; }
if (a.f2847() != "B.f2847") { Console.WriteLine("FAILED: a.f2847()!=\"B.f2847\""); return 1; }
if (a.f2848() != "B.f2848") { Console.WriteLine("FAILED: a.f2848()!=\"B.f2848\""); return 1; }
if (a.f2849() != "B.f2849") { Console.WriteLine("FAILED: a.f2849()!=\"B.f2849\""); return 1; }
if (a.f2850() != "B.f2850") { Console.WriteLine("FAILED: a.f2850()!=\"B.f2850\""); return 1; }
if (a.f2851() != "B.f2851") { Console.WriteLine("FAILED: a.f2851()!=\"B.f2851\""); return 1; }
if (a.f2852() != "B.f2852") { Console.WriteLine("FAILED: a.f2852()!=\"B.f2852\""); return 1; }
if (a.f2853() != "B.f2853") { Console.WriteLine("FAILED: a.f2853()!=\"B.f2853\""); return 1; }
if (a.f2854() != "B.f2854") { Console.WriteLine("FAILED: a.f2854()!=\"B.f2854\""); return 1; }
if (a.f2855() != "B.f2855") { Console.WriteLine("FAILED: a.f2855()!=\"B.f2855\""); return 1; }
if (a.f2856() != "B.f2856") { Console.WriteLine("FAILED: a.f2856()!=\"B.f2856\""); return 1; }
if (a.f2857() != "B.f2857") { Console.WriteLine("FAILED: a.f2857()!=\"B.f2857\""); return 1; }
if (a.f2858() != "B.f2858") { Console.WriteLine("FAILED: a.f2858()!=\"B.f2858\""); return 1; }
if (a.f2859() != "B.f2859") { Console.WriteLine("FAILED: a.f2859()!=\"B.f2859\""); return 1; }
if (a.f2860() != "B.f2860") { Console.WriteLine("FAILED: a.f2860()!=\"B.f2860\""); return 1; }
if (a.f2861() != "B.f2861") { Console.WriteLine("FAILED: a.f2861()!=\"B.f2861\""); return 1; }
if (a.f2862() != "B.f2862") { Console.WriteLine("FAILED: a.f2862()!=\"B.f2862\""); return 1; }
if (a.f2863() != "B.f2863") { Console.WriteLine("FAILED: a.f2863()!=\"B.f2863\""); return 1; }
if (a.f2864() != "B.f2864") { Console.WriteLine("FAILED: a.f2864()!=\"B.f2864\""); return 1; }
if (a.f2865() != "B.f2865") { Console.WriteLine("FAILED: a.f2865()!=\"B.f2865\""); return 1; }
if (a.f2866() != "B.f2866") { Console.WriteLine("FAILED: a.f2866()!=\"B.f2866\""); return 1; }
if (a.f2867() != "B.f2867") { Console.WriteLine("FAILED: a.f2867()!=\"B.f2867\""); return 1; }
if (a.f2868() != "B.f2868") { Console.WriteLine("FAILED: a.f2868()!=\"B.f2868\""); return 1; }
if (a.f2869() != "B.f2869") { Console.WriteLine("FAILED: a.f2869()!=\"B.f2869\""); return 1; }
if (a.f2870() != "B.f2870") { Console.WriteLine("FAILED: a.f2870()!=\"B.f2870\""); return 1; }
if (a.f2871() != "B.f2871") { Console.WriteLine("FAILED: a.f2871()!=\"B.f2871\""); return 1; }
if (a.f2872() != "B.f2872") { Console.WriteLine("FAILED: a.f2872()!=\"B.f2872\""); return 1; }
if (a.f2873() != "B.f2873") { Console.WriteLine("FAILED: a.f2873()!=\"B.f2873\""); return 1; }
if (a.f2874() != "B.f2874") { Console.WriteLine("FAILED: a.f2874()!=\"B.f2874\""); return 1; }
if (a.f2875() != "B.f2875") { Console.WriteLine("FAILED: a.f2875()!=\"B.f2875\""); return 1; }
if (a.f2876() != "B.f2876") { Console.WriteLine("FAILED: a.f2876()!=\"B.f2876\""); return 1; }
if (a.f2877() != "B.f2877") { Console.WriteLine("FAILED: a.f2877()!=\"B.f2877\""); return 1; }
if (a.f2878() != "B.f2878") { Console.WriteLine("FAILED: a.f2878()!=\"B.f2878\""); return 1; }
if (a.f2879() != "B.f2879") { Console.WriteLine("FAILED: a.f2879()!=\"B.f2879\""); return 1; }
if (a.f2880() != "B.f2880") { Console.WriteLine("FAILED: a.f2880()!=\"B.f2880\""); return 1; }
if (a.f2881() != "B.f2881") { Console.WriteLine("FAILED: a.f2881()!=\"B.f2881\""); return 1; }
if (a.f2882() != "B.f2882") { Console.WriteLine("FAILED: a.f2882()!=\"B.f2882\""); return 1; }
if (a.f2883() != "B.f2883") { Console.WriteLine("FAILED: a.f2883()!=\"B.f2883\""); return 1; }
if (a.f2884() != "B.f2884") { Console.WriteLine("FAILED: a.f2884()!=\"B.f2884\""); return 1; }
if (a.f2885() != "B.f2885") { Console.WriteLine("FAILED: a.f2885()!=\"B.f2885\""); return 1; }
if (a.f2886() != "B.f2886") { Console.WriteLine("FAILED: a.f2886()!=\"B.f2886\""); return 1; }
if (a.f2887() != "B.f2887") { Console.WriteLine("FAILED: a.f2887()!=\"B.f2887\""); return 1; }
if (a.f2888() != "B.f2888") { Console.WriteLine("FAILED: a.f2888()!=\"B.f2888\""); return 1; }
if (a.f2889() != "B.f2889") { Console.WriteLine("FAILED: a.f2889()!=\"B.f2889\""); return 1; }
if (a.f2890() != "B.f2890") { Console.WriteLine("FAILED: a.f2890()!=\"B.f2890\""); return 1; }
if (a.f2891() != "B.f2891") { Console.WriteLine("FAILED: a.f2891()!=\"B.f2891\""); return 1; }
if (a.f2892() != "B.f2892") { Console.WriteLine("FAILED: a.f2892()!=\"B.f2892\""); return 1; }
if (a.f2893() != "B.f2893") { Console.WriteLine("FAILED: a.f2893()!=\"B.f2893\""); return 1; }
if (a.f2894() != "B.f2894") { Console.WriteLine("FAILED: a.f2894()!=\"B.f2894\""); return 1; }
if (a.f2895() != "B.f2895") { Console.WriteLine("FAILED: a.f2895()!=\"B.f2895\""); return 1; }
if (a.f2896() != "B.f2896") { Console.WriteLine("FAILED: a.f2896()!=\"B.f2896\""); return 1; }
if (a.f2897() != "B.f2897") { Console.WriteLine("FAILED: a.f2897()!=\"B.f2897\""); return 1; }
if (a.f2898() != "B.f2898") { Console.WriteLine("FAILED: a.f2898()!=\"B.f2898\""); return 1; }
if (a.f2899() != "B.f2899") { Console.WriteLine("FAILED: a.f2899()!=\"B.f2899\""); return 1; }
if (a.f2900() != "B.f2900") { Console.WriteLine("FAILED: a.f2900()!=\"B.f2900\""); return 1; }
if (a.f2901() != "B.f2901") { Console.WriteLine("FAILED: a.f2901()!=\"B.f2901\""); return 1; }
if (a.f2902() != "B.f2902") { Console.WriteLine("FAILED: a.f2902()!=\"B.f2902\""); return 1; }
if (a.f2903() != "B.f2903") { Console.WriteLine("FAILED: a.f2903()!=\"B.f2903\""); return 1; }
if (a.f2904() != "B.f2904") { Console.WriteLine("FAILED: a.f2904()!=\"B.f2904\""); return 1; }
if (a.f2905() != "B.f2905") { Console.WriteLine("FAILED: a.f2905()!=\"B.f2905\""); return 1; }
if (a.f2906() != "B.f2906") { Console.WriteLine("FAILED: a.f2906()!=\"B.f2906\""); return 1; }
if (a.f2907() != "B.f2907") { Console.WriteLine("FAILED: a.f2907()!=\"B.f2907\""); return 1; }
if (a.f2908() != "B.f2908") { Console.WriteLine("FAILED: a.f2908()!=\"B.f2908\""); return 1; }
if (a.f2909() != "B.f2909") { Console.WriteLine("FAILED: a.f2909()!=\"B.f2909\""); return 1; }
if (a.f2910() != "B.f2910") { Console.WriteLine("FAILED: a.f2910()!=\"B.f2910\""); return 1; }
if (a.f2911() != "B.f2911") { Console.WriteLine("FAILED: a.f2911()!=\"B.f2911\""); return 1; }
if (a.f2912() != "B.f2912") { Console.WriteLine("FAILED: a.f2912()!=\"B.f2912\""); return 1; }
if (a.f2913() != "B.f2913") { Console.WriteLine("FAILED: a.f2913()!=\"B.f2913\""); return 1; }
if (a.f2914() != "B.f2914") { Console.WriteLine("FAILED: a.f2914()!=\"B.f2914\""); return 1; }
if (a.f2915() != "B.f2915") { Console.WriteLine("FAILED: a.f2915()!=\"B.f2915\""); return 1; }
if (a.f2916() != "B.f2916") { Console.WriteLine("FAILED: a.f2916()!=\"B.f2916\""); return 1; }
if (a.f2917() != "B.f2917") { Console.WriteLine("FAILED: a.f2917()!=\"B.f2917\""); return 1; }
if (a.f2918() != "B.f2918") { Console.WriteLine("FAILED: a.f2918()!=\"B.f2918\""); return 1; }
if (a.f2919() != "B.f2919") { Console.WriteLine("FAILED: a.f2919()!=\"B.f2919\""); return 1; }
if (a.f2920() != "B.f2920") { Console.WriteLine("FAILED: a.f2920()!=\"B.f2920\""); return 1; }
if (a.f2921() != "B.f2921") { Console.WriteLine("FAILED: a.f2921()!=\"B.f2921\""); return 1; }
if (a.f2922() != "B.f2922") { Console.WriteLine("FAILED: a.f2922()!=\"B.f2922\""); return 1; }
if (a.f2923() != "B.f2923") { Console.WriteLine("FAILED: a.f2923()!=\"B.f2923\""); return 1; }
if (a.f2924() != "B.f2924") { Console.WriteLine("FAILED: a.f2924()!=\"B.f2924\""); return 1; }
if (a.f2925() != "B.f2925") { Console.WriteLine("FAILED: a.f2925()!=\"B.f2925\""); return 1; }
if (a.f2926() != "B.f2926") { Console.WriteLine("FAILED: a.f2926()!=\"B.f2926\""); return 1; }
if (a.f2927() != "B.f2927") { Console.WriteLine("FAILED: a.f2927()!=\"B.f2927\""); return 1; }
if (a.f2928() != "B.f2928") { Console.WriteLine("FAILED: a.f2928()!=\"B.f2928\""); return 1; }
if (a.f2929() != "B.f2929") { Console.WriteLine("FAILED: a.f2929()!=\"B.f2929\""); return 1; }
if (a.f2930() != "B.f2930") { Console.WriteLine("FAILED: a.f2930()!=\"B.f2930\""); return 1; }
if (a.f2931() != "B.f2931") { Console.WriteLine("FAILED: a.f2931()!=\"B.f2931\""); return 1; }
if (a.f2932() != "B.f2932") { Console.WriteLine("FAILED: a.f2932()!=\"B.f2932\""); return 1; }
if (a.f2933() != "B.f2933") { Console.WriteLine("FAILED: a.f2933()!=\"B.f2933\""); return 1; }
if (a.f2934() != "B.f2934") { Console.WriteLine("FAILED: a.f2934()!=\"B.f2934\""); return 1; }
if (a.f2935() != "B.f2935") { Console.WriteLine("FAILED: a.f2935()!=\"B.f2935\""); return 1; }
if (a.f2936() != "B.f2936") { Console.WriteLine("FAILED: a.f2936()!=\"B.f2936\""); return 1; }
if (a.f2937() != "B.f2937") { Console.WriteLine("FAILED: a.f2937()!=\"B.f2937\""); return 1; }
if (a.f2938() != "B.f2938") { Console.WriteLine("FAILED: a.f2938()!=\"B.f2938\""); return 1; }
if (a.f2939() != "B.f2939") { Console.WriteLine("FAILED: a.f2939()!=\"B.f2939\""); return 1; }
if (a.f2940() != "B.f2940") { Console.WriteLine("FAILED: a.f2940()!=\"B.f2940\""); return 1; }
if (a.f2941() != "B.f2941") { Console.WriteLine("FAILED: a.f2941()!=\"B.f2941\""); return 1; }
if (a.f2942() != "B.f2942") { Console.WriteLine("FAILED: a.f2942()!=\"B.f2942\""); return 1; }
if (a.f2943() != "B.f2943") { Console.WriteLine("FAILED: a.f2943()!=\"B.f2943\""); return 1; }
if (a.f2944() != "B.f2944") { Console.WriteLine("FAILED: a.f2944()!=\"B.f2944\""); return 1; }
if (a.f2945() != "B.f2945") { Console.WriteLine("FAILED: a.f2945()!=\"B.f2945\""); return 1; }
if (a.f2946() != "B.f2946") { Console.WriteLine("FAILED: a.f2946()!=\"B.f2946\""); return 1; }
if (a.f2947() != "B.f2947") { Console.WriteLine("FAILED: a.f2947()!=\"B.f2947\""); return 1; }
if (a.f2948() != "B.f2948") { Console.WriteLine("FAILED: a.f2948()!=\"B.f2948\""); return 1; }
if (a.f2949() != "B.f2949") { Console.WriteLine("FAILED: a.f2949()!=\"B.f2949\""); return 1; }
if (a.f2950() != "B.f2950") { Console.WriteLine("FAILED: a.f2950()!=\"B.f2950\""); return 1; }
if (a.f2951() != "B.f2951") { Console.WriteLine("FAILED: a.f2951()!=\"B.f2951\""); return 1; }
if (a.f2952() != "B.f2952") { Console.WriteLine("FAILED: a.f2952()!=\"B.f2952\""); return 1; }
if (a.f2953() != "B.f2953") { Console.WriteLine("FAILED: a.f2953()!=\"B.f2953\""); return 1; }
if (a.f2954() != "B.f2954") { Console.WriteLine("FAILED: a.f2954()!=\"B.f2954\""); return 1; }
if (a.f2955() != "B.f2955") { Console.WriteLine("FAILED: a.f2955()!=\"B.f2955\""); return 1; }
if (a.f2956() != "B.f2956") { Console.WriteLine("FAILED: a.f2956()!=\"B.f2956\""); return 1; }
if (a.f2957() != "B.f2957") { Console.WriteLine("FAILED: a.f2957()!=\"B.f2957\""); return 1; }
if (a.f2958() != "B.f2958") { Console.WriteLine("FAILED: a.f2958()!=\"B.f2958\""); return 1; }
if (a.f2959() != "B.f2959") { Console.WriteLine("FAILED: a.f2959()!=\"B.f2959\""); return 1; }
if (a.f2960() != "B.f2960") { Console.WriteLine("FAILED: a.f2960()!=\"B.f2960\""); return 1; }
if (a.f2961() != "B.f2961") { Console.WriteLine("FAILED: a.f2961()!=\"B.f2961\""); return 1; }
if (a.f2962() != "B.f2962") { Console.WriteLine("FAILED: a.f2962()!=\"B.f2962\""); return 1; }
if (a.f2963() != "B.f2963") { Console.WriteLine("FAILED: a.f2963()!=\"B.f2963\""); return 1; }
if (a.f2964() != "B.f2964") { Console.WriteLine("FAILED: a.f2964()!=\"B.f2964\""); return 1; }
if (a.f2965() != "B.f2965") { Console.WriteLine("FAILED: a.f2965()!=\"B.f2965\""); return 1; }
if (a.f2966() != "B.f2966") { Console.WriteLine("FAILED: a.f2966()!=\"B.f2966\""); return 1; }
if (a.f2967() != "B.f2967") { Console.WriteLine("FAILED: a.f2967()!=\"B.f2967\""); return 1; }
if (a.f2968() != "B.f2968") { Console.WriteLine("FAILED: a.f2968()!=\"B.f2968\""); return 1; }
if (a.f2969() != "B.f2969") { Console.WriteLine("FAILED: a.f2969()!=\"B.f2969\""); return 1; }
if (a.f2970() != "B.f2970") { Console.WriteLine("FAILED: a.f2970()!=\"B.f2970\""); return 1; }
if (a.f2971() != "B.f2971") { Console.WriteLine("FAILED: a.f2971()!=\"B.f2971\""); return 1; }
if (a.f2972() != "B.f2972") { Console.WriteLine("FAILED: a.f2972()!=\"B.f2972\""); return 1; }
if (a.f2973() != "B.f2973") { Console.WriteLine("FAILED: a.f2973()!=\"B.f2973\""); return 1; }
if (a.f2974() != "B.f2974") { Console.WriteLine("FAILED: a.f2974()!=\"B.f2974\""); return 1; }
if (a.f2975() != "B.f2975") { Console.WriteLine("FAILED: a.f2975()!=\"B.f2975\""); return 1; }
if (a.f2976() != "B.f2976") { Console.WriteLine("FAILED: a.f2976()!=\"B.f2976\""); return 1; }
if (a.f2977() != "B.f2977") { Console.WriteLine("FAILED: a.f2977()!=\"B.f2977\""); return 1; }
if (a.f2978() != "B.f2978") { Console.WriteLine("FAILED: a.f2978()!=\"B.f2978\""); return 1; }
if (a.f2979() != "B.f2979") { Console.WriteLine("FAILED: a.f2979()!=\"B.f2979\""); return 1; }
if (a.f2980() != "B.f2980") { Console.WriteLine("FAILED: a.f2980()!=\"B.f2980\""); return 1; }
if (a.f2981() != "B.f2981") { Console.WriteLine("FAILED: a.f2981()!=\"B.f2981\""); return 1; }
if (a.f2982() != "B.f2982") { Console.WriteLine("FAILED: a.f2982()!=\"B.f2982\""); return 1; }
if (a.f2983() != "B.f2983") { Console.WriteLine("FAILED: a.f2983()!=\"B.f2983\""); return 1; }
if (a.f2984() != "B.f2984") { Console.WriteLine("FAILED: a.f2984()!=\"B.f2984\""); return 1; }
if (a.f2985() != "B.f2985") { Console.WriteLine("FAILED: a.f2985()!=\"B.f2985\""); return 1; }
if (a.f2986() != "B.f2986") { Console.WriteLine("FAILED: a.f2986()!=\"B.f2986\""); return 1; }
if (a.f2987() != "B.f2987") { Console.WriteLine("FAILED: a.f2987()!=\"B.f2987\""); return 1; }
if (a.f2988() != "B.f2988") { Console.WriteLine("FAILED: a.f2988()!=\"B.f2988\""); return 1; }
if (a.f2989() != "B.f2989") { Console.WriteLine("FAILED: a.f2989()!=\"B.f2989\""); return 1; }
if (a.f2990() != "B.f2990") { Console.WriteLine("FAILED: a.f2990()!=\"B.f2990\""); return 1; }
if (a.f2991() != "B.f2991") { Console.WriteLine("FAILED: a.f2991()!=\"B.f2991\""); return 1; }
if (a.f2992() != "B.f2992") { Console.WriteLine("FAILED: a.f2992()!=\"B.f2992\""); return 1; }
if (a.f2993() != "B.f2993") { Console.WriteLine("FAILED: a.f2993()!=\"B.f2993\""); return 1; }
if (a.f2994() != "B.f2994") { Console.WriteLine("FAILED: a.f2994()!=\"B.f2994\""); return 1; }
if (a.f2995() != "B.f2995") { Console.WriteLine("FAILED: a.f2995()!=\"B.f2995\""); return 1; }
if (a.f2996() != "B.f2996") { Console.WriteLine("FAILED: a.f2996()!=\"B.f2996\""); return 1; }
if (a.f2997() != "B.f2997") { Console.WriteLine("FAILED: a.f2997()!=\"B.f2997\""); return 1; }
if (a.f2998() != "B.f2998") { Console.WriteLine("FAILED: a.f2998()!=\"B.f2998\""); return 1; }
if (a.f2999() != "B.f2999") { Console.WriteLine("FAILED: a.f2999()!=\"B.f2999\""); return 1; }
if (b.f1() != "B.f1") { Console.WriteLine("FAILED: b.f1()!=\"B.f1\""); return 1; }
if (c.f1() != "D.f1") { Console.WriteLine("FAILED: c.f1()!=\"D.f1\""); return 1; }
if (c.f601() != "D.f601") { Console.WriteLine("FAILED: c.f601()!=\"D.f601\""); return 1; }
if (c.f1201() != "D.f1201") { Console.WriteLine("FAILED: c.f1201()!=\"D.f1201\""); return 1; }
if (c.f1801() != "D.f1801") { Console.WriteLine("FAILED: c.f1801()!=\"D.f1801\""); return 1; }
if (c.f2401() != "D.f2401") { Console.WriteLine("FAILED: c.f2401()!=\"D.f2401\""); return 1; }
if (d.f2999() != "D.f2999") { Console.WriteLine("FAILED: d.f2999()!=\"D.f2999\""); return 1; }
if (d.f2849() != "D.f2849") { Console.WriteLine("FAILED: d.f2849()!=\"D.f2849\""); return 1; }
if (d.f2699() != "D.f2699") { Console.WriteLine("FAILED: d.f2699()!=\"D.f2699\""); return 1; }
if (d.f2549() != "D.f2549") { Console.WriteLine("FAILED: d.f2549()!=\"D.f2549\""); return 1; }
if (d.f2399() != "D.f2399") { Console.WriteLine("FAILED: d.f2399()!=\"D.f2399\""); return 1; }
if (d.f2249() != "D.f2249") { Console.WriteLine("FAILED: d.f2249()!=\"D.f2249\""); return 1; }
if (d.f2099() != "D.f2099") { Console.WriteLine("FAILED: d.f2099()!=\"D.f2099\""); return 1; }
if (d.f1949() != "D.f1949") { Console.WriteLine("FAILED: d.f1949()!=\"D.f1949\""); return 1; }
if (d.f1799() != "D.f1799") { Console.WriteLine("FAILED: d.f1799()!=\"D.f1799\""); return 1; }
if (d.f1649() != "D.f1649") { Console.WriteLine("FAILED: d.f1649()!=\"D.f1649\""); return 1; }
if (d.f1499() != "D.f1499") { Console.WriteLine("FAILED: d.f1499()!=\"D.f1499\""); return 1; }
if (d.f1349() != "D.f1349") { Console.WriteLine("FAILED: d.f1349()!=\"D.f1349\""); return 1; }
if (d.f1199() != "D.f1199") { Console.WriteLine("FAILED: d.f1199()!=\"D.f1199\""); return 1; }
if (d.f1049() != "D.f1049") { Console.WriteLine("FAILED: d.f1049()!=\"D.f1049\""); return 1; }
if (d.f899() != "D.f899") { Console.WriteLine("FAILED: d.f899()!=\"D.f899\""); return 1; }
if (d.f749() != "D.f749") { Console.WriteLine("FAILED: d.f749()!=\"D.f749\""); return 1; }
if (d.f599() != "D.f599") { Console.WriteLine("FAILED: d.f599()!=\"D.f599\""); return 1; }
if (d.f449() != "D.f449") { Console.WriteLine("FAILED: d.f449()!=\"D.f449\""); return 1; }
if (d.f299() != "D.f299") { Console.WriteLine("FAILED: d.f299()!=\"D.f299\""); return 1; }
if (d.f149() != "D.f149") { Console.WriteLine("FAILED: d.f149()!=\"D.f149\""); return 1; }
Console.WriteLine("PASSED");
return 100;
}
}
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
using System;
internal class A
{
public virtual string f1() { return "A.f1"; }
public virtual string f2() { return "A.f2"; }
public virtual string f3() { return "A.f3"; }
public virtual string f4() { return "A.f4"; }
public virtual string f5() { return "A.f5"; }
public virtual string f6() { return "A.f6"; }
public virtual string f7() { return "A.f7"; }
public virtual string f8() { return "A.f8"; }
public virtual string f9() { return "A.f9"; }
public virtual string f10() { return "A.f10"; }
public virtual string f11() { return "A.f11"; }
public virtual string f12() { return "A.f12"; }
public virtual string f13() { return "A.f13"; }
public virtual string f14() { return "A.f14"; }
public virtual string f15() { return "A.f15"; }
public virtual string f16() { return "A.f16"; }
public virtual string f17() { return "A.f17"; }
public virtual string f18() { return "A.f18"; }
public virtual string f19() { return "A.f19"; }
public virtual string f20() { return "A.f20"; }
public virtual string f21() { return "A.f21"; }
public virtual string f22() { return "A.f22"; }
public virtual string f23() { return "A.f23"; }
public virtual string f24() { return "A.f24"; }
public virtual string f25() { return "A.f25"; }
public virtual string f26() { return "A.f26"; }
public virtual string f27() { return "A.f27"; }
public virtual string f28() { return "A.f28"; }
public virtual string f29() { return "A.f29"; }
public virtual string f30() { return "A.f30"; }
public virtual string f31() { return "A.f31"; }
public virtual string f32() { return "A.f32"; }
public virtual string f33() { return "A.f33"; }
public virtual string f34() { return "A.f34"; }
public virtual string f35() { return "A.f35"; }
public virtual string f36() { return "A.f36"; }
public virtual string f37() { return "A.f37"; }
public virtual string f38() { return "A.f38"; }
public virtual string f39() { return "A.f39"; }
public virtual string f40() { return "A.f40"; }
public virtual string f41() { return "A.f41"; }
public virtual string f42() { return "A.f42"; }
public virtual string f43() { return "A.f43"; }
public virtual string f44() { return "A.f44"; }
public virtual string f45() { return "A.f45"; }
public virtual string f46() { return "A.f46"; }
public virtual string f47() { return "A.f47"; }
public virtual string f48() { return "A.f48"; }
public virtual string f49() { return "A.f49"; }
public virtual string f50() { return "A.f50"; }
public virtual string f51() { return "A.f51"; }
public virtual string f52() { return "A.f52"; }
public virtual string f53() { return "A.f53"; }
public virtual string f54() { return "A.f54"; }
public virtual string f55() { return "A.f55"; }
public virtual string f56() { return "A.f56"; }
public virtual string f57() { return "A.f57"; }
public virtual string f58() { return "A.f58"; }
public virtual string f59() { return "A.f59"; }
public virtual string f60() { return "A.f60"; }
public virtual string f61() { return "A.f61"; }
public virtual string f62() { return "A.f62"; }
public virtual string f63() { return "A.f63"; }
public virtual string f64() { return "A.f64"; }
public virtual string f65() { return "A.f65"; }
public virtual string f66() { return "A.f66"; }
public virtual string f67() { return "A.f67"; }
public virtual string f68() { return "A.f68"; }
public virtual string f69() { return "A.f69"; }
public virtual string f70() { return "A.f70"; }
public virtual string f71() { return "A.f71"; }
public virtual string f72() { return "A.f72"; }
public virtual string f73() { return "A.f73"; }
public virtual string f74() { return "A.f74"; }
public virtual string f75() { return "A.f75"; }
public virtual string f76() { return "A.f76"; }
public virtual string f77() { return "A.f77"; }
public virtual string f78() { return "A.f78"; }
public virtual string f79() { return "A.f79"; }
public virtual string f80() { return "A.f80"; }
public virtual string f81() { return "A.f81"; }
public virtual string f82() { return "A.f82"; }
public virtual string f83() { return "A.f83"; }
public virtual string f84() { return "A.f84"; }
public virtual string f85() { return "A.f85"; }
public virtual string f86() { return "A.f86"; }
public virtual string f87() { return "A.f87"; }
public virtual string f88() { return "A.f88"; }
public virtual string f89() { return "A.f89"; }
public virtual string f90() { return "A.f90"; }
public virtual string f91() { return "A.f91"; }
public virtual string f92() { return "A.f92"; }
public virtual string f93() { return "A.f93"; }
public virtual string f94() { return "A.f94"; }
public virtual string f95() { return "A.f95"; }
public virtual string f96() { return "A.f96"; }
public virtual string f97() { return "A.f97"; }
public virtual string f98() { return "A.f98"; }
public virtual string f99() { return "A.f99"; }
public virtual string f100() { return "A.f100"; }
public virtual string f101() { return "A.f101"; }
public virtual string f102() { return "A.f102"; }
public virtual string f103() { return "A.f103"; }
public virtual string f104() { return "A.f104"; }
public virtual string f105() { return "A.f105"; }
public virtual string f106() { return "A.f106"; }
public virtual string f107() { return "A.f107"; }
public virtual string f108() { return "A.f108"; }
public virtual string f109() { return "A.f109"; }
public virtual string f110() { return "A.f110"; }
public virtual string f111() { return "A.f111"; }
public virtual string f112() { return "A.f112"; }
public virtual string f113() { return "A.f113"; }
public virtual string f114() { return "A.f114"; }
public virtual string f115() { return "A.f115"; }
public virtual string f116() { return "A.f116"; }
public virtual string f117() { return "A.f117"; }
public virtual string f118() { return "A.f118"; }
public virtual string f119() { return "A.f119"; }
public virtual string f120() { return "A.f120"; }
public virtual string f121() { return "A.f121"; }
public virtual string f122() { return "A.f122"; }
public virtual string f123() { return "A.f123"; }
public virtual string f124() { return "A.f124"; }
public virtual string f125() { return "A.f125"; }
public virtual string f126() { return "A.f126"; }
public virtual string f127() { return "A.f127"; }
public virtual string f128() { return "A.f128"; }
public virtual string f129() { return "A.f129"; }
public virtual string f130() { return "A.f130"; }
public virtual string f131() { return "A.f131"; }
public virtual string f132() { return "A.f132"; }
public virtual string f133() { return "A.f133"; }
public virtual string f134() { return "A.f134"; }
public virtual string f135() { return "A.f135"; }
public virtual string f136() { return "A.f136"; }
public virtual string f137() { return "A.f137"; }
public virtual string f138() { return "A.f138"; }
public virtual string f139() { return "A.f139"; }
public virtual string f140() { return "A.f140"; }
public virtual string f141() { return "A.f141"; }
public virtual string f142() { return "A.f142"; }
public virtual string f143() { return "A.f143"; }
public virtual string f144() { return "A.f144"; }
public virtual string f145() { return "A.f145"; }
public virtual string f146() { return "A.f146"; }
public virtual string f147() { return "A.f147"; }
public virtual string f148() { return "A.f148"; }
public virtual string f149() { return "A.f149"; }
public virtual string f150() { return "A.f150"; }
public virtual string f151() { return "A.f151"; }
public virtual string f152() { return "A.f152"; }
public virtual string f153() { return "A.f153"; }
public virtual string f154() { return "A.f154"; }
public virtual string f155() { return "A.f155"; }
public virtual string f156() { return "A.f156"; }
public virtual string f157() { return "A.f157"; }
public virtual string f158() { return "A.f158"; }
public virtual string f159() { return "A.f159"; }
public virtual string f160() { return "A.f160"; }
public virtual string f161() { return "A.f161"; }
public virtual string f162() { return "A.f162"; }
public virtual string f163() { return "A.f163"; }
public virtual string f164() { return "A.f164"; }
public virtual string f165() { return "A.f165"; }
public virtual string f166() { return "A.f166"; }
public virtual string f167() { return "A.f167"; }
public virtual string f168() { return "A.f168"; }
public virtual string f169() { return "A.f169"; }
public virtual string f170() { return "A.f170"; }
public virtual string f171() { return "A.f171"; }
public virtual string f172() { return "A.f172"; }
public virtual string f173() { return "A.f173"; }
public virtual string f174() { return "A.f174"; }
public virtual string f175() { return "A.f175"; }
public virtual string f176() { return "A.f176"; }
public virtual string f177() { return "A.f177"; }
public virtual string f178() { return "A.f178"; }
public virtual string f179() { return "A.f179"; }
public virtual string f180() { return "A.f180"; }
public virtual string f181() { return "A.f181"; }
public virtual string f182() { return "A.f182"; }
public virtual string f183() { return "A.f183"; }
public virtual string f184() { return "A.f184"; }
public virtual string f185() { return "A.f185"; }
public virtual string f186() { return "A.f186"; }
public virtual string f187() { return "A.f187"; }
public virtual string f188() { return "A.f188"; }
public virtual string f189() { return "A.f189"; }
public virtual string f190() { return "A.f190"; }
public virtual string f191() { return "A.f191"; }
public virtual string f192() { return "A.f192"; }
public virtual string f193() { return "A.f193"; }
public virtual string f194() { return "A.f194"; }
public virtual string f195() { return "A.f195"; }
public virtual string f196() { return "A.f196"; }
public virtual string f197() { return "A.f197"; }
public virtual string f198() { return "A.f198"; }
public virtual string f199() { return "A.f199"; }
public virtual string f200() { return "A.f200"; }
public virtual string f201() { return "A.f201"; }
public virtual string f202() { return "A.f202"; }
public virtual string f203() { return "A.f203"; }
public virtual string f204() { return "A.f204"; }
public virtual string f205() { return "A.f205"; }
public virtual string f206() { return "A.f206"; }
public virtual string f207() { return "A.f207"; }
public virtual string f208() { return "A.f208"; }
public virtual string f209() { return "A.f209"; }
public virtual string f210() { return "A.f210"; }
public virtual string f211() { return "A.f211"; }
public virtual string f212() { return "A.f212"; }
public virtual string f213() { return "A.f213"; }
public virtual string f214() { return "A.f214"; }
public virtual string f215() { return "A.f215"; }
public virtual string f216() { return "A.f216"; }
public virtual string f217() { return "A.f217"; }
public virtual string f218() { return "A.f218"; }
public virtual string f219() { return "A.f219"; }
public virtual string f220() { return "A.f220"; }
public virtual string f221() { return "A.f221"; }
public virtual string f222() { return "A.f222"; }
public virtual string f223() { return "A.f223"; }
public virtual string f224() { return "A.f224"; }
public virtual string f225() { return "A.f225"; }
public virtual string f226() { return "A.f226"; }
public virtual string f227() { return "A.f227"; }
public virtual string f228() { return "A.f228"; }
public virtual string f229() { return "A.f229"; }
public virtual string f230() { return "A.f230"; }
public virtual string f231() { return "A.f231"; }
public virtual string f232() { return "A.f232"; }
public virtual string f233() { return "A.f233"; }
public virtual string f234() { return "A.f234"; }
public virtual string f235() { return "A.f235"; }
public virtual string f236() { return "A.f236"; }
public virtual string f237() { return "A.f237"; }
public virtual string f238() { return "A.f238"; }
public virtual string f239() { return "A.f239"; }
public virtual string f240() { return "A.f240"; }
public virtual string f241() { return "A.f241"; }
public virtual string f242() { return "A.f242"; }
public virtual string f243() { return "A.f243"; }
public virtual string f244() { return "A.f244"; }
public virtual string f245() { return "A.f245"; }
public virtual string f246() { return "A.f246"; }
public virtual string f247() { return "A.f247"; }
public virtual string f248() { return "A.f248"; }
public virtual string f249() { return "A.f249"; }
public virtual string f250() { return "A.f250"; }
public virtual string f251() { return "A.f251"; }
public virtual string f252() { return "A.f252"; }
public virtual string f253() { return "A.f253"; }
public virtual string f254() { return "A.f254"; }
public virtual string f255() { return "A.f255"; }
public virtual string f256() { return "A.f256"; }
public virtual string f257() { return "A.f257"; }
public virtual string f258() { return "A.f258"; }
public virtual string f259() { return "A.f259"; }
public virtual string f260() { return "A.f260"; }
public virtual string f261() { return "A.f261"; }
public virtual string f262() { return "A.f262"; }
public virtual string f263() { return "A.f263"; }
public virtual string f264() { return "A.f264"; }
public virtual string f265() { return "A.f265"; }
public virtual string f266() { return "A.f266"; }
public virtual string f267() { return "A.f267"; }
public virtual string f268() { return "A.f268"; }
public virtual string f269() { return "A.f269"; }
public virtual string f270() { return "A.f270"; }
public virtual string f271() { return "A.f271"; }
public virtual string f272() { return "A.f272"; }
public virtual string f273() { return "A.f273"; }
public virtual string f274() { return "A.f274"; }
public virtual string f275() { return "A.f275"; }
public virtual string f276() { return "A.f276"; }
public virtual string f277() { return "A.f277"; }
public virtual string f278() { return "A.f278"; }
public virtual string f279() { return "A.f279"; }
public virtual string f280() { return "A.f280"; }
public virtual string f281() { return "A.f281"; }
public virtual string f282() { return "A.f282"; }
public virtual string f283() { return "A.f283"; }
public virtual string f284() { return "A.f284"; }
public virtual string f285() { return "A.f285"; }
public virtual string f286() { return "A.f286"; }
public virtual string f287() { return "A.f287"; }
public virtual string f288() { return "A.f288"; }
public virtual string f289() { return "A.f289"; }
public virtual string f290() { return "A.f290"; }
public virtual string f291() { return "A.f291"; }
public virtual string f292() { return "A.f292"; }
public virtual string f293() { return "A.f293"; }
public virtual string f294() { return "A.f294"; }
public virtual string f295() { return "A.f295"; }
public virtual string f296() { return "A.f296"; }
public virtual string f297() { return "A.f297"; }
public virtual string f298() { return "A.f298"; }
public virtual string f299() { return "A.f299"; }
public virtual string f300() { return "A.f300"; }
public virtual string f301() { return "A.f301"; }
public virtual string f302() { return "A.f302"; }
public virtual string f303() { return "A.f303"; }
public virtual string f304() { return "A.f304"; }
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public virtual string f780() { return "A.f780"; }
public virtual string f781() { return "A.f781"; }
public virtual string f782() { return "A.f782"; }
public virtual string f783() { return "A.f783"; }
public virtual string f784() { return "A.f784"; }
public virtual string f785() { return "A.f785"; }
public virtual string f786() { return "A.f786"; }
public virtual string f787() { return "A.f787"; }
public virtual string f788() { return "A.f788"; }
public virtual string f789() { return "A.f789"; }
public virtual string f790() { return "A.f790"; }
public virtual string f791() { return "A.f791"; }
public virtual string f792() { return "A.f792"; }
public virtual string f793() { return "A.f793"; }
public virtual string f794() { return "A.f794"; }
public virtual string f795() { return "A.f795"; }
public virtual string f796() { return "A.f796"; }
public virtual string f797() { return "A.f797"; }
public virtual string f798() { return "A.f798"; }
public virtual string f799() { return "A.f799"; }
public virtual string f800() { return "A.f800"; }
public virtual string f801() { return "A.f801"; }
public virtual string f802() { return "A.f802"; }
public virtual string f803() { return "A.f803"; }
public virtual string f804() { return "A.f804"; }
public virtual string f805() { return "A.f805"; }
public virtual string f806() { return "A.f806"; }
public virtual string f807() { return "A.f807"; }
public virtual string f808() { return "A.f808"; }
public virtual string f809() { return "A.f809"; }
public virtual string f810() { return "A.f810"; }
public virtual string f811() { return "A.f811"; }
public virtual string f812() { return "A.f812"; }
public virtual string f813() { return "A.f813"; }
public virtual string f814() { return "A.f814"; }
public virtual string f815() { return "A.f815"; }
public virtual string f816() { return "A.f816"; }
public virtual string f817() { return "A.f817"; }
public virtual string f818() { return "A.f818"; }
public virtual string f819() { return "A.f819"; }
public virtual string f820() { return "A.f820"; }
public virtual string f821() { return "A.f821"; }
public virtual string f822() { return "A.f822"; }
public virtual string f823() { return "A.f823"; }
public virtual string f824() { return "A.f824"; }
public virtual string f825() { return "A.f825"; }
public virtual string f826() { return "A.f826"; }
public virtual string f827() { return "A.f827"; }
public virtual string f828() { return "A.f828"; }
public virtual string f829() { return "A.f829"; }
public virtual string f830() { return "A.f830"; }
public virtual string f831() { return "A.f831"; }
public virtual string f832() { return "A.f832"; }
public virtual string f833() { return "A.f833"; }
public virtual string f834() { return "A.f834"; }
public virtual string f835() { return "A.f835"; }
public virtual string f836() { return "A.f836"; }
public virtual string f837() { return "A.f837"; }
public virtual string f838() { return "A.f838"; }
public virtual string f839() { return "A.f839"; }
public virtual string f840() { return "A.f840"; }
public virtual string f841() { return "A.f841"; }
public virtual string f842() { return "A.f842"; }
public virtual string f843() { return "A.f843"; }
public virtual string f844() { return "A.f844"; }
public virtual string f845() { return "A.f845"; }
public virtual string f846() { return "A.f846"; }
public virtual string f847() { return "A.f847"; }
public virtual string f848() { return "A.f848"; }
public virtual string f849() { return "A.f849"; }
public virtual string f850() { return "A.f850"; }
public virtual string f851() { return "A.f851"; }
public virtual string f852() { return "A.f852"; }
public virtual string f853() { return "A.f853"; }
public virtual string f854() { return "A.f854"; }
public virtual string f855() { return "A.f855"; }
public virtual string f856() { return "A.f856"; }
public virtual string f857() { return "A.f857"; }
public virtual string f858() { return "A.f858"; }
public virtual string f859() { return "A.f859"; }
public virtual string f860() { return "A.f860"; }
public virtual string f861() { return "A.f861"; }
public virtual string f862() { return "A.f862"; }
public virtual string f863() { return "A.f863"; }
public virtual string f864() { return "A.f864"; }
public virtual string f865() { return "A.f865"; }
public virtual string f866() { return "A.f866"; }
public virtual string f867() { return "A.f867"; }
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public virtual string f870() { return "A.f870"; }
public virtual string f871() { return "A.f871"; }
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public virtual string f875() { return "A.f875"; }
public virtual string f876() { return "A.f876"; }
public virtual string f877() { return "A.f877"; }
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public virtual string f880() { return "A.f880"; }
public virtual string f881() { return "A.f881"; }
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public virtual string f884() { return "A.f884"; }
public virtual string f885() { return "A.f885"; }
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public virtual string f888() { return "A.f888"; }
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public virtual string f892() { return "A.f892"; }
public virtual string f893() { return "A.f893"; }
public virtual string f894() { return "A.f894"; }
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public virtual string f896() { return "A.f896"; }
public virtual string f897() { return "A.f897"; }
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public virtual string f900() { return "A.f900"; }
public virtual string f901() { return "A.f901"; }
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public virtual string f903() { return "A.f903"; }
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public virtual string f909() { return "A.f909"; }
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public virtual string f912() { return "A.f912"; }
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public virtual string f915() { return "A.f915"; }
public virtual string f916() { return "A.f916"; }
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public virtual string f920() { return "A.f920"; }
public virtual string f921() { return "A.f921"; }
public virtual string f922() { return "A.f922"; }
public virtual string f923() { return "A.f923"; }
public virtual string f924() { return "A.f924"; }
public virtual string f925() { return "A.f925"; }
public virtual string f926() { return "A.f926"; }
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public virtual string f928() { return "A.f928"; }
public virtual string f929() { return "A.f929"; }
public virtual string f930() { return "A.f930"; }
public virtual string f931() { return "A.f931"; }
public virtual string f932() { return "A.f932"; }
public virtual string f933() { return "A.f933"; }
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public virtual string f935() { return "A.f935"; }
public virtual string f936() { return "A.f936"; }
public virtual string f937() { return "A.f937"; }
public virtual string f938() { return "A.f938"; }
public virtual string f939() { return "A.f939"; }
public virtual string f940() { return "A.f940"; }
public virtual string f941() { return "A.f941"; }
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public virtual string f945() { return "A.f945"; }
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public virtual string f947() { return "A.f947"; }
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public virtual string f950() { return "A.f950"; }
public virtual string f951() { return "A.f951"; }
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public virtual string f953() { return "A.f953"; }
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public virtual string f956() { return "A.f956"; }
public virtual string f957() { return "A.f957"; }
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public virtual string f960() { return "A.f960"; }
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public virtual string f963() { return "A.f963"; }
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public virtual string f966() { return "A.f966"; }
public virtual string f967() { return "A.f967"; }
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public virtual string f970() { return "A.f970"; }
public virtual string f971() { return "A.f971"; }
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public virtual string f973() { return "A.f973"; }
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public virtual string f977() { return "A.f977"; }
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public virtual string f980() { return "A.f980"; }
public virtual string f981() { return "A.f981"; }
public virtual string f982() { return "A.f982"; }
public virtual string f983() { return "A.f983"; }
public virtual string f984() { return "A.f984"; }
public virtual string f985() { return "A.f985"; }
public virtual string f986() { return "A.f986"; }
public virtual string f987() { return "A.f987"; }
public virtual string f988() { return "A.f988"; }
public virtual string f989() { return "A.f989"; }
public virtual string f990() { return "A.f990"; }
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public virtual string f993() { return "A.f993"; }
public virtual string f994() { return "A.f994"; }
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public virtual string f996() { return "A.f996"; }
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public virtual string f998() { return "A.f998"; }
public virtual string f999() { return "A.f999"; }
public virtual string f1000() { return "A.f1000"; }
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public virtual string f1002() { return "A.f1002"; }
public virtual string f1003() { return "A.f1003"; }
public virtual string f1004() { return "A.f1004"; }
public virtual string f1005() { return "A.f1005"; }
public virtual string f1006() { return "A.f1006"; }
public virtual string f1007() { return "A.f1007"; }
public virtual string f1008() { return "A.f1008"; }
public virtual string f1009() { return "A.f1009"; }
public virtual string f1010() { return "A.f1010"; }
public virtual string f1011() { return "A.f1011"; }
public virtual string f1012() { return "A.f1012"; }
public virtual string f1013() { return "A.f1013"; }
public virtual string f1014() { return "A.f1014"; }
public virtual string f1015() { return "A.f1015"; }
public virtual string f1016() { return "A.f1016"; }
public virtual string f1017() { return "A.f1017"; }
public virtual string f1018() { return "A.f1018"; }
public virtual string f1019() { return "A.f1019"; }
public virtual string f1020() { return "A.f1020"; }
public virtual string f1021() { return "A.f1021"; }
public virtual string f1022() { return "A.f1022"; }
public virtual string f1023() { return "A.f1023"; }
public virtual string f1024() { return "A.f1024"; }
public virtual string f1025() { return "A.f1025"; }
public virtual string f1026() { return "A.f1026"; }
public virtual string f1027() { return "A.f1027"; }
public virtual string f1028() { return "A.f1028"; }
public virtual string f1029() { return "A.f1029"; }
public virtual string f1030() { return "A.f1030"; }
public virtual string f1031() { return "A.f1031"; }
public virtual string f1032() { return "A.f1032"; }
public virtual string f1033() { return "A.f1033"; }
public virtual string f1034() { return "A.f1034"; }
public virtual string f1035() { return "A.f1035"; }
public virtual string f1036() { return "A.f1036"; }
public virtual string f1037() { return "A.f1037"; }
public virtual string f1038() { return "A.f1038"; }
public virtual string f1039() { return "A.f1039"; }
public virtual string f1040() { return "A.f1040"; }
public virtual string f1041() { return "A.f1041"; }
public virtual string f1042() { return "A.f1042"; }
public virtual string f1043() { return "A.f1043"; }
public virtual string f1044() { return "A.f1044"; }
public virtual string f1045() { return "A.f1045"; }
public virtual string f1046() { return "A.f1046"; }
public virtual string f1047() { return "A.f1047"; }
public virtual string f1048() { return "A.f1048"; }
public virtual string f1049() { return "A.f1049"; }
public virtual string f1050() { return "A.f1050"; }
public virtual string f1051() { return "A.f1051"; }
public virtual string f1052() { return "A.f1052"; }
public virtual string f1053() { return "A.f1053"; }
public virtual string f1054() { return "A.f1054"; }
public virtual string f1055() { return "A.f1055"; }
public virtual string f1056() { return "A.f1056"; }
public virtual string f1057() { return "A.f1057"; }
public virtual string f1058() { return "A.f1058"; }
public virtual string f1059() { return "A.f1059"; }
public virtual string f1060() { return "A.f1060"; }
public virtual string f1061() { return "A.f1061"; }
public virtual string f1062() { return "A.f1062"; }
public virtual string f1063() { return "A.f1063"; }
public virtual string f1064() { return "A.f1064"; }
public virtual string f1065() { return "A.f1065"; }
public virtual string f1066() { return "A.f1066"; }
public virtual string f1067() { return "A.f1067"; }
public virtual string f1068() { return "A.f1068"; }
public virtual string f1069() { return "A.f1069"; }
public virtual string f1070() { return "A.f1070"; }
public virtual string f1071() { return "A.f1071"; }
public virtual string f1072() { return "A.f1072"; }
public virtual string f1073() { return "A.f1073"; }
public virtual string f1074() { return "A.f1074"; }
public virtual string f1075() { return "A.f1075"; }
public virtual string f1076() { return "A.f1076"; }
public virtual string f1077() { return "A.f1077"; }
public virtual string f1078() { return "A.f1078"; }
public virtual string f1079() { return "A.f1079"; }
public virtual string f1080() { return "A.f1080"; }
public virtual string f1081() { return "A.f1081"; }
public virtual string f1082() { return "A.f1082"; }
public virtual string f1083() { return "A.f1083"; }
public virtual string f1084() { return "A.f1084"; }
public virtual string f1085() { return "A.f1085"; }
public virtual string f1086() { return "A.f1086"; }
public virtual string f1087() { return "A.f1087"; }
public virtual string f1088() { return "A.f1088"; }
public virtual string f1089() { return "A.f1089"; }
public virtual string f1090() { return "A.f1090"; }
public virtual string f1091() { return "A.f1091"; }
public virtual string f1092() { return "A.f1092"; }
public virtual string f1093() { return "A.f1093"; }
public virtual string f1094() { return "A.f1094"; }
public virtual string f1095() { return "A.f1095"; }
public virtual string f1096() { return "A.f1096"; }
public virtual string f1097() { return "A.f1097"; }
public virtual string f1098() { return "A.f1098"; }
public virtual string f1099() { return "A.f1099"; }
public virtual string f1100() { return "A.f1100"; }
public virtual string f1101() { return "A.f1101"; }
public virtual string f1102() { return "A.f1102"; }
public virtual string f1103() { return "A.f1103"; }
public virtual string f1104() { return "A.f1104"; }
public virtual string f1105() { return "A.f1105"; }
public virtual string f1106() { return "A.f1106"; }
public virtual string f1107() { return "A.f1107"; }
public virtual string f1108() { return "A.f1108"; }
public virtual string f1109() { return "A.f1109"; }
public virtual string f1110() { return "A.f1110"; }
public virtual string f1111() { return "A.f1111"; }
public virtual string f1112() { return "A.f1112"; }
public virtual string f1113() { return "A.f1113"; }
public virtual string f1114() { return "A.f1114"; }
public virtual string f1115() { return "A.f1115"; }
public virtual string f1116() { return "A.f1116"; }
public virtual string f1117() { return "A.f1117"; }
public virtual string f1118() { return "A.f1118"; }
public virtual string f1119() { return "A.f1119"; }
public virtual string f1120() { return "A.f1120"; }
public virtual string f1121() { return "A.f1121"; }
public virtual string f1122() { return "A.f1122"; }
public virtual string f1123() { return "A.f1123"; }
public virtual string f1124() { return "A.f1124"; }
public virtual string f1125() { return "A.f1125"; }
public virtual string f1126() { return "A.f1126"; }
public virtual string f1127() { return "A.f1127"; }
public virtual string f1128() { return "A.f1128"; }
public virtual string f1129() { return "A.f1129"; }
public virtual string f1130() { return "A.f1130"; }
public virtual string f1131() { return "A.f1131"; }
public virtual string f1132() { return "A.f1132"; }
public virtual string f1133() { return "A.f1133"; }
public virtual string f1134() { return "A.f1134"; }
public virtual string f1135() { return "A.f1135"; }
public virtual string f1136() { return "A.f1136"; }
public virtual string f1137() { return "A.f1137"; }
public virtual string f1138() { return "A.f1138"; }
public virtual string f1139() { return "A.f1139"; }
public virtual string f1140() { return "A.f1140"; }
public virtual string f1141() { return "A.f1141"; }
public virtual string f1142() { return "A.f1142"; }
public virtual string f1143() { return "A.f1143"; }
public virtual string f1144() { return "A.f1144"; }
public virtual string f1145() { return "A.f1145"; }
public virtual string f1146() { return "A.f1146"; }
public virtual string f1147() { return "A.f1147"; }
public virtual string f1148() { return "A.f1148"; }
public virtual string f1149() { return "A.f1149"; }
public virtual string f1150() { return "A.f1150"; }
public virtual string f1151() { return "A.f1151"; }
public virtual string f1152() { return "A.f1152"; }
public virtual string f1153() { return "A.f1153"; }
public virtual string f1154() { return "A.f1154"; }
public virtual string f1155() { return "A.f1155"; }
public virtual string f1156() { return "A.f1156"; }
public virtual string f1157() { return "A.f1157"; }
public virtual string f1158() { return "A.f1158"; }
public virtual string f1159() { return "A.f1159"; }
public virtual string f1160() { return "A.f1160"; }
public virtual string f1161() { return "A.f1161"; }
public virtual string f1162() { return "A.f1162"; }
public virtual string f1163() { return "A.f1163"; }
public virtual string f1164() { return "A.f1164"; }
public virtual string f1165() { return "A.f1165"; }
public virtual string f1166() { return "A.f1166"; }
public virtual string f1167() { return "A.f1167"; }
public virtual string f1168() { return "A.f1168"; }
public virtual string f1169() { return "A.f1169"; }
public virtual string f1170() { return "A.f1170"; }
public virtual string f1171() { return "A.f1171"; }
public virtual string f1172() { return "A.f1172"; }
public virtual string f1173() { return "A.f1173"; }
public virtual string f1174() { return "A.f1174"; }
public virtual string f1175() { return "A.f1175"; }
public virtual string f1176() { return "A.f1176"; }
public virtual string f1177() { return "A.f1177"; }
public virtual string f1178() { return "A.f1178"; }
public virtual string f1179() { return "A.f1179"; }
public virtual string f1180() { return "A.f1180"; }
public virtual string f1181() { return "A.f1181"; }
public virtual string f1182() { return "A.f1182"; }
public virtual string f1183() { return "A.f1183"; }
public virtual string f1184() { return "A.f1184"; }
public virtual string f1185() { return "A.f1185"; }
public virtual string f1186() { return "A.f1186"; }
public virtual string f1187() { return "A.f1187"; }
public virtual string f1188() { return "A.f1188"; }
public virtual string f1189() { return "A.f1189"; }
public virtual string f1190() { return "A.f1190"; }
public virtual string f1191() { return "A.f1191"; }
public virtual string f1192() { return "A.f1192"; }
public virtual string f1193() { return "A.f1193"; }
public virtual string f1194() { return "A.f1194"; }
public virtual string f1195() { return "A.f1195"; }
public virtual string f1196() { return "A.f1196"; }
public virtual string f1197() { return "A.f1197"; }
public virtual string f1198() { return "A.f1198"; }
public virtual string f1199() { return "A.f1199"; }
public virtual string f1200() { return "A.f1200"; }
public virtual string f1201() { return "A.f1201"; }
public virtual string f1202() { return "A.f1202"; }
public virtual string f1203() { return "A.f1203"; }
public virtual string f1204() { return "A.f1204"; }
public virtual string f1205() { return "A.f1205"; }
public virtual string f1206() { return "A.f1206"; }
public virtual string f1207() { return "A.f1207"; }
public virtual string f1208() { return "A.f1208"; }
public virtual string f1209() { return "A.f1209"; }
public virtual string f1210() { return "A.f1210"; }
public virtual string f1211() { return "A.f1211"; }
public virtual string f1212() { return "A.f1212"; }
public virtual string f1213() { return "A.f1213"; }
public virtual string f1214() { return "A.f1214"; }
public virtual string f1215() { return "A.f1215"; }
public virtual string f1216() { return "A.f1216"; }
public virtual string f1217() { return "A.f1217"; }
public virtual string f1218() { return "A.f1218"; }
public virtual string f1219() { return "A.f1219"; }
public virtual string f1220() { return "A.f1220"; }
public virtual string f1221() { return "A.f1221"; }
public virtual string f1222() { return "A.f1222"; }
public virtual string f1223() { return "A.f1223"; }
public virtual string f1224() { return "A.f1224"; }
public virtual string f1225() { return "A.f1225"; }
public virtual string f1226() { return "A.f1226"; }
public virtual string f1227() { return "A.f1227"; }
public virtual string f1228() { return "A.f1228"; }
public virtual string f1229() { return "A.f1229"; }
public virtual string f1230() { return "A.f1230"; }
public virtual string f1231() { return "A.f1231"; }
public virtual string f1232() { return "A.f1232"; }
public virtual string f1233() { return "A.f1233"; }
public virtual string f1234() { return "A.f1234"; }
public virtual string f1235() { return "A.f1235"; }
public virtual string f1236() { return "A.f1236"; }
public virtual string f1237() { return "A.f1237"; }
public virtual string f1238() { return "A.f1238"; }
public virtual string f1239() { return "A.f1239"; }
public virtual string f1240() { return "A.f1240"; }
public virtual string f1241() { return "A.f1241"; }
public virtual string f1242() { return "A.f1242"; }
public virtual string f1243() { return "A.f1243"; }
public virtual string f1244() { return "A.f1244"; }
public virtual string f1245() { return "A.f1245"; }
public virtual string f1246() { return "A.f1246"; }
public virtual string f1247() { return "A.f1247"; }
public virtual string f1248() { return "A.f1248"; }
public virtual string f1249() { return "A.f1249"; }
public virtual string f1250() { return "A.f1250"; }
public virtual string f1251() { return "A.f1251"; }
public virtual string f1252() { return "A.f1252"; }
public virtual string f1253() { return "A.f1253"; }
public virtual string f1254() { return "A.f1254"; }
public virtual string f1255() { return "A.f1255"; }
public virtual string f1256() { return "A.f1256"; }
public virtual string f1257() { return "A.f1257"; }
public virtual string f1258() { return "A.f1258"; }
public virtual string f1259() { return "A.f1259"; }
public virtual string f1260() { return "A.f1260"; }
public virtual string f1261() { return "A.f1261"; }
public virtual string f1262() { return "A.f1262"; }
public virtual string f1263() { return "A.f1263"; }
public virtual string f1264() { return "A.f1264"; }
public virtual string f1265() { return "A.f1265"; }
public virtual string f1266() { return "A.f1266"; }
public virtual string f1267() { return "A.f1267"; }
public virtual string f1268() { return "A.f1268"; }
public virtual string f1269() { return "A.f1269"; }
public virtual string f1270() { return "A.f1270"; }
public virtual string f1271() { return "A.f1271"; }
public virtual string f1272() { return "A.f1272"; }
public virtual string f1273() { return "A.f1273"; }
public virtual string f1274() { return "A.f1274"; }
public virtual string f1275() { return "A.f1275"; }
public virtual string f1276() { return "A.f1276"; }
public virtual string f1277() { return "A.f1277"; }
public virtual string f1278() { return "A.f1278"; }
public virtual string f1279() { return "A.f1279"; }
public virtual string f1280() { return "A.f1280"; }
public virtual string f1281() { return "A.f1281"; }
public virtual string f1282() { return "A.f1282"; }
public virtual string f1283() { return "A.f1283"; }
public virtual string f1284() { return "A.f1284"; }
public virtual string f1285() { return "A.f1285"; }
public virtual string f1286() { return "A.f1286"; }
public virtual string f1287() { return "A.f1287"; }
public virtual string f1288() { return "A.f1288"; }
public virtual string f1289() { return "A.f1289"; }
public virtual string f1290() { return "A.f1290"; }
public virtual string f1291() { return "A.f1291"; }
public virtual string f1292() { return "A.f1292"; }
public virtual string f1293() { return "A.f1293"; }
public virtual string f1294() { return "A.f1294"; }
public virtual string f1295() { return "A.f1295"; }
public virtual string f1296() { return "A.f1296"; }
public virtual string f1297() { return "A.f1297"; }
public virtual string f1298() { return "A.f1298"; }
public virtual string f1299() { return "A.f1299"; }
public virtual string f1300() { return "A.f1300"; }
public virtual string f1301() { return "A.f1301"; }
public virtual string f1302() { return "A.f1302"; }
public virtual string f1303() { return "A.f1303"; }
public virtual string f1304() { return "A.f1304"; }
public virtual string f1305() { return "A.f1305"; }
public virtual string f1306() { return "A.f1306"; }
public virtual string f1307() { return "A.f1307"; }
public virtual string f1308() { return "A.f1308"; }
public virtual string f1309() { return "A.f1309"; }
public virtual string f1310() { return "A.f1310"; }
public virtual string f1311() { return "A.f1311"; }
public virtual string f1312() { return "A.f1312"; }
public virtual string f1313() { return "A.f1313"; }
public virtual string f1314() { return "A.f1314"; }
public virtual string f1315() { return "A.f1315"; }
public virtual string f1316() { return "A.f1316"; }
public virtual string f1317() { return "A.f1317"; }
public virtual string f1318() { return "A.f1318"; }
public virtual string f1319() { return "A.f1319"; }
public virtual string f1320() { return "A.f1320"; }
public virtual string f1321() { return "A.f1321"; }
public virtual string f1322() { return "A.f1322"; }
public virtual string f1323() { return "A.f1323"; }
public virtual string f1324() { return "A.f1324"; }
public virtual string f1325() { return "A.f1325"; }
public virtual string f1326() { return "A.f1326"; }
public virtual string f1327() { return "A.f1327"; }
public virtual string f1328() { return "A.f1328"; }
public virtual string f1329() { return "A.f1329"; }
public virtual string f1330() { return "A.f1330"; }
public virtual string f1331() { return "A.f1331"; }
public virtual string f1332() { return "A.f1332"; }
public virtual string f1333() { return "A.f1333"; }
public virtual string f1334() { return "A.f1334"; }
public virtual string f1335() { return "A.f1335"; }
public virtual string f1336() { return "A.f1336"; }
public virtual string f1337() { return "A.f1337"; }
public virtual string f1338() { return "A.f1338"; }
public virtual string f1339() { return "A.f1339"; }
public virtual string f1340() { return "A.f1340"; }
public virtual string f1341() { return "A.f1341"; }
public virtual string f1342() { return "A.f1342"; }
public virtual string f1343() { return "A.f1343"; }
public virtual string f1344() { return "A.f1344"; }
public virtual string f1345() { return "A.f1345"; }
public virtual string f1346() { return "A.f1346"; }
public virtual string f1347() { return "A.f1347"; }
public virtual string f1348() { return "A.f1348"; }
public virtual string f1349() { return "A.f1349"; }
public virtual string f1350() { return "A.f1350"; }
public virtual string f1351() { return "A.f1351"; }
public virtual string f1352() { return "A.f1352"; }
public virtual string f1353() { return "A.f1353"; }
public virtual string f1354() { return "A.f1354"; }
public virtual string f1355() { return "A.f1355"; }
public virtual string f1356() { return "A.f1356"; }
public virtual string f1357() { return "A.f1357"; }
public virtual string f1358() { return "A.f1358"; }
public virtual string f1359() { return "A.f1359"; }
public virtual string f1360() { return "A.f1360"; }
public virtual string f1361() { return "A.f1361"; }
public virtual string f1362() { return "A.f1362"; }
public virtual string f1363() { return "A.f1363"; }
public virtual string f1364() { return "A.f1364"; }
public virtual string f1365() { return "A.f1365"; }
public virtual string f1366() { return "A.f1366"; }
public virtual string f1367() { return "A.f1367"; }
public virtual string f1368() { return "A.f1368"; }
public virtual string f1369() { return "A.f1369"; }
public virtual string f1370() { return "A.f1370"; }
public virtual string f1371() { return "A.f1371"; }
public virtual string f1372() { return "A.f1372"; }
public virtual string f1373() { return "A.f1373"; }
public virtual string f1374() { return "A.f1374"; }
public virtual string f1375() { return "A.f1375"; }
public virtual string f1376() { return "A.f1376"; }
public virtual string f1377() { return "A.f1377"; }
public virtual string f1378() { return "A.f1378"; }
public virtual string f1379() { return "A.f1379"; }
public virtual string f1380() { return "A.f1380"; }
public virtual string f1381() { return "A.f1381"; }
public virtual string f1382() { return "A.f1382"; }
public virtual string f1383() { return "A.f1383"; }
public virtual string f1384() { return "A.f1384"; }
public virtual string f1385() { return "A.f1385"; }
public virtual string f1386() { return "A.f1386"; }
public virtual string f1387() { return "A.f1387"; }
public virtual string f1388() { return "A.f1388"; }
public virtual string f1389() { return "A.f1389"; }
public virtual string f1390() { return "A.f1390"; }
public virtual string f1391() { return "A.f1391"; }
public virtual string f1392() { return "A.f1392"; }
public virtual string f1393() { return "A.f1393"; }
public virtual string f1394() { return "A.f1394"; }
public virtual string f1395() { return "A.f1395"; }
public virtual string f1396() { return "A.f1396"; }
public virtual string f1397() { return "A.f1397"; }
public virtual string f1398() { return "A.f1398"; }
public virtual string f1399() { return "A.f1399"; }
public virtual string f1400() { return "A.f1400"; }
public virtual string f1401() { return "A.f1401"; }
public virtual string f1402() { return "A.f1402"; }
public virtual string f1403() { return "A.f1403"; }
public virtual string f1404() { return "A.f1404"; }
public virtual string f1405() { return "A.f1405"; }
public virtual string f1406() { return "A.f1406"; }
public virtual string f1407() { return "A.f1407"; }
public virtual string f1408() { return "A.f1408"; }
public virtual string f1409() { return "A.f1409"; }
public virtual string f1410() { return "A.f1410"; }
public virtual string f1411() { return "A.f1411"; }
public virtual string f1412() { return "A.f1412"; }
public virtual string f1413() { return "A.f1413"; }
public virtual string f1414() { return "A.f1414"; }
public virtual string f1415() { return "A.f1415"; }
public virtual string f1416() { return "A.f1416"; }
public virtual string f1417() { return "A.f1417"; }
public virtual string f1418() { return "A.f1418"; }
public virtual string f1419() { return "A.f1419"; }
public virtual string f1420() { return "A.f1420"; }
public virtual string f1421() { return "A.f1421"; }
public virtual string f1422() { return "A.f1422"; }
public virtual string f1423() { return "A.f1423"; }
public virtual string f1424() { return "A.f1424"; }
public virtual string f1425() { return "A.f1425"; }
public virtual string f1426() { return "A.f1426"; }
public virtual string f1427() { return "A.f1427"; }
public virtual string f1428() { return "A.f1428"; }
public virtual string f1429() { return "A.f1429"; }
public virtual string f1430() { return "A.f1430"; }
public virtual string f1431() { return "A.f1431"; }
public virtual string f1432() { return "A.f1432"; }
public virtual string f1433() { return "A.f1433"; }
public virtual string f1434() { return "A.f1434"; }
public virtual string f1435() { return "A.f1435"; }
public virtual string f1436() { return "A.f1436"; }
public virtual string f1437() { return "A.f1437"; }
public virtual string f1438() { return "A.f1438"; }
public virtual string f1439() { return "A.f1439"; }
public virtual string f1440() { return "A.f1440"; }
public virtual string f1441() { return "A.f1441"; }
public virtual string f1442() { return "A.f1442"; }
public virtual string f1443() { return "A.f1443"; }
public virtual string f1444() { return "A.f1444"; }
public virtual string f1445() { return "A.f1445"; }
public virtual string f1446() { return "A.f1446"; }
public virtual string f1447() { return "A.f1447"; }
public virtual string f1448() { return "A.f1448"; }
public virtual string f1449() { return "A.f1449"; }
public virtual string f1450() { return "A.f1450"; }
public virtual string f1451() { return "A.f1451"; }
public virtual string f1452() { return "A.f1452"; }
public virtual string f1453() { return "A.f1453"; }
public virtual string f1454() { return "A.f1454"; }
public virtual string f1455() { return "A.f1455"; }
public virtual string f1456() { return "A.f1456"; }
public virtual string f1457() { return "A.f1457"; }
public virtual string f1458() { return "A.f1458"; }
public virtual string f1459() { return "A.f1459"; }
public virtual string f1460() { return "A.f1460"; }
public virtual string f1461() { return "A.f1461"; }
public virtual string f1462() { return "A.f1462"; }
public virtual string f1463() { return "A.f1463"; }
public virtual string f1464() { return "A.f1464"; }
public virtual string f1465() { return "A.f1465"; }
public virtual string f1466() { return "A.f1466"; }
public virtual string f1467() { return "A.f1467"; }
public virtual string f1468() { return "A.f1468"; }
public virtual string f1469() { return "A.f1469"; }
public virtual string f1470() { return "A.f1470"; }
public virtual string f1471() { return "A.f1471"; }
public virtual string f1472() { return "A.f1472"; }
public virtual string f1473() { return "A.f1473"; }
public virtual string f1474() { return "A.f1474"; }
public virtual string f1475() { return "A.f1475"; }
public virtual string f1476() { return "A.f1476"; }
public virtual string f1477() { return "A.f1477"; }
public virtual string f1478() { return "A.f1478"; }
public virtual string f1479() { return "A.f1479"; }
public virtual string f1480() { return "A.f1480"; }
public virtual string f1481() { return "A.f1481"; }
public virtual string f1482() { return "A.f1482"; }
public virtual string f1483() { return "A.f1483"; }
public virtual string f1484() { return "A.f1484"; }
public virtual string f1485() { return "A.f1485"; }
public virtual string f1486() { return "A.f1486"; }
public virtual string f1487() { return "A.f1487"; }
public virtual string f1488() { return "A.f1488"; }
public virtual string f1489() { return "A.f1489"; }
public virtual string f1490() { return "A.f1490"; }
public virtual string f1491() { return "A.f1491"; }
public virtual string f1492() { return "A.f1492"; }
public virtual string f1493() { return "A.f1493"; }
public virtual string f1494() { return "A.f1494"; }
public virtual string f1495() { return "A.f1495"; }
public virtual string f1496() { return "A.f1496"; }
public virtual string f1497() { return "A.f1497"; }
public virtual string f1498() { return "A.f1498"; }
public virtual string f1499() { return "A.f1499"; }
public virtual string f1500() { return "A.f1500"; }
public virtual string f1501() { return "A.f1501"; }
public virtual string f1502() { return "A.f1502"; }
public virtual string f1503() { return "A.f1503"; }
public virtual string f1504() { return "A.f1504"; }
public virtual string f1505() { return "A.f1505"; }
public virtual string f1506() { return "A.f1506"; }
public virtual string f1507() { return "A.f1507"; }
public virtual string f1508() { return "A.f1508"; }
public virtual string f1509() { return "A.f1509"; }
public virtual string f1510() { return "A.f1510"; }
public virtual string f1511() { return "A.f1511"; }
public virtual string f1512() { return "A.f1512"; }
public virtual string f1513() { return "A.f1513"; }
public virtual string f1514() { return "A.f1514"; }
public virtual string f1515() { return "A.f1515"; }
public virtual string f1516() { return "A.f1516"; }
public virtual string f1517() { return "A.f1517"; }
public virtual string f1518() { return "A.f1518"; }
public virtual string f1519() { return "A.f1519"; }
public virtual string f1520() { return "A.f1520"; }
public virtual string f1521() { return "A.f1521"; }
public virtual string f1522() { return "A.f1522"; }
public virtual string f1523() { return "A.f1523"; }
public virtual string f1524() { return "A.f1524"; }
public virtual string f1525() { return "A.f1525"; }
public virtual string f1526() { return "A.f1526"; }
public virtual string f1527() { return "A.f1527"; }
public virtual string f1528() { return "A.f1528"; }
public virtual string f1529() { return "A.f1529"; }
public virtual string f1530() { return "A.f1530"; }
public virtual string f1531() { return "A.f1531"; }
public virtual string f1532() { return "A.f1532"; }
public virtual string f1533() { return "A.f1533"; }
public virtual string f1534() { return "A.f1534"; }
public virtual string f1535() { return "A.f1535"; }
public virtual string f1536() { return "A.f1536"; }
public virtual string f1537() { return "A.f1537"; }
public virtual string f1538() { return "A.f1538"; }
public virtual string f1539() { return "A.f1539"; }
public virtual string f1540() { return "A.f1540"; }
public virtual string f1541() { return "A.f1541"; }
public virtual string f1542() { return "A.f1542"; }
public virtual string f1543() { return "A.f1543"; }
public virtual string f1544() { return "A.f1544"; }
public virtual string f1545() { return "A.f1545"; }
public virtual string f1546() { return "A.f1546"; }
public virtual string f1547() { return "A.f1547"; }
public virtual string f1548() { return "A.f1548"; }
public virtual string f1549() { return "A.f1549"; }
public virtual string f1550() { return "A.f1550"; }
public virtual string f1551() { return "A.f1551"; }
public virtual string f1552() { return "A.f1552"; }
public virtual string f1553() { return "A.f1553"; }
public virtual string f1554() { return "A.f1554"; }
public virtual string f1555() { return "A.f1555"; }
public virtual string f1556() { return "A.f1556"; }
public virtual string f1557() { return "A.f1557"; }
public virtual string f1558() { return "A.f1558"; }
public virtual string f1559() { return "A.f1559"; }
public virtual string f1560() { return "A.f1560"; }
public virtual string f1561() { return "A.f1561"; }
public virtual string f1562() { return "A.f1562"; }
public virtual string f1563() { return "A.f1563"; }
public virtual string f1564() { return "A.f1564"; }
public virtual string f1565() { return "A.f1565"; }
public virtual string f1566() { return "A.f1566"; }
public virtual string f1567() { return "A.f1567"; }
public virtual string f1568() { return "A.f1568"; }
public virtual string f1569() { return "A.f1569"; }
public virtual string f1570() { return "A.f1570"; }
public virtual string f1571() { return "A.f1571"; }
public virtual string f1572() { return "A.f1572"; }
public virtual string f1573() { return "A.f1573"; }
public virtual string f1574() { return "A.f1574"; }
public virtual string f1575() { return "A.f1575"; }
public virtual string f1576() { return "A.f1576"; }
public virtual string f1577() { return "A.f1577"; }
public virtual string f1578() { return "A.f1578"; }
public virtual string f1579() { return "A.f1579"; }
public virtual string f1580() { return "A.f1580"; }
public virtual string f1581() { return "A.f1581"; }
public virtual string f1582() { return "A.f1582"; }
public virtual string f1583() { return "A.f1583"; }
public virtual string f1584() { return "A.f1584"; }
public virtual string f1585() { return "A.f1585"; }
public virtual string f1586() { return "A.f1586"; }
public virtual string f1587() { return "A.f1587"; }
public virtual string f1588() { return "A.f1588"; }
public virtual string f1589() { return "A.f1589"; }
public virtual string f1590() { return "A.f1590"; }
public virtual string f1591() { return "A.f1591"; }
public virtual string f1592() { return "A.f1592"; }
public virtual string f1593() { return "A.f1593"; }
public virtual string f1594() { return "A.f1594"; }
public virtual string f1595() { return "A.f1595"; }
public virtual string f1596() { return "A.f1596"; }
public virtual string f1597() { return "A.f1597"; }
public virtual string f1598() { return "A.f1598"; }
public virtual string f1599() { return "A.f1599"; }
public virtual string f1600() { return "A.f1600"; }
public virtual string f1601() { return "A.f1601"; }
public virtual string f1602() { return "A.f1602"; }
public virtual string f1603() { return "A.f1603"; }
public virtual string f1604() { return "A.f1604"; }
public virtual string f1605() { return "A.f1605"; }
public virtual string f1606() { return "A.f1606"; }
public virtual string f1607() { return "A.f1607"; }
public virtual string f1608() { return "A.f1608"; }
public virtual string f1609() { return "A.f1609"; }
public virtual string f1610() { return "A.f1610"; }
public virtual string f1611() { return "A.f1611"; }
public virtual string f1612() { return "A.f1612"; }
public virtual string f1613() { return "A.f1613"; }
public virtual string f1614() { return "A.f1614"; }
public virtual string f1615() { return "A.f1615"; }
public virtual string f1616() { return "A.f1616"; }
public virtual string f1617() { return "A.f1617"; }
public virtual string f1618() { return "A.f1618"; }
public virtual string f1619() { return "A.f1619"; }
public virtual string f1620() { return "A.f1620"; }
public virtual string f1621() { return "A.f1621"; }
public virtual string f1622() { return "A.f1622"; }
public virtual string f1623() { return "A.f1623"; }
public virtual string f1624() { return "A.f1624"; }
public virtual string f1625() { return "A.f1625"; }
public virtual string f1626() { return "A.f1626"; }
public virtual string f1627() { return "A.f1627"; }
public virtual string f1628() { return "A.f1628"; }
public virtual string f1629() { return "A.f1629"; }
public virtual string f1630() { return "A.f1630"; }
public virtual string f1631() { return "A.f1631"; }
public virtual string f1632() { return "A.f1632"; }
public virtual string f1633() { return "A.f1633"; }
public virtual string f1634() { return "A.f1634"; }
public virtual string f1635() { return "A.f1635"; }
public virtual string f1636() { return "A.f1636"; }
public virtual string f1637() { return "A.f1637"; }
public virtual string f1638() { return "A.f1638"; }
public virtual string f1639() { return "A.f1639"; }
public virtual string f1640() { return "A.f1640"; }
public virtual string f1641() { return "A.f1641"; }
public virtual string f1642() { return "A.f1642"; }
public virtual string f1643() { return "A.f1643"; }
public virtual string f1644() { return "A.f1644"; }
public virtual string f1645() { return "A.f1645"; }
public virtual string f1646() { return "A.f1646"; }
public virtual string f1647() { return "A.f1647"; }
public virtual string f1648() { return "A.f1648"; }
public virtual string f1649() { return "A.f1649"; }
public virtual string f1650() { return "A.f1650"; }
public virtual string f1651() { return "A.f1651"; }
public virtual string f1652() { return "A.f1652"; }
public virtual string f1653() { return "A.f1653"; }
public virtual string f1654() { return "A.f1654"; }
public virtual string f1655() { return "A.f1655"; }
public virtual string f1656() { return "A.f1656"; }
public virtual string f1657() { return "A.f1657"; }
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public virtual string f1660() { return "A.f1660"; }
public virtual string f1661() { return "A.f1661"; }
public virtual string f1662() { return "A.f1662"; }
public virtual string f1663() { return "A.f1663"; }
public virtual string f1664() { return "A.f1664"; }
public virtual string f1665() { return "A.f1665"; }
public virtual string f1666() { return "A.f1666"; }
public virtual string f1667() { return "A.f1667"; }
public virtual string f1668() { return "A.f1668"; }
public virtual string f1669() { return "A.f1669"; }
public virtual string f1670() { return "A.f1670"; }
public virtual string f1671() { return "A.f1671"; }
public virtual string f1672() { return "A.f1672"; }
public virtual string f1673() { return "A.f1673"; }
public virtual string f1674() { return "A.f1674"; }
public virtual string f1675() { return "A.f1675"; }
public virtual string f1676() { return "A.f1676"; }
public virtual string f1677() { return "A.f1677"; }
public virtual string f1678() { return "A.f1678"; }
public virtual string f1679() { return "A.f1679"; }
public virtual string f1680() { return "A.f1680"; }
public virtual string f1681() { return "A.f1681"; }
public virtual string f1682() { return "A.f1682"; }
public virtual string f1683() { return "A.f1683"; }
public virtual string f1684() { return "A.f1684"; }
public virtual string f1685() { return "A.f1685"; }
public virtual string f1686() { return "A.f1686"; }
public virtual string f1687() { return "A.f1687"; }
public virtual string f1688() { return "A.f1688"; }
public virtual string f1689() { return "A.f1689"; }
public virtual string f1690() { return "A.f1690"; }
public virtual string f1691() { return "A.f1691"; }
public virtual string f1692() { return "A.f1692"; }
public virtual string f1693() { return "A.f1693"; }
public virtual string f1694() { return "A.f1694"; }
public virtual string f1695() { return "A.f1695"; }
public virtual string f1696() { return "A.f1696"; }
public virtual string f1697() { return "A.f1697"; }
public virtual string f1698() { return "A.f1698"; }
public virtual string f1699() { return "A.f1699"; }
public virtual string f1700() { return "A.f1700"; }
public virtual string f1701() { return "A.f1701"; }
public virtual string f1702() { return "A.f1702"; }
public virtual string f1703() { return "A.f1703"; }
public virtual string f1704() { return "A.f1704"; }
public virtual string f1705() { return "A.f1705"; }
public virtual string f1706() { return "A.f1706"; }
public virtual string f1707() { return "A.f1707"; }
public virtual string f1708() { return "A.f1708"; }
public virtual string f1709() { return "A.f1709"; }
public virtual string f1710() { return "A.f1710"; }
public virtual string f1711() { return "A.f1711"; }
public virtual string f1712() { return "A.f1712"; }
public virtual string f1713() { return "A.f1713"; }
public virtual string f1714() { return "A.f1714"; }
public virtual string f1715() { return "A.f1715"; }
public virtual string f1716() { return "A.f1716"; }
public virtual string f1717() { return "A.f1717"; }
public virtual string f1718() { return "A.f1718"; }
public virtual string f1719() { return "A.f1719"; }
public virtual string f1720() { return "A.f1720"; }
public virtual string f1721() { return "A.f1721"; }
public virtual string f1722() { return "A.f1722"; }
public virtual string f1723() { return "A.f1723"; }
public virtual string f1724() { return "A.f1724"; }
public virtual string f1725() { return "A.f1725"; }
public virtual string f1726() { return "A.f1726"; }
public virtual string f1727() { return "A.f1727"; }
public virtual string f1728() { return "A.f1728"; }
public virtual string f1729() { return "A.f1729"; }
public virtual string f1730() { return "A.f1730"; }
public virtual string f1731() { return "A.f1731"; }
public virtual string f1732() { return "A.f1732"; }
public virtual string f1733() { return "A.f1733"; }
public virtual string f1734() { return "A.f1734"; }
public virtual string f1735() { return "A.f1735"; }
public virtual string f1736() { return "A.f1736"; }
public virtual string f1737() { return "A.f1737"; }
public virtual string f1738() { return "A.f1738"; }
public virtual string f1739() { return "A.f1739"; }
public virtual string f1740() { return "A.f1740"; }
public virtual string f1741() { return "A.f1741"; }
public virtual string f1742() { return "A.f1742"; }
public virtual string f1743() { return "A.f1743"; }
public virtual string f1744() { return "A.f1744"; }
public virtual string f1745() { return "A.f1745"; }
public virtual string f1746() { return "A.f1746"; }
public virtual string f1747() { return "A.f1747"; }
public virtual string f1748() { return "A.f1748"; }
public virtual string f1749() { return "A.f1749"; }
public virtual string f1750() { return "A.f1750"; }
public virtual string f1751() { return "A.f1751"; }
public virtual string f1752() { return "A.f1752"; }
public virtual string f1753() { return "A.f1753"; }
public virtual string f1754() { return "A.f1754"; }
public virtual string f1755() { return "A.f1755"; }
public virtual string f1756() { return "A.f1756"; }
public virtual string f1757() { return "A.f1757"; }
public virtual string f1758() { return "A.f1758"; }
public virtual string f1759() { return "A.f1759"; }
public virtual string f1760() { return "A.f1760"; }
public virtual string f1761() { return "A.f1761"; }
public virtual string f1762() { return "A.f1762"; }
public virtual string f1763() { return "A.f1763"; }
public virtual string f1764() { return "A.f1764"; }
public virtual string f1765() { return "A.f1765"; }
public virtual string f1766() { return "A.f1766"; }
public virtual string f1767() { return "A.f1767"; }
public virtual string f1768() { return "A.f1768"; }
public virtual string f1769() { return "A.f1769"; }
public virtual string f1770() { return "A.f1770"; }
public virtual string f1771() { return "A.f1771"; }
public virtual string f1772() { return "A.f1772"; }
public virtual string f1773() { return "A.f1773"; }
public virtual string f1774() { return "A.f1774"; }
public virtual string f1775() { return "A.f1775"; }
public virtual string f1776() { return "A.f1776"; }
public virtual string f1777() { return "A.f1777"; }
public virtual string f1778() { return "A.f1778"; }
public virtual string f1779() { return "A.f1779"; }
public virtual string f1780() { return "A.f1780"; }
public virtual string f1781() { return "A.f1781"; }
public virtual string f1782() { return "A.f1782"; }
public virtual string f1783() { return "A.f1783"; }
public virtual string f1784() { return "A.f1784"; }
public virtual string f1785() { return "A.f1785"; }
public virtual string f1786() { return "A.f1786"; }
public virtual string f1787() { return "A.f1787"; }
public virtual string f1788() { return "A.f1788"; }
public virtual string f1789() { return "A.f1789"; }
public virtual string f1790() { return "A.f1790"; }
public virtual string f1791() { return "A.f1791"; }
public virtual string f1792() { return "A.f1792"; }
public virtual string f1793() { return "A.f1793"; }
public virtual string f1794() { return "A.f1794"; }
public virtual string f1795() { return "A.f1795"; }
public virtual string f1796() { return "A.f1796"; }
public virtual string f1797() { return "A.f1797"; }
public virtual string f1798() { return "A.f1798"; }
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public virtual string f1800() { return "A.f1800"; }
public virtual string f1801() { return "A.f1801"; }
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public virtual string f1811() { return "A.f1811"; }
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public virtual string f1813() { return "A.f1813"; }
public virtual string f1814() { return "A.f1814"; }
public virtual string f1815() { return "A.f1815"; }
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public virtual string f1822() { return "A.f1822"; }
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public virtual string f1825() { return "A.f1825"; }
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public virtual string f1827() { return "A.f1827"; }
public virtual string f1828() { return "A.f1828"; }
public virtual string f1829() { return "A.f1829"; }
public virtual string f1830() { return "A.f1830"; }
public virtual string f1831() { return "A.f1831"; }
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public virtual string f1835() { return "A.f1835"; }
public virtual string f1836() { return "A.f1836"; }
public virtual string f1837() { return "A.f1837"; }
public virtual string f1838() { return "A.f1838"; }
public virtual string f1839() { return "A.f1839"; }
public virtual string f1840() { return "A.f1840"; }
public virtual string f1841() { return "A.f1841"; }
public virtual string f1842() { return "A.f1842"; }
public virtual string f1843() { return "A.f1843"; }
public virtual string f1844() { return "A.f1844"; }
public virtual string f1845() { return "A.f1845"; }
public virtual string f1846() { return "A.f1846"; }
public virtual string f1847() { return "A.f1847"; }
public virtual string f1848() { return "A.f1848"; }
public virtual string f1849() { return "A.f1849"; }
public virtual string f1850() { return "A.f1850"; }
public virtual string f1851() { return "A.f1851"; }
public virtual string f1852() { return "A.f1852"; }
public virtual string f1853() { return "A.f1853"; }
public virtual string f1854() { return "A.f1854"; }
public virtual string f1855() { return "A.f1855"; }
public virtual string f1856() { return "A.f1856"; }
public virtual string f1857() { return "A.f1857"; }
public virtual string f1858() { return "A.f1858"; }
public virtual string f1859() { return "A.f1859"; }
public virtual string f1860() { return "A.f1860"; }
public virtual string f1861() { return "A.f1861"; }
public virtual string f1862() { return "A.f1862"; }
public virtual string f1863() { return "A.f1863"; }
public virtual string f1864() { return "A.f1864"; }
public virtual string f1865() { return "A.f1865"; }
public virtual string f1866() { return "A.f1866"; }
public virtual string f1867() { return "A.f1867"; }
public virtual string f1868() { return "A.f1868"; }
public virtual string f1869() { return "A.f1869"; }
public virtual string f1870() { return "A.f1870"; }
public virtual string f1871() { return "A.f1871"; }
public virtual string f1872() { return "A.f1872"; }
public virtual string f1873() { return "A.f1873"; }
public virtual string f1874() { return "A.f1874"; }
public virtual string f1875() { return "A.f1875"; }
public virtual string f1876() { return "A.f1876"; }
public virtual string f1877() { return "A.f1877"; }
public virtual string f1878() { return "A.f1878"; }
public virtual string f1879() { return "A.f1879"; }
public virtual string f1880() { return "A.f1880"; }
public virtual string f1881() { return "A.f1881"; }
public virtual string f1882() { return "A.f1882"; }
public virtual string f1883() { return "A.f1883"; }
public virtual string f1884() { return "A.f1884"; }
public virtual string f1885() { return "A.f1885"; }
public virtual string f1886() { return "A.f1886"; }
public virtual string f1887() { return "A.f1887"; }
public virtual string f1888() { return "A.f1888"; }
public virtual string f1889() { return "A.f1889"; }
public virtual string f1890() { return "A.f1890"; }
public virtual string f1891() { return "A.f1891"; }
public virtual string f1892() { return "A.f1892"; }
public virtual string f1893() { return "A.f1893"; }
public virtual string f1894() { return "A.f1894"; }
public virtual string f1895() { return "A.f1895"; }
public virtual string f1896() { return "A.f1896"; }
public virtual string f1897() { return "A.f1897"; }
public virtual string f1898() { return "A.f1898"; }
public virtual string f1899() { return "A.f1899"; }
public virtual string f1900() { return "A.f1900"; }
public virtual string f1901() { return "A.f1901"; }
public virtual string f1902() { return "A.f1902"; }
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public virtual string f1904() { return "A.f1904"; }
public virtual string f1905() { return "A.f1905"; }
public virtual string f1906() { return "A.f1906"; }
public virtual string f1907() { return "A.f1907"; }
public virtual string f1908() { return "A.f1908"; }
public virtual string f1909() { return "A.f1909"; }
public virtual string f1910() { return "A.f1910"; }
public virtual string f1911() { return "A.f1911"; }
public virtual string f1912() { return "A.f1912"; }
public virtual string f1913() { return "A.f1913"; }
public virtual string f1914() { return "A.f1914"; }
public virtual string f1915() { return "A.f1915"; }
public virtual string f1916() { return "A.f1916"; }
public virtual string f1917() { return "A.f1917"; }
public virtual string f1918() { return "A.f1918"; }
public virtual string f1919() { return "A.f1919"; }
public virtual string f1920() { return "A.f1920"; }
public virtual string f1921() { return "A.f1921"; }
public virtual string f1922() { return "A.f1922"; }
public virtual string f1923() { return "A.f1923"; }
public virtual string f1924() { return "A.f1924"; }
public virtual string f1925() { return "A.f1925"; }
public virtual string f1926() { return "A.f1926"; }
public virtual string f1927() { return "A.f1927"; }
public virtual string f1928() { return "A.f1928"; }
public virtual string f1929() { return "A.f1929"; }
public virtual string f1930() { return "A.f1930"; }
public virtual string f1931() { return "A.f1931"; }
public virtual string f1932() { return "A.f1932"; }
public virtual string f1933() { return "A.f1933"; }
public virtual string f1934() { return "A.f1934"; }
public virtual string f1935() { return "A.f1935"; }
public virtual string f1936() { return "A.f1936"; }
public virtual string f1937() { return "A.f1937"; }
public virtual string f1938() { return "A.f1938"; }
public virtual string f1939() { return "A.f1939"; }
public virtual string f1940() { return "A.f1940"; }
public virtual string f1941() { return "A.f1941"; }
public virtual string f1942() { return "A.f1942"; }
public virtual string f1943() { return "A.f1943"; }
public virtual string f1944() { return "A.f1944"; }
public virtual string f1945() { return "A.f1945"; }
public virtual string f1946() { return "A.f1946"; }
public virtual string f1947() { return "A.f1947"; }
public virtual string f1948() { return "A.f1948"; }
public virtual string f1949() { return "A.f1949"; }
public virtual string f1950() { return "A.f1950"; }
public virtual string f1951() { return "A.f1951"; }
public virtual string f1952() { return "A.f1952"; }
public virtual string f1953() { return "A.f1953"; }
public virtual string f1954() { return "A.f1954"; }
public virtual string f1955() { return "A.f1955"; }
public virtual string f1956() { return "A.f1956"; }
public virtual string f1957() { return "A.f1957"; }
public virtual string f1958() { return "A.f1958"; }
public virtual string f1959() { return "A.f1959"; }
public virtual string f1960() { return "A.f1960"; }
public virtual string f1961() { return "A.f1961"; }
public virtual string f1962() { return "A.f1962"; }
public virtual string f1963() { return "A.f1963"; }
public virtual string f1964() { return "A.f1964"; }
public virtual string f1965() { return "A.f1965"; }
public virtual string f1966() { return "A.f1966"; }
public virtual string f1967() { return "A.f1967"; }
public virtual string f1968() { return "A.f1968"; }
public virtual string f1969() { return "A.f1969"; }
public virtual string f1970() { return "A.f1970"; }
public virtual string f1971() { return "A.f1971"; }
public virtual string f1972() { return "A.f1972"; }
public virtual string f1973() { return "A.f1973"; }
public virtual string f1974() { return "A.f1974"; }
public virtual string f1975() { return "A.f1975"; }
public virtual string f1976() { return "A.f1976"; }
public virtual string f1977() { return "A.f1977"; }
public virtual string f1978() { return "A.f1978"; }
public virtual string f1979() { return "A.f1979"; }
public virtual string f1980() { return "A.f1980"; }
public virtual string f1981() { return "A.f1981"; }
public virtual string f1982() { return "A.f1982"; }
public virtual string f1983() { return "A.f1983"; }
public virtual string f1984() { return "A.f1984"; }
public virtual string f1985() { return "A.f1985"; }
public virtual string f1986() { return "A.f1986"; }
public virtual string f1987() { return "A.f1987"; }
public virtual string f1988() { return "A.f1988"; }
public virtual string f1989() { return "A.f1989"; }
public virtual string f1990() { return "A.f1990"; }
public virtual string f1991() { return "A.f1991"; }
public virtual string f1992() { return "A.f1992"; }
public virtual string f1993() { return "A.f1993"; }
public virtual string f1994() { return "A.f1994"; }
public virtual string f1995() { return "A.f1995"; }
public virtual string f1996() { return "A.f1996"; }
public virtual string f1997() { return "A.f1997"; }
public virtual string f1998() { return "A.f1998"; }
public virtual string f1999() { return "A.f1999"; }
public virtual string f2000() { return "A.f2000"; }
public virtual string f2001() { return "A.f2001"; }
public virtual string f2002() { return "A.f2002"; }
public virtual string f2003() { return "A.f2003"; }
public virtual string f2004() { return "A.f2004"; }
public virtual string f2005() { return "A.f2005"; }
public virtual string f2006() { return "A.f2006"; }
public virtual string f2007() { return "A.f2007"; }
public virtual string f2008() { return "A.f2008"; }
public virtual string f2009() { return "A.f2009"; }
public virtual string f2010() { return "A.f2010"; }
public virtual string f2011() { return "A.f2011"; }
public virtual string f2012() { return "A.f2012"; }
public virtual string f2013() { return "A.f2013"; }
public virtual string f2014() { return "A.f2014"; }
public virtual string f2015() { return "A.f2015"; }
public virtual string f2016() { return "A.f2016"; }
public virtual string f2017() { return "A.f2017"; }
public virtual string f2018() { return "A.f2018"; }
public virtual string f2019() { return "A.f2019"; }
public virtual string f2020() { return "A.f2020"; }
public virtual string f2021() { return "A.f2021"; }
public virtual string f2022() { return "A.f2022"; }
public virtual string f2023() { return "A.f2023"; }
public virtual string f2024() { return "A.f2024"; }
public virtual string f2025() { return "A.f2025"; }
public virtual string f2026() { return "A.f2026"; }
public virtual string f2027() { return "A.f2027"; }
public virtual string f2028() { return "A.f2028"; }
public virtual string f2029() { return "A.f2029"; }
public virtual string f2030() { return "A.f2030"; }
public virtual string f2031() { return "A.f2031"; }
public virtual string f2032() { return "A.f2032"; }
public virtual string f2033() { return "A.f2033"; }
public virtual string f2034() { return "A.f2034"; }
public virtual string f2035() { return "A.f2035"; }
public virtual string f2036() { return "A.f2036"; }
public virtual string f2037() { return "A.f2037"; }
public virtual string f2038() { return "A.f2038"; }
public virtual string f2039() { return "A.f2039"; }
public virtual string f2040() { return "A.f2040"; }
public virtual string f2041() { return "A.f2041"; }
public virtual string f2042() { return "A.f2042"; }
public virtual string f2043() { return "A.f2043"; }
public virtual string f2044() { return "A.f2044"; }
public virtual string f2045() { return "A.f2045"; }
public virtual string f2046() { return "A.f2046"; }
public virtual string f2047() { return "A.f2047"; }
public virtual string f2048() { return "A.f2048"; }
public virtual string f2049() { return "A.f2049"; }
public virtual string f2050() { return "A.f2050"; }
public virtual string f2051() { return "A.f2051"; }
public virtual string f2052() { return "A.f2052"; }
public virtual string f2053() { return "A.f2053"; }
public virtual string f2054() { return "A.f2054"; }
public virtual string f2055() { return "A.f2055"; }
public virtual string f2056() { return "A.f2056"; }
public virtual string f2057() { return "A.f2057"; }
public virtual string f2058() { return "A.f2058"; }
public virtual string f2059() { return "A.f2059"; }
public virtual string f2060() { return "A.f2060"; }
public virtual string f2061() { return "A.f2061"; }
public virtual string f2062() { return "A.f2062"; }
public virtual string f2063() { return "A.f2063"; }
public virtual string f2064() { return "A.f2064"; }
public virtual string f2065() { return "A.f2065"; }
public virtual string f2066() { return "A.f2066"; }
public virtual string f2067() { return "A.f2067"; }
public virtual string f2068() { return "A.f2068"; }
public virtual string f2069() { return "A.f2069"; }
public virtual string f2070() { return "A.f2070"; }
public virtual string f2071() { return "A.f2071"; }
public virtual string f2072() { return "A.f2072"; }
public virtual string f2073() { return "A.f2073"; }
public virtual string f2074() { return "A.f2074"; }
public virtual string f2075() { return "A.f2075"; }
public virtual string f2076() { return "A.f2076"; }
public virtual string f2077() { return "A.f2077"; }
public virtual string f2078() { return "A.f2078"; }
public virtual string f2079() { return "A.f2079"; }
public virtual string f2080() { return "A.f2080"; }
public virtual string f2081() { return "A.f2081"; }
public virtual string f2082() { return "A.f2082"; }
public virtual string f2083() { return "A.f2083"; }
public virtual string f2084() { return "A.f2084"; }
public virtual string f2085() { return "A.f2085"; }
public virtual string f2086() { return "A.f2086"; }
public virtual string f2087() { return "A.f2087"; }
public virtual string f2088() { return "A.f2088"; }
public virtual string f2089() { return "A.f2089"; }
public virtual string f2090() { return "A.f2090"; }
public virtual string f2091() { return "A.f2091"; }
public virtual string f2092() { return "A.f2092"; }
public virtual string f2093() { return "A.f2093"; }
public virtual string f2094() { return "A.f2094"; }
public virtual string f2095() { return "A.f2095"; }
public virtual string f2096() { return "A.f2096"; }
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public virtual string f2099() { return "A.f2099"; }
public virtual string f2100() { return "A.f2100"; }
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public virtual string f2108() { return "A.f2108"; }
public virtual string f2109() { return "A.f2109"; }
public virtual string f2110() { return "A.f2110"; }
public virtual string f2111() { return "A.f2111"; }
public virtual string f2112() { return "A.f2112"; }
public virtual string f2113() { return "A.f2113"; }
public virtual string f2114() { return "A.f2114"; }
public virtual string f2115() { return "A.f2115"; }
public virtual string f2116() { return "A.f2116"; }
public virtual string f2117() { return "A.f2117"; }
public virtual string f2118() { return "A.f2118"; }
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public virtual string f2120() { return "A.f2120"; }
public virtual string f2121() { return "A.f2121"; }
public virtual string f2122() { return "A.f2122"; }
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public virtual string f2126() { return "A.f2126"; }
public virtual string f2127() { return "A.f2127"; }
public virtual string f2128() { return "A.f2128"; }
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public virtual string f2140() { return "A.f2140"; }
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public virtual string f2150() { return "A.f2150"; }
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public virtual string f2154() { return "A.f2154"; }
public virtual string f2155() { return "A.f2155"; }
public virtual string f2156() { return "A.f2156"; }
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public virtual string f2160() { return "A.f2160"; }
public virtual string f2161() { return "A.f2161"; }
public virtual string f2162() { return "A.f2162"; }
public virtual string f2163() { return "A.f2163"; }
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public virtual string f2165() { return "A.f2165"; }
public virtual string f2166() { return "A.f2166"; }
public virtual string f2167() { return "A.f2167"; }
public virtual string f2168() { return "A.f2168"; }
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public virtual string f2170() { return "A.f2170"; }
public virtual string f2171() { return "A.f2171"; }
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public virtual string f2177() { return "A.f2177"; }
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public virtual string f2219() { return "A.f2219"; }
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public virtual string f2222() { return "A.f2222"; }
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public virtual string f2230() { return "A.f2230"; }
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public virtual string f2235() { return "A.f2235"; }
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public virtual string f2240() { return "A.f2240"; }
public virtual string f2241() { return "A.f2241"; }
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public virtual string f2247() { return "A.f2247"; }
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public virtual string f2250() { return "A.f2250"; }
public virtual string f2251() { return "A.f2251"; }
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public virtual string f2253() { return "A.f2253"; }
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public virtual string f2255() { return "A.f2255"; }
public virtual string f2256() { return "A.f2256"; }
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public virtual string f2266() { return "A.f2266"; }
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public virtual string f2270() { return "A.f2270"; }
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public virtual string f2273() { return "A.f2273"; }
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public virtual string f2280() { return "A.f2280"; }
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public virtual string f2284() { return "A.f2284"; }
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public virtual string f2295() { return "A.f2295"; }
public virtual string f2296() { return "A.f2296"; }
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public virtual string f2300() { return "A.f2300"; }
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public virtual string f2303() { return "A.f2303"; }
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public virtual string f2305() { return "A.f2305"; }
public virtual string f2306() { return "A.f2306"; }
public virtual string f2307() { return "A.f2307"; }
public virtual string f2308() { return "A.f2308"; }
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public virtual string f2310() { return "A.f2310"; }
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public virtual string f2313() { return "A.f2313"; }
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public virtual string f2315() { return "A.f2315"; }
public virtual string f2316() { return "A.f2316"; }
public virtual string f2317() { return "A.f2317"; }
public virtual string f2318() { return "A.f2318"; }
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public virtual string f2320() { return "A.f2320"; }
public virtual string f2321() { return "A.f2321"; }
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public virtual string f2325() { return "A.f2325"; }
public virtual string f2326() { return "A.f2326"; }
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public virtual string f2330() { return "A.f2330"; }
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public virtual string f2335() { return "A.f2335"; }
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public virtual string f2340() { return "A.f2340"; }
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public virtual string f2355() { return "A.f2355"; }
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public virtual string f2365() { return "A.f2365"; }
public virtual string f2366() { return "A.f2366"; }
public virtual string f2367() { return "A.f2367"; }
public virtual string f2368() { return "A.f2368"; }
public virtual string f2369() { return "A.f2369"; }
public virtual string f2370() { return "A.f2370"; }
public virtual string f2371() { return "A.f2371"; }
public virtual string f2372() { return "A.f2372"; }
public virtual string f2373() { return "A.f2373"; }
public virtual string f2374() { return "A.f2374"; }
public virtual string f2375() { return "A.f2375"; }
public virtual string f2376() { return "A.f2376"; }
public virtual string f2377() { return "A.f2377"; }
public virtual string f2378() { return "A.f2378"; }
public virtual string f2379() { return "A.f2379"; }
public virtual string f2380() { return "A.f2380"; }
public virtual string f2381() { return "A.f2381"; }
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public virtual string f2384() { return "A.f2384"; }
public virtual string f2385() { return "A.f2385"; }
public virtual string f2386() { return "A.f2386"; }
public virtual string f2387() { return "A.f2387"; }
public virtual string f2388() { return "A.f2388"; }
public virtual string f2389() { return "A.f2389"; }
public virtual string f2390() { return "A.f2390"; }
public virtual string f2391() { return "A.f2391"; }
public virtual string f2392() { return "A.f2392"; }
public virtual string f2393() { return "A.f2393"; }
public virtual string f2394() { return "A.f2394"; }
public virtual string f2395() { return "A.f2395"; }
public virtual string f2396() { return "A.f2396"; }
public virtual string f2397() { return "A.f2397"; }
public virtual string f2398() { return "A.f2398"; }
public virtual string f2399() { return "A.f2399"; }
public virtual string f2400() { return "A.f2400"; }
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public virtual string f2405() { return "A.f2405"; }
public virtual string f2406() { return "A.f2406"; }
public virtual string f2407() { return "A.f2407"; }
public virtual string f2408() { return "A.f2408"; }
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public virtual string f2411() { return "A.f2411"; }
public virtual string f2412() { return "A.f2412"; }
public virtual string f2413() { return "A.f2413"; }
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public virtual string f2415() { return "A.f2415"; }
public virtual string f2416() { return "A.f2416"; }
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public virtual string f2422() { return "A.f2422"; }
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public virtual string f2426() { return "A.f2426"; }
public virtual string f2427() { return "A.f2427"; }
public virtual string f2428() { return "A.f2428"; }
public virtual string f2429() { return "A.f2429"; }
public virtual string f2430() { return "A.f2430"; }
public virtual string f2431() { return "A.f2431"; }
public virtual string f2432() { return "A.f2432"; }
public virtual string f2433() { return "A.f2433"; }
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public virtual string f2435() { return "A.f2435"; }
public virtual string f2436() { return "A.f2436"; }
public virtual string f2437() { return "A.f2437"; }
public virtual string f2438() { return "A.f2438"; }
public virtual string f2439() { return "A.f2439"; }
public virtual string f2440() { return "A.f2440"; }
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public virtual string f2442() { return "A.f2442"; }
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public virtual string f2444() { return "A.f2444"; }
public virtual string f2445() { return "A.f2445"; }
public virtual string f2446() { return "A.f2446"; }
public virtual string f2447() { return "A.f2447"; }
public virtual string f2448() { return "A.f2448"; }
public virtual string f2449() { return "A.f2449"; }
public virtual string f2450() { return "A.f2450"; }
public virtual string f2451() { return "A.f2451"; }
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public virtual string f2453() { return "A.f2453"; }
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public virtual string f2455() { return "A.f2455"; }
public virtual string f2456() { return "A.f2456"; }
public virtual string f2457() { return "A.f2457"; }
public virtual string f2458() { return "A.f2458"; }
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public virtual string f2460() { return "A.f2460"; }
public virtual string f2461() { return "A.f2461"; }
public virtual string f2462() { return "A.f2462"; }
public virtual string f2463() { return "A.f2463"; }
public virtual string f2464() { return "A.f2464"; }
public virtual string f2465() { return "A.f2465"; }
public virtual string f2466() { return "A.f2466"; }
public virtual string f2467() { return "A.f2467"; }
public virtual string f2468() { return "A.f2468"; }
public virtual string f2469() { return "A.f2469"; }
public virtual string f2470() { return "A.f2470"; }
public virtual string f2471() { return "A.f2471"; }
public virtual string f2472() { return "A.f2472"; }
public virtual string f2473() { return "A.f2473"; }
public virtual string f2474() { return "A.f2474"; }
public virtual string f2475() { return "A.f2475"; }
public virtual string f2476() { return "A.f2476"; }
public virtual string f2477() { return "A.f2477"; }
public virtual string f2478() { return "A.f2478"; }
public virtual string f2479() { return "A.f2479"; }
public virtual string f2480() { return "A.f2480"; }
public virtual string f2481() { return "A.f2481"; }
public virtual string f2482() { return "A.f2482"; }
public virtual string f2483() { return "A.f2483"; }
public virtual string f2484() { return "A.f2484"; }
public virtual string f2485() { return "A.f2485"; }
public virtual string f2486() { return "A.f2486"; }
public virtual string f2487() { return "A.f2487"; }
public virtual string f2488() { return "A.f2488"; }
public virtual string f2489() { return "A.f2489"; }
public virtual string f2490() { return "A.f2490"; }
public virtual string f2491() { return "A.f2491"; }
public virtual string f2492() { return "A.f2492"; }
public virtual string f2493() { return "A.f2493"; }
public virtual string f2494() { return "A.f2494"; }
public virtual string f2495() { return "A.f2495"; }
public virtual string f2496() { return "A.f2496"; }
public virtual string f2497() { return "A.f2497"; }
public virtual string f2498() { return "A.f2498"; }
public virtual string f2499() { return "A.f2499"; }
public virtual string f2500() { return "A.f2500"; }
public virtual string f2501() { return "A.f2501"; }
public virtual string f2502() { return "A.f2502"; }
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public virtual string f2504() { return "A.f2504"; }
public virtual string f2505() { return "A.f2505"; }
public virtual string f2506() { return "A.f2506"; }
public virtual string f2507() { return "A.f2507"; }
public virtual string f2508() { return "A.f2508"; }
public virtual string f2509() { return "A.f2509"; }
public virtual string f2510() { return "A.f2510"; }
public virtual string f2511() { return "A.f2511"; }
public virtual string f2512() { return "A.f2512"; }
public virtual string f2513() { return "A.f2513"; }
public virtual string f2514() { return "A.f2514"; }
public virtual string f2515() { return "A.f2515"; }
public virtual string f2516() { return "A.f2516"; }
public virtual string f2517() { return "A.f2517"; }
public virtual string f2518() { return "A.f2518"; }
public virtual string f2519() { return "A.f2519"; }
public virtual string f2520() { return "A.f2520"; }
public virtual string f2521() { return "A.f2521"; }
public virtual string f2522() { return "A.f2522"; }
public virtual string f2523() { return "A.f2523"; }
public virtual string f2524() { return "A.f2524"; }
public virtual string f2525() { return "A.f2525"; }
public virtual string f2526() { return "A.f2526"; }
public virtual string f2527() { return "A.f2527"; }
public virtual string f2528() { return "A.f2528"; }
public virtual string f2529() { return "A.f2529"; }
public virtual string f2530() { return "A.f2530"; }
public virtual string f2531() { return "A.f2531"; }
public virtual string f2532() { return "A.f2532"; }
public virtual string f2533() { return "A.f2533"; }
public virtual string f2534() { return "A.f2534"; }
public virtual string f2535() { return "A.f2535"; }
public virtual string f2536() { return "A.f2536"; }
public virtual string f2537() { return "A.f2537"; }
public virtual string f2538() { return "A.f2538"; }
public virtual string f2539() { return "A.f2539"; }
public virtual string f2540() { return "A.f2540"; }
public virtual string f2541() { return "A.f2541"; }
public virtual string f2542() { return "A.f2542"; }
public virtual string f2543() { return "A.f2543"; }
public virtual string f2544() { return "A.f2544"; }
public virtual string f2545() { return "A.f2545"; }
public virtual string f2546() { return "A.f2546"; }
public virtual string f2547() { return "A.f2547"; }
public virtual string f2548() { return "A.f2548"; }
public virtual string f2549() { return "A.f2549"; }
public virtual string f2550() { return "A.f2550"; }
public virtual string f2551() { return "A.f2551"; }
public virtual string f2552() { return "A.f2552"; }
public virtual string f2553() { return "A.f2553"; }
public virtual string f2554() { return "A.f2554"; }
public virtual string f2555() { return "A.f2555"; }
public virtual string f2556() { return "A.f2556"; }
public virtual string f2557() { return "A.f2557"; }
public virtual string f2558() { return "A.f2558"; }
public virtual string f2559() { return "A.f2559"; }
public virtual string f2560() { return "A.f2560"; }
public virtual string f2561() { return "A.f2561"; }
public virtual string f2562() { return "A.f2562"; }
public virtual string f2563() { return "A.f2563"; }
public virtual string f2564() { return "A.f2564"; }
public virtual string f2565() { return "A.f2565"; }
public virtual string f2566() { return "A.f2566"; }
public virtual string f2567() { return "A.f2567"; }
public virtual string f2568() { return "A.f2568"; }
public virtual string f2569() { return "A.f2569"; }
public virtual string f2570() { return "A.f2570"; }
public virtual string f2571() { return "A.f2571"; }
public virtual string f2572() { return "A.f2572"; }
public virtual string f2573() { return "A.f2573"; }
public virtual string f2574() { return "A.f2574"; }
public virtual string f2575() { return "A.f2575"; }
public virtual string f2576() { return "A.f2576"; }
public virtual string f2577() { return "A.f2577"; }
public virtual string f2578() { return "A.f2578"; }
public virtual string f2579() { return "A.f2579"; }
public virtual string f2580() { return "A.f2580"; }
public virtual string f2581() { return "A.f2581"; }
public virtual string f2582() { return "A.f2582"; }
public virtual string f2583() { return "A.f2583"; }
public virtual string f2584() { return "A.f2584"; }
public virtual string f2585() { return "A.f2585"; }
public virtual string f2586() { return "A.f2586"; }
public virtual string f2587() { return "A.f2587"; }
public virtual string f2588() { return "A.f2588"; }
public virtual string f2589() { return "A.f2589"; }
public virtual string f2590() { return "A.f2590"; }
public virtual string f2591() { return "A.f2591"; }
public virtual string f2592() { return "A.f2592"; }
public virtual string f2593() { return "A.f2593"; }
public virtual string f2594() { return "A.f2594"; }
public virtual string f2595() { return "A.f2595"; }
public virtual string f2596() { return "A.f2596"; }
public virtual string f2597() { return "A.f2597"; }
public virtual string f2598() { return "A.f2598"; }
public virtual string f2599() { return "A.f2599"; }
public virtual string f2600() { return "A.f2600"; }
public virtual string f2601() { return "A.f2601"; }
public virtual string f2602() { return "A.f2602"; }
public virtual string f2603() { return "A.f2603"; }
public virtual string f2604() { return "A.f2604"; }
public virtual string f2605() { return "A.f2605"; }
public virtual string f2606() { return "A.f2606"; }
public virtual string f2607() { return "A.f2607"; }
public virtual string f2608() { return "A.f2608"; }
public virtual string f2609() { return "A.f2609"; }
public virtual string f2610() { return "A.f2610"; }
public virtual string f2611() { return "A.f2611"; }
public virtual string f2612() { return "A.f2612"; }
public virtual string f2613() { return "A.f2613"; }
public virtual string f2614() { return "A.f2614"; }
public virtual string f2615() { return "A.f2615"; }
public virtual string f2616() { return "A.f2616"; }
public virtual string f2617() { return "A.f2617"; }
public virtual string f2618() { return "A.f2618"; }
public virtual string f2619() { return "A.f2619"; }
public virtual string f2620() { return "A.f2620"; }
public virtual string f2621() { return "A.f2621"; }
public virtual string f2622() { return "A.f2622"; }
public virtual string f2623() { return "A.f2623"; }
public virtual string f2624() { return "A.f2624"; }
public virtual string f2625() { return "A.f2625"; }
public virtual string f2626() { return "A.f2626"; }
public virtual string f2627() { return "A.f2627"; }
public virtual string f2628() { return "A.f2628"; }
public virtual string f2629() { return "A.f2629"; }
public virtual string f2630() { return "A.f2630"; }
public virtual string f2631() { return "A.f2631"; }
public virtual string f2632() { return "A.f2632"; }
public virtual string f2633() { return "A.f2633"; }
public virtual string f2634() { return "A.f2634"; }
public virtual string f2635() { return "A.f2635"; }
public virtual string f2636() { return "A.f2636"; }
public virtual string f2637() { return "A.f2637"; }
public virtual string f2638() { return "A.f2638"; }
public virtual string f2639() { return "A.f2639"; }
public virtual string f2640() { return "A.f2640"; }
public virtual string f2641() { return "A.f2641"; }
public virtual string f2642() { return "A.f2642"; }
public virtual string f2643() { return "A.f2643"; }
public virtual string f2644() { return "A.f2644"; }
public virtual string f2645() { return "A.f2645"; }
public virtual string f2646() { return "A.f2646"; }
public virtual string f2647() { return "A.f2647"; }
public virtual string f2648() { return "A.f2648"; }
public virtual string f2649() { return "A.f2649"; }
public virtual string f2650() { return "A.f2650"; }
public virtual string f2651() { return "A.f2651"; }
public virtual string f2652() { return "A.f2652"; }
public virtual string f2653() { return "A.f2653"; }
public virtual string f2654() { return "A.f2654"; }
public virtual string f2655() { return "A.f2655"; }
public virtual string f2656() { return "A.f2656"; }
public virtual string f2657() { return "A.f2657"; }
public virtual string f2658() { return "A.f2658"; }
public virtual string f2659() { return "A.f2659"; }
public virtual string f2660() { return "A.f2660"; }
public virtual string f2661() { return "A.f2661"; }
public virtual string f2662() { return "A.f2662"; }
public virtual string f2663() { return "A.f2663"; }
public virtual string f2664() { return "A.f2664"; }
public virtual string f2665() { return "A.f2665"; }
public virtual string f2666() { return "A.f2666"; }
public virtual string f2667() { return "A.f2667"; }
public virtual string f2668() { return "A.f2668"; }
public virtual string f2669() { return "A.f2669"; }
public virtual string f2670() { return "A.f2670"; }
public virtual string f2671() { return "A.f2671"; }
public virtual string f2672() { return "A.f2672"; }
public virtual string f2673() { return "A.f2673"; }
public virtual string f2674() { return "A.f2674"; }
public virtual string f2675() { return "A.f2675"; }
public virtual string f2676() { return "A.f2676"; }
public virtual string f2677() { return "A.f2677"; }
public virtual string f2678() { return "A.f2678"; }
public virtual string f2679() { return "A.f2679"; }
public virtual string f2680() { return "A.f2680"; }
public virtual string f2681() { return "A.f2681"; }
public virtual string f2682() { return "A.f2682"; }
public virtual string f2683() { return "A.f2683"; }
public virtual string f2684() { return "A.f2684"; }
public virtual string f2685() { return "A.f2685"; }
public virtual string f2686() { return "A.f2686"; }
public virtual string f2687() { return "A.f2687"; }
public virtual string f2688() { return "A.f2688"; }
public virtual string f2689() { return "A.f2689"; }
public virtual string f2690() { return "A.f2690"; }
public virtual string f2691() { return "A.f2691"; }
public virtual string f2692() { return "A.f2692"; }
public virtual string f2693() { return "A.f2693"; }
public virtual string f2694() { return "A.f2694"; }
public virtual string f2695() { return "A.f2695"; }
public virtual string f2696() { return "A.f2696"; }
public virtual string f2697() { return "A.f2697"; }
public virtual string f2698() { return "A.f2698"; }
public virtual string f2699() { return "A.f2699"; }
public virtual string f2700() { return "A.f2700"; }
public virtual string f2701() { return "A.f2701"; }
public virtual string f2702() { return "A.f2702"; }
public virtual string f2703() { return "A.f2703"; }
public virtual string f2704() { return "A.f2704"; }
public virtual string f2705() { return "A.f2705"; }
public virtual string f2706() { return "A.f2706"; }
public virtual string f2707() { return "A.f2707"; }
public virtual string f2708() { return "A.f2708"; }
public virtual string f2709() { return "A.f2709"; }
public virtual string f2710() { return "A.f2710"; }
public virtual string f2711() { return "A.f2711"; }
public virtual string f2712() { return "A.f2712"; }
public virtual string f2713() { return "A.f2713"; }
public virtual string f2714() { return "A.f2714"; }
public virtual string f2715() { return "A.f2715"; }
public virtual string f2716() { return "A.f2716"; }
public virtual string f2717() { return "A.f2717"; }
public virtual string f2718() { return "A.f2718"; }
public virtual string f2719() { return "A.f2719"; }
public virtual string f2720() { return "A.f2720"; }
public virtual string f2721() { return "A.f2721"; }
public virtual string f2722() { return "A.f2722"; }
public virtual string f2723() { return "A.f2723"; }
public virtual string f2724() { return "A.f2724"; }
public virtual string f2725() { return "A.f2725"; }
public virtual string f2726() { return "A.f2726"; }
public virtual string f2727() { return "A.f2727"; }
public virtual string f2728() { return "A.f2728"; }
public virtual string f2729() { return "A.f2729"; }
public virtual string f2730() { return "A.f2730"; }
public virtual string f2731() { return "A.f2731"; }
public virtual string f2732() { return "A.f2732"; }
public virtual string f2733() { return "A.f2733"; }
public virtual string f2734() { return "A.f2734"; }
public virtual string f2735() { return "A.f2735"; }
public virtual string f2736() { return "A.f2736"; }
public virtual string f2737() { return "A.f2737"; }
public virtual string f2738() { return "A.f2738"; }
public virtual string f2739() { return "A.f2739"; }
public virtual string f2740() { return "A.f2740"; }
public virtual string f2741() { return "A.f2741"; }
public virtual string f2742() { return "A.f2742"; }
public virtual string f2743() { return "A.f2743"; }
public virtual string f2744() { return "A.f2744"; }
public virtual string f2745() { return "A.f2745"; }
public virtual string f2746() { return "A.f2746"; }
public virtual string f2747() { return "A.f2747"; }
public virtual string f2748() { return "A.f2748"; }
public virtual string f2749() { return "A.f2749"; }
public virtual string f2750() { return "A.f2750"; }
public virtual string f2751() { return "A.f2751"; }
public virtual string f2752() { return "A.f2752"; }
public virtual string f2753() { return "A.f2753"; }
public virtual string f2754() { return "A.f2754"; }
public virtual string f2755() { return "A.f2755"; }
public virtual string f2756() { return "A.f2756"; }
public virtual string f2757() { return "A.f2757"; }
public virtual string f2758() { return "A.f2758"; }
public virtual string f2759() { return "A.f2759"; }
public virtual string f2760() { return "A.f2760"; }
public virtual string f2761() { return "A.f2761"; }
public virtual string f2762() { return "A.f2762"; }
public virtual string f2763() { return "A.f2763"; }
public virtual string f2764() { return "A.f2764"; }
public virtual string f2765() { return "A.f2765"; }
public virtual string f2766() { return "A.f2766"; }
public virtual string f2767() { return "A.f2767"; }
public virtual string f2768() { return "A.f2768"; }
public virtual string f2769() { return "A.f2769"; }
public virtual string f2770() { return "A.f2770"; }
public virtual string f2771() { return "A.f2771"; }
public virtual string f2772() { return "A.f2772"; }
public virtual string f2773() { return "A.f2773"; }
public virtual string f2774() { return "A.f2774"; }
public virtual string f2775() { return "A.f2775"; }
public virtual string f2776() { return "A.f2776"; }
public virtual string f2777() { return "A.f2777"; }
public virtual string f2778() { return "A.f2778"; }
public virtual string f2779() { return "A.f2779"; }
public virtual string f2780() { return "A.f2780"; }
public virtual string f2781() { return "A.f2781"; }
public virtual string f2782() { return "A.f2782"; }
public virtual string f2783() { return "A.f2783"; }
public virtual string f2784() { return "A.f2784"; }
public virtual string f2785() { return "A.f2785"; }
public virtual string f2786() { return "A.f2786"; }
public virtual string f2787() { return "A.f2787"; }
public virtual string f2788() { return "A.f2788"; }
public virtual string f2789() { return "A.f2789"; }
public virtual string f2790() { return "A.f2790"; }
public virtual string f2791() { return "A.f2791"; }
public virtual string f2792() { return "A.f2792"; }
public virtual string f2793() { return "A.f2793"; }
public virtual string f2794() { return "A.f2794"; }
public virtual string f2795() { return "A.f2795"; }
public virtual string f2796() { return "A.f2796"; }
public virtual string f2797() { return "A.f2797"; }
public virtual string f2798() { return "A.f2798"; }
public virtual string f2799() { return "A.f2799"; }
public virtual string f2800() { return "A.f2800"; }
public virtual string f2801() { return "A.f2801"; }
public virtual string f2802() { return "A.f2802"; }
public virtual string f2803() { return "A.f2803"; }
public virtual string f2804() { return "A.f2804"; }
public virtual string f2805() { return "A.f2805"; }
public virtual string f2806() { return "A.f2806"; }
public virtual string f2807() { return "A.f2807"; }
public virtual string f2808() { return "A.f2808"; }
public virtual string f2809() { return "A.f2809"; }
public virtual string f2810() { return "A.f2810"; }
public virtual string f2811() { return "A.f2811"; }
public virtual string f2812() { return "A.f2812"; }
public virtual string f2813() { return "A.f2813"; }
public virtual string f2814() { return "A.f2814"; }
public virtual string f2815() { return "A.f2815"; }
public virtual string f2816() { return "A.f2816"; }
public virtual string f2817() { return "A.f2817"; }
public virtual string f2818() { return "A.f2818"; }
public virtual string f2819() { return "A.f2819"; }
public virtual string f2820() { return "A.f2820"; }
public virtual string f2821() { return "A.f2821"; }
public virtual string f2822() { return "A.f2822"; }
public virtual string f2823() { return "A.f2823"; }
public virtual string f2824() { return "A.f2824"; }
public virtual string f2825() { return "A.f2825"; }
public virtual string f2826() { return "A.f2826"; }
public virtual string f2827() { return "A.f2827"; }
public virtual string f2828() { return "A.f2828"; }
public virtual string f2829() { return "A.f2829"; }
public virtual string f2830() { return "A.f2830"; }
public virtual string f2831() { return "A.f2831"; }
public virtual string f2832() { return "A.f2832"; }
public virtual string f2833() { return "A.f2833"; }
public virtual string f2834() { return "A.f2834"; }
public virtual string f2835() { return "A.f2835"; }
public virtual string f2836() { return "A.f2836"; }
public virtual string f2837() { return "A.f2837"; }
public virtual string f2838() { return "A.f2838"; }
public virtual string f2839() { return "A.f2839"; }
public virtual string f2840() { return "A.f2840"; }
public virtual string f2841() { return "A.f2841"; }
public virtual string f2842() { return "A.f2842"; }
public virtual string f2843() { return "A.f2843"; }
public virtual string f2844() { return "A.f2844"; }
public virtual string f2845() { return "A.f2845"; }
public virtual string f2846() { return "A.f2846"; }
public virtual string f2847() { return "A.f2847"; }
public virtual string f2848() { return "A.f2848"; }
public virtual string f2849() { return "A.f2849"; }
public virtual string f2850() { return "A.f2850"; }
public virtual string f2851() { return "A.f2851"; }
public virtual string f2852() { return "A.f2852"; }
public virtual string f2853() { return "A.f2853"; }
public virtual string f2854() { return "A.f2854"; }
public virtual string f2855() { return "A.f2855"; }
public virtual string f2856() { return "A.f2856"; }
public virtual string f2857() { return "A.f2857"; }
public virtual string f2858() { return "A.f2858"; }
public virtual string f2859() { return "A.f2859"; }
public virtual string f2860() { return "A.f2860"; }
public virtual string f2861() { return "A.f2861"; }
public virtual string f2862() { return "A.f2862"; }
public virtual string f2863() { return "A.f2863"; }
public virtual string f2864() { return "A.f2864"; }
public virtual string f2865() { return "A.f2865"; }
public virtual string f2866() { return "A.f2866"; }
public virtual string f2867() { return "A.f2867"; }
public virtual string f2868() { return "A.f2868"; }
public virtual string f2869() { return "A.f2869"; }
public virtual string f2870() { return "A.f2870"; }
public virtual string f2871() { return "A.f2871"; }
public virtual string f2872() { return "A.f2872"; }
public virtual string f2873() { return "A.f2873"; }
public virtual string f2874() { return "A.f2874"; }
public virtual string f2875() { return "A.f2875"; }
public virtual string f2876() { return "A.f2876"; }
public virtual string f2877() { return "A.f2877"; }
public virtual string f2878() { return "A.f2878"; }
public virtual string f2879() { return "A.f2879"; }
public virtual string f2880() { return "A.f2880"; }
public virtual string f2881() { return "A.f2881"; }
public virtual string f2882() { return "A.f2882"; }
public virtual string f2883() { return "A.f2883"; }
public virtual string f2884() { return "A.f2884"; }
public virtual string f2885() { return "A.f2885"; }
public virtual string f2886() { return "A.f2886"; }
public virtual string f2887() { return "A.f2887"; }
public virtual string f2888() { return "A.f2888"; }
public virtual string f2889() { return "A.f2889"; }
public virtual string f2890() { return "A.f2890"; }
public virtual string f2891() { return "A.f2891"; }
public virtual string f2892() { return "A.f2892"; }
public virtual string f2893() { return "A.f2893"; }
public virtual string f2894() { return "A.f2894"; }
public virtual string f2895() { return "A.f2895"; }
public virtual string f2896() { return "A.f2896"; }
public virtual string f2897() { return "A.f2897"; }
public virtual string f2898() { return "A.f2898"; }
public virtual string f2899() { return "A.f2899"; }
public virtual string f2900() { return "A.f2900"; }
public virtual string f2901() { return "A.f2901"; }
public virtual string f2902() { return "A.f2902"; }
public virtual string f2903() { return "A.f2903"; }
public virtual string f2904() { return "A.f2904"; }
public virtual string f2905() { return "A.f2905"; }
public virtual string f2906() { return "A.f2906"; }
public virtual string f2907() { return "A.f2907"; }
public virtual string f2908() { return "A.f2908"; }
public virtual string f2909() { return "A.f2909"; }
public virtual string f2910() { return "A.f2910"; }
public virtual string f2911() { return "A.f2911"; }
public virtual string f2912() { return "A.f2912"; }
public virtual string f2913() { return "A.f2913"; }
public virtual string f2914() { return "A.f2914"; }
public virtual string f2915() { return "A.f2915"; }
public virtual string f2916() { return "A.f2916"; }
public virtual string f2917() { return "A.f2917"; }
public virtual string f2918() { return "A.f2918"; }
public virtual string f2919() { return "A.f2919"; }
public virtual string f2920() { return "A.f2920"; }
public virtual string f2921() { return "A.f2921"; }
public virtual string f2922() { return "A.f2922"; }
public virtual string f2923() { return "A.f2923"; }
public virtual string f2924() { return "A.f2924"; }
public virtual string f2925() { return "A.f2925"; }
public virtual string f2926() { return "A.f2926"; }
public virtual string f2927() { return "A.f2927"; }
public virtual string f2928() { return "A.f2928"; }
public virtual string f2929() { return "A.f2929"; }
public virtual string f2930() { return "A.f2930"; }
public virtual string f2931() { return "A.f2931"; }
public virtual string f2932() { return "A.f2932"; }
public virtual string f2933() { return "A.f2933"; }
public virtual string f2934() { return "A.f2934"; }
public virtual string f2935() { return "A.f2935"; }
public virtual string f2936() { return "A.f2936"; }
public virtual string f2937() { return "A.f2937"; }
public virtual string f2938() { return "A.f2938"; }
public virtual string f2939() { return "A.f2939"; }
public virtual string f2940() { return "A.f2940"; }
public virtual string f2941() { return "A.f2941"; }
public virtual string f2942() { return "A.f2942"; }
public virtual string f2943() { return "A.f2943"; }
public virtual string f2944() { return "A.f2944"; }
public virtual string f2945() { return "A.f2945"; }
public virtual string f2946() { return "A.f2946"; }
public virtual string f2947() { return "A.f2947"; }
public virtual string f2948() { return "A.f2948"; }
public virtual string f2949() { return "A.f2949"; }
public virtual string f2950() { return "A.f2950"; }
public virtual string f2951() { return "A.f2951"; }
public virtual string f2952() { return "A.f2952"; }
public virtual string f2953() { return "A.f2953"; }
public virtual string f2954() { return "A.f2954"; }
public virtual string f2955() { return "A.f2955"; }
public virtual string f2956() { return "A.f2956"; }
public virtual string f2957() { return "A.f2957"; }
public virtual string f2958() { return "A.f2958"; }
public virtual string f2959() { return "A.f2959"; }
public virtual string f2960() { return "A.f2960"; }
public virtual string f2961() { return "A.f2961"; }
public virtual string f2962() { return "A.f2962"; }
public virtual string f2963() { return "A.f2963"; }
public virtual string f2964() { return "A.f2964"; }
public virtual string f2965() { return "A.f2965"; }
public virtual string f2966() { return "A.f2966"; }
public virtual string f2967() { return "A.f2967"; }
public virtual string f2968() { return "A.f2968"; }
public virtual string f2969() { return "A.f2969"; }
public virtual string f2970() { return "A.f2970"; }
public virtual string f2971() { return "A.f2971"; }
public virtual string f2972() { return "A.f2972"; }
public virtual string f2973() { return "A.f2973"; }
public virtual string f2974() { return "A.f2974"; }
public virtual string f2975() { return "A.f2975"; }
public virtual string f2976() { return "A.f2976"; }
public virtual string f2977() { return "A.f2977"; }
public virtual string f2978() { return "A.f2978"; }
public virtual string f2979() { return "A.f2979"; }
public virtual string f2980() { return "A.f2980"; }
public virtual string f2981() { return "A.f2981"; }
public virtual string f2982() { return "A.f2982"; }
public virtual string f2983() { return "A.f2983"; }
public virtual string f2984() { return "A.f2984"; }
public virtual string f2985() { return "A.f2985"; }
public virtual string f2986() { return "A.f2986"; }
public virtual string f2987() { return "A.f2987"; }
public virtual string f2988() { return "A.f2988"; }
public virtual string f2989() { return "A.f2989"; }
public virtual string f2990() { return "A.f2990"; }
public virtual string f2991() { return "A.f2991"; }
public virtual string f2992() { return "A.f2992"; }
public virtual string f2993() { return "A.f2993"; }
public virtual string f2994() { return "A.f2994"; }
public virtual string f2995() { return "A.f2995"; }
public virtual string f2996() { return "A.f2996"; }
public virtual string f2997() { return "A.f2997"; }
public virtual string f2998() { return "A.f2998"; }
public virtual string f2999() { return "A.f2999"; }
}
internal class B : A
{
public override string f1() { return "B.f1"; }
public override string f2() { return "B.f2"; }
public override string f3() { return "B.f3"; }
public override string f4() { return "B.f4"; }
public override string f5() { return "B.f5"; }
public override string f6() { return "B.f6"; }
public override string f7() { return "B.f7"; }
public override string f8() { return "B.f8"; }
public override string f9() { return "B.f9"; }
public override string f10() { return "B.f10"; }
public override string f11() { return "B.f11"; }
public override string f12() { return "B.f12"; }
public override string f13() { return "B.f13"; }
public override string f14() { return "B.f14"; }
public override string f15() { return "B.f15"; }
public override string f16() { return "B.f16"; }
public override string f17() { return "B.f17"; }
public override string f18() { return "B.f18"; }
public override string f19() { return "B.f19"; }
public override string f20() { return "B.f20"; }
public override string f21() { return "B.f21"; }
public override string f22() { return "B.f22"; }
public override string f23() { return "B.f23"; }
public override string f24() { return "B.f24"; }
public override string f25() { return "B.f25"; }
public override string f26() { return "B.f26"; }
public override string f27() { return "B.f27"; }
public override string f28() { return "B.f28"; }
public override string f29() { return "B.f29"; }
public override string f30() { return "B.f30"; }
public override string f31() { return "B.f31"; }
public override string f32() { return "B.f32"; }
public override string f33() { return "B.f33"; }
public override string f34() { return "B.f34"; }
public override string f35() { return "B.f35"; }
public override string f36() { return "B.f36"; }
public override string f37() { return "B.f37"; }
public override string f38() { return "B.f38"; }
public override string f39() { return "B.f39"; }
public override string f40() { return "B.f40"; }
public override string f41() { return "B.f41"; }
public override string f42() { return "B.f42"; }
public override string f43() { return "B.f43"; }
public override string f44() { return "B.f44"; }
public override string f45() { return "B.f45"; }
public override string f46() { return "B.f46"; }
public override string f47() { return "B.f47"; }
public override string f48() { return "B.f48"; }
public override string f49() { return "B.f49"; }
public override string f50() { return "B.f50"; }
public override string f51() { return "B.f51"; }
public override string f52() { return "B.f52"; }
public override string f53() { return "B.f53"; }
public override string f54() { return "B.f54"; }
public override string f55() { return "B.f55"; }
public override string f56() { return "B.f56"; }
public override string f57() { return "B.f57"; }
public override string f58() { return "B.f58"; }
public override string f59() { return "B.f59"; }
public override string f60() { return "B.f60"; }
public override string f61() { return "B.f61"; }
public override string f62() { return "B.f62"; }
public override string f63() { return "B.f63"; }
public override string f64() { return "B.f64"; }
public override string f65() { return "B.f65"; }
public override string f66() { return "B.f66"; }
public override string f67() { return "B.f67"; }
public override string f68() { return "B.f68"; }
public override string f69() { return "B.f69"; }
public override string f70() { return "B.f70"; }
public override string f71() { return "B.f71"; }
public override string f72() { return "B.f72"; }
public override string f73() { return "B.f73"; }
public override string f74() { return "B.f74"; }
public override string f75() { return "B.f75"; }
public override string f76() { return "B.f76"; }
public override string f77() { return "B.f77"; }
public override string f78() { return "B.f78"; }
public override string f79() { return "B.f79"; }
public override string f80() { return "B.f80"; }
public override string f81() { return "B.f81"; }
public override string f82() { return "B.f82"; }
public override string f83() { return "B.f83"; }
public override string f84() { return "B.f84"; }
public override string f85() { return "B.f85"; }
public override string f86() { return "B.f86"; }
public override string f87() { return "B.f87"; }
public override string f88() { return "B.f88"; }
public override string f89() { return "B.f89"; }
public override string f90() { return "B.f90"; }
public override string f91() { return "B.f91"; }
public override string f92() { return "B.f92"; }
public override string f93() { return "B.f93"; }
public override string f94() { return "B.f94"; }
public override string f95() { return "B.f95"; }
public override string f96() { return "B.f96"; }
public override string f97() { return "B.f97"; }
public override string f98() { return "B.f98"; }
public override string f99() { return "B.f99"; }
public override string f100() { return "B.f100"; }
public override string f101() { return "B.f101"; }
public override string f102() { return "B.f102"; }
public override string f103() { return "B.f103"; }
public override string f104() { return "B.f104"; }
public override string f105() { return "B.f105"; }
public override string f106() { return "B.f106"; }
public override string f107() { return "B.f107"; }
public override string f108() { return "B.f108"; }
public override string f109() { return "B.f109"; }
public override string f110() { return "B.f110"; }
public override string f111() { return "B.f111"; }
public override string f112() { return "B.f112"; }
public override string f113() { return "B.f113"; }
public override string f114() { return "B.f114"; }
public override string f115() { return "B.f115"; }
public override string f116() { return "B.f116"; }
public override string f117() { return "B.f117"; }
public override string f118() { return "B.f118"; }
public override string f119() { return "B.f119"; }
public override string f120() { return "B.f120"; }
public override string f121() { return "B.f121"; }
public override string f122() { return "B.f122"; }
public override string f123() { return "B.f123"; }
public override string f124() { return "B.f124"; }
public override string f125() { return "B.f125"; }
public override string f126() { return "B.f126"; }
public override string f127() { return "B.f127"; }
public override string f128() { return "B.f128"; }
public override string f129() { return "B.f129"; }
public override string f130() { return "B.f130"; }
public override string f131() { return "B.f131"; }
public override string f132() { return "B.f132"; }
public override string f133() { return "B.f133"; }
public override string f134() { return "B.f134"; }
public override string f135() { return "B.f135"; }
public override string f136() { return "B.f136"; }
public override string f137() { return "B.f137"; }
public override string f138() { return "B.f138"; }
public override string f139() { return "B.f139"; }
public override string f140() { return "B.f140"; }
public override string f141() { return "B.f141"; }
public override string f142() { return "B.f142"; }
public override string f143() { return "B.f143"; }
public override string f144() { return "B.f144"; }
public override string f145() { return "B.f145"; }
public override string f146() { return "B.f146"; }
public override string f147() { return "B.f147"; }
public override string f148() { return "B.f148"; }
public override string f149() { return "B.f149"; }
public override string f150() { return "B.f150"; }
public override string f151() { return "B.f151"; }
public override string f152() { return "B.f152"; }
public override string f153() { return "B.f153"; }
public override string f154() { return "B.f154"; }
public override string f155() { return "B.f155"; }
public override string f156() { return "B.f156"; }
public override string f157() { return "B.f157"; }
public override string f158() { return "B.f158"; }
public override string f159() { return "B.f159"; }
public override string f160() { return "B.f160"; }
public override string f161() { return "B.f161"; }
public override string f162() { return "B.f162"; }
public override string f163() { return "B.f163"; }
public override string f164() { return "B.f164"; }
public override string f165() { return "B.f165"; }
public override string f166() { return "B.f166"; }
public override string f167() { return "B.f167"; }
public override string f168() { return "B.f168"; }
public override string f169() { return "B.f169"; }
public override string f170() { return "B.f170"; }
public override string f171() { return "B.f171"; }
public override string f172() { return "B.f172"; }
public override string f173() { return "B.f173"; }
public override string f174() { return "B.f174"; }
public override string f175() { return "B.f175"; }
public override string f176() { return "B.f176"; }
public override string f177() { return "B.f177"; }
public override string f178() { return "B.f178"; }
public override string f179() { return "B.f179"; }
public override string f180() { return "B.f180"; }
public override string f181() { return "B.f181"; }
public override string f182() { return "B.f182"; }
public override string f183() { return "B.f183"; }
public override string f184() { return "B.f184"; }
public override string f185() { return "B.f185"; }
public override string f186() { return "B.f186"; }
public override string f187() { return "B.f187"; }
public override string f188() { return "B.f188"; }
public override string f189() { return "B.f189"; }
public override string f190() { return "B.f190"; }
public override string f191() { return "B.f191"; }
public override string f192() { return "B.f192"; }
public override string f193() { return "B.f193"; }
public override string f194() { return "B.f194"; }
public override string f195() { return "B.f195"; }
public override string f196() { return "B.f196"; }
public override string f197() { return "B.f197"; }
public override string f198() { return "B.f198"; }
public override string f199() { return "B.f199"; }
public override string f200() { return "B.f200"; }
public override string f201() { return "B.f201"; }
public override string f202() { return "B.f202"; }
public override string f203() { return "B.f203"; }
public override string f204() { return "B.f204"; }
public override string f205() { return "B.f205"; }
public override string f206() { return "B.f206"; }
public override string f207() { return "B.f207"; }
public override string f208() { return "B.f208"; }
public override string f209() { return "B.f209"; }
public override string f210() { return "B.f210"; }
public override string f211() { return "B.f211"; }
public override string f212() { return "B.f212"; }
public override string f213() { return "B.f213"; }
public override string f214() { return "B.f214"; }
public override string f215() { return "B.f215"; }
public override string f216() { return "B.f216"; }
public override string f217() { return "B.f217"; }
public override string f218() { return "B.f218"; }
public override string f219() { return "B.f219"; }
public override string f220() { return "B.f220"; }
public override string f221() { return "B.f221"; }
public override string f222() { return "B.f222"; }
public override string f223() { return "B.f223"; }
public override string f224() { return "B.f224"; }
public override string f225() { return "B.f225"; }
public override string f226() { return "B.f226"; }
public override string f227() { return "B.f227"; }
public override string f228() { return "B.f228"; }
public override string f229() { return "B.f229"; }
public override string f230() { return "B.f230"; }
public override string f231() { return "B.f231"; }
public override string f232() { return "B.f232"; }
public override string f233() { return "B.f233"; }
public override string f234() { return "B.f234"; }
public override string f235() { return "B.f235"; }
public override string f236() { return "B.f236"; }
public override string f237() { return "B.f237"; }
public override string f238() { return "B.f238"; }
public override string f239() { return "B.f239"; }
public override string f240() { return "B.f240"; }
public override string f241() { return "B.f241"; }
public override string f242() { return "B.f242"; }
public override string f243() { return "B.f243"; }
public override string f244() { return "B.f244"; }
public override string f245() { return "B.f245"; }
public override string f246() { return "B.f246"; }
public override string f247() { return "B.f247"; }
public override string f248() { return "B.f248"; }
public override string f249() { return "B.f249"; }
public override string f250() { return "B.f250"; }
public override string f251() { return "B.f251"; }
public override string f252() { return "B.f252"; }
public override string f253() { return "B.f253"; }
public override string f254() { return "B.f254"; }
public override string f255() { return "B.f255"; }
public override string f256() { return "B.f256"; }
public override string f257() { return "B.f257"; }
public override string f258() { return "B.f258"; }
public override string f259() { return "B.f259"; }
public override string f260() { return "B.f260"; }
public override string f261() { return "B.f261"; }
public override string f262() { return "B.f262"; }
public override string f263() { return "B.f263"; }
public override string f264() { return "B.f264"; }
public override string f265() { return "B.f265"; }
public override string f266() { return "B.f266"; }
public override string f267() { return "B.f267"; }
public override string f268() { return "B.f268"; }
public override string f269() { return "B.f269"; }
public override string f270() { return "B.f270"; }
public override string f271() { return "B.f271"; }
public override string f272() { return "B.f272"; }
public override string f273() { return "B.f273"; }
public override string f274() { return "B.f274"; }
public override string f275() { return "B.f275"; }
public override string f276() { return "B.f276"; }
public override string f277() { return "B.f277"; }
public override string f278() { return "B.f278"; }
public override string f279() { return "B.f279"; }
public override string f280() { return "B.f280"; }
public override string f281() { return "B.f281"; }
public override string f282() { return "B.f282"; }
public override string f283() { return "B.f283"; }
public override string f284() { return "B.f284"; }
public override string f285() { return "B.f285"; }
public override string f286() { return "B.f286"; }
public override string f287() { return "B.f287"; }
public override string f288() { return "B.f288"; }
public override string f289() { return "B.f289"; }
public override string f290() { return "B.f290"; }
public override string f291() { return "B.f291"; }
public override string f292() { return "B.f292"; }
public override string f293() { return "B.f293"; }
public override string f294() { return "B.f294"; }
public override string f295() { return "B.f295"; }
public override string f296() { return "B.f296"; }
public override string f297() { return "B.f297"; }
public override string f298() { return "B.f298"; }
public override string f299() { return "B.f299"; }
public override string f300() { return "B.f300"; }
public override string f301() { return "B.f301"; }
public override string f302() { return "B.f302"; }
public override string f303() { return "B.f303"; }
public override string f304() { return "B.f304"; }
public override string f305() { return "B.f305"; }
public override string f306() { return "B.f306"; }
public override string f307() { return "B.f307"; }
public override string f308() { return "B.f308"; }
public override string f309() { return "B.f309"; }
public override string f310() { return "B.f310"; }
public override string f311() { return "B.f311"; }
public override string f312() { return "B.f312"; }
public override string f313() { return "B.f313"; }
public override string f314() { return "B.f314"; }
public override string f315() { return "B.f315"; }
public override string f316() { return "B.f316"; }
public override string f317() { return "B.f317"; }
public override string f318() { return "B.f318"; }
public override string f319() { return "B.f319"; }
public override string f320() { return "B.f320"; }
public override string f321() { return "B.f321"; }
public override string f322() { return "B.f322"; }
public override string f323() { return "B.f323"; }
public override string f324() { return "B.f324"; }
public override string f325() { return "B.f325"; }
public override string f326() { return "B.f326"; }
public override string f327() { return "B.f327"; }
public override string f328() { return "B.f328"; }
public override string f329() { return "B.f329"; }
public override string f330() { return "B.f330"; }
public override string f331() { return "B.f331"; }
public override string f332() { return "B.f332"; }
public override string f333() { return "B.f333"; }
public override string f334() { return "B.f334"; }
public override string f335() { return "B.f335"; }
public override string f336() { return "B.f336"; }
public override string f337() { return "B.f337"; }
public override string f338() { return "B.f338"; }
public override string f339() { return "B.f339"; }
public override string f340() { return "B.f340"; }
public override string f341() { return "B.f341"; }
public override string f342() { return "B.f342"; }
public override string f343() { return "B.f343"; }
public override string f344() { return "B.f344"; }
public override string f345() { return "B.f345"; }
public override string f346() { return "B.f346"; }
public override string f347() { return "B.f347"; }
public override string f348() { return "B.f348"; }
public override string f349() { return "B.f349"; }
public override string f350() { return "B.f350"; }
public override string f351() { return "B.f351"; }
public override string f352() { return "B.f352"; }
public override string f353() { return "B.f353"; }
public override string f354() { return "B.f354"; }
public override string f355() { return "B.f355"; }
public override string f356() { return "B.f356"; }
public override string f357() { return "B.f357"; }
public override string f358() { return "B.f358"; }
public override string f359() { return "B.f359"; }
public override string f360() { return "B.f360"; }
public override string f361() { return "B.f361"; }
public override string f362() { return "B.f362"; }
public override string f363() { return "B.f363"; }
public override string f364() { return "B.f364"; }
public override string f365() { return "B.f365"; }
public override string f366() { return "B.f366"; }
public override string f367() { return "B.f367"; }
public override string f368() { return "B.f368"; }
public override string f369() { return "B.f369"; }
public override string f370() { return "B.f370"; }
public override string f371() { return "B.f371"; }
public override string f372() { return "B.f372"; }
public override string f373() { return "B.f373"; }
public override string f374() { return "B.f374"; }
public override string f375() { return "B.f375"; }
public override string f376() { return "B.f376"; }
public override string f377() { return "B.f377"; }
public override string f378() { return "B.f378"; }
public override string f379() { return "B.f379"; }
public override string f380() { return "B.f380"; }
public override string f381() { return "B.f381"; }
public override string f382() { return "B.f382"; }
public override string f383() { return "B.f383"; }
public override string f384() { return "B.f384"; }
public override string f385() { return "B.f385"; }
public override string f386() { return "B.f386"; }
public override string f387() { return "B.f387"; }
public override string f388() { return "B.f388"; }
public override string f389() { return "B.f389"; }
public override string f390() { return "B.f390"; }
public override string f391() { return "B.f391"; }
public override string f392() { return "B.f392"; }
public override string f393() { return "B.f393"; }
public override string f394() { return "B.f394"; }
public override string f395() { return "B.f395"; }
public override string f396() { return "B.f396"; }
public override string f397() { return "B.f397"; }
public override string f398() { return "B.f398"; }
public override string f399() { return "B.f399"; }
public override string f400() { return "B.f400"; }
public override string f401() { return "B.f401"; }
public override string f402() { return "B.f402"; }
public override string f403() { return "B.f403"; }
public override string f404() { return "B.f404"; }
public override string f405() { return "B.f405"; }
public override string f406() { return "B.f406"; }
public override string f407() { return "B.f407"; }
public override string f408() { return "B.f408"; }
public override string f409() { return "B.f409"; }
public override string f410() { return "B.f410"; }
public override string f411() { return "B.f411"; }
public override string f412() { return "B.f412"; }
public override string f413() { return "B.f413"; }
public override string f414() { return "B.f414"; }
public override string f415() { return "B.f415"; }
public override string f416() { return "B.f416"; }
public override string f417() { return "B.f417"; }
public override string f418() { return "B.f418"; }
public override string f419() { return "B.f419"; }
public override string f420() { return "B.f420"; }
public override string f421() { return "B.f421"; }
public override string f422() { return "B.f422"; }
public override string f423() { return "B.f423"; }
public override string f424() { return "B.f424"; }
public override string f425() { return "B.f425"; }
public override string f426() { return "B.f426"; }
public override string f427() { return "B.f427"; }
public override string f428() { return "B.f428"; }
public override string f429() { return "B.f429"; }
public override string f430() { return "B.f430"; }
public override string f431() { return "B.f431"; }
public override string f432() { return "B.f432"; }
public override string f433() { return "B.f433"; }
public override string f434() { return "B.f434"; }
public override string f435() { return "B.f435"; }
public override string f436() { return "B.f436"; }
public override string f437() { return "B.f437"; }
public override string f438() { return "B.f438"; }
public override string f439() { return "B.f439"; }
public override string f440() { return "B.f440"; }
public override string f441() { return "B.f441"; }
public override string f442() { return "B.f442"; }
public override string f443() { return "B.f443"; }
public override string f444() { return "B.f444"; }
public override string f445() { return "B.f445"; }
public override string f446() { return "B.f446"; }
public override string f447() { return "B.f447"; }
public override string f448() { return "B.f448"; }
public override string f449() { return "B.f449"; }
public override string f450() { return "B.f450"; }
public override string f451() { return "B.f451"; }
public override string f452() { return "B.f452"; }
public override string f453() { return "B.f453"; }
public override string f454() { return "B.f454"; }
public override string f455() { return "B.f455"; }
public override string f456() { return "B.f456"; }
public override string f457() { return "B.f457"; }
public override string f458() { return "B.f458"; }
public override string f459() { return "B.f459"; }
public override string f460() { return "B.f460"; }
public override string f461() { return "B.f461"; }
public override string f462() { return "B.f462"; }
public override string f463() { return "B.f463"; }
public override string f464() { return "B.f464"; }
public override string f465() { return "B.f465"; }
public override string f466() { return "B.f466"; }
public override string f467() { return "B.f467"; }
public override string f468() { return "B.f468"; }
public override string f469() { return "B.f469"; }
public override string f470() { return "B.f470"; }
public override string f471() { return "B.f471"; }
public override string f472() { return "B.f472"; }
public override string f473() { return "B.f473"; }
public override string f474() { return "B.f474"; }
public override string f475() { return "B.f475"; }
public override string f476() { return "B.f476"; }
public override string f477() { return "B.f477"; }
public override string f478() { return "B.f478"; }
public override string f479() { return "B.f479"; }
public override string f480() { return "B.f480"; }
public override string f481() { return "B.f481"; }
public override string f482() { return "B.f482"; }
public override string f483() { return "B.f483"; }
public override string f484() { return "B.f484"; }
public override string f485() { return "B.f485"; }
public override string f486() { return "B.f486"; }
public override string f487() { return "B.f487"; }
public override string f488() { return "B.f488"; }
public override string f489() { return "B.f489"; }
public override string f490() { return "B.f490"; }
public override string f491() { return "B.f491"; }
public override string f492() { return "B.f492"; }
public override string f493() { return "B.f493"; }
public override string f494() { return "B.f494"; }
public override string f495() { return "B.f495"; }
public override string f496() { return "B.f496"; }
public override string f497() { return "B.f497"; }
public override string f498() { return "B.f498"; }
public override string f499() { return "B.f499"; }
public override string f500() { return "B.f500"; }
public override string f501() { return "B.f501"; }
public override string f502() { return "B.f502"; }
public override string f503() { return "B.f503"; }
public override string f504() { return "B.f504"; }
public override string f505() { return "B.f505"; }
public override string f506() { return "B.f506"; }
public override string f507() { return "B.f507"; }
public override string f508() { return "B.f508"; }
public override string f509() { return "B.f509"; }
public override string f510() { return "B.f510"; }
public override string f511() { return "B.f511"; }
public override string f512() { return "B.f512"; }
public override string f513() { return "B.f513"; }
public override string f514() { return "B.f514"; }
public override string f515() { return "B.f515"; }
public override string f516() { return "B.f516"; }
public override string f517() { return "B.f517"; }
public override string f518() { return "B.f518"; }
public override string f519() { return "B.f519"; }
public override string f520() { return "B.f520"; }
public override string f521() { return "B.f521"; }
public override string f522() { return "B.f522"; }
public override string f523() { return "B.f523"; }
public override string f524() { return "B.f524"; }
public override string f525() { return "B.f525"; }
public override string f526() { return "B.f526"; }
public override string f527() { return "B.f527"; }
public override string f528() { return "B.f528"; }
public override string f529() { return "B.f529"; }
public override string f530() { return "B.f530"; }
public override string f531() { return "B.f531"; }
public override string f532() { return "B.f532"; }
public override string f533() { return "B.f533"; }
public override string f534() { return "B.f534"; }
public override string f535() { return "B.f535"; }
public override string f536() { return "B.f536"; }
public override string f537() { return "B.f537"; }
public override string f538() { return "B.f538"; }
public override string f539() { return "B.f539"; }
public override string f540() { return "B.f540"; }
public override string f541() { return "B.f541"; }
public override string f542() { return "B.f542"; }
public override string f543() { return "B.f543"; }
public override string f544() { return "B.f544"; }
public override string f545() { return "B.f545"; }
public override string f546() { return "B.f546"; }
public override string f547() { return "B.f547"; }
public override string f548() { return "B.f548"; }
public override string f549() { return "B.f549"; }
public override string f550() { return "B.f550"; }
public override string f551() { return "B.f551"; }
public override string f552() { return "B.f552"; }
public override string f553() { return "B.f553"; }
public override string f554() { return "B.f554"; }
public override string f555() { return "B.f555"; }
public override string f556() { return "B.f556"; }
public override string f557() { return "B.f557"; }
public override string f558() { return "B.f558"; }
public override string f559() { return "B.f559"; }
public override string f560() { return "B.f560"; }
public override string f561() { return "B.f561"; }
public override string f562() { return "B.f562"; }
public override string f563() { return "B.f563"; }
public override string f564() { return "B.f564"; }
public override string f565() { return "B.f565"; }
public override string f566() { return "B.f566"; }
public override string f567() { return "B.f567"; }
public override string f568() { return "B.f568"; }
public override string f569() { return "B.f569"; }
public override string f570() { return "B.f570"; }
public override string f571() { return "B.f571"; }
public override string f572() { return "B.f572"; }
public override string f573() { return "B.f573"; }
public override string f574() { return "B.f574"; }
public override string f575() { return "B.f575"; }
public override string f576() { return "B.f576"; }
public override string f577() { return "B.f577"; }
public override string f578() { return "B.f578"; }
public override string f579() { return "B.f579"; }
public override string f580() { return "B.f580"; }
public override string f581() { return "B.f581"; }
public override string f582() { return "B.f582"; }
public override string f583() { return "B.f583"; }
public override string f584() { return "B.f584"; }
public override string f585() { return "B.f585"; }
public override string f586() { return "B.f586"; }
public override string f587() { return "B.f587"; }
public override string f588() { return "B.f588"; }
public override string f589() { return "B.f589"; }
public override string f590() { return "B.f590"; }
public override string f591() { return "B.f591"; }
public override string f592() { return "B.f592"; }
public override string f593() { return "B.f593"; }
public override string f594() { return "B.f594"; }
public override string f595() { return "B.f595"; }
public override string f596() { return "B.f596"; }
public override string f597() { return "B.f597"; }
public override string f598() { return "B.f598"; }
public override string f599() { return "B.f599"; }
public override string f600() { return "B.f600"; }
public override string f601() { return "B.f601"; }
public override string f602() { return "B.f602"; }
public override string f603() { return "B.f603"; }
public override string f604() { return "B.f604"; }
public override string f605() { return "B.f605"; }
public override string f606() { return "B.f606"; }
public override string f607() { return "B.f607"; }
public override string f608() { return "B.f608"; }
public override string f609() { return "B.f609"; }
public override string f610() { return "B.f610"; }
public override string f611() { return "B.f611"; }
public override string f612() { return "B.f612"; }
public override string f613() { return "B.f613"; }
public override string f614() { return "B.f614"; }
public override string f615() { return "B.f615"; }
public override string f616() { return "B.f616"; }
public override string f617() { return "B.f617"; }
public override string f618() { return "B.f618"; }
public override string f619() { return "B.f619"; }
public override string f620() { return "B.f620"; }
public override string f621() { return "B.f621"; }
public override string f622() { return "B.f622"; }
public override string f623() { return "B.f623"; }
public override string f624() { return "B.f624"; }
public override string f625() { return "B.f625"; }
public override string f626() { return "B.f626"; }
public override string f627() { return "B.f627"; }
public override string f628() { return "B.f628"; }
public override string f629() { return "B.f629"; }
public override string f630() { return "B.f630"; }
public override string f631() { return "B.f631"; }
public override string f632() { return "B.f632"; }
public override string f633() { return "B.f633"; }
public override string f634() { return "B.f634"; }
public override string f635() { return "B.f635"; }
public override string f636() { return "B.f636"; }
public override string f637() { return "B.f637"; }
public override string f638() { return "B.f638"; }
public override string f639() { return "B.f639"; }
public override string f640() { return "B.f640"; }
public override string f641() { return "B.f641"; }
public override string f642() { return "B.f642"; }
public override string f643() { return "B.f643"; }
public override string f644() { return "B.f644"; }
public override string f645() { return "B.f645"; }
public override string f646() { return "B.f646"; }
public override string f647() { return "B.f647"; }
public override string f648() { return "B.f648"; }
public override string f649() { return "B.f649"; }
public override string f650() { return "B.f650"; }
public override string f651() { return "B.f651"; }
public override string f652() { return "B.f652"; }
public override string f653() { return "B.f653"; }
public override string f654() { return "B.f654"; }
public override string f655() { return "B.f655"; }
public override string f656() { return "B.f656"; }
public override string f657() { return "B.f657"; }
public override string f658() { return "B.f658"; }
public override string f659() { return "B.f659"; }
public override string f660() { return "B.f660"; }
public override string f661() { return "B.f661"; }
public override string f662() { return "B.f662"; }
public override string f663() { return "B.f663"; }
public override string f664() { return "B.f664"; }
public override string f665() { return "B.f665"; }
public override string f666() { return "B.f666"; }
public override string f667() { return "B.f667"; }
public override string f668() { return "B.f668"; }
public override string f669() { return "B.f669"; }
public override string f670() { return "B.f670"; }
public override string f671() { return "B.f671"; }
public override string f672() { return "B.f672"; }
public override string f673() { return "B.f673"; }
public override string f674() { return "B.f674"; }
public override string f675() { return "B.f675"; }
public override string f676() { return "B.f676"; }
public override string f677() { return "B.f677"; }
public override string f678() { return "B.f678"; }
public override string f679() { return "B.f679"; }
public override string f680() { return "B.f680"; }
public override string f681() { return "B.f681"; }
public override string f682() { return "B.f682"; }
public override string f683() { return "B.f683"; }
public override string f684() { return "B.f684"; }
public override string f685() { return "B.f685"; }
public override string f686() { return "B.f686"; }
public override string f687() { return "B.f687"; }
public override string f688() { return "B.f688"; }
public override string f689() { return "B.f689"; }
public override string f690() { return "B.f690"; }
public override string f691() { return "B.f691"; }
public override string f692() { return "B.f692"; }
public override string f693() { return "B.f693"; }
public override string f694() { return "B.f694"; }
public override string f695() { return "B.f695"; }
public override string f696() { return "B.f696"; }
public override string f697() { return "B.f697"; }
public override string f698() { return "B.f698"; }
public override string f699() { return "B.f699"; }
public override string f700() { return "B.f700"; }
public override string f701() { return "B.f701"; }
public override string f702() { return "B.f702"; }
public override string f703() { return "B.f703"; }
public override string f704() { return "B.f704"; }
public override string f705() { return "B.f705"; }
public override string f706() { return "B.f706"; }
public override string f707() { return "B.f707"; }
public override string f708() { return "B.f708"; }
public override string f709() { return "B.f709"; }
public override string f710() { return "B.f710"; }
public override string f711() { return "B.f711"; }
public override string f712() { return "B.f712"; }
public override string f713() { return "B.f713"; }
public override string f714() { return "B.f714"; }
public override string f715() { return "B.f715"; }
public override string f716() { return "B.f716"; }
public override string f717() { return "B.f717"; }
public override string f718() { return "B.f718"; }
public override string f719() { return "B.f719"; }
public override string f720() { return "B.f720"; }
public override string f721() { return "B.f721"; }
public override string f722() { return "B.f722"; }
public override string f723() { return "B.f723"; }
public override string f724() { return "B.f724"; }
public override string f725() { return "B.f725"; }
public override string f726() { return "B.f726"; }
public override string f727() { return "B.f727"; }
public override string f728() { return "B.f728"; }
public override string f729() { return "B.f729"; }
public override string f730() { return "B.f730"; }
public override string f731() { return "B.f731"; }
public override string f732() { return "B.f732"; }
public override string f733() { return "B.f733"; }
public override string f734() { return "B.f734"; }
public override string f735() { return "B.f735"; }
public override string f736() { return "B.f736"; }
public override string f737() { return "B.f737"; }
public override string f738() { return "B.f738"; }
public override string f739() { return "B.f739"; }
public override string f740() { return "B.f740"; }
public override string f741() { return "B.f741"; }
public override string f742() { return "B.f742"; }
public override string f743() { return "B.f743"; }
public override string f744() { return "B.f744"; }
public override string f745() { return "B.f745"; }
public override string f746() { return "B.f746"; }
public override string f747() { return "B.f747"; }
public override string f748() { return "B.f748"; }
public override string f749() { return "B.f749"; }
public override string f750() { return "B.f750"; }
public override string f751() { return "B.f751"; }
public override string f752() { return "B.f752"; }
public override string f753() { return "B.f753"; }
public override string f754() { return "B.f754"; }
public override string f755() { return "B.f755"; }
public override string f756() { return "B.f756"; }
public override string f757() { return "B.f757"; }
public override string f758() { return "B.f758"; }
public override string f759() { return "B.f759"; }
public override string f760() { return "B.f760"; }
public override string f761() { return "B.f761"; }
public override string f762() { return "B.f762"; }
public override string f763() { return "B.f763"; }
public override string f764() { return "B.f764"; }
public override string f765() { return "B.f765"; }
public override string f766() { return "B.f766"; }
public override string f767() { return "B.f767"; }
public override string f768() { return "B.f768"; }
public override string f769() { return "B.f769"; }
public override string f770() { return "B.f770"; }
public override string f771() { return "B.f771"; }
public override string f772() { return "B.f772"; }
public override string f773() { return "B.f773"; }
public override string f774() { return "B.f774"; }
public override string f775() { return "B.f775"; }
public override string f776() { return "B.f776"; }
public override string f777() { return "B.f777"; }
public override string f778() { return "B.f778"; }
public override string f779() { return "B.f779"; }
public override string f780() { return "B.f780"; }
public override string f781() { return "B.f781"; }
public override string f782() { return "B.f782"; }
public override string f783() { return "B.f783"; }
public override string f784() { return "B.f784"; }
public override string f785() { return "B.f785"; }
public override string f786() { return "B.f786"; }
public override string f787() { return "B.f787"; }
public override string f788() { return "B.f788"; }
public override string f789() { return "B.f789"; }
public override string f790() { return "B.f790"; }
public override string f791() { return "B.f791"; }
public override string f792() { return "B.f792"; }
public override string f793() { return "B.f793"; }
public override string f794() { return "B.f794"; }
public override string f795() { return "B.f795"; }
public override string f796() { return "B.f796"; }
public override string f797() { return "B.f797"; }
public override string f798() { return "B.f798"; }
public override string f799() { return "B.f799"; }
public override string f800() { return "B.f800"; }
public override string f801() { return "B.f801"; }
public override string f802() { return "B.f802"; }
public override string f803() { return "B.f803"; }
public override string f804() { return "B.f804"; }
public override string f805() { return "B.f805"; }
public override string f806() { return "B.f806"; }
public override string f807() { return "B.f807"; }
public override string f808() { return "B.f808"; }
public override string f809() { return "B.f809"; }
public override string f810() { return "B.f810"; }
public override string f811() { return "B.f811"; }
public override string f812() { return "B.f812"; }
public override string f813() { return "B.f813"; }
public override string f814() { return "B.f814"; }
public override string f815() { return "B.f815"; }
public override string f816() { return "B.f816"; }
public override string f817() { return "B.f817"; }
public override string f818() { return "B.f818"; }
public override string f819() { return "B.f819"; }
public override string f820() { return "B.f820"; }
public override string f821() { return "B.f821"; }
public override string f822() { return "B.f822"; }
public override string f823() { return "B.f823"; }
public override string f824() { return "B.f824"; }
public override string f825() { return "B.f825"; }
public override string f826() { return "B.f826"; }
public override string f827() { return "B.f827"; }
public override string f828() { return "B.f828"; }
public override string f829() { return "B.f829"; }
public override string f830() { return "B.f830"; }
public override string f831() { return "B.f831"; }
public override string f832() { return "B.f832"; }
public override string f833() { return "B.f833"; }
public override string f834() { return "B.f834"; }
public override string f835() { return "B.f835"; }
public override string f836() { return "B.f836"; }
public override string f837() { return "B.f837"; }
public override string f838() { return "B.f838"; }
public override string f839() { return "B.f839"; }
public override string f840() { return "B.f840"; }
public override string f841() { return "B.f841"; }
public override string f842() { return "B.f842"; }
public override string f843() { return "B.f843"; }
public override string f844() { return "B.f844"; }
public override string f845() { return "B.f845"; }
public override string f846() { return "B.f846"; }
public override string f847() { return "B.f847"; }
public override string f848() { return "B.f848"; }
public override string f849() { return "B.f849"; }
public override string f850() { return "B.f850"; }
public override string f851() { return "B.f851"; }
public override string f852() { return "B.f852"; }
public override string f853() { return "B.f853"; }
public override string f854() { return "B.f854"; }
public override string f855() { return "B.f855"; }
public override string f856() { return "B.f856"; }
public override string f857() { return "B.f857"; }
public override string f858() { return "B.f858"; }
public override string f859() { return "B.f859"; }
public override string f860() { return "B.f860"; }
public override string f861() { return "B.f861"; }
public override string f862() { return "B.f862"; }
public override string f863() { return "B.f863"; }
public override string f864() { return "B.f864"; }
public override string f865() { return "B.f865"; }
public override string f866() { return "B.f866"; }
public override string f867() { return "B.f867"; }
public override string f868() { return "B.f868"; }
public override string f869() { return "B.f869"; }
public override string f870() { return "B.f870"; }
public override string f871() { return "B.f871"; }
public override string f872() { return "B.f872"; }
public override string f873() { return "B.f873"; }
public override string f874() { return "B.f874"; }
public override string f875() { return "B.f875"; }
public override string f876() { return "B.f876"; }
public override string f877() { return "B.f877"; }
public override string f878() { return "B.f878"; }
public override string f879() { return "B.f879"; }
public override string f880() { return "B.f880"; }
public override string f881() { return "B.f881"; }
public override string f882() { return "B.f882"; }
public override string f883() { return "B.f883"; }
public override string f884() { return "B.f884"; }
public override string f885() { return "B.f885"; }
public override string f886() { return "B.f886"; }
public override string f887() { return "B.f887"; }
public override string f888() { return "B.f888"; }
public override string f889() { return "B.f889"; }
public override string f890() { return "B.f890"; }
public override string f891() { return "B.f891"; }
public override string f892() { return "B.f892"; }
public override string f893() { return "B.f893"; }
public override string f894() { return "B.f894"; }
public override string f895() { return "B.f895"; }
public override string f896() { return "B.f896"; }
public override string f897() { return "B.f897"; }
public override string f898() { return "B.f898"; }
public override string f899() { return "B.f899"; }
public override string f900() { return "B.f900"; }
public override string f901() { return "B.f901"; }
public override string f902() { return "B.f902"; }
public override string f903() { return "B.f903"; }
public override string f904() { return "B.f904"; }
public override string f905() { return "B.f905"; }
public override string f906() { return "B.f906"; }
public override string f907() { return "B.f907"; }
public override string f908() { return "B.f908"; }
public override string f909() { return "B.f909"; }
public override string f910() { return "B.f910"; }
public override string f911() { return "B.f911"; }
public override string f912() { return "B.f912"; }
public override string f913() { return "B.f913"; }
public override string f914() { return "B.f914"; }
public override string f915() { return "B.f915"; }
public override string f916() { return "B.f916"; }
public override string f917() { return "B.f917"; }
public override string f918() { return "B.f918"; }
public override string f919() { return "B.f919"; }
public override string f920() { return "B.f920"; }
public override string f921() { return "B.f921"; }
public override string f922() { return "B.f922"; }
public override string f923() { return "B.f923"; }
public override string f924() { return "B.f924"; }
public override string f925() { return "B.f925"; }
public override string f926() { return "B.f926"; }
public override string f927() { return "B.f927"; }
public override string f928() { return "B.f928"; }
public override string f929() { return "B.f929"; }
public override string f930() { return "B.f930"; }
public override string f931() { return "B.f931"; }
public override string f932() { return "B.f932"; }
public override string f933() { return "B.f933"; }
public override string f934() { return "B.f934"; }
public override string f935() { return "B.f935"; }
public override string f936() { return "B.f936"; }
public override string f937() { return "B.f937"; }
public override string f938() { return "B.f938"; }
public override string f939() { return "B.f939"; }
public override string f940() { return "B.f940"; }
public override string f941() { return "B.f941"; }
public override string f942() { return "B.f942"; }
public override string f943() { return "B.f943"; }
public override string f944() { return "B.f944"; }
public override string f945() { return "B.f945"; }
public override string f946() { return "B.f946"; }
public override string f947() { return "B.f947"; }
public override string f948() { return "B.f948"; }
public override string f949() { return "B.f949"; }
public override string f950() { return "B.f950"; }
public override string f951() { return "B.f951"; }
public override string f952() { return "B.f952"; }
public override string f953() { return "B.f953"; }
public override string f954() { return "B.f954"; }
public override string f955() { return "B.f955"; }
public override string f956() { return "B.f956"; }
public override string f957() { return "B.f957"; }
public override string f958() { return "B.f958"; }
public override string f959() { return "B.f959"; }
public override string f960() { return "B.f960"; }
public override string f961() { return "B.f961"; }
public override string f962() { return "B.f962"; }
public override string f963() { return "B.f963"; }
public override string f964() { return "B.f964"; }
public override string f965() { return "B.f965"; }
public override string f966() { return "B.f966"; }
public override string f967() { return "B.f967"; }
public override string f968() { return "B.f968"; }
public override string f969() { return "B.f969"; }
public override string f970() { return "B.f970"; }
public override string f971() { return "B.f971"; }
public override string f972() { return "B.f972"; }
public override string f973() { return "B.f973"; }
public override string f974() { return "B.f974"; }
public override string f975() { return "B.f975"; }
public override string f976() { return "B.f976"; }
public override string f977() { return "B.f977"; }
public override string f978() { return "B.f978"; }
public override string f979() { return "B.f979"; }
public override string f980() { return "B.f980"; }
public override string f981() { return "B.f981"; }
public override string f982() { return "B.f982"; }
public override string f983() { return "B.f983"; }
public override string f984() { return "B.f984"; }
public override string f985() { return "B.f985"; }
public override string f986() { return "B.f986"; }
public override string f987() { return "B.f987"; }
public override string f988() { return "B.f988"; }
public override string f989() { return "B.f989"; }
public override string f990() { return "B.f990"; }
public override string f991() { return "B.f991"; }
public override string f992() { return "B.f992"; }
public override string f993() { return "B.f993"; }
public override string f994() { return "B.f994"; }
public override string f995() { return "B.f995"; }
public override string f996() { return "B.f996"; }
public override string f997() { return "B.f997"; }
public override string f998() { return "B.f998"; }
public override string f999() { return "B.f999"; }
public override string f1000() { return "B.f1000"; }
public override string f1001() { return "B.f1001"; }
public override string f1002() { return "B.f1002"; }
public override string f1003() { return "B.f1003"; }
public override string f1004() { return "B.f1004"; }
public override string f1005() { return "B.f1005"; }
public override string f1006() { return "B.f1006"; }
public override string f1007() { return "B.f1007"; }
public override string f1008() { return "B.f1008"; }
public override string f1009() { return "B.f1009"; }
public override string f1010() { return "B.f1010"; }
public override string f1011() { return "B.f1011"; }
public override string f1012() { return "B.f1012"; }
public override string f1013() { return "B.f1013"; }
public override string f1014() { return "B.f1014"; }
public override string f1015() { return "B.f1015"; }
public override string f1016() { return "B.f1016"; }
public override string f1017() { return "B.f1017"; }
public override string f1018() { return "B.f1018"; }
public override string f1019() { return "B.f1019"; }
public override string f1020() { return "B.f1020"; }
public override string f1021() { return "B.f1021"; }
public override string f1022() { return "B.f1022"; }
public override string f1023() { return "B.f1023"; }
public override string f1024() { return "B.f1024"; }
public override string f1025() { return "B.f1025"; }
public override string f1026() { return "B.f1026"; }
public override string f1027() { return "B.f1027"; }
public override string f1028() { return "B.f1028"; }
public override string f1029() { return "B.f1029"; }
public override string f1030() { return "B.f1030"; }
public override string f1031() { return "B.f1031"; }
public override string f1032() { return "B.f1032"; }
public override string f1033() { return "B.f1033"; }
public override string f1034() { return "B.f1034"; }
public override string f1035() { return "B.f1035"; }
public override string f1036() { return "B.f1036"; }
public override string f1037() { return "B.f1037"; }
public override string f1038() { return "B.f1038"; }
public override string f1039() { return "B.f1039"; }
public override string f1040() { return "B.f1040"; }
public override string f1041() { return "B.f1041"; }
public override string f1042() { return "B.f1042"; }
public override string f1043() { return "B.f1043"; }
public override string f1044() { return "B.f1044"; }
public override string f1045() { return "B.f1045"; }
public override string f1046() { return "B.f1046"; }
public override string f1047() { return "B.f1047"; }
public override string f1048() { return "B.f1048"; }
public override string f1049() { return "B.f1049"; }
public override string f1050() { return "B.f1050"; }
public override string f1051() { return "B.f1051"; }
public override string f1052() { return "B.f1052"; }
public override string f1053() { return "B.f1053"; }
public override string f1054() { return "B.f1054"; }
public override string f1055() { return "B.f1055"; }
public override string f1056() { return "B.f1056"; }
public override string f1057() { return "B.f1057"; }
public override string f1058() { return "B.f1058"; }
public override string f1059() { return "B.f1059"; }
public override string f1060() { return "B.f1060"; }
public override string f1061() { return "B.f1061"; }
public override string f1062() { return "B.f1062"; }
public override string f1063() { return "B.f1063"; }
public override string f1064() { return "B.f1064"; }
public override string f1065() { return "B.f1065"; }
public override string f1066() { return "B.f1066"; }
public override string f1067() { return "B.f1067"; }
public override string f1068() { return "B.f1068"; }
public override string f1069() { return "B.f1069"; }
public override string f1070() { return "B.f1070"; }
public override string f1071() { return "B.f1071"; }
public override string f1072() { return "B.f1072"; }
public override string f1073() { return "B.f1073"; }
public override string f1074() { return "B.f1074"; }
public override string f1075() { return "B.f1075"; }
public override string f1076() { return "B.f1076"; }
public override string f1077() { return "B.f1077"; }
public override string f1078() { return "B.f1078"; }
public override string f1079() { return "B.f1079"; }
public override string f1080() { return "B.f1080"; }
public override string f1081() { return "B.f1081"; }
public override string f1082() { return "B.f1082"; }
public override string f1083() { return "B.f1083"; }
public override string f1084() { return "B.f1084"; }
public override string f1085() { return "B.f1085"; }
public override string f1086() { return "B.f1086"; }
public override string f1087() { return "B.f1087"; }
public override string f1088() { return "B.f1088"; }
public override string f1089() { return "B.f1089"; }
public override string f1090() { return "B.f1090"; }
public override string f1091() { return "B.f1091"; }
public override string f1092() { return "B.f1092"; }
public override string f1093() { return "B.f1093"; }
public override string f1094() { return "B.f1094"; }
public override string f1095() { return "B.f1095"; }
public override string f1096() { return "B.f1096"; }
public override string f1097() { return "B.f1097"; }
public override string f1098() { return "B.f1098"; }
public override string f1099() { return "B.f1099"; }
public override string f1100() { return "B.f1100"; }
public override string f1101() { return "B.f1101"; }
public override string f1102() { return "B.f1102"; }
public override string f1103() { return "B.f1103"; }
public override string f1104() { return "B.f1104"; }
public override string f1105() { return "B.f1105"; }
public override string f1106() { return "B.f1106"; }
public override string f1107() { return "B.f1107"; }
public override string f1108() { return "B.f1108"; }
public override string f1109() { return "B.f1109"; }
public override string f1110() { return "B.f1110"; }
public override string f1111() { return "B.f1111"; }
public override string f1112() { return "B.f1112"; }
public override string f1113() { return "B.f1113"; }
public override string f1114() { return "B.f1114"; }
public override string f1115() { return "B.f1115"; }
public override string f1116() { return "B.f1116"; }
public override string f1117() { return "B.f1117"; }
public override string f1118() { return "B.f1118"; }
public override string f1119() { return "B.f1119"; }
public override string f1120() { return "B.f1120"; }
public override string f1121() { return "B.f1121"; }
public override string f1122() { return "B.f1122"; }
public override string f1123() { return "B.f1123"; }
public override string f1124() { return "B.f1124"; }
public override string f1125() { return "B.f1125"; }
public override string f1126() { return "B.f1126"; }
public override string f1127() { return "B.f1127"; }
public override string f1128() { return "B.f1128"; }
public override string f1129() { return "B.f1129"; }
public override string f1130() { return "B.f1130"; }
public override string f1131() { return "B.f1131"; }
public override string f1132() { return "B.f1132"; }
public override string f1133() { return "B.f1133"; }
public override string f1134() { return "B.f1134"; }
public override string f1135() { return "B.f1135"; }
public override string f1136() { return "B.f1136"; }
public override string f1137() { return "B.f1137"; }
public override string f1138() { return "B.f1138"; }
public override string f1139() { return "B.f1139"; }
public override string f1140() { return "B.f1140"; }
public override string f1141() { return "B.f1141"; }
public override string f1142() { return "B.f1142"; }
public override string f1143() { return "B.f1143"; }
public override string f1144() { return "B.f1144"; }
public override string f1145() { return "B.f1145"; }
public override string f1146() { return "B.f1146"; }
public override string f1147() { return "B.f1147"; }
public override string f1148() { return "B.f1148"; }
public override string f1149() { return "B.f1149"; }
public override string f1150() { return "B.f1150"; }
public override string f1151() { return "B.f1151"; }
public override string f1152() { return "B.f1152"; }
public override string f1153() { return "B.f1153"; }
public override string f1154() { return "B.f1154"; }
public override string f1155() { return "B.f1155"; }
public override string f1156() { return "B.f1156"; }
public override string f1157() { return "B.f1157"; }
public override string f1158() { return "B.f1158"; }
public override string f1159() { return "B.f1159"; }
public override string f1160() { return "B.f1160"; }
public override string f1161() { return "B.f1161"; }
public override string f1162() { return "B.f1162"; }
public override string f1163() { return "B.f1163"; }
public override string f1164() { return "B.f1164"; }
public override string f1165() { return "B.f1165"; }
public override string f1166() { return "B.f1166"; }
public override string f1167() { return "B.f1167"; }
public override string f1168() { return "B.f1168"; }
public override string f1169() { return "B.f1169"; }
public override string f1170() { return "B.f1170"; }
public override string f1171() { return "B.f1171"; }
public override string f1172() { return "B.f1172"; }
public override string f1173() { return "B.f1173"; }
public override string f1174() { return "B.f1174"; }
public override string f1175() { return "B.f1175"; }
public override string f1176() { return "B.f1176"; }
public override string f1177() { return "B.f1177"; }
public override string f1178() { return "B.f1178"; }
public override string f1179() { return "B.f1179"; }
public override string f1180() { return "B.f1180"; }
public override string f1181() { return "B.f1181"; }
public override string f1182() { return "B.f1182"; }
public override string f1183() { return "B.f1183"; }
public override string f1184() { return "B.f1184"; }
public override string f1185() { return "B.f1185"; }
public override string f1186() { return "B.f1186"; }
public override string f1187() { return "B.f1187"; }
public override string f1188() { return "B.f1188"; }
public override string f1189() { return "B.f1189"; }
public override string f1190() { return "B.f1190"; }
public override string f1191() { return "B.f1191"; }
public override string f1192() { return "B.f1192"; }
public override string f1193() { return "B.f1193"; }
public override string f1194() { return "B.f1194"; }
public override string f1195() { return "B.f1195"; }
public override string f1196() { return "B.f1196"; }
public override string f1197() { return "B.f1197"; }
public override string f1198() { return "B.f1198"; }
public override string f1199() { return "B.f1199"; }
public override string f1200() { return "B.f1200"; }
public override string f1201() { return "B.f1201"; }
public override string f1202() { return "B.f1202"; }
public override string f1203() { return "B.f1203"; }
public override string f1204() { return "B.f1204"; }
public override string f1205() { return "B.f1205"; }
public override string f1206() { return "B.f1206"; }
public override string f1207() { return "B.f1207"; }
public override string f1208() { return "B.f1208"; }
public override string f1209() { return "B.f1209"; }
public override string f1210() { return "B.f1210"; }
public override string f1211() { return "B.f1211"; }
public override string f1212() { return "B.f1212"; }
public override string f1213() { return "B.f1213"; }
public override string f1214() { return "B.f1214"; }
public override string f1215() { return "B.f1215"; }
public override string f1216() { return "B.f1216"; }
public override string f1217() { return "B.f1217"; }
public override string f1218() { return "B.f1218"; }
public override string f1219() { return "B.f1219"; }
public override string f1220() { return "B.f1220"; }
public override string f1221() { return "B.f1221"; }
public override string f1222() { return "B.f1222"; }
public override string f1223() { return "B.f1223"; }
public override string f1224() { return "B.f1224"; }
public override string f1225() { return "B.f1225"; }
public override string f1226() { return "B.f1226"; }
public override string f1227() { return "B.f1227"; }
public override string f1228() { return "B.f1228"; }
public override string f1229() { return "B.f1229"; }
public override string f1230() { return "B.f1230"; }
public override string f1231() { return "B.f1231"; }
public override string f1232() { return "B.f1232"; }
public override string f1233() { return "B.f1233"; }
public override string f1234() { return "B.f1234"; }
public override string f1235() { return "B.f1235"; }
public override string f1236() { return "B.f1236"; }
public override string f1237() { return "B.f1237"; }
public override string f1238() { return "B.f1238"; }
public override string f1239() { return "B.f1239"; }
public override string f1240() { return "B.f1240"; }
public override string f1241() { return "B.f1241"; }
public override string f1242() { return "B.f1242"; }
public override string f1243() { return "B.f1243"; }
public override string f1244() { return "B.f1244"; }
public override string f1245() { return "B.f1245"; }
public override string f1246() { return "B.f1246"; }
public override string f1247() { return "B.f1247"; }
public override string f1248() { return "B.f1248"; }
public override string f1249() { return "B.f1249"; }
public override string f1250() { return "B.f1250"; }
public override string f1251() { return "B.f1251"; }
public override string f1252() { return "B.f1252"; }
public override string f1253() { return "B.f1253"; }
public override string f1254() { return "B.f1254"; }
public override string f1255() { return "B.f1255"; }
public override string f1256() { return "B.f1256"; }
public override string f1257() { return "B.f1257"; }
public override string f1258() { return "B.f1258"; }
public override string f1259() { return "B.f1259"; }
public override string f1260() { return "B.f1260"; }
public override string f1261() { return "B.f1261"; }
public override string f1262() { return "B.f1262"; }
public override string f1263() { return "B.f1263"; }
public override string f1264() { return "B.f1264"; }
public override string f1265() { return "B.f1265"; }
public override string f1266() { return "B.f1266"; }
public override string f1267() { return "B.f1267"; }
public override string f1268() { return "B.f1268"; }
public override string f1269() { return "B.f1269"; }
public override string f1270() { return "B.f1270"; }
public override string f1271() { return "B.f1271"; }
public override string f1272() { return "B.f1272"; }
public override string f1273() { return "B.f1273"; }
public override string f1274() { return "B.f1274"; }
public override string f1275() { return "B.f1275"; }
public override string f1276() { return "B.f1276"; }
public override string f1277() { return "B.f1277"; }
public override string f1278() { return "B.f1278"; }
public override string f1279() { return "B.f1279"; }
public override string f1280() { return "B.f1280"; }
public override string f1281() { return "B.f1281"; }
public override string f1282() { return "B.f1282"; }
public override string f1283() { return "B.f1283"; }
public override string f1284() { return "B.f1284"; }
public override string f1285() { return "B.f1285"; }
public override string f1286() { return "B.f1286"; }
public override string f1287() { return "B.f1287"; }
public override string f1288() { return "B.f1288"; }
public override string f1289() { return "B.f1289"; }
public override string f1290() { return "B.f1290"; }
public override string f1291() { return "B.f1291"; }
public override string f1292() { return "B.f1292"; }
public override string f1293() { return "B.f1293"; }
public override string f1294() { return "B.f1294"; }
public override string f1295() { return "B.f1295"; }
public override string f1296() { return "B.f1296"; }
public override string f1297() { return "B.f1297"; }
public override string f1298() { return "B.f1298"; }
public override string f1299() { return "B.f1299"; }
public override string f1300() { return "B.f1300"; }
public override string f1301() { return "B.f1301"; }
public override string f1302() { return "B.f1302"; }
public override string f1303() { return "B.f1303"; }
public override string f1304() { return "B.f1304"; }
public override string f1305() { return "B.f1305"; }
public override string f1306() { return "B.f1306"; }
public override string f1307() { return "B.f1307"; }
public override string f1308() { return "B.f1308"; }
public override string f1309() { return "B.f1309"; }
public override string f1310() { return "B.f1310"; }
public override string f1311() { return "B.f1311"; }
public override string f1312() { return "B.f1312"; }
public override string f1313() { return "B.f1313"; }
public override string f1314() { return "B.f1314"; }
public override string f1315() { return "B.f1315"; }
public override string f1316() { return "B.f1316"; }
public override string f1317() { return "B.f1317"; }
public override string f1318() { return "B.f1318"; }
public override string f1319() { return "B.f1319"; }
public override string f1320() { return "B.f1320"; }
public override string f1321() { return "B.f1321"; }
public override string f1322() { return "B.f1322"; }
public override string f1323() { return "B.f1323"; }
public override string f1324() { return "B.f1324"; }
public override string f1325() { return "B.f1325"; }
public override string f1326() { return "B.f1326"; }
public override string f1327() { return "B.f1327"; }
public override string f1328() { return "B.f1328"; }
public override string f1329() { return "B.f1329"; }
public override string f1330() { return "B.f1330"; }
public override string f1331() { return "B.f1331"; }
public override string f1332() { return "B.f1332"; }
public override string f1333() { return "B.f1333"; }
public override string f1334() { return "B.f1334"; }
public override string f1335() { return "B.f1335"; }
public override string f1336() { return "B.f1336"; }
public override string f1337() { return "B.f1337"; }
public override string f1338() { return "B.f1338"; }
public override string f1339() { return "B.f1339"; }
public override string f1340() { return "B.f1340"; }
public override string f1341() { return "B.f1341"; }
public override string f1342() { return "B.f1342"; }
public override string f1343() { return "B.f1343"; }
public override string f1344() { return "B.f1344"; }
public override string f1345() { return "B.f1345"; }
public override string f1346() { return "B.f1346"; }
public override string f1347() { return "B.f1347"; }
public override string f1348() { return "B.f1348"; }
public override string f1349() { return "B.f1349"; }
public override string f1350() { return "B.f1350"; }
public override string f1351() { return "B.f1351"; }
public override string f1352() { return "B.f1352"; }
public override string f1353() { return "B.f1353"; }
public override string f1354() { return "B.f1354"; }
public override string f1355() { return "B.f1355"; }
public override string f1356() { return "B.f1356"; }
public override string f1357() { return "B.f1357"; }
public override string f1358() { return "B.f1358"; }
public override string f1359() { return "B.f1359"; }
public override string f1360() { return "B.f1360"; }
public override string f1361() { return "B.f1361"; }
public override string f1362() { return "B.f1362"; }
public override string f1363() { return "B.f1363"; }
public override string f1364() { return "B.f1364"; }
public override string f1365() { return "B.f1365"; }
public override string f1366() { return "B.f1366"; }
public override string f1367() { return "B.f1367"; }
public override string f1368() { return "B.f1368"; }
public override string f1369() { return "B.f1369"; }
public override string f1370() { return "B.f1370"; }
public override string f1371() { return "B.f1371"; }
public override string f1372() { return "B.f1372"; }
public override string f1373() { return "B.f1373"; }
public override string f1374() { return "B.f1374"; }
public override string f1375() { return "B.f1375"; }
public override string f1376() { return "B.f1376"; }
public override string f1377() { return "B.f1377"; }
public override string f1378() { return "B.f1378"; }
public override string f1379() { return "B.f1379"; }
public override string f1380() { return "B.f1380"; }
public override string f1381() { return "B.f1381"; }
public override string f1382() { return "B.f1382"; }
public override string f1383() { return "B.f1383"; }
public override string f1384() { return "B.f1384"; }
public override string f1385() { return "B.f1385"; }
public override string f1386() { return "B.f1386"; }
public override string f1387() { return "B.f1387"; }
public override string f1388() { return "B.f1388"; }
public override string f1389() { return "B.f1389"; }
public override string f1390() { return "B.f1390"; }
public override string f1391() { return "B.f1391"; }
public override string f1392() { return "B.f1392"; }
public override string f1393() { return "B.f1393"; }
public override string f1394() { return "B.f1394"; }
public override string f1395() { return "B.f1395"; }
public override string f1396() { return "B.f1396"; }
public override string f1397() { return "B.f1397"; }
public override string f1398() { return "B.f1398"; }
public override string f1399() { return "B.f1399"; }
public override string f1400() { return "B.f1400"; }
public override string f1401() { return "B.f1401"; }
public override string f1402() { return "B.f1402"; }
public override string f1403() { return "B.f1403"; }
public override string f1404() { return "B.f1404"; }
public override string f1405() { return "B.f1405"; }
public override string f1406() { return "B.f1406"; }
public override string f1407() { return "B.f1407"; }
public override string f1408() { return "B.f1408"; }
public override string f1409() { return "B.f1409"; }
public override string f1410() { return "B.f1410"; }
public override string f1411() { return "B.f1411"; }
public override string f1412() { return "B.f1412"; }
public override string f1413() { return "B.f1413"; }
public override string f1414() { return "B.f1414"; }
public override string f1415() { return "B.f1415"; }
public override string f1416() { return "B.f1416"; }
public override string f1417() { return "B.f1417"; }
public override string f1418() { return "B.f1418"; }
public override string f1419() { return "B.f1419"; }
public override string f1420() { return "B.f1420"; }
public override string f1421() { return "B.f1421"; }
public override string f1422() { return "B.f1422"; }
public override string f1423() { return "B.f1423"; }
public override string f1424() { return "B.f1424"; }
public override string f1425() { return "B.f1425"; }
public override string f1426() { return "B.f1426"; }
public override string f1427() { return "B.f1427"; }
public override string f1428() { return "B.f1428"; }
public override string f1429() { return "B.f1429"; }
public override string f1430() { return "B.f1430"; }
public override string f1431() { return "B.f1431"; }
public override string f1432() { return "B.f1432"; }
public override string f1433() { return "B.f1433"; }
public override string f1434() { return "B.f1434"; }
public override string f1435() { return "B.f1435"; }
public override string f1436() { return "B.f1436"; }
public override string f1437() { return "B.f1437"; }
public override string f1438() { return "B.f1438"; }
public override string f1439() { return "B.f1439"; }
public override string f1440() { return "B.f1440"; }
public override string f1441() { return "B.f1441"; }
public override string f1442() { return "B.f1442"; }
public override string f1443() { return "B.f1443"; }
public override string f1444() { return "B.f1444"; }
public override string f1445() { return "B.f1445"; }
public override string f1446() { return "B.f1446"; }
public override string f1447() { return "B.f1447"; }
public override string f1448() { return "B.f1448"; }
public override string f1449() { return "B.f1449"; }
public override string f1450() { return "B.f1450"; }
public override string f1451() { return "B.f1451"; }
public override string f1452() { return "B.f1452"; }
public override string f1453() { return "B.f1453"; }
public override string f1454() { return "B.f1454"; }
public override string f1455() { return "B.f1455"; }
public override string f1456() { return "B.f1456"; }
public override string f1457() { return "B.f1457"; }
public override string f1458() { return "B.f1458"; }
public override string f1459() { return "B.f1459"; }
public override string f1460() { return "B.f1460"; }
public override string f1461() { return "B.f1461"; }
public override string f1462() { return "B.f1462"; }
public override string f1463() { return "B.f1463"; }
public override string f1464() { return "B.f1464"; }
public override string f1465() { return "B.f1465"; }
public override string f1466() { return "B.f1466"; }
public override string f1467() { return "B.f1467"; }
public override string f1468() { return "B.f1468"; }
public override string f1469() { return "B.f1469"; }
public override string f1470() { return "B.f1470"; }
public override string f1471() { return "B.f1471"; }
public override string f1472() { return "B.f1472"; }
public override string f1473() { return "B.f1473"; }
public override string f1474() { return "B.f1474"; }
public override string f1475() { return "B.f1475"; }
public override string f1476() { return "B.f1476"; }
public override string f1477() { return "B.f1477"; }
public override string f1478() { return "B.f1478"; }
public override string f1479() { return "B.f1479"; }
public override string f1480() { return "B.f1480"; }
public override string f1481() { return "B.f1481"; }
public override string f1482() { return "B.f1482"; }
public override string f1483() { return "B.f1483"; }
public override string f1484() { return "B.f1484"; }
public override string f1485() { return "B.f1485"; }
public override string f1486() { return "B.f1486"; }
public override string f1487() { return "B.f1487"; }
public override string f1488() { return "B.f1488"; }
public override string f1489() { return "B.f1489"; }
public override string f1490() { return "B.f1490"; }
public override string f1491() { return "B.f1491"; }
public override string f1492() { return "B.f1492"; }
public override string f1493() { return "B.f1493"; }
public override string f1494() { return "B.f1494"; }
public override string f1495() { return "B.f1495"; }
public override string f1496() { return "B.f1496"; }
public override string f1497() { return "B.f1497"; }
public override string f1498() { return "B.f1498"; }
public override string f1499() { return "B.f1499"; }
public override string f1500() { return "B.f1500"; }
public override string f1501() { return "B.f1501"; }
public override string f1502() { return "B.f1502"; }
public override string f1503() { return "B.f1503"; }
public override string f1504() { return "B.f1504"; }
public override string f1505() { return "B.f1505"; }
public override string f1506() { return "B.f1506"; }
public override string f1507() { return "B.f1507"; }
public override string f1508() { return "B.f1508"; }
public override string f1509() { return "B.f1509"; }
public override string f1510() { return "B.f1510"; }
public override string f1511() { return "B.f1511"; }
public override string f1512() { return "B.f1512"; }
public override string f1513() { return "B.f1513"; }
public override string f1514() { return "B.f1514"; }
public override string f1515() { return "B.f1515"; }
public override string f1516() { return "B.f1516"; }
public override string f1517() { return "B.f1517"; }
public override string f1518() { return "B.f1518"; }
public override string f1519() { return "B.f1519"; }
public override string f1520() { return "B.f1520"; }
public override string f1521() { return "B.f1521"; }
public override string f1522() { return "B.f1522"; }
public override string f1523() { return "B.f1523"; }
public override string f1524() { return "B.f1524"; }
public override string f1525() { return "B.f1525"; }
public override string f1526() { return "B.f1526"; }
public override string f1527() { return "B.f1527"; }
public override string f1528() { return "B.f1528"; }
public override string f1529() { return "B.f1529"; }
public override string f1530() { return "B.f1530"; }
public override string f1531() { return "B.f1531"; }
public override string f1532() { return "B.f1532"; }
public override string f1533() { return "B.f1533"; }
public override string f1534() { return "B.f1534"; }
public override string f1535() { return "B.f1535"; }
public override string f1536() { return "B.f1536"; }
public override string f1537() { return "B.f1537"; }
public override string f1538() { return "B.f1538"; }
public override string f1539() { return "B.f1539"; }
public override string f1540() { return "B.f1540"; }
public override string f1541() { return "B.f1541"; }
public override string f1542() { return "B.f1542"; }
public override string f1543() { return "B.f1543"; }
public override string f1544() { return "B.f1544"; }
public override string f1545() { return "B.f1545"; }
public override string f1546() { return "B.f1546"; }
public override string f1547() { return "B.f1547"; }
public override string f1548() { return "B.f1548"; }
public override string f1549() { return "B.f1549"; }
public override string f1550() { return "B.f1550"; }
public override string f1551() { return "B.f1551"; }
public override string f1552() { return "B.f1552"; }
public override string f1553() { return "B.f1553"; }
public override string f1554() { return "B.f1554"; }
public override string f1555() { return "B.f1555"; }
public override string f1556() { return "B.f1556"; }
public override string f1557() { return "B.f1557"; }
public override string f1558() { return "B.f1558"; }
public override string f1559() { return "B.f1559"; }
public override string f1560() { return "B.f1560"; }
public override string f1561() { return "B.f1561"; }
public override string f1562() { return "B.f1562"; }
public override string f1563() { return "B.f1563"; }
public override string f1564() { return "B.f1564"; }
public override string f1565() { return "B.f1565"; }
public override string f1566() { return "B.f1566"; }
public override string f1567() { return "B.f1567"; }
public override string f1568() { return "B.f1568"; }
public override string f1569() { return "B.f1569"; }
public override string f1570() { return "B.f1570"; }
public override string f1571() { return "B.f1571"; }
public override string f1572() { return "B.f1572"; }
public override string f1573() { return "B.f1573"; }
public override string f1574() { return "B.f1574"; }
public override string f1575() { return "B.f1575"; }
public override string f1576() { return "B.f1576"; }
public override string f1577() { return "B.f1577"; }
public override string f1578() { return "B.f1578"; }
public override string f1579() { return "B.f1579"; }
public override string f1580() { return "B.f1580"; }
public override string f1581() { return "B.f1581"; }
public override string f1582() { return "B.f1582"; }
public override string f1583() { return "B.f1583"; }
public override string f1584() { return "B.f1584"; }
public override string f1585() { return "B.f1585"; }
public override string f1586() { return "B.f1586"; }
public override string f1587() { return "B.f1587"; }
public override string f1588() { return "B.f1588"; }
public override string f1589() { return "B.f1589"; }
public override string f1590() { return "B.f1590"; }
public override string f1591() { return "B.f1591"; }
public override string f1592() { return "B.f1592"; }
public override string f1593() { return "B.f1593"; }
public override string f1594() { return "B.f1594"; }
public override string f1595() { return "B.f1595"; }
public override string f1596() { return "B.f1596"; }
public override string f1597() { return "B.f1597"; }
public override string f1598() { return "B.f1598"; }
public override string f1599() { return "B.f1599"; }
public override string f1600() { return "B.f1600"; }
public override string f1601() { return "B.f1601"; }
public override string f1602() { return "B.f1602"; }
public override string f1603() { return "B.f1603"; }
public override string f1604() { return "B.f1604"; }
public override string f1605() { return "B.f1605"; }
public override string f1606() { return "B.f1606"; }
public override string f1607() { return "B.f1607"; }
public override string f1608() { return "B.f1608"; }
public override string f1609() { return "B.f1609"; }
public override string f1610() { return "B.f1610"; }
public override string f1611() { return "B.f1611"; }
public override string f1612() { return "B.f1612"; }
public override string f1613() { return "B.f1613"; }
public override string f1614() { return "B.f1614"; }
public override string f1615() { return "B.f1615"; }
public override string f1616() { return "B.f1616"; }
public override string f1617() { return "B.f1617"; }
public override string f1618() { return "B.f1618"; }
public override string f1619() { return "B.f1619"; }
public override string f1620() { return "B.f1620"; }
public override string f1621() { return "B.f1621"; }
public override string f1622() { return "B.f1622"; }
public override string f1623() { return "B.f1623"; }
public override string f1624() { return "B.f1624"; }
public override string f1625() { return "B.f1625"; }
public override string f1626() { return "B.f1626"; }
public override string f1627() { return "B.f1627"; }
public override string f1628() { return "B.f1628"; }
public override string f1629() { return "B.f1629"; }
public override string f1630() { return "B.f1630"; }
public override string f1631() { return "B.f1631"; }
public override string f1632() { return "B.f1632"; }
public override string f1633() { return "B.f1633"; }
public override string f1634() { return "B.f1634"; }
public override string f1635() { return "B.f1635"; }
public override string f1636() { return "B.f1636"; }
public override string f1637() { return "B.f1637"; }
public override string f1638() { return "B.f1638"; }
public override string f1639() { return "B.f1639"; }
public override string f1640() { return "B.f1640"; }
public override string f1641() { return "B.f1641"; }
public override string f1642() { return "B.f1642"; }
public override string f1643() { return "B.f1643"; }
public override string f1644() { return "B.f1644"; }
public override string f1645() { return "B.f1645"; }
public override string f1646() { return "B.f1646"; }
public override string f1647() { return "B.f1647"; }
public override string f1648() { return "B.f1648"; }
public override string f1649() { return "B.f1649"; }
public override string f1650() { return "B.f1650"; }
public override string f1651() { return "B.f1651"; }
public override string f1652() { return "B.f1652"; }
public override string f1653() { return "B.f1653"; }
public override string f1654() { return "B.f1654"; }
public override string f1655() { return "B.f1655"; }
public override string f1656() { return "B.f1656"; }
public override string f1657() { return "B.f1657"; }
public override string f1658() { return "B.f1658"; }
public override string f1659() { return "B.f1659"; }
public override string f1660() { return "B.f1660"; }
public override string f1661() { return "B.f1661"; }
public override string f1662() { return "B.f1662"; }
public override string f1663() { return "B.f1663"; }
public override string f1664() { return "B.f1664"; }
public override string f1665() { return "B.f1665"; }
public override string f1666() { return "B.f1666"; }
public override string f1667() { return "B.f1667"; }
public override string f1668() { return "B.f1668"; }
public override string f1669() { return "B.f1669"; }
public override string f1670() { return "B.f1670"; }
public override string f1671() { return "B.f1671"; }
public override string f1672() { return "B.f1672"; }
public override string f1673() { return "B.f1673"; }
public override string f1674() { return "B.f1674"; }
public override string f1675() { return "B.f1675"; }
public override string f1676() { return "B.f1676"; }
public override string f1677() { return "B.f1677"; }
public override string f1678() { return "B.f1678"; }
public override string f1679() { return "B.f1679"; }
public override string f1680() { return "B.f1680"; }
public override string f1681() { return "B.f1681"; }
public override string f1682() { return "B.f1682"; }
public override string f1683() { return "B.f1683"; }
public override string f1684() { return "B.f1684"; }
public override string f1685() { return "B.f1685"; }
public override string f1686() { return "B.f1686"; }
public override string f1687() { return "B.f1687"; }
public override string f1688() { return "B.f1688"; }
public override string f1689() { return "B.f1689"; }
public override string f1690() { return "B.f1690"; }
public override string f1691() { return "B.f1691"; }
public override string f1692() { return "B.f1692"; }
public override string f1693() { return "B.f1693"; }
public override string f1694() { return "B.f1694"; }
public override string f1695() { return "B.f1695"; }
public override string f1696() { return "B.f1696"; }
public override string f1697() { return "B.f1697"; }
public override string f1698() { return "B.f1698"; }
public override string f1699() { return "B.f1699"; }
public override string f1700() { return "B.f1700"; }
public override string f1701() { return "B.f1701"; }
public override string f1702() { return "B.f1702"; }
public override string f1703() { return "B.f1703"; }
public override string f1704() { return "B.f1704"; }
public override string f1705() { return "B.f1705"; }
public override string f1706() { return "B.f1706"; }
public override string f1707() { return "B.f1707"; }
public override string f1708() { return "B.f1708"; }
public override string f1709() { return "B.f1709"; }
public override string f1710() { return "B.f1710"; }
public override string f1711() { return "B.f1711"; }
public override string f1712() { return "B.f1712"; }
public override string f1713() { return "B.f1713"; }
public override string f1714() { return "B.f1714"; }
public override string f1715() { return "B.f1715"; }
public override string f1716() { return "B.f1716"; }
public override string f1717() { return "B.f1717"; }
public override string f1718() { return "B.f1718"; }
public override string f1719() { return "B.f1719"; }
public override string f1720() { return "B.f1720"; }
public override string f1721() { return "B.f1721"; }
public override string f1722() { return "B.f1722"; }
public override string f1723() { return "B.f1723"; }
public override string f1724() { return "B.f1724"; }
public override string f1725() { return "B.f1725"; }
public override string f1726() { return "B.f1726"; }
public override string f1727() { return "B.f1727"; }
public override string f1728() { return "B.f1728"; }
public override string f1729() { return "B.f1729"; }
public override string f1730() { return "B.f1730"; }
public override string f1731() { return "B.f1731"; }
public override string f1732() { return "B.f1732"; }
public override string f1733() { return "B.f1733"; }
public override string f1734() { return "B.f1734"; }
public override string f1735() { return "B.f1735"; }
public override string f1736() { return "B.f1736"; }
public override string f1737() { return "B.f1737"; }
public override string f1738() { return "B.f1738"; }
public override string f1739() { return "B.f1739"; }
public override string f1740() { return "B.f1740"; }
public override string f1741() { return "B.f1741"; }
public override string f1742() { return "B.f1742"; }
public override string f1743() { return "B.f1743"; }
public override string f1744() { return "B.f1744"; }
public override string f1745() { return "B.f1745"; }
public override string f1746() { return "B.f1746"; }
public override string f1747() { return "B.f1747"; }
public override string f1748() { return "B.f1748"; }
public override string f1749() { return "B.f1749"; }
public override string f1750() { return "B.f1750"; }
public override string f1751() { return "B.f1751"; }
public override string f1752() { return "B.f1752"; }
public override string f1753() { return "B.f1753"; }
public override string f1754() { return "B.f1754"; }
public override string f1755() { return "B.f1755"; }
public override string f1756() { return "B.f1756"; }
public override string f1757() { return "B.f1757"; }
public override string f1758() { return "B.f1758"; }
public override string f1759() { return "B.f1759"; }
public override string f1760() { return "B.f1760"; }
public override string f1761() { return "B.f1761"; }
public override string f1762() { return "B.f1762"; }
public override string f1763() { return "B.f1763"; }
public override string f1764() { return "B.f1764"; }
public override string f1765() { return "B.f1765"; }
public override string f1766() { return "B.f1766"; }
public override string f1767() { return "B.f1767"; }
public override string f1768() { return "B.f1768"; }
public override string f1769() { return "B.f1769"; }
public override string f1770() { return "B.f1770"; }
public override string f1771() { return "B.f1771"; }
public override string f1772() { return "B.f1772"; }
public override string f1773() { return "B.f1773"; }
public override string f1774() { return "B.f1774"; }
public override string f1775() { return "B.f1775"; }
public override string f1776() { return "B.f1776"; }
public override string f1777() { return "B.f1777"; }
public override string f1778() { return "B.f1778"; }
public override string f1779() { return "B.f1779"; }
public override string f1780() { return "B.f1780"; }
public override string f1781() { return "B.f1781"; }
public override string f1782() { return "B.f1782"; }
public override string f1783() { return "B.f1783"; }
public override string f1784() { return "B.f1784"; }
public override string f1785() { return "B.f1785"; }
public override string f1786() { return "B.f1786"; }
public override string f1787() { return "B.f1787"; }
public override string f1788() { return "B.f1788"; }
public override string f1789() { return "B.f1789"; }
public override string f1790() { return "B.f1790"; }
public override string f1791() { return "B.f1791"; }
public override string f1792() { return "B.f1792"; }
public override string f1793() { return "B.f1793"; }
public override string f1794() { return "B.f1794"; }
public override string f1795() { return "B.f1795"; }
public override string f1796() { return "B.f1796"; }
public override string f1797() { return "B.f1797"; }
public override string f1798() { return "B.f1798"; }
public override string f1799() { return "B.f1799"; }
public override string f1800() { return "B.f1800"; }
public override string f1801() { return "B.f1801"; }
public override string f1802() { return "B.f1802"; }
public override string f1803() { return "B.f1803"; }
public override string f1804() { return "B.f1804"; }
public override string f1805() { return "B.f1805"; }
public override string f1806() { return "B.f1806"; }
public override string f1807() { return "B.f1807"; }
public override string f1808() { return "B.f1808"; }
public override string f1809() { return "B.f1809"; }
public override string f1810() { return "B.f1810"; }
public override string f1811() { return "B.f1811"; }
public override string f1812() { return "B.f1812"; }
public override string f1813() { return "B.f1813"; }
public override string f1814() { return "B.f1814"; }
public override string f1815() { return "B.f1815"; }
public override string f1816() { return "B.f1816"; }
public override string f1817() { return "B.f1817"; }
public override string f1818() { return "B.f1818"; }
public override string f1819() { return "B.f1819"; }
public override string f1820() { return "B.f1820"; }
public override string f1821() { return "B.f1821"; }
public override string f1822() { return "B.f1822"; }
public override string f1823() { return "B.f1823"; }
public override string f1824() { return "B.f1824"; }
public override string f1825() { return "B.f1825"; }
public override string f1826() { return "B.f1826"; }
public override string f1827() { return "B.f1827"; }
public override string f1828() { return "B.f1828"; }
public override string f1829() { return "B.f1829"; }
public override string f1830() { return "B.f1830"; }
public override string f1831() { return "B.f1831"; }
public override string f1832() { return "B.f1832"; }
public override string f1833() { return "B.f1833"; }
public override string f1834() { return "B.f1834"; }
public override string f1835() { return "B.f1835"; }
public override string f1836() { return "B.f1836"; }
public override string f1837() { return "B.f1837"; }
public override string f1838() { return "B.f1838"; }
public override string f1839() { return "B.f1839"; }
public override string f1840() { return "B.f1840"; }
public override string f1841() { return "B.f1841"; }
public override string f1842() { return "B.f1842"; }
public override string f1843() { return "B.f1843"; }
public override string f1844() { return "B.f1844"; }
public override string f1845() { return "B.f1845"; }
public override string f1846() { return "B.f1846"; }
public override string f1847() { return "B.f1847"; }
public override string f1848() { return "B.f1848"; }
public override string f1849() { return "B.f1849"; }
public override string f1850() { return "B.f1850"; }
public override string f1851() { return "B.f1851"; }
public override string f1852() { return "B.f1852"; }
public override string f1853() { return "B.f1853"; }
public override string f1854() { return "B.f1854"; }
public override string f1855() { return "B.f1855"; }
public override string f1856() { return "B.f1856"; }
public override string f1857() { return "B.f1857"; }
public override string f1858() { return "B.f1858"; }
public override string f1859() { return "B.f1859"; }
public override string f1860() { return "B.f1860"; }
public override string f1861() { return "B.f1861"; }
public override string f1862() { return "B.f1862"; }
public override string f1863() { return "B.f1863"; }
public override string f1864() { return "B.f1864"; }
public override string f1865() { return "B.f1865"; }
public override string f1866() { return "B.f1866"; }
public override string f1867() { return "B.f1867"; }
public override string f1868() { return "B.f1868"; }
public override string f1869() { return "B.f1869"; }
public override string f1870() { return "B.f1870"; }
public override string f1871() { return "B.f1871"; }
public override string f1872() { return "B.f1872"; }
public override string f1873() { return "B.f1873"; }
public override string f1874() { return "B.f1874"; }
public override string f1875() { return "B.f1875"; }
public override string f1876() { return "B.f1876"; }
public override string f1877() { return "B.f1877"; }
public override string f1878() { return "B.f1878"; }
public override string f1879() { return "B.f1879"; }
public override string f1880() { return "B.f1880"; }
public override string f1881() { return "B.f1881"; }
public override string f1882() { return "B.f1882"; }
public override string f1883() { return "B.f1883"; }
public override string f1884() { return "B.f1884"; }
public override string f1885() { return "B.f1885"; }
public override string f1886() { return "B.f1886"; }
public override string f1887() { return "B.f1887"; }
public override string f1888() { return "B.f1888"; }
public override string f1889() { return "B.f1889"; }
public override string f1890() { return "B.f1890"; }
public override string f1891() { return "B.f1891"; }
public override string f1892() { return "B.f1892"; }
public override string f1893() { return "B.f1893"; }
public override string f1894() { return "B.f1894"; }
public override string f1895() { return "B.f1895"; }
public override string f1896() { return "B.f1896"; }
public override string f1897() { return "B.f1897"; }
public override string f1898() { return "B.f1898"; }
public override string f1899() { return "B.f1899"; }
public override string f1900() { return "B.f1900"; }
public override string f1901() { return "B.f1901"; }
public override string f1902() { return "B.f1902"; }
public override string f1903() { return "B.f1903"; }
public override string f1904() { return "B.f1904"; }
public override string f1905() { return "B.f1905"; }
public override string f1906() { return "B.f1906"; }
public override string f1907() { return "B.f1907"; }
public override string f1908() { return "B.f1908"; }
public override string f1909() { return "B.f1909"; }
public override string f1910() { return "B.f1910"; }
public override string f1911() { return "B.f1911"; }
public override string f1912() { return "B.f1912"; }
public override string f1913() { return "B.f1913"; }
public override string f1914() { return "B.f1914"; }
public override string f1915() { return "B.f1915"; }
public override string f1916() { return "B.f1916"; }
public override string f1917() { return "B.f1917"; }
public override string f1918() { return "B.f1918"; }
public override string f1919() { return "B.f1919"; }
public override string f1920() { return "B.f1920"; }
public override string f1921() { return "B.f1921"; }
public override string f1922() { return "B.f1922"; }
public override string f1923() { return "B.f1923"; }
public override string f1924() { return "B.f1924"; }
public override string f1925() { return "B.f1925"; }
public override string f1926() { return "B.f1926"; }
public override string f1927() { return "B.f1927"; }
public override string f1928() { return "B.f1928"; }
public override string f1929() { return "B.f1929"; }
public override string f1930() { return "B.f1930"; }
public override string f1931() { return "B.f1931"; }
public override string f1932() { return "B.f1932"; }
public override string f1933() { return "B.f1933"; }
public override string f1934() { return "B.f1934"; }
public override string f1935() { return "B.f1935"; }
public override string f1936() { return "B.f1936"; }
public override string f1937() { return "B.f1937"; }
public override string f1938() { return "B.f1938"; }
public override string f1939() { return "B.f1939"; }
public override string f1940() { return "B.f1940"; }
public override string f1941() { return "B.f1941"; }
public override string f1942() { return "B.f1942"; }
public override string f1943() { return "B.f1943"; }
public override string f1944() { return "B.f1944"; }
public override string f1945() { return "B.f1945"; }
public override string f1946() { return "B.f1946"; }
public override string f1947() { return "B.f1947"; }
public override string f1948() { return "B.f1948"; }
public override string f1949() { return "B.f1949"; }
public override string f1950() { return "B.f1950"; }
public override string f1951() { return "B.f1951"; }
public override string f1952() { return "B.f1952"; }
public override string f1953() { return "B.f1953"; }
public override string f1954() { return "B.f1954"; }
public override string f1955() { return "B.f1955"; }
public override string f1956() { return "B.f1956"; }
public override string f1957() { return "B.f1957"; }
public override string f1958() { return "B.f1958"; }
public override string f1959() { return "B.f1959"; }
public override string f1960() { return "B.f1960"; }
public override string f1961() { return "B.f1961"; }
public override string f1962() { return "B.f1962"; }
public override string f1963() { return "B.f1963"; }
public override string f1964() { return "B.f1964"; }
public override string f1965() { return "B.f1965"; }
public override string f1966() { return "B.f1966"; }
public override string f1967() { return "B.f1967"; }
public override string f1968() { return "B.f1968"; }
public override string f1969() { return "B.f1969"; }
public override string f1970() { return "B.f1970"; }
public override string f1971() { return "B.f1971"; }
public override string f1972() { return "B.f1972"; }
public override string f1973() { return "B.f1973"; }
public override string f1974() { return "B.f1974"; }
public override string f1975() { return "B.f1975"; }
public override string f1976() { return "B.f1976"; }
public override string f1977() { return "B.f1977"; }
public override string f1978() { return "B.f1978"; }
public override string f1979() { return "B.f1979"; }
public override string f1980() { return "B.f1980"; }
public override string f1981() { return "B.f1981"; }
public override string f1982() { return "B.f1982"; }
public override string f1983() { return "B.f1983"; }
public override string f1984() { return "B.f1984"; }
public override string f1985() { return "B.f1985"; }
public override string f1986() { return "B.f1986"; }
public override string f1987() { return "B.f1987"; }
public override string f1988() { return "B.f1988"; }
public override string f1989() { return "B.f1989"; }
public override string f1990() { return "B.f1990"; }
public override string f1991() { return "B.f1991"; }
public override string f1992() { return "B.f1992"; }
public override string f1993() { return "B.f1993"; }
public override string f1994() { return "B.f1994"; }
public override string f1995() { return "B.f1995"; }
public override string f1996() { return "B.f1996"; }
public override string f1997() { return "B.f1997"; }
public override string f1998() { return "B.f1998"; }
public override string f1999() { return "B.f1999"; }
public override string f2000() { return "B.f2000"; }
public override string f2001() { return "B.f2001"; }
public override string f2002() { return "B.f2002"; }
public override string f2003() { return "B.f2003"; }
public override string f2004() { return "B.f2004"; }
public override string f2005() { return "B.f2005"; }
public override string f2006() { return "B.f2006"; }
public override string f2007() { return "B.f2007"; }
public override string f2008() { return "B.f2008"; }
public override string f2009() { return "B.f2009"; }
public override string f2010() { return "B.f2010"; }
public override string f2011() { return "B.f2011"; }
public override string f2012() { return "B.f2012"; }
public override string f2013() { return "B.f2013"; }
public override string f2014() { return "B.f2014"; }
public override string f2015() { return "B.f2015"; }
public override string f2016() { return "B.f2016"; }
public override string f2017() { return "B.f2017"; }
public override string f2018() { return "B.f2018"; }
public override string f2019() { return "B.f2019"; }
public override string f2020() { return "B.f2020"; }
public override string f2021() { return "B.f2021"; }
public override string f2022() { return "B.f2022"; }
public override string f2023() { return "B.f2023"; }
public override string f2024() { return "B.f2024"; }
public override string f2025() { return "B.f2025"; }
public override string f2026() { return "B.f2026"; }
public override string f2027() { return "B.f2027"; }
public override string f2028() { return "B.f2028"; }
public override string f2029() { return "B.f2029"; }
public override string f2030() { return "B.f2030"; }
public override string f2031() { return "B.f2031"; }
public override string f2032() { return "B.f2032"; }
public override string f2033() { return "B.f2033"; }
public override string f2034() { return "B.f2034"; }
public override string f2035() { return "B.f2035"; }
public override string f2036() { return "B.f2036"; }
public override string f2037() { return "B.f2037"; }
public override string f2038() { return "B.f2038"; }
public override string f2039() { return "B.f2039"; }
public override string f2040() { return "B.f2040"; }
public override string f2041() { return "B.f2041"; }
public override string f2042() { return "B.f2042"; }
public override string f2043() { return "B.f2043"; }
public override string f2044() { return "B.f2044"; }
public override string f2045() { return "B.f2045"; }
public override string f2046() { return "B.f2046"; }
public override string f2047() { return "B.f2047"; }
public override string f2048() { return "B.f2048"; }
public override string f2049() { return "B.f2049"; }
public override string f2050() { return "B.f2050"; }
public override string f2051() { return "B.f2051"; }
public override string f2052() { return "B.f2052"; }
public override string f2053() { return "B.f2053"; }
public override string f2054() { return "B.f2054"; }
public override string f2055() { return "B.f2055"; }
public override string f2056() { return "B.f2056"; }
public override string f2057() { return "B.f2057"; }
public override string f2058() { return "B.f2058"; }
public override string f2059() { return "B.f2059"; }
public override string f2060() { return "B.f2060"; }
public override string f2061() { return "B.f2061"; }
public override string f2062() { return "B.f2062"; }
public override string f2063() { return "B.f2063"; }
public override string f2064() { return "B.f2064"; }
public override string f2065() { return "B.f2065"; }
public override string f2066() { return "B.f2066"; }
public override string f2067() { return "B.f2067"; }
public override string f2068() { return "B.f2068"; }
public override string f2069() { return "B.f2069"; }
public override string f2070() { return "B.f2070"; }
public override string f2071() { return "B.f2071"; }
public override string f2072() { return "B.f2072"; }
public override string f2073() { return "B.f2073"; }
public override string f2074() { return "B.f2074"; }
public override string f2075() { return "B.f2075"; }
public override string f2076() { return "B.f2076"; }
public override string f2077() { return "B.f2077"; }
public override string f2078() { return "B.f2078"; }
public override string f2079() { return "B.f2079"; }
public override string f2080() { return "B.f2080"; }
public override string f2081() { return "B.f2081"; }
public override string f2082() { return "B.f2082"; }
public override string f2083() { return "B.f2083"; }
public override string f2084() { return "B.f2084"; }
public override string f2085() { return "B.f2085"; }
public override string f2086() { return "B.f2086"; }
public override string f2087() { return "B.f2087"; }
public override string f2088() { return "B.f2088"; }
public override string f2089() { return "B.f2089"; }
public override string f2090() { return "B.f2090"; }
public override string f2091() { return "B.f2091"; }
public override string f2092() { return "B.f2092"; }
public override string f2093() { return "B.f2093"; }
public override string f2094() { return "B.f2094"; }
public override string f2095() { return "B.f2095"; }
public override string f2096() { return "B.f2096"; }
public override string f2097() { return "B.f2097"; }
public override string f2098() { return "B.f2098"; }
public override string f2099() { return "B.f2099"; }
public override string f2100() { return "B.f2100"; }
public override string f2101() { return "B.f2101"; }
public override string f2102() { return "B.f2102"; }
public override string f2103() { return "B.f2103"; }
public override string f2104() { return "B.f2104"; }
public override string f2105() { return "B.f2105"; }
public override string f2106() { return "B.f2106"; }
public override string f2107() { return "B.f2107"; }
public override string f2108() { return "B.f2108"; }
public override string f2109() { return "B.f2109"; }
public override string f2110() { return "B.f2110"; }
public override string f2111() { return "B.f2111"; }
public override string f2112() { return "B.f2112"; }
public override string f2113() { return "B.f2113"; }
public override string f2114() { return "B.f2114"; }
public override string f2115() { return "B.f2115"; }
public override string f2116() { return "B.f2116"; }
public override string f2117() { return "B.f2117"; }
public override string f2118() { return "B.f2118"; }
public override string f2119() { return "B.f2119"; }
public override string f2120() { return "B.f2120"; }
public override string f2121() { return "B.f2121"; }
public override string f2122() { return "B.f2122"; }
public override string f2123() { return "B.f2123"; }
public override string f2124() { return "B.f2124"; }
public override string f2125() { return "B.f2125"; }
public override string f2126() { return "B.f2126"; }
public override string f2127() { return "B.f2127"; }
public override string f2128() { return "B.f2128"; }
public override string f2129() { return "B.f2129"; }
public override string f2130() { return "B.f2130"; }
public override string f2131() { return "B.f2131"; }
public override string f2132() { return "B.f2132"; }
public override string f2133() { return "B.f2133"; }
public override string f2134() { return "B.f2134"; }
public override string f2135() { return "B.f2135"; }
public override string f2136() { return "B.f2136"; }
public override string f2137() { return "B.f2137"; }
public override string f2138() { return "B.f2138"; }
public override string f2139() { return "B.f2139"; }
public override string f2140() { return "B.f2140"; }
public override string f2141() { return "B.f2141"; }
public override string f2142() { return "B.f2142"; }
public override string f2143() { return "B.f2143"; }
public override string f2144() { return "B.f2144"; }
public override string f2145() { return "B.f2145"; }
public override string f2146() { return "B.f2146"; }
public override string f2147() { return "B.f2147"; }
public override string f2148() { return "B.f2148"; }
public override string f2149() { return "B.f2149"; }
public override string f2150() { return "B.f2150"; }
public override string f2151() { return "B.f2151"; }
public override string f2152() { return "B.f2152"; }
public override string f2153() { return "B.f2153"; }
public override string f2154() { return "B.f2154"; }
public override string f2155() { return "B.f2155"; }
public override string f2156() { return "B.f2156"; }
public override string f2157() { return "B.f2157"; }
public override string f2158() { return "B.f2158"; }
public override string f2159() { return "B.f2159"; }
public override string f2160() { return "B.f2160"; }
public override string f2161() { return "B.f2161"; }
public override string f2162() { return "B.f2162"; }
public override string f2163() { return "B.f2163"; }
public override string f2164() { return "B.f2164"; }
public override string f2165() { return "B.f2165"; }
public override string f2166() { return "B.f2166"; }
public override string f2167() { return "B.f2167"; }
public override string f2168() { return "B.f2168"; }
public override string f2169() { return "B.f2169"; }
public override string f2170() { return "B.f2170"; }
public override string f2171() { return "B.f2171"; }
public override string f2172() { return "B.f2172"; }
public override string f2173() { return "B.f2173"; }
public override string f2174() { return "B.f2174"; }
public override string f2175() { return "B.f2175"; }
public override string f2176() { return "B.f2176"; }
public override string f2177() { return "B.f2177"; }
public override string f2178() { return "B.f2178"; }
public override string f2179() { return "B.f2179"; }
public override string f2180() { return "B.f2180"; }
public override string f2181() { return "B.f2181"; }
public override string f2182() { return "B.f2182"; }
public override string f2183() { return "B.f2183"; }
public override string f2184() { return "B.f2184"; }
public override string f2185() { return "B.f2185"; }
public override string f2186() { return "B.f2186"; }
public override string f2187() { return "B.f2187"; }
public override string f2188() { return "B.f2188"; }
public override string f2189() { return "B.f2189"; }
public override string f2190() { return "B.f2190"; }
public override string f2191() { return "B.f2191"; }
public override string f2192() { return "B.f2192"; }
public override string f2193() { return "B.f2193"; }
public override string f2194() { return "B.f2194"; }
public override string f2195() { return "B.f2195"; }
public override string f2196() { return "B.f2196"; }
public override string f2197() { return "B.f2197"; }
public override string f2198() { return "B.f2198"; }
public override string f2199() { return "B.f2199"; }
public override string f2200() { return "B.f2200"; }
public override string f2201() { return "B.f2201"; }
public override string f2202() { return "B.f2202"; }
public override string f2203() { return "B.f2203"; }
public override string f2204() { return "B.f2204"; }
public override string f2205() { return "B.f2205"; }
public override string f2206() { return "B.f2206"; }
public override string f2207() { return "B.f2207"; }
public override string f2208() { return "B.f2208"; }
public override string f2209() { return "B.f2209"; }
public override string f2210() { return "B.f2210"; }
public override string f2211() { return "B.f2211"; }
public override string f2212() { return "B.f2212"; }
public override string f2213() { return "B.f2213"; }
public override string f2214() { return "B.f2214"; }
public override string f2215() { return "B.f2215"; }
public override string f2216() { return "B.f2216"; }
public override string f2217() { return "B.f2217"; }
public override string f2218() { return "B.f2218"; }
public override string f2219() { return "B.f2219"; }
public override string f2220() { return "B.f2220"; }
public override string f2221() { return "B.f2221"; }
public override string f2222() { return "B.f2222"; }
public override string f2223() { return "B.f2223"; }
public override string f2224() { return "B.f2224"; }
public override string f2225() { return "B.f2225"; }
public override string f2226() { return "B.f2226"; }
public override string f2227() { return "B.f2227"; }
public override string f2228() { return "B.f2228"; }
public override string f2229() { return "B.f2229"; }
public override string f2230() { return "B.f2230"; }
public override string f2231() { return "B.f2231"; }
public override string f2232() { return "B.f2232"; }
public override string f2233() { return "B.f2233"; }
public override string f2234() { return "B.f2234"; }
public override string f2235() { return "B.f2235"; }
public override string f2236() { return "B.f2236"; }
public override string f2237() { return "B.f2237"; }
public override string f2238() { return "B.f2238"; }
public override string f2239() { return "B.f2239"; }
public override string f2240() { return "B.f2240"; }
public override string f2241() { return "B.f2241"; }
public override string f2242() { return "B.f2242"; }
public override string f2243() { return "B.f2243"; }
public override string f2244() { return "B.f2244"; }
public override string f2245() { return "B.f2245"; }
public override string f2246() { return "B.f2246"; }
public override string f2247() { return "B.f2247"; }
public override string f2248() { return "B.f2248"; }
public override string f2249() { return "B.f2249"; }
public override string f2250() { return "B.f2250"; }
public override string f2251() { return "B.f2251"; }
public override string f2252() { return "B.f2252"; }
public override string f2253() { return "B.f2253"; }
public override string f2254() { return "B.f2254"; }
public override string f2255() { return "B.f2255"; }
public override string f2256() { return "B.f2256"; }
public override string f2257() { return "B.f2257"; }
public override string f2258() { return "B.f2258"; }
public override string f2259() { return "B.f2259"; }
public override string f2260() { return "B.f2260"; }
public override string f2261() { return "B.f2261"; }
public override string f2262() { return "B.f2262"; }
public override string f2263() { return "B.f2263"; }
public override string f2264() { return "B.f2264"; }
public override string f2265() { return "B.f2265"; }
public override string f2266() { return "B.f2266"; }
public override string f2267() { return "B.f2267"; }
public override string f2268() { return "B.f2268"; }
public override string f2269() { return "B.f2269"; }
public override string f2270() { return "B.f2270"; }
public override string f2271() { return "B.f2271"; }
public override string f2272() { return "B.f2272"; }
public override string f2273() { return "B.f2273"; }
public override string f2274() { return "B.f2274"; }
public override string f2275() { return "B.f2275"; }
public override string f2276() { return "B.f2276"; }
public override string f2277() { return "B.f2277"; }
public override string f2278() { return "B.f2278"; }
public override string f2279() { return "B.f2279"; }
public override string f2280() { return "B.f2280"; }
public override string f2281() { return "B.f2281"; }
public override string f2282() { return "B.f2282"; }
public override string f2283() { return "B.f2283"; }
public override string f2284() { return "B.f2284"; }
public override string f2285() { return "B.f2285"; }
public override string f2286() { return "B.f2286"; }
public override string f2287() { return "B.f2287"; }
public override string f2288() { return "B.f2288"; }
public override string f2289() { return "B.f2289"; }
public override string f2290() { return "B.f2290"; }
public override string f2291() { return "B.f2291"; }
public override string f2292() { return "B.f2292"; }
public override string f2293() { return "B.f2293"; }
public override string f2294() { return "B.f2294"; }
public override string f2295() { return "B.f2295"; }
public override string f2296() { return "B.f2296"; }
public override string f2297() { return "B.f2297"; }
public override string f2298() { return "B.f2298"; }
public override string f2299() { return "B.f2299"; }
public override string f2300() { return "B.f2300"; }
public override string f2301() { return "B.f2301"; }
public override string f2302() { return "B.f2302"; }
public override string f2303() { return "B.f2303"; }
public override string f2304() { return "B.f2304"; }
public override string f2305() { return "B.f2305"; }
public override string f2306() { return "B.f2306"; }
public override string f2307() { return "B.f2307"; }
public override string f2308() { return "B.f2308"; }
public override string f2309() { return "B.f2309"; }
public override string f2310() { return "B.f2310"; }
public override string f2311() { return "B.f2311"; }
public override string f2312() { return "B.f2312"; }
public override string f2313() { return "B.f2313"; }
public override string f2314() { return "B.f2314"; }
public override string f2315() { return "B.f2315"; }
public override string f2316() { return "B.f2316"; }
public override string f2317() { return "B.f2317"; }
public override string f2318() { return "B.f2318"; }
public override string f2319() { return "B.f2319"; }
public override string f2320() { return "B.f2320"; }
public override string f2321() { return "B.f2321"; }
public override string f2322() { return "B.f2322"; }
public override string f2323() { return "B.f2323"; }
public override string f2324() { return "B.f2324"; }
public override string f2325() { return "B.f2325"; }
public override string f2326() { return "B.f2326"; }
public override string f2327() { return "B.f2327"; }
public override string f2328() { return "B.f2328"; }
public override string f2329() { return "B.f2329"; }
public override string f2330() { return "B.f2330"; }
public override string f2331() { return "B.f2331"; }
public override string f2332() { return "B.f2332"; }
public override string f2333() { return "B.f2333"; }
public override string f2334() { return "B.f2334"; }
public override string f2335() { return "B.f2335"; }
public override string f2336() { return "B.f2336"; }
public override string f2337() { return "B.f2337"; }
public override string f2338() { return "B.f2338"; }
public override string f2339() { return "B.f2339"; }
public override string f2340() { return "B.f2340"; }
public override string f2341() { return "B.f2341"; }
public override string f2342() { return "B.f2342"; }
public override string f2343() { return "B.f2343"; }
public override string f2344() { return "B.f2344"; }
public override string f2345() { return "B.f2345"; }
public override string f2346() { return "B.f2346"; }
public override string f2347() { return "B.f2347"; }
public override string f2348() { return "B.f2348"; }
public override string f2349() { return "B.f2349"; }
public override string f2350() { return "B.f2350"; }
public override string f2351() { return "B.f2351"; }
public override string f2352() { return "B.f2352"; }
public override string f2353() { return "B.f2353"; }
public override string f2354() { return "B.f2354"; }
public override string f2355() { return "B.f2355"; }
public override string f2356() { return "B.f2356"; }
public override string f2357() { return "B.f2357"; }
public override string f2358() { return "B.f2358"; }
public override string f2359() { return "B.f2359"; }
public override string f2360() { return "B.f2360"; }
public override string f2361() { return "B.f2361"; }
public override string f2362() { return "B.f2362"; }
public override string f2363() { return "B.f2363"; }
public override string f2364() { return "B.f2364"; }
public override string f2365() { return "B.f2365"; }
public override string f2366() { return "B.f2366"; }
public override string f2367() { return "B.f2367"; }
public override string f2368() { return "B.f2368"; }
public override string f2369() { return "B.f2369"; }
public override string f2370() { return "B.f2370"; }
public override string f2371() { return "B.f2371"; }
public override string f2372() { return "B.f2372"; }
public override string f2373() { return "B.f2373"; }
public override string f2374() { return "B.f2374"; }
public override string f2375() { return "B.f2375"; }
public override string f2376() { return "B.f2376"; }
public override string f2377() { return "B.f2377"; }
public override string f2378() { return "B.f2378"; }
public override string f2379() { return "B.f2379"; }
public override string f2380() { return "B.f2380"; }
public override string f2381() { return "B.f2381"; }
public override string f2382() { return "B.f2382"; }
public override string f2383() { return "B.f2383"; }
public override string f2384() { return "B.f2384"; }
public override string f2385() { return "B.f2385"; }
public override string f2386() { return "B.f2386"; }
public override string f2387() { return "B.f2387"; }
public override string f2388() { return "B.f2388"; }
public override string f2389() { return "B.f2389"; }
public override string f2390() { return "B.f2390"; }
public override string f2391() { return "B.f2391"; }
public override string f2392() { return "B.f2392"; }
public override string f2393() { return "B.f2393"; }
public override string f2394() { return "B.f2394"; }
public override string f2395() { return "B.f2395"; }
public override string f2396() { return "B.f2396"; }
public override string f2397() { return "B.f2397"; }
public override string f2398() { return "B.f2398"; }
public override string f2399() { return "B.f2399"; }
public override string f2400() { return "B.f2400"; }
public override string f2401() { return "B.f2401"; }
public override string f2402() { return "B.f2402"; }
public override string f2403() { return "B.f2403"; }
public override string f2404() { return "B.f2404"; }
public override string f2405() { return "B.f2405"; }
public override string f2406() { return "B.f2406"; }
public override string f2407() { return "B.f2407"; }
public override string f2408() { return "B.f2408"; }
public override string f2409() { return "B.f2409"; }
public override string f2410() { return "B.f2410"; }
public override string f2411() { return "B.f2411"; }
public override string f2412() { return "B.f2412"; }
public override string f2413() { return "B.f2413"; }
public override string f2414() { return "B.f2414"; }
public override string f2415() { return "B.f2415"; }
public override string f2416() { return "B.f2416"; }
public override string f2417() { return "B.f2417"; }
public override string f2418() { return "B.f2418"; }
public override string f2419() { return "B.f2419"; }
public override string f2420() { return "B.f2420"; }
public override string f2421() { return "B.f2421"; }
public override string f2422() { return "B.f2422"; }
public override string f2423() { return "B.f2423"; }
public override string f2424() { return "B.f2424"; }
public override string f2425() { return "B.f2425"; }
public override string f2426() { return "B.f2426"; }
public override string f2427() { return "B.f2427"; }
public override string f2428() { return "B.f2428"; }
public override string f2429() { return "B.f2429"; }
public override string f2430() { return "B.f2430"; }
public override string f2431() { return "B.f2431"; }
public override string f2432() { return "B.f2432"; }
public override string f2433() { return "B.f2433"; }
public override string f2434() { return "B.f2434"; }
public override string f2435() { return "B.f2435"; }
public override string f2436() { return "B.f2436"; }
public override string f2437() { return "B.f2437"; }
public override string f2438() { return "B.f2438"; }
public override string f2439() { return "B.f2439"; }
public override string f2440() { return "B.f2440"; }
public override string f2441() { return "B.f2441"; }
public override string f2442() { return "B.f2442"; }
public override string f2443() { return "B.f2443"; }
public override string f2444() { return "B.f2444"; }
public override string f2445() { return "B.f2445"; }
public override string f2446() { return "B.f2446"; }
public override string f2447() { return "B.f2447"; }
public override string f2448() { return "B.f2448"; }
public override string f2449() { return "B.f2449"; }
public override string f2450() { return "B.f2450"; }
public override string f2451() { return "B.f2451"; }
public override string f2452() { return "B.f2452"; }
public override string f2453() { return "B.f2453"; }
public override string f2454() { return "B.f2454"; }
public override string f2455() { return "B.f2455"; }
public override string f2456() { return "B.f2456"; }
public override string f2457() { return "B.f2457"; }
public override string f2458() { return "B.f2458"; }
public override string f2459() { return "B.f2459"; }
public override string f2460() { return "B.f2460"; }
public override string f2461() { return "B.f2461"; }
public override string f2462() { return "B.f2462"; }
public override string f2463() { return "B.f2463"; }
public override string f2464() { return "B.f2464"; }
public override string f2465() { return "B.f2465"; }
public override string f2466() { return "B.f2466"; }
public override string f2467() { return "B.f2467"; }
public override string f2468() { return "B.f2468"; }
public override string f2469() { return "B.f2469"; }
public override string f2470() { return "B.f2470"; }
public override string f2471() { return "B.f2471"; }
public override string f2472() { return "B.f2472"; }
public override string f2473() { return "B.f2473"; }
public override string f2474() { return "B.f2474"; }
public override string f2475() { return "B.f2475"; }
public override string f2476() { return "B.f2476"; }
public override string f2477() { return "B.f2477"; }
public override string f2478() { return "B.f2478"; }
public override string f2479() { return "B.f2479"; }
public override string f2480() { return "B.f2480"; }
public override string f2481() { return "B.f2481"; }
public override string f2482() { return "B.f2482"; }
public override string f2483() { return "B.f2483"; }
public override string f2484() { return "B.f2484"; }
public override string f2485() { return "B.f2485"; }
public override string f2486() { return "B.f2486"; }
public override string f2487() { return "B.f2487"; }
public override string f2488() { return "B.f2488"; }
public override string f2489() { return "B.f2489"; }
public override string f2490() { return "B.f2490"; }
public override string f2491() { return "B.f2491"; }
public override string f2492() { return "B.f2492"; }
public override string f2493() { return "B.f2493"; }
public override string f2494() { return "B.f2494"; }
public override string f2495() { return "B.f2495"; }
public override string f2496() { return "B.f2496"; }
public override string f2497() { return "B.f2497"; }
public override string f2498() { return "B.f2498"; }
public override string f2499() { return "B.f2499"; }
public override string f2500() { return "B.f2500"; }
public override string f2501() { return "B.f2501"; }
public override string f2502() { return "B.f2502"; }
public override string f2503() { return "B.f2503"; }
public override string f2504() { return "B.f2504"; }
public override string f2505() { return "B.f2505"; }
public override string f2506() { return "B.f2506"; }
public override string f2507() { return "B.f2507"; }
public override string f2508() { return "B.f2508"; }
public override string f2509() { return "B.f2509"; }
public override string f2510() { return "B.f2510"; }
public override string f2511() { return "B.f2511"; }
public override string f2512() { return "B.f2512"; }
public override string f2513() { return "B.f2513"; }
public override string f2514() { return "B.f2514"; }
public override string f2515() { return "B.f2515"; }
public override string f2516() { return "B.f2516"; }
public override string f2517() { return "B.f2517"; }
public override string f2518() { return "B.f2518"; }
public override string f2519() { return "B.f2519"; }
public override string f2520() { return "B.f2520"; }
public override string f2521() { return "B.f2521"; }
public override string f2522() { return "B.f2522"; }
public override string f2523() { return "B.f2523"; }
public override string f2524() { return "B.f2524"; }
public override string f2525() { return "B.f2525"; }
public override string f2526() { return "B.f2526"; }
public override string f2527() { return "B.f2527"; }
public override string f2528() { return "B.f2528"; }
public override string f2529() { return "B.f2529"; }
public override string f2530() { return "B.f2530"; }
public override string f2531() { return "B.f2531"; }
public override string f2532() { return "B.f2532"; }
public override string f2533() { return "B.f2533"; }
public override string f2534() { return "B.f2534"; }
public override string f2535() { return "B.f2535"; }
public override string f2536() { return "B.f2536"; }
public override string f2537() { return "B.f2537"; }
public override string f2538() { return "B.f2538"; }
public override string f2539() { return "B.f2539"; }
public override string f2540() { return "B.f2540"; }
public override string f2541() { return "B.f2541"; }
public override string f2542() { return "B.f2542"; }
public override string f2543() { return "B.f2543"; }
public override string f2544() { return "B.f2544"; }
public override string f2545() { return "B.f2545"; }
public override string f2546() { return "B.f2546"; }
public override string f2547() { return "B.f2547"; }
public override string f2548() { return "B.f2548"; }
public override string f2549() { return "B.f2549"; }
public override string f2550() { return "B.f2550"; }
public override string f2551() { return "B.f2551"; }
public override string f2552() { return "B.f2552"; }
public override string f2553() { return "B.f2553"; }
public override string f2554() { return "B.f2554"; }
public override string f2555() { return "B.f2555"; }
public override string f2556() { return "B.f2556"; }
public override string f2557() { return "B.f2557"; }
public override string f2558() { return "B.f2558"; }
public override string f2559() { return "B.f2559"; }
public override string f2560() { return "B.f2560"; }
public override string f2561() { return "B.f2561"; }
public override string f2562() { return "B.f2562"; }
public override string f2563() { return "B.f2563"; }
public override string f2564() { return "B.f2564"; }
public override string f2565() { return "B.f2565"; }
public override string f2566() { return "B.f2566"; }
public override string f2567() { return "B.f2567"; }
public override string f2568() { return "B.f2568"; }
public override string f2569() { return "B.f2569"; }
public override string f2570() { return "B.f2570"; }
public override string f2571() { return "B.f2571"; }
public override string f2572() { return "B.f2572"; }
public override string f2573() { return "B.f2573"; }
public override string f2574() { return "B.f2574"; }
public override string f2575() { return "B.f2575"; }
public override string f2576() { return "B.f2576"; }
public override string f2577() { return "B.f2577"; }
public override string f2578() { return "B.f2578"; }
public override string f2579() { return "B.f2579"; }
public override string f2580() { return "B.f2580"; }
public override string f2581() { return "B.f2581"; }
public override string f2582() { return "B.f2582"; }
public override string f2583() { return "B.f2583"; }
public override string f2584() { return "B.f2584"; }
public override string f2585() { return "B.f2585"; }
public override string f2586() { return "B.f2586"; }
public override string f2587() { return "B.f2587"; }
public override string f2588() { return "B.f2588"; }
public override string f2589() { return "B.f2589"; }
public override string f2590() { return "B.f2590"; }
public override string f2591() { return "B.f2591"; }
public override string f2592() { return "B.f2592"; }
public override string f2593() { return "B.f2593"; }
public override string f2594() { return "B.f2594"; }
public override string f2595() { return "B.f2595"; }
public override string f2596() { return "B.f2596"; }
public override string f2597() { return "B.f2597"; }
public override string f2598() { return "B.f2598"; }
public override string f2599() { return "B.f2599"; }
public override string f2600() { return "B.f2600"; }
public override string f2601() { return "B.f2601"; }
public override string f2602() { return "B.f2602"; }
public override string f2603() { return "B.f2603"; }
public override string f2604() { return "B.f2604"; }
public override string f2605() { return "B.f2605"; }
public override string f2606() { return "B.f2606"; }
public override string f2607() { return "B.f2607"; }
public override string f2608() { return "B.f2608"; }
public override string f2609() { return "B.f2609"; }
public override string f2610() { return "B.f2610"; }
public override string f2611() { return "B.f2611"; }
public override string f2612() { return "B.f2612"; }
public override string f2613() { return "B.f2613"; }
public override string f2614() { return "B.f2614"; }
public override string f2615() { return "B.f2615"; }
public override string f2616() { return "B.f2616"; }
public override string f2617() { return "B.f2617"; }
public override string f2618() { return "B.f2618"; }
public override string f2619() { return "B.f2619"; }
public override string f2620() { return "B.f2620"; }
public override string f2621() { return "B.f2621"; }
public override string f2622() { return "B.f2622"; }
public override string f2623() { return "B.f2623"; }
public override string f2624() { return "B.f2624"; }
public override string f2625() { return "B.f2625"; }
public override string f2626() { return "B.f2626"; }
public override string f2627() { return "B.f2627"; }
public override string f2628() { return "B.f2628"; }
public override string f2629() { return "B.f2629"; }
public override string f2630() { return "B.f2630"; }
public override string f2631() { return "B.f2631"; }
public override string f2632() { return "B.f2632"; }
public override string f2633() { return "B.f2633"; }
public override string f2634() { return "B.f2634"; }
public override string f2635() { return "B.f2635"; }
public override string f2636() { return "B.f2636"; }
public override string f2637() { return "B.f2637"; }
public override string f2638() { return "B.f2638"; }
public override string f2639() { return "B.f2639"; }
public override string f2640() { return "B.f2640"; }
public override string f2641() { return "B.f2641"; }
public override string f2642() { return "B.f2642"; }
public override string f2643() { return "B.f2643"; }
public override string f2644() { return "B.f2644"; }
public override string f2645() { return "B.f2645"; }
public override string f2646() { return "B.f2646"; }
public override string f2647() { return "B.f2647"; }
public override string f2648() { return "B.f2648"; }
public override string f2649() { return "B.f2649"; }
public override string f2650() { return "B.f2650"; }
public override string f2651() { return "B.f2651"; }
public override string f2652() { return "B.f2652"; }
public override string f2653() { return "B.f2653"; }
public override string f2654() { return "B.f2654"; }
public override string f2655() { return "B.f2655"; }
public override string f2656() { return "B.f2656"; }
public override string f2657() { return "B.f2657"; }
public override string f2658() { return "B.f2658"; }
public override string f2659() { return "B.f2659"; }
public override string f2660() { return "B.f2660"; }
public override string f2661() { return "B.f2661"; }
public override string f2662() { return "B.f2662"; }
public override string f2663() { return "B.f2663"; }
public override string f2664() { return "B.f2664"; }
public override string f2665() { return "B.f2665"; }
public override string f2666() { return "B.f2666"; }
public override string f2667() { return "B.f2667"; }
public override string f2668() { return "B.f2668"; }
public override string f2669() { return "B.f2669"; }
public override string f2670() { return "B.f2670"; }
public override string f2671() { return "B.f2671"; }
public override string f2672() { return "B.f2672"; }
public override string f2673() { return "B.f2673"; }
public override string f2674() { return "B.f2674"; }
public override string f2675() { return "B.f2675"; }
public override string f2676() { return "B.f2676"; }
public override string f2677() { return "B.f2677"; }
public override string f2678() { return "B.f2678"; }
public override string f2679() { return "B.f2679"; }
public override string f2680() { return "B.f2680"; }
public override string f2681() { return "B.f2681"; }
public override string f2682() { return "B.f2682"; }
public override string f2683() { return "B.f2683"; }
public override string f2684() { return "B.f2684"; }
public override string f2685() { return "B.f2685"; }
public override string f2686() { return "B.f2686"; }
public override string f2687() { return "B.f2687"; }
public override string f2688() { return "B.f2688"; }
public override string f2689() { return "B.f2689"; }
public override string f2690() { return "B.f2690"; }
public override string f2691() { return "B.f2691"; }
public override string f2692() { return "B.f2692"; }
public override string f2693() { return "B.f2693"; }
public override string f2694() { return "B.f2694"; }
public override string f2695() { return "B.f2695"; }
public override string f2696() { return "B.f2696"; }
public override string f2697() { return "B.f2697"; }
public override string f2698() { return "B.f2698"; }
public override string f2699() { return "B.f2699"; }
public override string f2700() { return "B.f2700"; }
public override string f2701() { return "B.f2701"; }
public override string f2702() { return "B.f2702"; }
public override string f2703() { return "B.f2703"; }
public override string f2704() { return "B.f2704"; }
public override string f2705() { return "B.f2705"; }
public override string f2706() { return "B.f2706"; }
public override string f2707() { return "B.f2707"; }
public override string f2708() { return "B.f2708"; }
public override string f2709() { return "B.f2709"; }
public override string f2710() { return "B.f2710"; }
public override string f2711() { return "B.f2711"; }
public override string f2712() { return "B.f2712"; }
public override string f2713() { return "B.f2713"; }
public override string f2714() { return "B.f2714"; }
public override string f2715() { return "B.f2715"; }
public override string f2716() { return "B.f2716"; }
public override string f2717() { return "B.f2717"; }
public override string f2718() { return "B.f2718"; }
public override string f2719() { return "B.f2719"; }
public override string f2720() { return "B.f2720"; }
public override string f2721() { return "B.f2721"; }
public override string f2722() { return "B.f2722"; }
public override string f2723() { return "B.f2723"; }
public override string f2724() { return "B.f2724"; }
public override string f2725() { return "B.f2725"; }
public override string f2726() { return "B.f2726"; }
public override string f2727() { return "B.f2727"; }
public override string f2728() { return "B.f2728"; }
public override string f2729() { return "B.f2729"; }
public override string f2730() { return "B.f2730"; }
public override string f2731() { return "B.f2731"; }
public override string f2732() { return "B.f2732"; }
public override string f2733() { return "B.f2733"; }
public override string f2734() { return "B.f2734"; }
public override string f2735() { return "B.f2735"; }
public override string f2736() { return "B.f2736"; }
public override string f2737() { return "B.f2737"; }
public override string f2738() { return "B.f2738"; }
public override string f2739() { return "B.f2739"; }
public override string f2740() { return "B.f2740"; }
public override string f2741() { return "B.f2741"; }
public override string f2742() { return "B.f2742"; }
public override string f2743() { return "B.f2743"; }
public override string f2744() { return "B.f2744"; }
public override string f2745() { return "B.f2745"; }
public override string f2746() { return "B.f2746"; }
public override string f2747() { return "B.f2747"; }
public override string f2748() { return "B.f2748"; }
public override string f2749() { return "B.f2749"; }
public override string f2750() { return "B.f2750"; }
public override string f2751() { return "B.f2751"; }
public override string f2752() { return "B.f2752"; }
public override string f2753() { return "B.f2753"; }
public override string f2754() { return "B.f2754"; }
public override string f2755() { return "B.f2755"; }
public override string f2756() { return "B.f2756"; }
public override string f2757() { return "B.f2757"; }
public override string f2758() { return "B.f2758"; }
public override string f2759() { return "B.f2759"; }
public override string f2760() { return "B.f2760"; }
public override string f2761() { return "B.f2761"; }
public override string f2762() { return "B.f2762"; }
public override string f2763() { return "B.f2763"; }
public override string f2764() { return "B.f2764"; }
public override string f2765() { return "B.f2765"; }
public override string f2766() { return "B.f2766"; }
public override string f2767() { return "B.f2767"; }
public override string f2768() { return "B.f2768"; }
public override string f2769() { return "B.f2769"; }
public override string f2770() { return "B.f2770"; }
public override string f2771() { return "B.f2771"; }
public override string f2772() { return "B.f2772"; }
public override string f2773() { return "B.f2773"; }
public override string f2774() { return "B.f2774"; }
public override string f2775() { return "B.f2775"; }
public override string f2776() { return "B.f2776"; }
public override string f2777() { return "B.f2777"; }
public override string f2778() { return "B.f2778"; }
public override string f2779() { return "B.f2779"; }
public override string f2780() { return "B.f2780"; }
public override string f2781() { return "B.f2781"; }
public override string f2782() { return "B.f2782"; }
public override string f2783() { return "B.f2783"; }
public override string f2784() { return "B.f2784"; }
public override string f2785() { return "B.f2785"; }
public override string f2786() { return "B.f2786"; }
public override string f2787() { return "B.f2787"; }
public override string f2788() { return "B.f2788"; }
public override string f2789() { return "B.f2789"; }
public override string f2790() { return "B.f2790"; }
public override string f2791() { return "B.f2791"; }
public override string f2792() { return "B.f2792"; }
public override string f2793() { return "B.f2793"; }
public override string f2794() { return "B.f2794"; }
public override string f2795() { return "B.f2795"; }
public override string f2796() { return "B.f2796"; }
public override string f2797() { return "B.f2797"; }
public override string f2798() { return "B.f2798"; }
public override string f2799() { return "B.f2799"; }
public override string f2800() { return "B.f2800"; }
public override string f2801() { return "B.f2801"; }
public override string f2802() { return "B.f2802"; }
public override string f2803() { return "B.f2803"; }
public override string f2804() { return "B.f2804"; }
public override string f2805() { return "B.f2805"; }
public override string f2806() { return "B.f2806"; }
public override string f2807() { return "B.f2807"; }
public override string f2808() { return "B.f2808"; }
public override string f2809() { return "B.f2809"; }
public override string f2810() { return "B.f2810"; }
public override string f2811() { return "B.f2811"; }
public override string f2812() { return "B.f2812"; }
public override string f2813() { return "B.f2813"; }
public override string f2814() { return "B.f2814"; }
public override string f2815() { return "B.f2815"; }
public override string f2816() { return "B.f2816"; }
public override string f2817() { return "B.f2817"; }
public override string f2818() { return "B.f2818"; }
public override string f2819() { return "B.f2819"; }
public override string f2820() { return "B.f2820"; }
public override string f2821() { return "B.f2821"; }
public override string f2822() { return "B.f2822"; }
public override string f2823() { return "B.f2823"; }
public override string f2824() { return "B.f2824"; }
public override string f2825() { return "B.f2825"; }
public override string f2826() { return "B.f2826"; }
public override string f2827() { return "B.f2827"; }
public override string f2828() { return "B.f2828"; }
public override string f2829() { return "B.f2829"; }
public override string f2830() { return "B.f2830"; }
public override string f2831() { return "B.f2831"; }
public override string f2832() { return "B.f2832"; }
public override string f2833() { return "B.f2833"; }
public override string f2834() { return "B.f2834"; }
public override string f2835() { return "B.f2835"; }
public override string f2836() { return "B.f2836"; }
public override string f2837() { return "B.f2837"; }
public override string f2838() { return "B.f2838"; }
public override string f2839() { return "B.f2839"; }
public override string f2840() { return "B.f2840"; }
public override string f2841() { return "B.f2841"; }
public override string f2842() { return "B.f2842"; }
public override string f2843() { return "B.f2843"; }
public override string f2844() { return "B.f2844"; }
public override string f2845() { return "B.f2845"; }
public override string f2846() { return "B.f2846"; }
public override string f2847() { return "B.f2847"; }
public override string f2848() { return "B.f2848"; }
public override string f2849() { return "B.f2849"; }
public override string f2850() { return "B.f2850"; }
public override string f2851() { return "B.f2851"; }
public override string f2852() { return "B.f2852"; }
public override string f2853() { return "B.f2853"; }
public override string f2854() { return "B.f2854"; }
public override string f2855() { return "B.f2855"; }
public override string f2856() { return "B.f2856"; }
public override string f2857() { return "B.f2857"; }
public override string f2858() { return "B.f2858"; }
public override string f2859() { return "B.f2859"; }
public override string f2860() { return "B.f2860"; }
public override string f2861() { return "B.f2861"; }
public override string f2862() { return "B.f2862"; }
public override string f2863() { return "B.f2863"; }
public override string f2864() { return "B.f2864"; }
public override string f2865() { return "B.f2865"; }
public override string f2866() { return "B.f2866"; }
public override string f2867() { return "B.f2867"; }
public override string f2868() { return "B.f2868"; }
public override string f2869() { return "B.f2869"; }
public override string f2870() { return "B.f2870"; }
public override string f2871() { return "B.f2871"; }
public override string f2872() { return "B.f2872"; }
public override string f2873() { return "B.f2873"; }
public override string f2874() { return "B.f2874"; }
public override string f2875() { return "B.f2875"; }
public override string f2876() { return "B.f2876"; }
public override string f2877() { return "B.f2877"; }
public override string f2878() { return "B.f2878"; }
public override string f2879() { return "B.f2879"; }
public override string f2880() { return "B.f2880"; }
public override string f2881() { return "B.f2881"; }
public override string f2882() { return "B.f2882"; }
public override string f2883() { return "B.f2883"; }
public override string f2884() { return "B.f2884"; }
public override string f2885() { return "B.f2885"; }
public override string f2886() { return "B.f2886"; }
public override string f2887() { return "B.f2887"; }
public override string f2888() { return "B.f2888"; }
public override string f2889() { return "B.f2889"; }
public override string f2890() { return "B.f2890"; }
public override string f2891() { return "B.f2891"; }
public override string f2892() { return "B.f2892"; }
public override string f2893() { return "B.f2893"; }
public override string f2894() { return "B.f2894"; }
public override string f2895() { return "B.f2895"; }
public override string f2896() { return "B.f2896"; }
public override string f2897() { return "B.f2897"; }
public override string f2898() { return "B.f2898"; }
public override string f2899() { return "B.f2899"; }
public override string f2900() { return "B.f2900"; }
public override string f2901() { return "B.f2901"; }
public override string f2902() { return "B.f2902"; }
public override string f2903() { return "B.f2903"; }
public override string f2904() { return "B.f2904"; }
public override string f2905() { return "B.f2905"; }
public override string f2906() { return "B.f2906"; }
public override string f2907() { return "B.f2907"; }
public override string f2908() { return "B.f2908"; }
public override string f2909() { return "B.f2909"; }
public override string f2910() { return "B.f2910"; }
public override string f2911() { return "B.f2911"; }
public override string f2912() { return "B.f2912"; }
public override string f2913() { return "B.f2913"; }
public override string f2914() { return "B.f2914"; }
public override string f2915() { return "B.f2915"; }
public override string f2916() { return "B.f2916"; }
public override string f2917() { return "B.f2917"; }
public override string f2918() { return "B.f2918"; }
public override string f2919() { return "B.f2919"; }
public override string f2920() { return "B.f2920"; }
public override string f2921() { return "B.f2921"; }
public override string f2922() { return "B.f2922"; }
public override string f2923() { return "B.f2923"; }
public override string f2924() { return "B.f2924"; }
public override string f2925() { return "B.f2925"; }
public override string f2926() { return "B.f2926"; }
public override string f2927() { return "B.f2927"; }
public override string f2928() { return "B.f2928"; }
public override string f2929() { return "B.f2929"; }
public override string f2930() { return "B.f2930"; }
public override string f2931() { return "B.f2931"; }
public override string f2932() { return "B.f2932"; }
public override string f2933() { return "B.f2933"; }
public override string f2934() { return "B.f2934"; }
public override string f2935() { return "B.f2935"; }
public override string f2936() { return "B.f2936"; }
public override string f2937() { return "B.f2937"; }
public override string f2938() { return "B.f2938"; }
public override string f2939() { return "B.f2939"; }
public override string f2940() { return "B.f2940"; }
public override string f2941() { return "B.f2941"; }
public override string f2942() { return "B.f2942"; }
public override string f2943() { return "B.f2943"; }
public override string f2944() { return "B.f2944"; }
public override string f2945() { return "B.f2945"; }
public override string f2946() { return "B.f2946"; }
public override string f2947() { return "B.f2947"; }
public override string f2948() { return "B.f2948"; }
public override string f2949() { return "B.f2949"; }
public override string f2950() { return "B.f2950"; }
public override string f2951() { return "B.f2951"; }
public override string f2952() { return "B.f2952"; }
public override string f2953() { return "B.f2953"; }
public override string f2954() { return "B.f2954"; }
public override string f2955() { return "B.f2955"; }
public override string f2956() { return "B.f2956"; }
public override string f2957() { return "B.f2957"; }
public override string f2958() { return "B.f2958"; }
public override string f2959() { return "B.f2959"; }
public override string f2960() { return "B.f2960"; }
public override string f2961() { return "B.f2961"; }
public override string f2962() { return "B.f2962"; }
public override string f2963() { return "B.f2963"; }
public override string f2964() { return "B.f2964"; }
public override string f2965() { return "B.f2965"; }
public override string f2966() { return "B.f2966"; }
public override string f2967() { return "B.f2967"; }
public override string f2968() { return "B.f2968"; }
public override string f2969() { return "B.f2969"; }
public override string f2970() { return "B.f2970"; }
public override string f2971() { return "B.f2971"; }
public override string f2972() { return "B.f2972"; }
public override string f2973() { return "B.f2973"; }
public override string f2974() { return "B.f2974"; }
public override string f2975() { return "B.f2975"; }
public override string f2976() { return "B.f2976"; }
public override string f2977() { return "B.f2977"; }
public override string f2978() { return "B.f2978"; }
public override string f2979() { return "B.f2979"; }
public override string f2980() { return "B.f2980"; }
public override string f2981() { return "B.f2981"; }
public override string f2982() { return "B.f2982"; }
public override string f2983() { return "B.f2983"; }
public override string f2984() { return "B.f2984"; }
public override string f2985() { return "B.f2985"; }
public override string f2986() { return "B.f2986"; }
public override string f2987() { return "B.f2987"; }
public override string f2988() { return "B.f2988"; }
public override string f2989() { return "B.f2989"; }
public override string f2990() { return "B.f2990"; }
public override string f2991() { return "B.f2991"; }
public override string f2992() { return "B.f2992"; }
public override string f2993() { return "B.f2993"; }
public override string f2994() { return "B.f2994"; }
public override string f2995() { return "B.f2995"; }
public override string f2996() { return "B.f2996"; }
public override string f2997() { return "B.f2997"; }
public override string f2998() { return "B.f2998"; }
public override string f2999() { return "B.f2999"; }
}
internal class C : B
{
new public virtual string f1() { return "C.f1"; }
new public virtual string f2() { return "C.f2"; }
new public virtual string f3() { return "C.f3"; }
new public virtual string f4() { return "C.f4"; }
new public virtual string f5() { return "C.f5"; }
new public virtual string f6() { return "C.f6"; }
new public virtual string f7() { return "C.f7"; }
new public virtual string f8() { return "C.f8"; }
new public virtual string f9() { return "C.f9"; }
new public virtual string f10() { return "C.f10"; }
new public virtual string f11() { return "C.f11"; }
new public virtual string f12() { return "C.f12"; }
new public virtual string f13() { return "C.f13"; }
new public virtual string f14() { return "C.f14"; }
new public virtual string f15() { return "C.f15"; }
new public virtual string f16() { return "C.f16"; }
new public virtual string f17() { return "C.f17"; }
new public virtual string f18() { return "C.f18"; }
new public virtual string f19() { return "C.f19"; }
new public virtual string f20() { return "C.f20"; }
new public virtual string f21() { return "C.f21"; }
new public virtual string f22() { return "C.f22"; }
new public virtual string f23() { return "C.f23"; }
new public virtual string f24() { return "C.f24"; }
new public virtual string f25() { return "C.f25"; }
new public virtual string f26() { return "C.f26"; }
new public virtual string f27() { return "C.f27"; }
new public virtual string f28() { return "C.f28"; }
new public virtual string f29() { return "C.f29"; }
new public virtual string f30() { return "C.f30"; }
new public virtual string f31() { return "C.f31"; }
new public virtual string f32() { return "C.f32"; }
new public virtual string f33() { return "C.f33"; }
new public virtual string f34() { return "C.f34"; }
new public virtual string f35() { return "C.f35"; }
new public virtual string f36() { return "C.f36"; }
new public virtual string f37() { return "C.f37"; }
new public virtual string f38() { return "C.f38"; }
new public virtual string f39() { return "C.f39"; }
new public virtual string f40() { return "C.f40"; }
new public virtual string f41() { return "C.f41"; }
new public virtual string f42() { return "C.f42"; }
new public virtual string f43() { return "C.f43"; }
new public virtual string f44() { return "C.f44"; }
new public virtual string f45() { return "C.f45"; }
new public virtual string f46() { return "C.f46"; }
new public virtual string f47() { return "C.f47"; }
new public virtual string f48() { return "C.f48"; }
new public virtual string f49() { return "C.f49"; }
new public virtual string f50() { return "C.f50"; }
new public virtual string f51() { return "C.f51"; }
new public virtual string f52() { return "C.f52"; }
new public virtual string f53() { return "C.f53"; }
new public virtual string f54() { return "C.f54"; }
new public virtual string f55() { return "C.f55"; }
new public virtual string f56() { return "C.f56"; }
new public virtual string f57() { return "C.f57"; }
new public virtual string f58() { return "C.f58"; }
new public virtual string f59() { return "C.f59"; }
new public virtual string f60() { return "C.f60"; }
new public virtual string f61() { return "C.f61"; }
new public virtual string f62() { return "C.f62"; }
new public virtual string f63() { return "C.f63"; }
new public virtual string f64() { return "C.f64"; }
new public virtual string f65() { return "C.f65"; }
new public virtual string f66() { return "C.f66"; }
new public virtual string f67() { return "C.f67"; }
new public virtual string f68() { return "C.f68"; }
new public virtual string f69() { return "C.f69"; }
new public virtual string f70() { return "C.f70"; }
new public virtual string f71() { return "C.f71"; }
new public virtual string f72() { return "C.f72"; }
new public virtual string f73() { return "C.f73"; }
new public virtual string f74() { return "C.f74"; }
new public virtual string f75() { return "C.f75"; }
new public virtual string f76() { return "C.f76"; }
new public virtual string f77() { return "C.f77"; }
new public virtual string f78() { return "C.f78"; }
new public virtual string f79() { return "C.f79"; }
new public virtual string f80() { return "C.f80"; }
new public virtual string f81() { return "C.f81"; }
new public virtual string f82() { return "C.f82"; }
new public virtual string f83() { return "C.f83"; }
new public virtual string f84() { return "C.f84"; }
new public virtual string f85() { return "C.f85"; }
new public virtual string f86() { return "C.f86"; }
new public virtual string f87() { return "C.f87"; }
new public virtual string f88() { return "C.f88"; }
new public virtual string f89() { return "C.f89"; }
new public virtual string f90() { return "C.f90"; }
new public virtual string f91() { return "C.f91"; }
new public virtual string f92() { return "C.f92"; }
new public virtual string f93() { return "C.f93"; }
new public virtual string f94() { return "C.f94"; }
new public virtual string f95() { return "C.f95"; }
new public virtual string f96() { return "C.f96"; }
new public virtual string f97() { return "C.f97"; }
new public virtual string f98() { return "C.f98"; }
new public virtual string f99() { return "C.f99"; }
new public virtual string f100() { return "C.f100"; }
new public virtual string f101() { return "C.f101"; }
new public virtual string f102() { return "C.f102"; }
new public virtual string f103() { return "C.f103"; }
new public virtual string f104() { return "C.f104"; }
new public virtual string f105() { return "C.f105"; }
new public virtual string f106() { return "C.f106"; }
new public virtual string f107() { return "C.f107"; }
new public virtual string f108() { return "C.f108"; }
new public virtual string f109() { return "C.f109"; }
new public virtual string f110() { return "C.f110"; }
new public virtual string f111() { return "C.f111"; }
new public virtual string f112() { return "C.f112"; }
new public virtual string f113() { return "C.f113"; }
new public virtual string f114() { return "C.f114"; }
new public virtual string f115() { return "C.f115"; }
new public virtual string f116() { return "C.f116"; }
new public virtual string f117() { return "C.f117"; }
new public virtual string f118() { return "C.f118"; }
new public virtual string f119() { return "C.f119"; }
new public virtual string f120() { return "C.f120"; }
new public virtual string f121() { return "C.f121"; }
new public virtual string f122() { return "C.f122"; }
new public virtual string f123() { return "C.f123"; }
new public virtual string f124() { return "C.f124"; }
new public virtual string f125() { return "C.f125"; }
new public virtual string f126() { return "C.f126"; }
new public virtual string f127() { return "C.f127"; }
new public virtual string f128() { return "C.f128"; }
new public virtual string f129() { return "C.f129"; }
new public virtual string f130() { return "C.f130"; }
new public virtual string f131() { return "C.f131"; }
new public virtual string f132() { return "C.f132"; }
new public virtual string f133() { return "C.f133"; }
new public virtual string f134() { return "C.f134"; }
new public virtual string f135() { return "C.f135"; }
new public virtual string f136() { return "C.f136"; }
new public virtual string f137() { return "C.f137"; }
new public virtual string f138() { return "C.f138"; }
new public virtual string f139() { return "C.f139"; }
new public virtual string f140() { return "C.f140"; }
new public virtual string f141() { return "C.f141"; }
new public virtual string f142() { return "C.f142"; }
new public virtual string f143() { return "C.f143"; }
new public virtual string f144() { return "C.f144"; }
new public virtual string f145() { return "C.f145"; }
new public virtual string f146() { return "C.f146"; }
new public virtual string f147() { return "C.f147"; }
new public virtual string f148() { return "C.f148"; }
new public virtual string f149() { return "C.f149"; }
new public virtual string f150() { return "C.f150"; }
new public virtual string f151() { return "C.f151"; }
new public virtual string f152() { return "C.f152"; }
new public virtual string f153() { return "C.f153"; }
new public virtual string f154() { return "C.f154"; }
new public virtual string f155() { return "C.f155"; }
new public virtual string f156() { return "C.f156"; }
new public virtual string f157() { return "C.f157"; }
new public virtual string f158() { return "C.f158"; }
new public virtual string f159() { return "C.f159"; }
new public virtual string f160() { return "C.f160"; }
new public virtual string f161() { return "C.f161"; }
new public virtual string f162() { return "C.f162"; }
new public virtual string f163() { return "C.f163"; }
new public virtual string f164() { return "C.f164"; }
new public virtual string f165() { return "C.f165"; }
new public virtual string f166() { return "C.f166"; }
new public virtual string f167() { return "C.f167"; }
new public virtual string f168() { return "C.f168"; }
new public virtual string f169() { return "C.f169"; }
new public virtual string f170() { return "C.f170"; }
new public virtual string f171() { return "C.f171"; }
new public virtual string f172() { return "C.f172"; }
new public virtual string f173() { return "C.f173"; }
new public virtual string f174() { return "C.f174"; }
new public virtual string f175() { return "C.f175"; }
new public virtual string f176() { return "C.f176"; }
new public virtual string f177() { return "C.f177"; }
new public virtual string f178() { return "C.f178"; }
new public virtual string f179() { return "C.f179"; }
new public virtual string f180() { return "C.f180"; }
new public virtual string f181() { return "C.f181"; }
new public virtual string f182() { return "C.f182"; }
new public virtual string f183() { return "C.f183"; }
new public virtual string f184() { return "C.f184"; }
new public virtual string f185() { return "C.f185"; }
new public virtual string f186() { return "C.f186"; }
new public virtual string f187() { return "C.f187"; }
new public virtual string f188() { return "C.f188"; }
new public virtual string f189() { return "C.f189"; }
new public virtual string f190() { return "C.f190"; }
new public virtual string f191() { return "C.f191"; }
new public virtual string f192() { return "C.f192"; }
new public virtual string f193() { return "C.f193"; }
new public virtual string f194() { return "C.f194"; }
new public virtual string f195() { return "C.f195"; }
new public virtual string f196() { return "C.f196"; }
new public virtual string f197() { return "C.f197"; }
new public virtual string f198() { return "C.f198"; }
new public virtual string f199() { return "C.f199"; }
new public virtual string f200() { return "C.f200"; }
new public virtual string f201() { return "C.f201"; }
new public virtual string f202() { return "C.f202"; }
new public virtual string f203() { return "C.f203"; }
new public virtual string f204() { return "C.f204"; }
new public virtual string f205() { return "C.f205"; }
new public virtual string f206() { return "C.f206"; }
new public virtual string f207() { return "C.f207"; }
new public virtual string f208() { return "C.f208"; }
new public virtual string f209() { return "C.f209"; }
new public virtual string f210() { return "C.f210"; }
new public virtual string f211() { return "C.f211"; }
new public virtual string f212() { return "C.f212"; }
new public virtual string f213() { return "C.f213"; }
new public virtual string f214() { return "C.f214"; }
new public virtual string f215() { return "C.f215"; }
new public virtual string f216() { return "C.f216"; }
new public virtual string f217() { return "C.f217"; }
new public virtual string f218() { return "C.f218"; }
new public virtual string f219() { return "C.f219"; }
new public virtual string f220() { return "C.f220"; }
new public virtual string f221() { return "C.f221"; }
new public virtual string f222() { return "C.f222"; }
new public virtual string f223() { return "C.f223"; }
new public virtual string f224() { return "C.f224"; }
new public virtual string f225() { return "C.f225"; }
new public virtual string f226() { return "C.f226"; }
new public virtual string f227() { return "C.f227"; }
new public virtual string f228() { return "C.f228"; }
new public virtual string f229() { return "C.f229"; }
new public virtual string f230() { return "C.f230"; }
new public virtual string f231() { return "C.f231"; }
new public virtual string f232() { return "C.f232"; }
new public virtual string f233() { return "C.f233"; }
new public virtual string f234() { return "C.f234"; }
new public virtual string f235() { return "C.f235"; }
new public virtual string f236() { return "C.f236"; }
new public virtual string f237() { return "C.f237"; }
new public virtual string f238() { return "C.f238"; }
new public virtual string f239() { return "C.f239"; }
new public virtual string f240() { return "C.f240"; }
new public virtual string f241() { return "C.f241"; }
new public virtual string f242() { return "C.f242"; }
new public virtual string f243() { return "C.f243"; }
new public virtual string f244() { return "C.f244"; }
new public virtual string f245() { return "C.f245"; }
new public virtual string f246() { return "C.f246"; }
new public virtual string f247() { return "C.f247"; }
new public virtual string f248() { return "C.f248"; }
new public virtual string f249() { return "C.f249"; }
new public virtual string f250() { return "C.f250"; }
new public virtual string f251() { return "C.f251"; }
new public virtual string f252() { return "C.f252"; }
new public virtual string f253() { return "C.f253"; }
new public virtual string f254() { return "C.f254"; }
new public virtual string f255() { return "C.f255"; }
new public virtual string f256() { return "C.f256"; }
new public virtual string f257() { return "C.f257"; }
new public virtual string f258() { return "C.f258"; }
new public virtual string f259() { return "C.f259"; }
new public virtual string f260() { return "C.f260"; }
new public virtual string f261() { return "C.f261"; }
new public virtual string f262() { return "C.f262"; }
new public virtual string f263() { return "C.f263"; }
new public virtual string f264() { return "C.f264"; }
new public virtual string f265() { return "C.f265"; }
new public virtual string f266() { return "C.f266"; }
new public virtual string f267() { return "C.f267"; }
new public virtual string f268() { return "C.f268"; }
new public virtual string f269() { return "C.f269"; }
new public virtual string f270() { return "C.f270"; }
new public virtual string f271() { return "C.f271"; }
new public virtual string f272() { return "C.f272"; }
new public virtual string f273() { return "C.f273"; }
new public virtual string f274() { return "C.f274"; }
new public virtual string f275() { return "C.f275"; }
new public virtual string f276() { return "C.f276"; }
new public virtual string f277() { return "C.f277"; }
new public virtual string f278() { return "C.f278"; }
new public virtual string f279() { return "C.f279"; }
new public virtual string f280() { return "C.f280"; }
new public virtual string f281() { return "C.f281"; }
new public virtual string f282() { return "C.f282"; }
new public virtual string f283() { return "C.f283"; }
new public virtual string f284() { return "C.f284"; }
new public virtual string f285() { return "C.f285"; }
new public virtual string f286() { return "C.f286"; }
new public virtual string f287() { return "C.f287"; }
new public virtual string f288() { return "C.f288"; }
new public virtual string f289() { return "C.f289"; }
new public virtual string f290() { return "C.f290"; }
new public virtual string f291() { return "C.f291"; }
new public virtual string f292() { return "C.f292"; }
new public virtual string f293() { return "C.f293"; }
new public virtual string f294() { return "C.f294"; }
new public virtual string f295() { return "C.f295"; }
new public virtual string f296() { return "C.f296"; }
new public virtual string f297() { return "C.f297"; }
new public virtual string f298() { return "C.f298"; }
new public virtual string f299() { return "C.f299"; }
new public virtual string f300() { return "C.f300"; }
new public virtual string f301() { return "C.f301"; }
new public virtual string f302() { return "C.f302"; }
new public virtual string f303() { return "C.f303"; }
new public virtual string f304() { return "C.f304"; }
new public virtual string f305() { return "C.f305"; }
new public virtual string f306() { return "C.f306"; }
new public virtual string f307() { return "C.f307"; }
new public virtual string f308() { return "C.f308"; }
new public virtual string f309() { return "C.f309"; }
new public virtual string f310() { return "C.f310"; }
new public virtual string f311() { return "C.f311"; }
new public virtual string f312() { return "C.f312"; }
new public virtual string f313() { return "C.f313"; }
new public virtual string f314() { return "C.f314"; }
new public virtual string f315() { return "C.f315"; }
new public virtual string f316() { return "C.f316"; }
new public virtual string f317() { return "C.f317"; }
new public virtual string f318() { return "C.f318"; }
new public virtual string f319() { return "C.f319"; }
new public virtual string f320() { return "C.f320"; }
new public virtual string f321() { return "C.f321"; }
new public virtual string f322() { return "C.f322"; }
new public virtual string f323() { return "C.f323"; }
new public virtual string f324() { return "C.f324"; }
new public virtual string f325() { return "C.f325"; }
new public virtual string f326() { return "C.f326"; }
new public virtual string f327() { return "C.f327"; }
new public virtual string f328() { return "C.f328"; }
new public virtual string f329() { return "C.f329"; }
new public virtual string f330() { return "C.f330"; }
new public virtual string f331() { return "C.f331"; }
new public virtual string f332() { return "C.f332"; }
new public virtual string f333() { return "C.f333"; }
new public virtual string f334() { return "C.f334"; }
new public virtual string f335() { return "C.f335"; }
new public virtual string f336() { return "C.f336"; }
new public virtual string f337() { return "C.f337"; }
new public virtual string f338() { return "C.f338"; }
new public virtual string f339() { return "C.f339"; }
new public virtual string f340() { return "C.f340"; }
new public virtual string f341() { return "C.f341"; }
new public virtual string f342() { return "C.f342"; }
new public virtual string f343() { return "C.f343"; }
new public virtual string f344() { return "C.f344"; }
new public virtual string f345() { return "C.f345"; }
new public virtual string f346() { return "C.f346"; }
new public virtual string f347() { return "C.f347"; }
new public virtual string f348() { return "C.f348"; }
new public virtual string f349() { return "C.f349"; }
new public virtual string f350() { return "C.f350"; }
new public virtual string f351() { return "C.f351"; }
new public virtual string f352() { return "C.f352"; }
new public virtual string f353() { return "C.f353"; }
new public virtual string f354() { return "C.f354"; }
new public virtual string f355() { return "C.f355"; }
new public virtual string f356() { return "C.f356"; }
new public virtual string f357() { return "C.f357"; }
new public virtual string f358() { return "C.f358"; }
new public virtual string f359() { return "C.f359"; }
new public virtual string f360() { return "C.f360"; }
new public virtual string f361() { return "C.f361"; }
new public virtual string f362() { return "C.f362"; }
new public virtual string f363() { return "C.f363"; }
new public virtual string f364() { return "C.f364"; }
new public virtual string f365() { return "C.f365"; }
new public virtual string f366() { return "C.f366"; }
new public virtual string f367() { return "C.f367"; }
new public virtual string f368() { return "C.f368"; }
new public virtual string f369() { return "C.f369"; }
new public virtual string f370() { return "C.f370"; }
new public virtual string f371() { return "C.f371"; }
new public virtual string f372() { return "C.f372"; }
new public virtual string f373() { return "C.f373"; }
new public virtual string f374() { return "C.f374"; }
new public virtual string f375() { return "C.f375"; }
new public virtual string f376() { return "C.f376"; }
new public virtual string f377() { return "C.f377"; }
new public virtual string f378() { return "C.f378"; }
new public virtual string f379() { return "C.f379"; }
new public virtual string f380() { return "C.f380"; }
new public virtual string f381() { return "C.f381"; }
new public virtual string f382() { return "C.f382"; }
new public virtual string f383() { return "C.f383"; }
new public virtual string f384() { return "C.f384"; }
new public virtual string f385() { return "C.f385"; }
new public virtual string f386() { return "C.f386"; }
new public virtual string f387() { return "C.f387"; }
new public virtual string f388() { return "C.f388"; }
new public virtual string f389() { return "C.f389"; }
new public virtual string f390() { return "C.f390"; }
new public virtual string f391() { return "C.f391"; }
new public virtual string f392() { return "C.f392"; }
new public virtual string f393() { return "C.f393"; }
new public virtual string f394() { return "C.f394"; }
new public virtual string f395() { return "C.f395"; }
new public virtual string f396() { return "C.f396"; }
new public virtual string f397() { return "C.f397"; }
new public virtual string f398() { return "C.f398"; }
new public virtual string f399() { return "C.f399"; }
new public virtual string f400() { return "C.f400"; }
new public virtual string f401() { return "C.f401"; }
new public virtual string f402() { return "C.f402"; }
new public virtual string f403() { return "C.f403"; }
new public virtual string f404() { return "C.f404"; }
new public virtual string f405() { return "C.f405"; }
new public virtual string f406() { return "C.f406"; }
new public virtual string f407() { return "C.f407"; }
new public virtual string f408() { return "C.f408"; }
new public virtual string f409() { return "C.f409"; }
new public virtual string f410() { return "C.f410"; }
new public virtual string f411() { return "C.f411"; }
new public virtual string f412() { return "C.f412"; }
new public virtual string f413() { return "C.f413"; }
new public virtual string f414() { return "C.f414"; }
new public virtual string f415() { return "C.f415"; }
new public virtual string f416() { return "C.f416"; }
new public virtual string f417() { return "C.f417"; }
new public virtual string f418() { return "C.f418"; }
new public virtual string f419() { return "C.f419"; }
new public virtual string f420() { return "C.f420"; }
new public virtual string f421() { return "C.f421"; }
new public virtual string f422() { return "C.f422"; }
new public virtual string f423() { return "C.f423"; }
new public virtual string f424() { return "C.f424"; }
new public virtual string f425() { return "C.f425"; }
new public virtual string f426() { return "C.f426"; }
new public virtual string f427() { return "C.f427"; }
new public virtual string f428() { return "C.f428"; }
new public virtual string f429() { return "C.f429"; }
new public virtual string f430() { return "C.f430"; }
new public virtual string f431() { return "C.f431"; }
new public virtual string f432() { return "C.f432"; }
new public virtual string f433() { return "C.f433"; }
new public virtual string f434() { return "C.f434"; }
new public virtual string f435() { return "C.f435"; }
new public virtual string f436() { return "C.f436"; }
new public virtual string f437() { return "C.f437"; }
new public virtual string f438() { return "C.f438"; }
new public virtual string f439() { return "C.f439"; }
new public virtual string f440() { return "C.f440"; }
new public virtual string f441() { return "C.f441"; }
new public virtual string f442() { return "C.f442"; }
new public virtual string f443() { return "C.f443"; }
new public virtual string f444() { return "C.f444"; }
new public virtual string f445() { return "C.f445"; }
new public virtual string f446() { return "C.f446"; }
new public virtual string f447() { return "C.f447"; }
new public virtual string f448() { return "C.f448"; }
new public virtual string f449() { return "C.f449"; }
new public virtual string f450() { return "C.f450"; }
new public virtual string f451() { return "C.f451"; }
new public virtual string f452() { return "C.f452"; }
new public virtual string f453() { return "C.f453"; }
new public virtual string f454() { return "C.f454"; }
new public virtual string f455() { return "C.f455"; }
new public virtual string f456() { return "C.f456"; }
new public virtual string f457() { return "C.f457"; }
new public virtual string f458() { return "C.f458"; }
new public virtual string f459() { return "C.f459"; }
new public virtual string f460() { return "C.f460"; }
new public virtual string f461() { return "C.f461"; }
new public virtual string f462() { return "C.f462"; }
new public virtual string f463() { return "C.f463"; }
new public virtual string f464() { return "C.f464"; }
new public virtual string f465() { return "C.f465"; }
new public virtual string f466() { return "C.f466"; }
new public virtual string f467() { return "C.f467"; }
new public virtual string f468() { return "C.f468"; }
new public virtual string f469() { return "C.f469"; }
new public virtual string f470() { return "C.f470"; }
new public virtual string f471() { return "C.f471"; }
new public virtual string f472() { return "C.f472"; }
new public virtual string f473() { return "C.f473"; }
new public virtual string f474() { return "C.f474"; }
new public virtual string f475() { return "C.f475"; }
new public virtual string f476() { return "C.f476"; }
new public virtual string f477() { return "C.f477"; }
new public virtual string f478() { return "C.f478"; }
new public virtual string f479() { return "C.f479"; }
new public virtual string f480() { return "C.f480"; }
new public virtual string f481() { return "C.f481"; }
new public virtual string f482() { return "C.f482"; }
new public virtual string f483() { return "C.f483"; }
new public virtual string f484() { return "C.f484"; }
new public virtual string f485() { return "C.f485"; }
new public virtual string f486() { return "C.f486"; }
new public virtual string f487() { return "C.f487"; }
new public virtual string f488() { return "C.f488"; }
new public virtual string f489() { return "C.f489"; }
new public virtual string f490() { return "C.f490"; }
new public virtual string f491() { return "C.f491"; }
new public virtual string f492() { return "C.f492"; }
new public virtual string f493() { return "C.f493"; }
new public virtual string f494() { return "C.f494"; }
new public virtual string f495() { return "C.f495"; }
new public virtual string f496() { return "C.f496"; }
new public virtual string f497() { return "C.f497"; }
new public virtual string f498() { return "C.f498"; }
new public virtual string f499() { return "C.f499"; }
new public virtual string f500() { return "C.f500"; }
new public virtual string f501() { return "C.f501"; }
new public virtual string f502() { return "C.f502"; }
new public virtual string f503() { return "C.f503"; }
new public virtual string f504() { return "C.f504"; }
new public virtual string f505() { return "C.f505"; }
new public virtual string f506() { return "C.f506"; }
new public virtual string f507() { return "C.f507"; }
new public virtual string f508() { return "C.f508"; }
new public virtual string f509() { return "C.f509"; }
new public virtual string f510() { return "C.f510"; }
new public virtual string f511() { return "C.f511"; }
new public virtual string f512() { return "C.f512"; }
new public virtual string f513() { return "C.f513"; }
new public virtual string f514() { return "C.f514"; }
new public virtual string f515() { return "C.f515"; }
new public virtual string f516() { return "C.f516"; }
new public virtual string f517() { return "C.f517"; }
new public virtual string f518() { return "C.f518"; }
new public virtual string f519() { return "C.f519"; }
new public virtual string f520() { return "C.f520"; }
new public virtual string f521() { return "C.f521"; }
new public virtual string f522() { return "C.f522"; }
new public virtual string f523() { return "C.f523"; }
new public virtual string f524() { return "C.f524"; }
new public virtual string f525() { return "C.f525"; }
new public virtual string f526() { return "C.f526"; }
new public virtual string f527() { return "C.f527"; }
new public virtual string f528() { return "C.f528"; }
new public virtual string f529() { return "C.f529"; }
new public virtual string f530() { return "C.f530"; }
new public virtual string f531() { return "C.f531"; }
new public virtual string f532() { return "C.f532"; }
new public virtual string f533() { return "C.f533"; }
new public virtual string f534() { return "C.f534"; }
new public virtual string f535() { return "C.f535"; }
new public virtual string f536() { return "C.f536"; }
new public virtual string f537() { return "C.f537"; }
new public virtual string f538() { return "C.f538"; }
new public virtual string f539() { return "C.f539"; }
new public virtual string f540() { return "C.f540"; }
new public virtual string f541() { return "C.f541"; }
new public virtual string f542() { return "C.f542"; }
new public virtual string f543() { return "C.f543"; }
new public virtual string f544() { return "C.f544"; }
new public virtual string f545() { return "C.f545"; }
new public virtual string f546() { return "C.f546"; }
new public virtual string f547() { return "C.f547"; }
new public virtual string f548() { return "C.f548"; }
new public virtual string f549() { return "C.f549"; }
new public virtual string f550() { return "C.f550"; }
new public virtual string f551() { return "C.f551"; }
new public virtual string f552() { return "C.f552"; }
new public virtual string f553() { return "C.f553"; }
new public virtual string f554() { return "C.f554"; }
new public virtual string f555() { return "C.f555"; }
new public virtual string f556() { return "C.f556"; }
new public virtual string f557() { return "C.f557"; }
new public virtual string f558() { return "C.f558"; }
new public virtual string f559() { return "C.f559"; }
new public virtual string f560() { return "C.f560"; }
new public virtual string f561() { return "C.f561"; }
new public virtual string f562() { return "C.f562"; }
new public virtual string f563() { return "C.f563"; }
new public virtual string f564() { return "C.f564"; }
new public virtual string f565() { return "C.f565"; }
new public virtual string f566() { return "C.f566"; }
new public virtual string f567() { return "C.f567"; }
new public virtual string f568() { return "C.f568"; }
new public virtual string f569() { return "C.f569"; }
new public virtual string f570() { return "C.f570"; }
new public virtual string f571() { return "C.f571"; }
new public virtual string f572() { return "C.f572"; }
new public virtual string f573() { return "C.f573"; }
new public virtual string f574() { return "C.f574"; }
new public virtual string f575() { return "C.f575"; }
new public virtual string f576() { return "C.f576"; }
new public virtual string f577() { return "C.f577"; }
new public virtual string f578() { return "C.f578"; }
new public virtual string f579() { return "C.f579"; }
new public virtual string f580() { return "C.f580"; }
new public virtual string f581() { return "C.f581"; }
new public virtual string f582() { return "C.f582"; }
new public virtual string f583() { return "C.f583"; }
new public virtual string f584() { return "C.f584"; }
new public virtual string f585() { return "C.f585"; }
new public virtual string f586() { return "C.f586"; }
new public virtual string f587() { return "C.f587"; }
new public virtual string f588() { return "C.f588"; }
new public virtual string f589() { return "C.f589"; }
new public virtual string f590() { return "C.f590"; }
new public virtual string f591() { return "C.f591"; }
new public virtual string f592() { return "C.f592"; }
new public virtual string f593() { return "C.f593"; }
new public virtual string f594() { return "C.f594"; }
new public virtual string f595() { return "C.f595"; }
new public virtual string f596() { return "C.f596"; }
new public virtual string f597() { return "C.f597"; }
new public virtual string f598() { return "C.f598"; }
new public virtual string f599() { return "C.f599"; }
new public virtual string f600() { return "C.f600"; }
new public virtual string f601() { return "C.f601"; }
new public virtual string f602() { return "C.f602"; }
new public virtual string f603() { return "C.f603"; }
new public virtual string f604() { return "C.f604"; }
new public virtual string f605() { return "C.f605"; }
new public virtual string f606() { return "C.f606"; }
new public virtual string f607() { return "C.f607"; }
new public virtual string f608() { return "C.f608"; }
new public virtual string f609() { return "C.f609"; }
new public virtual string f610() { return "C.f610"; }
new public virtual string f611() { return "C.f611"; }
new public virtual string f612() { return "C.f612"; }
new public virtual string f613() { return "C.f613"; }
new public virtual string f614() { return "C.f614"; }
new public virtual string f615() { return "C.f615"; }
new public virtual string f616() { return "C.f616"; }
new public virtual string f617() { return "C.f617"; }
new public virtual string f618() { return "C.f618"; }
new public virtual string f619() { return "C.f619"; }
new public virtual string f620() { return "C.f620"; }
new public virtual string f621() { return "C.f621"; }
new public virtual string f622() { return "C.f622"; }
new public virtual string f623() { return "C.f623"; }
new public virtual string f624() { return "C.f624"; }
new public virtual string f625() { return "C.f625"; }
new public virtual string f626() { return "C.f626"; }
new public virtual string f627() { return "C.f627"; }
new public virtual string f628() { return "C.f628"; }
new public virtual string f629() { return "C.f629"; }
new public virtual string f630() { return "C.f630"; }
new public virtual string f631() { return "C.f631"; }
new public virtual string f632() { return "C.f632"; }
new public virtual string f633() { return "C.f633"; }
new public virtual string f634() { return "C.f634"; }
new public virtual string f635() { return "C.f635"; }
new public virtual string f636() { return "C.f636"; }
new public virtual string f637() { return "C.f637"; }
new public virtual string f638() { return "C.f638"; }
new public virtual string f639() { return "C.f639"; }
new public virtual string f640() { return "C.f640"; }
new public virtual string f641() { return "C.f641"; }
new public virtual string f642() { return "C.f642"; }
new public virtual string f643() { return "C.f643"; }
new public virtual string f644() { return "C.f644"; }
new public virtual string f645() { return "C.f645"; }
new public virtual string f646() { return "C.f646"; }
new public virtual string f647() { return "C.f647"; }
new public virtual string f648() { return "C.f648"; }
new public virtual string f649() { return "C.f649"; }
new public virtual string f650() { return "C.f650"; }
new public virtual string f651() { return "C.f651"; }
new public virtual string f652() { return "C.f652"; }
new public virtual string f653() { return "C.f653"; }
new public virtual string f654() { return "C.f654"; }
new public virtual string f655() { return "C.f655"; }
new public virtual string f656() { return "C.f656"; }
new public virtual string f657() { return "C.f657"; }
new public virtual string f658() { return "C.f658"; }
new public virtual string f659() { return "C.f659"; }
new public virtual string f660() { return "C.f660"; }
new public virtual string f661() { return "C.f661"; }
new public virtual string f662() { return "C.f662"; }
new public virtual string f663() { return "C.f663"; }
new public virtual string f664() { return "C.f664"; }
new public virtual string f665() { return "C.f665"; }
new public virtual string f666() { return "C.f666"; }
new public virtual string f667() { return "C.f667"; }
new public virtual string f668() { return "C.f668"; }
new public virtual string f669() { return "C.f669"; }
new public virtual string f670() { return "C.f670"; }
new public virtual string f671() { return "C.f671"; }
new public virtual string f672() { return "C.f672"; }
new public virtual string f673() { return "C.f673"; }
new public virtual string f674() { return "C.f674"; }
new public virtual string f675() { return "C.f675"; }
new public virtual string f676() { return "C.f676"; }
new public virtual string f677() { return "C.f677"; }
new public virtual string f678() { return "C.f678"; }
new public virtual string f679() { return "C.f679"; }
new public virtual string f680() { return "C.f680"; }
new public virtual string f681() { return "C.f681"; }
new public virtual string f682() { return "C.f682"; }
new public virtual string f683() { return "C.f683"; }
new public virtual string f684() { return "C.f684"; }
new public virtual string f685() { return "C.f685"; }
new public virtual string f686() { return "C.f686"; }
new public virtual string f687() { return "C.f687"; }
new public virtual string f688() { return "C.f688"; }
new public virtual string f689() { return "C.f689"; }
new public virtual string f690() { return "C.f690"; }
new public virtual string f691() { return "C.f691"; }
new public virtual string f692() { return "C.f692"; }
new public virtual string f693() { return "C.f693"; }
new public virtual string f694() { return "C.f694"; }
new public virtual string f695() { return "C.f695"; }
new public virtual string f696() { return "C.f696"; }
new public virtual string f697() { return "C.f697"; }
new public virtual string f698() { return "C.f698"; }
new public virtual string f699() { return "C.f699"; }
new public virtual string f700() { return "C.f700"; }
new public virtual string f701() { return "C.f701"; }
new public virtual string f702() { return "C.f702"; }
new public virtual string f703() { return "C.f703"; }
new public virtual string f704() { return "C.f704"; }
new public virtual string f705() { return "C.f705"; }
new public virtual string f706() { return "C.f706"; }
new public virtual string f707() { return "C.f707"; }
new public virtual string f708() { return "C.f708"; }
new public virtual string f709() { return "C.f709"; }
new public virtual string f710() { return "C.f710"; }
new public virtual string f711() { return "C.f711"; }
new public virtual string f712() { return "C.f712"; }
new public virtual string f713() { return "C.f713"; }
new public virtual string f714() { return "C.f714"; }
new public virtual string f715() { return "C.f715"; }
new public virtual string f716() { return "C.f716"; }
new public virtual string f717() { return "C.f717"; }
new public virtual string f718() { return "C.f718"; }
new public virtual string f719() { return "C.f719"; }
new public virtual string f720() { return "C.f720"; }
new public virtual string f721() { return "C.f721"; }
new public virtual string f722() { return "C.f722"; }
new public virtual string f723() { return "C.f723"; }
new public virtual string f724() { return "C.f724"; }
new public virtual string f725() { return "C.f725"; }
new public virtual string f726() { return "C.f726"; }
new public virtual string f727() { return "C.f727"; }
new public virtual string f728() { return "C.f728"; }
new public virtual string f729() { return "C.f729"; }
new public virtual string f730() { return "C.f730"; }
new public virtual string f731() { return "C.f731"; }
new public virtual string f732() { return "C.f732"; }
new public virtual string f733() { return "C.f733"; }
new public virtual string f734() { return "C.f734"; }
new public virtual string f735() { return "C.f735"; }
new public virtual string f736() { return "C.f736"; }
new public virtual string f737() { return "C.f737"; }
new public virtual string f738() { return "C.f738"; }
new public virtual string f739() { return "C.f739"; }
new public virtual string f740() { return "C.f740"; }
new public virtual string f741() { return "C.f741"; }
new public virtual string f742() { return "C.f742"; }
new public virtual string f743() { return "C.f743"; }
new public virtual string f744() { return "C.f744"; }
new public virtual string f745() { return "C.f745"; }
new public virtual string f746() { return "C.f746"; }
new public virtual string f747() { return "C.f747"; }
new public virtual string f748() { return "C.f748"; }
new public virtual string f749() { return "C.f749"; }
new public virtual string f750() { return "C.f750"; }
new public virtual string f751() { return "C.f751"; }
new public virtual string f752() { return "C.f752"; }
new public virtual string f753() { return "C.f753"; }
new public virtual string f754() { return "C.f754"; }
new public virtual string f755() { return "C.f755"; }
new public virtual string f756() { return "C.f756"; }
new public virtual string f757() { return "C.f757"; }
new public virtual string f758() { return "C.f758"; }
new public virtual string f759() { return "C.f759"; }
new public virtual string f760() { return "C.f760"; }
new public virtual string f761() { return "C.f761"; }
new public virtual string f762() { return "C.f762"; }
new public virtual string f763() { return "C.f763"; }
new public virtual string f764() { return "C.f764"; }
new public virtual string f765() { return "C.f765"; }
new public virtual string f766() { return "C.f766"; }
new public virtual string f767() { return "C.f767"; }
new public virtual string f768() { return "C.f768"; }
new public virtual string f769() { return "C.f769"; }
new public virtual string f770() { return "C.f770"; }
new public virtual string f771() { return "C.f771"; }
new public virtual string f772() { return "C.f772"; }
new public virtual string f773() { return "C.f773"; }
new public virtual string f774() { return "C.f774"; }
new public virtual string f775() { return "C.f775"; }
new public virtual string f776() { return "C.f776"; }
new public virtual string f777() { return "C.f777"; }
new public virtual string f778() { return "C.f778"; }
new public virtual string f779() { return "C.f779"; }
new public virtual string f780() { return "C.f780"; }
new public virtual string f781() { return "C.f781"; }
new public virtual string f782() { return "C.f782"; }
new public virtual string f783() { return "C.f783"; }
new public virtual string f784() { return "C.f784"; }
new public virtual string f785() { return "C.f785"; }
new public virtual string f786() { return "C.f786"; }
new public virtual string f787() { return "C.f787"; }
new public virtual string f788() { return "C.f788"; }
new public virtual string f789() { return "C.f789"; }
new public virtual string f790() { return "C.f790"; }
new public virtual string f791() { return "C.f791"; }
new public virtual string f792() { return "C.f792"; }
new public virtual string f793() { return "C.f793"; }
new public virtual string f794() { return "C.f794"; }
new public virtual string f795() { return "C.f795"; }
new public virtual string f796() { return "C.f796"; }
new public virtual string f797() { return "C.f797"; }
new public virtual string f798() { return "C.f798"; }
new public virtual string f799() { return "C.f799"; }
new public virtual string f800() { return "C.f800"; }
new public virtual string f801() { return "C.f801"; }
new public virtual string f802() { return "C.f802"; }
new public virtual string f803() { return "C.f803"; }
new public virtual string f804() { return "C.f804"; }
new public virtual string f805() { return "C.f805"; }
new public virtual string f806() { return "C.f806"; }
new public virtual string f807() { return "C.f807"; }
new public virtual string f808() { return "C.f808"; }
new public virtual string f809() { return "C.f809"; }
new public virtual string f810() { return "C.f810"; }
new public virtual string f811() { return "C.f811"; }
new public virtual string f812() { return "C.f812"; }
new public virtual string f813() { return "C.f813"; }
new public virtual string f814() { return "C.f814"; }
new public virtual string f815() { return "C.f815"; }
new public virtual string f816() { return "C.f816"; }
new public virtual string f817() { return "C.f817"; }
new public virtual string f818() { return "C.f818"; }
new public virtual string f819() { return "C.f819"; }
new public virtual string f820() { return "C.f820"; }
new public virtual string f821() { return "C.f821"; }
new public virtual string f822() { return "C.f822"; }
new public virtual string f823() { return "C.f823"; }
new public virtual string f824() { return "C.f824"; }
new public virtual string f825() { return "C.f825"; }
new public virtual string f826() { return "C.f826"; }
new public virtual string f827() { return "C.f827"; }
new public virtual string f828() { return "C.f828"; }
new public virtual string f829() { return "C.f829"; }
new public virtual string f830() { return "C.f830"; }
new public virtual string f831() { return "C.f831"; }
new public virtual string f832() { return "C.f832"; }
new public virtual string f833() { return "C.f833"; }
new public virtual string f834() { return "C.f834"; }
new public virtual string f835() { return "C.f835"; }
new public virtual string f836() { return "C.f836"; }
new public virtual string f837() { return "C.f837"; }
new public virtual string f838() { return "C.f838"; }
new public virtual string f839() { return "C.f839"; }
new public virtual string f840() { return "C.f840"; }
new public virtual string f841() { return "C.f841"; }
new public virtual string f842() { return "C.f842"; }
new public virtual string f843() { return "C.f843"; }
new public virtual string f844() { return "C.f844"; }
new public virtual string f845() { return "C.f845"; }
new public virtual string f846() { return "C.f846"; }
new public virtual string f847() { return "C.f847"; }
new public virtual string f848() { return "C.f848"; }
new public virtual string f849() { return "C.f849"; }
new public virtual string f850() { return "C.f850"; }
new public virtual string f851() { return "C.f851"; }
new public virtual string f852() { return "C.f852"; }
new public virtual string f853() { return "C.f853"; }
new public virtual string f854() { return "C.f854"; }
new public virtual string f855() { return "C.f855"; }
new public virtual string f856() { return "C.f856"; }
new public virtual string f857() { return "C.f857"; }
new public virtual string f858() { return "C.f858"; }
new public virtual string f859() { return "C.f859"; }
new public virtual string f860() { return "C.f860"; }
new public virtual string f861() { return "C.f861"; }
new public virtual string f862() { return "C.f862"; }
new public virtual string f863() { return "C.f863"; }
new public virtual string f864() { return "C.f864"; }
new public virtual string f865() { return "C.f865"; }
new public virtual string f866() { return "C.f866"; }
new public virtual string f867() { return "C.f867"; }
new public virtual string f868() { return "C.f868"; }
new public virtual string f869() { return "C.f869"; }
new public virtual string f870() { return "C.f870"; }
new public virtual string f871() { return "C.f871"; }
new public virtual string f872() { return "C.f872"; }
new public virtual string f873() { return "C.f873"; }
new public virtual string f874() { return "C.f874"; }
new public virtual string f875() { return "C.f875"; }
new public virtual string f876() { return "C.f876"; }
new public virtual string f877() { return "C.f877"; }
new public virtual string f878() { return "C.f878"; }
new public virtual string f879() { return "C.f879"; }
new public virtual string f880() { return "C.f880"; }
new public virtual string f881() { return "C.f881"; }
new public virtual string f882() { return "C.f882"; }
new public virtual string f883() { return "C.f883"; }
new public virtual string f884() { return "C.f884"; }
new public virtual string f885() { return "C.f885"; }
new public virtual string f886() { return "C.f886"; }
new public virtual string f887() { return "C.f887"; }
new public virtual string f888() { return "C.f888"; }
new public virtual string f889() { return "C.f889"; }
new public virtual string f890() { return "C.f890"; }
new public virtual string f891() { return "C.f891"; }
new public virtual string f892() { return "C.f892"; }
new public virtual string f893() { return "C.f893"; }
new public virtual string f894() { return "C.f894"; }
new public virtual string f895() { return "C.f895"; }
new public virtual string f896() { return "C.f896"; }
new public virtual string f897() { return "C.f897"; }
new public virtual string f898() { return "C.f898"; }
new public virtual string f899() { return "C.f899"; }
new public virtual string f900() { return "C.f900"; }
new public virtual string f901() { return "C.f901"; }
new public virtual string f902() { return "C.f902"; }
new public virtual string f903() { return "C.f903"; }
new public virtual string f904() { return "C.f904"; }
new public virtual string f905() { return "C.f905"; }
new public virtual string f906() { return "C.f906"; }
new public virtual string f907() { return "C.f907"; }
new public virtual string f908() { return "C.f908"; }
new public virtual string f909() { return "C.f909"; }
new public virtual string f910() { return "C.f910"; }
new public virtual string f911() { return "C.f911"; }
new public virtual string f912() { return "C.f912"; }
new public virtual string f913() { return "C.f913"; }
new public virtual string f914() { return "C.f914"; }
new public virtual string f915() { return "C.f915"; }
new public virtual string f916() { return "C.f916"; }
new public virtual string f917() { return "C.f917"; }
new public virtual string f918() { return "C.f918"; }
new public virtual string f919() { return "C.f919"; }
new public virtual string f920() { return "C.f920"; }
new public virtual string f921() { return "C.f921"; }
new public virtual string f922() { return "C.f922"; }
new public virtual string f923() { return "C.f923"; }
new public virtual string f924() { return "C.f924"; }
new public virtual string f925() { return "C.f925"; }
new public virtual string f926() { return "C.f926"; }
new public virtual string f927() { return "C.f927"; }
new public virtual string f928() { return "C.f928"; }
new public virtual string f929() { return "C.f929"; }
new public virtual string f930() { return "C.f930"; }
new public virtual string f931() { return "C.f931"; }
new public virtual string f932() { return "C.f932"; }
new public virtual string f933() { return "C.f933"; }
new public virtual string f934() { return "C.f934"; }
new public virtual string f935() { return "C.f935"; }
new public virtual string f936() { return "C.f936"; }
new public virtual string f937() { return "C.f937"; }
new public virtual string f938() { return "C.f938"; }
new public virtual string f939() { return "C.f939"; }
new public virtual string f940() { return "C.f940"; }
new public virtual string f941() { return "C.f941"; }
new public virtual string f942() { return "C.f942"; }
new public virtual string f943() { return "C.f943"; }
new public virtual string f944() { return "C.f944"; }
new public virtual string f945() { return "C.f945"; }
new public virtual string f946() { return "C.f946"; }
new public virtual string f947() { return "C.f947"; }
new public virtual string f948() { return "C.f948"; }
new public virtual string f949() { return "C.f949"; }
new public virtual string f950() { return "C.f950"; }
new public virtual string f951() { return "C.f951"; }
new public virtual string f952() { return "C.f952"; }
new public virtual string f953() { return "C.f953"; }
new public virtual string f954() { return "C.f954"; }
new public virtual string f955() { return "C.f955"; }
new public virtual string f956() { return "C.f956"; }
new public virtual string f957() { return "C.f957"; }
new public virtual string f958() { return "C.f958"; }
new public virtual string f959() { return "C.f959"; }
new public virtual string f960() { return "C.f960"; }
new public virtual string f961() { return "C.f961"; }
new public virtual string f962() { return "C.f962"; }
new public virtual string f963() { return "C.f963"; }
new public virtual string f964() { return "C.f964"; }
new public virtual string f965() { return "C.f965"; }
new public virtual string f966() { return "C.f966"; }
new public virtual string f967() { return "C.f967"; }
new public virtual string f968() { return "C.f968"; }
new public virtual string f969() { return "C.f969"; }
new public virtual string f970() { return "C.f970"; }
new public virtual string f971() { return "C.f971"; }
new public virtual string f972() { return "C.f972"; }
new public virtual string f973() { return "C.f973"; }
new public virtual string f974() { return "C.f974"; }
new public virtual string f975() { return "C.f975"; }
new public virtual string f976() { return "C.f976"; }
new public virtual string f977() { return "C.f977"; }
new public virtual string f978() { return "C.f978"; }
new public virtual string f979() { return "C.f979"; }
new public virtual string f980() { return "C.f980"; }
new public virtual string f981() { return "C.f981"; }
new public virtual string f982() { return "C.f982"; }
new public virtual string f983() { return "C.f983"; }
new public virtual string f984() { return "C.f984"; }
new public virtual string f985() { return "C.f985"; }
new public virtual string f986() { return "C.f986"; }
new public virtual string f987() { return "C.f987"; }
new public virtual string f988() { return "C.f988"; }
new public virtual string f989() { return "C.f989"; }
new public virtual string f990() { return "C.f990"; }
new public virtual string f991() { return "C.f991"; }
new public virtual string f992() { return "C.f992"; }
new public virtual string f993() { return "C.f993"; }
new public virtual string f994() { return "C.f994"; }
new public virtual string f995() { return "C.f995"; }
new public virtual string f996() { return "C.f996"; }
new public virtual string f997() { return "C.f997"; }
new public virtual string f998() { return "C.f998"; }
new public virtual string f999() { return "C.f999"; }
new public virtual string f1000() { return "C.f1000"; }
new public virtual string f1001() { return "C.f1001"; }
new public virtual string f1002() { return "C.f1002"; }
new public virtual string f1003() { return "C.f1003"; }
new public virtual string f1004() { return "C.f1004"; }
new public virtual string f1005() { return "C.f1005"; }
new public virtual string f1006() { return "C.f1006"; }
new public virtual string f1007() { return "C.f1007"; }
new public virtual string f1008() { return "C.f1008"; }
new public virtual string f1009() { return "C.f1009"; }
new public virtual string f1010() { return "C.f1010"; }
new public virtual string f1011() { return "C.f1011"; }
new public virtual string f1012() { return "C.f1012"; }
new public virtual string f1013() { return "C.f1013"; }
new public virtual string f1014() { return "C.f1014"; }
new public virtual string f1015() { return "C.f1015"; }
new public virtual string f1016() { return "C.f1016"; }
new public virtual string f1017() { return "C.f1017"; }
new public virtual string f1018() { return "C.f1018"; }
new public virtual string f1019() { return "C.f1019"; }
new public virtual string f1020() { return "C.f1020"; }
new public virtual string f1021() { return "C.f1021"; }
new public virtual string f1022() { return "C.f1022"; }
new public virtual string f1023() { return "C.f1023"; }
new public virtual string f1024() { return "C.f1024"; }
new public virtual string f1025() { return "C.f1025"; }
new public virtual string f1026() { return "C.f1026"; }
new public virtual string f1027() { return "C.f1027"; }
new public virtual string f1028() { return "C.f1028"; }
new public virtual string f1029() { return "C.f1029"; }
new public virtual string f1030() { return "C.f1030"; }
new public virtual string f1031() { return "C.f1031"; }
new public virtual string f1032() { return "C.f1032"; }
new public virtual string f1033() { return "C.f1033"; }
new public virtual string f1034() { return "C.f1034"; }
new public virtual string f1035() { return "C.f1035"; }
new public virtual string f1036() { return "C.f1036"; }
new public virtual string f1037() { return "C.f1037"; }
new public virtual string f1038() { return "C.f1038"; }
new public virtual string f1039() { return "C.f1039"; }
new public virtual string f1040() { return "C.f1040"; }
new public virtual string f1041() { return "C.f1041"; }
new public virtual string f1042() { return "C.f1042"; }
new public virtual string f1043() { return "C.f1043"; }
new public virtual string f1044() { return "C.f1044"; }
new public virtual string f1045() { return "C.f1045"; }
new public virtual string f1046() { return "C.f1046"; }
new public virtual string f1047() { return "C.f1047"; }
new public virtual string f1048() { return "C.f1048"; }
new public virtual string f1049() { return "C.f1049"; }
new public virtual string f1050() { return "C.f1050"; }
new public virtual string f1051() { return "C.f1051"; }
new public virtual string f1052() { return "C.f1052"; }
new public virtual string f1053() { return "C.f1053"; }
new public virtual string f1054() { return "C.f1054"; }
new public virtual string f1055() { return "C.f1055"; }
new public virtual string f1056() { return "C.f1056"; }
new public virtual string f1057() { return "C.f1057"; }
new public virtual string f1058() { return "C.f1058"; }
new public virtual string f1059() { return "C.f1059"; }
new public virtual string f1060() { return "C.f1060"; }
new public virtual string f1061() { return "C.f1061"; }
new public virtual string f1062() { return "C.f1062"; }
new public virtual string f1063() { return "C.f1063"; }
new public virtual string f1064() { return "C.f1064"; }
new public virtual string f1065() { return "C.f1065"; }
new public virtual string f1066() { return "C.f1066"; }
new public virtual string f1067() { return "C.f1067"; }
new public virtual string f1068() { return "C.f1068"; }
new public virtual string f1069() { return "C.f1069"; }
new public virtual string f1070() { return "C.f1070"; }
new public virtual string f1071() { return "C.f1071"; }
new public virtual string f1072() { return "C.f1072"; }
new public virtual string f1073() { return "C.f1073"; }
new public virtual string f1074() { return "C.f1074"; }
new public virtual string f1075() { return "C.f1075"; }
new public virtual string f1076() { return "C.f1076"; }
new public virtual string f1077() { return "C.f1077"; }
new public virtual string f1078() { return "C.f1078"; }
new public virtual string f1079() { return "C.f1079"; }
new public virtual string f1080() { return "C.f1080"; }
new public virtual string f1081() { return "C.f1081"; }
new public virtual string f1082() { return "C.f1082"; }
new public virtual string f1083() { return "C.f1083"; }
new public virtual string f1084() { return "C.f1084"; }
new public virtual string f1085() { return "C.f1085"; }
new public virtual string f1086() { return "C.f1086"; }
new public virtual string f1087() { return "C.f1087"; }
new public virtual string f1088() { return "C.f1088"; }
new public virtual string f1089() { return "C.f1089"; }
new public virtual string f1090() { return "C.f1090"; }
new public virtual string f1091() { return "C.f1091"; }
new public virtual string f1092() { return "C.f1092"; }
new public virtual string f1093() { return "C.f1093"; }
new public virtual string f1094() { return "C.f1094"; }
new public virtual string f1095() { return "C.f1095"; }
new public virtual string f1096() { return "C.f1096"; }
new public virtual string f1097() { return "C.f1097"; }
new public virtual string f1098() { return "C.f1098"; }
new public virtual string f1099() { return "C.f1099"; }
new public virtual string f1100() { return "C.f1100"; }
new public virtual string f1101() { return "C.f1101"; }
new public virtual string f1102() { return "C.f1102"; }
new public virtual string f1103() { return "C.f1103"; }
new public virtual string f1104() { return "C.f1104"; }
new public virtual string f1105() { return "C.f1105"; }
new public virtual string f1106() { return "C.f1106"; }
new public virtual string f1107() { return "C.f1107"; }
new public virtual string f1108() { return "C.f1108"; }
new public virtual string f1109() { return "C.f1109"; }
new public virtual string f1110() { return "C.f1110"; }
new public virtual string f1111() { return "C.f1111"; }
new public virtual string f1112() { return "C.f1112"; }
new public virtual string f1113() { return "C.f1113"; }
new public virtual string f1114() { return "C.f1114"; }
new public virtual string f1115() { return "C.f1115"; }
new public virtual string f1116() { return "C.f1116"; }
new public virtual string f1117() { return "C.f1117"; }
new public virtual string f1118() { return "C.f1118"; }
new public virtual string f1119() { return "C.f1119"; }
new public virtual string f1120() { return "C.f1120"; }
new public virtual string f1121() { return "C.f1121"; }
new public virtual string f1122() { return "C.f1122"; }
new public virtual string f1123() { return "C.f1123"; }
new public virtual string f1124() { return "C.f1124"; }
new public virtual string f1125() { return "C.f1125"; }
new public virtual string f1126() { return "C.f1126"; }
new public virtual string f1127() { return "C.f1127"; }
new public virtual string f1128() { return "C.f1128"; }
new public virtual string f1129() { return "C.f1129"; }
new public virtual string f1130() { return "C.f1130"; }
new public virtual string f1131() { return "C.f1131"; }
new public virtual string f1132() { return "C.f1132"; }
new public virtual string f1133() { return "C.f1133"; }
new public virtual string f1134() { return "C.f1134"; }
new public virtual string f1135() { return "C.f1135"; }
new public virtual string f1136() { return "C.f1136"; }
new public virtual string f1137() { return "C.f1137"; }
new public virtual string f1138() { return "C.f1138"; }
new public virtual string f1139() { return "C.f1139"; }
new public virtual string f1140() { return "C.f1140"; }
new public virtual string f1141() { return "C.f1141"; }
new public virtual string f1142() { return "C.f1142"; }
new public virtual string f1143() { return "C.f1143"; }
new public virtual string f1144() { return "C.f1144"; }
new public virtual string f1145() { return "C.f1145"; }
new public virtual string f1146() { return "C.f1146"; }
new public virtual string f1147() { return "C.f1147"; }
new public virtual string f1148() { return "C.f1148"; }
new public virtual string f1149() { return "C.f1149"; }
new public virtual string f1150() { return "C.f1150"; }
new public virtual string f1151() { return "C.f1151"; }
new public virtual string f1152() { return "C.f1152"; }
new public virtual string f1153() { return "C.f1153"; }
new public virtual string f1154() { return "C.f1154"; }
new public virtual string f1155() { return "C.f1155"; }
new public virtual string f1156() { return "C.f1156"; }
new public virtual string f1157() { return "C.f1157"; }
new public virtual string f1158() { return "C.f1158"; }
new public virtual string f1159() { return "C.f1159"; }
new public virtual string f1160() { return "C.f1160"; }
new public virtual string f1161() { return "C.f1161"; }
new public virtual string f1162() { return "C.f1162"; }
new public virtual string f1163() { return "C.f1163"; }
new public virtual string f1164() { return "C.f1164"; }
new public virtual string f1165() { return "C.f1165"; }
new public virtual string f1166() { return "C.f1166"; }
new public virtual string f1167() { return "C.f1167"; }
new public virtual string f1168() { return "C.f1168"; }
new public virtual string f1169() { return "C.f1169"; }
new public virtual string f1170() { return "C.f1170"; }
new public virtual string f1171() { return "C.f1171"; }
new public virtual string f1172() { return "C.f1172"; }
new public virtual string f1173() { return "C.f1173"; }
new public virtual string f1174() { return "C.f1174"; }
new public virtual string f1175() { return "C.f1175"; }
new public virtual string f1176() { return "C.f1176"; }
new public virtual string f1177() { return "C.f1177"; }
new public virtual string f1178() { return "C.f1178"; }
new public virtual string f1179() { return "C.f1179"; }
new public virtual string f1180() { return "C.f1180"; }
new public virtual string f1181() { return "C.f1181"; }
new public virtual string f1182() { return "C.f1182"; }
new public virtual string f1183() { return "C.f1183"; }
new public virtual string f1184() { return "C.f1184"; }
new public virtual string f1185() { return "C.f1185"; }
new public virtual string f1186() { return "C.f1186"; }
new public virtual string f1187() { return "C.f1187"; }
new public virtual string f1188() { return "C.f1188"; }
new public virtual string f1189() { return "C.f1189"; }
new public virtual string f1190() { return "C.f1190"; }
new public virtual string f1191() { return "C.f1191"; }
new public virtual string f1192() { return "C.f1192"; }
new public virtual string f1193() { return "C.f1193"; }
new public virtual string f1194() { return "C.f1194"; }
new public virtual string f1195() { return "C.f1195"; }
new public virtual string f1196() { return "C.f1196"; }
new public virtual string f1197() { return "C.f1197"; }
new public virtual string f1198() { return "C.f1198"; }
new public virtual string f1199() { return "C.f1199"; }
new public virtual string f1200() { return "C.f1200"; }
new public virtual string f1201() { return "C.f1201"; }
new public virtual string f1202() { return "C.f1202"; }
new public virtual string f1203() { return "C.f1203"; }
new public virtual string f1204() { return "C.f1204"; }
new public virtual string f1205() { return "C.f1205"; }
new public virtual string f1206() { return "C.f1206"; }
new public virtual string f1207() { return "C.f1207"; }
new public virtual string f1208() { return "C.f1208"; }
new public virtual string f1209() { return "C.f1209"; }
new public virtual string f1210() { return "C.f1210"; }
new public virtual string f1211() { return "C.f1211"; }
new public virtual string f1212() { return "C.f1212"; }
new public virtual string f1213() { return "C.f1213"; }
new public virtual string f1214() { return "C.f1214"; }
new public virtual string f1215() { return "C.f1215"; }
new public virtual string f1216() { return "C.f1216"; }
new public virtual string f1217() { return "C.f1217"; }
new public virtual string f1218() { return "C.f1218"; }
new public virtual string f1219() { return "C.f1219"; }
new public virtual string f1220() { return "C.f1220"; }
new public virtual string f1221() { return "C.f1221"; }
new public virtual string f1222() { return "C.f1222"; }
new public virtual string f1223() { return "C.f1223"; }
new public virtual string f1224() { return "C.f1224"; }
new public virtual string f1225() { return "C.f1225"; }
new public virtual string f1226() { return "C.f1226"; }
new public virtual string f1227() { return "C.f1227"; }
new public virtual string f1228() { return "C.f1228"; }
new public virtual string f1229() { return "C.f1229"; }
new public virtual string f1230() { return "C.f1230"; }
new public virtual string f1231() { return "C.f1231"; }
new public virtual string f1232() { return "C.f1232"; }
new public virtual string f1233() { return "C.f1233"; }
new public virtual string f1234() { return "C.f1234"; }
new public virtual string f1235() { return "C.f1235"; }
new public virtual string f1236() { return "C.f1236"; }
new public virtual string f1237() { return "C.f1237"; }
new public virtual string f1238() { return "C.f1238"; }
new public virtual string f1239() { return "C.f1239"; }
new public virtual string f1240() { return "C.f1240"; }
new public virtual string f1241() { return "C.f1241"; }
new public virtual string f1242() { return "C.f1242"; }
new public virtual string f1243() { return "C.f1243"; }
new public virtual string f1244() { return "C.f1244"; }
new public virtual string f1245() { return "C.f1245"; }
new public virtual string f1246() { return "C.f1246"; }
new public virtual string f1247() { return "C.f1247"; }
new public virtual string f1248() { return "C.f1248"; }
new public virtual string f1249() { return "C.f1249"; }
new public virtual string f1250() { return "C.f1250"; }
new public virtual string f1251() { return "C.f1251"; }
new public virtual string f1252() { return "C.f1252"; }
new public virtual string f1253() { return "C.f1253"; }
new public virtual string f1254() { return "C.f1254"; }
new public virtual string f1255() { return "C.f1255"; }
new public virtual string f1256() { return "C.f1256"; }
new public virtual string f1257() { return "C.f1257"; }
new public virtual string f1258() { return "C.f1258"; }
new public virtual string f1259() { return "C.f1259"; }
new public virtual string f1260() { return "C.f1260"; }
new public virtual string f1261() { return "C.f1261"; }
new public virtual string f1262() { return "C.f1262"; }
new public virtual string f1263() { return "C.f1263"; }
new public virtual string f1264() { return "C.f1264"; }
new public virtual string f1265() { return "C.f1265"; }
new public virtual string f1266() { return "C.f1266"; }
new public virtual string f1267() { return "C.f1267"; }
new public virtual string f1268() { return "C.f1268"; }
new public virtual string f1269() { return "C.f1269"; }
new public virtual string f1270() { return "C.f1270"; }
new public virtual string f1271() { return "C.f1271"; }
new public virtual string f1272() { return "C.f1272"; }
new public virtual string f1273() { return "C.f1273"; }
new public virtual string f1274() { return "C.f1274"; }
new public virtual string f1275() { return "C.f1275"; }
new public virtual string f1276() { return "C.f1276"; }
new public virtual string f1277() { return "C.f1277"; }
new public virtual string f1278() { return "C.f1278"; }
new public virtual string f1279() { return "C.f1279"; }
new public virtual string f1280() { return "C.f1280"; }
new public virtual string f1281() { return "C.f1281"; }
new public virtual string f1282() { return "C.f1282"; }
new public virtual string f1283() { return "C.f1283"; }
new public virtual string f1284() { return "C.f1284"; }
new public virtual string f1285() { return "C.f1285"; }
new public virtual string f1286() { return "C.f1286"; }
new public virtual string f1287() { return "C.f1287"; }
new public virtual string f1288() { return "C.f1288"; }
new public virtual string f1289() { return "C.f1289"; }
new public virtual string f1290() { return "C.f1290"; }
new public virtual string f1291() { return "C.f1291"; }
new public virtual string f1292() { return "C.f1292"; }
new public virtual string f1293() { return "C.f1293"; }
new public virtual string f1294() { return "C.f1294"; }
new public virtual string f1295() { return "C.f1295"; }
new public virtual string f1296() { return "C.f1296"; }
new public virtual string f1297() { return "C.f1297"; }
new public virtual string f1298() { return "C.f1298"; }
new public virtual string f1299() { return "C.f1299"; }
new public virtual string f1300() { return "C.f1300"; }
new public virtual string f1301() { return "C.f1301"; }
new public virtual string f1302() { return "C.f1302"; }
new public virtual string f1303() { return "C.f1303"; }
new public virtual string f1304() { return "C.f1304"; }
new public virtual string f1305() { return "C.f1305"; }
new public virtual string f1306() { return "C.f1306"; }
new public virtual string f1307() { return "C.f1307"; }
new public virtual string f1308() { return "C.f1308"; }
new public virtual string f1309() { return "C.f1309"; }
new public virtual string f1310() { return "C.f1310"; }
new public virtual string f1311() { return "C.f1311"; }
new public virtual string f1312() { return "C.f1312"; }
new public virtual string f1313() { return "C.f1313"; }
new public virtual string f1314() { return "C.f1314"; }
new public virtual string f1315() { return "C.f1315"; }
new public virtual string f1316() { return "C.f1316"; }
new public virtual string f1317() { return "C.f1317"; }
new public virtual string f1318() { return "C.f1318"; }
new public virtual string f1319() { return "C.f1319"; }
new public virtual string f1320() { return "C.f1320"; }
new public virtual string f1321() { return "C.f1321"; }
new public virtual string f1322() { return "C.f1322"; }
new public virtual string f1323() { return "C.f1323"; }
new public virtual string f1324() { return "C.f1324"; }
new public virtual string f1325() { return "C.f1325"; }
new public virtual string f1326() { return "C.f1326"; }
new public virtual string f1327() { return "C.f1327"; }
new public virtual string f1328() { return "C.f1328"; }
new public virtual string f1329() { return "C.f1329"; }
new public virtual string f1330() { return "C.f1330"; }
new public virtual string f1331() { return "C.f1331"; }
new public virtual string f1332() { return "C.f1332"; }
new public virtual string f1333() { return "C.f1333"; }
new public virtual string f1334() { return "C.f1334"; }
new public virtual string f1335() { return "C.f1335"; }
new public virtual string f1336() { return "C.f1336"; }
new public virtual string f1337() { return "C.f1337"; }
new public virtual string f1338() { return "C.f1338"; }
new public virtual string f1339() { return "C.f1339"; }
new public virtual string f1340() { return "C.f1340"; }
new public virtual string f1341() { return "C.f1341"; }
new public virtual string f1342() { return "C.f1342"; }
new public virtual string f1343() { return "C.f1343"; }
new public virtual string f1344() { return "C.f1344"; }
new public virtual string f1345() { return "C.f1345"; }
new public virtual string f1346() { return "C.f1346"; }
new public virtual string f1347() { return "C.f1347"; }
new public virtual string f1348() { return "C.f1348"; }
new public virtual string f1349() { return "C.f1349"; }
new public virtual string f1350() { return "C.f1350"; }
new public virtual string f1351() { return "C.f1351"; }
new public virtual string f1352() { return "C.f1352"; }
new public virtual string f1353() { return "C.f1353"; }
new public virtual string f1354() { return "C.f1354"; }
new public virtual string f1355() { return "C.f1355"; }
new public virtual string f1356() { return "C.f1356"; }
new public virtual string f1357() { return "C.f1357"; }
new public virtual string f1358() { return "C.f1358"; }
new public virtual string f1359() { return "C.f1359"; }
new public virtual string f1360() { return "C.f1360"; }
new public virtual string f1361() { return "C.f1361"; }
new public virtual string f1362() { return "C.f1362"; }
new public virtual string f1363() { return "C.f1363"; }
new public virtual string f1364() { return "C.f1364"; }
new public virtual string f1365() { return "C.f1365"; }
new public virtual string f1366() { return "C.f1366"; }
new public virtual string f1367() { return "C.f1367"; }
new public virtual string f1368() { return "C.f1368"; }
new public virtual string f1369() { return "C.f1369"; }
new public virtual string f1370() { return "C.f1370"; }
new public virtual string f1371() { return "C.f1371"; }
new public virtual string f1372() { return "C.f1372"; }
new public virtual string f1373() { return "C.f1373"; }
new public virtual string f1374() { return "C.f1374"; }
new public virtual string f1375() { return "C.f1375"; }
new public virtual string f1376() { return "C.f1376"; }
new public virtual string f1377() { return "C.f1377"; }
new public virtual string f1378() { return "C.f1378"; }
new public virtual string f1379() { return "C.f1379"; }
new public virtual string f1380() { return "C.f1380"; }
new public virtual string f1381() { return "C.f1381"; }
new public virtual string f1382() { return "C.f1382"; }
new public virtual string f1383() { return "C.f1383"; }
new public virtual string f1384() { return "C.f1384"; }
new public virtual string f1385() { return "C.f1385"; }
new public virtual string f1386() { return "C.f1386"; }
new public virtual string f1387() { return "C.f1387"; }
new public virtual string f1388() { return "C.f1388"; }
new public virtual string f1389() { return "C.f1389"; }
new public virtual string f1390() { return "C.f1390"; }
new public virtual string f1391() { return "C.f1391"; }
new public virtual string f1392() { return "C.f1392"; }
new public virtual string f1393() { return "C.f1393"; }
new public virtual string f1394() { return "C.f1394"; }
new public virtual string f1395() { return "C.f1395"; }
new public virtual string f1396() { return "C.f1396"; }
new public virtual string f1397() { return "C.f1397"; }
new public virtual string f1398() { return "C.f1398"; }
new public virtual string f1399() { return "C.f1399"; }
new public virtual string f1400() { return "C.f1400"; }
new public virtual string f1401() { return "C.f1401"; }
new public virtual string f1402() { return "C.f1402"; }
new public virtual string f1403() { return "C.f1403"; }
new public virtual string f1404() { return "C.f1404"; }
new public virtual string f1405() { return "C.f1405"; }
new public virtual string f1406() { return "C.f1406"; }
new public virtual string f1407() { return "C.f1407"; }
new public virtual string f1408() { return "C.f1408"; }
new public virtual string f1409() { return "C.f1409"; }
new public virtual string f1410() { return "C.f1410"; }
new public virtual string f1411() { return "C.f1411"; }
new public virtual string f1412() { return "C.f1412"; }
new public virtual string f1413() { return "C.f1413"; }
new public virtual string f1414() { return "C.f1414"; }
new public virtual string f1415() { return "C.f1415"; }
new public virtual string f1416() { return "C.f1416"; }
new public virtual string f1417() { return "C.f1417"; }
new public virtual string f1418() { return "C.f1418"; }
new public virtual string f1419() { return "C.f1419"; }
new public virtual string f1420() { return "C.f1420"; }
new public virtual string f1421() { return "C.f1421"; }
new public virtual string f1422() { return "C.f1422"; }
new public virtual string f1423() { return "C.f1423"; }
new public virtual string f1424() { return "C.f1424"; }
new public virtual string f1425() { return "C.f1425"; }
new public virtual string f1426() { return "C.f1426"; }
new public virtual string f1427() { return "C.f1427"; }
new public virtual string f1428() { return "C.f1428"; }
new public virtual string f1429() { return "C.f1429"; }
new public virtual string f1430() { return "C.f1430"; }
new public virtual string f1431() { return "C.f1431"; }
new public virtual string f1432() { return "C.f1432"; }
new public virtual string f1433() { return "C.f1433"; }
new public virtual string f1434() { return "C.f1434"; }
new public virtual string f1435() { return "C.f1435"; }
new public virtual string f1436() { return "C.f1436"; }
new public virtual string f1437() { return "C.f1437"; }
new public virtual string f1438() { return "C.f1438"; }
new public virtual string f1439() { return "C.f1439"; }
new public virtual string f1440() { return "C.f1440"; }
new public virtual string f1441() { return "C.f1441"; }
new public virtual string f1442() { return "C.f1442"; }
new public virtual string f1443() { return "C.f1443"; }
new public virtual string f1444() { return "C.f1444"; }
new public virtual string f1445() { return "C.f1445"; }
new public virtual string f1446() { return "C.f1446"; }
new public virtual string f1447() { return "C.f1447"; }
new public virtual string f1448() { return "C.f1448"; }
new public virtual string f1449() { return "C.f1449"; }
new public virtual string f1450() { return "C.f1450"; }
new public virtual string f1451() { return "C.f1451"; }
new public virtual string f1452() { return "C.f1452"; }
new public virtual string f1453() { return "C.f1453"; }
new public virtual string f1454() { return "C.f1454"; }
new public virtual string f1455() { return "C.f1455"; }
new public virtual string f1456() { return "C.f1456"; }
new public virtual string f1457() { return "C.f1457"; }
new public virtual string f1458() { return "C.f1458"; }
new public virtual string f1459() { return "C.f1459"; }
new public virtual string f1460() { return "C.f1460"; }
new public virtual string f1461() { return "C.f1461"; }
new public virtual string f1462() { return "C.f1462"; }
new public virtual string f1463() { return "C.f1463"; }
new public virtual string f1464() { return "C.f1464"; }
new public virtual string f1465() { return "C.f1465"; }
new public virtual string f1466() { return "C.f1466"; }
new public virtual string f1467() { return "C.f1467"; }
new public virtual string f1468() { return "C.f1468"; }
new public virtual string f1469() { return "C.f1469"; }
new public virtual string f1470() { return "C.f1470"; }
new public virtual string f1471() { return "C.f1471"; }
new public virtual string f1472() { return "C.f1472"; }
new public virtual string f1473() { return "C.f1473"; }
new public virtual string f1474() { return "C.f1474"; }
new public virtual string f1475() { return "C.f1475"; }
new public virtual string f1476() { return "C.f1476"; }
new public virtual string f1477() { return "C.f1477"; }
new public virtual string f1478() { return "C.f1478"; }
new public virtual string f1479() { return "C.f1479"; }
new public virtual string f1480() { return "C.f1480"; }
new public virtual string f1481() { return "C.f1481"; }
new public virtual string f1482() { return "C.f1482"; }
new public virtual string f1483() { return "C.f1483"; }
new public virtual string f1484() { return "C.f1484"; }
new public virtual string f1485() { return "C.f1485"; }
new public virtual string f1486() { return "C.f1486"; }
new public virtual string f1487() { return "C.f1487"; }
new public virtual string f1488() { return "C.f1488"; }
new public virtual string f1489() { return "C.f1489"; }
new public virtual string f1490() { return "C.f1490"; }
new public virtual string f1491() { return "C.f1491"; }
new public virtual string f1492() { return "C.f1492"; }
new public virtual string f1493() { return "C.f1493"; }
new public virtual string f1494() { return "C.f1494"; }
new public virtual string f1495() { return "C.f1495"; }
new public virtual string f1496() { return "C.f1496"; }
new public virtual string f1497() { return "C.f1497"; }
new public virtual string f1498() { return "C.f1498"; }
new public virtual string f1499() { return "C.f1499"; }
new public virtual string f1500() { return "C.f1500"; }
new public virtual string f1501() { return "C.f1501"; }
new public virtual string f1502() { return "C.f1502"; }
new public virtual string f1503() { return "C.f1503"; }
new public virtual string f1504() { return "C.f1504"; }
new public virtual string f1505() { return "C.f1505"; }
new public virtual string f1506() { return "C.f1506"; }
new public virtual string f1507() { return "C.f1507"; }
new public virtual string f1508() { return "C.f1508"; }
new public virtual string f1509() { return "C.f1509"; }
new public virtual string f1510() { return "C.f1510"; }
new public virtual string f1511() { return "C.f1511"; }
new public virtual string f1512() { return "C.f1512"; }
new public virtual string f1513() { return "C.f1513"; }
new public virtual string f1514() { return "C.f1514"; }
new public virtual string f1515() { return "C.f1515"; }
new public virtual string f1516() { return "C.f1516"; }
new public virtual string f1517() { return "C.f1517"; }
new public virtual string f1518() { return "C.f1518"; }
new public virtual string f1519() { return "C.f1519"; }
new public virtual string f1520() { return "C.f1520"; }
new public virtual string f1521() { return "C.f1521"; }
new public virtual string f1522() { return "C.f1522"; }
new public virtual string f1523() { return "C.f1523"; }
new public virtual string f1524() { return "C.f1524"; }
new public virtual string f1525() { return "C.f1525"; }
new public virtual string f1526() { return "C.f1526"; }
new public virtual string f1527() { return "C.f1527"; }
new public virtual string f1528() { return "C.f1528"; }
new public virtual string f1529() { return "C.f1529"; }
new public virtual string f1530() { return "C.f1530"; }
new public virtual string f1531() { return "C.f1531"; }
new public virtual string f1532() { return "C.f1532"; }
new public virtual string f1533() { return "C.f1533"; }
new public virtual string f1534() { return "C.f1534"; }
new public virtual string f1535() { return "C.f1535"; }
new public virtual string f1536() { return "C.f1536"; }
new public virtual string f1537() { return "C.f1537"; }
new public virtual string f1538() { return "C.f1538"; }
new public virtual string f1539() { return "C.f1539"; }
new public virtual string f1540() { return "C.f1540"; }
new public virtual string f1541() { return "C.f1541"; }
new public virtual string f1542() { return "C.f1542"; }
new public virtual string f1543() { return "C.f1543"; }
new public virtual string f1544() { return "C.f1544"; }
new public virtual string f1545() { return "C.f1545"; }
new public virtual string f1546() { return "C.f1546"; }
new public virtual string f1547() { return "C.f1547"; }
new public virtual string f1548() { return "C.f1548"; }
new public virtual string f1549() { return "C.f1549"; }
new public virtual string f1550() { return "C.f1550"; }
new public virtual string f1551() { return "C.f1551"; }
new public virtual string f1552() { return "C.f1552"; }
new public virtual string f1553() { return "C.f1553"; }
new public virtual string f1554() { return "C.f1554"; }
new public virtual string f1555() { return "C.f1555"; }
new public virtual string f1556() { return "C.f1556"; }
new public virtual string f1557() { return "C.f1557"; }
new public virtual string f1558() { return "C.f1558"; }
new public virtual string f1559() { return "C.f1559"; }
new public virtual string f1560() { return "C.f1560"; }
new public virtual string f1561() { return "C.f1561"; }
new public virtual string f1562() { return "C.f1562"; }
new public virtual string f1563() { return "C.f1563"; }
new public virtual string f1564() { return "C.f1564"; }
new public virtual string f1565() { return "C.f1565"; }
new public virtual string f1566() { return "C.f1566"; }
new public virtual string f1567() { return "C.f1567"; }
new public virtual string f1568() { return "C.f1568"; }
new public virtual string f1569() { return "C.f1569"; }
new public virtual string f1570() { return "C.f1570"; }
new public virtual string f1571() { return "C.f1571"; }
new public virtual string f1572() { return "C.f1572"; }
new public virtual string f1573() { return "C.f1573"; }
new public virtual string f1574() { return "C.f1574"; }
new public virtual string f1575() { return "C.f1575"; }
new public virtual string f1576() { return "C.f1576"; }
new public virtual string f1577() { return "C.f1577"; }
new public virtual string f1578() { return "C.f1578"; }
new public virtual string f1579() { return "C.f1579"; }
new public virtual string f1580() { return "C.f1580"; }
new public virtual string f1581() { return "C.f1581"; }
new public virtual string f1582() { return "C.f1582"; }
new public virtual string f1583() { return "C.f1583"; }
new public virtual string f1584() { return "C.f1584"; }
new public virtual string f1585() { return "C.f1585"; }
new public virtual string f1586() { return "C.f1586"; }
new public virtual string f1587() { return "C.f1587"; }
new public virtual string f1588() { return "C.f1588"; }
new public virtual string f1589() { return "C.f1589"; }
new public virtual string f1590() { return "C.f1590"; }
new public virtual string f1591() { return "C.f1591"; }
new public virtual string f1592() { return "C.f1592"; }
new public virtual string f1593() { return "C.f1593"; }
new public virtual string f1594() { return "C.f1594"; }
new public virtual string f1595() { return "C.f1595"; }
new public virtual string f1596() { return "C.f1596"; }
new public virtual string f1597() { return "C.f1597"; }
new public virtual string f1598() { return "C.f1598"; }
new public virtual string f1599() { return "C.f1599"; }
new public virtual string f1600() { return "C.f1600"; }
new public virtual string f1601() { return "C.f1601"; }
new public virtual string f1602() { return "C.f1602"; }
new public virtual string f1603() { return "C.f1603"; }
new public virtual string f1604() { return "C.f1604"; }
new public virtual string f1605() { return "C.f1605"; }
new public virtual string f1606() { return "C.f1606"; }
new public virtual string f1607() { return "C.f1607"; }
new public virtual string f1608() { return "C.f1608"; }
new public virtual string f1609() { return "C.f1609"; }
new public virtual string f1610() { return "C.f1610"; }
new public virtual string f1611() { return "C.f1611"; }
new public virtual string f1612() { return "C.f1612"; }
new public virtual string f1613() { return "C.f1613"; }
new public virtual string f1614() { return "C.f1614"; }
new public virtual string f1615() { return "C.f1615"; }
new public virtual string f1616() { return "C.f1616"; }
new public virtual string f1617() { return "C.f1617"; }
new public virtual string f1618() { return "C.f1618"; }
new public virtual string f1619() { return "C.f1619"; }
new public virtual string f1620() { return "C.f1620"; }
new public virtual string f1621() { return "C.f1621"; }
new public virtual string f1622() { return "C.f1622"; }
new public virtual string f1623() { return "C.f1623"; }
new public virtual string f1624() { return "C.f1624"; }
new public virtual string f1625() { return "C.f1625"; }
new public virtual string f1626() { return "C.f1626"; }
new public virtual string f1627() { return "C.f1627"; }
new public virtual string f1628() { return "C.f1628"; }
new public virtual string f1629() { return "C.f1629"; }
new public virtual string f1630() { return "C.f1630"; }
new public virtual string f1631() { return "C.f1631"; }
new public virtual string f1632() { return "C.f1632"; }
new public virtual string f1633() { return "C.f1633"; }
new public virtual string f1634() { return "C.f1634"; }
new public virtual string f1635() { return "C.f1635"; }
new public virtual string f1636() { return "C.f1636"; }
new public virtual string f1637() { return "C.f1637"; }
new public virtual string f1638() { return "C.f1638"; }
new public virtual string f1639() { return "C.f1639"; }
new public virtual string f1640() { return "C.f1640"; }
new public virtual string f1641() { return "C.f1641"; }
new public virtual string f1642() { return "C.f1642"; }
new public virtual string f1643() { return "C.f1643"; }
new public virtual string f1644() { return "C.f1644"; }
new public virtual string f1645() { return "C.f1645"; }
new public virtual string f1646() { return "C.f1646"; }
new public virtual string f1647() { return "C.f1647"; }
new public virtual string f1648() { return "C.f1648"; }
new public virtual string f1649() { return "C.f1649"; }
new public virtual string f1650() { return "C.f1650"; }
new public virtual string f1651() { return "C.f1651"; }
new public virtual string f1652() { return "C.f1652"; }
new public virtual string f1653() { return "C.f1653"; }
new public virtual string f1654() { return "C.f1654"; }
new public virtual string f1655() { return "C.f1655"; }
new public virtual string f1656() { return "C.f1656"; }
new public virtual string f1657() { return "C.f1657"; }
new public virtual string f1658() { return "C.f1658"; }
new public virtual string f1659() { return "C.f1659"; }
new public virtual string f1660() { return "C.f1660"; }
new public virtual string f1661() { return "C.f1661"; }
new public virtual string f1662() { return "C.f1662"; }
new public virtual string f1663() { return "C.f1663"; }
new public virtual string f1664() { return "C.f1664"; }
new public virtual string f1665() { return "C.f1665"; }
new public virtual string f1666() { return "C.f1666"; }
new public virtual string f1667() { return "C.f1667"; }
new public virtual string f1668() { return "C.f1668"; }
new public virtual string f1669() { return "C.f1669"; }
new public virtual string f1670() { return "C.f1670"; }
new public virtual string f1671() { return "C.f1671"; }
new public virtual string f1672() { return "C.f1672"; }
new public virtual string f1673() { return "C.f1673"; }
new public virtual string f1674() { return "C.f1674"; }
new public virtual string f1675() { return "C.f1675"; }
new public virtual string f1676() { return "C.f1676"; }
new public virtual string f1677() { return "C.f1677"; }
new public virtual string f1678() { return "C.f1678"; }
new public virtual string f1679() { return "C.f1679"; }
new public virtual string f1680() { return "C.f1680"; }
new public virtual string f1681() { return "C.f1681"; }
new public virtual string f1682() { return "C.f1682"; }
new public virtual string f1683() { return "C.f1683"; }
new public virtual string f1684() { return "C.f1684"; }
new public virtual string f1685() { return "C.f1685"; }
new public virtual string f1686() { return "C.f1686"; }
new public virtual string f1687() { return "C.f1687"; }
new public virtual string f1688() { return "C.f1688"; }
new public virtual string f1689() { return "C.f1689"; }
new public virtual string f1690() { return "C.f1690"; }
new public virtual string f1691() { return "C.f1691"; }
new public virtual string f1692() { return "C.f1692"; }
new public virtual string f1693() { return "C.f1693"; }
new public virtual string f1694() { return "C.f1694"; }
new public virtual string f1695() { return "C.f1695"; }
new public virtual string f1696() { return "C.f1696"; }
new public virtual string f1697() { return "C.f1697"; }
new public virtual string f1698() { return "C.f1698"; }
new public virtual string f1699() { return "C.f1699"; }
new public virtual string f1700() { return "C.f1700"; }
new public virtual string f1701() { return "C.f1701"; }
new public virtual string f1702() { return "C.f1702"; }
new public virtual string f1703() { return "C.f1703"; }
new public virtual string f1704() { return "C.f1704"; }
new public virtual string f1705() { return "C.f1705"; }
new public virtual string f1706() { return "C.f1706"; }
new public virtual string f1707() { return "C.f1707"; }
new public virtual string f1708() { return "C.f1708"; }
new public virtual string f1709() { return "C.f1709"; }
new public virtual string f1710() { return "C.f1710"; }
new public virtual string f1711() { return "C.f1711"; }
new public virtual string f1712() { return "C.f1712"; }
new public virtual string f1713() { return "C.f1713"; }
new public virtual string f1714() { return "C.f1714"; }
new public virtual string f1715() { return "C.f1715"; }
new public virtual string f1716() { return "C.f1716"; }
new public virtual string f1717() { return "C.f1717"; }
new public virtual string f1718() { return "C.f1718"; }
new public virtual string f1719() { return "C.f1719"; }
new public virtual string f1720() { return "C.f1720"; }
new public virtual string f1721() { return "C.f1721"; }
new public virtual string f1722() { return "C.f1722"; }
new public virtual string f1723() { return "C.f1723"; }
new public virtual string f1724() { return "C.f1724"; }
new public virtual string f1725() { return "C.f1725"; }
new public virtual string f1726() { return "C.f1726"; }
new public virtual string f1727() { return "C.f1727"; }
new public virtual string f1728() { return "C.f1728"; }
new public virtual string f1729() { return "C.f1729"; }
new public virtual string f1730() { return "C.f1730"; }
new public virtual string f1731() { return "C.f1731"; }
new public virtual string f1732() { return "C.f1732"; }
new public virtual string f1733() { return "C.f1733"; }
new public virtual string f1734() { return "C.f1734"; }
new public virtual string f1735() { return "C.f1735"; }
new public virtual string f1736() { return "C.f1736"; }
new public virtual string f1737() { return "C.f1737"; }
new public virtual string f1738() { return "C.f1738"; }
new public virtual string f1739() { return "C.f1739"; }
new public virtual string f1740() { return "C.f1740"; }
new public virtual string f1741() { return "C.f1741"; }
new public virtual string f1742() { return "C.f1742"; }
new public virtual string f1743() { return "C.f1743"; }
new public virtual string f1744() { return "C.f1744"; }
new public virtual string f1745() { return "C.f1745"; }
new public virtual string f1746() { return "C.f1746"; }
new public virtual string f1747() { return "C.f1747"; }
new public virtual string f1748() { return "C.f1748"; }
new public virtual string f1749() { return "C.f1749"; }
new public virtual string f1750() { return "C.f1750"; }
new public virtual string f1751() { return "C.f1751"; }
new public virtual string f1752() { return "C.f1752"; }
new public virtual string f1753() { return "C.f1753"; }
new public virtual string f1754() { return "C.f1754"; }
new public virtual string f1755() { return "C.f1755"; }
new public virtual string f1756() { return "C.f1756"; }
new public virtual string f1757() { return "C.f1757"; }
new public virtual string f1758() { return "C.f1758"; }
new public virtual string f1759() { return "C.f1759"; }
new public virtual string f1760() { return "C.f1760"; }
new public virtual string f1761() { return "C.f1761"; }
new public virtual string f1762() { return "C.f1762"; }
new public virtual string f1763() { return "C.f1763"; }
new public virtual string f1764() { return "C.f1764"; }
new public virtual string f1765() { return "C.f1765"; }
new public virtual string f1766() { return "C.f1766"; }
new public virtual string f1767() { return "C.f1767"; }
new public virtual string f1768() { return "C.f1768"; }
new public virtual string f1769() { return "C.f1769"; }
new public virtual string f1770() { return "C.f1770"; }
new public virtual string f1771() { return "C.f1771"; }
new public virtual string f1772() { return "C.f1772"; }
new public virtual string f1773() { return "C.f1773"; }
new public virtual string f1774() { return "C.f1774"; }
new public virtual string f1775() { return "C.f1775"; }
new public virtual string f1776() { return "C.f1776"; }
new public virtual string f1777() { return "C.f1777"; }
new public virtual string f1778() { return "C.f1778"; }
new public virtual string f1779() { return "C.f1779"; }
new public virtual string f1780() { return "C.f1780"; }
new public virtual string f1781() { return "C.f1781"; }
new public virtual string f1782() { return "C.f1782"; }
new public virtual string f1783() { return "C.f1783"; }
new public virtual string f1784() { return "C.f1784"; }
new public virtual string f1785() { return "C.f1785"; }
new public virtual string f1786() { return "C.f1786"; }
new public virtual string f1787() { return "C.f1787"; }
new public virtual string f1788() { return "C.f1788"; }
new public virtual string f1789() { return "C.f1789"; }
new public virtual string f1790() { return "C.f1790"; }
new public virtual string f1791() { return "C.f1791"; }
new public virtual string f1792() { return "C.f1792"; }
new public virtual string f1793() { return "C.f1793"; }
new public virtual string f1794() { return "C.f1794"; }
new public virtual string f1795() { return "C.f1795"; }
new public virtual string f1796() { return "C.f1796"; }
new public virtual string f1797() { return "C.f1797"; }
new public virtual string f1798() { return "C.f1798"; }
new public virtual string f1799() { return "C.f1799"; }
new public virtual string f1800() { return "C.f1800"; }
new public virtual string f1801() { return "C.f1801"; }
new public virtual string f1802() { return "C.f1802"; }
new public virtual string f1803() { return "C.f1803"; }
new public virtual string f1804() { return "C.f1804"; }
new public virtual string f1805() { return "C.f1805"; }
new public virtual string f1806() { return "C.f1806"; }
new public virtual string f1807() { return "C.f1807"; }
new public virtual string f1808() { return "C.f1808"; }
new public virtual string f1809() { return "C.f1809"; }
new public virtual string f1810() { return "C.f1810"; }
new public virtual string f1811() { return "C.f1811"; }
new public virtual string f1812() { return "C.f1812"; }
new public virtual string f1813() { return "C.f1813"; }
new public virtual string f1814() { return "C.f1814"; }
new public virtual string f1815() { return "C.f1815"; }
new public virtual string f1816() { return "C.f1816"; }
new public virtual string f1817() { return "C.f1817"; }
new public virtual string f1818() { return "C.f1818"; }
new public virtual string f1819() { return "C.f1819"; }
new public virtual string f1820() { return "C.f1820"; }
new public virtual string f1821() { return "C.f1821"; }
new public virtual string f1822() { return "C.f1822"; }
new public virtual string f1823() { return "C.f1823"; }
new public virtual string f1824() { return "C.f1824"; }
new public virtual string f1825() { return "C.f1825"; }
new public virtual string f1826() { return "C.f1826"; }
new public virtual string f1827() { return "C.f1827"; }
new public virtual string f1828() { return "C.f1828"; }
new public virtual string f1829() { return "C.f1829"; }
new public virtual string f1830() { return "C.f1830"; }
new public virtual string f1831() { return "C.f1831"; }
new public virtual string f1832() { return "C.f1832"; }
new public virtual string f1833() { return "C.f1833"; }
new public virtual string f1834() { return "C.f1834"; }
new public virtual string f1835() { return "C.f1835"; }
new public virtual string f1836() { return "C.f1836"; }
new public virtual string f1837() { return "C.f1837"; }
new public virtual string f1838() { return "C.f1838"; }
new public virtual string f1839() { return "C.f1839"; }
new public virtual string f1840() { return "C.f1840"; }
new public virtual string f1841() { return "C.f1841"; }
new public virtual string f1842() { return "C.f1842"; }
new public virtual string f1843() { return "C.f1843"; }
new public virtual string f1844() { return "C.f1844"; }
new public virtual string f1845() { return "C.f1845"; }
new public virtual string f1846() { return "C.f1846"; }
new public virtual string f1847() { return "C.f1847"; }
new public virtual string f1848() { return "C.f1848"; }
new public virtual string f1849() { return "C.f1849"; }
new public virtual string f1850() { return "C.f1850"; }
new public virtual string f1851() { return "C.f1851"; }
new public virtual string f1852() { return "C.f1852"; }
new public virtual string f1853() { return "C.f1853"; }
new public virtual string f1854() { return "C.f1854"; }
new public virtual string f1855() { return "C.f1855"; }
new public virtual string f1856() { return "C.f1856"; }
new public virtual string f1857() { return "C.f1857"; }
new public virtual string f1858() { return "C.f1858"; }
new public virtual string f1859() { return "C.f1859"; }
new public virtual string f1860() { return "C.f1860"; }
new public virtual string f1861() { return "C.f1861"; }
new public virtual string f1862() { return "C.f1862"; }
new public virtual string f1863() { return "C.f1863"; }
new public virtual string f1864() { return "C.f1864"; }
new public virtual string f1865() { return "C.f1865"; }
new public virtual string f1866() { return "C.f1866"; }
new public virtual string f1867() { return "C.f1867"; }
new public virtual string f1868() { return "C.f1868"; }
new public virtual string f1869() { return "C.f1869"; }
new public virtual string f1870() { return "C.f1870"; }
new public virtual string f1871() { return "C.f1871"; }
new public virtual string f1872() { return "C.f1872"; }
new public virtual string f1873() { return "C.f1873"; }
new public virtual string f1874() { return "C.f1874"; }
new public virtual string f1875() { return "C.f1875"; }
new public virtual string f1876() { return "C.f1876"; }
new public virtual string f1877() { return "C.f1877"; }
new public virtual string f1878() { return "C.f1878"; }
new public virtual string f1879() { return "C.f1879"; }
new public virtual string f1880() { return "C.f1880"; }
new public virtual string f1881() { return "C.f1881"; }
new public virtual string f1882() { return "C.f1882"; }
new public virtual string f1883() { return "C.f1883"; }
new public virtual string f1884() { return "C.f1884"; }
new public virtual string f1885() { return "C.f1885"; }
new public virtual string f1886() { return "C.f1886"; }
new public virtual string f1887() { return "C.f1887"; }
new public virtual string f1888() { return "C.f1888"; }
new public virtual string f1889() { return "C.f1889"; }
new public virtual string f1890() { return "C.f1890"; }
new public virtual string f1891() { return "C.f1891"; }
new public virtual string f1892() { return "C.f1892"; }
new public virtual string f1893() { return "C.f1893"; }
new public virtual string f1894() { return "C.f1894"; }
new public virtual string f1895() { return "C.f1895"; }
new public virtual string f1896() { return "C.f1896"; }
new public virtual string f1897() { return "C.f1897"; }
new public virtual string f1898() { return "C.f1898"; }
new public virtual string f1899() { return "C.f1899"; }
new public virtual string f1900() { return "C.f1900"; }
new public virtual string f1901() { return "C.f1901"; }
new public virtual string f1902() { return "C.f1902"; }
new public virtual string f1903() { return "C.f1903"; }
new public virtual string f1904() { return "C.f1904"; }
new public virtual string f1905() { return "C.f1905"; }
new public virtual string f1906() { return "C.f1906"; }
new public virtual string f1907() { return "C.f1907"; }
new public virtual string f1908() { return "C.f1908"; }
new public virtual string f1909() { return "C.f1909"; }
new public virtual string f1910() { return "C.f1910"; }
new public virtual string f1911() { return "C.f1911"; }
new public virtual string f1912() { return "C.f1912"; }
new public virtual string f1913() { return "C.f1913"; }
new public virtual string f1914() { return "C.f1914"; }
new public virtual string f1915() { return "C.f1915"; }
new public virtual string f1916() { return "C.f1916"; }
new public virtual string f1917() { return "C.f1917"; }
new public virtual string f1918() { return "C.f1918"; }
new public virtual string f1919() { return "C.f1919"; }
new public virtual string f1920() { return "C.f1920"; }
new public virtual string f1921() { return "C.f1921"; }
new public virtual string f1922() { return "C.f1922"; }
new public virtual string f1923() { return "C.f1923"; }
new public virtual string f1924() { return "C.f1924"; }
new public virtual string f1925() { return "C.f1925"; }
new public virtual string f1926() { return "C.f1926"; }
new public virtual string f1927() { return "C.f1927"; }
new public virtual string f1928() { return "C.f1928"; }
new public virtual string f1929() { return "C.f1929"; }
new public virtual string f1930() { return "C.f1930"; }
new public virtual string f1931() { return "C.f1931"; }
new public virtual string f1932() { return "C.f1932"; }
new public virtual string f1933() { return "C.f1933"; }
new public virtual string f1934() { return "C.f1934"; }
new public virtual string f1935() { return "C.f1935"; }
new public virtual string f1936() { return "C.f1936"; }
new public virtual string f1937() { return "C.f1937"; }
new public virtual string f1938() { return "C.f1938"; }
new public virtual string f1939() { return "C.f1939"; }
new public virtual string f1940() { return "C.f1940"; }
new public virtual string f1941() { return "C.f1941"; }
new public virtual string f1942() { return "C.f1942"; }
new public virtual string f1943() { return "C.f1943"; }
new public virtual string f1944() { return "C.f1944"; }
new public virtual string f1945() { return "C.f1945"; }
new public virtual string f1946() { return "C.f1946"; }
new public virtual string f1947() { return "C.f1947"; }
new public virtual string f1948() { return "C.f1948"; }
new public virtual string f1949() { return "C.f1949"; }
new public virtual string f1950() { return "C.f1950"; }
new public virtual string f1951() { return "C.f1951"; }
new public virtual string f1952() { return "C.f1952"; }
new public virtual string f1953() { return "C.f1953"; }
new public virtual string f1954() { return "C.f1954"; }
new public virtual string f1955() { return "C.f1955"; }
new public virtual string f1956() { return "C.f1956"; }
new public virtual string f1957() { return "C.f1957"; }
new public virtual string f1958() { return "C.f1958"; }
new public virtual string f1959() { return "C.f1959"; }
new public virtual string f1960() { return "C.f1960"; }
new public virtual string f1961() { return "C.f1961"; }
new public virtual string f1962() { return "C.f1962"; }
new public virtual string f1963() { return "C.f1963"; }
new public virtual string f1964() { return "C.f1964"; }
new public virtual string f1965() { return "C.f1965"; }
new public virtual string f1966() { return "C.f1966"; }
new public virtual string f1967() { return "C.f1967"; }
new public virtual string f1968() { return "C.f1968"; }
new public virtual string f1969() { return "C.f1969"; }
new public virtual string f1970() { return "C.f1970"; }
new public virtual string f1971() { return "C.f1971"; }
new public virtual string f1972() { return "C.f1972"; }
new public virtual string f1973() { return "C.f1973"; }
new public virtual string f1974() { return "C.f1974"; }
new public virtual string f1975() { return "C.f1975"; }
new public virtual string f1976() { return "C.f1976"; }
new public virtual string f1977() { return "C.f1977"; }
new public virtual string f1978() { return "C.f1978"; }
new public virtual string f1979() { return "C.f1979"; }
new public virtual string f1980() { return "C.f1980"; }
new public virtual string f1981() { return "C.f1981"; }
new public virtual string f1982() { return "C.f1982"; }
new public virtual string f1983() { return "C.f1983"; }
new public virtual string f1984() { return "C.f1984"; }
new public virtual string f1985() { return "C.f1985"; }
new public virtual string f1986() { return "C.f1986"; }
new public virtual string f1987() { return "C.f1987"; }
new public virtual string f1988() { return "C.f1988"; }
new public virtual string f1989() { return "C.f1989"; }
new public virtual string f1990() { return "C.f1990"; }
new public virtual string f1991() { return "C.f1991"; }
new public virtual string f1992() { return "C.f1992"; }
new public virtual string f1993() { return "C.f1993"; }
new public virtual string f1994() { return "C.f1994"; }
new public virtual string f1995() { return "C.f1995"; }
new public virtual string f1996() { return "C.f1996"; }
new public virtual string f1997() { return "C.f1997"; }
new public virtual string f1998() { return "C.f1998"; }
new public virtual string f1999() { return "C.f1999"; }
new public virtual string f2000() { return "C.f2000"; }
new public virtual string f2001() { return "C.f2001"; }
new public virtual string f2002() { return "C.f2002"; }
new public virtual string f2003() { return "C.f2003"; }
new public virtual string f2004() { return "C.f2004"; }
new public virtual string f2005() { return "C.f2005"; }
new public virtual string f2006() { return "C.f2006"; }
new public virtual string f2007() { return "C.f2007"; }
new public virtual string f2008() { return "C.f2008"; }
new public virtual string f2009() { return "C.f2009"; }
new public virtual string f2010() { return "C.f2010"; }
new public virtual string f2011() { return "C.f2011"; }
new public virtual string f2012() { return "C.f2012"; }
new public virtual string f2013() { return "C.f2013"; }
new public virtual string f2014() { return "C.f2014"; }
new public virtual string f2015() { return "C.f2015"; }
new public virtual string f2016() { return "C.f2016"; }
new public virtual string f2017() { return "C.f2017"; }
new public virtual string f2018() { return "C.f2018"; }
new public virtual string f2019() { return "C.f2019"; }
new public virtual string f2020() { return "C.f2020"; }
new public virtual string f2021() { return "C.f2021"; }
new public virtual string f2022() { return "C.f2022"; }
new public virtual string f2023() { return "C.f2023"; }
new public virtual string f2024() { return "C.f2024"; }
new public virtual string f2025() { return "C.f2025"; }
new public virtual string f2026() { return "C.f2026"; }
new public virtual string f2027() { return "C.f2027"; }
new public virtual string f2028() { return "C.f2028"; }
new public virtual string f2029() { return "C.f2029"; }
new public virtual string f2030() { return "C.f2030"; }
new public virtual string f2031() { return "C.f2031"; }
new public virtual string f2032() { return "C.f2032"; }
new public virtual string f2033() { return "C.f2033"; }
new public virtual string f2034() { return "C.f2034"; }
new public virtual string f2035() { return "C.f2035"; }
new public virtual string f2036() { return "C.f2036"; }
new public virtual string f2037() { return "C.f2037"; }
new public virtual string f2038() { return "C.f2038"; }
new public virtual string f2039() { return "C.f2039"; }
new public virtual string f2040() { return "C.f2040"; }
new public virtual string f2041() { return "C.f2041"; }
new public virtual string f2042() { return "C.f2042"; }
new public virtual string f2043() { return "C.f2043"; }
new public virtual string f2044() { return "C.f2044"; }
new public virtual string f2045() { return "C.f2045"; }
new public virtual string f2046() { return "C.f2046"; }
new public virtual string f2047() { return "C.f2047"; }
new public virtual string f2048() { return "C.f2048"; }
new public virtual string f2049() { return "C.f2049"; }
new public virtual string f2050() { return "C.f2050"; }
new public virtual string f2051() { return "C.f2051"; }
new public virtual string f2052() { return "C.f2052"; }
new public virtual string f2053() { return "C.f2053"; }
new public virtual string f2054() { return "C.f2054"; }
new public virtual string f2055() { return "C.f2055"; }
new public virtual string f2056() { return "C.f2056"; }
new public virtual string f2057() { return "C.f2057"; }
new public virtual string f2058() { return "C.f2058"; }
new public virtual string f2059() { return "C.f2059"; }
new public virtual string f2060() { return "C.f2060"; }
new public virtual string f2061() { return "C.f2061"; }
new public virtual string f2062() { return "C.f2062"; }
new public virtual string f2063() { return "C.f2063"; }
new public virtual string f2064() { return "C.f2064"; }
new public virtual string f2065() { return "C.f2065"; }
new public virtual string f2066() { return "C.f2066"; }
new public virtual string f2067() { return "C.f2067"; }
new public virtual string f2068() { return "C.f2068"; }
new public virtual string f2069() { return "C.f2069"; }
new public virtual string f2070() { return "C.f2070"; }
new public virtual string f2071() { return "C.f2071"; }
new public virtual string f2072() { return "C.f2072"; }
new public virtual string f2073() { return "C.f2073"; }
new public virtual string f2074() { return "C.f2074"; }
new public virtual string f2075() { return "C.f2075"; }
new public virtual string f2076() { return "C.f2076"; }
new public virtual string f2077() { return "C.f2077"; }
new public virtual string f2078() { return "C.f2078"; }
new public virtual string f2079() { return "C.f2079"; }
new public virtual string f2080() { return "C.f2080"; }
new public virtual string f2081() { return "C.f2081"; }
new public virtual string f2082() { return "C.f2082"; }
new public virtual string f2083() { return "C.f2083"; }
new public virtual string f2084() { return "C.f2084"; }
new public virtual string f2085() { return "C.f2085"; }
new public virtual string f2086() { return "C.f2086"; }
new public virtual string f2087() { return "C.f2087"; }
new public virtual string f2088() { return "C.f2088"; }
new public virtual string f2089() { return "C.f2089"; }
new public virtual string f2090() { return "C.f2090"; }
new public virtual string f2091() { return "C.f2091"; }
new public virtual string f2092() { return "C.f2092"; }
new public virtual string f2093() { return "C.f2093"; }
new public virtual string f2094() { return "C.f2094"; }
new public virtual string f2095() { return "C.f2095"; }
new public virtual string f2096() { return "C.f2096"; }
new public virtual string f2097() { return "C.f2097"; }
new public virtual string f2098() { return "C.f2098"; }
new public virtual string f2099() { return "C.f2099"; }
new public virtual string f2100() { return "C.f2100"; }
new public virtual string f2101() { return "C.f2101"; }
new public virtual string f2102() { return "C.f2102"; }
new public virtual string f2103() { return "C.f2103"; }
new public virtual string f2104() { return "C.f2104"; }
new public virtual string f2105() { return "C.f2105"; }
new public virtual string f2106() { return "C.f2106"; }
new public virtual string f2107() { return "C.f2107"; }
new public virtual string f2108() { return "C.f2108"; }
new public virtual string f2109() { return "C.f2109"; }
new public virtual string f2110() { return "C.f2110"; }
new public virtual string f2111() { return "C.f2111"; }
new public virtual string f2112() { return "C.f2112"; }
new public virtual string f2113() { return "C.f2113"; }
new public virtual string f2114() { return "C.f2114"; }
new public virtual string f2115() { return "C.f2115"; }
new public virtual string f2116() { return "C.f2116"; }
new public virtual string f2117() { return "C.f2117"; }
new public virtual string f2118() { return "C.f2118"; }
new public virtual string f2119() { return "C.f2119"; }
new public virtual string f2120() { return "C.f2120"; }
new public virtual string f2121() { return "C.f2121"; }
new public virtual string f2122() { return "C.f2122"; }
new public virtual string f2123() { return "C.f2123"; }
new public virtual string f2124() { return "C.f2124"; }
new public virtual string f2125() { return "C.f2125"; }
new public virtual string f2126() { return "C.f2126"; }
new public virtual string f2127() { return "C.f2127"; }
new public virtual string f2128() { return "C.f2128"; }
new public virtual string f2129() { return "C.f2129"; }
new public virtual string f2130() { return "C.f2130"; }
new public virtual string f2131() { return "C.f2131"; }
new public virtual string f2132() { return "C.f2132"; }
new public virtual string f2133() { return "C.f2133"; }
new public virtual string f2134() { return "C.f2134"; }
new public virtual string f2135() { return "C.f2135"; }
new public virtual string f2136() { return "C.f2136"; }
new public virtual string f2137() { return "C.f2137"; }
new public virtual string f2138() { return "C.f2138"; }
new public virtual string f2139() { return "C.f2139"; }
new public virtual string f2140() { return "C.f2140"; }
new public virtual string f2141() { return "C.f2141"; }
new public virtual string f2142() { return "C.f2142"; }
new public virtual string f2143() { return "C.f2143"; }
new public virtual string f2144() { return "C.f2144"; }
new public virtual string f2145() { return "C.f2145"; }
new public virtual string f2146() { return "C.f2146"; }
new public virtual string f2147() { return "C.f2147"; }
new public virtual string f2148() { return "C.f2148"; }
new public virtual string f2149() { return "C.f2149"; }
new public virtual string f2150() { return "C.f2150"; }
new public virtual string f2151() { return "C.f2151"; }
new public virtual string f2152() { return "C.f2152"; }
new public virtual string f2153() { return "C.f2153"; }
new public virtual string f2154() { return "C.f2154"; }
new public virtual string f2155() { return "C.f2155"; }
new public virtual string f2156() { return "C.f2156"; }
new public virtual string f2157() { return "C.f2157"; }
new public virtual string f2158() { return "C.f2158"; }
new public virtual string f2159() { return "C.f2159"; }
new public virtual string f2160() { return "C.f2160"; }
new public virtual string f2161() { return "C.f2161"; }
new public virtual string f2162() { return "C.f2162"; }
new public virtual string f2163() { return "C.f2163"; }
new public virtual string f2164() { return "C.f2164"; }
new public virtual string f2165() { return "C.f2165"; }
new public virtual string f2166() { return "C.f2166"; }
new public virtual string f2167() { return "C.f2167"; }
new public virtual string f2168() { return "C.f2168"; }
new public virtual string f2169() { return "C.f2169"; }
new public virtual string f2170() { return "C.f2170"; }
new public virtual string f2171() { return "C.f2171"; }
new public virtual string f2172() { return "C.f2172"; }
new public virtual string f2173() { return "C.f2173"; }
new public virtual string f2174() { return "C.f2174"; }
new public virtual string f2175() { return "C.f2175"; }
new public virtual string f2176() { return "C.f2176"; }
new public virtual string f2177() { return "C.f2177"; }
new public virtual string f2178() { return "C.f2178"; }
new public virtual string f2179() { return "C.f2179"; }
new public virtual string f2180() { return "C.f2180"; }
new public virtual string f2181() { return "C.f2181"; }
new public virtual string f2182() { return "C.f2182"; }
new public virtual string f2183() { return "C.f2183"; }
new public virtual string f2184() { return "C.f2184"; }
new public virtual string f2185() { return "C.f2185"; }
new public virtual string f2186() { return "C.f2186"; }
new public virtual string f2187() { return "C.f2187"; }
new public virtual string f2188() { return "C.f2188"; }
new public virtual string f2189() { return "C.f2189"; }
new public virtual string f2190() { return "C.f2190"; }
new public virtual string f2191() { return "C.f2191"; }
new public virtual string f2192() { return "C.f2192"; }
new public virtual string f2193() { return "C.f2193"; }
new public virtual string f2194() { return "C.f2194"; }
new public virtual string f2195() { return "C.f2195"; }
new public virtual string f2196() { return "C.f2196"; }
new public virtual string f2197() { return "C.f2197"; }
new public virtual string f2198() { return "C.f2198"; }
new public virtual string f2199() { return "C.f2199"; }
new public virtual string f2200() { return "C.f2200"; }
new public virtual string f2201() { return "C.f2201"; }
new public virtual string f2202() { return "C.f2202"; }
new public virtual string f2203() { return "C.f2203"; }
new public virtual string f2204() { return "C.f2204"; }
new public virtual string f2205() { return "C.f2205"; }
new public virtual string f2206() { return "C.f2206"; }
new public virtual string f2207() { return "C.f2207"; }
new public virtual string f2208() { return "C.f2208"; }
new public virtual string f2209() { return "C.f2209"; }
new public virtual string f2210() { return "C.f2210"; }
new public virtual string f2211() { return "C.f2211"; }
new public virtual string f2212() { return "C.f2212"; }
new public virtual string f2213() { return "C.f2213"; }
new public virtual string f2214() { return "C.f2214"; }
new public virtual string f2215() { return "C.f2215"; }
new public virtual string f2216() { return "C.f2216"; }
new public virtual string f2217() { return "C.f2217"; }
new public virtual string f2218() { return "C.f2218"; }
new public virtual string f2219() { return "C.f2219"; }
new public virtual string f2220() { return "C.f2220"; }
new public virtual string f2221() { return "C.f2221"; }
new public virtual string f2222() { return "C.f2222"; }
new public virtual string f2223() { return "C.f2223"; }
new public virtual string f2224() { return "C.f2224"; }
new public virtual string f2225() { return "C.f2225"; }
new public virtual string f2226() { return "C.f2226"; }
new public virtual string f2227() { return "C.f2227"; }
new public virtual string f2228() { return "C.f2228"; }
new public virtual string f2229() { return "C.f2229"; }
new public virtual string f2230() { return "C.f2230"; }
new public virtual string f2231() { return "C.f2231"; }
new public virtual string f2232() { return "C.f2232"; }
new public virtual string f2233() { return "C.f2233"; }
new public virtual string f2234() { return "C.f2234"; }
new public virtual string f2235() { return "C.f2235"; }
new public virtual string f2236() { return "C.f2236"; }
new public virtual string f2237() { return "C.f2237"; }
new public virtual string f2238() { return "C.f2238"; }
new public virtual string f2239() { return "C.f2239"; }
new public virtual string f2240() { return "C.f2240"; }
new public virtual string f2241() { return "C.f2241"; }
new public virtual string f2242() { return "C.f2242"; }
new public virtual string f2243() { return "C.f2243"; }
new public virtual string f2244() { return "C.f2244"; }
new public virtual string f2245() { return "C.f2245"; }
new public virtual string f2246() { return "C.f2246"; }
new public virtual string f2247() { return "C.f2247"; }
new public virtual string f2248() { return "C.f2248"; }
new public virtual string f2249() { return "C.f2249"; }
new public virtual string f2250() { return "C.f2250"; }
new public virtual string f2251() { return "C.f2251"; }
new public virtual string f2252() { return "C.f2252"; }
new public virtual string f2253() { return "C.f2253"; }
new public virtual string f2254() { return "C.f2254"; }
new public virtual string f2255() { return "C.f2255"; }
new public virtual string f2256() { return "C.f2256"; }
new public virtual string f2257() { return "C.f2257"; }
new public virtual string f2258() { return "C.f2258"; }
new public virtual string f2259() { return "C.f2259"; }
new public virtual string f2260() { return "C.f2260"; }
new public virtual string f2261() { return "C.f2261"; }
new public virtual string f2262() { return "C.f2262"; }
new public virtual string f2263() { return "C.f2263"; }
new public virtual string f2264() { return "C.f2264"; }
new public virtual string f2265() { return "C.f2265"; }
new public virtual string f2266() { return "C.f2266"; }
new public virtual string f2267() { return "C.f2267"; }
new public virtual string f2268() { return "C.f2268"; }
new public virtual string f2269() { return "C.f2269"; }
new public virtual string f2270() { return "C.f2270"; }
new public virtual string f2271() { return "C.f2271"; }
new public virtual string f2272() { return "C.f2272"; }
new public virtual string f2273() { return "C.f2273"; }
new public virtual string f2274() { return "C.f2274"; }
new public virtual string f2275() { return "C.f2275"; }
new public virtual string f2276() { return "C.f2276"; }
new public virtual string f2277() { return "C.f2277"; }
new public virtual string f2278() { return "C.f2278"; }
new public virtual string f2279() { return "C.f2279"; }
new public virtual string f2280() { return "C.f2280"; }
new public virtual string f2281() { return "C.f2281"; }
new public virtual string f2282() { return "C.f2282"; }
new public virtual string f2283() { return "C.f2283"; }
new public virtual string f2284() { return "C.f2284"; }
new public virtual string f2285() { return "C.f2285"; }
new public virtual string f2286() { return "C.f2286"; }
new public virtual string f2287() { return "C.f2287"; }
new public virtual string f2288() { return "C.f2288"; }
new public virtual string f2289() { return "C.f2289"; }
new public virtual string f2290() { return "C.f2290"; }
new public virtual string f2291() { return "C.f2291"; }
new public virtual string f2292() { return "C.f2292"; }
new public virtual string f2293() { return "C.f2293"; }
new public virtual string f2294() { return "C.f2294"; }
new public virtual string f2295() { return "C.f2295"; }
new public virtual string f2296() { return "C.f2296"; }
new public virtual string f2297() { return "C.f2297"; }
new public virtual string f2298() { return "C.f2298"; }
new public virtual string f2299() { return "C.f2299"; }
new public virtual string f2300() { return "C.f2300"; }
new public virtual string f2301() { return "C.f2301"; }
new public virtual string f2302() { return "C.f2302"; }
new public virtual string f2303() { return "C.f2303"; }
new public virtual string f2304() { return "C.f2304"; }
new public virtual string f2305() { return "C.f2305"; }
new public virtual string f2306() { return "C.f2306"; }
new public virtual string f2307() { return "C.f2307"; }
new public virtual string f2308() { return "C.f2308"; }
new public virtual string f2309() { return "C.f2309"; }
new public virtual string f2310() { return "C.f2310"; }
new public virtual string f2311() { return "C.f2311"; }
new public virtual string f2312() { return "C.f2312"; }
new public virtual string f2313() { return "C.f2313"; }
new public virtual string f2314() { return "C.f2314"; }
new public virtual string f2315() { return "C.f2315"; }
new public virtual string f2316() { return "C.f2316"; }
new public virtual string f2317() { return "C.f2317"; }
new public virtual string f2318() { return "C.f2318"; }
new public virtual string f2319() { return "C.f2319"; }
new public virtual string f2320() { return "C.f2320"; }
new public virtual string f2321() { return "C.f2321"; }
new public virtual string f2322() { return "C.f2322"; }
new public virtual string f2323() { return "C.f2323"; }
new public virtual string f2324() { return "C.f2324"; }
new public virtual string f2325() { return "C.f2325"; }
new public virtual string f2326() { return "C.f2326"; }
new public virtual string f2327() { return "C.f2327"; }
new public virtual string f2328() { return "C.f2328"; }
new public virtual string f2329() { return "C.f2329"; }
new public virtual string f2330() { return "C.f2330"; }
new public virtual string f2331() { return "C.f2331"; }
new public virtual string f2332() { return "C.f2332"; }
new public virtual string f2333() { return "C.f2333"; }
new public virtual string f2334() { return "C.f2334"; }
new public virtual string f2335() { return "C.f2335"; }
new public virtual string f2336() { return "C.f2336"; }
new public virtual string f2337() { return "C.f2337"; }
new public virtual string f2338() { return "C.f2338"; }
new public virtual string f2339() { return "C.f2339"; }
new public virtual string f2340() { return "C.f2340"; }
new public virtual string f2341() { return "C.f2341"; }
new public virtual string f2342() { return "C.f2342"; }
new public virtual string f2343() { return "C.f2343"; }
new public virtual string f2344() { return "C.f2344"; }
new public virtual string f2345() { return "C.f2345"; }
new public virtual string f2346() { return "C.f2346"; }
new public virtual string f2347() { return "C.f2347"; }
new public virtual string f2348() { return "C.f2348"; }
new public virtual string f2349() { return "C.f2349"; }
new public virtual string f2350() { return "C.f2350"; }
new public virtual string f2351() { return "C.f2351"; }
new public virtual string f2352() { return "C.f2352"; }
new public virtual string f2353() { return "C.f2353"; }
new public virtual string f2354() { return "C.f2354"; }
new public virtual string f2355() { return "C.f2355"; }
new public virtual string f2356() { return "C.f2356"; }
new public virtual string f2357() { return "C.f2357"; }
new public virtual string f2358() { return "C.f2358"; }
new public virtual string f2359() { return "C.f2359"; }
new public virtual string f2360() { return "C.f2360"; }
new public virtual string f2361() { return "C.f2361"; }
new public virtual string f2362() { return "C.f2362"; }
new public virtual string f2363() { return "C.f2363"; }
new public virtual string f2364() { return "C.f2364"; }
new public virtual string f2365() { return "C.f2365"; }
new public virtual string f2366() { return "C.f2366"; }
new public virtual string f2367() { return "C.f2367"; }
new public virtual string f2368() { return "C.f2368"; }
new public virtual string f2369() { return "C.f2369"; }
new public virtual string f2370() { return "C.f2370"; }
new public virtual string f2371() { return "C.f2371"; }
new public virtual string f2372() { return "C.f2372"; }
new public virtual string f2373() { return "C.f2373"; }
new public virtual string f2374() { return "C.f2374"; }
new public virtual string f2375() { return "C.f2375"; }
new public virtual string f2376() { return "C.f2376"; }
new public virtual string f2377() { return "C.f2377"; }
new public virtual string f2378() { return "C.f2378"; }
new public virtual string f2379() { return "C.f2379"; }
new public virtual string f2380() { return "C.f2380"; }
new public virtual string f2381() { return "C.f2381"; }
new public virtual string f2382() { return "C.f2382"; }
new public virtual string f2383() { return "C.f2383"; }
new public virtual string f2384() { return "C.f2384"; }
new public virtual string f2385() { return "C.f2385"; }
new public virtual string f2386() { return "C.f2386"; }
new public virtual string f2387() { return "C.f2387"; }
new public virtual string f2388() { return "C.f2388"; }
new public virtual string f2389() { return "C.f2389"; }
new public virtual string f2390() { return "C.f2390"; }
new public virtual string f2391() { return "C.f2391"; }
new public virtual string f2392() { return "C.f2392"; }
new public virtual string f2393() { return "C.f2393"; }
new public virtual string f2394() { return "C.f2394"; }
new public virtual string f2395() { return "C.f2395"; }
new public virtual string f2396() { return "C.f2396"; }
new public virtual string f2397() { return "C.f2397"; }
new public virtual string f2398() { return "C.f2398"; }
new public virtual string f2399() { return "C.f2399"; }
new public virtual string f2400() { return "C.f2400"; }
new public virtual string f2401() { return "C.f2401"; }
new public virtual string f2402() { return "C.f2402"; }
new public virtual string f2403() { return "C.f2403"; }
new public virtual string f2404() { return "C.f2404"; }
new public virtual string f2405() { return "C.f2405"; }
new public virtual string f2406() { return "C.f2406"; }
new public virtual string f2407() { return "C.f2407"; }
new public virtual string f2408() { return "C.f2408"; }
new public virtual string f2409() { return "C.f2409"; }
new public virtual string f2410() { return "C.f2410"; }
new public virtual string f2411() { return "C.f2411"; }
new public virtual string f2412() { return "C.f2412"; }
new public virtual string f2413() { return "C.f2413"; }
new public virtual string f2414() { return "C.f2414"; }
new public virtual string f2415() { return "C.f2415"; }
new public virtual string f2416() { return "C.f2416"; }
new public virtual string f2417() { return "C.f2417"; }
new public virtual string f2418() { return "C.f2418"; }
new public virtual string f2419() { return "C.f2419"; }
new public virtual string f2420() { return "C.f2420"; }
new public virtual string f2421() { return "C.f2421"; }
new public virtual string f2422() { return "C.f2422"; }
new public virtual string f2423() { return "C.f2423"; }
new public virtual string f2424() { return "C.f2424"; }
new public virtual string f2425() { return "C.f2425"; }
new public virtual string f2426() { return "C.f2426"; }
new public virtual string f2427() { return "C.f2427"; }
new public virtual string f2428() { return "C.f2428"; }
new public virtual string f2429() { return "C.f2429"; }
new public virtual string f2430() { return "C.f2430"; }
new public virtual string f2431() { return "C.f2431"; }
new public virtual string f2432() { return "C.f2432"; }
new public virtual string f2433() { return "C.f2433"; }
new public virtual string f2434() { return "C.f2434"; }
new public virtual string f2435() { return "C.f2435"; }
new public virtual string f2436() { return "C.f2436"; }
new public virtual string f2437() { return "C.f2437"; }
new public virtual string f2438() { return "C.f2438"; }
new public virtual string f2439() { return "C.f2439"; }
new public virtual string f2440() { return "C.f2440"; }
new public virtual string f2441() { return "C.f2441"; }
new public virtual string f2442() { return "C.f2442"; }
new public virtual string f2443() { return "C.f2443"; }
new public virtual string f2444() { return "C.f2444"; }
new public virtual string f2445() { return "C.f2445"; }
new public virtual string f2446() { return "C.f2446"; }
new public virtual string f2447() { return "C.f2447"; }
new public virtual string f2448() { return "C.f2448"; }
new public virtual string f2449() { return "C.f2449"; }
new public virtual string f2450() { return "C.f2450"; }
new public virtual string f2451() { return "C.f2451"; }
new public virtual string f2452() { return "C.f2452"; }
new public virtual string f2453() { return "C.f2453"; }
new public virtual string f2454() { return "C.f2454"; }
new public virtual string f2455() { return "C.f2455"; }
new public virtual string f2456() { return "C.f2456"; }
new public virtual string f2457() { return "C.f2457"; }
new public virtual string f2458() { return "C.f2458"; }
new public virtual string f2459() { return "C.f2459"; }
new public virtual string f2460() { return "C.f2460"; }
new public virtual string f2461() { return "C.f2461"; }
new public virtual string f2462() { return "C.f2462"; }
new public virtual string f2463() { return "C.f2463"; }
new public virtual string f2464() { return "C.f2464"; }
new public virtual string f2465() { return "C.f2465"; }
new public virtual string f2466() { return "C.f2466"; }
new public virtual string f2467() { return "C.f2467"; }
new public virtual string f2468() { return "C.f2468"; }
new public virtual string f2469() { return "C.f2469"; }
new public virtual string f2470() { return "C.f2470"; }
new public virtual string f2471() { return "C.f2471"; }
new public virtual string f2472() { return "C.f2472"; }
new public virtual string f2473() { return "C.f2473"; }
new public virtual string f2474() { return "C.f2474"; }
new public virtual string f2475() { return "C.f2475"; }
new public virtual string f2476() { return "C.f2476"; }
new public virtual string f2477() { return "C.f2477"; }
new public virtual string f2478() { return "C.f2478"; }
new public virtual string f2479() { return "C.f2479"; }
new public virtual string f2480() { return "C.f2480"; }
new public virtual string f2481() { return "C.f2481"; }
new public virtual string f2482() { return "C.f2482"; }
new public virtual string f2483() { return "C.f2483"; }
new public virtual string f2484() { return "C.f2484"; }
new public virtual string f2485() { return "C.f2485"; }
new public virtual string f2486() { return "C.f2486"; }
new public virtual string f2487() { return "C.f2487"; }
new public virtual string f2488() { return "C.f2488"; }
new public virtual string f2489() { return "C.f2489"; }
new public virtual string f2490() { return "C.f2490"; }
new public virtual string f2491() { return "C.f2491"; }
new public virtual string f2492() { return "C.f2492"; }
new public virtual string f2493() { return "C.f2493"; }
new public virtual string f2494() { return "C.f2494"; }
new public virtual string f2495() { return "C.f2495"; }
new public virtual string f2496() { return "C.f2496"; }
new public virtual string f2497() { return "C.f2497"; }
new public virtual string f2498() { return "C.f2498"; }
new public virtual string f2499() { return "C.f2499"; }
new public virtual string f2500() { return "C.f2500"; }
new public virtual string f2501() { return "C.f2501"; }
new public virtual string f2502() { return "C.f2502"; }
new public virtual string f2503() { return "C.f2503"; }
new public virtual string f2504() { return "C.f2504"; }
new public virtual string f2505() { return "C.f2505"; }
new public virtual string f2506() { return "C.f2506"; }
new public virtual string f2507() { return "C.f2507"; }
new public virtual string f2508() { return "C.f2508"; }
new public virtual string f2509() { return "C.f2509"; }
new public virtual string f2510() { return "C.f2510"; }
new public virtual string f2511() { return "C.f2511"; }
new public virtual string f2512() { return "C.f2512"; }
new public virtual string f2513() { return "C.f2513"; }
new public virtual string f2514() { return "C.f2514"; }
new public virtual string f2515() { return "C.f2515"; }
new public virtual string f2516() { return "C.f2516"; }
new public virtual string f2517() { return "C.f2517"; }
new public virtual string f2518() { return "C.f2518"; }
new public virtual string f2519() { return "C.f2519"; }
new public virtual string f2520() { return "C.f2520"; }
new public virtual string f2521() { return "C.f2521"; }
new public virtual string f2522() { return "C.f2522"; }
new public virtual string f2523() { return "C.f2523"; }
new public virtual string f2524() { return "C.f2524"; }
new public virtual string f2525() { return "C.f2525"; }
new public virtual string f2526() { return "C.f2526"; }
new public virtual string f2527() { return "C.f2527"; }
new public virtual string f2528() { return "C.f2528"; }
new public virtual string f2529() { return "C.f2529"; }
new public virtual string f2530() { return "C.f2530"; }
new public virtual string f2531() { return "C.f2531"; }
new public virtual string f2532() { return "C.f2532"; }
new public virtual string f2533() { return "C.f2533"; }
new public virtual string f2534() { return "C.f2534"; }
new public virtual string f2535() { return "C.f2535"; }
new public virtual string f2536() { return "C.f2536"; }
new public virtual string f2537() { return "C.f2537"; }
new public virtual string f2538() { return "C.f2538"; }
new public virtual string f2539() { return "C.f2539"; }
new public virtual string f2540() { return "C.f2540"; }
new public virtual string f2541() { return "C.f2541"; }
new public virtual string f2542() { return "C.f2542"; }
new public virtual string f2543() { return "C.f2543"; }
new public virtual string f2544() { return "C.f2544"; }
new public virtual string f2545() { return "C.f2545"; }
new public virtual string f2546() { return "C.f2546"; }
new public virtual string f2547() { return "C.f2547"; }
new public virtual string f2548() { return "C.f2548"; }
new public virtual string f2549() { return "C.f2549"; }
new public virtual string f2550() { return "C.f2550"; }
new public virtual string f2551() { return "C.f2551"; }
new public virtual string f2552() { return "C.f2552"; }
new public virtual string f2553() { return "C.f2553"; }
new public virtual string f2554() { return "C.f2554"; }
new public virtual string f2555() { return "C.f2555"; }
new public virtual string f2556() { return "C.f2556"; }
new public virtual string f2557() { return "C.f2557"; }
new public virtual string f2558() { return "C.f2558"; }
new public virtual string f2559() { return "C.f2559"; }
new public virtual string f2560() { return "C.f2560"; }
new public virtual string f2561() { return "C.f2561"; }
new public virtual string f2562() { return "C.f2562"; }
new public virtual string f2563() { return "C.f2563"; }
new public virtual string f2564() { return "C.f2564"; }
new public virtual string f2565() { return "C.f2565"; }
new public virtual string f2566() { return "C.f2566"; }
new public virtual string f2567() { return "C.f2567"; }
new public virtual string f2568() { return "C.f2568"; }
new public virtual string f2569() { return "C.f2569"; }
new public virtual string f2570() { return "C.f2570"; }
new public virtual string f2571() { return "C.f2571"; }
new public virtual string f2572() { return "C.f2572"; }
new public virtual string f2573() { return "C.f2573"; }
new public virtual string f2574() { return "C.f2574"; }
new public virtual string f2575() { return "C.f2575"; }
new public virtual string f2576() { return "C.f2576"; }
new public virtual string f2577() { return "C.f2577"; }
new public virtual string f2578() { return "C.f2578"; }
new public virtual string f2579() { return "C.f2579"; }
new public virtual string f2580() { return "C.f2580"; }
new public virtual string f2581() { return "C.f2581"; }
new public virtual string f2582() { return "C.f2582"; }
new public virtual string f2583() { return "C.f2583"; }
new public virtual string f2584() { return "C.f2584"; }
new public virtual string f2585() { return "C.f2585"; }
new public virtual string f2586() { return "C.f2586"; }
new public virtual string f2587() { return "C.f2587"; }
new public virtual string f2588() { return "C.f2588"; }
new public virtual string f2589() { return "C.f2589"; }
new public virtual string f2590() { return "C.f2590"; }
new public virtual string f2591() { return "C.f2591"; }
new public virtual string f2592() { return "C.f2592"; }
new public virtual string f2593() { return "C.f2593"; }
new public virtual string f2594() { return "C.f2594"; }
new public virtual string f2595() { return "C.f2595"; }
new public virtual string f2596() { return "C.f2596"; }
new public virtual string f2597() { return "C.f2597"; }
new public virtual string f2598() { return "C.f2598"; }
new public virtual string f2599() { return "C.f2599"; }
new public virtual string f2600() { return "C.f2600"; }
new public virtual string f2601() { return "C.f2601"; }
new public virtual string f2602() { return "C.f2602"; }
new public virtual string f2603() { return "C.f2603"; }
new public virtual string f2604() { return "C.f2604"; }
new public virtual string f2605() { return "C.f2605"; }
new public virtual string f2606() { return "C.f2606"; }
new public virtual string f2607() { return "C.f2607"; }
new public virtual string f2608() { return "C.f2608"; }
new public virtual string f2609() { return "C.f2609"; }
new public virtual string f2610() { return "C.f2610"; }
new public virtual string f2611() { return "C.f2611"; }
new public virtual string f2612() { return "C.f2612"; }
new public virtual string f2613() { return "C.f2613"; }
new public virtual string f2614() { return "C.f2614"; }
new public virtual string f2615() { return "C.f2615"; }
new public virtual string f2616() { return "C.f2616"; }
new public virtual string f2617() { return "C.f2617"; }
new public virtual string f2618() { return "C.f2618"; }
new public virtual string f2619() { return "C.f2619"; }
new public virtual string f2620() { return "C.f2620"; }
new public virtual string f2621() { return "C.f2621"; }
new public virtual string f2622() { return "C.f2622"; }
new public virtual string f2623() { return "C.f2623"; }
new public virtual string f2624() { return "C.f2624"; }
new public virtual string f2625() { return "C.f2625"; }
new public virtual string f2626() { return "C.f2626"; }
new public virtual string f2627() { return "C.f2627"; }
new public virtual string f2628() { return "C.f2628"; }
new public virtual string f2629() { return "C.f2629"; }
new public virtual string f2630() { return "C.f2630"; }
new public virtual string f2631() { return "C.f2631"; }
new public virtual string f2632() { return "C.f2632"; }
new public virtual string f2633() { return "C.f2633"; }
new public virtual string f2634() { return "C.f2634"; }
new public virtual string f2635() { return "C.f2635"; }
new public virtual string f2636() { return "C.f2636"; }
new public virtual string f2637() { return "C.f2637"; }
new public virtual string f2638() { return "C.f2638"; }
new public virtual string f2639() { return "C.f2639"; }
new public virtual string f2640() { return "C.f2640"; }
new public virtual string f2641() { return "C.f2641"; }
new public virtual string f2642() { return "C.f2642"; }
new public virtual string f2643() { return "C.f2643"; }
new public virtual string f2644() { return "C.f2644"; }
new public virtual string f2645() { return "C.f2645"; }
new public virtual string f2646() { return "C.f2646"; }
new public virtual string f2647() { return "C.f2647"; }
new public virtual string f2648() { return "C.f2648"; }
new public virtual string f2649() { return "C.f2649"; }
new public virtual string f2650() { return "C.f2650"; }
new public virtual string f2651() { return "C.f2651"; }
new public virtual string f2652() { return "C.f2652"; }
new public virtual string f2653() { return "C.f2653"; }
new public virtual string f2654() { return "C.f2654"; }
new public virtual string f2655() { return "C.f2655"; }
new public virtual string f2656() { return "C.f2656"; }
new public virtual string f2657() { return "C.f2657"; }
new public virtual string f2658() { return "C.f2658"; }
new public virtual string f2659() { return "C.f2659"; }
new public virtual string f2660() { return "C.f2660"; }
new public virtual string f2661() { return "C.f2661"; }
new public virtual string f2662() { return "C.f2662"; }
new public virtual string f2663() { return "C.f2663"; }
new public virtual string f2664() { return "C.f2664"; }
new public virtual string f2665() { return "C.f2665"; }
new public virtual string f2666() { return "C.f2666"; }
new public virtual string f2667() { return "C.f2667"; }
new public virtual string f2668() { return "C.f2668"; }
new public virtual string f2669() { return "C.f2669"; }
new public virtual string f2670() { return "C.f2670"; }
new public virtual string f2671() { return "C.f2671"; }
new public virtual string f2672() { return "C.f2672"; }
new public virtual string f2673() { return "C.f2673"; }
new public virtual string f2674() { return "C.f2674"; }
new public virtual string f2675() { return "C.f2675"; }
new public virtual string f2676() { return "C.f2676"; }
new public virtual string f2677() { return "C.f2677"; }
new public virtual string f2678() { return "C.f2678"; }
new public virtual string f2679() { return "C.f2679"; }
new public virtual string f2680() { return "C.f2680"; }
new public virtual string f2681() { return "C.f2681"; }
new public virtual string f2682() { return "C.f2682"; }
new public virtual string f2683() { return "C.f2683"; }
new public virtual string f2684() { return "C.f2684"; }
new public virtual string f2685() { return "C.f2685"; }
new public virtual string f2686() { return "C.f2686"; }
new public virtual string f2687() { return "C.f2687"; }
new public virtual string f2688() { return "C.f2688"; }
new public virtual string f2689() { return "C.f2689"; }
new public virtual string f2690() { return "C.f2690"; }
new public virtual string f2691() { return "C.f2691"; }
new public virtual string f2692() { return "C.f2692"; }
new public virtual string f2693() { return "C.f2693"; }
new public virtual string f2694() { return "C.f2694"; }
new public virtual string f2695() { return "C.f2695"; }
new public virtual string f2696() { return "C.f2696"; }
new public virtual string f2697() { return "C.f2697"; }
new public virtual string f2698() { return "C.f2698"; }
new public virtual string f2699() { return "C.f2699"; }
new public virtual string f2700() { return "C.f2700"; }
new public virtual string f2701() { return "C.f2701"; }
new public virtual string f2702() { return "C.f2702"; }
new public virtual string f2703() { return "C.f2703"; }
new public virtual string f2704() { return "C.f2704"; }
new public virtual string f2705() { return "C.f2705"; }
new public virtual string f2706() { return "C.f2706"; }
new public virtual string f2707() { return "C.f2707"; }
new public virtual string f2708() { return "C.f2708"; }
new public virtual string f2709() { return "C.f2709"; }
new public virtual string f2710() { return "C.f2710"; }
new public virtual string f2711() { return "C.f2711"; }
new public virtual string f2712() { return "C.f2712"; }
new public virtual string f2713() { return "C.f2713"; }
new public virtual string f2714() { return "C.f2714"; }
new public virtual string f2715() { return "C.f2715"; }
new public virtual string f2716() { return "C.f2716"; }
new public virtual string f2717() { return "C.f2717"; }
new public virtual string f2718() { return "C.f2718"; }
new public virtual string f2719() { return "C.f2719"; }
new public virtual string f2720() { return "C.f2720"; }
new public virtual string f2721() { return "C.f2721"; }
new public virtual string f2722() { return "C.f2722"; }
new public virtual string f2723() { return "C.f2723"; }
new public virtual string f2724() { return "C.f2724"; }
new public virtual string f2725() { return "C.f2725"; }
new public virtual string f2726() { return "C.f2726"; }
new public virtual string f2727() { return "C.f2727"; }
new public virtual string f2728() { return "C.f2728"; }
new public virtual string f2729() { return "C.f2729"; }
new public virtual string f2730() { return "C.f2730"; }
new public virtual string f2731() { return "C.f2731"; }
new public virtual string f2732() { return "C.f2732"; }
new public virtual string f2733() { return "C.f2733"; }
new public virtual string f2734() { return "C.f2734"; }
new public virtual string f2735() { return "C.f2735"; }
new public virtual string f2736() { return "C.f2736"; }
new public virtual string f2737() { return "C.f2737"; }
new public virtual string f2738() { return "C.f2738"; }
new public virtual string f2739() { return "C.f2739"; }
new public virtual string f2740() { return "C.f2740"; }
new public virtual string f2741() { return "C.f2741"; }
new public virtual string f2742() { return "C.f2742"; }
new public virtual string f2743() { return "C.f2743"; }
new public virtual string f2744() { return "C.f2744"; }
new public virtual string f2745() { return "C.f2745"; }
new public virtual string f2746() { return "C.f2746"; }
new public virtual string f2747() { return "C.f2747"; }
new public virtual string f2748() { return "C.f2748"; }
new public virtual string f2749() { return "C.f2749"; }
new public virtual string f2750() { return "C.f2750"; }
new public virtual string f2751() { return "C.f2751"; }
new public virtual string f2752() { return "C.f2752"; }
new public virtual string f2753() { return "C.f2753"; }
new public virtual string f2754() { return "C.f2754"; }
new public virtual string f2755() { return "C.f2755"; }
new public virtual string f2756() { return "C.f2756"; }
new public virtual string f2757() { return "C.f2757"; }
new public virtual string f2758() { return "C.f2758"; }
new public virtual string f2759() { return "C.f2759"; }
new public virtual string f2760() { return "C.f2760"; }
new public virtual string f2761() { return "C.f2761"; }
new public virtual string f2762() { return "C.f2762"; }
new public virtual string f2763() { return "C.f2763"; }
new public virtual string f2764() { return "C.f2764"; }
new public virtual string f2765() { return "C.f2765"; }
new public virtual string f2766() { return "C.f2766"; }
new public virtual string f2767() { return "C.f2767"; }
new public virtual string f2768() { return "C.f2768"; }
new public virtual string f2769() { return "C.f2769"; }
new public virtual string f2770() { return "C.f2770"; }
new public virtual string f2771() { return "C.f2771"; }
new public virtual string f2772() { return "C.f2772"; }
new public virtual string f2773() { return "C.f2773"; }
new public virtual string f2774() { return "C.f2774"; }
new public virtual string f2775() { return "C.f2775"; }
new public virtual string f2776() { return "C.f2776"; }
new public virtual string f2777() { return "C.f2777"; }
new public virtual string f2778() { return "C.f2778"; }
new public virtual string f2779() { return "C.f2779"; }
new public virtual string f2780() { return "C.f2780"; }
new public virtual string f2781() { return "C.f2781"; }
new public virtual string f2782() { return "C.f2782"; }
new public virtual string f2783() { return "C.f2783"; }
new public virtual string f2784() { return "C.f2784"; }
new public virtual string f2785() { return "C.f2785"; }
new public virtual string f2786() { return "C.f2786"; }
new public virtual string f2787() { return "C.f2787"; }
new public virtual string f2788() { return "C.f2788"; }
new public virtual string f2789() { return "C.f2789"; }
new public virtual string f2790() { return "C.f2790"; }
new public virtual string f2791() { return "C.f2791"; }
new public virtual string f2792() { return "C.f2792"; }
new public virtual string f2793() { return "C.f2793"; }
new public virtual string f2794() { return "C.f2794"; }
new public virtual string f2795() { return "C.f2795"; }
new public virtual string f2796() { return "C.f2796"; }
new public virtual string f2797() { return "C.f2797"; }
new public virtual string f2798() { return "C.f2798"; }
new public virtual string f2799() { return "C.f2799"; }
new public virtual string f2800() { return "C.f2800"; }
new public virtual string f2801() { return "C.f2801"; }
new public virtual string f2802() { return "C.f2802"; }
new public virtual string f2803() { return "C.f2803"; }
new public virtual string f2804() { return "C.f2804"; }
new public virtual string f2805() { return "C.f2805"; }
new public virtual string f2806() { return "C.f2806"; }
new public virtual string f2807() { return "C.f2807"; }
new public virtual string f2808() { return "C.f2808"; }
new public virtual string f2809() { return "C.f2809"; }
new public virtual string f2810() { return "C.f2810"; }
new public virtual string f2811() { return "C.f2811"; }
new public virtual string f2812() { return "C.f2812"; }
new public virtual string f2813() { return "C.f2813"; }
new public virtual string f2814() { return "C.f2814"; }
new public virtual string f2815() { return "C.f2815"; }
new public virtual string f2816() { return "C.f2816"; }
new public virtual string f2817() { return "C.f2817"; }
new public virtual string f2818() { return "C.f2818"; }
new public virtual string f2819() { return "C.f2819"; }
new public virtual string f2820() { return "C.f2820"; }
new public virtual string f2821() { return "C.f2821"; }
new public virtual string f2822() { return "C.f2822"; }
new public virtual string f2823() { return "C.f2823"; }
new public virtual string f2824() { return "C.f2824"; }
new public virtual string f2825() { return "C.f2825"; }
new public virtual string f2826() { return "C.f2826"; }
new public virtual string f2827() { return "C.f2827"; }
new public virtual string f2828() { return "C.f2828"; }
new public virtual string f2829() { return "C.f2829"; }
new public virtual string f2830() { return "C.f2830"; }
new public virtual string f2831() { return "C.f2831"; }
new public virtual string f2832() { return "C.f2832"; }
new public virtual string f2833() { return "C.f2833"; }
new public virtual string f2834() { return "C.f2834"; }
new public virtual string f2835() { return "C.f2835"; }
new public virtual string f2836() { return "C.f2836"; }
new public virtual string f2837() { return "C.f2837"; }
new public virtual string f2838() { return "C.f2838"; }
new public virtual string f2839() { return "C.f2839"; }
new public virtual string f2840() { return "C.f2840"; }
new public virtual string f2841() { return "C.f2841"; }
new public virtual string f2842() { return "C.f2842"; }
new public virtual string f2843() { return "C.f2843"; }
new public virtual string f2844() { return "C.f2844"; }
new public virtual string f2845() { return "C.f2845"; }
new public virtual string f2846() { return "C.f2846"; }
new public virtual string f2847() { return "C.f2847"; }
new public virtual string f2848() { return "C.f2848"; }
new public virtual string f2849() { return "C.f2849"; }
new public virtual string f2850() { return "C.f2850"; }
new public virtual string f2851() { return "C.f2851"; }
new public virtual string f2852() { return "C.f2852"; }
new public virtual string f2853() { return "C.f2853"; }
new public virtual string f2854() { return "C.f2854"; }
new public virtual string f2855() { return "C.f2855"; }
new public virtual string f2856() { return "C.f2856"; }
new public virtual string f2857() { return "C.f2857"; }
new public virtual string f2858() { return "C.f2858"; }
new public virtual string f2859() { return "C.f2859"; }
new public virtual string f2860() { return "C.f2860"; }
new public virtual string f2861() { return "C.f2861"; }
new public virtual string f2862() { return "C.f2862"; }
new public virtual string f2863() { return "C.f2863"; }
new public virtual string f2864() { return "C.f2864"; }
new public virtual string f2865() { return "C.f2865"; }
new public virtual string f2866() { return "C.f2866"; }
new public virtual string f2867() { return "C.f2867"; }
new public virtual string f2868() { return "C.f2868"; }
new public virtual string f2869() { return "C.f2869"; }
new public virtual string f2870() { return "C.f2870"; }
new public virtual string f2871() { return "C.f2871"; }
new public virtual string f2872() { return "C.f2872"; }
new public virtual string f2873() { return "C.f2873"; }
new public virtual string f2874() { return "C.f2874"; }
new public virtual string f2875() { return "C.f2875"; }
new public virtual string f2876() { return "C.f2876"; }
new public virtual string f2877() { return "C.f2877"; }
new public virtual string f2878() { return "C.f2878"; }
new public virtual string f2879() { return "C.f2879"; }
new public virtual string f2880() { return "C.f2880"; }
new public virtual string f2881() { return "C.f2881"; }
new public virtual string f2882() { return "C.f2882"; }
new public virtual string f2883() { return "C.f2883"; }
new public virtual string f2884() { return "C.f2884"; }
new public virtual string f2885() { return "C.f2885"; }
new public virtual string f2886() { return "C.f2886"; }
new public virtual string f2887() { return "C.f2887"; }
new public virtual string f2888() { return "C.f2888"; }
new public virtual string f2889() { return "C.f2889"; }
new public virtual string f2890() { return "C.f2890"; }
new public virtual string f2891() { return "C.f2891"; }
new public virtual string f2892() { return "C.f2892"; }
new public virtual string f2893() { return "C.f2893"; }
new public virtual string f2894() { return "C.f2894"; }
new public virtual string f2895() { return "C.f2895"; }
new public virtual string f2896() { return "C.f2896"; }
new public virtual string f2897() { return "C.f2897"; }
new public virtual string f2898() { return "C.f2898"; }
new public virtual string f2899() { return "C.f2899"; }
new public virtual string f2900() { return "C.f2900"; }
new public virtual string f2901() { return "C.f2901"; }
new public virtual string f2902() { return "C.f2902"; }
new public virtual string f2903() { return "C.f2903"; }
new public virtual string f2904() { return "C.f2904"; }
new public virtual string f2905() { return "C.f2905"; }
new public virtual string f2906() { return "C.f2906"; }
new public virtual string f2907() { return "C.f2907"; }
new public virtual string f2908() { return "C.f2908"; }
new public virtual string f2909() { return "C.f2909"; }
new public virtual string f2910() { return "C.f2910"; }
new public virtual string f2911() { return "C.f2911"; }
new public virtual string f2912() { return "C.f2912"; }
new public virtual string f2913() { return "C.f2913"; }
new public virtual string f2914() { return "C.f2914"; }
new public virtual string f2915() { return "C.f2915"; }
new public virtual string f2916() { return "C.f2916"; }
new public virtual string f2917() { return "C.f2917"; }
new public virtual string f2918() { return "C.f2918"; }
new public virtual string f2919() { return "C.f2919"; }
new public virtual string f2920() { return "C.f2920"; }
new public virtual string f2921() { return "C.f2921"; }
new public virtual string f2922() { return "C.f2922"; }
new public virtual string f2923() { return "C.f2923"; }
new public virtual string f2924() { return "C.f2924"; }
new public virtual string f2925() { return "C.f2925"; }
new public virtual string f2926() { return "C.f2926"; }
new public virtual string f2927() { return "C.f2927"; }
new public virtual string f2928() { return "C.f2928"; }
new public virtual string f2929() { return "C.f2929"; }
new public virtual string f2930() { return "C.f2930"; }
new public virtual string f2931() { return "C.f2931"; }
new public virtual string f2932() { return "C.f2932"; }
new public virtual string f2933() { return "C.f2933"; }
new public virtual string f2934() { return "C.f2934"; }
new public virtual string f2935() { return "C.f2935"; }
new public virtual string f2936() { return "C.f2936"; }
new public virtual string f2937() { return "C.f2937"; }
new public virtual string f2938() { return "C.f2938"; }
new public virtual string f2939() { return "C.f2939"; }
new public virtual string f2940() { return "C.f2940"; }
new public virtual string f2941() { return "C.f2941"; }
new public virtual string f2942() { return "C.f2942"; }
new public virtual string f2943() { return "C.f2943"; }
new public virtual string f2944() { return "C.f2944"; }
new public virtual string f2945() { return "C.f2945"; }
new public virtual string f2946() { return "C.f2946"; }
new public virtual string f2947() { return "C.f2947"; }
new public virtual string f2948() { return "C.f2948"; }
new public virtual string f2949() { return "C.f2949"; }
new public virtual string f2950() { return "C.f2950"; }
new public virtual string f2951() { return "C.f2951"; }
new public virtual string f2952() { return "C.f2952"; }
new public virtual string f2953() { return "C.f2953"; }
new public virtual string f2954() { return "C.f2954"; }
new public virtual string f2955() { return "C.f2955"; }
new public virtual string f2956() { return "C.f2956"; }
new public virtual string f2957() { return "C.f2957"; }
new public virtual string f2958() { return "C.f2958"; }
new public virtual string f2959() { return "C.f2959"; }
new public virtual string f2960() { return "C.f2960"; }
new public virtual string f2961() { return "C.f2961"; }
new public virtual string f2962() { return "C.f2962"; }
new public virtual string f2963() { return "C.f2963"; }
new public virtual string f2964() { return "C.f2964"; }
new public virtual string f2965() { return "C.f2965"; }
new public virtual string f2966() { return "C.f2966"; }
new public virtual string f2967() { return "C.f2967"; }
new public virtual string f2968() { return "C.f2968"; }
new public virtual string f2969() { return "C.f2969"; }
new public virtual string f2970() { return "C.f2970"; }
new public virtual string f2971() { return "C.f2971"; }
new public virtual string f2972() { return "C.f2972"; }
new public virtual string f2973() { return "C.f2973"; }
new public virtual string f2974() { return "C.f2974"; }
new public virtual string f2975() { return "C.f2975"; }
new public virtual string f2976() { return "C.f2976"; }
new public virtual string f2977() { return "C.f2977"; }
new public virtual string f2978() { return "C.f2978"; }
new public virtual string f2979() { return "C.f2979"; }
new public virtual string f2980() { return "C.f2980"; }
new public virtual string f2981() { return "C.f2981"; }
new public virtual string f2982() { return "C.f2982"; }
new public virtual string f2983() { return "C.f2983"; }
new public virtual string f2984() { return "C.f2984"; }
new public virtual string f2985() { return "C.f2985"; }
new public virtual string f2986() { return "C.f2986"; }
new public virtual string f2987() { return "C.f2987"; }
new public virtual string f2988() { return "C.f2988"; }
new public virtual string f2989() { return "C.f2989"; }
new public virtual string f2990() { return "C.f2990"; }
new public virtual string f2991() { return "C.f2991"; }
new public virtual string f2992() { return "C.f2992"; }
new public virtual string f2993() { return "C.f2993"; }
new public virtual string f2994() { return "C.f2994"; }
new public virtual string f2995() { return "C.f2995"; }
new public virtual string f2996() { return "C.f2996"; }
new public virtual string f2997() { return "C.f2997"; }
new public virtual string f2998() { return "C.f2998"; }
new public virtual string f2999() { return "C.f2999"; }
}
internal class D : C
{
public override string f1() { return "D.f1"; }
public override string f2() { return "D.f2"; }
public override string f3() { return "D.f3"; }
public override string f4() { return "D.f4"; }
public override string f5() { return "D.f5"; }
public override string f6() { return "D.f6"; }
public override string f7() { return "D.f7"; }
public override string f8() { return "D.f8"; }
public override string f9() { return "D.f9"; }
public override string f10() { return "D.f10"; }
public override string f11() { return "D.f11"; }
public override string f12() { return "D.f12"; }
public override string f13() { return "D.f13"; }
public override string f14() { return "D.f14"; }
public override string f15() { return "D.f15"; }
public override string f16() { return "D.f16"; }
public override string f17() { return "D.f17"; }
public override string f18() { return "D.f18"; }
public override string f19() { return "D.f19"; }
public override string f20() { return "D.f20"; }
public override string f21() { return "D.f21"; }
public override string f22() { return "D.f22"; }
public override string f23() { return "D.f23"; }
public override string f24() { return "D.f24"; }
public override string f25() { return "D.f25"; }
public override string f26() { return "D.f26"; }
public override string f27() { return "D.f27"; }
public override string f28() { return "D.f28"; }
public override string f29() { return "D.f29"; }
public override string f30() { return "D.f30"; }
public override string f31() { return "D.f31"; }
public override string f32() { return "D.f32"; }
public override string f33() { return "D.f33"; }
public override string f34() { return "D.f34"; }
public override string f35() { return "D.f35"; }
public override string f36() { return "D.f36"; }
public override string f37() { return "D.f37"; }
public override string f38() { return "D.f38"; }
public override string f39() { return "D.f39"; }
public override string f40() { return "D.f40"; }
public override string f41() { return "D.f41"; }
public override string f42() { return "D.f42"; }
public override string f43() { return "D.f43"; }
public override string f44() { return "D.f44"; }
public override string f45() { return "D.f45"; }
public override string f46() { return "D.f46"; }
public override string f47() { return "D.f47"; }
public override string f48() { return "D.f48"; }
public override string f49() { return "D.f49"; }
public override string f50() { return "D.f50"; }
public override string f51() { return "D.f51"; }
public override string f52() { return "D.f52"; }
public override string f53() { return "D.f53"; }
public override string f54() { return "D.f54"; }
public override string f55() { return "D.f55"; }
public override string f56() { return "D.f56"; }
public override string f57() { return "D.f57"; }
public override string f58() { return "D.f58"; }
public override string f59() { return "D.f59"; }
public override string f60() { return "D.f60"; }
public override string f61() { return "D.f61"; }
public override string f62() { return "D.f62"; }
public override string f63() { return "D.f63"; }
public override string f64() { return "D.f64"; }
public override string f65() { return "D.f65"; }
public override string f66() { return "D.f66"; }
public override string f67() { return "D.f67"; }
public override string f68() { return "D.f68"; }
public override string f69() { return "D.f69"; }
public override string f70() { return "D.f70"; }
public override string f71() { return "D.f71"; }
public override string f72() { return "D.f72"; }
public override string f73() { return "D.f73"; }
public override string f74() { return "D.f74"; }
public override string f75() { return "D.f75"; }
public override string f76() { return "D.f76"; }
public override string f77() { return "D.f77"; }
public override string f78() { return "D.f78"; }
public override string f79() { return "D.f79"; }
public override string f80() { return "D.f80"; }
public override string f81() { return "D.f81"; }
public override string f82() { return "D.f82"; }
public override string f83() { return "D.f83"; }
public override string f84() { return "D.f84"; }
public override string f85() { return "D.f85"; }
public override string f86() { return "D.f86"; }
public override string f87() { return "D.f87"; }
public override string f88() { return "D.f88"; }
public override string f89() { return "D.f89"; }
public override string f90() { return "D.f90"; }
public override string f91() { return "D.f91"; }
public override string f92() { return "D.f92"; }
public override string f93() { return "D.f93"; }
public override string f94() { return "D.f94"; }
public override string f95() { return "D.f95"; }
public override string f96() { return "D.f96"; }
public override string f97() { return "D.f97"; }
public override string f98() { return "D.f98"; }
public override string f99() { return "D.f99"; }
public override string f100() { return "D.f100"; }
public override string f101() { return "D.f101"; }
public override string f102() { return "D.f102"; }
public override string f103() { return "D.f103"; }
public override string f104() { return "D.f104"; }
public override string f105() { return "D.f105"; }
public override string f106() { return "D.f106"; }
public override string f107() { return "D.f107"; }
public override string f108() { return "D.f108"; }
public override string f109() { return "D.f109"; }
public override string f110() { return "D.f110"; }
public override string f111() { return "D.f111"; }
public override string f112() { return "D.f112"; }
public override string f113() { return "D.f113"; }
public override string f114() { return "D.f114"; }
public override string f115() { return "D.f115"; }
public override string f116() { return "D.f116"; }
public override string f117() { return "D.f117"; }
public override string f118() { return "D.f118"; }
public override string f119() { return "D.f119"; }
public override string f120() { return "D.f120"; }
public override string f121() { return "D.f121"; }
public override string f122() { return "D.f122"; }
public override string f123() { return "D.f123"; }
public override string f124() { return "D.f124"; }
public override string f125() { return "D.f125"; }
public override string f126() { return "D.f126"; }
public override string f127() { return "D.f127"; }
public override string f128() { return "D.f128"; }
public override string f129() { return "D.f129"; }
public override string f130() { return "D.f130"; }
public override string f131() { return "D.f131"; }
public override string f132() { return "D.f132"; }
public override string f133() { return "D.f133"; }
public override string f134() { return "D.f134"; }
public override string f135() { return "D.f135"; }
public override string f136() { return "D.f136"; }
public override string f137() { return "D.f137"; }
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public override string f139() { return "D.f139"; }
public override string f140() { return "D.f140"; }
public override string f141() { return "D.f141"; }
public override string f142() { return "D.f142"; }
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public override string f144() { return "D.f144"; }
public override string f145() { return "D.f145"; }
public override string f146() { return "D.f146"; }
public override string f147() { return "D.f147"; }
public override string f148() { return "D.f148"; }
public override string f149() { return "D.f149"; }
public override string f150() { return "D.f150"; }
public override string f151() { return "D.f151"; }
public override string f152() { return "D.f152"; }
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public override string f154() { return "D.f154"; }
public override string f155() { return "D.f155"; }
public override string f156() { return "D.f156"; }
public override string f157() { return "D.f157"; }
public override string f158() { return "D.f158"; }
public override string f159() { return "D.f159"; }
public override string f160() { return "D.f160"; }
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public override string f162() { return "D.f162"; }
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public override string f165() { return "D.f165"; }
public override string f166() { return "D.f166"; }
public override string f167() { return "D.f167"; }
public override string f168() { return "D.f168"; }
public override string f169() { return "D.f169"; }
public override string f170() { return "D.f170"; }
public override string f171() { return "D.f171"; }
public override string f172() { return "D.f172"; }
public override string f173() { return "D.f173"; }
public override string f174() { return "D.f174"; }
public override string f175() { return "D.f175"; }
public override string f176() { return "D.f176"; }
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public override string f179() { return "D.f179"; }
public override string f180() { return "D.f180"; }
public override string f181() { return "D.f181"; }
public override string f182() { return "D.f182"; }
public override string f183() { return "D.f183"; }
public override string f184() { return "D.f184"; }
public override string f185() { return "D.f185"; }
public override string f186() { return "D.f186"; }
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public override string f190() { return "D.f190"; }
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public override string f195() { return "D.f195"; }
public override string f196() { return "D.f196"; }
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public override string f200() { return "D.f200"; }
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public override string f202() { return "D.f202"; }
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public override string f205() { return "D.f205"; }
public override string f206() { return "D.f206"; }
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public override string f210() { return "D.f210"; }
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public override string f212() { return "D.f212"; }
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public override string f214() { return "D.f214"; }
public override string f215() { return "D.f215"; }
public override string f216() { return "D.f216"; }
public override string f217() { return "D.f217"; }
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public override string f220() { return "D.f220"; }
public override string f221() { return "D.f221"; }
public override string f222() { return "D.f222"; }
public override string f223() { return "D.f223"; }
public override string f224() { return "D.f224"; }
public override string f225() { return "D.f225"; }
public override string f226() { return "D.f226"; }
public override string f227() { return "D.f227"; }
public override string f228() { return "D.f228"; }
public override string f229() { return "D.f229"; }
public override string f230() { return "D.f230"; }
public override string f231() { return "D.f231"; }
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public override string f233() { return "D.f233"; }
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public override string f235() { return "D.f235"; }
public override string f236() { return "D.f236"; }
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public override string f240() { return "D.f240"; }
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public override string f243() { return "D.f243"; }
public override string f244() { return "D.f244"; }
public override string f245() { return "D.f245"; }
public override string f246() { return "D.f246"; }
public override string f247() { return "D.f247"; }
public override string f248() { return "D.f248"; }
public override string f249() { return "D.f249"; }
public override string f250() { return "D.f250"; }
public override string f251() { return "D.f251"; }
public override string f252() { return "D.f252"; }
public override string f253() { return "D.f253"; }
public override string f254() { return "D.f254"; }
public override string f255() { return "D.f255"; }
public override string f256() { return "D.f256"; }
public override string f257() { return "D.f257"; }
public override string f258() { return "D.f258"; }
public override string f259() { return "D.f259"; }
public override string f260() { return "D.f260"; }
public override string f261() { return "D.f261"; }
public override string f262() { return "D.f262"; }
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public override string f264() { return "D.f264"; }
public override string f265() { return "D.f265"; }
public override string f266() { return "D.f266"; }
public override string f267() { return "D.f267"; }
public override string f268() { return "D.f268"; }
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public override string f270() { return "D.f270"; }
public override string f271() { return "D.f271"; }
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public override string f274() { return "D.f274"; }
public override string f275() { return "D.f275"; }
public override string f276() { return "D.f276"; }
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public override string f280() { return "D.f280"; }
public override string f281() { return "D.f281"; }
public override string f282() { return "D.f282"; }
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public override string f285() { return "D.f285"; }
public override string f286() { return "D.f286"; }
public override string f287() { return "D.f287"; }
public override string f288() { return "D.f288"; }
public override string f289() { return "D.f289"; }
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public override string f294() { return "D.f294"; }
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public override string f299() { return "D.f299"; }
public override string f300() { return "D.f300"; }
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public override string f305() { return "D.f305"; }
public override string f306() { return "D.f306"; }
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public override string f308() { return "D.f308"; }
public override string f309() { return "D.f309"; }
public override string f310() { return "D.f310"; }
public override string f311() { return "D.f311"; }
public override string f312() { return "D.f312"; }
public override string f313() { return "D.f313"; }
public override string f314() { return "D.f314"; }
public override string f315() { return "D.f315"; }
public override string f316() { return "D.f316"; }
public override string f317() { return "D.f317"; }
public override string f318() { return "D.f318"; }
public override string f319() { return "D.f319"; }
public override string f320() { return "D.f320"; }
public override string f321() { return "D.f321"; }
public override string f322() { return "D.f322"; }
public override string f323() { return "D.f323"; }
public override string f324() { return "D.f324"; }
public override string f325() { return "D.f325"; }
public override string f326() { return "D.f326"; }
public override string f327() { return "D.f327"; }
public override string f328() { return "D.f328"; }
public override string f329() { return "D.f329"; }
public override string f330() { return "D.f330"; }
public override string f331() { return "D.f331"; }
public override string f332() { return "D.f332"; }
public override string f333() { return "D.f333"; }
public override string f334() { return "D.f334"; }
public override string f335() { return "D.f335"; }
public override string f336() { return "D.f336"; }
public override string f337() { return "D.f337"; }
public override string f338() { return "D.f338"; }
public override string f339() { return "D.f339"; }
public override string f340() { return "D.f340"; }
public override string f341() { return "D.f341"; }
public override string f342() { return "D.f342"; }
public override string f343() { return "D.f343"; }
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public override string f345() { return "D.f345"; }
public override string f346() { return "D.f346"; }
public override string f347() { return "D.f347"; }
public override string f348() { return "D.f348"; }
public override string f349() { return "D.f349"; }
public override string f350() { return "D.f350"; }
public override string f351() { return "D.f351"; }
public override string f352() { return "D.f352"; }
public override string f353() { return "D.f353"; }
public override string f354() { return "D.f354"; }
public override string f355() { return "D.f355"; }
public override string f356() { return "D.f356"; }
public override string f357() { return "D.f357"; }
public override string f358() { return "D.f358"; }
public override string f359() { return "D.f359"; }
public override string f360() { return "D.f360"; }
public override string f361() { return "D.f361"; }
public override string f362() { return "D.f362"; }
public override string f363() { return "D.f363"; }
public override string f364() { return "D.f364"; }
public override string f365() { return "D.f365"; }
public override string f366() { return "D.f366"; }
public override string f367() { return "D.f367"; }
public override string f368() { return "D.f368"; }
public override string f369() { return "D.f369"; }
public override string f370() { return "D.f370"; }
public override string f371() { return "D.f371"; }
public override string f372() { return "D.f372"; }
public override string f373() { return "D.f373"; }
public override string f374() { return "D.f374"; }
public override string f375() { return "D.f375"; }
public override string f376() { return "D.f376"; }
public override string f377() { return "D.f377"; }
public override string f378() { return "D.f378"; }
public override string f379() { return "D.f379"; }
public override string f380() { return "D.f380"; }
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public override string f382() { return "D.f382"; }
public override string f383() { return "D.f383"; }
public override string f384() { return "D.f384"; }
public override string f385() { return "D.f385"; }
public override string f386() { return "D.f386"; }
public override string f387() { return "D.f387"; }
public override string f388() { return "D.f388"; }
public override string f389() { return "D.f389"; }
public override string f390() { return "D.f390"; }
public override string f391() { return "D.f391"; }
public override string f392() { return "D.f392"; }
public override string f393() { return "D.f393"; }
public override string f394() { return "D.f394"; }
public override string f395() { return "D.f395"; }
public override string f396() { return "D.f396"; }
public override string f397() { return "D.f397"; }
public override string f398() { return "D.f398"; }
public override string f399() { return "D.f399"; }
public override string f400() { return "D.f400"; }
public override string f401() { return "D.f401"; }
public override string f402() { return "D.f402"; }
public override string f403() { return "D.f403"; }
public override string f404() { return "D.f404"; }
public override string f405() { return "D.f405"; }
public override string f406() { return "D.f406"; }
public override string f407() { return "D.f407"; }
public override string f408() { return "D.f408"; }
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public override string f411() { return "D.f411"; }
public override string f412() { return "D.f412"; }
public override string f413() { return "D.f413"; }
public override string f414() { return "D.f414"; }
public override string f415() { return "D.f415"; }
public override string f416() { return "D.f416"; }
public override string f417() { return "D.f417"; }
public override string f418() { return "D.f418"; }
public override string f419() { return "D.f419"; }
public override string f420() { return "D.f420"; }
public override string f421() { return "D.f421"; }
public override string f422() { return "D.f422"; }
public override string f423() { return "D.f423"; }
public override string f424() { return "D.f424"; }
public override string f425() { return "D.f425"; }
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public override string f427() { return "D.f427"; }
public override string f428() { return "D.f428"; }
public override string f429() { return "D.f429"; }
public override string f430() { return "D.f430"; }
public override string f431() { return "D.f431"; }
public override string f432() { return "D.f432"; }
public override string f433() { return "D.f433"; }
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public override string f435() { return "D.f435"; }
public override string f436() { return "D.f436"; }
public override string f437() { return "D.f437"; }
public override string f438() { return "D.f438"; }
public override string f439() { return "D.f439"; }
public override string f440() { return "D.f440"; }
public override string f441() { return "D.f441"; }
public override string f442() { return "D.f442"; }
public override string f443() { return "D.f443"; }
public override string f444() { return "D.f444"; }
public override string f445() { return "D.f445"; }
public override string f446() { return "D.f446"; }
public override string f447() { return "D.f447"; }
public override string f448() { return "D.f448"; }
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public override string f450() { return "D.f450"; }
public override string f451() { return "D.f451"; }
public override string f452() { return "D.f452"; }
public override string f453() { return "D.f453"; }
public override string f454() { return "D.f454"; }
public override string f455() { return "D.f455"; }
public override string f456() { return "D.f456"; }
public override string f457() { return "D.f457"; }
public override string f458() { return "D.f458"; }
public override string f459() { return "D.f459"; }
public override string f460() { return "D.f460"; }
public override string f461() { return "D.f461"; }
public override string f462() { return "D.f462"; }
public override string f463() { return "D.f463"; }
public override string f464() { return "D.f464"; }
public override string f465() { return "D.f465"; }
public override string f466() { return "D.f466"; }
public override string f467() { return "D.f467"; }
public override string f468() { return "D.f468"; }
public override string f469() { return "D.f469"; }
public override string f470() { return "D.f470"; }
public override string f471() { return "D.f471"; }
public override string f472() { return "D.f472"; }
public override string f473() { return "D.f473"; }
public override string f474() { return "D.f474"; }
public override string f475() { return "D.f475"; }
public override string f476() { return "D.f476"; }
public override string f477() { return "D.f477"; }
public override string f478() { return "D.f478"; }
public override string f479() { return "D.f479"; }
public override string f480() { return "D.f480"; }
public override string f481() { return "D.f481"; }
public override string f482() { return "D.f482"; }
public override string f483() { return "D.f483"; }
public override string f484() { return "D.f484"; }
public override string f485() { return "D.f485"; }
public override string f486() { return "D.f486"; }
public override string f487() { return "D.f487"; }
public override string f488() { return "D.f488"; }
public override string f489() { return "D.f489"; }
public override string f490() { return "D.f490"; }
public override string f491() { return "D.f491"; }
public override string f492() { return "D.f492"; }
public override string f493() { return "D.f493"; }
public override string f494() { return "D.f494"; }
public override string f495() { return "D.f495"; }
public override string f496() { return "D.f496"; }
public override string f497() { return "D.f497"; }
public override string f498() { return "D.f498"; }
public override string f499() { return "D.f499"; }
public override string f500() { return "D.f500"; }
public override string f501() { return "D.f501"; }
public override string f502() { return "D.f502"; }
public override string f503() { return "D.f503"; }
public override string f504() { return "D.f504"; }
public override string f505() { return "D.f505"; }
public override string f506() { return "D.f506"; }
public override string f507() { return "D.f507"; }
public override string f508() { return "D.f508"; }
public override string f509() { return "D.f509"; }
public override string f510() { return "D.f510"; }
public override string f511() { return "D.f511"; }
public override string f512() { return "D.f512"; }
public override string f513() { return "D.f513"; }
public override string f514() { return "D.f514"; }
public override string f515() { return "D.f515"; }
public override string f516() { return "D.f516"; }
public override string f517() { return "D.f517"; }
public override string f518() { return "D.f518"; }
public override string f519() { return "D.f519"; }
public override string f520() { return "D.f520"; }
public override string f521() { return "D.f521"; }
public override string f522() { return "D.f522"; }
public override string f523() { return "D.f523"; }
public override string f524() { return "D.f524"; }
public override string f525() { return "D.f525"; }
public override string f526() { return "D.f526"; }
public override string f527() { return "D.f527"; }
public override string f528() { return "D.f528"; }
public override string f529() { return "D.f529"; }
public override string f530() { return "D.f530"; }
public override string f531() { return "D.f531"; }
public override string f532() { return "D.f532"; }
public override string f533() { return "D.f533"; }
public override string f534() { return "D.f534"; }
public override string f535() { return "D.f535"; }
public override string f536() { return "D.f536"; }
public override string f537() { return "D.f537"; }
public override string f538() { return "D.f538"; }
public override string f539() { return "D.f539"; }
public override string f540() { return "D.f540"; }
public override string f541() { return "D.f541"; }
public override string f542() { return "D.f542"; }
public override string f543() { return "D.f543"; }
public override string f544() { return "D.f544"; }
public override string f545() { return "D.f545"; }
public override string f546() { return "D.f546"; }
public override string f547() { return "D.f547"; }
public override string f548() { return "D.f548"; }
public override string f549() { return "D.f549"; }
public override string f550() { return "D.f550"; }
public override string f551() { return "D.f551"; }
public override string f552() { return "D.f552"; }
public override string f553() { return "D.f553"; }
public override string f554() { return "D.f554"; }
public override string f555() { return "D.f555"; }
public override string f556() { return "D.f556"; }
public override string f557() { return "D.f557"; }
public override string f558() { return "D.f558"; }
public override string f559() { return "D.f559"; }
public override string f560() { return "D.f560"; }
public override string f561() { return "D.f561"; }
public override string f562() { return "D.f562"; }
public override string f563() { return "D.f563"; }
public override string f564() { return "D.f564"; }
public override string f565() { return "D.f565"; }
public override string f566() { return "D.f566"; }
public override string f567() { return "D.f567"; }
public override string f568() { return "D.f568"; }
public override string f569() { return "D.f569"; }
public override string f570() { return "D.f570"; }
public override string f571() { return "D.f571"; }
public override string f572() { return "D.f572"; }
public override string f573() { return "D.f573"; }
public override string f574() { return "D.f574"; }
public override string f575() { return "D.f575"; }
public override string f576() { return "D.f576"; }
public override string f577() { return "D.f577"; }
public override string f578() { return "D.f578"; }
public override string f579() { return "D.f579"; }
public override string f580() { return "D.f580"; }
public override string f581() { return "D.f581"; }
public override string f582() { return "D.f582"; }
public override string f583() { return "D.f583"; }
public override string f584() { return "D.f584"; }
public override string f585() { return "D.f585"; }
public override string f586() { return "D.f586"; }
public override string f587() { return "D.f587"; }
public override string f588() { return "D.f588"; }
public override string f589() { return "D.f589"; }
public override string f590() { return "D.f590"; }
public override string f591() { return "D.f591"; }
public override string f592() { return "D.f592"; }
public override string f593() { return "D.f593"; }
public override string f594() { return "D.f594"; }
public override string f595() { return "D.f595"; }
public override string f596() { return "D.f596"; }
public override string f597() { return "D.f597"; }
public override string f598() { return "D.f598"; }
public override string f599() { return "D.f599"; }
public override string f600() { return "D.f600"; }
public override string f601() { return "D.f601"; }
public override string f602() { return "D.f602"; }
public override string f603() { return "D.f603"; }
public override string f604() { return "D.f604"; }
public override string f605() { return "D.f605"; }
public override string f606() { return "D.f606"; }
public override string f607() { return "D.f607"; }
public override string f608() { return "D.f608"; }
public override string f609() { return "D.f609"; }
public override string f610() { return "D.f610"; }
public override string f611() { return "D.f611"; }
public override string f612() { return "D.f612"; }
public override string f613() { return "D.f613"; }
public override string f614() { return "D.f614"; }
public override string f615() { return "D.f615"; }
public override string f616() { return "D.f616"; }
public override string f617() { return "D.f617"; }
public override string f618() { return "D.f618"; }
public override string f619() { return "D.f619"; }
public override string f620() { return "D.f620"; }
public override string f621() { return "D.f621"; }
public override string f622() { return "D.f622"; }
public override string f623() { return "D.f623"; }
public override string f624() { return "D.f624"; }
public override string f625() { return "D.f625"; }
public override string f626() { return "D.f626"; }
public override string f627() { return "D.f627"; }
public override string f628() { return "D.f628"; }
public override string f629() { return "D.f629"; }
public override string f630() { return "D.f630"; }
public override string f631() { return "D.f631"; }
public override string f632() { return "D.f632"; }
public override string f633() { return "D.f633"; }
public override string f634() { return "D.f634"; }
public override string f635() { return "D.f635"; }
public override string f636() { return "D.f636"; }
public override string f637() { return "D.f637"; }
public override string f638() { return "D.f638"; }
public override string f639() { return "D.f639"; }
public override string f640() { return "D.f640"; }
public override string f641() { return "D.f641"; }
public override string f642() { return "D.f642"; }
public override string f643() { return "D.f643"; }
public override string f644() { return "D.f644"; }
public override string f645() { return "D.f645"; }
public override string f646() { return "D.f646"; }
public override string f647() { return "D.f647"; }
public override string f648() { return "D.f648"; }
public override string f649() { return "D.f649"; }
public override string f650() { return "D.f650"; }
public override string f651() { return "D.f651"; }
public override string f652() { return "D.f652"; }
public override string f653() { return "D.f653"; }
public override string f654() { return "D.f654"; }
public override string f655() { return "D.f655"; }
public override string f656() { return "D.f656"; }
public override string f657() { return "D.f657"; }
public override string f658() { return "D.f658"; }
public override string f659() { return "D.f659"; }
public override string f660() { return "D.f660"; }
public override string f661() { return "D.f661"; }
public override string f662() { return "D.f662"; }
public override string f663() { return "D.f663"; }
public override string f664() { return "D.f664"; }
public override string f665() { return "D.f665"; }
public override string f666() { return "D.f666"; }
public override string f667() { return "D.f667"; }
public override string f668() { return "D.f668"; }
public override string f669() { return "D.f669"; }
public override string f670() { return "D.f670"; }
public override string f671() { return "D.f671"; }
public override string f672() { return "D.f672"; }
public override string f673() { return "D.f673"; }
public override string f674() { return "D.f674"; }
public override string f675() { return "D.f675"; }
public override string f676() { return "D.f676"; }
public override string f677() { return "D.f677"; }
public override string f678() { return "D.f678"; }
public override string f679() { return "D.f679"; }
public override string f680() { return "D.f680"; }
public override string f681() { return "D.f681"; }
public override string f682() { return "D.f682"; }
public override string f683() { return "D.f683"; }
public override string f684() { return "D.f684"; }
public override string f685() { return "D.f685"; }
public override string f686() { return "D.f686"; }
public override string f687() { return "D.f687"; }
public override string f688() { return "D.f688"; }
public override string f689() { return "D.f689"; }
public override string f690() { return "D.f690"; }
public override string f691() { return "D.f691"; }
public override string f692() { return "D.f692"; }
public override string f693() { return "D.f693"; }
public override string f694() { return "D.f694"; }
public override string f695() { return "D.f695"; }
public override string f696() { return "D.f696"; }
public override string f697() { return "D.f697"; }
public override string f698() { return "D.f698"; }
public override string f699() { return "D.f699"; }
public override string f700() { return "D.f700"; }
public override string f701() { return "D.f701"; }
public override string f702() { return "D.f702"; }
public override string f703() { return "D.f703"; }
public override string f704() { return "D.f704"; }
public override string f705() { return "D.f705"; }
public override string f706() { return "D.f706"; }
public override string f707() { return "D.f707"; }
public override string f708() { return "D.f708"; }
public override string f709() { return "D.f709"; }
public override string f710() { return "D.f710"; }
public override string f711() { return "D.f711"; }
public override string f712() { return "D.f712"; }
public override string f713() { return "D.f713"; }
public override string f714() { return "D.f714"; }
public override string f715() { return "D.f715"; }
public override string f716() { return "D.f716"; }
public override string f717() { return "D.f717"; }
public override string f718() { return "D.f718"; }
public override string f719() { return "D.f719"; }
public override string f720() { return "D.f720"; }
public override string f721() { return "D.f721"; }
public override string f722() { return "D.f722"; }
public override string f723() { return "D.f723"; }
public override string f724() { return "D.f724"; }
public override string f725() { return "D.f725"; }
public override string f726() { return "D.f726"; }
public override string f727() { return "D.f727"; }
public override string f728() { return "D.f728"; }
public override string f729() { return "D.f729"; }
public override string f730() { return "D.f730"; }
public override string f731() { return "D.f731"; }
public override string f732() { return "D.f732"; }
public override string f733() { return "D.f733"; }
public override string f734() { return "D.f734"; }
public override string f735() { return "D.f735"; }
public override string f736() { return "D.f736"; }
public override string f737() { return "D.f737"; }
public override string f738() { return "D.f738"; }
public override string f739() { return "D.f739"; }
public override string f740() { return "D.f740"; }
public override string f741() { return "D.f741"; }
public override string f742() { return "D.f742"; }
public override string f743() { return "D.f743"; }
public override string f744() { return "D.f744"; }
public override string f745() { return "D.f745"; }
public override string f746() { return "D.f746"; }
public override string f747() { return "D.f747"; }
public override string f748() { return "D.f748"; }
public override string f749() { return "D.f749"; }
public override string f750() { return "D.f750"; }
public override string f751() { return "D.f751"; }
public override string f752() { return "D.f752"; }
public override string f753() { return "D.f753"; }
public override string f754() { return "D.f754"; }
public override string f755() { return "D.f755"; }
public override string f756() { return "D.f756"; }
public override string f757() { return "D.f757"; }
public override string f758() { return "D.f758"; }
public override string f759() { return "D.f759"; }
public override string f760() { return "D.f760"; }
public override string f761() { return "D.f761"; }
public override string f762() { return "D.f762"; }
public override string f763() { return "D.f763"; }
public override string f764() { return "D.f764"; }
public override string f765() { return "D.f765"; }
public override string f766() { return "D.f766"; }
public override string f767() { return "D.f767"; }
public override string f768() { return "D.f768"; }
public override string f769() { return "D.f769"; }
public override string f770() { return "D.f770"; }
public override string f771() { return "D.f771"; }
public override string f772() { return "D.f772"; }
public override string f773() { return "D.f773"; }
public override string f774() { return "D.f774"; }
public override string f775() { return "D.f775"; }
public override string f776() { return "D.f776"; }
public override string f777() { return "D.f777"; }
public override string f778() { return "D.f778"; }
public override string f779() { return "D.f779"; }
public override string f780() { return "D.f780"; }
public override string f781() { return "D.f781"; }
public override string f782() { return "D.f782"; }
public override string f783() { return "D.f783"; }
public override string f784() { return "D.f784"; }
public override string f785() { return "D.f785"; }
public override string f786() { return "D.f786"; }
public override string f787() { return "D.f787"; }
public override string f788() { return "D.f788"; }
public override string f789() { return "D.f789"; }
public override string f790() { return "D.f790"; }
public override string f791() { return "D.f791"; }
public override string f792() { return "D.f792"; }
public override string f793() { return "D.f793"; }
public override string f794() { return "D.f794"; }
public override string f795() { return "D.f795"; }
public override string f796() { return "D.f796"; }
public override string f797() { return "D.f797"; }
public override string f798() { return "D.f798"; }
public override string f799() { return "D.f799"; }
public override string f800() { return "D.f800"; }
public override string f801() { return "D.f801"; }
public override string f802() { return "D.f802"; }
public override string f803() { return "D.f803"; }
public override string f804() { return "D.f804"; }
public override string f805() { return "D.f805"; }
public override string f806() { return "D.f806"; }
public override string f807() { return "D.f807"; }
public override string f808() { return "D.f808"; }
public override string f809() { return "D.f809"; }
public override string f810() { return "D.f810"; }
public override string f811() { return "D.f811"; }
public override string f812() { return "D.f812"; }
public override string f813() { return "D.f813"; }
public override string f814() { return "D.f814"; }
public override string f815() { return "D.f815"; }
public override string f816() { return "D.f816"; }
public override string f817() { return "D.f817"; }
public override string f818() { return "D.f818"; }
public override string f819() { return "D.f819"; }
public override string f820() { return "D.f820"; }
public override string f821() { return "D.f821"; }
public override string f822() { return "D.f822"; }
public override string f823() { return "D.f823"; }
public override string f824() { return "D.f824"; }
public override string f825() { return "D.f825"; }
public override string f826() { return "D.f826"; }
public override string f827() { return "D.f827"; }
public override string f828() { return "D.f828"; }
public override string f829() { return "D.f829"; }
public override string f830() { return "D.f830"; }
public override string f831() { return "D.f831"; }
public override string f832() { return "D.f832"; }
public override string f833() { return "D.f833"; }
public override string f834() { return "D.f834"; }
public override string f835() { return "D.f835"; }
public override string f836() { return "D.f836"; }
public override string f837() { return "D.f837"; }
public override string f838() { return "D.f838"; }
public override string f839() { return "D.f839"; }
public override string f840() { return "D.f840"; }
public override string f841() { return "D.f841"; }
public override string f842() { return "D.f842"; }
public override string f843() { return "D.f843"; }
public override string f844() { return "D.f844"; }
public override string f845() { return "D.f845"; }
public override string f846() { return "D.f846"; }
public override string f847() { return "D.f847"; }
public override string f848() { return "D.f848"; }
public override string f849() { return "D.f849"; }
public override string f850() { return "D.f850"; }
public override string f851() { return "D.f851"; }
public override string f852() { return "D.f852"; }
public override string f853() { return "D.f853"; }
public override string f854() { return "D.f854"; }
public override string f855() { return "D.f855"; }
public override string f856() { return "D.f856"; }
public override string f857() { return "D.f857"; }
public override string f858() { return "D.f858"; }
public override string f859() { return "D.f859"; }
public override string f860() { return "D.f860"; }
public override string f861() { return "D.f861"; }
public override string f862() { return "D.f862"; }
public override string f863() { return "D.f863"; }
public override string f864() { return "D.f864"; }
public override string f865() { return "D.f865"; }
public override string f866() { return "D.f866"; }
public override string f867() { return "D.f867"; }
public override string f868() { return "D.f868"; }
public override string f869() { return "D.f869"; }
public override string f870() { return "D.f870"; }
public override string f871() { return "D.f871"; }
public override string f872() { return "D.f872"; }
public override string f873() { return "D.f873"; }
public override string f874() { return "D.f874"; }
public override string f875() { return "D.f875"; }
public override string f876() { return "D.f876"; }
public override string f877() { return "D.f877"; }
public override string f878() { return "D.f878"; }
public override string f879() { return "D.f879"; }
public override string f880() { return "D.f880"; }
public override string f881() { return "D.f881"; }
public override string f882() { return "D.f882"; }
public override string f883() { return "D.f883"; }
public override string f884() { return "D.f884"; }
public override string f885() { return "D.f885"; }
public override string f886() { return "D.f886"; }
public override string f887() { return "D.f887"; }
public override string f888() { return "D.f888"; }
public override string f889() { return "D.f889"; }
public override string f890() { return "D.f890"; }
public override string f891() { return "D.f891"; }
public override string f892() { return "D.f892"; }
public override string f893() { return "D.f893"; }
public override string f894() { return "D.f894"; }
public override string f895() { return "D.f895"; }
public override string f896() { return "D.f896"; }
public override string f897() { return "D.f897"; }
public override string f898() { return "D.f898"; }
public override string f899() { return "D.f899"; }
public override string f900() { return "D.f900"; }
public override string f901() { return "D.f901"; }
public override string f902() { return "D.f902"; }
public override string f903() { return "D.f903"; }
public override string f904() { return "D.f904"; }
public override string f905() { return "D.f905"; }
public override string f906() { return "D.f906"; }
public override string f907() { return "D.f907"; }
public override string f908() { return "D.f908"; }
public override string f909() { return "D.f909"; }
public override string f910() { return "D.f910"; }
public override string f911() { return "D.f911"; }
public override string f912() { return "D.f912"; }
public override string f913() { return "D.f913"; }
public override string f914() { return "D.f914"; }
public override string f915() { return "D.f915"; }
public override string f916() { return "D.f916"; }
public override string f917() { return "D.f917"; }
public override string f918() { return "D.f918"; }
public override string f919() { return "D.f919"; }
public override string f920() { return "D.f920"; }
public override string f921() { return "D.f921"; }
public override string f922() { return "D.f922"; }
public override string f923() { return "D.f923"; }
public override string f924() { return "D.f924"; }
public override string f925() { return "D.f925"; }
public override string f926() { return "D.f926"; }
public override string f927() { return "D.f927"; }
public override string f928() { return "D.f928"; }
public override string f929() { return "D.f929"; }
public override string f930() { return "D.f930"; }
public override string f931() { return "D.f931"; }
public override string f932() { return "D.f932"; }
public override string f933() { return "D.f933"; }
public override string f934() { return "D.f934"; }
public override string f935() { return "D.f935"; }
public override string f936() { return "D.f936"; }
public override string f937() { return "D.f937"; }
public override string f938() { return "D.f938"; }
public override string f939() { return "D.f939"; }
public override string f940() { return "D.f940"; }
public override string f941() { return "D.f941"; }
public override string f942() { return "D.f942"; }
public override string f943() { return "D.f943"; }
public override string f944() { return "D.f944"; }
public override string f945() { return "D.f945"; }
public override string f946() { return "D.f946"; }
public override string f947() { return "D.f947"; }
public override string f948() { return "D.f948"; }
public override string f949() { return "D.f949"; }
public override string f950() { return "D.f950"; }
public override string f951() { return "D.f951"; }
public override string f952() { return "D.f952"; }
public override string f953() { return "D.f953"; }
public override string f954() { return "D.f954"; }
public override string f955() { return "D.f955"; }
public override string f956() { return "D.f956"; }
public override string f957() { return "D.f957"; }
public override string f958() { return "D.f958"; }
public override string f959() { return "D.f959"; }
public override string f960() { return "D.f960"; }
public override string f961() { return "D.f961"; }
public override string f962() { return "D.f962"; }
public override string f963() { return "D.f963"; }
public override string f964() { return "D.f964"; }
public override string f965() { return "D.f965"; }
public override string f966() { return "D.f966"; }
public override string f967() { return "D.f967"; }
public override string f968() { return "D.f968"; }
public override string f969() { return "D.f969"; }
public override string f970() { return "D.f970"; }
public override string f971() { return "D.f971"; }
public override string f972() { return "D.f972"; }
public override string f973() { return "D.f973"; }
public override string f974() { return "D.f974"; }
public override string f975() { return "D.f975"; }
public override string f976() { return "D.f976"; }
public override string f977() { return "D.f977"; }
public override string f978() { return "D.f978"; }
public override string f979() { return "D.f979"; }
public override string f980() { return "D.f980"; }
public override string f981() { return "D.f981"; }
public override string f982() { return "D.f982"; }
public override string f983() { return "D.f983"; }
public override string f984() { return "D.f984"; }
public override string f985() { return "D.f985"; }
public override string f986() { return "D.f986"; }
public override string f987() { return "D.f987"; }
public override string f988() { return "D.f988"; }
public override string f989() { return "D.f989"; }
public override string f990() { return "D.f990"; }
public override string f991() { return "D.f991"; }
public override string f992() { return "D.f992"; }
public override string f993() { return "D.f993"; }
public override string f994() { return "D.f994"; }
public override string f995() { return "D.f995"; }
public override string f996() { return "D.f996"; }
public override string f997() { return "D.f997"; }
public override string f998() { return "D.f998"; }
public override string f999() { return "D.f999"; }
public override string f1000() { return "D.f1000"; }
public override string f1001() { return "D.f1001"; }
public override string f1002() { return "D.f1002"; }
public override string f1003() { return "D.f1003"; }
public override string f1004() { return "D.f1004"; }
public override string f1005() { return "D.f1005"; }
public override string f1006() { return "D.f1006"; }
public override string f1007() { return "D.f1007"; }
public override string f1008() { return "D.f1008"; }
public override string f1009() { return "D.f1009"; }
public override string f1010() { return "D.f1010"; }
public override string f1011() { return "D.f1011"; }
public override string f1012() { return "D.f1012"; }
public override string f1013() { return "D.f1013"; }
public override string f1014() { return "D.f1014"; }
public override string f1015() { return "D.f1015"; }
public override string f1016() { return "D.f1016"; }
public override string f1017() { return "D.f1017"; }
public override string f1018() { return "D.f1018"; }
public override string f1019() { return "D.f1019"; }
public override string f1020() { return "D.f1020"; }
public override string f1021() { return "D.f1021"; }
public override string f1022() { return "D.f1022"; }
public override string f1023() { return "D.f1023"; }
public override string f1024() { return "D.f1024"; }
public override string f1025() { return "D.f1025"; }
public override string f1026() { return "D.f1026"; }
public override string f1027() { return "D.f1027"; }
public override string f1028() { return "D.f1028"; }
public override string f1029() { return "D.f1029"; }
public override string f1030() { return "D.f1030"; }
public override string f1031() { return "D.f1031"; }
public override string f1032() { return "D.f1032"; }
public override string f1033() { return "D.f1033"; }
public override string f1034() { return "D.f1034"; }
public override string f1035() { return "D.f1035"; }
public override string f1036() { return "D.f1036"; }
public override string f1037() { return "D.f1037"; }
public override string f1038() { return "D.f1038"; }
public override string f1039() { return "D.f1039"; }
public override string f1040() { return "D.f1040"; }
public override string f1041() { return "D.f1041"; }
public override string f1042() { return "D.f1042"; }
public override string f1043() { return "D.f1043"; }
public override string f1044() { return "D.f1044"; }
public override string f1045() { return "D.f1045"; }
public override string f1046() { return "D.f1046"; }
public override string f1047() { return "D.f1047"; }
public override string f1048() { return "D.f1048"; }
public override string f1049() { return "D.f1049"; }
public override string f1050() { return "D.f1050"; }
public override string f1051() { return "D.f1051"; }
public override string f1052() { return "D.f1052"; }
public override string f1053() { return "D.f1053"; }
public override string f1054() { return "D.f1054"; }
public override string f1055() { return "D.f1055"; }
public override string f1056() { return "D.f1056"; }
public override string f1057() { return "D.f1057"; }
public override string f1058() { return "D.f1058"; }
public override string f1059() { return "D.f1059"; }
public override string f1060() { return "D.f1060"; }
public override string f1061() { return "D.f1061"; }
public override string f1062() { return "D.f1062"; }
public override string f1063() { return "D.f1063"; }
public override string f1064() { return "D.f1064"; }
public override string f1065() { return "D.f1065"; }
public override string f1066() { return "D.f1066"; }
public override string f1067() { return "D.f1067"; }
public override string f1068() { return "D.f1068"; }
public override string f1069() { return "D.f1069"; }
public override string f1070() { return "D.f1070"; }
public override string f1071() { return "D.f1071"; }
public override string f1072() { return "D.f1072"; }
public override string f1073() { return "D.f1073"; }
public override string f1074() { return "D.f1074"; }
public override string f1075() { return "D.f1075"; }
public override string f1076() { return "D.f1076"; }
public override string f1077() { return "D.f1077"; }
public override string f1078() { return "D.f1078"; }
public override string f1079() { return "D.f1079"; }
public override string f1080() { return "D.f1080"; }
public override string f1081() { return "D.f1081"; }
public override string f1082() { return "D.f1082"; }
public override string f1083() { return "D.f1083"; }
public override string f1084() { return "D.f1084"; }
public override string f1085() { return "D.f1085"; }
public override string f1086() { return "D.f1086"; }
public override string f1087() { return "D.f1087"; }
public override string f1088() { return "D.f1088"; }
public override string f1089() { return "D.f1089"; }
public override string f1090() { return "D.f1090"; }
public override string f1091() { return "D.f1091"; }
public override string f1092() { return "D.f1092"; }
public override string f1093() { return "D.f1093"; }
public override string f1094() { return "D.f1094"; }
public override string f1095() { return "D.f1095"; }
public override string f1096() { return "D.f1096"; }
public override string f1097() { return "D.f1097"; }
public override string f1098() { return "D.f1098"; }
public override string f1099() { return "D.f1099"; }
public override string f1100() { return "D.f1100"; }
public override string f1101() { return "D.f1101"; }
public override string f1102() { return "D.f1102"; }
public override string f1103() { return "D.f1103"; }
public override string f1104() { return "D.f1104"; }
public override string f1105() { return "D.f1105"; }
public override string f1106() { return "D.f1106"; }
public override string f1107() { return "D.f1107"; }
public override string f1108() { return "D.f1108"; }
public override string f1109() { return "D.f1109"; }
public override string f1110() { return "D.f1110"; }
public override string f1111() { return "D.f1111"; }
public override string f1112() { return "D.f1112"; }
public override string f1113() { return "D.f1113"; }
public override string f1114() { return "D.f1114"; }
public override string f1115() { return "D.f1115"; }
public override string f1116() { return "D.f1116"; }
public override string f1117() { return "D.f1117"; }
public override string f1118() { return "D.f1118"; }
public override string f1119() { return "D.f1119"; }
public override string f1120() { return "D.f1120"; }
public override string f1121() { return "D.f1121"; }
public override string f1122() { return "D.f1122"; }
public override string f1123() { return "D.f1123"; }
public override string f1124() { return "D.f1124"; }
public override string f1125() { return "D.f1125"; }
public override string f1126() { return "D.f1126"; }
public override string f1127() { return "D.f1127"; }
public override string f1128() { return "D.f1128"; }
public override string f1129() { return "D.f1129"; }
public override string f1130() { return "D.f1130"; }
public override string f1131() { return "D.f1131"; }
public override string f1132() { return "D.f1132"; }
public override string f1133() { return "D.f1133"; }
public override string f1134() { return "D.f1134"; }
public override string f1135() { return "D.f1135"; }
public override string f1136() { return "D.f1136"; }
public override string f1137() { return "D.f1137"; }
public override string f1138() { return "D.f1138"; }
public override string f1139() { return "D.f1139"; }
public override string f1140() { return "D.f1140"; }
public override string f1141() { return "D.f1141"; }
public override string f1142() { return "D.f1142"; }
public override string f1143() { return "D.f1143"; }
public override string f1144() { return "D.f1144"; }
public override string f1145() { return "D.f1145"; }
public override string f1146() { return "D.f1146"; }
public override string f1147() { return "D.f1147"; }
public override string f1148() { return "D.f1148"; }
public override string f1149() { return "D.f1149"; }
public override string f1150() { return "D.f1150"; }
public override string f1151() { return "D.f1151"; }
public override string f1152() { return "D.f1152"; }
public override string f1153() { return "D.f1153"; }
public override string f1154() { return "D.f1154"; }
public override string f1155() { return "D.f1155"; }
public override string f1156() { return "D.f1156"; }
public override string f1157() { return "D.f1157"; }
public override string f1158() { return "D.f1158"; }
public override string f1159() { return "D.f1159"; }
public override string f1160() { return "D.f1160"; }
public override string f1161() { return "D.f1161"; }
public override string f1162() { return "D.f1162"; }
public override string f1163() { return "D.f1163"; }
public override string f1164() { return "D.f1164"; }
public override string f1165() { return "D.f1165"; }
public override string f1166() { return "D.f1166"; }
public override string f1167() { return "D.f1167"; }
public override string f1168() { return "D.f1168"; }
public override string f1169() { return "D.f1169"; }
public override string f1170() { return "D.f1170"; }
public override string f1171() { return "D.f1171"; }
public override string f1172() { return "D.f1172"; }
public override string f1173() { return "D.f1173"; }
public override string f1174() { return "D.f1174"; }
public override string f1175() { return "D.f1175"; }
public override string f1176() { return "D.f1176"; }
public override string f1177() { return "D.f1177"; }
public override string f1178() { return "D.f1178"; }
public override string f1179() { return "D.f1179"; }
public override string f1180() { return "D.f1180"; }
public override string f1181() { return "D.f1181"; }
public override string f1182() { return "D.f1182"; }
public override string f1183() { return "D.f1183"; }
public override string f1184() { return "D.f1184"; }
public override string f1185() { return "D.f1185"; }
public override string f1186() { return "D.f1186"; }
public override string f1187() { return "D.f1187"; }
public override string f1188() { return "D.f1188"; }
public override string f1189() { return "D.f1189"; }
public override string f1190() { return "D.f1190"; }
public override string f1191() { return "D.f1191"; }
public override string f1192() { return "D.f1192"; }
public override string f1193() { return "D.f1193"; }
public override string f1194() { return "D.f1194"; }
public override string f1195() { return "D.f1195"; }
public override string f1196() { return "D.f1196"; }
public override string f1197() { return "D.f1197"; }
public override string f1198() { return "D.f1198"; }
public override string f1199() { return "D.f1199"; }
public override string f1200() { return "D.f1200"; }
public override string f1201() { return "D.f1201"; }
public override string f1202() { return "D.f1202"; }
public override string f1203() { return "D.f1203"; }
public override string f1204() { return "D.f1204"; }
public override string f1205() { return "D.f1205"; }
public override string f1206() { return "D.f1206"; }
public override string f1207() { return "D.f1207"; }
public override string f1208() { return "D.f1208"; }
public override string f1209() { return "D.f1209"; }
public override string f1210() { return "D.f1210"; }
public override string f1211() { return "D.f1211"; }
public override string f1212() { return "D.f1212"; }
public override string f1213() { return "D.f1213"; }
public override string f1214() { return "D.f1214"; }
public override string f1215() { return "D.f1215"; }
public override string f1216() { return "D.f1216"; }
public override string f1217() { return "D.f1217"; }
public override string f1218() { return "D.f1218"; }
public override string f1219() { return "D.f1219"; }
public override string f1220() { return "D.f1220"; }
public override string f1221() { return "D.f1221"; }
public override string f1222() { return "D.f1222"; }
public override string f1223() { return "D.f1223"; }
public override string f1224() { return "D.f1224"; }
public override string f1225() { return "D.f1225"; }
public override string f1226() { return "D.f1226"; }
public override string f1227() { return "D.f1227"; }
public override string f1228() { return "D.f1228"; }
public override string f1229() { return "D.f1229"; }
public override string f1230() { return "D.f1230"; }
public override string f1231() { return "D.f1231"; }
public override string f1232() { return "D.f1232"; }
public override string f1233() { return "D.f1233"; }
public override string f1234() { return "D.f1234"; }
public override string f1235() { return "D.f1235"; }
public override string f1236() { return "D.f1236"; }
public override string f1237() { return "D.f1237"; }
public override string f1238() { return "D.f1238"; }
public override string f1239() { return "D.f1239"; }
public override string f1240() { return "D.f1240"; }
public override string f1241() { return "D.f1241"; }
public override string f1242() { return "D.f1242"; }
public override string f1243() { return "D.f1243"; }
public override string f1244() { return "D.f1244"; }
public override string f1245() { return "D.f1245"; }
public override string f1246() { return "D.f1246"; }
public override string f1247() { return "D.f1247"; }
public override string f1248() { return "D.f1248"; }
public override string f1249() { return "D.f1249"; }
public override string f1250() { return "D.f1250"; }
public override string f1251() { return "D.f1251"; }
public override string f1252() { return "D.f1252"; }
public override string f1253() { return "D.f1253"; }
public override string f1254() { return "D.f1254"; }
public override string f1255() { return "D.f1255"; }
public override string f1256() { return "D.f1256"; }
public override string f1257() { return "D.f1257"; }
public override string f1258() { return "D.f1258"; }
public override string f1259() { return "D.f1259"; }
public override string f1260() { return "D.f1260"; }
public override string f1261() { return "D.f1261"; }
public override string f1262() { return "D.f1262"; }
public override string f1263() { return "D.f1263"; }
public override string f1264() { return "D.f1264"; }
public override string f1265() { return "D.f1265"; }
public override string f1266() { return "D.f1266"; }
public override string f1267() { return "D.f1267"; }
public override string f1268() { return "D.f1268"; }
public override string f1269() { return "D.f1269"; }
public override string f1270() { return "D.f1270"; }
public override string f1271() { return "D.f1271"; }
public override string f1272() { return "D.f1272"; }
public override string f1273() { return "D.f1273"; }
public override string f1274() { return "D.f1274"; }
public override string f1275() { return "D.f1275"; }
public override string f1276() { return "D.f1276"; }
public override string f1277() { return "D.f1277"; }
public override string f1278() { return "D.f1278"; }
public override string f1279() { return "D.f1279"; }
public override string f1280() { return "D.f1280"; }
public override string f1281() { return "D.f1281"; }
public override string f1282() { return "D.f1282"; }
public override string f1283() { return "D.f1283"; }
public override string f1284() { return "D.f1284"; }
public override string f1285() { return "D.f1285"; }
public override string f1286() { return "D.f1286"; }
public override string f1287() { return "D.f1287"; }
public override string f1288() { return "D.f1288"; }
public override string f1289() { return "D.f1289"; }
public override string f1290() { return "D.f1290"; }
public override string f1291() { return "D.f1291"; }
public override string f1292() { return "D.f1292"; }
public override string f1293() { return "D.f1293"; }
public override string f1294() { return "D.f1294"; }
public override string f1295() { return "D.f1295"; }
public override string f1296() { return "D.f1296"; }
public override string f1297() { return "D.f1297"; }
public override string f1298() { return "D.f1298"; }
public override string f1299() { return "D.f1299"; }
public override string f1300() { return "D.f1300"; }
public override string f1301() { return "D.f1301"; }
public override string f1302() { return "D.f1302"; }
public override string f1303() { return "D.f1303"; }
public override string f1304() { return "D.f1304"; }
public override string f1305() { return "D.f1305"; }
public override string f1306() { return "D.f1306"; }
public override string f1307() { return "D.f1307"; }
public override string f1308() { return "D.f1308"; }
public override string f1309() { return "D.f1309"; }
public override string f1310() { return "D.f1310"; }
public override string f1311() { return "D.f1311"; }
public override string f1312() { return "D.f1312"; }
public override string f1313() { return "D.f1313"; }
public override string f1314() { return "D.f1314"; }
public override string f1315() { return "D.f1315"; }
public override string f1316() { return "D.f1316"; }
public override string f1317() { return "D.f1317"; }
public override string f1318() { return "D.f1318"; }
public override string f1319() { return "D.f1319"; }
public override string f1320() { return "D.f1320"; }
public override string f1321() { return "D.f1321"; }
public override string f1322() { return "D.f1322"; }
public override string f1323() { return "D.f1323"; }
public override string f1324() { return "D.f1324"; }
public override string f1325() { return "D.f1325"; }
public override string f1326() { return "D.f1326"; }
public override string f1327() { return "D.f1327"; }
public override string f1328() { return "D.f1328"; }
public override string f1329() { return "D.f1329"; }
public override string f1330() { return "D.f1330"; }
public override string f1331() { return "D.f1331"; }
public override string f1332() { return "D.f1332"; }
public override string f1333() { return "D.f1333"; }
public override string f1334() { return "D.f1334"; }
public override string f1335() { return "D.f1335"; }
public override string f1336() { return "D.f1336"; }
public override string f1337() { return "D.f1337"; }
public override string f1338() { return "D.f1338"; }
public override string f1339() { return "D.f1339"; }
public override string f1340() { return "D.f1340"; }
public override string f1341() { return "D.f1341"; }
public override string f1342() { return "D.f1342"; }
public override string f1343() { return "D.f1343"; }
public override string f1344() { return "D.f1344"; }
public override string f1345() { return "D.f1345"; }
public override string f1346() { return "D.f1346"; }
public override string f1347() { return "D.f1347"; }
public override string f1348() { return "D.f1348"; }
public override string f1349() { return "D.f1349"; }
public override string f1350() { return "D.f1350"; }
public override string f1351() { return "D.f1351"; }
public override string f1352() { return "D.f1352"; }
public override string f1353() { return "D.f1353"; }
public override string f1354() { return "D.f1354"; }
public override string f1355() { return "D.f1355"; }
public override string f1356() { return "D.f1356"; }
public override string f1357() { return "D.f1357"; }
public override string f1358() { return "D.f1358"; }
public override string f1359() { return "D.f1359"; }
public override string f1360() { return "D.f1360"; }
public override string f1361() { return "D.f1361"; }
public override string f1362() { return "D.f1362"; }
public override string f1363() { return "D.f1363"; }
public override string f1364() { return "D.f1364"; }
public override string f1365() { return "D.f1365"; }
public override string f1366() { return "D.f1366"; }
public override string f1367() { return "D.f1367"; }
public override string f1368() { return "D.f1368"; }
public override string f1369() { return "D.f1369"; }
public override string f1370() { return "D.f1370"; }
public override string f1371() { return "D.f1371"; }
public override string f1372() { return "D.f1372"; }
public override string f1373() { return "D.f1373"; }
public override string f1374() { return "D.f1374"; }
public override string f1375() { return "D.f1375"; }
public override string f1376() { return "D.f1376"; }
public override string f1377() { return "D.f1377"; }
public override string f1378() { return "D.f1378"; }
public override string f1379() { return "D.f1379"; }
public override string f1380() { return "D.f1380"; }
public override string f1381() { return "D.f1381"; }
public override string f1382() { return "D.f1382"; }
public override string f1383() { return "D.f1383"; }
public override string f1384() { return "D.f1384"; }
public override string f1385() { return "D.f1385"; }
public override string f1386() { return "D.f1386"; }
public override string f1387() { return "D.f1387"; }
public override string f1388() { return "D.f1388"; }
public override string f1389() { return "D.f1389"; }
public override string f1390() { return "D.f1390"; }
public override string f1391() { return "D.f1391"; }
public override string f1392() { return "D.f1392"; }
public override string f1393() { return "D.f1393"; }
public override string f1394() { return "D.f1394"; }
public override string f1395() { return "D.f1395"; }
public override string f1396() { return "D.f1396"; }
public override string f1397() { return "D.f1397"; }
public override string f1398() { return "D.f1398"; }
public override string f1399() { return "D.f1399"; }
public override string f1400() { return "D.f1400"; }
public override string f1401() { return "D.f1401"; }
public override string f1402() { return "D.f1402"; }
public override string f1403() { return "D.f1403"; }
public override string f1404() { return "D.f1404"; }
public override string f1405() { return "D.f1405"; }
public override string f1406() { return "D.f1406"; }
public override string f1407() { return "D.f1407"; }
public override string f1408() { return "D.f1408"; }
public override string f1409() { return "D.f1409"; }
public override string f1410() { return "D.f1410"; }
public override string f1411() { return "D.f1411"; }
public override string f1412() { return "D.f1412"; }
public override string f1413() { return "D.f1413"; }
public override string f1414() { return "D.f1414"; }
public override string f1415() { return "D.f1415"; }
public override string f1416() { return "D.f1416"; }
public override string f1417() { return "D.f1417"; }
public override string f1418() { return "D.f1418"; }
public override string f1419() { return "D.f1419"; }
public override string f1420() { return "D.f1420"; }
public override string f1421() { return "D.f1421"; }
public override string f1422() { return "D.f1422"; }
public override string f1423() { return "D.f1423"; }
public override string f1424() { return "D.f1424"; }
public override string f1425() { return "D.f1425"; }
public override string f1426() { return "D.f1426"; }
public override string f1427() { return "D.f1427"; }
public override string f1428() { return "D.f1428"; }
public override string f1429() { return "D.f1429"; }
public override string f1430() { return "D.f1430"; }
public override string f1431() { return "D.f1431"; }
public override string f1432() { return "D.f1432"; }
public override string f1433() { return "D.f1433"; }
public override string f1434() { return "D.f1434"; }
public override string f1435() { return "D.f1435"; }
public override string f1436() { return "D.f1436"; }
public override string f1437() { return "D.f1437"; }
public override string f1438() { return "D.f1438"; }
public override string f1439() { return "D.f1439"; }
public override string f1440() { return "D.f1440"; }
public override string f1441() { return "D.f1441"; }
public override string f1442() { return "D.f1442"; }
public override string f1443() { return "D.f1443"; }
public override string f1444() { return "D.f1444"; }
public override string f1445() { return "D.f1445"; }
public override string f1446() { return "D.f1446"; }
public override string f1447() { return "D.f1447"; }
public override string f1448() { return "D.f1448"; }
public override string f1449() { return "D.f1449"; }
public override string f1450() { return "D.f1450"; }
public override string f1451() { return "D.f1451"; }
public override string f1452() { return "D.f1452"; }
public override string f1453() { return "D.f1453"; }
public override string f1454() { return "D.f1454"; }
public override string f1455() { return "D.f1455"; }
public override string f1456() { return "D.f1456"; }
public override string f1457() { return "D.f1457"; }
public override string f1458() { return "D.f1458"; }
public override string f1459() { return "D.f1459"; }
public override string f1460() { return "D.f1460"; }
public override string f1461() { return "D.f1461"; }
public override string f1462() { return "D.f1462"; }
public override string f1463() { return "D.f1463"; }
public override string f1464() { return "D.f1464"; }
public override string f1465() { return "D.f1465"; }
public override string f1466() { return "D.f1466"; }
public override string f1467() { return "D.f1467"; }
public override string f1468() { return "D.f1468"; }
public override string f1469() { return "D.f1469"; }
public override string f1470() { return "D.f1470"; }
public override string f1471() { return "D.f1471"; }
public override string f1472() { return "D.f1472"; }
public override string f1473() { return "D.f1473"; }
public override string f1474() { return "D.f1474"; }
public override string f1475() { return "D.f1475"; }
public override string f1476() { return "D.f1476"; }
public override string f1477() { return "D.f1477"; }
public override string f1478() { return "D.f1478"; }
public override string f1479() { return "D.f1479"; }
public override string f1480() { return "D.f1480"; }
public override string f1481() { return "D.f1481"; }
public override string f1482() { return "D.f1482"; }
public override string f1483() { return "D.f1483"; }
public override string f1484() { return "D.f1484"; }
public override string f1485() { return "D.f1485"; }
public override string f1486() { return "D.f1486"; }
public override string f1487() { return "D.f1487"; }
public override string f1488() { return "D.f1488"; }
public override string f1489() { return "D.f1489"; }
public override string f1490() { return "D.f1490"; }
public override string f1491() { return "D.f1491"; }
public override string f1492() { return "D.f1492"; }
public override string f1493() { return "D.f1493"; }
public override string f1494() { return "D.f1494"; }
public override string f1495() { return "D.f1495"; }
public override string f1496() { return "D.f1496"; }
public override string f1497() { return "D.f1497"; }
public override string f1498() { return "D.f1498"; }
public override string f1499() { return "D.f1499"; }
public override string f1500() { return "D.f1500"; }
public override string f1501() { return "D.f1501"; }
public override string f1502() { return "D.f1502"; }
public override string f1503() { return "D.f1503"; }
public override string f1504() { return "D.f1504"; }
public override string f1505() { return "D.f1505"; }
public override string f1506() { return "D.f1506"; }
public override string f1507() { return "D.f1507"; }
public override string f1508() { return "D.f1508"; }
public override string f1509() { return "D.f1509"; }
public override string f1510() { return "D.f1510"; }
public override string f1511() { return "D.f1511"; }
public override string f1512() { return "D.f1512"; }
public override string f1513() { return "D.f1513"; }
public override string f1514() { return "D.f1514"; }
public override string f1515() { return "D.f1515"; }
public override string f1516() { return "D.f1516"; }
public override string f1517() { return "D.f1517"; }
public override string f1518() { return "D.f1518"; }
public override string f1519() { return "D.f1519"; }
public override string f1520() { return "D.f1520"; }
public override string f1521() { return "D.f1521"; }
public override string f1522() { return "D.f1522"; }
public override string f1523() { return "D.f1523"; }
public override string f1524() { return "D.f1524"; }
public override string f1525() { return "D.f1525"; }
public override string f1526() { return "D.f1526"; }
public override string f1527() { return "D.f1527"; }
public override string f1528() { return "D.f1528"; }
public override string f1529() { return "D.f1529"; }
public override string f1530() { return "D.f1530"; }
public override string f1531() { return "D.f1531"; }
public override string f1532() { return "D.f1532"; }
public override string f1533() { return "D.f1533"; }
public override string f1534() { return "D.f1534"; }
public override string f1535() { return "D.f1535"; }
public override string f1536() { return "D.f1536"; }
public override string f1537() { return "D.f1537"; }
public override string f1538() { return "D.f1538"; }
public override string f1539() { return "D.f1539"; }
public override string f1540() { return "D.f1540"; }
public override string f1541() { return "D.f1541"; }
public override string f1542() { return "D.f1542"; }
public override string f1543() { return "D.f1543"; }
public override string f1544() { return "D.f1544"; }
public override string f1545() { return "D.f1545"; }
public override string f1546() { return "D.f1546"; }
public override string f1547() { return "D.f1547"; }
public override string f1548() { return "D.f1548"; }
public override string f1549() { return "D.f1549"; }
public override string f1550() { return "D.f1550"; }
public override string f1551() { return "D.f1551"; }
public override string f1552() { return "D.f1552"; }
public override string f1553() { return "D.f1553"; }
public override string f1554() { return "D.f1554"; }
public override string f1555() { return "D.f1555"; }
public override string f1556() { return "D.f1556"; }
public override string f1557() { return "D.f1557"; }
public override string f1558() { return "D.f1558"; }
public override string f1559() { return "D.f1559"; }
public override string f1560() { return "D.f1560"; }
public override string f1561() { return "D.f1561"; }
public override string f1562() { return "D.f1562"; }
public override string f1563() { return "D.f1563"; }
public override string f1564() { return "D.f1564"; }
public override string f1565() { return "D.f1565"; }
public override string f1566() { return "D.f1566"; }
public override string f1567() { return "D.f1567"; }
public override string f1568() { return "D.f1568"; }
public override string f1569() { return "D.f1569"; }
public override string f1570() { return "D.f1570"; }
public override string f1571() { return "D.f1571"; }
public override string f1572() { return "D.f1572"; }
public override string f1573() { return "D.f1573"; }
public override string f1574() { return "D.f1574"; }
public override string f1575() { return "D.f1575"; }
public override string f1576() { return "D.f1576"; }
public override string f1577() { return "D.f1577"; }
public override string f1578() { return "D.f1578"; }
public override string f1579() { return "D.f1579"; }
public override string f1580() { return "D.f1580"; }
public override string f1581() { return "D.f1581"; }
public override string f1582() { return "D.f1582"; }
public override string f1583() { return "D.f1583"; }
public override string f1584() { return "D.f1584"; }
public override string f1585() { return "D.f1585"; }
public override string f1586() { return "D.f1586"; }
public override string f1587() { return "D.f1587"; }
public override string f1588() { return "D.f1588"; }
public override string f1589() { return "D.f1589"; }
public override string f1590() { return "D.f1590"; }
public override string f1591() { return "D.f1591"; }
public override string f1592() { return "D.f1592"; }
public override string f1593() { return "D.f1593"; }
public override string f1594() { return "D.f1594"; }
public override string f1595() { return "D.f1595"; }
public override string f1596() { return "D.f1596"; }
public override string f1597() { return "D.f1597"; }
public override string f1598() { return "D.f1598"; }
public override string f1599() { return "D.f1599"; }
public override string f1600() { return "D.f1600"; }
public override string f1601() { return "D.f1601"; }
public override string f1602() { return "D.f1602"; }
public override string f1603() { return "D.f1603"; }
public override string f1604() { return "D.f1604"; }
public override string f1605() { return "D.f1605"; }
public override string f1606() { return "D.f1606"; }
public override string f1607() { return "D.f1607"; }
public override string f1608() { return "D.f1608"; }
public override string f1609() { return "D.f1609"; }
public override string f1610() { return "D.f1610"; }
public override string f1611() { return "D.f1611"; }
public override string f1612() { return "D.f1612"; }
public override string f1613() { return "D.f1613"; }
public override string f1614() { return "D.f1614"; }
public override string f1615() { return "D.f1615"; }
public override string f1616() { return "D.f1616"; }
public override string f1617() { return "D.f1617"; }
public override string f1618() { return "D.f1618"; }
public override string f1619() { return "D.f1619"; }
public override string f1620() { return "D.f1620"; }
public override string f1621() { return "D.f1621"; }
public override string f1622() { return "D.f1622"; }
public override string f1623() { return "D.f1623"; }
public override string f1624() { return "D.f1624"; }
public override string f1625() { return "D.f1625"; }
public override string f1626() { return "D.f1626"; }
public override string f1627() { return "D.f1627"; }
public override string f1628() { return "D.f1628"; }
public override string f1629() { return "D.f1629"; }
public override string f1630() { return "D.f1630"; }
public override string f1631() { return "D.f1631"; }
public override string f1632() { return "D.f1632"; }
public override string f1633() { return "D.f1633"; }
public override string f1634() { return "D.f1634"; }
public override string f1635() { return "D.f1635"; }
public override string f1636() { return "D.f1636"; }
public override string f1637() { return "D.f1637"; }
public override string f1638() { return "D.f1638"; }
public override string f1639() { return "D.f1639"; }
public override string f1640() { return "D.f1640"; }
public override string f1641() { return "D.f1641"; }
public override string f1642() { return "D.f1642"; }
public override string f1643() { return "D.f1643"; }
public override string f1644() { return "D.f1644"; }
public override string f1645() { return "D.f1645"; }
public override string f1646() { return "D.f1646"; }
public override string f1647() { return "D.f1647"; }
public override string f1648() { return "D.f1648"; }
public override string f1649() { return "D.f1649"; }
public override string f1650() { return "D.f1650"; }
public override string f1651() { return "D.f1651"; }
public override string f1652() { return "D.f1652"; }
public override string f1653() { return "D.f1653"; }
public override string f1654() { return "D.f1654"; }
public override string f1655() { return "D.f1655"; }
public override string f1656() { return "D.f1656"; }
public override string f1657() { return "D.f1657"; }
public override string f1658() { return "D.f1658"; }
public override string f1659() { return "D.f1659"; }
public override string f1660() { return "D.f1660"; }
public override string f1661() { return "D.f1661"; }
public override string f1662() { return "D.f1662"; }
public override string f1663() { return "D.f1663"; }
public override string f1664() { return "D.f1664"; }
public override string f1665() { return "D.f1665"; }
public override string f1666() { return "D.f1666"; }
public override string f1667() { return "D.f1667"; }
public override string f1668() { return "D.f1668"; }
public override string f1669() { return "D.f1669"; }
public override string f1670() { return "D.f1670"; }
public override string f1671() { return "D.f1671"; }
public override string f1672() { return "D.f1672"; }
public override string f1673() { return "D.f1673"; }
public override string f1674() { return "D.f1674"; }
public override string f1675() { return "D.f1675"; }
public override string f1676() { return "D.f1676"; }
public override string f1677() { return "D.f1677"; }
public override string f1678() { return "D.f1678"; }
public override string f1679() { return "D.f1679"; }
public override string f1680() { return "D.f1680"; }
public override string f1681() { return "D.f1681"; }
public override string f1682() { return "D.f1682"; }
public override string f1683() { return "D.f1683"; }
public override string f1684() { return "D.f1684"; }
public override string f1685() { return "D.f1685"; }
public override string f1686() { return "D.f1686"; }
public override string f1687() { return "D.f1687"; }
public override string f1688() { return "D.f1688"; }
public override string f1689() { return "D.f1689"; }
public override string f1690() { return "D.f1690"; }
public override string f1691() { return "D.f1691"; }
public override string f1692() { return "D.f1692"; }
public override string f1693() { return "D.f1693"; }
public override string f1694() { return "D.f1694"; }
public override string f1695() { return "D.f1695"; }
public override string f1696() { return "D.f1696"; }
public override string f1697() { return "D.f1697"; }
public override string f1698() { return "D.f1698"; }
public override string f1699() { return "D.f1699"; }
public override string f1700() { return "D.f1700"; }
public override string f1701() { return "D.f1701"; }
public override string f1702() { return "D.f1702"; }
public override string f1703() { return "D.f1703"; }
public override string f1704() { return "D.f1704"; }
public override string f1705() { return "D.f1705"; }
public override string f1706() { return "D.f1706"; }
public override string f1707() { return "D.f1707"; }
public override string f1708() { return "D.f1708"; }
public override string f1709() { return "D.f1709"; }
public override string f1710() { return "D.f1710"; }
public override string f1711() { return "D.f1711"; }
public override string f1712() { return "D.f1712"; }
public override string f1713() { return "D.f1713"; }
public override string f1714() { return "D.f1714"; }
public override string f1715() { return "D.f1715"; }
public override string f1716() { return "D.f1716"; }
public override string f1717() { return "D.f1717"; }
public override string f1718() { return "D.f1718"; }
public override string f1719() { return "D.f1719"; }
public override string f1720() { return "D.f1720"; }
public override string f1721() { return "D.f1721"; }
public override string f1722() { return "D.f1722"; }
public override string f1723() { return "D.f1723"; }
public override string f1724() { return "D.f1724"; }
public override string f1725() { return "D.f1725"; }
public override string f1726() { return "D.f1726"; }
public override string f1727() { return "D.f1727"; }
public override string f1728() { return "D.f1728"; }
public override string f1729() { return "D.f1729"; }
public override string f1730() { return "D.f1730"; }
public override string f1731() { return "D.f1731"; }
public override string f1732() { return "D.f1732"; }
public override string f1733() { return "D.f1733"; }
public override string f1734() { return "D.f1734"; }
public override string f1735() { return "D.f1735"; }
public override string f1736() { return "D.f1736"; }
public override string f1737() { return "D.f1737"; }
public override string f1738() { return "D.f1738"; }
public override string f1739() { return "D.f1739"; }
public override string f1740() { return "D.f1740"; }
public override string f1741() { return "D.f1741"; }
public override string f1742() { return "D.f1742"; }
public override string f1743() { return "D.f1743"; }
public override string f1744() { return "D.f1744"; }
public override string f1745() { return "D.f1745"; }
public override string f1746() { return "D.f1746"; }
public override string f1747() { return "D.f1747"; }
public override string f1748() { return "D.f1748"; }
public override string f1749() { return "D.f1749"; }
public override string f1750() { return "D.f1750"; }
public override string f1751() { return "D.f1751"; }
public override string f1752() { return "D.f1752"; }
public override string f1753() { return "D.f1753"; }
public override string f1754() { return "D.f1754"; }
public override string f1755() { return "D.f1755"; }
public override string f1756() { return "D.f1756"; }
public override string f1757() { return "D.f1757"; }
public override string f1758() { return "D.f1758"; }
public override string f1759() { return "D.f1759"; }
public override string f1760() { return "D.f1760"; }
public override string f1761() { return "D.f1761"; }
public override string f1762() { return "D.f1762"; }
public override string f1763() { return "D.f1763"; }
public override string f1764() { return "D.f1764"; }
public override string f1765() { return "D.f1765"; }
public override string f1766() { return "D.f1766"; }
public override string f1767() { return "D.f1767"; }
public override string f1768() { return "D.f1768"; }
public override string f1769() { return "D.f1769"; }
public override string f1770() { return "D.f1770"; }
public override string f1771() { return "D.f1771"; }
public override string f1772() { return "D.f1772"; }
public override string f1773() { return "D.f1773"; }
public override string f1774() { return "D.f1774"; }
public override string f1775() { return "D.f1775"; }
public override string f1776() { return "D.f1776"; }
public override string f1777() { return "D.f1777"; }
public override string f1778() { return "D.f1778"; }
public override string f1779() { return "D.f1779"; }
public override string f1780() { return "D.f1780"; }
public override string f1781() { return "D.f1781"; }
public override string f1782() { return "D.f1782"; }
public override string f1783() { return "D.f1783"; }
public override string f1784() { return "D.f1784"; }
public override string f1785() { return "D.f1785"; }
public override string f1786() { return "D.f1786"; }
public override string f1787() { return "D.f1787"; }
public override string f1788() { return "D.f1788"; }
public override string f1789() { return "D.f1789"; }
public override string f1790() { return "D.f1790"; }
public override string f1791() { return "D.f1791"; }
public override string f1792() { return "D.f1792"; }
public override string f1793() { return "D.f1793"; }
public override string f1794() { return "D.f1794"; }
public override string f1795() { return "D.f1795"; }
public override string f1796() { return "D.f1796"; }
public override string f1797() { return "D.f1797"; }
public override string f1798() { return "D.f1798"; }
public override string f1799() { return "D.f1799"; }
public override string f1800() { return "D.f1800"; }
public override string f1801() { return "D.f1801"; }
public override string f1802() { return "D.f1802"; }
public override string f1803() { return "D.f1803"; }
public override string f1804() { return "D.f1804"; }
public override string f1805() { return "D.f1805"; }
public override string f1806() { return "D.f1806"; }
public override string f1807() { return "D.f1807"; }
public override string f1808() { return "D.f1808"; }
public override string f1809() { return "D.f1809"; }
public override string f1810() { return "D.f1810"; }
public override string f1811() { return "D.f1811"; }
public override string f1812() { return "D.f1812"; }
public override string f1813() { return "D.f1813"; }
public override string f1814() { return "D.f1814"; }
public override string f1815() { return "D.f1815"; }
public override string f1816() { return "D.f1816"; }
public override string f1817() { return "D.f1817"; }
public override string f1818() { return "D.f1818"; }
public override string f1819() { return "D.f1819"; }
public override string f1820() { return "D.f1820"; }
public override string f1821() { return "D.f1821"; }
public override string f1822() { return "D.f1822"; }
public override string f1823() { return "D.f1823"; }
public override string f1824() { return "D.f1824"; }
public override string f1825() { return "D.f1825"; }
public override string f1826() { return "D.f1826"; }
public override string f1827() { return "D.f1827"; }
public override string f1828() { return "D.f1828"; }
public override string f1829() { return "D.f1829"; }
public override string f1830() { return "D.f1830"; }
public override string f1831() { return "D.f1831"; }
public override string f1832() { return "D.f1832"; }
public override string f1833() { return "D.f1833"; }
public override string f1834() { return "D.f1834"; }
public override string f1835() { return "D.f1835"; }
public override string f1836() { return "D.f1836"; }
public override string f1837() { return "D.f1837"; }
public override string f1838() { return "D.f1838"; }
public override string f1839() { return "D.f1839"; }
public override string f1840() { return "D.f1840"; }
public override string f1841() { return "D.f1841"; }
public override string f1842() { return "D.f1842"; }
public override string f1843() { return "D.f1843"; }
public override string f1844() { return "D.f1844"; }
public override string f1845() { return "D.f1845"; }
public override string f1846() { return "D.f1846"; }
public override string f1847() { return "D.f1847"; }
public override string f1848() { return "D.f1848"; }
public override string f1849() { return "D.f1849"; }
public override string f1850() { return "D.f1850"; }
public override string f1851() { return "D.f1851"; }
public override string f1852() { return "D.f1852"; }
public override string f1853() { return "D.f1853"; }
public override string f1854() { return "D.f1854"; }
public override string f1855() { return "D.f1855"; }
public override string f1856() { return "D.f1856"; }
public override string f1857() { return "D.f1857"; }
public override string f1858() { return "D.f1858"; }
public override string f1859() { return "D.f1859"; }
public override string f1860() { return "D.f1860"; }
public override string f1861() { return "D.f1861"; }
public override string f1862() { return "D.f1862"; }
public override string f1863() { return "D.f1863"; }
public override string f1864() { return "D.f1864"; }
public override string f1865() { return "D.f1865"; }
public override string f1866() { return "D.f1866"; }
public override string f1867() { return "D.f1867"; }
public override string f1868() { return "D.f1868"; }
public override string f1869() { return "D.f1869"; }
public override string f1870() { return "D.f1870"; }
public override string f1871() { return "D.f1871"; }
public override string f1872() { return "D.f1872"; }
public override string f1873() { return "D.f1873"; }
public override string f1874() { return "D.f1874"; }
public override string f1875() { return "D.f1875"; }
public override string f1876() { return "D.f1876"; }
public override string f1877() { return "D.f1877"; }
public override string f1878() { return "D.f1878"; }
public override string f1879() { return "D.f1879"; }
public override string f1880() { return "D.f1880"; }
public override string f1881() { return "D.f1881"; }
public override string f1882() { return "D.f1882"; }
public override string f1883() { return "D.f1883"; }
public override string f1884() { return "D.f1884"; }
public override string f1885() { return "D.f1885"; }
public override string f1886() { return "D.f1886"; }
public override string f1887() { return "D.f1887"; }
public override string f1888() { return "D.f1888"; }
public override string f1889() { return "D.f1889"; }
public override string f1890() { return "D.f1890"; }
public override string f1891() { return "D.f1891"; }
public override string f1892() { return "D.f1892"; }
public override string f1893() { return "D.f1893"; }
public override string f1894() { return "D.f1894"; }
public override string f1895() { return "D.f1895"; }
public override string f1896() { return "D.f1896"; }
public override string f1897() { return "D.f1897"; }
public override string f1898() { return "D.f1898"; }
public override string f1899() { return "D.f1899"; }
public override string f1900() { return "D.f1900"; }
public override string f1901() { return "D.f1901"; }
public override string f1902() { return "D.f1902"; }
public override string f1903() { return "D.f1903"; }
public override string f1904() { return "D.f1904"; }
public override string f1905() { return "D.f1905"; }
public override string f1906() { return "D.f1906"; }
public override string f1907() { return "D.f1907"; }
public override string f1908() { return "D.f1908"; }
public override string f1909() { return "D.f1909"; }
public override string f1910() { return "D.f1910"; }
public override string f1911() { return "D.f1911"; }
public override string f1912() { return "D.f1912"; }
public override string f1913() { return "D.f1913"; }
public override string f1914() { return "D.f1914"; }
public override string f1915() { return "D.f1915"; }
public override string f1916() { return "D.f1916"; }
public override string f1917() { return "D.f1917"; }
public override string f1918() { return "D.f1918"; }
public override string f1919() { return "D.f1919"; }
public override string f1920() { return "D.f1920"; }
public override string f1921() { return "D.f1921"; }
public override string f1922() { return "D.f1922"; }
public override string f1923() { return "D.f1923"; }
public override string f1924() { return "D.f1924"; }
public override string f1925() { return "D.f1925"; }
public override string f1926() { return "D.f1926"; }
public override string f1927() { return "D.f1927"; }
public override string f1928() { return "D.f1928"; }
public override string f1929() { return "D.f1929"; }
public override string f1930() { return "D.f1930"; }
public override string f1931() { return "D.f1931"; }
public override string f1932() { return "D.f1932"; }
public override string f1933() { return "D.f1933"; }
public override string f1934() { return "D.f1934"; }
public override string f1935() { return "D.f1935"; }
public override string f1936() { return "D.f1936"; }
public override string f1937() { return "D.f1937"; }
public override string f1938() { return "D.f1938"; }
public override string f1939() { return "D.f1939"; }
public override string f1940() { return "D.f1940"; }
public override string f1941() { return "D.f1941"; }
public override string f1942() { return "D.f1942"; }
public override string f1943() { return "D.f1943"; }
public override string f1944() { return "D.f1944"; }
public override string f1945() { return "D.f1945"; }
public override string f1946() { return "D.f1946"; }
public override string f1947() { return "D.f1947"; }
public override string f1948() { return "D.f1948"; }
public override string f1949() { return "D.f1949"; }
public override string f1950() { return "D.f1950"; }
public override string f1951() { return "D.f1951"; }
public override string f1952() { return "D.f1952"; }
public override string f1953() { return "D.f1953"; }
public override string f1954() { return "D.f1954"; }
public override string f1955() { return "D.f1955"; }
public override string f1956() { return "D.f1956"; }
public override string f1957() { return "D.f1957"; }
public override string f1958() { return "D.f1958"; }
public override string f1959() { return "D.f1959"; }
public override string f1960() { return "D.f1960"; }
public override string f1961() { return "D.f1961"; }
public override string f1962() { return "D.f1962"; }
public override string f1963() { return "D.f1963"; }
public override string f1964() { return "D.f1964"; }
public override string f1965() { return "D.f1965"; }
public override string f1966() { return "D.f1966"; }
public override string f1967() { return "D.f1967"; }
public override string f1968() { return "D.f1968"; }
public override string f1969() { return "D.f1969"; }
public override string f1970() { return "D.f1970"; }
public override string f1971() { return "D.f1971"; }
public override string f1972() { return "D.f1972"; }
public override string f1973() { return "D.f1973"; }
public override string f1974() { return "D.f1974"; }
public override string f1975() { return "D.f1975"; }
public override string f1976() { return "D.f1976"; }
public override string f1977() { return "D.f1977"; }
public override string f1978() { return "D.f1978"; }
public override string f1979() { return "D.f1979"; }
public override string f1980() { return "D.f1980"; }
public override string f1981() { return "D.f1981"; }
public override string f1982() { return "D.f1982"; }
public override string f1983() { return "D.f1983"; }
public override string f1984() { return "D.f1984"; }
public override string f1985() { return "D.f1985"; }
public override string f1986() { return "D.f1986"; }
public override string f1987() { return "D.f1987"; }
public override string f1988() { return "D.f1988"; }
public override string f1989() { return "D.f1989"; }
public override string f1990() { return "D.f1990"; }
public override string f1991() { return "D.f1991"; }
public override string f1992() { return "D.f1992"; }
public override string f1993() { return "D.f1993"; }
public override string f1994() { return "D.f1994"; }
public override string f1995() { return "D.f1995"; }
public override string f1996() { return "D.f1996"; }
public override string f1997() { return "D.f1997"; }
public override string f1998() { return "D.f1998"; }
public override string f1999() { return "D.f1999"; }
public override string f2000() { return "D.f2000"; }
public override string f2001() { return "D.f2001"; }
public override string f2002() { return "D.f2002"; }
public override string f2003() { return "D.f2003"; }
public override string f2004() { return "D.f2004"; }
public override string f2005() { return "D.f2005"; }
public override string f2006() { return "D.f2006"; }
public override string f2007() { return "D.f2007"; }
public override string f2008() { return "D.f2008"; }
public override string f2009() { return "D.f2009"; }
public override string f2010() { return "D.f2010"; }
public override string f2011() { return "D.f2011"; }
public override string f2012() { return "D.f2012"; }
public override string f2013() { return "D.f2013"; }
public override string f2014() { return "D.f2014"; }
public override string f2015() { return "D.f2015"; }
public override string f2016() { return "D.f2016"; }
public override string f2017() { return "D.f2017"; }
public override string f2018() { return "D.f2018"; }
public override string f2019() { return "D.f2019"; }
public override string f2020() { return "D.f2020"; }
public override string f2021() { return "D.f2021"; }
public override string f2022() { return "D.f2022"; }
public override string f2023() { return "D.f2023"; }
public override string f2024() { return "D.f2024"; }
public override string f2025() { return "D.f2025"; }
public override string f2026() { return "D.f2026"; }
public override string f2027() { return "D.f2027"; }
public override string f2028() { return "D.f2028"; }
public override string f2029() { return "D.f2029"; }
public override string f2030() { return "D.f2030"; }
public override string f2031() { return "D.f2031"; }
public override string f2032() { return "D.f2032"; }
public override string f2033() { return "D.f2033"; }
public override string f2034() { return "D.f2034"; }
public override string f2035() { return "D.f2035"; }
public override string f2036() { return "D.f2036"; }
public override string f2037() { return "D.f2037"; }
public override string f2038() { return "D.f2038"; }
public override string f2039() { return "D.f2039"; }
public override string f2040() { return "D.f2040"; }
public override string f2041() { return "D.f2041"; }
public override string f2042() { return "D.f2042"; }
public override string f2043() { return "D.f2043"; }
public override string f2044() { return "D.f2044"; }
public override string f2045() { return "D.f2045"; }
public override string f2046() { return "D.f2046"; }
public override string f2047() { return "D.f2047"; }
public override string f2048() { return "D.f2048"; }
public override string f2049() { return "D.f2049"; }
public override string f2050() { return "D.f2050"; }
public override string f2051() { return "D.f2051"; }
public override string f2052() { return "D.f2052"; }
public override string f2053() { return "D.f2053"; }
public override string f2054() { return "D.f2054"; }
public override string f2055() { return "D.f2055"; }
public override string f2056() { return "D.f2056"; }
public override string f2057() { return "D.f2057"; }
public override string f2058() { return "D.f2058"; }
public override string f2059() { return "D.f2059"; }
public override string f2060() { return "D.f2060"; }
public override string f2061() { return "D.f2061"; }
public override string f2062() { return "D.f2062"; }
public override string f2063() { return "D.f2063"; }
public override string f2064() { return "D.f2064"; }
public override string f2065() { return "D.f2065"; }
public override string f2066() { return "D.f2066"; }
public override string f2067() { return "D.f2067"; }
public override string f2068() { return "D.f2068"; }
public override string f2069() { return "D.f2069"; }
public override string f2070() { return "D.f2070"; }
public override string f2071() { return "D.f2071"; }
public override string f2072() { return "D.f2072"; }
public override string f2073() { return "D.f2073"; }
public override string f2074() { return "D.f2074"; }
public override string f2075() { return "D.f2075"; }
public override string f2076() { return "D.f2076"; }
public override string f2077() { return "D.f2077"; }
public override string f2078() { return "D.f2078"; }
public override string f2079() { return "D.f2079"; }
public override string f2080() { return "D.f2080"; }
public override string f2081() { return "D.f2081"; }
public override string f2082() { return "D.f2082"; }
public override string f2083() { return "D.f2083"; }
public override string f2084() { return "D.f2084"; }
public override string f2085() { return "D.f2085"; }
public override string f2086() { return "D.f2086"; }
public override string f2087() { return "D.f2087"; }
public override string f2088() { return "D.f2088"; }
public override string f2089() { return "D.f2089"; }
public override string f2090() { return "D.f2090"; }
public override string f2091() { return "D.f2091"; }
public override string f2092() { return "D.f2092"; }
public override string f2093() { return "D.f2093"; }
public override string f2094() { return "D.f2094"; }
public override string f2095() { return "D.f2095"; }
public override string f2096() { return "D.f2096"; }
public override string f2097() { return "D.f2097"; }
public override string f2098() { return "D.f2098"; }
public override string f2099() { return "D.f2099"; }
public override string f2100() { return "D.f2100"; }
public override string f2101() { return "D.f2101"; }
public override string f2102() { return "D.f2102"; }
public override string f2103() { return "D.f2103"; }
public override string f2104() { return "D.f2104"; }
public override string f2105() { return "D.f2105"; }
public override string f2106() { return "D.f2106"; }
public override string f2107() { return "D.f2107"; }
public override string f2108() { return "D.f2108"; }
public override string f2109() { return "D.f2109"; }
public override string f2110() { return "D.f2110"; }
public override string f2111() { return "D.f2111"; }
public override string f2112() { return "D.f2112"; }
public override string f2113() { return "D.f2113"; }
public override string f2114() { return "D.f2114"; }
public override string f2115() { return "D.f2115"; }
public override string f2116() { return "D.f2116"; }
public override string f2117() { return "D.f2117"; }
public override string f2118() { return "D.f2118"; }
public override string f2119() { return "D.f2119"; }
public override string f2120() { return "D.f2120"; }
public override string f2121() { return "D.f2121"; }
public override string f2122() { return "D.f2122"; }
public override string f2123() { return "D.f2123"; }
public override string f2124() { return "D.f2124"; }
public override string f2125() { return "D.f2125"; }
public override string f2126() { return "D.f2126"; }
public override string f2127() { return "D.f2127"; }
public override string f2128() { return "D.f2128"; }
public override string f2129() { return "D.f2129"; }
public override string f2130() { return "D.f2130"; }
public override string f2131() { return "D.f2131"; }
public override string f2132() { return "D.f2132"; }
public override string f2133() { return "D.f2133"; }
public override string f2134() { return "D.f2134"; }
public override string f2135() { return "D.f2135"; }
public override string f2136() { return "D.f2136"; }
public override string f2137() { return "D.f2137"; }
public override string f2138() { return "D.f2138"; }
public override string f2139() { return "D.f2139"; }
public override string f2140() { return "D.f2140"; }
public override string f2141() { return "D.f2141"; }
public override string f2142() { return "D.f2142"; }
public override string f2143() { return "D.f2143"; }
public override string f2144() { return "D.f2144"; }
public override string f2145() { return "D.f2145"; }
public override string f2146() { return "D.f2146"; }
public override string f2147() { return "D.f2147"; }
public override string f2148() { return "D.f2148"; }
public override string f2149() { return "D.f2149"; }
public override string f2150() { return "D.f2150"; }
public override string f2151() { return "D.f2151"; }
public override string f2152() { return "D.f2152"; }
public override string f2153() { return "D.f2153"; }
public override string f2154() { return "D.f2154"; }
public override string f2155() { return "D.f2155"; }
public override string f2156() { return "D.f2156"; }
public override string f2157() { return "D.f2157"; }
public override string f2158() { return "D.f2158"; }
public override string f2159() { return "D.f2159"; }
public override string f2160() { return "D.f2160"; }
public override string f2161() { return "D.f2161"; }
public override string f2162() { return "D.f2162"; }
public override string f2163() { return "D.f2163"; }
public override string f2164() { return "D.f2164"; }
public override string f2165() { return "D.f2165"; }
public override string f2166() { return "D.f2166"; }
public override string f2167() { return "D.f2167"; }
public override string f2168() { return "D.f2168"; }
public override string f2169() { return "D.f2169"; }
public override string f2170() { return "D.f2170"; }
public override string f2171() { return "D.f2171"; }
public override string f2172() { return "D.f2172"; }
public override string f2173() { return "D.f2173"; }
public override string f2174() { return "D.f2174"; }
public override string f2175() { return "D.f2175"; }
public override string f2176() { return "D.f2176"; }
public override string f2177() { return "D.f2177"; }
public override string f2178() { return "D.f2178"; }
public override string f2179() { return "D.f2179"; }
public override string f2180() { return "D.f2180"; }
public override string f2181() { return "D.f2181"; }
public override string f2182() { return "D.f2182"; }
public override string f2183() { return "D.f2183"; }
public override string f2184() { return "D.f2184"; }
public override string f2185() { return "D.f2185"; }
public override string f2186() { return "D.f2186"; }
public override string f2187() { return "D.f2187"; }
public override string f2188() { return "D.f2188"; }
public override string f2189() { return "D.f2189"; }
public override string f2190() { return "D.f2190"; }
public override string f2191() { return "D.f2191"; }
public override string f2192() { return "D.f2192"; }
public override string f2193() { return "D.f2193"; }
public override string f2194() { return "D.f2194"; }
public override string f2195() { return "D.f2195"; }
public override string f2196() { return "D.f2196"; }
public override string f2197() { return "D.f2197"; }
public override string f2198() { return "D.f2198"; }
public override string f2199() { return "D.f2199"; }
public override string f2200() { return "D.f2200"; }
public override string f2201() { return "D.f2201"; }
public override string f2202() { return "D.f2202"; }
public override string f2203() { return "D.f2203"; }
public override string f2204() { return "D.f2204"; }
public override string f2205() { return "D.f2205"; }
public override string f2206() { return "D.f2206"; }
public override string f2207() { return "D.f2207"; }
public override string f2208() { return "D.f2208"; }
public override string f2209() { return "D.f2209"; }
public override string f2210() { return "D.f2210"; }
public override string f2211() { return "D.f2211"; }
public override string f2212() { return "D.f2212"; }
public override string f2213() { return "D.f2213"; }
public override string f2214() { return "D.f2214"; }
public override string f2215() { return "D.f2215"; }
public override string f2216() { return "D.f2216"; }
public override string f2217() { return "D.f2217"; }
public override string f2218() { return "D.f2218"; }
public override string f2219() { return "D.f2219"; }
public override string f2220() { return "D.f2220"; }
public override string f2221() { return "D.f2221"; }
public override string f2222() { return "D.f2222"; }
public override string f2223() { return "D.f2223"; }
public override string f2224() { return "D.f2224"; }
public override string f2225() { return "D.f2225"; }
public override string f2226() { return "D.f2226"; }
public override string f2227() { return "D.f2227"; }
public override string f2228() { return "D.f2228"; }
public override string f2229() { return "D.f2229"; }
public override string f2230() { return "D.f2230"; }
public override string f2231() { return "D.f2231"; }
public override string f2232() { return "D.f2232"; }
public override string f2233() { return "D.f2233"; }
public override string f2234() { return "D.f2234"; }
public override string f2235() { return "D.f2235"; }
public override string f2236() { return "D.f2236"; }
public override string f2237() { return "D.f2237"; }
public override string f2238() { return "D.f2238"; }
public override string f2239() { return "D.f2239"; }
public override string f2240() { return "D.f2240"; }
public override string f2241() { return "D.f2241"; }
public override string f2242() { return "D.f2242"; }
public override string f2243() { return "D.f2243"; }
public override string f2244() { return "D.f2244"; }
public override string f2245() { return "D.f2245"; }
public override string f2246() { return "D.f2246"; }
public override string f2247() { return "D.f2247"; }
public override string f2248() { return "D.f2248"; }
public override string f2249() { return "D.f2249"; }
public override string f2250() { return "D.f2250"; }
public override string f2251() { return "D.f2251"; }
public override string f2252() { return "D.f2252"; }
public override string f2253() { return "D.f2253"; }
public override string f2254() { return "D.f2254"; }
public override string f2255() { return "D.f2255"; }
public override string f2256() { return "D.f2256"; }
public override string f2257() { return "D.f2257"; }
public override string f2258() { return "D.f2258"; }
public override string f2259() { return "D.f2259"; }
public override string f2260() { return "D.f2260"; }
public override string f2261() { return "D.f2261"; }
public override string f2262() { return "D.f2262"; }
public override string f2263() { return "D.f2263"; }
public override string f2264() { return "D.f2264"; }
public override string f2265() { return "D.f2265"; }
public override string f2266() { return "D.f2266"; }
public override string f2267() { return "D.f2267"; }
public override string f2268() { return "D.f2268"; }
public override string f2269() { return "D.f2269"; }
public override string f2270() { return "D.f2270"; }
public override string f2271() { return "D.f2271"; }
public override string f2272() { return "D.f2272"; }
public override string f2273() { return "D.f2273"; }
public override string f2274() { return "D.f2274"; }
public override string f2275() { return "D.f2275"; }
public override string f2276() { return "D.f2276"; }
public override string f2277() { return "D.f2277"; }
public override string f2278() { return "D.f2278"; }
public override string f2279() { return "D.f2279"; }
public override string f2280() { return "D.f2280"; }
public override string f2281() { return "D.f2281"; }
public override string f2282() { return "D.f2282"; }
public override string f2283() { return "D.f2283"; }
public override string f2284() { return "D.f2284"; }
public override string f2285() { return "D.f2285"; }
public override string f2286() { return "D.f2286"; }
public override string f2287() { return "D.f2287"; }
public override string f2288() { return "D.f2288"; }
public override string f2289() { return "D.f2289"; }
public override string f2290() { return "D.f2290"; }
public override string f2291() { return "D.f2291"; }
public override string f2292() { return "D.f2292"; }
public override string f2293() { return "D.f2293"; }
public override string f2294() { return "D.f2294"; }
public override string f2295() { return "D.f2295"; }
public override string f2296() { return "D.f2296"; }
public override string f2297() { return "D.f2297"; }
public override string f2298() { return "D.f2298"; }
public override string f2299() { return "D.f2299"; }
public override string f2300() { return "D.f2300"; }
public override string f2301() { return "D.f2301"; }
public override string f2302() { return "D.f2302"; }
public override string f2303() { return "D.f2303"; }
public override string f2304() { return "D.f2304"; }
public override string f2305() { return "D.f2305"; }
public override string f2306() { return "D.f2306"; }
public override string f2307() { return "D.f2307"; }
public override string f2308() { return "D.f2308"; }
public override string f2309() { return "D.f2309"; }
public override string f2310() { return "D.f2310"; }
public override string f2311() { return "D.f2311"; }
public override string f2312() { return "D.f2312"; }
public override string f2313() { return "D.f2313"; }
public override string f2314() { return "D.f2314"; }
public override string f2315() { return "D.f2315"; }
public override string f2316() { return "D.f2316"; }
public override string f2317() { return "D.f2317"; }
public override string f2318() { return "D.f2318"; }
public override string f2319() { return "D.f2319"; }
public override string f2320() { return "D.f2320"; }
public override string f2321() { return "D.f2321"; }
public override string f2322() { return "D.f2322"; }
public override string f2323() { return "D.f2323"; }
public override string f2324() { return "D.f2324"; }
public override string f2325() { return "D.f2325"; }
public override string f2326() { return "D.f2326"; }
public override string f2327() { return "D.f2327"; }
public override string f2328() { return "D.f2328"; }
public override string f2329() { return "D.f2329"; }
public override string f2330() { return "D.f2330"; }
public override string f2331() { return "D.f2331"; }
public override string f2332() { return "D.f2332"; }
public override string f2333() { return "D.f2333"; }
public override string f2334() { return "D.f2334"; }
public override string f2335() { return "D.f2335"; }
public override string f2336() { return "D.f2336"; }
public override string f2337() { return "D.f2337"; }
public override string f2338() { return "D.f2338"; }
public override string f2339() { return "D.f2339"; }
public override string f2340() { return "D.f2340"; }
public override string f2341() { return "D.f2341"; }
public override string f2342() { return "D.f2342"; }
public override string f2343() { return "D.f2343"; }
public override string f2344() { return "D.f2344"; }
public override string f2345() { return "D.f2345"; }
public override string f2346() { return "D.f2346"; }
public override string f2347() { return "D.f2347"; }
public override string f2348() { return "D.f2348"; }
public override string f2349() { return "D.f2349"; }
public override string f2350() { return "D.f2350"; }
public override string f2351() { return "D.f2351"; }
public override string f2352() { return "D.f2352"; }
public override string f2353() { return "D.f2353"; }
public override string f2354() { return "D.f2354"; }
public override string f2355() { return "D.f2355"; }
public override string f2356() { return "D.f2356"; }
public override string f2357() { return "D.f2357"; }
public override string f2358() { return "D.f2358"; }
public override string f2359() { return "D.f2359"; }
public override string f2360() { return "D.f2360"; }
public override string f2361() { return "D.f2361"; }
public override string f2362() { return "D.f2362"; }
public override string f2363() { return "D.f2363"; }
public override string f2364() { return "D.f2364"; }
public override string f2365() { return "D.f2365"; }
public override string f2366() { return "D.f2366"; }
public override string f2367() { return "D.f2367"; }
public override string f2368() { return "D.f2368"; }
public override string f2369() { return "D.f2369"; }
public override string f2370() { return "D.f2370"; }
public override string f2371() { return "D.f2371"; }
public override string f2372() { return "D.f2372"; }
public override string f2373() { return "D.f2373"; }
public override string f2374() { return "D.f2374"; }
public override string f2375() { return "D.f2375"; }
public override string f2376() { return "D.f2376"; }
public override string f2377() { return "D.f2377"; }
public override string f2378() { return "D.f2378"; }
public override string f2379() { return "D.f2379"; }
public override string f2380() { return "D.f2380"; }
public override string f2381() { return "D.f2381"; }
public override string f2382() { return "D.f2382"; }
public override string f2383() { return "D.f2383"; }
public override string f2384() { return "D.f2384"; }
public override string f2385() { return "D.f2385"; }
public override string f2386() { return "D.f2386"; }
public override string f2387() { return "D.f2387"; }
public override string f2388() { return "D.f2388"; }
public override string f2389() { return "D.f2389"; }
public override string f2390() { return "D.f2390"; }
public override string f2391() { return "D.f2391"; }
public override string f2392() { return "D.f2392"; }
public override string f2393() { return "D.f2393"; }
public override string f2394() { return "D.f2394"; }
public override string f2395() { return "D.f2395"; }
public override string f2396() { return "D.f2396"; }
public override string f2397() { return "D.f2397"; }
public override string f2398() { return "D.f2398"; }
public override string f2399() { return "D.f2399"; }
public override string f2400() { return "D.f2400"; }
public override string f2401() { return "D.f2401"; }
public override string f2402() { return "D.f2402"; }
public override string f2403() { return "D.f2403"; }
public override string f2404() { return "D.f2404"; }
public override string f2405() { return "D.f2405"; }
public override string f2406() { return "D.f2406"; }
public override string f2407() { return "D.f2407"; }
public override string f2408() { return "D.f2408"; }
public override string f2409() { return "D.f2409"; }
public override string f2410() { return "D.f2410"; }
public override string f2411() { return "D.f2411"; }
public override string f2412() { return "D.f2412"; }
public override string f2413() { return "D.f2413"; }
public override string f2414() { return "D.f2414"; }
public override string f2415() { return "D.f2415"; }
public override string f2416() { return "D.f2416"; }
public override string f2417() { return "D.f2417"; }
public override string f2418() { return "D.f2418"; }
public override string f2419() { return "D.f2419"; }
public override string f2420() { return "D.f2420"; }
public override string f2421() { return "D.f2421"; }
public override string f2422() { return "D.f2422"; }
public override string f2423() { return "D.f2423"; }
public override string f2424() { return "D.f2424"; }
public override string f2425() { return "D.f2425"; }
public override string f2426() { return "D.f2426"; }
public override string f2427() { return "D.f2427"; }
public override string f2428() { return "D.f2428"; }
public override string f2429() { return "D.f2429"; }
public override string f2430() { return "D.f2430"; }
public override string f2431() { return "D.f2431"; }
public override string f2432() { return "D.f2432"; }
public override string f2433() { return "D.f2433"; }
public override string f2434() { return "D.f2434"; }
public override string f2435() { return "D.f2435"; }
public override string f2436() { return "D.f2436"; }
public override string f2437() { return "D.f2437"; }
public override string f2438() { return "D.f2438"; }
public override string f2439() { return "D.f2439"; }
public override string f2440() { return "D.f2440"; }
public override string f2441() { return "D.f2441"; }
public override string f2442() { return "D.f2442"; }
public override string f2443() { return "D.f2443"; }
public override string f2444() { return "D.f2444"; }
public override string f2445() { return "D.f2445"; }
public override string f2446() { return "D.f2446"; }
public override string f2447() { return "D.f2447"; }
public override string f2448() { return "D.f2448"; }
public override string f2449() { return "D.f2449"; }
public override string f2450() { return "D.f2450"; }
public override string f2451() { return "D.f2451"; }
public override string f2452() { return "D.f2452"; }
public override string f2453() { return "D.f2453"; }
public override string f2454() { return "D.f2454"; }
public override string f2455() { return "D.f2455"; }
public override string f2456() { return "D.f2456"; }
public override string f2457() { return "D.f2457"; }
public override string f2458() { return "D.f2458"; }
public override string f2459() { return "D.f2459"; }
public override string f2460() { return "D.f2460"; }
public override string f2461() { return "D.f2461"; }
public override string f2462() { return "D.f2462"; }
public override string f2463() { return "D.f2463"; }
public override string f2464() { return "D.f2464"; }
public override string f2465() { return "D.f2465"; }
public override string f2466() { return "D.f2466"; }
public override string f2467() { return "D.f2467"; }
public override string f2468() { return "D.f2468"; }
public override string f2469() { return "D.f2469"; }
public override string f2470() { return "D.f2470"; }
public override string f2471() { return "D.f2471"; }
public override string f2472() { return "D.f2472"; }
public override string f2473() { return "D.f2473"; }
public override string f2474() { return "D.f2474"; }
public override string f2475() { return "D.f2475"; }
public override string f2476() { return "D.f2476"; }
public override string f2477() { return "D.f2477"; }
public override string f2478() { return "D.f2478"; }
public override string f2479() { return "D.f2479"; }
public override string f2480() { return "D.f2480"; }
public override string f2481() { return "D.f2481"; }
public override string f2482() { return "D.f2482"; }
public override string f2483() { return "D.f2483"; }
public override string f2484() { return "D.f2484"; }
public override string f2485() { return "D.f2485"; }
public override string f2486() { return "D.f2486"; }
public override string f2487() { return "D.f2487"; }
public override string f2488() { return "D.f2488"; }
public override string f2489() { return "D.f2489"; }
public override string f2490() { return "D.f2490"; }
public override string f2491() { return "D.f2491"; }
public override string f2492() { return "D.f2492"; }
public override string f2493() { return "D.f2493"; }
public override string f2494() { return "D.f2494"; }
public override string f2495() { return "D.f2495"; }
public override string f2496() { return "D.f2496"; }
public override string f2497() { return "D.f2497"; }
public override string f2498() { return "D.f2498"; }
public override string f2499() { return "D.f2499"; }
public override string f2500() { return "D.f2500"; }
public override string f2501() { return "D.f2501"; }
public override string f2502() { return "D.f2502"; }
public override string f2503() { return "D.f2503"; }
public override string f2504() { return "D.f2504"; }
public override string f2505() { return "D.f2505"; }
public override string f2506() { return "D.f2506"; }
public override string f2507() { return "D.f2507"; }
public override string f2508() { return "D.f2508"; }
public override string f2509() { return "D.f2509"; }
public override string f2510() { return "D.f2510"; }
public override string f2511() { return "D.f2511"; }
public override string f2512() { return "D.f2512"; }
public override string f2513() { return "D.f2513"; }
public override string f2514() { return "D.f2514"; }
public override string f2515() { return "D.f2515"; }
public override string f2516() { return "D.f2516"; }
public override string f2517() { return "D.f2517"; }
public override string f2518() { return "D.f2518"; }
public override string f2519() { return "D.f2519"; }
public override string f2520() { return "D.f2520"; }
public override string f2521() { return "D.f2521"; }
public override string f2522() { return "D.f2522"; }
public override string f2523() { return "D.f2523"; }
public override string f2524() { return "D.f2524"; }
public override string f2525() { return "D.f2525"; }
public override string f2526() { return "D.f2526"; }
public override string f2527() { return "D.f2527"; }
public override string f2528() { return "D.f2528"; }
public override string f2529() { return "D.f2529"; }
public override string f2530() { return "D.f2530"; }
public override string f2531() { return "D.f2531"; }
public override string f2532() { return "D.f2532"; }
public override string f2533() { return "D.f2533"; }
public override string f2534() { return "D.f2534"; }
public override string f2535() { return "D.f2535"; }
public override string f2536() { return "D.f2536"; }
public override string f2537() { return "D.f2537"; }
public override string f2538() { return "D.f2538"; }
public override string f2539() { return "D.f2539"; }
public override string f2540() { return "D.f2540"; }
public override string f2541() { return "D.f2541"; }
public override string f2542() { return "D.f2542"; }
public override string f2543() { return "D.f2543"; }
public override string f2544() { return "D.f2544"; }
public override string f2545() { return "D.f2545"; }
public override string f2546() { return "D.f2546"; }
public override string f2547() { return "D.f2547"; }
public override string f2548() { return "D.f2548"; }
public override string f2549() { return "D.f2549"; }
public override string f2550() { return "D.f2550"; }
public override string f2551() { return "D.f2551"; }
public override string f2552() { return "D.f2552"; }
public override string f2553() { return "D.f2553"; }
public override string f2554() { return "D.f2554"; }
public override string f2555() { return "D.f2555"; }
public override string f2556() { return "D.f2556"; }
public override string f2557() { return "D.f2557"; }
public override string f2558() { return "D.f2558"; }
public override string f2559() { return "D.f2559"; }
public override string f2560() { return "D.f2560"; }
public override string f2561() { return "D.f2561"; }
public override string f2562() { return "D.f2562"; }
public override string f2563() { return "D.f2563"; }
public override string f2564() { return "D.f2564"; }
public override string f2565() { return "D.f2565"; }
public override string f2566() { return "D.f2566"; }
public override string f2567() { return "D.f2567"; }
public override string f2568() { return "D.f2568"; }
public override string f2569() { return "D.f2569"; }
public override string f2570() { return "D.f2570"; }
public override string f2571() { return "D.f2571"; }
public override string f2572() { return "D.f2572"; }
public override string f2573() { return "D.f2573"; }
public override string f2574() { return "D.f2574"; }
public override string f2575() { return "D.f2575"; }
public override string f2576() { return "D.f2576"; }
public override string f2577() { return "D.f2577"; }
public override string f2578() { return "D.f2578"; }
public override string f2579() { return "D.f2579"; }
public override string f2580() { return "D.f2580"; }
public override string f2581() { return "D.f2581"; }
public override string f2582() { return "D.f2582"; }
public override string f2583() { return "D.f2583"; }
public override string f2584() { return "D.f2584"; }
public override string f2585() { return "D.f2585"; }
public override string f2586() { return "D.f2586"; }
public override string f2587() { return "D.f2587"; }
public override string f2588() { return "D.f2588"; }
public override string f2589() { return "D.f2589"; }
public override string f2590() { return "D.f2590"; }
public override string f2591() { return "D.f2591"; }
public override string f2592() { return "D.f2592"; }
public override string f2593() { return "D.f2593"; }
public override string f2594() { return "D.f2594"; }
public override string f2595() { return "D.f2595"; }
public override string f2596() { return "D.f2596"; }
public override string f2597() { return "D.f2597"; }
public override string f2598() { return "D.f2598"; }
public override string f2599() { return "D.f2599"; }
public override string f2600() { return "D.f2600"; }
public override string f2601() { return "D.f2601"; }
public override string f2602() { return "D.f2602"; }
public override string f2603() { return "D.f2603"; }
public override string f2604() { return "D.f2604"; }
public override string f2605() { return "D.f2605"; }
public override string f2606() { return "D.f2606"; }
public override string f2607() { return "D.f2607"; }
public override string f2608() { return "D.f2608"; }
public override string f2609() { return "D.f2609"; }
public override string f2610() { return "D.f2610"; }
public override string f2611() { return "D.f2611"; }
public override string f2612() { return "D.f2612"; }
public override string f2613() { return "D.f2613"; }
public override string f2614() { return "D.f2614"; }
public override string f2615() { return "D.f2615"; }
public override string f2616() { return "D.f2616"; }
public override string f2617() { return "D.f2617"; }
public override string f2618() { return "D.f2618"; }
public override string f2619() { return "D.f2619"; }
public override string f2620() { return "D.f2620"; }
public override string f2621() { return "D.f2621"; }
public override string f2622() { return "D.f2622"; }
public override string f2623() { return "D.f2623"; }
public override string f2624() { return "D.f2624"; }
public override string f2625() { return "D.f2625"; }
public override string f2626() { return "D.f2626"; }
public override string f2627() { return "D.f2627"; }
public override string f2628() { return "D.f2628"; }
public override string f2629() { return "D.f2629"; }
public override string f2630() { return "D.f2630"; }
public override string f2631() { return "D.f2631"; }
public override string f2632() { return "D.f2632"; }
public override string f2633() { return "D.f2633"; }
public override string f2634() { return "D.f2634"; }
public override string f2635() { return "D.f2635"; }
public override string f2636() { return "D.f2636"; }
public override string f2637() { return "D.f2637"; }
public override string f2638() { return "D.f2638"; }
public override string f2639() { return "D.f2639"; }
public override string f2640() { return "D.f2640"; }
public override string f2641() { return "D.f2641"; }
public override string f2642() { return "D.f2642"; }
public override string f2643() { return "D.f2643"; }
public override string f2644() { return "D.f2644"; }
public override string f2645() { return "D.f2645"; }
public override string f2646() { return "D.f2646"; }
public override string f2647() { return "D.f2647"; }
public override string f2648() { return "D.f2648"; }
public override string f2649() { return "D.f2649"; }
public override string f2650() { return "D.f2650"; }
public override string f2651() { return "D.f2651"; }
public override string f2652() { return "D.f2652"; }
public override string f2653() { return "D.f2653"; }
public override string f2654() { return "D.f2654"; }
public override string f2655() { return "D.f2655"; }
public override string f2656() { return "D.f2656"; }
public override string f2657() { return "D.f2657"; }
public override string f2658() { return "D.f2658"; }
public override string f2659() { return "D.f2659"; }
public override string f2660() { return "D.f2660"; }
public override string f2661() { return "D.f2661"; }
public override string f2662() { return "D.f2662"; }
public override string f2663() { return "D.f2663"; }
public override string f2664() { return "D.f2664"; }
public override string f2665() { return "D.f2665"; }
public override string f2666() { return "D.f2666"; }
public override string f2667() { return "D.f2667"; }
public override string f2668() { return "D.f2668"; }
public override string f2669() { return "D.f2669"; }
public override string f2670() { return "D.f2670"; }
public override string f2671() { return "D.f2671"; }
public override string f2672() { return "D.f2672"; }
public override string f2673() { return "D.f2673"; }
public override string f2674() { return "D.f2674"; }
public override string f2675() { return "D.f2675"; }
public override string f2676() { return "D.f2676"; }
public override string f2677() { return "D.f2677"; }
public override string f2678() { return "D.f2678"; }
public override string f2679() { return "D.f2679"; }
public override string f2680() { return "D.f2680"; }
public override string f2681() { return "D.f2681"; }
public override string f2682() { return "D.f2682"; }
public override string f2683() { return "D.f2683"; }
public override string f2684() { return "D.f2684"; }
public override string f2685() { return "D.f2685"; }
public override string f2686() { return "D.f2686"; }
public override string f2687() { return "D.f2687"; }
public override string f2688() { return "D.f2688"; }
public override string f2689() { return "D.f2689"; }
public override string f2690() { return "D.f2690"; }
public override string f2691() { return "D.f2691"; }
public override string f2692() { return "D.f2692"; }
public override string f2693() { return "D.f2693"; }
public override string f2694() { return "D.f2694"; }
public override string f2695() { return "D.f2695"; }
public override string f2696() { return "D.f2696"; }
public override string f2697() { return "D.f2697"; }
public override string f2698() { return "D.f2698"; }
public override string f2699() { return "D.f2699"; }
public override string f2700() { return "D.f2700"; }
public override string f2701() { return "D.f2701"; }
public override string f2702() { return "D.f2702"; }
public override string f2703() { return "D.f2703"; }
public override string f2704() { return "D.f2704"; }
public override string f2705() { return "D.f2705"; }
public override string f2706() { return "D.f2706"; }
public override string f2707() { return "D.f2707"; }
public override string f2708() { return "D.f2708"; }
public override string f2709() { return "D.f2709"; }
public override string f2710() { return "D.f2710"; }
public override string f2711() { return "D.f2711"; }
public override string f2712() { return "D.f2712"; }
public override string f2713() { return "D.f2713"; }
public override string f2714() { return "D.f2714"; }
public override string f2715() { return "D.f2715"; }
public override string f2716() { return "D.f2716"; }
public override string f2717() { return "D.f2717"; }
public override string f2718() { return "D.f2718"; }
public override string f2719() { return "D.f2719"; }
public override string f2720() { return "D.f2720"; }
public override string f2721() { return "D.f2721"; }
public override string f2722() { return "D.f2722"; }
public override string f2723() { return "D.f2723"; }
public override string f2724() { return "D.f2724"; }
public override string f2725() { return "D.f2725"; }
public override string f2726() { return "D.f2726"; }
public override string f2727() { return "D.f2727"; }
public override string f2728() { return "D.f2728"; }
public override string f2729() { return "D.f2729"; }
public override string f2730() { return "D.f2730"; }
public override string f2731() { return "D.f2731"; }
public override string f2732() { return "D.f2732"; }
public override string f2733() { return "D.f2733"; }
public override string f2734() { return "D.f2734"; }
public override string f2735() { return "D.f2735"; }
public override string f2736() { return "D.f2736"; }
public override string f2737() { return "D.f2737"; }
public override string f2738() { return "D.f2738"; }
public override string f2739() { return "D.f2739"; }
public override string f2740() { return "D.f2740"; }
public override string f2741() { return "D.f2741"; }
public override string f2742() { return "D.f2742"; }
public override string f2743() { return "D.f2743"; }
public override string f2744() { return "D.f2744"; }
public override string f2745() { return "D.f2745"; }
public override string f2746() { return "D.f2746"; }
public override string f2747() { return "D.f2747"; }
public override string f2748() { return "D.f2748"; }
public override string f2749() { return "D.f2749"; }
public override string f2750() { return "D.f2750"; }
public override string f2751() { return "D.f2751"; }
public override string f2752() { return "D.f2752"; }
public override string f2753() { return "D.f2753"; }
public override string f2754() { return "D.f2754"; }
public override string f2755() { return "D.f2755"; }
public override string f2756() { return "D.f2756"; }
public override string f2757() { return "D.f2757"; }
public override string f2758() { return "D.f2758"; }
public override string f2759() { return "D.f2759"; }
public override string f2760() { return "D.f2760"; }
public override string f2761() { return "D.f2761"; }
public override string f2762() { return "D.f2762"; }
public override string f2763() { return "D.f2763"; }
public override string f2764() { return "D.f2764"; }
public override string f2765() { return "D.f2765"; }
public override string f2766() { return "D.f2766"; }
public override string f2767() { return "D.f2767"; }
public override string f2768() { return "D.f2768"; }
public override string f2769() { return "D.f2769"; }
public override string f2770() { return "D.f2770"; }
public override string f2771() { return "D.f2771"; }
public override string f2772() { return "D.f2772"; }
public override string f2773() { return "D.f2773"; }
public override string f2774() { return "D.f2774"; }
public override string f2775() { return "D.f2775"; }
public override string f2776() { return "D.f2776"; }
public override string f2777() { return "D.f2777"; }
public override string f2778() { return "D.f2778"; }
public override string f2779() { return "D.f2779"; }
public override string f2780() { return "D.f2780"; }
public override string f2781() { return "D.f2781"; }
public override string f2782() { return "D.f2782"; }
public override string f2783() { return "D.f2783"; }
public override string f2784() { return "D.f2784"; }
public override string f2785() { return "D.f2785"; }
public override string f2786() { return "D.f2786"; }
public override string f2787() { return "D.f2787"; }
public override string f2788() { return "D.f2788"; }
public override string f2789() { return "D.f2789"; }
public override string f2790() { return "D.f2790"; }
public override string f2791() { return "D.f2791"; }
public override string f2792() { return "D.f2792"; }
public override string f2793() { return "D.f2793"; }
public override string f2794() { return "D.f2794"; }
public override string f2795() { return "D.f2795"; }
public override string f2796() { return "D.f2796"; }
public override string f2797() { return "D.f2797"; }
public override string f2798() { return "D.f2798"; }
public override string f2799() { return "D.f2799"; }
public override string f2800() { return "D.f2800"; }
public override string f2801() { return "D.f2801"; }
public override string f2802() { return "D.f2802"; }
public override string f2803() { return "D.f2803"; }
public override string f2804() { return "D.f2804"; }
public override string f2805() { return "D.f2805"; }
public override string f2806() { return "D.f2806"; }
public override string f2807() { return "D.f2807"; }
public override string f2808() { return "D.f2808"; }
public override string f2809() { return "D.f2809"; }
public override string f2810() { return "D.f2810"; }
public override string f2811() { return "D.f2811"; }
public override string f2812() { return "D.f2812"; }
public override string f2813() { return "D.f2813"; }
public override string f2814() { return "D.f2814"; }
public override string f2815() { return "D.f2815"; }
public override string f2816() { return "D.f2816"; }
public override string f2817() { return "D.f2817"; }
public override string f2818() { return "D.f2818"; }
public override string f2819() { return "D.f2819"; }
public override string f2820() { return "D.f2820"; }
public override string f2821() { return "D.f2821"; }
public override string f2822() { return "D.f2822"; }
public override string f2823() { return "D.f2823"; }
public override string f2824() { return "D.f2824"; }
public override string f2825() { return "D.f2825"; }
public override string f2826() { return "D.f2826"; }
public override string f2827() { return "D.f2827"; }
public override string f2828() { return "D.f2828"; }
public override string f2829() { return "D.f2829"; }
public override string f2830() { return "D.f2830"; }
public override string f2831() { return "D.f2831"; }
public override string f2832() { return "D.f2832"; }
public override string f2833() { return "D.f2833"; }
public override string f2834() { return "D.f2834"; }
public override string f2835() { return "D.f2835"; }
public override string f2836() { return "D.f2836"; }
public override string f2837() { return "D.f2837"; }
public override string f2838() { return "D.f2838"; }
public override string f2839() { return "D.f2839"; }
public override string f2840() { return "D.f2840"; }
public override string f2841() { return "D.f2841"; }
public override string f2842() { return "D.f2842"; }
public override string f2843() { return "D.f2843"; }
public override string f2844() { return "D.f2844"; }
public override string f2845() { return "D.f2845"; }
public override string f2846() { return "D.f2846"; }
public override string f2847() { return "D.f2847"; }
public override string f2848() { return "D.f2848"; }
public override string f2849() { return "D.f2849"; }
public override string f2850() { return "D.f2850"; }
public override string f2851() { return "D.f2851"; }
public override string f2852() { return "D.f2852"; }
public override string f2853() { return "D.f2853"; }
public override string f2854() { return "D.f2854"; }
public override string f2855() { return "D.f2855"; }
public override string f2856() { return "D.f2856"; }
public override string f2857() { return "D.f2857"; }
public override string f2858() { return "D.f2858"; }
public override string f2859() { return "D.f2859"; }
public override string f2860() { return "D.f2860"; }
public override string f2861() { return "D.f2861"; }
public override string f2862() { return "D.f2862"; }
public override string f2863() { return "D.f2863"; }
public override string f2864() { return "D.f2864"; }
public override string f2865() { return "D.f2865"; }
public override string f2866() { return "D.f2866"; }
public override string f2867() { return "D.f2867"; }
public override string f2868() { return "D.f2868"; }
public override string f2869() { return "D.f2869"; }
public override string f2870() { return "D.f2870"; }
public override string f2871() { return "D.f2871"; }
public override string f2872() { return "D.f2872"; }
public override string f2873() { return "D.f2873"; }
public override string f2874() { return "D.f2874"; }
public override string f2875() { return "D.f2875"; }
public override string f2876() { return "D.f2876"; }
public override string f2877() { return "D.f2877"; }
public override string f2878() { return "D.f2878"; }
public override string f2879() { return "D.f2879"; }
public override string f2880() { return "D.f2880"; }
public override string f2881() { return "D.f2881"; }
public override string f2882() { return "D.f2882"; }
public override string f2883() { return "D.f2883"; }
public override string f2884() { return "D.f2884"; }
public override string f2885() { return "D.f2885"; }
public override string f2886() { return "D.f2886"; }
public override string f2887() { return "D.f2887"; }
public override string f2888() { return "D.f2888"; }
public override string f2889() { return "D.f2889"; }
public override string f2890() { return "D.f2890"; }
public override string f2891() { return "D.f2891"; }
public override string f2892() { return "D.f2892"; }
public override string f2893() { return "D.f2893"; }
public override string f2894() { return "D.f2894"; }
public override string f2895() { return "D.f2895"; }
public override string f2896() { return "D.f2896"; }
public override string f2897() { return "D.f2897"; }
public override string f2898() { return "D.f2898"; }
public override string f2899() { return "D.f2899"; }
public override string f2900() { return "D.f2900"; }
public override string f2901() { return "D.f2901"; }
public override string f2902() { return "D.f2902"; }
public override string f2903() { return "D.f2903"; }
public override string f2904() { return "D.f2904"; }
public override string f2905() { return "D.f2905"; }
public override string f2906() { return "D.f2906"; }
public override string f2907() { return "D.f2907"; }
public override string f2908() { return "D.f2908"; }
public override string f2909() { return "D.f2909"; }
public override string f2910() { return "D.f2910"; }
public override string f2911() { return "D.f2911"; }
public override string f2912() { return "D.f2912"; }
public override string f2913() { return "D.f2913"; }
public override string f2914() { return "D.f2914"; }
public override string f2915() { return "D.f2915"; }
public override string f2916() { return "D.f2916"; }
public override string f2917() { return "D.f2917"; }
public override string f2918() { return "D.f2918"; }
public override string f2919() { return "D.f2919"; }
public override string f2920() { return "D.f2920"; }
public override string f2921() { return "D.f2921"; }
public override string f2922() { return "D.f2922"; }
public override string f2923() { return "D.f2923"; }
public override string f2924() { return "D.f2924"; }
public override string f2925() { return "D.f2925"; }
public override string f2926() { return "D.f2926"; }
public override string f2927() { return "D.f2927"; }
public override string f2928() { return "D.f2928"; }
public override string f2929() { return "D.f2929"; }
public override string f2930() { return "D.f2930"; }
public override string f2931() { return "D.f2931"; }
public override string f2932() { return "D.f2932"; }
public override string f2933() { return "D.f2933"; }
public override string f2934() { return "D.f2934"; }
public override string f2935() { return "D.f2935"; }
public override string f2936() { return "D.f2936"; }
public override string f2937() { return "D.f2937"; }
public override string f2938() { return "D.f2938"; }
public override string f2939() { return "D.f2939"; }
public override string f2940() { return "D.f2940"; }
public override string f2941() { return "D.f2941"; }
public override string f2942() { return "D.f2942"; }
public override string f2943() { return "D.f2943"; }
public override string f2944() { return "D.f2944"; }
public override string f2945() { return "D.f2945"; }
public override string f2946() { return "D.f2946"; }
public override string f2947() { return "D.f2947"; }
public override string f2948() { return "D.f2948"; }
public override string f2949() { return "D.f2949"; }
public override string f2950() { return "D.f2950"; }
public override string f2951() { return "D.f2951"; }
public override string f2952() { return "D.f2952"; }
public override string f2953() { return "D.f2953"; }
public override string f2954() { return "D.f2954"; }
public override string f2955() { return "D.f2955"; }
public override string f2956() { return "D.f2956"; }
public override string f2957() { return "D.f2957"; }
public override string f2958() { return "D.f2958"; }
public override string f2959() { return "D.f2959"; }
public override string f2960() { return "D.f2960"; }
public override string f2961() { return "D.f2961"; }
public override string f2962() { return "D.f2962"; }
public override string f2963() { return "D.f2963"; }
public override string f2964() { return "D.f2964"; }
public override string f2965() { return "D.f2965"; }
public override string f2966() { return "D.f2966"; }
public override string f2967() { return "D.f2967"; }
public override string f2968() { return "D.f2968"; }
public override string f2969() { return "D.f2969"; }
public override string f2970() { return "D.f2970"; }
public override string f2971() { return "D.f2971"; }
public override string f2972() { return "D.f2972"; }
public override string f2973() { return "D.f2973"; }
public override string f2974() { return "D.f2974"; }
public override string f2975() { return "D.f2975"; }
public override string f2976() { return "D.f2976"; }
public override string f2977() { return "D.f2977"; }
public override string f2978() { return "D.f2978"; }
public override string f2979() { return "D.f2979"; }
public override string f2980() { return "D.f2980"; }
public override string f2981() { return "D.f2981"; }
public override string f2982() { return "D.f2982"; }
public override string f2983() { return "D.f2983"; }
public override string f2984() { return "D.f2984"; }
public override string f2985() { return "D.f2985"; }
public override string f2986() { return "D.f2986"; }
public override string f2987() { return "D.f2987"; }
public override string f2988() { return "D.f2988"; }
public override string f2989() { return "D.f2989"; }
public override string f2990() { return "D.f2990"; }
public override string f2991() { return "D.f2991"; }
public override string f2992() { return "D.f2992"; }
public override string f2993() { return "D.f2993"; }
public override string f2994() { return "D.f2994"; }
public override string f2995() { return "D.f2995"; }
public override string f2996() { return "D.f2996"; }
public override string f2997() { return "D.f2997"; }
public override string f2998() { return "D.f2998"; }
public override string f2999() { return "D.f2999"; }
}
internal class CTest
{
private static int Main()
{
D d = new D();
A a = d;
B b = d;
C c = d;
if (a.f1() != "B.f1") { Console.WriteLine("FAILED: a.f1()!=\"B.f1\""); return 1; }
if (a.f2() != "B.f2") { Console.WriteLine("FAILED: a.f2()!=\"B.f2\""); return 1; }
if (a.f3() != "B.f3") { Console.WriteLine("FAILED: a.f3()!=\"B.f3\""); return 1; }
if (a.f4() != "B.f4") { Console.WriteLine("FAILED: a.f4()!=\"B.f4\""); return 1; }
if (a.f5() != "B.f5") { Console.WriteLine("FAILED: a.f5()!=\"B.f5\""); return 1; }
if (a.f6() != "B.f6") { Console.WriteLine("FAILED: a.f6()!=\"B.f6\""); return 1; }
if (a.f7() != "B.f7") { Console.WriteLine("FAILED: a.f7()!=\"B.f7\""); return 1; }
if (a.f8() != "B.f8") { Console.WriteLine("FAILED: a.f8()!=\"B.f8\""); return 1; }
if (a.f9() != "B.f9") { Console.WriteLine("FAILED: a.f9()!=\"B.f9\""); return 1; }
if (a.f10() != "B.f10") { Console.WriteLine("FAILED: a.f10()!=\"B.f10\""); return 1; }
if (a.f11() != "B.f11") { Console.WriteLine("FAILED: a.f11()!=\"B.f11\""); return 1; }
if (a.f12() != "B.f12") { Console.WriteLine("FAILED: a.f12()!=\"B.f12\""); return 1; }
if (a.f13() != "B.f13") { Console.WriteLine("FAILED: a.f13()!=\"B.f13\""); return 1; }
if (a.f14() != "B.f14") { Console.WriteLine("FAILED: a.f14()!=\"B.f14\""); return 1; }
if (a.f15() != "B.f15") { Console.WriteLine("FAILED: a.f15()!=\"B.f15\""); return 1; }
if (a.f16() != "B.f16") { Console.WriteLine("FAILED: a.f16()!=\"B.f16\""); return 1; }
if (a.f17() != "B.f17") { Console.WriteLine("FAILED: a.f17()!=\"B.f17\""); return 1; }
if (a.f18() != "B.f18") { Console.WriteLine("FAILED: a.f18()!=\"B.f18\""); return 1; }
if (a.f19() != "B.f19") { Console.WriteLine("FAILED: a.f19()!=\"B.f19\""); return 1; }
if (a.f20() != "B.f20") { Console.WriteLine("FAILED: a.f20()!=\"B.f20\""); return 1; }
if (a.f21() != "B.f21") { Console.WriteLine("FAILED: a.f21()!=\"B.f21\""); return 1; }
if (a.f22() != "B.f22") { Console.WriteLine("FAILED: a.f22()!=\"B.f22\""); return 1; }
if (a.f23() != "B.f23") { Console.WriteLine("FAILED: a.f23()!=\"B.f23\""); return 1; }
if (a.f24() != "B.f24") { Console.WriteLine("FAILED: a.f24()!=\"B.f24\""); return 1; }
if (a.f25() != "B.f25") { Console.WriteLine("FAILED: a.f25()!=\"B.f25\""); return 1; }
if (a.f26() != "B.f26") { Console.WriteLine("FAILED: a.f26()!=\"B.f26\""); return 1; }
if (a.f27() != "B.f27") { Console.WriteLine("FAILED: a.f27()!=\"B.f27\""); return 1; }
if (a.f28() != "B.f28") { Console.WriteLine("FAILED: a.f28()!=\"B.f28\""); return 1; }
if (a.f29() != "B.f29") { Console.WriteLine("FAILED: a.f29()!=\"B.f29\""); return 1; }
if (a.f30() != "B.f30") { Console.WriteLine("FAILED: a.f30()!=\"B.f30\""); return 1; }
if (a.f31() != "B.f31") { Console.WriteLine("FAILED: a.f31()!=\"B.f31\""); return 1; }
if (a.f32() != "B.f32") { Console.WriteLine("FAILED: a.f32()!=\"B.f32\""); return 1; }
if (a.f33() != "B.f33") { Console.WriteLine("FAILED: a.f33()!=\"B.f33\""); return 1; }
if (a.f34() != "B.f34") { Console.WriteLine("FAILED: a.f34()!=\"B.f34\""); return 1; }
if (a.f35() != "B.f35") { Console.WriteLine("FAILED: a.f35()!=\"B.f35\""); return 1; }
if (a.f36() != "B.f36") { Console.WriteLine("FAILED: a.f36()!=\"B.f36\""); return 1; }
if (a.f37() != "B.f37") { Console.WriteLine("FAILED: a.f37()!=\"B.f37\""); return 1; }
if (a.f38() != "B.f38") { Console.WriteLine("FAILED: a.f38()!=\"B.f38\""); return 1; }
if (a.f39() != "B.f39") { Console.WriteLine("FAILED: a.f39()!=\"B.f39\""); return 1; }
if (a.f40() != "B.f40") { Console.WriteLine("FAILED: a.f40()!=\"B.f40\""); return 1; }
if (a.f41() != "B.f41") { Console.WriteLine("FAILED: a.f41()!=\"B.f41\""); return 1; }
if (a.f42() != "B.f42") { Console.WriteLine("FAILED: a.f42()!=\"B.f42\""); return 1; }
if (a.f43() != "B.f43") { Console.WriteLine("FAILED: a.f43()!=\"B.f43\""); return 1; }
if (a.f44() != "B.f44") { Console.WriteLine("FAILED: a.f44()!=\"B.f44\""); return 1; }
if (a.f45() != "B.f45") { Console.WriteLine("FAILED: a.f45()!=\"B.f45\""); return 1; }
if (a.f46() != "B.f46") { Console.WriteLine("FAILED: a.f46()!=\"B.f46\""); return 1; }
if (a.f47() != "B.f47") { Console.WriteLine("FAILED: a.f47()!=\"B.f47\""); return 1; }
if (a.f48() != "B.f48") { Console.WriteLine("FAILED: a.f48()!=\"B.f48\""); return 1; }
if (a.f49() != "B.f49") { Console.WriteLine("FAILED: a.f49()!=\"B.f49\""); return 1; }
if (a.f50() != "B.f50") { Console.WriteLine("FAILED: a.f50()!=\"B.f50\""); return 1; }
if (a.f51() != "B.f51") { Console.WriteLine("FAILED: a.f51()!=\"B.f51\""); return 1; }
if (a.f52() != "B.f52") { Console.WriteLine("FAILED: a.f52()!=\"B.f52\""); return 1; }
if (a.f53() != "B.f53") { Console.WriteLine("FAILED: a.f53()!=\"B.f53\""); return 1; }
if (a.f54() != "B.f54") { Console.WriteLine("FAILED: a.f54()!=\"B.f54\""); return 1; }
if (a.f55() != "B.f55") { Console.WriteLine("FAILED: a.f55()!=\"B.f55\""); return 1; }
if (a.f56() != "B.f56") { Console.WriteLine("FAILED: a.f56()!=\"B.f56\""); return 1; }
if (a.f57() != "B.f57") { Console.WriteLine("FAILED: a.f57()!=\"B.f57\""); return 1; }
if (a.f58() != "B.f58") { Console.WriteLine("FAILED: a.f58()!=\"B.f58\""); return 1; }
if (a.f59() != "B.f59") { Console.WriteLine("FAILED: a.f59()!=\"B.f59\""); return 1; }
if (a.f60() != "B.f60") { Console.WriteLine("FAILED: a.f60()!=\"B.f60\""); return 1; }
if (a.f61() != "B.f61") { Console.WriteLine("FAILED: a.f61()!=\"B.f61\""); return 1; }
if (a.f62() != "B.f62") { Console.WriteLine("FAILED: a.f62()!=\"B.f62\""); return 1; }
if (a.f63() != "B.f63") { Console.WriteLine("FAILED: a.f63()!=\"B.f63\""); return 1; }
if (a.f64() != "B.f64") { Console.WriteLine("FAILED: a.f64()!=\"B.f64\""); return 1; }
if (a.f65() != "B.f65") { Console.WriteLine("FAILED: a.f65()!=\"B.f65\""); return 1; }
if (a.f66() != "B.f66") { Console.WriteLine("FAILED: a.f66()!=\"B.f66\""); return 1; }
if (a.f67() != "B.f67") { Console.WriteLine("FAILED: a.f67()!=\"B.f67\""); return 1; }
if (a.f68() != "B.f68") { Console.WriteLine("FAILED: a.f68()!=\"B.f68\""); return 1; }
if (a.f69() != "B.f69") { Console.WriteLine("FAILED: a.f69()!=\"B.f69\""); return 1; }
if (a.f70() != "B.f70") { Console.WriteLine("FAILED: a.f70()!=\"B.f70\""); return 1; }
if (a.f71() != "B.f71") { Console.WriteLine("FAILED: a.f71()!=\"B.f71\""); return 1; }
if (a.f72() != "B.f72") { Console.WriteLine("FAILED: a.f72()!=\"B.f72\""); return 1; }
if (a.f73() != "B.f73") { Console.WriteLine("FAILED: a.f73()!=\"B.f73\""); return 1; }
if (a.f74() != "B.f74") { Console.WriteLine("FAILED: a.f74()!=\"B.f74\""); return 1; }
if (a.f75() != "B.f75") { Console.WriteLine("FAILED: a.f75()!=\"B.f75\""); return 1; }
if (a.f76() != "B.f76") { Console.WriteLine("FAILED: a.f76()!=\"B.f76\""); return 1; }
if (a.f77() != "B.f77") { Console.WriteLine("FAILED: a.f77()!=\"B.f77\""); return 1; }
if (a.f78() != "B.f78") { Console.WriteLine("FAILED: a.f78()!=\"B.f78\""); return 1; }
if (a.f79() != "B.f79") { Console.WriteLine("FAILED: a.f79()!=\"B.f79\""); return 1; }
if (a.f80() != "B.f80") { Console.WriteLine("FAILED: a.f80()!=\"B.f80\""); return 1; }
if (a.f81() != "B.f81") { Console.WriteLine("FAILED: a.f81()!=\"B.f81\""); return 1; }
if (a.f82() != "B.f82") { Console.WriteLine("FAILED: a.f82()!=\"B.f82\""); return 1; }
if (a.f83() != "B.f83") { Console.WriteLine("FAILED: a.f83()!=\"B.f83\""); return 1; }
if (a.f84() != "B.f84") { Console.WriteLine("FAILED: a.f84()!=\"B.f84\""); return 1; }
if (a.f85() != "B.f85") { Console.WriteLine("FAILED: a.f85()!=\"B.f85\""); return 1; }
if (a.f86() != "B.f86") { Console.WriteLine("FAILED: a.f86()!=\"B.f86\""); return 1; }
if (a.f87() != "B.f87") { Console.WriteLine("FAILED: a.f87()!=\"B.f87\""); return 1; }
if (a.f88() != "B.f88") { Console.WriteLine("FAILED: a.f88()!=\"B.f88\""); return 1; }
if (a.f89() != "B.f89") { Console.WriteLine("FAILED: a.f89()!=\"B.f89\""); return 1; }
if (a.f90() != "B.f90") { Console.WriteLine("FAILED: a.f90()!=\"B.f90\""); return 1; }
if (a.f91() != "B.f91") { Console.WriteLine("FAILED: a.f91()!=\"B.f91\""); return 1; }
if (a.f92() != "B.f92") { Console.WriteLine("FAILED: a.f92()!=\"B.f92\""); return 1; }
if (a.f93() != "B.f93") { Console.WriteLine("FAILED: a.f93()!=\"B.f93\""); return 1; }
if (a.f94() != "B.f94") { Console.WriteLine("FAILED: a.f94()!=\"B.f94\""); return 1; }
if (a.f95() != "B.f95") { Console.WriteLine("FAILED: a.f95()!=\"B.f95\""); return 1; }
if (a.f96() != "B.f96") { Console.WriteLine("FAILED: a.f96()!=\"B.f96\""); return 1; }
if (a.f97() != "B.f97") { Console.WriteLine("FAILED: a.f97()!=\"B.f97\""); return 1; }
if (a.f98() != "B.f98") { Console.WriteLine("FAILED: a.f98()!=\"B.f98\""); return 1; }
if (a.f99() != "B.f99") { Console.WriteLine("FAILED: a.f99()!=\"B.f99\""); return 1; }
if (a.f100() != "B.f100") { Console.WriteLine("FAILED: a.f100()!=\"B.f100\""); return 1; }
if (a.f101() != "B.f101") { Console.WriteLine("FAILED: a.f101()!=\"B.f101\""); return 1; }
if (a.f102() != "B.f102") { Console.WriteLine("FAILED: a.f102()!=\"B.f102\""); return 1; }
if (a.f103() != "B.f103") { Console.WriteLine("FAILED: a.f103()!=\"B.f103\""); return 1; }
if (a.f104() != "B.f104") { Console.WriteLine("FAILED: a.f104()!=\"B.f104\""); return 1; }
if (a.f105() != "B.f105") { Console.WriteLine("FAILED: a.f105()!=\"B.f105\""); return 1; }
if (a.f106() != "B.f106") { Console.WriteLine("FAILED: a.f106()!=\"B.f106\""); return 1; }
if (a.f107() != "B.f107") { Console.WriteLine("FAILED: a.f107()!=\"B.f107\""); return 1; }
if (a.f108() != "B.f108") { Console.WriteLine("FAILED: a.f108()!=\"B.f108\""); return 1; }
if (a.f109() != "B.f109") { Console.WriteLine("FAILED: a.f109()!=\"B.f109\""); return 1; }
if (a.f110() != "B.f110") { Console.WriteLine("FAILED: a.f110()!=\"B.f110\""); return 1; }
if (a.f111() != "B.f111") { Console.WriteLine("FAILED: a.f111()!=\"B.f111\""); return 1; }
if (a.f112() != "B.f112") { Console.WriteLine("FAILED: a.f112()!=\"B.f112\""); return 1; }
if (a.f113() != "B.f113") { Console.WriteLine("FAILED: a.f113()!=\"B.f113\""); return 1; }
if (a.f114() != "B.f114") { Console.WriteLine("FAILED: a.f114()!=\"B.f114\""); return 1; }
if (a.f115() != "B.f115") { Console.WriteLine("FAILED: a.f115()!=\"B.f115\""); return 1; }
if (a.f116() != "B.f116") { Console.WriteLine("FAILED: a.f116()!=\"B.f116\""); return 1; }
if (a.f117() != "B.f117") { Console.WriteLine("FAILED: a.f117()!=\"B.f117\""); return 1; }
if (a.f118() != "B.f118") { Console.WriteLine("FAILED: a.f118()!=\"B.f118\""); return 1; }
if (a.f119() != "B.f119") { Console.WriteLine("FAILED: a.f119()!=\"B.f119\""); return 1; }
if (a.f120() != "B.f120") { Console.WriteLine("FAILED: a.f120()!=\"B.f120\""); return 1; }
if (a.f121() != "B.f121") { Console.WriteLine("FAILED: a.f121()!=\"B.f121\""); return 1; }
if (a.f122() != "B.f122") { Console.WriteLine("FAILED: a.f122()!=\"B.f122\""); return 1; }
if (a.f123() != "B.f123") { Console.WriteLine("FAILED: a.f123()!=\"B.f123\""); return 1; }
if (a.f124() != "B.f124") { Console.WriteLine("FAILED: a.f124()!=\"B.f124\""); return 1; }
if (a.f125() != "B.f125") { Console.WriteLine("FAILED: a.f125()!=\"B.f125\""); return 1; }
if (a.f126() != "B.f126") { Console.WriteLine("FAILED: a.f126()!=\"B.f126\""); return 1; }
if (a.f127() != "B.f127") { Console.WriteLine("FAILED: a.f127()!=\"B.f127\""); return 1; }
if (a.f128() != "B.f128") { Console.WriteLine("FAILED: a.f128()!=\"B.f128\""); return 1; }
if (a.f129() != "B.f129") { Console.WriteLine("FAILED: a.f129()!=\"B.f129\""); return 1; }
if (a.f130() != "B.f130") { Console.WriteLine("FAILED: a.f130()!=\"B.f130\""); return 1; }
if (a.f131() != "B.f131") { Console.WriteLine("FAILED: a.f131()!=\"B.f131\""); return 1; }
if (a.f132() != "B.f132") { Console.WriteLine("FAILED: a.f132()!=\"B.f132\""); return 1; }
if (a.f133() != "B.f133") { Console.WriteLine("FAILED: a.f133()!=\"B.f133\""); return 1; }
if (a.f134() != "B.f134") { Console.WriteLine("FAILED: a.f134()!=\"B.f134\""); return 1; }
if (a.f135() != "B.f135") { Console.WriteLine("FAILED: a.f135()!=\"B.f135\""); return 1; }
if (a.f136() != "B.f136") { Console.WriteLine("FAILED: a.f136()!=\"B.f136\""); return 1; }
if (a.f137() != "B.f137") { Console.WriteLine("FAILED: a.f137()!=\"B.f137\""); return 1; }
if (a.f138() != "B.f138") { Console.WriteLine("FAILED: a.f138()!=\"B.f138\""); return 1; }
if (a.f139() != "B.f139") { Console.WriteLine("FAILED: a.f139()!=\"B.f139\""); return 1; }
if (a.f140() != "B.f140") { Console.WriteLine("FAILED: a.f140()!=\"B.f140\""); return 1; }
if (a.f141() != "B.f141") { Console.WriteLine("FAILED: a.f141()!=\"B.f141\""); return 1; }
if (a.f142() != "B.f142") { Console.WriteLine("FAILED: a.f142()!=\"B.f142\""); return 1; }
if (a.f143() != "B.f143") { Console.WriteLine("FAILED: a.f143()!=\"B.f143\""); return 1; }
if (a.f144() != "B.f144") { Console.WriteLine("FAILED: a.f144()!=\"B.f144\""); return 1; }
if (a.f145() != "B.f145") { Console.WriteLine("FAILED: a.f145()!=\"B.f145\""); return 1; }
if (a.f146() != "B.f146") { Console.WriteLine("FAILED: a.f146()!=\"B.f146\""); return 1; }
if (a.f147() != "B.f147") { Console.WriteLine("FAILED: a.f147()!=\"B.f147\""); return 1; }
if (a.f148() != "B.f148") { Console.WriteLine("FAILED: a.f148()!=\"B.f148\""); return 1; }
if (a.f149() != "B.f149") { Console.WriteLine("FAILED: a.f149()!=\"B.f149\""); return 1; }
if (a.f150() != "B.f150") { Console.WriteLine("FAILED: a.f150()!=\"B.f150\""); return 1; }
if (a.f151() != "B.f151") { Console.WriteLine("FAILED: a.f151()!=\"B.f151\""); return 1; }
if (a.f152() != "B.f152") { Console.WriteLine("FAILED: a.f152()!=\"B.f152\""); return 1; }
if (a.f153() != "B.f153") { Console.WriteLine("FAILED: a.f153()!=\"B.f153\""); return 1; }
if (a.f154() != "B.f154") { Console.WriteLine("FAILED: a.f154()!=\"B.f154\""); return 1; }
if (a.f155() != "B.f155") { Console.WriteLine("FAILED: a.f155()!=\"B.f155\""); return 1; }
if (a.f156() != "B.f156") { Console.WriteLine("FAILED: a.f156()!=\"B.f156\""); return 1; }
if (a.f157() != "B.f157") { Console.WriteLine("FAILED: a.f157()!=\"B.f157\""); return 1; }
if (a.f158() != "B.f158") { Console.WriteLine("FAILED: a.f158()!=\"B.f158\""); return 1; }
if (a.f159() != "B.f159") { Console.WriteLine("FAILED: a.f159()!=\"B.f159\""); return 1; }
if (a.f160() != "B.f160") { Console.WriteLine("FAILED: a.f160()!=\"B.f160\""); return 1; }
if (a.f161() != "B.f161") { Console.WriteLine("FAILED: a.f161()!=\"B.f161\""); return 1; }
if (a.f162() != "B.f162") { Console.WriteLine("FAILED: a.f162()!=\"B.f162\""); return 1; }
if (a.f163() != "B.f163") { Console.WriteLine("FAILED: a.f163()!=\"B.f163\""); return 1; }
if (a.f164() != "B.f164") { Console.WriteLine("FAILED: a.f164()!=\"B.f164\""); return 1; }
if (a.f165() != "B.f165") { Console.WriteLine("FAILED: a.f165()!=\"B.f165\""); return 1; }
if (a.f166() != "B.f166") { Console.WriteLine("FAILED: a.f166()!=\"B.f166\""); return 1; }
if (a.f167() != "B.f167") { Console.WriteLine("FAILED: a.f167()!=\"B.f167\""); return 1; }
if (a.f168() != "B.f168") { Console.WriteLine("FAILED: a.f168()!=\"B.f168\""); return 1; }
if (a.f169() != "B.f169") { Console.WriteLine("FAILED: a.f169()!=\"B.f169\""); return 1; }
if (a.f170() != "B.f170") { Console.WriteLine("FAILED: a.f170()!=\"B.f170\""); return 1; }
if (a.f171() != "B.f171") { Console.WriteLine("FAILED: a.f171()!=\"B.f171\""); return 1; }
if (a.f172() != "B.f172") { Console.WriteLine("FAILED: a.f172()!=\"B.f172\""); return 1; }
if (a.f173() != "B.f173") { Console.WriteLine("FAILED: a.f173()!=\"B.f173\""); return 1; }
if (a.f174() != "B.f174") { Console.WriteLine("FAILED: a.f174()!=\"B.f174\""); return 1; }
if (a.f175() != "B.f175") { Console.WriteLine("FAILED: a.f175()!=\"B.f175\""); return 1; }
if (a.f176() != "B.f176") { Console.WriteLine("FAILED: a.f176()!=\"B.f176\""); return 1; }
if (a.f177() != "B.f177") { Console.WriteLine("FAILED: a.f177()!=\"B.f177\""); return 1; }
if (a.f178() != "B.f178") { Console.WriteLine("FAILED: a.f178()!=\"B.f178\""); return 1; }
if (a.f179() != "B.f179") { Console.WriteLine("FAILED: a.f179()!=\"B.f179\""); return 1; }
if (a.f180() != "B.f180") { Console.WriteLine("FAILED: a.f180()!=\"B.f180\""); return 1; }
if (a.f181() != "B.f181") { Console.WriteLine("FAILED: a.f181()!=\"B.f181\""); return 1; }
if (a.f182() != "B.f182") { Console.WriteLine("FAILED: a.f182()!=\"B.f182\""); return 1; }
if (a.f183() != "B.f183") { Console.WriteLine("FAILED: a.f183()!=\"B.f183\""); return 1; }
if (a.f184() != "B.f184") { Console.WriteLine("FAILED: a.f184()!=\"B.f184\""); return 1; }
if (a.f185() != "B.f185") { Console.WriteLine("FAILED: a.f185()!=\"B.f185\""); return 1; }
if (a.f186() != "B.f186") { Console.WriteLine("FAILED: a.f186()!=\"B.f186\""); return 1; }
if (a.f187() != "B.f187") { Console.WriteLine("FAILED: a.f187()!=\"B.f187\""); return 1; }
if (a.f188() != "B.f188") { Console.WriteLine("FAILED: a.f188()!=\"B.f188\""); return 1; }
if (a.f189() != "B.f189") { Console.WriteLine("FAILED: a.f189()!=\"B.f189\""); return 1; }
if (a.f190() != "B.f190") { Console.WriteLine("FAILED: a.f190()!=\"B.f190\""); return 1; }
if (a.f191() != "B.f191") { Console.WriteLine("FAILED: a.f191()!=\"B.f191\""); return 1; }
if (a.f192() != "B.f192") { Console.WriteLine("FAILED: a.f192()!=\"B.f192\""); return 1; }
if (a.f193() != "B.f193") { Console.WriteLine("FAILED: a.f193()!=\"B.f193\""); return 1; }
if (a.f194() != "B.f194") { Console.WriteLine("FAILED: a.f194()!=\"B.f194\""); return 1; }
if (a.f195() != "B.f195") { Console.WriteLine("FAILED: a.f195()!=\"B.f195\""); return 1; }
if (a.f196() != "B.f196") { Console.WriteLine("FAILED: a.f196()!=\"B.f196\""); return 1; }
if (a.f197() != "B.f197") { Console.WriteLine("FAILED: a.f197()!=\"B.f197\""); return 1; }
if (a.f198() != "B.f198") { Console.WriteLine("FAILED: a.f198()!=\"B.f198\""); return 1; }
if (a.f199() != "B.f199") { Console.WriteLine("FAILED: a.f199()!=\"B.f199\""); return 1; }
if (a.f200() != "B.f200") { Console.WriteLine("FAILED: a.f200()!=\"B.f200\""); return 1; }
if (a.f201() != "B.f201") { Console.WriteLine("FAILED: a.f201()!=\"B.f201\""); return 1; }
if (a.f202() != "B.f202") { Console.WriteLine("FAILED: a.f202()!=\"B.f202\""); return 1; }
if (a.f203() != "B.f203") { Console.WriteLine("FAILED: a.f203()!=\"B.f203\""); return 1; }
if (a.f204() != "B.f204") { Console.WriteLine("FAILED: a.f204()!=\"B.f204\""); return 1; }
if (a.f205() != "B.f205") { Console.WriteLine("FAILED: a.f205()!=\"B.f205\""); return 1; }
if (a.f206() != "B.f206") { Console.WriteLine("FAILED: a.f206()!=\"B.f206\""); return 1; }
if (a.f207() != "B.f207") { Console.WriteLine("FAILED: a.f207()!=\"B.f207\""); return 1; }
if (a.f208() != "B.f208") { Console.WriteLine("FAILED: a.f208()!=\"B.f208\""); return 1; }
if (a.f209() != "B.f209") { Console.WriteLine("FAILED: a.f209()!=\"B.f209\""); return 1; }
if (a.f210() != "B.f210") { Console.WriteLine("FAILED: a.f210()!=\"B.f210\""); return 1; }
if (a.f211() != "B.f211") { Console.WriteLine("FAILED: a.f211()!=\"B.f211\""); return 1; }
if (a.f212() != "B.f212") { Console.WriteLine("FAILED: a.f212()!=\"B.f212\""); return 1; }
if (a.f213() != "B.f213") { Console.WriteLine("FAILED: a.f213()!=\"B.f213\""); return 1; }
if (a.f214() != "B.f214") { Console.WriteLine("FAILED: a.f214()!=\"B.f214\""); return 1; }
if (a.f215() != "B.f215") { Console.WriteLine("FAILED: a.f215()!=\"B.f215\""); return 1; }
if (a.f216() != "B.f216") { Console.WriteLine("FAILED: a.f216()!=\"B.f216\""); return 1; }
if (a.f217() != "B.f217") { Console.WriteLine("FAILED: a.f217()!=\"B.f217\""); return 1; }
if (a.f218() != "B.f218") { Console.WriteLine("FAILED: a.f218()!=\"B.f218\""); return 1; }
if (a.f219() != "B.f219") { Console.WriteLine("FAILED: a.f219()!=\"B.f219\""); return 1; }
if (a.f220() != "B.f220") { Console.WriteLine("FAILED: a.f220()!=\"B.f220\""); return 1; }
if (a.f221() != "B.f221") { Console.WriteLine("FAILED: a.f221()!=\"B.f221\""); return 1; }
if (a.f222() != "B.f222") { Console.WriteLine("FAILED: a.f222()!=\"B.f222\""); return 1; }
if (a.f223() != "B.f223") { Console.WriteLine("FAILED: a.f223()!=\"B.f223\""); return 1; }
if (a.f224() != "B.f224") { Console.WriteLine("FAILED: a.f224()!=\"B.f224\""); return 1; }
if (a.f225() != "B.f225") { Console.WriteLine("FAILED: a.f225()!=\"B.f225\""); return 1; }
if (a.f226() != "B.f226") { Console.WriteLine("FAILED: a.f226()!=\"B.f226\""); return 1; }
if (a.f227() != "B.f227") { Console.WriteLine("FAILED: a.f227()!=\"B.f227\""); return 1; }
if (a.f228() != "B.f228") { Console.WriteLine("FAILED: a.f228()!=\"B.f228\""); return 1; }
if (a.f229() != "B.f229") { Console.WriteLine("FAILED: a.f229()!=\"B.f229\""); return 1; }
if (a.f230() != "B.f230") { Console.WriteLine("FAILED: a.f230()!=\"B.f230\""); return 1; }
if (a.f231() != "B.f231") { Console.WriteLine("FAILED: a.f231()!=\"B.f231\""); return 1; }
if (a.f232() != "B.f232") { Console.WriteLine("FAILED: a.f232()!=\"B.f232\""); return 1; }
if (a.f233() != "B.f233") { Console.WriteLine("FAILED: a.f233()!=\"B.f233\""); return 1; }
if (a.f234() != "B.f234") { Console.WriteLine("FAILED: a.f234()!=\"B.f234\""); return 1; }
if (a.f235() != "B.f235") { Console.WriteLine("FAILED: a.f235()!=\"B.f235\""); return 1; }
if (a.f236() != "B.f236") { Console.WriteLine("FAILED: a.f236()!=\"B.f236\""); return 1; }
if (a.f237() != "B.f237") { Console.WriteLine("FAILED: a.f237()!=\"B.f237\""); return 1; }
if (a.f238() != "B.f238") { Console.WriteLine("FAILED: a.f238()!=\"B.f238\""); return 1; }
if (a.f239() != "B.f239") { Console.WriteLine("FAILED: a.f239()!=\"B.f239\""); return 1; }
if (a.f240() != "B.f240") { Console.WriteLine("FAILED: a.f240()!=\"B.f240\""); return 1; }
if (a.f241() != "B.f241") { Console.WriteLine("FAILED: a.f241()!=\"B.f241\""); return 1; }
if (a.f242() != "B.f242") { Console.WriteLine("FAILED: a.f242()!=\"B.f242\""); return 1; }
if (a.f243() != "B.f243") { Console.WriteLine("FAILED: a.f243()!=\"B.f243\""); return 1; }
if (a.f244() != "B.f244") { Console.WriteLine("FAILED: a.f244()!=\"B.f244\""); return 1; }
if (a.f245() != "B.f245") { Console.WriteLine("FAILED: a.f245()!=\"B.f245\""); return 1; }
if (a.f246() != "B.f246") { Console.WriteLine("FAILED: a.f246()!=\"B.f246\""); return 1; }
if (a.f247() != "B.f247") { Console.WriteLine("FAILED: a.f247()!=\"B.f247\""); return 1; }
if (a.f248() != "B.f248") { Console.WriteLine("FAILED: a.f248()!=\"B.f248\""); return 1; }
if (a.f249() != "B.f249") { Console.WriteLine("FAILED: a.f249()!=\"B.f249\""); return 1; }
if (a.f250() != "B.f250") { Console.WriteLine("FAILED: a.f250()!=\"B.f250\""); return 1; }
if (a.f251() != "B.f251") { Console.WriteLine("FAILED: a.f251()!=\"B.f251\""); return 1; }
if (a.f252() != "B.f252") { Console.WriteLine("FAILED: a.f252()!=\"B.f252\""); return 1; }
if (a.f253() != "B.f253") { Console.WriteLine("FAILED: a.f253()!=\"B.f253\""); return 1; }
if (a.f254() != "B.f254") { Console.WriteLine("FAILED: a.f254()!=\"B.f254\""); return 1; }
if (a.f255() != "B.f255") { Console.WriteLine("FAILED: a.f255()!=\"B.f255\""); return 1; }
if (a.f256() != "B.f256") { Console.WriteLine("FAILED: a.f256()!=\"B.f256\""); return 1; }
if (a.f257() != "B.f257") { Console.WriteLine("FAILED: a.f257()!=\"B.f257\""); return 1; }
if (a.f258() != "B.f258") { Console.WriteLine("FAILED: a.f258()!=\"B.f258\""); return 1; }
if (a.f259() != "B.f259") { Console.WriteLine("FAILED: a.f259()!=\"B.f259\""); return 1; }
if (a.f260() != "B.f260") { Console.WriteLine("FAILED: a.f260()!=\"B.f260\""); return 1; }
if (a.f261() != "B.f261") { Console.WriteLine("FAILED: a.f261()!=\"B.f261\""); return 1; }
if (a.f262() != "B.f262") { Console.WriteLine("FAILED: a.f262()!=\"B.f262\""); return 1; }
if (a.f263() != "B.f263") { Console.WriteLine("FAILED: a.f263()!=\"B.f263\""); return 1; }
if (a.f264() != "B.f264") { Console.WriteLine("FAILED: a.f264()!=\"B.f264\""); return 1; }
if (a.f265() != "B.f265") { Console.WriteLine("FAILED: a.f265()!=\"B.f265\""); return 1; }
if (a.f266() != "B.f266") { Console.WriteLine("FAILED: a.f266()!=\"B.f266\""); return 1; }
if (a.f267() != "B.f267") { Console.WriteLine("FAILED: a.f267()!=\"B.f267\""); return 1; }
if (a.f268() != "B.f268") { Console.WriteLine("FAILED: a.f268()!=\"B.f268\""); return 1; }
if (a.f269() != "B.f269") { Console.WriteLine("FAILED: a.f269()!=\"B.f269\""); return 1; }
if (a.f270() != "B.f270") { Console.WriteLine("FAILED: a.f270()!=\"B.f270\""); return 1; }
if (a.f271() != "B.f271") { Console.WriteLine("FAILED: a.f271()!=\"B.f271\""); return 1; }
if (a.f272() != "B.f272") { Console.WriteLine("FAILED: a.f272()!=\"B.f272\""); return 1; }
if (a.f273() != "B.f273") { Console.WriteLine("FAILED: a.f273()!=\"B.f273\""); return 1; }
if (a.f274() != "B.f274") { Console.WriteLine("FAILED: a.f274()!=\"B.f274\""); return 1; }
if (a.f275() != "B.f275") { Console.WriteLine("FAILED: a.f275()!=\"B.f275\""); return 1; }
if (a.f276() != "B.f276") { Console.WriteLine("FAILED: a.f276()!=\"B.f276\""); return 1; }
if (a.f277() != "B.f277") { Console.WriteLine("FAILED: a.f277()!=\"B.f277\""); return 1; }
if (a.f278() != "B.f278") { Console.WriteLine("FAILED: a.f278()!=\"B.f278\""); return 1; }
if (a.f279() != "B.f279") { Console.WriteLine("FAILED: a.f279()!=\"B.f279\""); return 1; }
if (a.f280() != "B.f280") { Console.WriteLine("FAILED: a.f280()!=\"B.f280\""); return 1; }
if (a.f281() != "B.f281") { Console.WriteLine("FAILED: a.f281()!=\"B.f281\""); return 1; }
if (a.f282() != "B.f282") { Console.WriteLine("FAILED: a.f282()!=\"B.f282\""); return 1; }
if (a.f283() != "B.f283") { Console.WriteLine("FAILED: a.f283()!=\"B.f283\""); return 1; }
if (a.f284() != "B.f284") { Console.WriteLine("FAILED: a.f284()!=\"B.f284\""); return 1; }
if (a.f285() != "B.f285") { Console.WriteLine("FAILED: a.f285()!=\"B.f285\""); return 1; }
if (a.f286() != "B.f286") { Console.WriteLine("FAILED: a.f286()!=\"B.f286\""); return 1; }
if (a.f287() != "B.f287") { Console.WriteLine("FAILED: a.f287()!=\"B.f287\""); return 1; }
if (a.f288() != "B.f288") { Console.WriteLine("FAILED: a.f288()!=\"B.f288\""); return 1; }
if (a.f289() != "B.f289") { Console.WriteLine("FAILED: a.f289()!=\"B.f289\""); return 1; }
if (a.f290() != "B.f290") { Console.WriteLine("FAILED: a.f290()!=\"B.f290\""); return 1; }
if (a.f291() != "B.f291") { Console.WriteLine("FAILED: a.f291()!=\"B.f291\""); return 1; }
if (a.f292() != "B.f292") { Console.WriteLine("FAILED: a.f292()!=\"B.f292\""); return 1; }
if (a.f293() != "B.f293") { Console.WriteLine("FAILED: a.f293()!=\"B.f293\""); return 1; }
if (a.f294() != "B.f294") { Console.WriteLine("FAILED: a.f294()!=\"B.f294\""); return 1; }
if (a.f295() != "B.f295") { Console.WriteLine("FAILED: a.f295()!=\"B.f295\""); return 1; }
if (a.f296() != "B.f296") { Console.WriteLine("FAILED: a.f296()!=\"B.f296\""); return 1; }
if (a.f297() != "B.f297") { Console.WriteLine("FAILED: a.f297()!=\"B.f297\""); return 1; }
if (a.f298() != "B.f298") { Console.WriteLine("FAILED: a.f298()!=\"B.f298\""); return 1; }
if (a.f299() != "B.f299") { Console.WriteLine("FAILED: a.f299()!=\"B.f299\""); return 1; }
if (a.f300() != "B.f300") { Console.WriteLine("FAILED: a.f300()!=\"B.f300\""); return 1; }
if (a.f301() != "B.f301") { Console.WriteLine("FAILED: a.f301()!=\"B.f301\""); return 1; }
if (a.f302() != "B.f302") { Console.WriteLine("FAILED: a.f302()!=\"B.f302\""); return 1; }
if (a.f303() != "B.f303") { Console.WriteLine("FAILED: a.f303()!=\"B.f303\""); return 1; }
if (a.f304() != "B.f304") { Console.WriteLine("FAILED: a.f304()!=\"B.f304\""); return 1; }
if (a.f305() != "B.f305") { Console.WriteLine("FAILED: a.f305()!=\"B.f305\""); return 1; }
if (a.f306() != "B.f306") { Console.WriteLine("FAILED: a.f306()!=\"B.f306\""); return 1; }
if (a.f307() != "B.f307") { Console.WriteLine("FAILED: a.f307()!=\"B.f307\""); return 1; }
if (a.f308() != "B.f308") { Console.WriteLine("FAILED: a.f308()!=\"B.f308\""); return 1; }
if (a.f309() != "B.f309") { Console.WriteLine("FAILED: a.f309()!=\"B.f309\""); return 1; }
if (a.f310() != "B.f310") { Console.WriteLine("FAILED: a.f310()!=\"B.f310\""); return 1; }
if (a.f311() != "B.f311") { Console.WriteLine("FAILED: a.f311()!=\"B.f311\""); return 1; }
if (a.f312() != "B.f312") { Console.WriteLine("FAILED: a.f312()!=\"B.f312\""); return 1; }
if (a.f313() != "B.f313") { Console.WriteLine("FAILED: a.f313()!=\"B.f313\""); return 1; }
if (a.f314() != "B.f314") { Console.WriteLine("FAILED: a.f314()!=\"B.f314\""); return 1; }
if (a.f315() != "B.f315") { Console.WriteLine("FAILED: a.f315()!=\"B.f315\""); return 1; }
if (a.f316() != "B.f316") { Console.WriteLine("FAILED: a.f316()!=\"B.f316\""); return 1; }
if (a.f317() != "B.f317") { Console.WriteLine("FAILED: a.f317()!=\"B.f317\""); return 1; }
if (a.f318() != "B.f318") { Console.WriteLine("FAILED: a.f318()!=\"B.f318\""); return 1; }
if (a.f319() != "B.f319") { Console.WriteLine("FAILED: a.f319()!=\"B.f319\""); return 1; }
if (a.f320() != "B.f320") { Console.WriteLine("FAILED: a.f320()!=\"B.f320\""); return 1; }
if (a.f321() != "B.f321") { Console.WriteLine("FAILED: a.f321()!=\"B.f321\""); return 1; }
if (a.f322() != "B.f322") { Console.WriteLine("FAILED: a.f322()!=\"B.f322\""); return 1; }
if (a.f323() != "B.f323") { Console.WriteLine("FAILED: a.f323()!=\"B.f323\""); return 1; }
if (a.f324() != "B.f324") { Console.WriteLine("FAILED: a.f324()!=\"B.f324\""); return 1; }
if (a.f325() != "B.f325") { Console.WriteLine("FAILED: a.f325()!=\"B.f325\""); return 1; }
if (a.f326() != "B.f326") { Console.WriteLine("FAILED: a.f326()!=\"B.f326\""); return 1; }
if (a.f327() != "B.f327") { Console.WriteLine("FAILED: a.f327()!=\"B.f327\""); return 1; }
if (a.f328() != "B.f328") { Console.WriteLine("FAILED: a.f328()!=\"B.f328\""); return 1; }
if (a.f329() != "B.f329") { Console.WriteLine("FAILED: a.f329()!=\"B.f329\""); return 1; }
if (a.f330() != "B.f330") { Console.WriteLine("FAILED: a.f330()!=\"B.f330\""); return 1; }
if (a.f331() != "B.f331") { Console.WriteLine("FAILED: a.f331()!=\"B.f331\""); return 1; }
if (a.f332() != "B.f332") { Console.WriteLine("FAILED: a.f332()!=\"B.f332\""); return 1; }
if (a.f333() != "B.f333") { Console.WriteLine("FAILED: a.f333()!=\"B.f333\""); return 1; }
if (a.f334() != "B.f334") { Console.WriteLine("FAILED: a.f334()!=\"B.f334\""); return 1; }
if (a.f335() != "B.f335") { Console.WriteLine("FAILED: a.f335()!=\"B.f335\""); return 1; }
if (a.f336() != "B.f336") { Console.WriteLine("FAILED: a.f336()!=\"B.f336\""); return 1; }
if (a.f337() != "B.f337") { Console.WriteLine("FAILED: a.f337()!=\"B.f337\""); return 1; }
if (a.f338() != "B.f338") { Console.WriteLine("FAILED: a.f338()!=\"B.f338\""); return 1; }
if (a.f339() != "B.f339") { Console.WriteLine("FAILED: a.f339()!=\"B.f339\""); return 1; }
if (a.f340() != "B.f340") { Console.WriteLine("FAILED: a.f340()!=\"B.f340\""); return 1; }
if (a.f341() != "B.f341") { Console.WriteLine("FAILED: a.f341()!=\"B.f341\""); return 1; }
if (a.f342() != "B.f342") { Console.WriteLine("FAILED: a.f342()!=\"B.f342\""); return 1; }
if (a.f343() != "B.f343") { Console.WriteLine("FAILED: a.f343()!=\"B.f343\""); return 1; }
if (a.f344() != "B.f344") { Console.WriteLine("FAILED: a.f344()!=\"B.f344\""); return 1; }
if (a.f345() != "B.f345") { Console.WriteLine("FAILED: a.f345()!=\"B.f345\""); return 1; }
if (a.f346() != "B.f346") { Console.WriteLine("FAILED: a.f346()!=\"B.f346\""); return 1; }
if (a.f347() != "B.f347") { Console.WriteLine("FAILED: a.f347()!=\"B.f347\""); return 1; }
if (a.f348() != "B.f348") { Console.WriteLine("FAILED: a.f348()!=\"B.f348\""); return 1; }
if (a.f349() != "B.f349") { Console.WriteLine("FAILED: a.f349()!=\"B.f349\""); return 1; }
if (a.f350() != "B.f350") { Console.WriteLine("FAILED: a.f350()!=\"B.f350\""); return 1; }
if (a.f351() != "B.f351") { Console.WriteLine("FAILED: a.f351()!=\"B.f351\""); return 1; }
if (a.f352() != "B.f352") { Console.WriteLine("FAILED: a.f352()!=\"B.f352\""); return 1; }
if (a.f353() != "B.f353") { Console.WriteLine("FAILED: a.f353()!=\"B.f353\""); return 1; }
if (a.f354() != "B.f354") { Console.WriteLine("FAILED: a.f354()!=\"B.f354\""); return 1; }
if (a.f355() != "B.f355") { Console.WriteLine("FAILED: a.f355()!=\"B.f355\""); return 1; }
if (a.f356() != "B.f356") { Console.WriteLine("FAILED: a.f356()!=\"B.f356\""); return 1; }
if (a.f357() != "B.f357") { Console.WriteLine("FAILED: a.f357()!=\"B.f357\""); return 1; }
if (a.f358() != "B.f358") { Console.WriteLine("FAILED: a.f358()!=\"B.f358\""); return 1; }
if (a.f359() != "B.f359") { Console.WriteLine("FAILED: a.f359()!=\"B.f359\""); return 1; }
if (a.f360() != "B.f360") { Console.WriteLine("FAILED: a.f360()!=\"B.f360\""); return 1; }
if (a.f361() != "B.f361") { Console.WriteLine("FAILED: a.f361()!=\"B.f361\""); return 1; }
if (a.f362() != "B.f362") { Console.WriteLine("FAILED: a.f362()!=\"B.f362\""); return 1; }
if (a.f363() != "B.f363") { Console.WriteLine("FAILED: a.f363()!=\"B.f363\""); return 1; }
if (a.f364() != "B.f364") { Console.WriteLine("FAILED: a.f364()!=\"B.f364\""); return 1; }
if (a.f365() != "B.f365") { Console.WriteLine("FAILED: a.f365()!=\"B.f365\""); return 1; }
if (a.f366() != "B.f366") { Console.WriteLine("FAILED: a.f366()!=\"B.f366\""); return 1; }
if (a.f367() != "B.f367") { Console.WriteLine("FAILED: a.f367()!=\"B.f367\""); return 1; }
if (a.f368() != "B.f368") { Console.WriteLine("FAILED: a.f368()!=\"B.f368\""); return 1; }
if (a.f369() != "B.f369") { Console.WriteLine("FAILED: a.f369()!=\"B.f369\""); return 1; }
if (a.f370() != "B.f370") { Console.WriteLine("FAILED: a.f370()!=\"B.f370\""); return 1; }
if (a.f371() != "B.f371") { Console.WriteLine("FAILED: a.f371()!=\"B.f371\""); return 1; }
if (a.f372() != "B.f372") { Console.WriteLine("FAILED: a.f372()!=\"B.f372\""); return 1; }
if (a.f373() != "B.f373") { Console.WriteLine("FAILED: a.f373()!=\"B.f373\""); return 1; }
if (a.f374() != "B.f374") { Console.WriteLine("FAILED: a.f374()!=\"B.f374\""); return 1; }
if (a.f375() != "B.f375") { Console.WriteLine("FAILED: a.f375()!=\"B.f375\""); return 1; }
if (a.f376() != "B.f376") { Console.WriteLine("FAILED: a.f376()!=\"B.f376\""); return 1; }
if (a.f377() != "B.f377") { Console.WriteLine("FAILED: a.f377()!=\"B.f377\""); return 1; }
if (a.f378() != "B.f378") { Console.WriteLine("FAILED: a.f378()!=\"B.f378\""); return 1; }
if (a.f379() != "B.f379") { Console.WriteLine("FAILED: a.f379()!=\"B.f379\""); return 1; }
if (a.f380() != "B.f380") { Console.WriteLine("FAILED: a.f380()!=\"B.f380\""); return 1; }
if (a.f381() != "B.f381") { Console.WriteLine("FAILED: a.f381()!=\"B.f381\""); return 1; }
if (a.f382() != "B.f382") { Console.WriteLine("FAILED: a.f382()!=\"B.f382\""); return 1; }
if (a.f383() != "B.f383") { Console.WriteLine("FAILED: a.f383()!=\"B.f383\""); return 1; }
if (a.f384() != "B.f384") { Console.WriteLine("FAILED: a.f384()!=\"B.f384\""); return 1; }
if (a.f385() != "B.f385") { Console.WriteLine("FAILED: a.f385()!=\"B.f385\""); return 1; }
if (a.f386() != "B.f386") { Console.WriteLine("FAILED: a.f386()!=\"B.f386\""); return 1; }
if (a.f387() != "B.f387") { Console.WriteLine("FAILED: a.f387()!=\"B.f387\""); return 1; }
if (a.f388() != "B.f388") { Console.WriteLine("FAILED: a.f388()!=\"B.f388\""); return 1; }
if (a.f389() != "B.f389") { Console.WriteLine("FAILED: a.f389()!=\"B.f389\""); return 1; }
if (a.f390() != "B.f390") { Console.WriteLine("FAILED: a.f390()!=\"B.f390\""); return 1; }
if (a.f391() != "B.f391") { Console.WriteLine("FAILED: a.f391()!=\"B.f391\""); return 1; }
if (a.f392() != "B.f392") { Console.WriteLine("FAILED: a.f392()!=\"B.f392\""); return 1; }
if (a.f393() != "B.f393") { Console.WriteLine("FAILED: a.f393()!=\"B.f393\""); return 1; }
if (a.f394() != "B.f394") { Console.WriteLine("FAILED: a.f394()!=\"B.f394\""); return 1; }
if (a.f395() != "B.f395") { Console.WriteLine("FAILED: a.f395()!=\"B.f395\""); return 1; }
if (a.f396() != "B.f396") { Console.WriteLine("FAILED: a.f396()!=\"B.f396\""); return 1; }
if (a.f397() != "B.f397") { Console.WriteLine("FAILED: a.f397()!=\"B.f397\""); return 1; }
if (a.f398() != "B.f398") { Console.WriteLine("FAILED: a.f398()!=\"B.f398\""); return 1; }
if (a.f399() != "B.f399") { Console.WriteLine("FAILED: a.f399()!=\"B.f399\""); return 1; }
if (a.f400() != "B.f400") { Console.WriteLine("FAILED: a.f400()!=\"B.f400\""); return 1; }
if (a.f401() != "B.f401") { Console.WriteLine("FAILED: a.f401()!=\"B.f401\""); return 1; }
if (a.f402() != "B.f402") { Console.WriteLine("FAILED: a.f402()!=\"B.f402\""); return 1; }
if (a.f403() != "B.f403") { Console.WriteLine("FAILED: a.f403()!=\"B.f403\""); return 1; }
if (a.f404() != "B.f404") { Console.WriteLine("FAILED: a.f404()!=\"B.f404\""); return 1; }
if (a.f405() != "B.f405") { Console.WriteLine("FAILED: a.f405()!=\"B.f405\""); return 1; }
if (a.f406() != "B.f406") { Console.WriteLine("FAILED: a.f406()!=\"B.f406\""); return 1; }
if (a.f407() != "B.f407") { Console.WriteLine("FAILED: a.f407()!=\"B.f407\""); return 1; }
if (a.f408() != "B.f408") { Console.WriteLine("FAILED: a.f408()!=\"B.f408\""); return 1; }
if (a.f409() != "B.f409") { Console.WriteLine("FAILED: a.f409()!=\"B.f409\""); return 1; }
if (a.f410() != "B.f410") { Console.WriteLine("FAILED: a.f410()!=\"B.f410\""); return 1; }
if (a.f411() != "B.f411") { Console.WriteLine("FAILED: a.f411()!=\"B.f411\""); return 1; }
if (a.f412() != "B.f412") { Console.WriteLine("FAILED: a.f412()!=\"B.f412\""); return 1; }
if (a.f413() != "B.f413") { Console.WriteLine("FAILED: a.f413()!=\"B.f413\""); return 1; }
if (a.f414() != "B.f414") { Console.WriteLine("FAILED: a.f414()!=\"B.f414\""); return 1; }
if (a.f415() != "B.f415") { Console.WriteLine("FAILED: a.f415()!=\"B.f415\""); return 1; }
if (a.f416() != "B.f416") { Console.WriteLine("FAILED: a.f416()!=\"B.f416\""); return 1; }
if (a.f417() != "B.f417") { Console.WriteLine("FAILED: a.f417()!=\"B.f417\""); return 1; }
if (a.f418() != "B.f418") { Console.WriteLine("FAILED: a.f418()!=\"B.f418\""); return 1; }
if (a.f419() != "B.f419") { Console.WriteLine("FAILED: a.f419()!=\"B.f419\""); return 1; }
if (a.f420() != "B.f420") { Console.WriteLine("FAILED: a.f420()!=\"B.f420\""); return 1; }
if (a.f421() != "B.f421") { Console.WriteLine("FAILED: a.f421()!=\"B.f421\""); return 1; }
if (a.f422() != "B.f422") { Console.WriteLine("FAILED: a.f422()!=\"B.f422\""); return 1; }
if (a.f423() != "B.f423") { Console.WriteLine("FAILED: a.f423()!=\"B.f423\""); return 1; }
if (a.f424() != "B.f424") { Console.WriteLine("FAILED: a.f424()!=\"B.f424\""); return 1; }
if (a.f425() != "B.f425") { Console.WriteLine("FAILED: a.f425()!=\"B.f425\""); return 1; }
if (a.f426() != "B.f426") { Console.WriteLine("FAILED: a.f426()!=\"B.f426\""); return 1; }
if (a.f427() != "B.f427") { Console.WriteLine("FAILED: a.f427()!=\"B.f427\""); return 1; }
if (a.f428() != "B.f428") { Console.WriteLine("FAILED: a.f428()!=\"B.f428\""); return 1; }
if (a.f429() != "B.f429") { Console.WriteLine("FAILED: a.f429()!=\"B.f429\""); return 1; }
if (a.f430() != "B.f430") { Console.WriteLine("FAILED: a.f430()!=\"B.f430\""); return 1; }
if (a.f431() != "B.f431") { Console.WriteLine("FAILED: a.f431()!=\"B.f431\""); return 1; }
if (a.f432() != "B.f432") { Console.WriteLine("FAILED: a.f432()!=\"B.f432\""); return 1; }
if (a.f433() != "B.f433") { Console.WriteLine("FAILED: a.f433()!=\"B.f433\""); return 1; }
if (a.f434() != "B.f434") { Console.WriteLine("FAILED: a.f434()!=\"B.f434\""); return 1; }
if (a.f435() != "B.f435") { Console.WriteLine("FAILED: a.f435()!=\"B.f435\""); return 1; }
if (a.f436() != "B.f436") { Console.WriteLine("FAILED: a.f436()!=\"B.f436\""); return 1; }
if (a.f437() != "B.f437") { Console.WriteLine("FAILED: a.f437()!=\"B.f437\""); return 1; }
if (a.f438() != "B.f438") { Console.WriteLine("FAILED: a.f438()!=\"B.f438\""); return 1; }
if (a.f439() != "B.f439") { Console.WriteLine("FAILED: a.f439()!=\"B.f439\""); return 1; }
if (a.f440() != "B.f440") { Console.WriteLine("FAILED: a.f440()!=\"B.f440\""); return 1; }
if (a.f441() != "B.f441") { Console.WriteLine("FAILED: a.f441()!=\"B.f441\""); return 1; }
if (a.f442() != "B.f442") { Console.WriteLine("FAILED: a.f442()!=\"B.f442\""); return 1; }
if (a.f443() != "B.f443") { Console.WriteLine("FAILED: a.f443()!=\"B.f443\""); return 1; }
if (a.f444() != "B.f444") { Console.WriteLine("FAILED: a.f444()!=\"B.f444\""); return 1; }
if (a.f445() != "B.f445") { Console.WriteLine("FAILED: a.f445()!=\"B.f445\""); return 1; }
if (a.f446() != "B.f446") { Console.WriteLine("FAILED: a.f446()!=\"B.f446\""); return 1; }
if (a.f447() != "B.f447") { Console.WriteLine("FAILED: a.f447()!=\"B.f447\""); return 1; }
if (a.f448() != "B.f448") { Console.WriteLine("FAILED: a.f448()!=\"B.f448\""); return 1; }
if (a.f449() != "B.f449") { Console.WriteLine("FAILED: a.f449()!=\"B.f449\""); return 1; }
if (a.f450() != "B.f450") { Console.WriteLine("FAILED: a.f450()!=\"B.f450\""); return 1; }
if (a.f451() != "B.f451") { Console.WriteLine("FAILED: a.f451()!=\"B.f451\""); return 1; }
if (a.f452() != "B.f452") { Console.WriteLine("FAILED: a.f452()!=\"B.f452\""); return 1; }
if (a.f453() != "B.f453") { Console.WriteLine("FAILED: a.f453()!=\"B.f453\""); return 1; }
if (a.f454() != "B.f454") { Console.WriteLine("FAILED: a.f454()!=\"B.f454\""); return 1; }
if (a.f455() != "B.f455") { Console.WriteLine("FAILED: a.f455()!=\"B.f455\""); return 1; }
if (a.f456() != "B.f456") { Console.WriteLine("FAILED: a.f456()!=\"B.f456\""); return 1; }
if (a.f457() != "B.f457") { Console.WriteLine("FAILED: a.f457()!=\"B.f457\""); return 1; }
if (a.f458() != "B.f458") { Console.WriteLine("FAILED: a.f458()!=\"B.f458\""); return 1; }
if (a.f459() != "B.f459") { Console.WriteLine("FAILED: a.f459()!=\"B.f459\""); return 1; }
if (a.f460() != "B.f460") { Console.WriteLine("FAILED: a.f460()!=\"B.f460\""); return 1; }
if (a.f461() != "B.f461") { Console.WriteLine("FAILED: a.f461()!=\"B.f461\""); return 1; }
if (a.f462() != "B.f462") { Console.WriteLine("FAILED: a.f462()!=\"B.f462\""); return 1; }
if (a.f463() != "B.f463") { Console.WriteLine("FAILED: a.f463()!=\"B.f463\""); return 1; }
if (a.f464() != "B.f464") { Console.WriteLine("FAILED: a.f464()!=\"B.f464\""); return 1; }
if (a.f465() != "B.f465") { Console.WriteLine("FAILED: a.f465()!=\"B.f465\""); return 1; }
if (a.f466() != "B.f466") { Console.WriteLine("FAILED: a.f466()!=\"B.f466\""); return 1; }
if (a.f467() != "B.f467") { Console.WriteLine("FAILED: a.f467()!=\"B.f467\""); return 1; }
if (a.f468() != "B.f468") { Console.WriteLine("FAILED: a.f468()!=\"B.f468\""); return 1; }
if (a.f469() != "B.f469") { Console.WriteLine("FAILED: a.f469()!=\"B.f469\""); return 1; }
if (a.f470() != "B.f470") { Console.WriteLine("FAILED: a.f470()!=\"B.f470\""); return 1; }
if (a.f471() != "B.f471") { Console.WriteLine("FAILED: a.f471()!=\"B.f471\""); return 1; }
if (a.f472() != "B.f472") { Console.WriteLine("FAILED: a.f472()!=\"B.f472\""); return 1; }
if (a.f473() != "B.f473") { Console.WriteLine("FAILED: a.f473()!=\"B.f473\""); return 1; }
if (a.f474() != "B.f474") { Console.WriteLine("FAILED: a.f474()!=\"B.f474\""); return 1; }
if (a.f475() != "B.f475") { Console.WriteLine("FAILED: a.f475()!=\"B.f475\""); return 1; }
if (a.f476() != "B.f476") { Console.WriteLine("FAILED: a.f476()!=\"B.f476\""); return 1; }
if (a.f477() != "B.f477") { Console.WriteLine("FAILED: a.f477()!=\"B.f477\""); return 1; }
if (a.f478() != "B.f478") { Console.WriteLine("FAILED: a.f478()!=\"B.f478\""); return 1; }
if (a.f479() != "B.f479") { Console.WriteLine("FAILED: a.f479()!=\"B.f479\""); return 1; }
if (a.f480() != "B.f480") { Console.WriteLine("FAILED: a.f480()!=\"B.f480\""); return 1; }
if (a.f481() != "B.f481") { Console.WriteLine("FAILED: a.f481()!=\"B.f481\""); return 1; }
if (a.f482() != "B.f482") { Console.WriteLine("FAILED: a.f482()!=\"B.f482\""); return 1; }
if (a.f483() != "B.f483") { Console.WriteLine("FAILED: a.f483()!=\"B.f483\""); return 1; }
if (a.f484() != "B.f484") { Console.WriteLine("FAILED: a.f484()!=\"B.f484\""); return 1; }
if (a.f485() != "B.f485") { Console.WriteLine("FAILED: a.f485()!=\"B.f485\""); return 1; }
if (a.f486() != "B.f486") { Console.WriteLine("FAILED: a.f486()!=\"B.f486\""); return 1; }
if (a.f487() != "B.f487") { Console.WriteLine("FAILED: a.f487()!=\"B.f487\""); return 1; }
if (a.f488() != "B.f488") { Console.WriteLine("FAILED: a.f488()!=\"B.f488\""); return 1; }
if (a.f489() != "B.f489") { Console.WriteLine("FAILED: a.f489()!=\"B.f489\""); return 1; }
if (a.f490() != "B.f490") { Console.WriteLine("FAILED: a.f490()!=\"B.f490\""); return 1; }
if (a.f491() != "B.f491") { Console.WriteLine("FAILED: a.f491()!=\"B.f491\""); return 1; }
if (a.f492() != "B.f492") { Console.WriteLine("FAILED: a.f492()!=\"B.f492\""); return 1; }
if (a.f493() != "B.f493") { Console.WriteLine("FAILED: a.f493()!=\"B.f493\""); return 1; }
if (a.f494() != "B.f494") { Console.WriteLine("FAILED: a.f494()!=\"B.f494\""); return 1; }
if (a.f495() != "B.f495") { Console.WriteLine("FAILED: a.f495()!=\"B.f495\""); return 1; }
if (a.f496() != "B.f496") { Console.WriteLine("FAILED: a.f496()!=\"B.f496\""); return 1; }
if (a.f497() != "B.f497") { Console.WriteLine("FAILED: a.f497()!=\"B.f497\""); return 1; }
if (a.f498() != "B.f498") { Console.WriteLine("FAILED: a.f498()!=\"B.f498\""); return 1; }
if (a.f499() != "B.f499") { Console.WriteLine("FAILED: a.f499()!=\"B.f499\""); return 1; }
if (a.f500() != "B.f500") { Console.WriteLine("FAILED: a.f500()!=\"B.f500\""); return 1; }
if (a.f501() != "B.f501") { Console.WriteLine("FAILED: a.f501()!=\"B.f501\""); return 1; }
if (a.f502() != "B.f502") { Console.WriteLine("FAILED: a.f502()!=\"B.f502\""); return 1; }
if (a.f503() != "B.f503") { Console.WriteLine("FAILED: a.f503()!=\"B.f503\""); return 1; }
if (a.f504() != "B.f504") { Console.WriteLine("FAILED: a.f504()!=\"B.f504\""); return 1; }
if (a.f505() != "B.f505") { Console.WriteLine("FAILED: a.f505()!=\"B.f505\""); return 1; }
if (a.f506() != "B.f506") { Console.WriteLine("FAILED: a.f506()!=\"B.f506\""); return 1; }
if (a.f507() != "B.f507") { Console.WriteLine("FAILED: a.f507()!=\"B.f507\""); return 1; }
if (a.f508() != "B.f508") { Console.WriteLine("FAILED: a.f508()!=\"B.f508\""); return 1; }
if (a.f509() != "B.f509") { Console.WriteLine("FAILED: a.f509()!=\"B.f509\""); return 1; }
if (a.f510() != "B.f510") { Console.WriteLine("FAILED: a.f510()!=\"B.f510\""); return 1; }
if (a.f511() != "B.f511") { Console.WriteLine("FAILED: a.f511()!=\"B.f511\""); return 1; }
if (a.f512() != "B.f512") { Console.WriteLine("FAILED: a.f512()!=\"B.f512\""); return 1; }
if (a.f513() != "B.f513") { Console.WriteLine("FAILED: a.f513()!=\"B.f513\""); return 1; }
if (a.f514() != "B.f514") { Console.WriteLine("FAILED: a.f514()!=\"B.f514\""); return 1; }
if (a.f515() != "B.f515") { Console.WriteLine("FAILED: a.f515()!=\"B.f515\""); return 1; }
if (a.f516() != "B.f516") { Console.WriteLine("FAILED: a.f516()!=\"B.f516\""); return 1; }
if (a.f517() != "B.f517") { Console.WriteLine("FAILED: a.f517()!=\"B.f517\""); return 1; }
if (a.f518() != "B.f518") { Console.WriteLine("FAILED: a.f518()!=\"B.f518\""); return 1; }
if (a.f519() != "B.f519") { Console.WriteLine("FAILED: a.f519()!=\"B.f519\""); return 1; }
if (a.f520() != "B.f520") { Console.WriteLine("FAILED: a.f520()!=\"B.f520\""); return 1; }
if (a.f521() != "B.f521") { Console.WriteLine("FAILED: a.f521()!=\"B.f521\""); return 1; }
if (a.f522() != "B.f522") { Console.WriteLine("FAILED: a.f522()!=\"B.f522\""); return 1; }
if (a.f523() != "B.f523") { Console.WriteLine("FAILED: a.f523()!=\"B.f523\""); return 1; }
if (a.f524() != "B.f524") { Console.WriteLine("FAILED: a.f524()!=\"B.f524\""); return 1; }
if (a.f525() != "B.f525") { Console.WriteLine("FAILED: a.f525()!=\"B.f525\""); return 1; }
if (a.f526() != "B.f526") { Console.WriteLine("FAILED: a.f526()!=\"B.f526\""); return 1; }
if (a.f527() != "B.f527") { Console.WriteLine("FAILED: a.f527()!=\"B.f527\""); return 1; }
if (a.f528() != "B.f528") { Console.WriteLine("FAILED: a.f528()!=\"B.f528\""); return 1; }
if (a.f529() != "B.f529") { Console.WriteLine("FAILED: a.f529()!=\"B.f529\""); return 1; }
if (a.f530() != "B.f530") { Console.WriteLine("FAILED: a.f530()!=\"B.f530\""); return 1; }
if (a.f531() != "B.f531") { Console.WriteLine("FAILED: a.f531()!=\"B.f531\""); return 1; }
if (a.f532() != "B.f532") { Console.WriteLine("FAILED: a.f532()!=\"B.f532\""); return 1; }
if (a.f533() != "B.f533") { Console.WriteLine("FAILED: a.f533()!=\"B.f533\""); return 1; }
if (a.f534() != "B.f534") { Console.WriteLine("FAILED: a.f534()!=\"B.f534\""); return 1; }
if (a.f535() != "B.f535") { Console.WriteLine("FAILED: a.f535()!=\"B.f535\""); return 1; }
if (a.f536() != "B.f536") { Console.WriteLine("FAILED: a.f536()!=\"B.f536\""); return 1; }
if (a.f537() != "B.f537") { Console.WriteLine("FAILED: a.f537()!=\"B.f537\""); return 1; }
if (a.f538() != "B.f538") { Console.WriteLine("FAILED: a.f538()!=\"B.f538\""); return 1; }
if (a.f539() != "B.f539") { Console.WriteLine("FAILED: a.f539()!=\"B.f539\""); return 1; }
if (a.f540() != "B.f540") { Console.WriteLine("FAILED: a.f540()!=\"B.f540\""); return 1; }
if (a.f541() != "B.f541") { Console.WriteLine("FAILED: a.f541()!=\"B.f541\""); return 1; }
if (a.f542() != "B.f542") { Console.WriteLine("FAILED: a.f542()!=\"B.f542\""); return 1; }
if (a.f543() != "B.f543") { Console.WriteLine("FAILED: a.f543()!=\"B.f543\""); return 1; }
if (a.f544() != "B.f544") { Console.WriteLine("FAILED: a.f544()!=\"B.f544\""); return 1; }
if (a.f545() != "B.f545") { Console.WriteLine("FAILED: a.f545()!=\"B.f545\""); return 1; }
if (a.f546() != "B.f546") { Console.WriteLine("FAILED: a.f546()!=\"B.f546\""); return 1; }
if (a.f547() != "B.f547") { Console.WriteLine("FAILED: a.f547()!=\"B.f547\""); return 1; }
if (a.f548() != "B.f548") { Console.WriteLine("FAILED: a.f548()!=\"B.f548\""); return 1; }
if (a.f549() != "B.f549") { Console.WriteLine("FAILED: a.f549()!=\"B.f549\""); return 1; }
if (a.f550() != "B.f550") { Console.WriteLine("FAILED: a.f550()!=\"B.f550\""); return 1; }
if (a.f551() != "B.f551") { Console.WriteLine("FAILED: a.f551()!=\"B.f551\""); return 1; }
if (a.f552() != "B.f552") { Console.WriteLine("FAILED: a.f552()!=\"B.f552\""); return 1; }
if (a.f553() != "B.f553") { Console.WriteLine("FAILED: a.f553()!=\"B.f553\""); return 1; }
if (a.f554() != "B.f554") { Console.WriteLine("FAILED: a.f554()!=\"B.f554\""); return 1; }
if (a.f555() != "B.f555") { Console.WriteLine("FAILED: a.f555()!=\"B.f555\""); return 1; }
if (a.f556() != "B.f556") { Console.WriteLine("FAILED: a.f556()!=\"B.f556\""); return 1; }
if (a.f557() != "B.f557") { Console.WriteLine("FAILED: a.f557()!=\"B.f557\""); return 1; }
if (a.f558() != "B.f558") { Console.WriteLine("FAILED: a.f558()!=\"B.f558\""); return 1; }
if (a.f559() != "B.f559") { Console.WriteLine("FAILED: a.f559()!=\"B.f559\""); return 1; }
if (a.f560() != "B.f560") { Console.WriteLine("FAILED: a.f560()!=\"B.f560\""); return 1; }
if (a.f561() != "B.f561") { Console.WriteLine("FAILED: a.f561()!=\"B.f561\""); return 1; }
if (a.f562() != "B.f562") { Console.WriteLine("FAILED: a.f562()!=\"B.f562\""); return 1; }
if (a.f563() != "B.f563") { Console.WriteLine("FAILED: a.f563()!=\"B.f563\""); return 1; }
if (a.f564() != "B.f564") { Console.WriteLine("FAILED: a.f564()!=\"B.f564\""); return 1; }
if (a.f565() != "B.f565") { Console.WriteLine("FAILED: a.f565()!=\"B.f565\""); return 1; }
if (a.f566() != "B.f566") { Console.WriteLine("FAILED: a.f566()!=\"B.f566\""); return 1; }
if (a.f567() != "B.f567") { Console.WriteLine("FAILED: a.f567()!=\"B.f567\""); return 1; }
if (a.f568() != "B.f568") { Console.WriteLine("FAILED: a.f568()!=\"B.f568\""); return 1; }
if (a.f569() != "B.f569") { Console.WriteLine("FAILED: a.f569()!=\"B.f569\""); return 1; }
if (a.f570() != "B.f570") { Console.WriteLine("FAILED: a.f570()!=\"B.f570\""); return 1; }
if (a.f571() != "B.f571") { Console.WriteLine("FAILED: a.f571()!=\"B.f571\""); return 1; }
if (a.f572() != "B.f572") { Console.WriteLine("FAILED: a.f572()!=\"B.f572\""); return 1; }
if (a.f573() != "B.f573") { Console.WriteLine("FAILED: a.f573()!=\"B.f573\""); return 1; }
if (a.f574() != "B.f574") { Console.WriteLine("FAILED: a.f574()!=\"B.f574\""); return 1; }
if (a.f575() != "B.f575") { Console.WriteLine("FAILED: a.f575()!=\"B.f575\""); return 1; }
if (a.f576() != "B.f576") { Console.WriteLine("FAILED: a.f576()!=\"B.f576\""); return 1; }
if (a.f577() != "B.f577") { Console.WriteLine("FAILED: a.f577()!=\"B.f577\""); return 1; }
if (a.f578() != "B.f578") { Console.WriteLine("FAILED: a.f578()!=\"B.f578\""); return 1; }
if (a.f579() != "B.f579") { Console.WriteLine("FAILED: a.f579()!=\"B.f579\""); return 1; }
if (a.f580() != "B.f580") { Console.WriteLine("FAILED: a.f580()!=\"B.f580\""); return 1; }
if (a.f581() != "B.f581") { Console.WriteLine("FAILED: a.f581()!=\"B.f581\""); return 1; }
if (a.f582() != "B.f582") { Console.WriteLine("FAILED: a.f582()!=\"B.f582\""); return 1; }
if (a.f583() != "B.f583") { Console.WriteLine("FAILED: a.f583()!=\"B.f583\""); return 1; }
if (a.f584() != "B.f584") { Console.WriteLine("FAILED: a.f584()!=\"B.f584\""); return 1; }
if (a.f585() != "B.f585") { Console.WriteLine("FAILED: a.f585()!=\"B.f585\""); return 1; }
if (a.f586() != "B.f586") { Console.WriteLine("FAILED: a.f586()!=\"B.f586\""); return 1; }
if (a.f587() != "B.f587") { Console.WriteLine("FAILED: a.f587()!=\"B.f587\""); return 1; }
if (a.f588() != "B.f588") { Console.WriteLine("FAILED: a.f588()!=\"B.f588\""); return 1; }
if (a.f589() != "B.f589") { Console.WriteLine("FAILED: a.f589()!=\"B.f589\""); return 1; }
if (a.f590() != "B.f590") { Console.WriteLine("FAILED: a.f590()!=\"B.f590\""); return 1; }
if (a.f591() != "B.f591") { Console.WriteLine("FAILED: a.f591()!=\"B.f591\""); return 1; }
if (a.f592() != "B.f592") { Console.WriteLine("FAILED: a.f592()!=\"B.f592\""); return 1; }
if (a.f593() != "B.f593") { Console.WriteLine("FAILED: a.f593()!=\"B.f593\""); return 1; }
if (a.f594() != "B.f594") { Console.WriteLine("FAILED: a.f594()!=\"B.f594\""); return 1; }
if (a.f595() != "B.f595") { Console.WriteLine("FAILED: a.f595()!=\"B.f595\""); return 1; }
if (a.f596() != "B.f596") { Console.WriteLine("FAILED: a.f596()!=\"B.f596\""); return 1; }
if (a.f597() != "B.f597") { Console.WriteLine("FAILED: a.f597()!=\"B.f597\""); return 1; }
if (a.f598() != "B.f598") { Console.WriteLine("FAILED: a.f598()!=\"B.f598\""); return 1; }
if (a.f599() != "B.f599") { Console.WriteLine("FAILED: a.f599()!=\"B.f599\""); return 1; }
if (a.f600() != "B.f600") { Console.WriteLine("FAILED: a.f600()!=\"B.f600\""); return 1; }
if (a.f601() != "B.f601") { Console.WriteLine("FAILED: a.f601()!=\"B.f601\""); return 1; }
if (a.f602() != "B.f602") { Console.WriteLine("FAILED: a.f602()!=\"B.f602\""); return 1; }
if (a.f603() != "B.f603") { Console.WriteLine("FAILED: a.f603()!=\"B.f603\""); return 1; }
if (a.f604() != "B.f604") { Console.WriteLine("FAILED: a.f604()!=\"B.f604\""); return 1; }
if (a.f605() != "B.f605") { Console.WriteLine("FAILED: a.f605()!=\"B.f605\""); return 1; }
if (a.f606() != "B.f606") { Console.WriteLine("FAILED: a.f606()!=\"B.f606\""); return 1; }
if (a.f607() != "B.f607") { Console.WriteLine("FAILED: a.f607()!=\"B.f607\""); return 1; }
if (a.f608() != "B.f608") { Console.WriteLine("FAILED: a.f608()!=\"B.f608\""); return 1; }
if (a.f609() != "B.f609") { Console.WriteLine("FAILED: a.f609()!=\"B.f609\""); return 1; }
if (a.f610() != "B.f610") { Console.WriteLine("FAILED: a.f610()!=\"B.f610\""); return 1; }
if (a.f611() != "B.f611") { Console.WriteLine("FAILED: a.f611()!=\"B.f611\""); return 1; }
if (a.f612() != "B.f612") { Console.WriteLine("FAILED: a.f612()!=\"B.f612\""); return 1; }
if (a.f613() != "B.f613") { Console.WriteLine("FAILED: a.f613()!=\"B.f613\""); return 1; }
if (a.f614() != "B.f614") { Console.WriteLine("FAILED: a.f614()!=\"B.f614\""); return 1; }
if (a.f615() != "B.f615") { Console.WriteLine("FAILED: a.f615()!=\"B.f615\""); return 1; }
if (a.f616() != "B.f616") { Console.WriteLine("FAILED: a.f616()!=\"B.f616\""); return 1; }
if (a.f617() != "B.f617") { Console.WriteLine("FAILED: a.f617()!=\"B.f617\""); return 1; }
if (a.f618() != "B.f618") { Console.WriteLine("FAILED: a.f618()!=\"B.f618\""); return 1; }
if (a.f619() != "B.f619") { Console.WriteLine("FAILED: a.f619()!=\"B.f619\""); return 1; }
if (a.f620() != "B.f620") { Console.WriteLine("FAILED: a.f620()!=\"B.f620\""); return 1; }
if (a.f621() != "B.f621") { Console.WriteLine("FAILED: a.f621()!=\"B.f621\""); return 1; }
if (a.f622() != "B.f622") { Console.WriteLine("FAILED: a.f622()!=\"B.f622\""); return 1; }
if (a.f623() != "B.f623") { Console.WriteLine("FAILED: a.f623()!=\"B.f623\""); return 1; }
if (a.f624() != "B.f624") { Console.WriteLine("FAILED: a.f624()!=\"B.f624\""); return 1; }
if (a.f625() != "B.f625") { Console.WriteLine("FAILED: a.f625()!=\"B.f625\""); return 1; }
if (a.f626() != "B.f626") { Console.WriteLine("FAILED: a.f626()!=\"B.f626\""); return 1; }
if (a.f627() != "B.f627") { Console.WriteLine("FAILED: a.f627()!=\"B.f627\""); return 1; }
if (a.f628() != "B.f628") { Console.WriteLine("FAILED: a.f628()!=\"B.f628\""); return 1; }
if (a.f629() != "B.f629") { Console.WriteLine("FAILED: a.f629()!=\"B.f629\""); return 1; }
if (a.f630() != "B.f630") { Console.WriteLine("FAILED: a.f630()!=\"B.f630\""); return 1; }
if (a.f631() != "B.f631") { Console.WriteLine("FAILED: a.f631()!=\"B.f631\""); return 1; }
if (a.f632() != "B.f632") { Console.WriteLine("FAILED: a.f632()!=\"B.f632\""); return 1; }
if (a.f633() != "B.f633") { Console.WriteLine("FAILED: a.f633()!=\"B.f633\""); return 1; }
if (a.f634() != "B.f634") { Console.WriteLine("FAILED: a.f634()!=\"B.f634\""); return 1; }
if (a.f635() != "B.f635") { Console.WriteLine("FAILED: a.f635()!=\"B.f635\""); return 1; }
if (a.f636() != "B.f636") { Console.WriteLine("FAILED: a.f636()!=\"B.f636\""); return 1; }
if (a.f637() != "B.f637") { Console.WriteLine("FAILED: a.f637()!=\"B.f637\""); return 1; }
if (a.f638() != "B.f638") { Console.WriteLine("FAILED: a.f638()!=\"B.f638\""); return 1; }
if (a.f639() != "B.f639") { Console.WriteLine("FAILED: a.f639()!=\"B.f639\""); return 1; }
if (a.f640() != "B.f640") { Console.WriteLine("FAILED: a.f640()!=\"B.f640\""); return 1; }
if (a.f641() != "B.f641") { Console.WriteLine("FAILED: a.f641()!=\"B.f641\""); return 1; }
if (a.f642() != "B.f642") { Console.WriteLine("FAILED: a.f642()!=\"B.f642\""); return 1; }
if (a.f643() != "B.f643") { Console.WriteLine("FAILED: a.f643()!=\"B.f643\""); return 1; }
if (a.f644() != "B.f644") { Console.WriteLine("FAILED: a.f644()!=\"B.f644\""); return 1; }
if (a.f645() != "B.f645") { Console.WriteLine("FAILED: a.f645()!=\"B.f645\""); return 1; }
if (a.f646() != "B.f646") { Console.WriteLine("FAILED: a.f646()!=\"B.f646\""); return 1; }
if (a.f647() != "B.f647") { Console.WriteLine("FAILED: a.f647()!=\"B.f647\""); return 1; }
if (a.f648() != "B.f648") { Console.WriteLine("FAILED: a.f648()!=\"B.f648\""); return 1; }
if (a.f649() != "B.f649") { Console.WriteLine("FAILED: a.f649()!=\"B.f649\""); return 1; }
if (a.f650() != "B.f650") { Console.WriteLine("FAILED: a.f650()!=\"B.f650\""); return 1; }
if (a.f651() != "B.f651") { Console.WriteLine("FAILED: a.f651()!=\"B.f651\""); return 1; }
if (a.f652() != "B.f652") { Console.WriteLine("FAILED: a.f652()!=\"B.f652\""); return 1; }
if (a.f653() != "B.f653") { Console.WriteLine("FAILED: a.f653()!=\"B.f653\""); return 1; }
if (a.f654() != "B.f654") { Console.WriteLine("FAILED: a.f654()!=\"B.f654\""); return 1; }
if (a.f655() != "B.f655") { Console.WriteLine("FAILED: a.f655()!=\"B.f655\""); return 1; }
if (a.f656() != "B.f656") { Console.WriteLine("FAILED: a.f656()!=\"B.f656\""); return 1; }
if (a.f657() != "B.f657") { Console.WriteLine("FAILED: a.f657()!=\"B.f657\""); return 1; }
if (a.f658() != "B.f658") { Console.WriteLine("FAILED: a.f658()!=\"B.f658\""); return 1; }
if (a.f659() != "B.f659") { Console.WriteLine("FAILED: a.f659()!=\"B.f659\""); return 1; }
if (a.f660() != "B.f660") { Console.WriteLine("FAILED: a.f660()!=\"B.f660\""); return 1; }
if (a.f661() != "B.f661") { Console.WriteLine("FAILED: a.f661()!=\"B.f661\""); return 1; }
if (a.f662() != "B.f662") { Console.WriteLine("FAILED: a.f662()!=\"B.f662\""); return 1; }
if (a.f663() != "B.f663") { Console.WriteLine("FAILED: a.f663()!=\"B.f663\""); return 1; }
if (a.f664() != "B.f664") { Console.WriteLine("FAILED: a.f664()!=\"B.f664\""); return 1; }
if (a.f665() != "B.f665") { Console.WriteLine("FAILED: a.f665()!=\"B.f665\""); return 1; }
if (a.f666() != "B.f666") { Console.WriteLine("FAILED: a.f666()!=\"B.f666\""); return 1; }
if (a.f667() != "B.f667") { Console.WriteLine("FAILED: a.f667()!=\"B.f667\""); return 1; }
if (a.f668() != "B.f668") { Console.WriteLine("FAILED: a.f668()!=\"B.f668\""); return 1; }
if (a.f669() != "B.f669") { Console.WriteLine("FAILED: a.f669()!=\"B.f669\""); return 1; }
if (a.f670() != "B.f670") { Console.WriteLine("FAILED: a.f670()!=\"B.f670\""); return 1; }
if (a.f671() != "B.f671") { Console.WriteLine("FAILED: a.f671()!=\"B.f671\""); return 1; }
if (a.f672() != "B.f672") { Console.WriteLine("FAILED: a.f672()!=\"B.f672\""); return 1; }
if (a.f673() != "B.f673") { Console.WriteLine("FAILED: a.f673()!=\"B.f673\""); return 1; }
if (a.f674() != "B.f674") { Console.WriteLine("FAILED: a.f674()!=\"B.f674\""); return 1; }
if (a.f675() != "B.f675") { Console.WriteLine("FAILED: a.f675()!=\"B.f675\""); return 1; }
if (a.f676() != "B.f676") { Console.WriteLine("FAILED: a.f676()!=\"B.f676\""); return 1; }
if (a.f677() != "B.f677") { Console.WriteLine("FAILED: a.f677()!=\"B.f677\""); return 1; }
if (a.f678() != "B.f678") { Console.WriteLine("FAILED: a.f678()!=\"B.f678\""); return 1; }
if (a.f679() != "B.f679") { Console.WriteLine("FAILED: a.f679()!=\"B.f679\""); return 1; }
if (a.f680() != "B.f680") { Console.WriteLine("FAILED: a.f680()!=\"B.f680\""); return 1; }
if (a.f681() != "B.f681") { Console.WriteLine("FAILED: a.f681()!=\"B.f681\""); return 1; }
if (a.f682() != "B.f682") { Console.WriteLine("FAILED: a.f682()!=\"B.f682\""); return 1; }
if (a.f683() != "B.f683") { Console.WriteLine("FAILED: a.f683()!=\"B.f683\""); return 1; }
if (a.f684() != "B.f684") { Console.WriteLine("FAILED: a.f684()!=\"B.f684\""); return 1; }
if (a.f685() != "B.f685") { Console.WriteLine("FAILED: a.f685()!=\"B.f685\""); return 1; }
if (a.f686() != "B.f686") { Console.WriteLine("FAILED: a.f686()!=\"B.f686\""); return 1; }
if (a.f687() != "B.f687") { Console.WriteLine("FAILED: a.f687()!=\"B.f687\""); return 1; }
if (a.f688() != "B.f688") { Console.WriteLine("FAILED: a.f688()!=\"B.f688\""); return 1; }
if (a.f689() != "B.f689") { Console.WriteLine("FAILED: a.f689()!=\"B.f689\""); return 1; }
if (a.f690() != "B.f690") { Console.WriteLine("FAILED: a.f690()!=\"B.f690\""); return 1; }
if (a.f691() != "B.f691") { Console.WriteLine("FAILED: a.f691()!=\"B.f691\""); return 1; }
if (a.f692() != "B.f692") { Console.WriteLine("FAILED: a.f692()!=\"B.f692\""); return 1; }
if (a.f693() != "B.f693") { Console.WriteLine("FAILED: a.f693()!=\"B.f693\""); return 1; }
if (a.f694() != "B.f694") { Console.WriteLine("FAILED: a.f694()!=\"B.f694\""); return 1; }
if (a.f695() != "B.f695") { Console.WriteLine("FAILED: a.f695()!=\"B.f695\""); return 1; }
if (a.f696() != "B.f696") { Console.WriteLine("FAILED: a.f696()!=\"B.f696\""); return 1; }
if (a.f697() != "B.f697") { Console.WriteLine("FAILED: a.f697()!=\"B.f697\""); return 1; }
if (a.f698() != "B.f698") { Console.WriteLine("FAILED: a.f698()!=\"B.f698\""); return 1; }
if (a.f699() != "B.f699") { Console.WriteLine("FAILED: a.f699()!=\"B.f699\""); return 1; }
if (a.f700() != "B.f700") { Console.WriteLine("FAILED: a.f700()!=\"B.f700\""); return 1; }
if (a.f701() != "B.f701") { Console.WriteLine("FAILED: a.f701()!=\"B.f701\""); return 1; }
if (a.f702() != "B.f702") { Console.WriteLine("FAILED: a.f702()!=\"B.f702\""); return 1; }
if (a.f703() != "B.f703") { Console.WriteLine("FAILED: a.f703()!=\"B.f703\""); return 1; }
if (a.f704() != "B.f704") { Console.WriteLine("FAILED: a.f704()!=\"B.f704\""); return 1; }
if (a.f705() != "B.f705") { Console.WriteLine("FAILED: a.f705()!=\"B.f705\""); return 1; }
if (a.f706() != "B.f706") { Console.WriteLine("FAILED: a.f706()!=\"B.f706\""); return 1; }
if (a.f707() != "B.f707") { Console.WriteLine("FAILED: a.f707()!=\"B.f707\""); return 1; }
if (a.f708() != "B.f708") { Console.WriteLine("FAILED: a.f708()!=\"B.f708\""); return 1; }
if (a.f709() != "B.f709") { Console.WriteLine("FAILED: a.f709()!=\"B.f709\""); return 1; }
if (a.f710() != "B.f710") { Console.WriteLine("FAILED: a.f710()!=\"B.f710\""); return 1; }
if (a.f711() != "B.f711") { Console.WriteLine("FAILED: a.f711()!=\"B.f711\""); return 1; }
if (a.f712() != "B.f712") { Console.WriteLine("FAILED: a.f712()!=\"B.f712\""); return 1; }
if (a.f713() != "B.f713") { Console.WriteLine("FAILED: a.f713()!=\"B.f713\""); return 1; }
if (a.f714() != "B.f714") { Console.WriteLine("FAILED: a.f714()!=\"B.f714\""); return 1; }
if (a.f715() != "B.f715") { Console.WriteLine("FAILED: a.f715()!=\"B.f715\""); return 1; }
if (a.f716() != "B.f716") { Console.WriteLine("FAILED: a.f716()!=\"B.f716\""); return 1; }
if (a.f717() != "B.f717") { Console.WriteLine("FAILED: a.f717()!=\"B.f717\""); return 1; }
if (a.f718() != "B.f718") { Console.WriteLine("FAILED: a.f718()!=\"B.f718\""); return 1; }
if (a.f719() != "B.f719") { Console.WriteLine("FAILED: a.f719()!=\"B.f719\""); return 1; }
if (a.f720() != "B.f720") { Console.WriteLine("FAILED: a.f720()!=\"B.f720\""); return 1; }
if (a.f721() != "B.f721") { Console.WriteLine("FAILED: a.f721()!=\"B.f721\""); return 1; }
if (a.f722() != "B.f722") { Console.WriteLine("FAILED: a.f722()!=\"B.f722\""); return 1; }
if (a.f723() != "B.f723") { Console.WriteLine("FAILED: a.f723()!=\"B.f723\""); return 1; }
if (a.f724() != "B.f724") { Console.WriteLine("FAILED: a.f724()!=\"B.f724\""); return 1; }
if (a.f725() != "B.f725") { Console.WriteLine("FAILED: a.f725()!=\"B.f725\""); return 1; }
if (a.f726() != "B.f726") { Console.WriteLine("FAILED: a.f726()!=\"B.f726\""); return 1; }
if (a.f727() != "B.f727") { Console.WriteLine("FAILED: a.f727()!=\"B.f727\""); return 1; }
if (a.f728() != "B.f728") { Console.WriteLine("FAILED: a.f728()!=\"B.f728\""); return 1; }
if (a.f729() != "B.f729") { Console.WriteLine("FAILED: a.f729()!=\"B.f729\""); return 1; }
if (a.f730() != "B.f730") { Console.WriteLine("FAILED: a.f730()!=\"B.f730\""); return 1; }
if (a.f731() != "B.f731") { Console.WriteLine("FAILED: a.f731()!=\"B.f731\""); return 1; }
if (a.f732() != "B.f732") { Console.WriteLine("FAILED: a.f732()!=\"B.f732\""); return 1; }
if (a.f733() != "B.f733") { Console.WriteLine("FAILED: a.f733()!=\"B.f733\""); return 1; }
if (a.f734() != "B.f734") { Console.WriteLine("FAILED: a.f734()!=\"B.f734\""); return 1; }
if (a.f735() != "B.f735") { Console.WriteLine("FAILED: a.f735()!=\"B.f735\""); return 1; }
if (a.f736() != "B.f736") { Console.WriteLine("FAILED: a.f736()!=\"B.f736\""); return 1; }
if (a.f737() != "B.f737") { Console.WriteLine("FAILED: a.f737()!=\"B.f737\""); return 1; }
if (a.f738() != "B.f738") { Console.WriteLine("FAILED: a.f738()!=\"B.f738\""); return 1; }
if (a.f739() != "B.f739") { Console.WriteLine("FAILED: a.f739()!=\"B.f739\""); return 1; }
if (a.f740() != "B.f740") { Console.WriteLine("FAILED: a.f740()!=\"B.f740\""); return 1; }
if (a.f741() != "B.f741") { Console.WriteLine("FAILED: a.f741()!=\"B.f741\""); return 1; }
if (a.f742() != "B.f742") { Console.WriteLine("FAILED: a.f742()!=\"B.f742\""); return 1; }
if (a.f743() != "B.f743") { Console.WriteLine("FAILED: a.f743()!=\"B.f743\""); return 1; }
if (a.f744() != "B.f744") { Console.WriteLine("FAILED: a.f744()!=\"B.f744\""); return 1; }
if (a.f745() != "B.f745") { Console.WriteLine("FAILED: a.f745()!=\"B.f745\""); return 1; }
if (a.f746() != "B.f746") { Console.WriteLine("FAILED: a.f746()!=\"B.f746\""); return 1; }
if (a.f747() != "B.f747") { Console.WriteLine("FAILED: a.f747()!=\"B.f747\""); return 1; }
if (a.f748() != "B.f748") { Console.WriteLine("FAILED: a.f748()!=\"B.f748\""); return 1; }
if (a.f749() != "B.f749") { Console.WriteLine("FAILED: a.f749()!=\"B.f749\""); return 1; }
if (a.f750() != "B.f750") { Console.WriteLine("FAILED: a.f750()!=\"B.f750\""); return 1; }
if (a.f751() != "B.f751") { Console.WriteLine("FAILED: a.f751()!=\"B.f751\""); return 1; }
if (a.f752() != "B.f752") { Console.WriteLine("FAILED: a.f752()!=\"B.f752\""); return 1; }
if (a.f753() != "B.f753") { Console.WriteLine("FAILED: a.f753()!=\"B.f753\""); return 1; }
if (a.f754() != "B.f754") { Console.WriteLine("FAILED: a.f754()!=\"B.f754\""); return 1; }
if (a.f755() != "B.f755") { Console.WriteLine("FAILED: a.f755()!=\"B.f755\""); return 1; }
if (a.f756() != "B.f756") { Console.WriteLine("FAILED: a.f756()!=\"B.f756\""); return 1; }
if (a.f757() != "B.f757") { Console.WriteLine("FAILED: a.f757()!=\"B.f757\""); return 1; }
if (a.f758() != "B.f758") { Console.WriteLine("FAILED: a.f758()!=\"B.f758\""); return 1; }
if (a.f759() != "B.f759") { Console.WriteLine("FAILED: a.f759()!=\"B.f759\""); return 1; }
if (a.f760() != "B.f760") { Console.WriteLine("FAILED: a.f760()!=\"B.f760\""); return 1; }
if (a.f761() != "B.f761") { Console.WriteLine("FAILED: a.f761()!=\"B.f761\""); return 1; }
if (a.f762() != "B.f762") { Console.WriteLine("FAILED: a.f762()!=\"B.f762\""); return 1; }
if (a.f763() != "B.f763") { Console.WriteLine("FAILED: a.f763()!=\"B.f763\""); return 1; }
if (a.f764() != "B.f764") { Console.WriteLine("FAILED: a.f764()!=\"B.f764\""); return 1; }
if (a.f765() != "B.f765") { Console.WriteLine("FAILED: a.f765()!=\"B.f765\""); return 1; }
if (a.f766() != "B.f766") { Console.WriteLine("FAILED: a.f766()!=\"B.f766\""); return 1; }
if (a.f767() != "B.f767") { Console.WriteLine("FAILED: a.f767()!=\"B.f767\""); return 1; }
if (a.f768() != "B.f768") { Console.WriteLine("FAILED: a.f768()!=\"B.f768\""); return 1; }
if (a.f769() != "B.f769") { Console.WriteLine("FAILED: a.f769()!=\"B.f769\""); return 1; }
if (a.f770() != "B.f770") { Console.WriteLine("FAILED: a.f770()!=\"B.f770\""); return 1; }
if (a.f771() != "B.f771") { Console.WriteLine("FAILED: a.f771()!=\"B.f771\""); return 1; }
if (a.f772() != "B.f772") { Console.WriteLine("FAILED: a.f772()!=\"B.f772\""); return 1; }
if (a.f773() != "B.f773") { Console.WriteLine("FAILED: a.f773()!=\"B.f773\""); return 1; }
if (a.f774() != "B.f774") { Console.WriteLine("FAILED: a.f774()!=\"B.f774\""); return 1; }
if (a.f775() != "B.f775") { Console.WriteLine("FAILED: a.f775()!=\"B.f775\""); return 1; }
if (a.f776() != "B.f776") { Console.WriteLine("FAILED: a.f776()!=\"B.f776\""); return 1; }
if (a.f777() != "B.f777") { Console.WriteLine("FAILED: a.f777()!=\"B.f777\""); return 1; }
if (a.f778() != "B.f778") { Console.WriteLine("FAILED: a.f778()!=\"B.f778\""); return 1; }
if (a.f779() != "B.f779") { Console.WriteLine("FAILED: a.f779()!=\"B.f779\""); return 1; }
if (a.f780() != "B.f780") { Console.WriteLine("FAILED: a.f780()!=\"B.f780\""); return 1; }
if (a.f781() != "B.f781") { Console.WriteLine("FAILED: a.f781()!=\"B.f781\""); return 1; }
if (a.f782() != "B.f782") { Console.WriteLine("FAILED: a.f782()!=\"B.f782\""); return 1; }
if (a.f783() != "B.f783") { Console.WriteLine("FAILED: a.f783()!=\"B.f783\""); return 1; }
if (a.f784() != "B.f784") { Console.WriteLine("FAILED: a.f784()!=\"B.f784\""); return 1; }
if (a.f785() != "B.f785") { Console.WriteLine("FAILED: a.f785()!=\"B.f785\""); return 1; }
if (a.f786() != "B.f786") { Console.WriteLine("FAILED: a.f786()!=\"B.f786\""); return 1; }
if (a.f787() != "B.f787") { Console.WriteLine("FAILED: a.f787()!=\"B.f787\""); return 1; }
if (a.f788() != "B.f788") { Console.WriteLine("FAILED: a.f788()!=\"B.f788\""); return 1; }
if (a.f789() != "B.f789") { Console.WriteLine("FAILED: a.f789()!=\"B.f789\""); return 1; }
if (a.f790() != "B.f790") { Console.WriteLine("FAILED: a.f790()!=\"B.f790\""); return 1; }
if (a.f791() != "B.f791") { Console.WriteLine("FAILED: a.f791()!=\"B.f791\""); return 1; }
if (a.f792() != "B.f792") { Console.WriteLine("FAILED: a.f792()!=\"B.f792\""); return 1; }
if (a.f793() != "B.f793") { Console.WriteLine("FAILED: a.f793()!=\"B.f793\""); return 1; }
if (a.f794() != "B.f794") { Console.WriteLine("FAILED: a.f794()!=\"B.f794\""); return 1; }
if (a.f795() != "B.f795") { Console.WriteLine("FAILED: a.f795()!=\"B.f795\""); return 1; }
if (a.f796() != "B.f796") { Console.WriteLine("FAILED: a.f796()!=\"B.f796\""); return 1; }
if (a.f797() != "B.f797") { Console.WriteLine("FAILED: a.f797()!=\"B.f797\""); return 1; }
if (a.f798() != "B.f798") { Console.WriteLine("FAILED: a.f798()!=\"B.f798\""); return 1; }
if (a.f799() != "B.f799") { Console.WriteLine("FAILED: a.f799()!=\"B.f799\""); return 1; }
if (a.f800() != "B.f800") { Console.WriteLine("FAILED: a.f800()!=\"B.f800\""); return 1; }
if (a.f801() != "B.f801") { Console.WriteLine("FAILED: a.f801()!=\"B.f801\""); return 1; }
if (a.f802() != "B.f802") { Console.WriteLine("FAILED: a.f802()!=\"B.f802\""); return 1; }
if (a.f803() != "B.f803") { Console.WriteLine("FAILED: a.f803()!=\"B.f803\""); return 1; }
if (a.f804() != "B.f804") { Console.WriteLine("FAILED: a.f804()!=\"B.f804\""); return 1; }
if (a.f805() != "B.f805") { Console.WriteLine("FAILED: a.f805()!=\"B.f805\""); return 1; }
if (a.f806() != "B.f806") { Console.WriteLine("FAILED: a.f806()!=\"B.f806\""); return 1; }
if (a.f807() != "B.f807") { Console.WriteLine("FAILED: a.f807()!=\"B.f807\""); return 1; }
if (a.f808() != "B.f808") { Console.WriteLine("FAILED: a.f808()!=\"B.f808\""); return 1; }
if (a.f809() != "B.f809") { Console.WriteLine("FAILED: a.f809()!=\"B.f809\""); return 1; }
if (a.f810() != "B.f810") { Console.WriteLine("FAILED: a.f810()!=\"B.f810\""); return 1; }
if (a.f811() != "B.f811") { Console.WriteLine("FAILED: a.f811()!=\"B.f811\""); return 1; }
if (a.f812() != "B.f812") { Console.WriteLine("FAILED: a.f812()!=\"B.f812\""); return 1; }
if (a.f813() != "B.f813") { Console.WriteLine("FAILED: a.f813()!=\"B.f813\""); return 1; }
if (a.f814() != "B.f814") { Console.WriteLine("FAILED: a.f814()!=\"B.f814\""); return 1; }
if (a.f815() != "B.f815") { Console.WriteLine("FAILED: a.f815()!=\"B.f815\""); return 1; }
if (a.f816() != "B.f816") { Console.WriteLine("FAILED: a.f816()!=\"B.f816\""); return 1; }
if (a.f817() != "B.f817") { Console.WriteLine("FAILED: a.f817()!=\"B.f817\""); return 1; }
if (a.f818() != "B.f818") { Console.WriteLine("FAILED: a.f818()!=\"B.f818\""); return 1; }
if (a.f819() != "B.f819") { Console.WriteLine("FAILED: a.f819()!=\"B.f819\""); return 1; }
if (a.f820() != "B.f820") { Console.WriteLine("FAILED: a.f820()!=\"B.f820\""); return 1; }
if (a.f821() != "B.f821") { Console.WriteLine("FAILED: a.f821()!=\"B.f821\""); return 1; }
if (a.f822() != "B.f822") { Console.WriteLine("FAILED: a.f822()!=\"B.f822\""); return 1; }
if (a.f823() != "B.f823") { Console.WriteLine("FAILED: a.f823()!=\"B.f823\""); return 1; }
if (a.f824() != "B.f824") { Console.WriteLine("FAILED: a.f824()!=\"B.f824\""); return 1; }
if (a.f825() != "B.f825") { Console.WriteLine("FAILED: a.f825()!=\"B.f825\""); return 1; }
if (a.f826() != "B.f826") { Console.WriteLine("FAILED: a.f826()!=\"B.f826\""); return 1; }
if (a.f827() != "B.f827") { Console.WriteLine("FAILED: a.f827()!=\"B.f827\""); return 1; }
if (a.f828() != "B.f828") { Console.WriteLine("FAILED: a.f828()!=\"B.f828\""); return 1; }
if (a.f829() != "B.f829") { Console.WriteLine("FAILED: a.f829()!=\"B.f829\""); return 1; }
if (a.f830() != "B.f830") { Console.WriteLine("FAILED: a.f830()!=\"B.f830\""); return 1; }
if (a.f831() != "B.f831") { Console.WriteLine("FAILED: a.f831()!=\"B.f831\""); return 1; }
if (a.f832() != "B.f832") { Console.WriteLine("FAILED: a.f832()!=\"B.f832\""); return 1; }
if (a.f833() != "B.f833") { Console.WriteLine("FAILED: a.f833()!=\"B.f833\""); return 1; }
if (a.f834() != "B.f834") { Console.WriteLine("FAILED: a.f834()!=\"B.f834\""); return 1; }
if (a.f835() != "B.f835") { Console.WriteLine("FAILED: a.f835()!=\"B.f835\""); return 1; }
if (a.f836() != "B.f836") { Console.WriteLine("FAILED: a.f836()!=\"B.f836\""); return 1; }
if (a.f837() != "B.f837") { Console.WriteLine("FAILED: a.f837()!=\"B.f837\""); return 1; }
if (a.f838() != "B.f838") { Console.WriteLine("FAILED: a.f838()!=\"B.f838\""); return 1; }
if (a.f839() != "B.f839") { Console.WriteLine("FAILED: a.f839()!=\"B.f839\""); return 1; }
if (a.f840() != "B.f840") { Console.WriteLine("FAILED: a.f840()!=\"B.f840\""); return 1; }
if (a.f841() != "B.f841") { Console.WriteLine("FAILED: a.f841()!=\"B.f841\""); return 1; }
if (a.f842() != "B.f842") { Console.WriteLine("FAILED: a.f842()!=\"B.f842\""); return 1; }
if (a.f843() != "B.f843") { Console.WriteLine("FAILED: a.f843()!=\"B.f843\""); return 1; }
if (a.f844() != "B.f844") { Console.WriteLine("FAILED: a.f844()!=\"B.f844\""); return 1; }
if (a.f845() != "B.f845") { Console.WriteLine("FAILED: a.f845()!=\"B.f845\""); return 1; }
if (a.f846() != "B.f846") { Console.WriteLine("FAILED: a.f846()!=\"B.f846\""); return 1; }
if (a.f847() != "B.f847") { Console.WriteLine("FAILED: a.f847()!=\"B.f847\""); return 1; }
if (a.f848() != "B.f848") { Console.WriteLine("FAILED: a.f848()!=\"B.f848\""); return 1; }
if (a.f849() != "B.f849") { Console.WriteLine("FAILED: a.f849()!=\"B.f849\""); return 1; }
if (a.f850() != "B.f850") { Console.WriteLine("FAILED: a.f850()!=\"B.f850\""); return 1; }
if (a.f851() != "B.f851") { Console.WriteLine("FAILED: a.f851()!=\"B.f851\""); return 1; }
if (a.f852() != "B.f852") { Console.WriteLine("FAILED: a.f852()!=\"B.f852\""); return 1; }
if (a.f853() != "B.f853") { Console.WriteLine("FAILED: a.f853()!=\"B.f853\""); return 1; }
if (a.f854() != "B.f854") { Console.WriteLine("FAILED: a.f854()!=\"B.f854\""); return 1; }
if (a.f855() != "B.f855") { Console.WriteLine("FAILED: a.f855()!=\"B.f855\""); return 1; }
if (a.f856() != "B.f856") { Console.WriteLine("FAILED: a.f856()!=\"B.f856\""); return 1; }
if (a.f857() != "B.f857") { Console.WriteLine("FAILED: a.f857()!=\"B.f857\""); return 1; }
if (a.f858() != "B.f858") { Console.WriteLine("FAILED: a.f858()!=\"B.f858\""); return 1; }
if (a.f859() != "B.f859") { Console.WriteLine("FAILED: a.f859()!=\"B.f859\""); return 1; }
if (a.f860() != "B.f860") { Console.WriteLine("FAILED: a.f860()!=\"B.f860\""); return 1; }
if (a.f861() != "B.f861") { Console.WriteLine("FAILED: a.f861()!=\"B.f861\""); return 1; }
if (a.f862() != "B.f862") { Console.WriteLine("FAILED: a.f862()!=\"B.f862\""); return 1; }
if (a.f863() != "B.f863") { Console.WriteLine("FAILED: a.f863()!=\"B.f863\""); return 1; }
if (a.f864() != "B.f864") { Console.WriteLine("FAILED: a.f864()!=\"B.f864\""); return 1; }
if (a.f865() != "B.f865") { Console.WriteLine("FAILED: a.f865()!=\"B.f865\""); return 1; }
if (a.f866() != "B.f866") { Console.WriteLine("FAILED: a.f866()!=\"B.f866\""); return 1; }
if (a.f867() != "B.f867") { Console.WriteLine("FAILED: a.f867()!=\"B.f867\""); return 1; }
if (a.f868() != "B.f868") { Console.WriteLine("FAILED: a.f868()!=\"B.f868\""); return 1; }
if (a.f869() != "B.f869") { Console.WriteLine("FAILED: a.f869()!=\"B.f869\""); return 1; }
if (a.f870() != "B.f870") { Console.WriteLine("FAILED: a.f870()!=\"B.f870\""); return 1; }
if (a.f871() != "B.f871") { Console.WriteLine("FAILED: a.f871()!=\"B.f871\""); return 1; }
if (a.f872() != "B.f872") { Console.WriteLine("FAILED: a.f872()!=\"B.f872\""); return 1; }
if (a.f873() != "B.f873") { Console.WriteLine("FAILED: a.f873()!=\"B.f873\""); return 1; }
if (a.f874() != "B.f874") { Console.WriteLine("FAILED: a.f874()!=\"B.f874\""); return 1; }
if (a.f875() != "B.f875") { Console.WriteLine("FAILED: a.f875()!=\"B.f875\""); return 1; }
if (a.f876() != "B.f876") { Console.WriteLine("FAILED: a.f876()!=\"B.f876\""); return 1; }
if (a.f877() != "B.f877") { Console.WriteLine("FAILED: a.f877()!=\"B.f877\""); return 1; }
if (a.f878() != "B.f878") { Console.WriteLine("FAILED: a.f878()!=\"B.f878\""); return 1; }
if (a.f879() != "B.f879") { Console.WriteLine("FAILED: a.f879()!=\"B.f879\""); return 1; }
if (a.f880() != "B.f880") { Console.WriteLine("FAILED: a.f880()!=\"B.f880\""); return 1; }
if (a.f881() != "B.f881") { Console.WriteLine("FAILED: a.f881()!=\"B.f881\""); return 1; }
if (a.f882() != "B.f882") { Console.WriteLine("FAILED: a.f882()!=\"B.f882\""); return 1; }
if (a.f883() != "B.f883") { Console.WriteLine("FAILED: a.f883()!=\"B.f883\""); return 1; }
if (a.f884() != "B.f884") { Console.WriteLine("FAILED: a.f884()!=\"B.f884\""); return 1; }
if (a.f885() != "B.f885") { Console.WriteLine("FAILED: a.f885()!=\"B.f885\""); return 1; }
if (a.f886() != "B.f886") { Console.WriteLine("FAILED: a.f886()!=\"B.f886\""); return 1; }
if (a.f887() != "B.f887") { Console.WriteLine("FAILED: a.f887()!=\"B.f887\""); return 1; }
if (a.f888() != "B.f888") { Console.WriteLine("FAILED: a.f888()!=\"B.f888\""); return 1; }
if (a.f889() != "B.f889") { Console.WriteLine("FAILED: a.f889()!=\"B.f889\""); return 1; }
if (a.f890() != "B.f890") { Console.WriteLine("FAILED: a.f890()!=\"B.f890\""); return 1; }
if (a.f891() != "B.f891") { Console.WriteLine("FAILED: a.f891()!=\"B.f891\""); return 1; }
if (a.f892() != "B.f892") { Console.WriteLine("FAILED: a.f892()!=\"B.f892\""); return 1; }
if (a.f893() != "B.f893") { Console.WriteLine("FAILED: a.f893()!=\"B.f893\""); return 1; }
if (a.f894() != "B.f894") { Console.WriteLine("FAILED: a.f894()!=\"B.f894\""); return 1; }
if (a.f895() != "B.f895") { Console.WriteLine("FAILED: a.f895()!=\"B.f895\""); return 1; }
if (a.f896() != "B.f896") { Console.WriteLine("FAILED: a.f896()!=\"B.f896\""); return 1; }
if (a.f897() != "B.f897") { Console.WriteLine("FAILED: a.f897()!=\"B.f897\""); return 1; }
if (a.f898() != "B.f898") { Console.WriteLine("FAILED: a.f898()!=\"B.f898\""); return 1; }
if (a.f899() != "B.f899") { Console.WriteLine("FAILED: a.f899()!=\"B.f899\""); return 1; }
if (a.f900() != "B.f900") { Console.WriteLine("FAILED: a.f900()!=\"B.f900\""); return 1; }
if (a.f901() != "B.f901") { Console.WriteLine("FAILED: a.f901()!=\"B.f901\""); return 1; }
if (a.f902() != "B.f902") { Console.WriteLine("FAILED: a.f902()!=\"B.f902\""); return 1; }
if (a.f903() != "B.f903") { Console.WriteLine("FAILED: a.f903()!=\"B.f903\""); return 1; }
if (a.f904() != "B.f904") { Console.WriteLine("FAILED: a.f904()!=\"B.f904\""); return 1; }
if (a.f905() != "B.f905") { Console.WriteLine("FAILED: a.f905()!=\"B.f905\""); return 1; }
if (a.f906() != "B.f906") { Console.WriteLine("FAILED: a.f906()!=\"B.f906\""); return 1; }
if (a.f907() != "B.f907") { Console.WriteLine("FAILED: a.f907()!=\"B.f907\""); return 1; }
if (a.f908() != "B.f908") { Console.WriteLine("FAILED: a.f908()!=\"B.f908\""); return 1; }
if (a.f909() != "B.f909") { Console.WriteLine("FAILED: a.f909()!=\"B.f909\""); return 1; }
if (a.f910() != "B.f910") { Console.WriteLine("FAILED: a.f910()!=\"B.f910\""); return 1; }
if (a.f911() != "B.f911") { Console.WriteLine("FAILED: a.f911()!=\"B.f911\""); return 1; }
if (a.f912() != "B.f912") { Console.WriteLine("FAILED: a.f912()!=\"B.f912\""); return 1; }
if (a.f913() != "B.f913") { Console.WriteLine("FAILED: a.f913()!=\"B.f913\""); return 1; }
if (a.f914() != "B.f914") { Console.WriteLine("FAILED: a.f914()!=\"B.f914\""); return 1; }
if (a.f915() != "B.f915") { Console.WriteLine("FAILED: a.f915()!=\"B.f915\""); return 1; }
if (a.f916() != "B.f916") { Console.WriteLine("FAILED: a.f916()!=\"B.f916\""); return 1; }
if (a.f917() != "B.f917") { Console.WriteLine("FAILED: a.f917()!=\"B.f917\""); return 1; }
if (a.f918() != "B.f918") { Console.WriteLine("FAILED: a.f918()!=\"B.f918\""); return 1; }
if (a.f919() != "B.f919") { Console.WriteLine("FAILED: a.f919()!=\"B.f919\""); return 1; }
if (a.f920() != "B.f920") { Console.WriteLine("FAILED: a.f920()!=\"B.f920\""); return 1; }
if (a.f921() != "B.f921") { Console.WriteLine("FAILED: a.f921()!=\"B.f921\""); return 1; }
if (a.f922() != "B.f922") { Console.WriteLine("FAILED: a.f922()!=\"B.f922\""); return 1; }
if (a.f923() != "B.f923") { Console.WriteLine("FAILED: a.f923()!=\"B.f923\""); return 1; }
if (a.f924() != "B.f924") { Console.WriteLine("FAILED: a.f924()!=\"B.f924\""); return 1; }
if (a.f925() != "B.f925") { Console.WriteLine("FAILED: a.f925()!=\"B.f925\""); return 1; }
if (a.f926() != "B.f926") { Console.WriteLine("FAILED: a.f926()!=\"B.f926\""); return 1; }
if (a.f927() != "B.f927") { Console.WriteLine("FAILED: a.f927()!=\"B.f927\""); return 1; }
if (a.f928() != "B.f928") { Console.WriteLine("FAILED: a.f928()!=\"B.f928\""); return 1; }
if (a.f929() != "B.f929") { Console.WriteLine("FAILED: a.f929()!=\"B.f929\""); return 1; }
if (a.f930() != "B.f930") { Console.WriteLine("FAILED: a.f930()!=\"B.f930\""); return 1; }
if (a.f931() != "B.f931") { Console.WriteLine("FAILED: a.f931()!=\"B.f931\""); return 1; }
if (a.f932() != "B.f932") { Console.WriteLine("FAILED: a.f932()!=\"B.f932\""); return 1; }
if (a.f933() != "B.f933") { Console.WriteLine("FAILED: a.f933()!=\"B.f933\""); return 1; }
if (a.f934() != "B.f934") { Console.WriteLine("FAILED: a.f934()!=\"B.f934\""); return 1; }
if (a.f935() != "B.f935") { Console.WriteLine("FAILED: a.f935()!=\"B.f935\""); return 1; }
if (a.f936() != "B.f936") { Console.WriteLine("FAILED: a.f936()!=\"B.f936\""); return 1; }
if (a.f937() != "B.f937") { Console.WriteLine("FAILED: a.f937()!=\"B.f937\""); return 1; }
if (a.f938() != "B.f938") { Console.WriteLine("FAILED: a.f938()!=\"B.f938\""); return 1; }
if (a.f939() != "B.f939") { Console.WriteLine("FAILED: a.f939()!=\"B.f939\""); return 1; }
if (a.f940() != "B.f940") { Console.WriteLine("FAILED: a.f940()!=\"B.f940\""); return 1; }
if (a.f941() != "B.f941") { Console.WriteLine("FAILED: a.f941()!=\"B.f941\""); return 1; }
if (a.f942() != "B.f942") { Console.WriteLine("FAILED: a.f942()!=\"B.f942\""); return 1; }
if (a.f943() != "B.f943") { Console.WriteLine("FAILED: a.f943()!=\"B.f943\""); return 1; }
if (a.f944() != "B.f944") { Console.WriteLine("FAILED: a.f944()!=\"B.f944\""); return 1; }
if (a.f945() != "B.f945") { Console.WriteLine("FAILED: a.f945()!=\"B.f945\""); return 1; }
if (a.f946() != "B.f946") { Console.WriteLine("FAILED: a.f946()!=\"B.f946\""); return 1; }
if (a.f947() != "B.f947") { Console.WriteLine("FAILED: a.f947()!=\"B.f947\""); return 1; }
if (a.f948() != "B.f948") { Console.WriteLine("FAILED: a.f948()!=\"B.f948\""); return 1; }
if (a.f949() != "B.f949") { Console.WriteLine("FAILED: a.f949()!=\"B.f949\""); return 1; }
if (a.f950() != "B.f950") { Console.WriteLine("FAILED: a.f950()!=\"B.f950\""); return 1; }
if (a.f951() != "B.f951") { Console.WriteLine("FAILED: a.f951()!=\"B.f951\""); return 1; }
if (a.f952() != "B.f952") { Console.WriteLine("FAILED: a.f952()!=\"B.f952\""); return 1; }
if (a.f953() != "B.f953") { Console.WriteLine("FAILED: a.f953()!=\"B.f953\""); return 1; }
if (a.f954() != "B.f954") { Console.WriteLine("FAILED: a.f954()!=\"B.f954\""); return 1; }
if (a.f955() != "B.f955") { Console.WriteLine("FAILED: a.f955()!=\"B.f955\""); return 1; }
if (a.f956() != "B.f956") { Console.WriteLine("FAILED: a.f956()!=\"B.f956\""); return 1; }
if (a.f957() != "B.f957") { Console.WriteLine("FAILED: a.f957()!=\"B.f957\""); return 1; }
if (a.f958() != "B.f958") { Console.WriteLine("FAILED: a.f958()!=\"B.f958\""); return 1; }
if (a.f959() != "B.f959") { Console.WriteLine("FAILED: a.f959()!=\"B.f959\""); return 1; }
if (a.f960() != "B.f960") { Console.WriteLine("FAILED: a.f960()!=\"B.f960\""); return 1; }
if (a.f961() != "B.f961") { Console.WriteLine("FAILED: a.f961()!=\"B.f961\""); return 1; }
if (a.f962() != "B.f962") { Console.WriteLine("FAILED: a.f962()!=\"B.f962\""); return 1; }
if (a.f963() != "B.f963") { Console.WriteLine("FAILED: a.f963()!=\"B.f963\""); return 1; }
if (a.f964() != "B.f964") { Console.WriteLine("FAILED: a.f964()!=\"B.f964\""); return 1; }
if (a.f965() != "B.f965") { Console.WriteLine("FAILED: a.f965()!=\"B.f965\""); return 1; }
if (a.f966() != "B.f966") { Console.WriteLine("FAILED: a.f966()!=\"B.f966\""); return 1; }
if (a.f967() != "B.f967") { Console.WriteLine("FAILED: a.f967()!=\"B.f967\""); return 1; }
if (a.f968() != "B.f968") { Console.WriteLine("FAILED: a.f968()!=\"B.f968\""); return 1; }
if (a.f969() != "B.f969") { Console.WriteLine("FAILED: a.f969()!=\"B.f969\""); return 1; }
if (a.f970() != "B.f970") { Console.WriteLine("FAILED: a.f970()!=\"B.f970\""); return 1; }
if (a.f971() != "B.f971") { Console.WriteLine("FAILED: a.f971()!=\"B.f971\""); return 1; }
if (a.f972() != "B.f972") { Console.WriteLine("FAILED: a.f972()!=\"B.f972\""); return 1; }
if (a.f973() != "B.f973") { Console.WriteLine("FAILED: a.f973()!=\"B.f973\""); return 1; }
if (a.f974() != "B.f974") { Console.WriteLine("FAILED: a.f974()!=\"B.f974\""); return 1; }
if (a.f975() != "B.f975") { Console.WriteLine("FAILED: a.f975()!=\"B.f975\""); return 1; }
if (a.f976() != "B.f976") { Console.WriteLine("FAILED: a.f976()!=\"B.f976\""); return 1; }
if (a.f977() != "B.f977") { Console.WriteLine("FAILED: a.f977()!=\"B.f977\""); return 1; }
if (a.f978() != "B.f978") { Console.WriteLine("FAILED: a.f978()!=\"B.f978\""); return 1; }
if (a.f979() != "B.f979") { Console.WriteLine("FAILED: a.f979()!=\"B.f979\""); return 1; }
if (a.f980() != "B.f980") { Console.WriteLine("FAILED: a.f980()!=\"B.f980\""); return 1; }
if (a.f981() != "B.f981") { Console.WriteLine("FAILED: a.f981()!=\"B.f981\""); return 1; }
if (a.f982() != "B.f982") { Console.WriteLine("FAILED: a.f982()!=\"B.f982\""); return 1; }
if (a.f983() != "B.f983") { Console.WriteLine("FAILED: a.f983()!=\"B.f983\""); return 1; }
if (a.f984() != "B.f984") { Console.WriteLine("FAILED: a.f984()!=\"B.f984\""); return 1; }
if (a.f985() != "B.f985") { Console.WriteLine("FAILED: a.f985()!=\"B.f985\""); return 1; }
if (a.f986() != "B.f986") { Console.WriteLine("FAILED: a.f986()!=\"B.f986\""); return 1; }
if (a.f987() != "B.f987") { Console.WriteLine("FAILED: a.f987()!=\"B.f987\""); return 1; }
if (a.f988() != "B.f988") { Console.WriteLine("FAILED: a.f988()!=\"B.f988\""); return 1; }
if (a.f989() != "B.f989") { Console.WriteLine("FAILED: a.f989()!=\"B.f989\""); return 1; }
if (a.f990() != "B.f990") { Console.WriteLine("FAILED: a.f990()!=\"B.f990\""); return 1; }
if (a.f991() != "B.f991") { Console.WriteLine("FAILED: a.f991()!=\"B.f991\""); return 1; }
if (a.f992() != "B.f992") { Console.WriteLine("FAILED: a.f992()!=\"B.f992\""); return 1; }
if (a.f993() != "B.f993") { Console.WriteLine("FAILED: a.f993()!=\"B.f993\""); return 1; }
if (a.f994() != "B.f994") { Console.WriteLine("FAILED: a.f994()!=\"B.f994\""); return 1; }
if (a.f995() != "B.f995") { Console.WriteLine("FAILED: a.f995()!=\"B.f995\""); return 1; }
if (a.f996() != "B.f996") { Console.WriteLine("FAILED: a.f996()!=\"B.f996\""); return 1; }
if (a.f997() != "B.f997") { Console.WriteLine("FAILED: a.f997()!=\"B.f997\""); return 1; }
if (a.f998() != "B.f998") { Console.WriteLine("FAILED: a.f998()!=\"B.f998\""); return 1; }
if (a.f999() != "B.f999") { Console.WriteLine("FAILED: a.f999()!=\"B.f999\""); return 1; }
if (a.f1000() != "B.f1000") { Console.WriteLine("FAILED: a.f1000()!=\"B.f1000\""); return 1; }
if (a.f1001() != "B.f1001") { Console.WriteLine("FAILED: a.f1001()!=\"B.f1001\""); return 1; }
if (a.f1002() != "B.f1002") { Console.WriteLine("FAILED: a.f1002()!=\"B.f1002\""); return 1; }
if (a.f1003() != "B.f1003") { Console.WriteLine("FAILED: a.f1003()!=\"B.f1003\""); return 1; }
if (a.f1004() != "B.f1004") { Console.WriteLine("FAILED: a.f1004()!=\"B.f1004\""); return 1; }
if (a.f1005() != "B.f1005") { Console.WriteLine("FAILED: a.f1005()!=\"B.f1005\""); return 1; }
if (a.f1006() != "B.f1006") { Console.WriteLine("FAILED: a.f1006()!=\"B.f1006\""); return 1; }
if (a.f1007() != "B.f1007") { Console.WriteLine("FAILED: a.f1007()!=\"B.f1007\""); return 1; }
if (a.f1008() != "B.f1008") { Console.WriteLine("FAILED: a.f1008()!=\"B.f1008\""); return 1; }
if (a.f1009() != "B.f1009") { Console.WriteLine("FAILED: a.f1009()!=\"B.f1009\""); return 1; }
if (a.f1010() != "B.f1010") { Console.WriteLine("FAILED: a.f1010()!=\"B.f1010\""); return 1; }
if (a.f1011() != "B.f1011") { Console.WriteLine("FAILED: a.f1011()!=\"B.f1011\""); return 1; }
if (a.f1012() != "B.f1012") { Console.WriteLine("FAILED: a.f1012()!=\"B.f1012\""); return 1; }
if (a.f1013() != "B.f1013") { Console.WriteLine("FAILED: a.f1013()!=\"B.f1013\""); return 1; }
if (a.f1014() != "B.f1014") { Console.WriteLine("FAILED: a.f1014()!=\"B.f1014\""); return 1; }
if (a.f1015() != "B.f1015") { Console.WriteLine("FAILED: a.f1015()!=\"B.f1015\""); return 1; }
if (a.f1016() != "B.f1016") { Console.WriteLine("FAILED: a.f1016()!=\"B.f1016\""); return 1; }
if (a.f1017() != "B.f1017") { Console.WriteLine("FAILED: a.f1017()!=\"B.f1017\""); return 1; }
if (a.f1018() != "B.f1018") { Console.WriteLine("FAILED: a.f1018()!=\"B.f1018\""); return 1; }
if (a.f1019() != "B.f1019") { Console.WriteLine("FAILED: a.f1019()!=\"B.f1019\""); return 1; }
if (a.f1020() != "B.f1020") { Console.WriteLine("FAILED: a.f1020()!=\"B.f1020\""); return 1; }
if (a.f1021() != "B.f1021") { Console.WriteLine("FAILED: a.f1021()!=\"B.f1021\""); return 1; }
if (a.f1022() != "B.f1022") { Console.WriteLine("FAILED: a.f1022()!=\"B.f1022\""); return 1; }
if (a.f1023() != "B.f1023") { Console.WriteLine("FAILED: a.f1023()!=\"B.f1023\""); return 1; }
if (a.f1024() != "B.f1024") { Console.WriteLine("FAILED: a.f1024()!=\"B.f1024\""); return 1; }
if (a.f1025() != "B.f1025") { Console.WriteLine("FAILED: a.f1025()!=\"B.f1025\""); return 1; }
if (a.f1026() != "B.f1026") { Console.WriteLine("FAILED: a.f1026()!=\"B.f1026\""); return 1; }
if (a.f1027() != "B.f1027") { Console.WriteLine("FAILED: a.f1027()!=\"B.f1027\""); return 1; }
if (a.f1028() != "B.f1028") { Console.WriteLine("FAILED: a.f1028()!=\"B.f1028\""); return 1; }
if (a.f1029() != "B.f1029") { Console.WriteLine("FAILED: a.f1029()!=\"B.f1029\""); return 1; }
if (a.f1030() != "B.f1030") { Console.WriteLine("FAILED: a.f1030()!=\"B.f1030\""); return 1; }
if (a.f1031() != "B.f1031") { Console.WriteLine("FAILED: a.f1031()!=\"B.f1031\""); return 1; }
if (a.f1032() != "B.f1032") { Console.WriteLine("FAILED: a.f1032()!=\"B.f1032\""); return 1; }
if (a.f1033() != "B.f1033") { Console.WriteLine("FAILED: a.f1033()!=\"B.f1033\""); return 1; }
if (a.f1034() != "B.f1034") { Console.WriteLine("FAILED: a.f1034()!=\"B.f1034\""); return 1; }
if (a.f1035() != "B.f1035") { Console.WriteLine("FAILED: a.f1035()!=\"B.f1035\""); return 1; }
if (a.f1036() != "B.f1036") { Console.WriteLine("FAILED: a.f1036()!=\"B.f1036\""); return 1; }
if (a.f1037() != "B.f1037") { Console.WriteLine("FAILED: a.f1037()!=\"B.f1037\""); return 1; }
if (a.f1038() != "B.f1038") { Console.WriteLine("FAILED: a.f1038()!=\"B.f1038\""); return 1; }
if (a.f1039() != "B.f1039") { Console.WriteLine("FAILED: a.f1039()!=\"B.f1039\""); return 1; }
if (a.f1040() != "B.f1040") { Console.WriteLine("FAILED: a.f1040()!=\"B.f1040\""); return 1; }
if (a.f1041() != "B.f1041") { Console.WriteLine("FAILED: a.f1041()!=\"B.f1041\""); return 1; }
if (a.f1042() != "B.f1042") { Console.WriteLine("FAILED: a.f1042()!=\"B.f1042\""); return 1; }
if (a.f1043() != "B.f1043") { Console.WriteLine("FAILED: a.f1043()!=\"B.f1043\""); return 1; }
if (a.f1044() != "B.f1044") { Console.WriteLine("FAILED: a.f1044()!=\"B.f1044\""); return 1; }
if (a.f1045() != "B.f1045") { Console.WriteLine("FAILED: a.f1045()!=\"B.f1045\""); return 1; }
if (a.f1046() != "B.f1046") { Console.WriteLine("FAILED: a.f1046()!=\"B.f1046\""); return 1; }
if (a.f1047() != "B.f1047") { Console.WriteLine("FAILED: a.f1047()!=\"B.f1047\""); return 1; }
if (a.f1048() != "B.f1048") { Console.WriteLine("FAILED: a.f1048()!=\"B.f1048\""); return 1; }
if (a.f1049() != "B.f1049") { Console.WriteLine("FAILED: a.f1049()!=\"B.f1049\""); return 1; }
if (a.f1050() != "B.f1050") { Console.WriteLine("FAILED: a.f1050()!=\"B.f1050\""); return 1; }
if (a.f1051() != "B.f1051") { Console.WriteLine("FAILED: a.f1051()!=\"B.f1051\""); return 1; }
if (a.f1052() != "B.f1052") { Console.WriteLine("FAILED: a.f1052()!=\"B.f1052\""); return 1; }
if (a.f1053() != "B.f1053") { Console.WriteLine("FAILED: a.f1053()!=\"B.f1053\""); return 1; }
if (a.f1054() != "B.f1054") { Console.WriteLine("FAILED: a.f1054()!=\"B.f1054\""); return 1; }
if (a.f1055() != "B.f1055") { Console.WriteLine("FAILED: a.f1055()!=\"B.f1055\""); return 1; }
if (a.f1056() != "B.f1056") { Console.WriteLine("FAILED: a.f1056()!=\"B.f1056\""); return 1; }
if (a.f1057() != "B.f1057") { Console.WriteLine("FAILED: a.f1057()!=\"B.f1057\""); return 1; }
if (a.f1058() != "B.f1058") { Console.WriteLine("FAILED: a.f1058()!=\"B.f1058\""); return 1; }
if (a.f1059() != "B.f1059") { Console.WriteLine("FAILED: a.f1059()!=\"B.f1059\""); return 1; }
if (a.f1060() != "B.f1060") { Console.WriteLine("FAILED: a.f1060()!=\"B.f1060\""); return 1; }
if (a.f1061() != "B.f1061") { Console.WriteLine("FAILED: a.f1061()!=\"B.f1061\""); return 1; }
if (a.f1062() != "B.f1062") { Console.WriteLine("FAILED: a.f1062()!=\"B.f1062\""); return 1; }
if (a.f1063() != "B.f1063") { Console.WriteLine("FAILED: a.f1063()!=\"B.f1063\""); return 1; }
if (a.f1064() != "B.f1064") { Console.WriteLine("FAILED: a.f1064()!=\"B.f1064\""); return 1; }
if (a.f1065() != "B.f1065") { Console.WriteLine("FAILED: a.f1065()!=\"B.f1065\""); return 1; }
if (a.f1066() != "B.f1066") { Console.WriteLine("FAILED: a.f1066()!=\"B.f1066\""); return 1; }
if (a.f1067() != "B.f1067") { Console.WriteLine("FAILED: a.f1067()!=\"B.f1067\""); return 1; }
if (a.f1068() != "B.f1068") { Console.WriteLine("FAILED: a.f1068()!=\"B.f1068\""); return 1; }
if (a.f1069() != "B.f1069") { Console.WriteLine("FAILED: a.f1069()!=\"B.f1069\""); return 1; }
if (a.f1070() != "B.f1070") { Console.WriteLine("FAILED: a.f1070()!=\"B.f1070\""); return 1; }
if (a.f1071() != "B.f1071") { Console.WriteLine("FAILED: a.f1071()!=\"B.f1071\""); return 1; }
if (a.f1072() != "B.f1072") { Console.WriteLine("FAILED: a.f1072()!=\"B.f1072\""); return 1; }
if (a.f1073() != "B.f1073") { Console.WriteLine("FAILED: a.f1073()!=\"B.f1073\""); return 1; }
if (a.f1074() != "B.f1074") { Console.WriteLine("FAILED: a.f1074()!=\"B.f1074\""); return 1; }
if (a.f1075() != "B.f1075") { Console.WriteLine("FAILED: a.f1075()!=\"B.f1075\""); return 1; }
if (a.f1076() != "B.f1076") { Console.WriteLine("FAILED: a.f1076()!=\"B.f1076\""); return 1; }
if (a.f1077() != "B.f1077") { Console.WriteLine("FAILED: a.f1077()!=\"B.f1077\""); return 1; }
if (a.f1078() != "B.f1078") { Console.WriteLine("FAILED: a.f1078()!=\"B.f1078\""); return 1; }
if (a.f1079() != "B.f1079") { Console.WriteLine("FAILED: a.f1079()!=\"B.f1079\""); return 1; }
if (a.f1080() != "B.f1080") { Console.WriteLine("FAILED: a.f1080()!=\"B.f1080\""); return 1; }
if (a.f1081() != "B.f1081") { Console.WriteLine("FAILED: a.f1081()!=\"B.f1081\""); return 1; }
if (a.f1082() != "B.f1082") { Console.WriteLine("FAILED: a.f1082()!=\"B.f1082\""); return 1; }
if (a.f1083() != "B.f1083") { Console.WriteLine("FAILED: a.f1083()!=\"B.f1083\""); return 1; }
if (a.f1084() != "B.f1084") { Console.WriteLine("FAILED: a.f1084()!=\"B.f1084\""); return 1; }
if (a.f1085() != "B.f1085") { Console.WriteLine("FAILED: a.f1085()!=\"B.f1085\""); return 1; }
if (a.f1086() != "B.f1086") { Console.WriteLine("FAILED: a.f1086()!=\"B.f1086\""); return 1; }
if (a.f1087() != "B.f1087") { Console.WriteLine("FAILED: a.f1087()!=\"B.f1087\""); return 1; }
if (a.f1088() != "B.f1088") { Console.WriteLine("FAILED: a.f1088()!=\"B.f1088\""); return 1; }
if (a.f1089() != "B.f1089") { Console.WriteLine("FAILED: a.f1089()!=\"B.f1089\""); return 1; }
if (a.f1090() != "B.f1090") { Console.WriteLine("FAILED: a.f1090()!=\"B.f1090\""); return 1; }
if (a.f1091() != "B.f1091") { Console.WriteLine("FAILED: a.f1091()!=\"B.f1091\""); return 1; }
if (a.f1092() != "B.f1092") { Console.WriteLine("FAILED: a.f1092()!=\"B.f1092\""); return 1; }
if (a.f1093() != "B.f1093") { Console.WriteLine("FAILED: a.f1093()!=\"B.f1093\""); return 1; }
if (a.f1094() != "B.f1094") { Console.WriteLine("FAILED: a.f1094()!=\"B.f1094\""); return 1; }
if (a.f1095() != "B.f1095") { Console.WriteLine("FAILED: a.f1095()!=\"B.f1095\""); return 1; }
if (a.f1096() != "B.f1096") { Console.WriteLine("FAILED: a.f1096()!=\"B.f1096\""); return 1; }
if (a.f1097() != "B.f1097") { Console.WriteLine("FAILED: a.f1097()!=\"B.f1097\""); return 1; }
if (a.f1098() != "B.f1098") { Console.WriteLine("FAILED: a.f1098()!=\"B.f1098\""); return 1; }
if (a.f1099() != "B.f1099") { Console.WriteLine("FAILED: a.f1099()!=\"B.f1099\""); return 1; }
if (a.f1100() != "B.f1100") { Console.WriteLine("FAILED: a.f1100()!=\"B.f1100\""); return 1; }
if (a.f1101() != "B.f1101") { Console.WriteLine("FAILED: a.f1101()!=\"B.f1101\""); return 1; }
if (a.f1102() != "B.f1102") { Console.WriteLine("FAILED: a.f1102()!=\"B.f1102\""); return 1; }
if (a.f1103() != "B.f1103") { Console.WriteLine("FAILED: a.f1103()!=\"B.f1103\""); return 1; }
if (a.f1104() != "B.f1104") { Console.WriteLine("FAILED: a.f1104()!=\"B.f1104\""); return 1; }
if (a.f1105() != "B.f1105") { Console.WriteLine("FAILED: a.f1105()!=\"B.f1105\""); return 1; }
if (a.f1106() != "B.f1106") { Console.WriteLine("FAILED: a.f1106()!=\"B.f1106\""); return 1; }
if (a.f1107() != "B.f1107") { Console.WriteLine("FAILED: a.f1107()!=\"B.f1107\""); return 1; }
if (a.f1108() != "B.f1108") { Console.WriteLine("FAILED: a.f1108()!=\"B.f1108\""); return 1; }
if (a.f1109() != "B.f1109") { Console.WriteLine("FAILED: a.f1109()!=\"B.f1109\""); return 1; }
if (a.f1110() != "B.f1110") { Console.WriteLine("FAILED: a.f1110()!=\"B.f1110\""); return 1; }
if (a.f1111() != "B.f1111") { Console.WriteLine("FAILED: a.f1111()!=\"B.f1111\""); return 1; }
if (a.f1112() != "B.f1112") { Console.WriteLine("FAILED: a.f1112()!=\"B.f1112\""); return 1; }
if (a.f1113() != "B.f1113") { Console.WriteLine("FAILED: a.f1113()!=\"B.f1113\""); return 1; }
if (a.f1114() != "B.f1114") { Console.WriteLine("FAILED: a.f1114()!=\"B.f1114\""); return 1; }
if (a.f1115() != "B.f1115") { Console.WriteLine("FAILED: a.f1115()!=\"B.f1115\""); return 1; }
if (a.f1116() != "B.f1116") { Console.WriteLine("FAILED: a.f1116()!=\"B.f1116\""); return 1; }
if (a.f1117() != "B.f1117") { Console.WriteLine("FAILED: a.f1117()!=\"B.f1117\""); return 1; }
if (a.f1118() != "B.f1118") { Console.WriteLine("FAILED: a.f1118()!=\"B.f1118\""); return 1; }
if (a.f1119() != "B.f1119") { Console.WriteLine("FAILED: a.f1119()!=\"B.f1119\""); return 1; }
if (a.f1120() != "B.f1120") { Console.WriteLine("FAILED: a.f1120()!=\"B.f1120\""); return 1; }
if (a.f1121() != "B.f1121") { Console.WriteLine("FAILED: a.f1121()!=\"B.f1121\""); return 1; }
if (a.f1122() != "B.f1122") { Console.WriteLine("FAILED: a.f1122()!=\"B.f1122\""); return 1; }
if (a.f1123() != "B.f1123") { Console.WriteLine("FAILED: a.f1123()!=\"B.f1123\""); return 1; }
if (a.f1124() != "B.f1124") { Console.WriteLine("FAILED: a.f1124()!=\"B.f1124\""); return 1; }
if (a.f1125() != "B.f1125") { Console.WriteLine("FAILED: a.f1125()!=\"B.f1125\""); return 1; }
if (a.f1126() != "B.f1126") { Console.WriteLine("FAILED: a.f1126()!=\"B.f1126\""); return 1; }
if (a.f1127() != "B.f1127") { Console.WriteLine("FAILED: a.f1127()!=\"B.f1127\""); return 1; }
if (a.f1128() != "B.f1128") { Console.WriteLine("FAILED: a.f1128()!=\"B.f1128\""); return 1; }
if (a.f1129() != "B.f1129") { Console.WriteLine("FAILED: a.f1129()!=\"B.f1129\""); return 1; }
if (a.f1130() != "B.f1130") { Console.WriteLine("FAILED: a.f1130()!=\"B.f1130\""); return 1; }
if (a.f1131() != "B.f1131") { Console.WriteLine("FAILED: a.f1131()!=\"B.f1131\""); return 1; }
if (a.f1132() != "B.f1132") { Console.WriteLine("FAILED: a.f1132()!=\"B.f1132\""); return 1; }
if (a.f1133() != "B.f1133") { Console.WriteLine("FAILED: a.f1133()!=\"B.f1133\""); return 1; }
if (a.f1134() != "B.f1134") { Console.WriteLine("FAILED: a.f1134()!=\"B.f1134\""); return 1; }
if (a.f1135() != "B.f1135") { Console.WriteLine("FAILED: a.f1135()!=\"B.f1135\""); return 1; }
if (a.f1136() != "B.f1136") { Console.WriteLine("FAILED: a.f1136()!=\"B.f1136\""); return 1; }
if (a.f1137() != "B.f1137") { Console.WriteLine("FAILED: a.f1137()!=\"B.f1137\""); return 1; }
if (a.f1138() != "B.f1138") { Console.WriteLine("FAILED: a.f1138()!=\"B.f1138\""); return 1; }
if (a.f1139() != "B.f1139") { Console.WriteLine("FAILED: a.f1139()!=\"B.f1139\""); return 1; }
if (a.f1140() != "B.f1140") { Console.WriteLine("FAILED: a.f1140()!=\"B.f1140\""); return 1; }
if (a.f1141() != "B.f1141") { Console.WriteLine("FAILED: a.f1141()!=\"B.f1141\""); return 1; }
if (a.f1142() != "B.f1142") { Console.WriteLine("FAILED: a.f1142()!=\"B.f1142\""); return 1; }
if (a.f1143() != "B.f1143") { Console.WriteLine("FAILED: a.f1143()!=\"B.f1143\""); return 1; }
if (a.f1144() != "B.f1144") { Console.WriteLine("FAILED: a.f1144()!=\"B.f1144\""); return 1; }
if (a.f1145() != "B.f1145") { Console.WriteLine("FAILED: a.f1145()!=\"B.f1145\""); return 1; }
if (a.f1146() != "B.f1146") { Console.WriteLine("FAILED: a.f1146()!=\"B.f1146\""); return 1; }
if (a.f1147() != "B.f1147") { Console.WriteLine("FAILED: a.f1147()!=\"B.f1147\""); return 1; }
if (a.f1148() != "B.f1148") { Console.WriteLine("FAILED: a.f1148()!=\"B.f1148\""); return 1; }
if (a.f1149() != "B.f1149") { Console.WriteLine("FAILED: a.f1149()!=\"B.f1149\""); return 1; }
if (a.f1150() != "B.f1150") { Console.WriteLine("FAILED: a.f1150()!=\"B.f1150\""); return 1; }
if (a.f1151() != "B.f1151") { Console.WriteLine("FAILED: a.f1151()!=\"B.f1151\""); return 1; }
if (a.f1152() != "B.f1152") { Console.WriteLine("FAILED: a.f1152()!=\"B.f1152\""); return 1; }
if (a.f1153() != "B.f1153") { Console.WriteLine("FAILED: a.f1153()!=\"B.f1153\""); return 1; }
if (a.f1154() != "B.f1154") { Console.WriteLine("FAILED: a.f1154()!=\"B.f1154\""); return 1; }
if (a.f1155() != "B.f1155") { Console.WriteLine("FAILED: a.f1155()!=\"B.f1155\""); return 1; }
if (a.f1156() != "B.f1156") { Console.WriteLine("FAILED: a.f1156()!=\"B.f1156\""); return 1; }
if (a.f1157() != "B.f1157") { Console.WriteLine("FAILED: a.f1157()!=\"B.f1157\""); return 1; }
if (a.f1158() != "B.f1158") { Console.WriteLine("FAILED: a.f1158()!=\"B.f1158\""); return 1; }
if (a.f1159() != "B.f1159") { Console.WriteLine("FAILED: a.f1159()!=\"B.f1159\""); return 1; }
if (a.f1160() != "B.f1160") { Console.WriteLine("FAILED: a.f1160()!=\"B.f1160\""); return 1; }
if (a.f1161() != "B.f1161") { Console.WriteLine("FAILED: a.f1161()!=\"B.f1161\""); return 1; }
if (a.f1162() != "B.f1162") { Console.WriteLine("FAILED: a.f1162()!=\"B.f1162\""); return 1; }
if (a.f1163() != "B.f1163") { Console.WriteLine("FAILED: a.f1163()!=\"B.f1163\""); return 1; }
if (a.f1164() != "B.f1164") { Console.WriteLine("FAILED: a.f1164()!=\"B.f1164\""); return 1; }
if (a.f1165() != "B.f1165") { Console.WriteLine("FAILED: a.f1165()!=\"B.f1165\""); return 1; }
if (a.f1166() != "B.f1166") { Console.WriteLine("FAILED: a.f1166()!=\"B.f1166\""); return 1; }
if (a.f1167() != "B.f1167") { Console.WriteLine("FAILED: a.f1167()!=\"B.f1167\""); return 1; }
if (a.f1168() != "B.f1168") { Console.WriteLine("FAILED: a.f1168()!=\"B.f1168\""); return 1; }
if (a.f1169() != "B.f1169") { Console.WriteLine("FAILED: a.f1169()!=\"B.f1169\""); return 1; }
if (a.f1170() != "B.f1170") { Console.WriteLine("FAILED: a.f1170()!=\"B.f1170\""); return 1; }
if (a.f1171() != "B.f1171") { Console.WriteLine("FAILED: a.f1171()!=\"B.f1171\""); return 1; }
if (a.f1172() != "B.f1172") { Console.WriteLine("FAILED: a.f1172()!=\"B.f1172\""); return 1; }
if (a.f1173() != "B.f1173") { Console.WriteLine("FAILED: a.f1173()!=\"B.f1173\""); return 1; }
if (a.f1174() != "B.f1174") { Console.WriteLine("FAILED: a.f1174()!=\"B.f1174\""); return 1; }
if (a.f1175() != "B.f1175") { Console.WriteLine("FAILED: a.f1175()!=\"B.f1175\""); return 1; }
if (a.f1176() != "B.f1176") { Console.WriteLine("FAILED: a.f1176()!=\"B.f1176\""); return 1; }
if (a.f1177() != "B.f1177") { Console.WriteLine("FAILED: a.f1177()!=\"B.f1177\""); return 1; }
if (a.f1178() != "B.f1178") { Console.WriteLine("FAILED: a.f1178()!=\"B.f1178\""); return 1; }
if (a.f1179() != "B.f1179") { Console.WriteLine("FAILED: a.f1179()!=\"B.f1179\""); return 1; }
if (a.f1180() != "B.f1180") { Console.WriteLine("FAILED: a.f1180()!=\"B.f1180\""); return 1; }
if (a.f1181() != "B.f1181") { Console.WriteLine("FAILED: a.f1181()!=\"B.f1181\""); return 1; }
if (a.f1182() != "B.f1182") { Console.WriteLine("FAILED: a.f1182()!=\"B.f1182\""); return 1; }
if (a.f1183() != "B.f1183") { Console.WriteLine("FAILED: a.f1183()!=\"B.f1183\""); return 1; }
if (a.f1184() != "B.f1184") { Console.WriteLine("FAILED: a.f1184()!=\"B.f1184\""); return 1; }
if (a.f1185() != "B.f1185") { Console.WriteLine("FAILED: a.f1185()!=\"B.f1185\""); return 1; }
if (a.f1186() != "B.f1186") { Console.WriteLine("FAILED: a.f1186()!=\"B.f1186\""); return 1; }
if (a.f1187() != "B.f1187") { Console.WriteLine("FAILED: a.f1187()!=\"B.f1187\""); return 1; }
if (a.f1188() != "B.f1188") { Console.WriteLine("FAILED: a.f1188()!=\"B.f1188\""); return 1; }
if (a.f1189() != "B.f1189") { Console.WriteLine("FAILED: a.f1189()!=\"B.f1189\""); return 1; }
if (a.f1190() != "B.f1190") { Console.WriteLine("FAILED: a.f1190()!=\"B.f1190\""); return 1; }
if (a.f1191() != "B.f1191") { Console.WriteLine("FAILED: a.f1191()!=\"B.f1191\""); return 1; }
if (a.f1192() != "B.f1192") { Console.WriteLine("FAILED: a.f1192()!=\"B.f1192\""); return 1; }
if (a.f1193() != "B.f1193") { Console.WriteLine("FAILED: a.f1193()!=\"B.f1193\""); return 1; }
if (a.f1194() != "B.f1194") { Console.WriteLine("FAILED: a.f1194()!=\"B.f1194\""); return 1; }
if (a.f1195() != "B.f1195") { Console.WriteLine("FAILED: a.f1195()!=\"B.f1195\""); return 1; }
if (a.f1196() != "B.f1196") { Console.WriteLine("FAILED: a.f1196()!=\"B.f1196\""); return 1; }
if (a.f1197() != "B.f1197") { Console.WriteLine("FAILED: a.f1197()!=\"B.f1197\""); return 1; }
if (a.f1198() != "B.f1198") { Console.WriteLine("FAILED: a.f1198()!=\"B.f1198\""); return 1; }
if (a.f1199() != "B.f1199") { Console.WriteLine("FAILED: a.f1199()!=\"B.f1199\""); return 1; }
if (a.f1200() != "B.f1200") { Console.WriteLine("FAILED: a.f1200()!=\"B.f1200\""); return 1; }
if (a.f1201() != "B.f1201") { Console.WriteLine("FAILED: a.f1201()!=\"B.f1201\""); return 1; }
if (a.f1202() != "B.f1202") { Console.WriteLine("FAILED: a.f1202()!=\"B.f1202\""); return 1; }
if (a.f1203() != "B.f1203") { Console.WriteLine("FAILED: a.f1203()!=\"B.f1203\""); return 1; }
if (a.f1204() != "B.f1204") { Console.WriteLine("FAILED: a.f1204()!=\"B.f1204\""); return 1; }
if (a.f1205() != "B.f1205") { Console.WriteLine("FAILED: a.f1205()!=\"B.f1205\""); return 1; }
if (a.f1206() != "B.f1206") { Console.WriteLine("FAILED: a.f1206()!=\"B.f1206\""); return 1; }
if (a.f1207() != "B.f1207") { Console.WriteLine("FAILED: a.f1207()!=\"B.f1207\""); return 1; }
if (a.f1208() != "B.f1208") { Console.WriteLine("FAILED: a.f1208()!=\"B.f1208\""); return 1; }
if (a.f1209() != "B.f1209") { Console.WriteLine("FAILED: a.f1209()!=\"B.f1209\""); return 1; }
if (a.f1210() != "B.f1210") { Console.WriteLine("FAILED: a.f1210()!=\"B.f1210\""); return 1; }
if (a.f1211() != "B.f1211") { Console.WriteLine("FAILED: a.f1211()!=\"B.f1211\""); return 1; }
if (a.f1212() != "B.f1212") { Console.WriteLine("FAILED: a.f1212()!=\"B.f1212\""); return 1; }
if (a.f1213() != "B.f1213") { Console.WriteLine("FAILED: a.f1213()!=\"B.f1213\""); return 1; }
if (a.f1214() != "B.f1214") { Console.WriteLine("FAILED: a.f1214()!=\"B.f1214\""); return 1; }
if (a.f1215() != "B.f1215") { Console.WriteLine("FAILED: a.f1215()!=\"B.f1215\""); return 1; }
if (a.f1216() != "B.f1216") { Console.WriteLine("FAILED: a.f1216()!=\"B.f1216\""); return 1; }
if (a.f1217() != "B.f1217") { Console.WriteLine("FAILED: a.f1217()!=\"B.f1217\""); return 1; }
if (a.f1218() != "B.f1218") { Console.WriteLine("FAILED: a.f1218()!=\"B.f1218\""); return 1; }
if (a.f1219() != "B.f1219") { Console.WriteLine("FAILED: a.f1219()!=\"B.f1219\""); return 1; }
if (a.f1220() != "B.f1220") { Console.WriteLine("FAILED: a.f1220()!=\"B.f1220\""); return 1; }
if (a.f1221() != "B.f1221") { Console.WriteLine("FAILED: a.f1221()!=\"B.f1221\""); return 1; }
if (a.f1222() != "B.f1222") { Console.WriteLine("FAILED: a.f1222()!=\"B.f1222\""); return 1; }
if (a.f1223() != "B.f1223") { Console.WriteLine("FAILED: a.f1223()!=\"B.f1223\""); return 1; }
if (a.f1224() != "B.f1224") { Console.WriteLine("FAILED: a.f1224()!=\"B.f1224\""); return 1; }
if (a.f1225() != "B.f1225") { Console.WriteLine("FAILED: a.f1225()!=\"B.f1225\""); return 1; }
if (a.f1226() != "B.f1226") { Console.WriteLine("FAILED: a.f1226()!=\"B.f1226\""); return 1; }
if (a.f1227() != "B.f1227") { Console.WriteLine("FAILED: a.f1227()!=\"B.f1227\""); return 1; }
if (a.f1228() != "B.f1228") { Console.WriteLine("FAILED: a.f1228()!=\"B.f1228\""); return 1; }
if (a.f1229() != "B.f1229") { Console.WriteLine("FAILED: a.f1229()!=\"B.f1229\""); return 1; }
if (a.f1230() != "B.f1230") { Console.WriteLine("FAILED: a.f1230()!=\"B.f1230\""); return 1; }
if (a.f1231() != "B.f1231") { Console.WriteLine("FAILED: a.f1231()!=\"B.f1231\""); return 1; }
if (a.f1232() != "B.f1232") { Console.WriteLine("FAILED: a.f1232()!=\"B.f1232\""); return 1; }
if (a.f1233() != "B.f1233") { Console.WriteLine("FAILED: a.f1233()!=\"B.f1233\""); return 1; }
if (a.f1234() != "B.f1234") { Console.WriteLine("FAILED: a.f1234()!=\"B.f1234\""); return 1; }
if (a.f1235() != "B.f1235") { Console.WriteLine("FAILED: a.f1235()!=\"B.f1235\""); return 1; }
if (a.f1236() != "B.f1236") { Console.WriteLine("FAILED: a.f1236()!=\"B.f1236\""); return 1; }
if (a.f1237() != "B.f1237") { Console.WriteLine("FAILED: a.f1237()!=\"B.f1237\""); return 1; }
if (a.f1238() != "B.f1238") { Console.WriteLine("FAILED: a.f1238()!=\"B.f1238\""); return 1; }
if (a.f1239() != "B.f1239") { Console.WriteLine("FAILED: a.f1239()!=\"B.f1239\""); return 1; }
if (a.f1240() != "B.f1240") { Console.WriteLine("FAILED: a.f1240()!=\"B.f1240\""); return 1; }
if (a.f1241() != "B.f1241") { Console.WriteLine("FAILED: a.f1241()!=\"B.f1241\""); return 1; }
if (a.f1242() != "B.f1242") { Console.WriteLine("FAILED: a.f1242()!=\"B.f1242\""); return 1; }
if (a.f1243() != "B.f1243") { Console.WriteLine("FAILED: a.f1243()!=\"B.f1243\""); return 1; }
if (a.f1244() != "B.f1244") { Console.WriteLine("FAILED: a.f1244()!=\"B.f1244\""); return 1; }
if (a.f1245() != "B.f1245") { Console.WriteLine("FAILED: a.f1245()!=\"B.f1245\""); return 1; }
if (a.f1246() != "B.f1246") { Console.WriteLine("FAILED: a.f1246()!=\"B.f1246\""); return 1; }
if (a.f1247() != "B.f1247") { Console.WriteLine("FAILED: a.f1247()!=\"B.f1247\""); return 1; }
if (a.f1248() != "B.f1248") { Console.WriteLine("FAILED: a.f1248()!=\"B.f1248\""); return 1; }
if (a.f1249() != "B.f1249") { Console.WriteLine("FAILED: a.f1249()!=\"B.f1249\""); return 1; }
if (a.f1250() != "B.f1250") { Console.WriteLine("FAILED: a.f1250()!=\"B.f1250\""); return 1; }
if (a.f1251() != "B.f1251") { Console.WriteLine("FAILED: a.f1251()!=\"B.f1251\""); return 1; }
if (a.f1252() != "B.f1252") { Console.WriteLine("FAILED: a.f1252()!=\"B.f1252\""); return 1; }
if (a.f1253() != "B.f1253") { Console.WriteLine("FAILED: a.f1253()!=\"B.f1253\""); return 1; }
if (a.f1254() != "B.f1254") { Console.WriteLine("FAILED: a.f1254()!=\"B.f1254\""); return 1; }
if (a.f1255() != "B.f1255") { Console.WriteLine("FAILED: a.f1255()!=\"B.f1255\""); return 1; }
if (a.f1256() != "B.f1256") { Console.WriteLine("FAILED: a.f1256()!=\"B.f1256\""); return 1; }
if (a.f1257() != "B.f1257") { Console.WriteLine("FAILED: a.f1257()!=\"B.f1257\""); return 1; }
if (a.f1258() != "B.f1258") { Console.WriteLine("FAILED: a.f1258()!=\"B.f1258\""); return 1; }
if (a.f1259() != "B.f1259") { Console.WriteLine("FAILED: a.f1259()!=\"B.f1259\""); return 1; }
if (a.f1260() != "B.f1260") { Console.WriteLine("FAILED: a.f1260()!=\"B.f1260\""); return 1; }
if (a.f1261() != "B.f1261") { Console.WriteLine("FAILED: a.f1261()!=\"B.f1261\""); return 1; }
if (a.f1262() != "B.f1262") { Console.WriteLine("FAILED: a.f1262()!=\"B.f1262\""); return 1; }
if (a.f1263() != "B.f1263") { Console.WriteLine("FAILED: a.f1263()!=\"B.f1263\""); return 1; }
if (a.f1264() != "B.f1264") { Console.WriteLine("FAILED: a.f1264()!=\"B.f1264\""); return 1; }
if (a.f1265() != "B.f1265") { Console.WriteLine("FAILED: a.f1265()!=\"B.f1265\""); return 1; }
if (a.f1266() != "B.f1266") { Console.WriteLine("FAILED: a.f1266()!=\"B.f1266\""); return 1; }
if (a.f1267() != "B.f1267") { Console.WriteLine("FAILED: a.f1267()!=\"B.f1267\""); return 1; }
if (a.f1268() != "B.f1268") { Console.WriteLine("FAILED: a.f1268()!=\"B.f1268\""); return 1; }
if (a.f1269() != "B.f1269") { Console.WriteLine("FAILED: a.f1269()!=\"B.f1269\""); return 1; }
if (a.f1270() != "B.f1270") { Console.WriteLine("FAILED: a.f1270()!=\"B.f1270\""); return 1; }
if (a.f1271() != "B.f1271") { Console.WriteLine("FAILED: a.f1271()!=\"B.f1271\""); return 1; }
if (a.f1272() != "B.f1272") { Console.WriteLine("FAILED: a.f1272()!=\"B.f1272\""); return 1; }
if (a.f1273() != "B.f1273") { Console.WriteLine("FAILED: a.f1273()!=\"B.f1273\""); return 1; }
if (a.f1274() != "B.f1274") { Console.WriteLine("FAILED: a.f1274()!=\"B.f1274\""); return 1; }
if (a.f1275() != "B.f1275") { Console.WriteLine("FAILED: a.f1275()!=\"B.f1275\""); return 1; }
if (a.f1276() != "B.f1276") { Console.WriteLine("FAILED: a.f1276()!=\"B.f1276\""); return 1; }
if (a.f1277() != "B.f1277") { Console.WriteLine("FAILED: a.f1277()!=\"B.f1277\""); return 1; }
if (a.f1278() != "B.f1278") { Console.WriteLine("FAILED: a.f1278()!=\"B.f1278\""); return 1; }
if (a.f1279() != "B.f1279") { Console.WriteLine("FAILED: a.f1279()!=\"B.f1279\""); return 1; }
if (a.f1280() != "B.f1280") { Console.WriteLine("FAILED: a.f1280()!=\"B.f1280\""); return 1; }
if (a.f1281() != "B.f1281") { Console.WriteLine("FAILED: a.f1281()!=\"B.f1281\""); return 1; }
if (a.f1282() != "B.f1282") { Console.WriteLine("FAILED: a.f1282()!=\"B.f1282\""); return 1; }
if (a.f1283() != "B.f1283") { Console.WriteLine("FAILED: a.f1283()!=\"B.f1283\""); return 1; }
if (a.f1284() != "B.f1284") { Console.WriteLine("FAILED: a.f1284()!=\"B.f1284\""); return 1; }
if (a.f1285() != "B.f1285") { Console.WriteLine("FAILED: a.f1285()!=\"B.f1285\""); return 1; }
if (a.f1286() != "B.f1286") { Console.WriteLine("FAILED: a.f1286()!=\"B.f1286\""); return 1; }
if (a.f1287() != "B.f1287") { Console.WriteLine("FAILED: a.f1287()!=\"B.f1287\""); return 1; }
if (a.f1288() != "B.f1288") { Console.WriteLine("FAILED: a.f1288()!=\"B.f1288\""); return 1; }
if (a.f1289() != "B.f1289") { Console.WriteLine("FAILED: a.f1289()!=\"B.f1289\""); return 1; }
if (a.f1290() != "B.f1290") { Console.WriteLine("FAILED: a.f1290()!=\"B.f1290\""); return 1; }
if (a.f1291() != "B.f1291") { Console.WriteLine("FAILED: a.f1291()!=\"B.f1291\""); return 1; }
if (a.f1292() != "B.f1292") { Console.WriteLine("FAILED: a.f1292()!=\"B.f1292\""); return 1; }
if (a.f1293() != "B.f1293") { Console.WriteLine("FAILED: a.f1293()!=\"B.f1293\""); return 1; }
if (a.f1294() != "B.f1294") { Console.WriteLine("FAILED: a.f1294()!=\"B.f1294\""); return 1; }
if (a.f1295() != "B.f1295") { Console.WriteLine("FAILED: a.f1295()!=\"B.f1295\""); return 1; }
if (a.f1296() != "B.f1296") { Console.WriteLine("FAILED: a.f1296()!=\"B.f1296\""); return 1; }
if (a.f1297() != "B.f1297") { Console.WriteLine("FAILED: a.f1297()!=\"B.f1297\""); return 1; }
if (a.f1298() != "B.f1298") { Console.WriteLine("FAILED: a.f1298()!=\"B.f1298\""); return 1; }
if (a.f1299() != "B.f1299") { Console.WriteLine("FAILED: a.f1299()!=\"B.f1299\""); return 1; }
if (a.f1300() != "B.f1300") { Console.WriteLine("FAILED: a.f1300()!=\"B.f1300\""); return 1; }
if (a.f1301() != "B.f1301") { Console.WriteLine("FAILED: a.f1301()!=\"B.f1301\""); return 1; }
if (a.f1302() != "B.f1302") { Console.WriteLine("FAILED: a.f1302()!=\"B.f1302\""); return 1; }
if (a.f1303() != "B.f1303") { Console.WriteLine("FAILED: a.f1303()!=\"B.f1303\""); return 1; }
if (a.f1304() != "B.f1304") { Console.WriteLine("FAILED: a.f1304()!=\"B.f1304\""); return 1; }
if (a.f1305() != "B.f1305") { Console.WriteLine("FAILED: a.f1305()!=\"B.f1305\""); return 1; }
if (a.f1306() != "B.f1306") { Console.WriteLine("FAILED: a.f1306()!=\"B.f1306\""); return 1; }
if (a.f1307() != "B.f1307") { Console.WriteLine("FAILED: a.f1307()!=\"B.f1307\""); return 1; }
if (a.f1308() != "B.f1308") { Console.WriteLine("FAILED: a.f1308()!=\"B.f1308\""); return 1; }
if (a.f1309() != "B.f1309") { Console.WriteLine("FAILED: a.f1309()!=\"B.f1309\""); return 1; }
if (a.f1310() != "B.f1310") { Console.WriteLine("FAILED: a.f1310()!=\"B.f1310\""); return 1; }
if (a.f1311() != "B.f1311") { Console.WriteLine("FAILED: a.f1311()!=\"B.f1311\""); return 1; }
if (a.f1312() != "B.f1312") { Console.WriteLine("FAILED: a.f1312()!=\"B.f1312\""); return 1; }
if (a.f1313() != "B.f1313") { Console.WriteLine("FAILED: a.f1313()!=\"B.f1313\""); return 1; }
if (a.f1314() != "B.f1314") { Console.WriteLine("FAILED: a.f1314()!=\"B.f1314\""); return 1; }
if (a.f1315() != "B.f1315") { Console.WriteLine("FAILED: a.f1315()!=\"B.f1315\""); return 1; }
if (a.f1316() != "B.f1316") { Console.WriteLine("FAILED: a.f1316()!=\"B.f1316\""); return 1; }
if (a.f1317() != "B.f1317") { Console.WriteLine("FAILED: a.f1317()!=\"B.f1317\""); return 1; }
if (a.f1318() != "B.f1318") { Console.WriteLine("FAILED: a.f1318()!=\"B.f1318\""); return 1; }
if (a.f1319() != "B.f1319") { Console.WriteLine("FAILED: a.f1319()!=\"B.f1319\""); return 1; }
if (a.f1320() != "B.f1320") { Console.WriteLine("FAILED: a.f1320()!=\"B.f1320\""); return 1; }
if (a.f1321() != "B.f1321") { Console.WriteLine("FAILED: a.f1321()!=\"B.f1321\""); return 1; }
if (a.f1322() != "B.f1322") { Console.WriteLine("FAILED: a.f1322()!=\"B.f1322\""); return 1; }
if (a.f1323() != "B.f1323") { Console.WriteLine("FAILED: a.f1323()!=\"B.f1323\""); return 1; }
if (a.f1324() != "B.f1324") { Console.WriteLine("FAILED: a.f1324()!=\"B.f1324\""); return 1; }
if (a.f1325() != "B.f1325") { Console.WriteLine("FAILED: a.f1325()!=\"B.f1325\""); return 1; }
if (a.f1326() != "B.f1326") { Console.WriteLine("FAILED: a.f1326()!=\"B.f1326\""); return 1; }
if (a.f1327() != "B.f1327") { Console.WriteLine("FAILED: a.f1327()!=\"B.f1327\""); return 1; }
if (a.f1328() != "B.f1328") { Console.WriteLine("FAILED: a.f1328()!=\"B.f1328\""); return 1; }
if (a.f1329() != "B.f1329") { Console.WriteLine("FAILED: a.f1329()!=\"B.f1329\""); return 1; }
if (a.f1330() != "B.f1330") { Console.WriteLine("FAILED: a.f1330()!=\"B.f1330\""); return 1; }
if (a.f1331() != "B.f1331") { Console.WriteLine("FAILED: a.f1331()!=\"B.f1331\""); return 1; }
if (a.f1332() != "B.f1332") { Console.WriteLine("FAILED: a.f1332()!=\"B.f1332\""); return 1; }
if (a.f1333() != "B.f1333") { Console.WriteLine("FAILED: a.f1333()!=\"B.f1333\""); return 1; }
if (a.f1334() != "B.f1334") { Console.WriteLine("FAILED: a.f1334()!=\"B.f1334\""); return 1; }
if (a.f1335() != "B.f1335") { Console.WriteLine("FAILED: a.f1335()!=\"B.f1335\""); return 1; }
if (a.f1336() != "B.f1336") { Console.WriteLine("FAILED: a.f1336()!=\"B.f1336\""); return 1; }
if (a.f1337() != "B.f1337") { Console.WriteLine("FAILED: a.f1337()!=\"B.f1337\""); return 1; }
if (a.f1338() != "B.f1338") { Console.WriteLine("FAILED: a.f1338()!=\"B.f1338\""); return 1; }
if (a.f1339() != "B.f1339") { Console.WriteLine("FAILED: a.f1339()!=\"B.f1339\""); return 1; }
if (a.f1340() != "B.f1340") { Console.WriteLine("FAILED: a.f1340()!=\"B.f1340\""); return 1; }
if (a.f1341() != "B.f1341") { Console.WriteLine("FAILED: a.f1341()!=\"B.f1341\""); return 1; }
if (a.f1342() != "B.f1342") { Console.WriteLine("FAILED: a.f1342()!=\"B.f1342\""); return 1; }
if (a.f1343() != "B.f1343") { Console.WriteLine("FAILED: a.f1343()!=\"B.f1343\""); return 1; }
if (a.f1344() != "B.f1344") { Console.WriteLine("FAILED: a.f1344()!=\"B.f1344\""); return 1; }
if (a.f1345() != "B.f1345") { Console.WriteLine("FAILED: a.f1345()!=\"B.f1345\""); return 1; }
if (a.f1346() != "B.f1346") { Console.WriteLine("FAILED: a.f1346()!=\"B.f1346\""); return 1; }
if (a.f1347() != "B.f1347") { Console.WriteLine("FAILED: a.f1347()!=\"B.f1347\""); return 1; }
if (a.f1348() != "B.f1348") { Console.WriteLine("FAILED: a.f1348()!=\"B.f1348\""); return 1; }
if (a.f1349() != "B.f1349") { Console.WriteLine("FAILED: a.f1349()!=\"B.f1349\""); return 1; }
if (a.f1350() != "B.f1350") { Console.WriteLine("FAILED: a.f1350()!=\"B.f1350\""); return 1; }
if (a.f1351() != "B.f1351") { Console.WriteLine("FAILED: a.f1351()!=\"B.f1351\""); return 1; }
if (a.f1352() != "B.f1352") { Console.WriteLine("FAILED: a.f1352()!=\"B.f1352\""); return 1; }
if (a.f1353() != "B.f1353") { Console.WriteLine("FAILED: a.f1353()!=\"B.f1353\""); return 1; }
if (a.f1354() != "B.f1354") { Console.WriteLine("FAILED: a.f1354()!=\"B.f1354\""); return 1; }
if (a.f1355() != "B.f1355") { Console.WriteLine("FAILED: a.f1355()!=\"B.f1355\""); return 1; }
if (a.f1356() != "B.f1356") { Console.WriteLine("FAILED: a.f1356()!=\"B.f1356\""); return 1; }
if (a.f1357() != "B.f1357") { Console.WriteLine("FAILED: a.f1357()!=\"B.f1357\""); return 1; }
if (a.f1358() != "B.f1358") { Console.WriteLine("FAILED: a.f1358()!=\"B.f1358\""); return 1; }
if (a.f1359() != "B.f1359") { Console.WriteLine("FAILED: a.f1359()!=\"B.f1359\""); return 1; }
if (a.f1360() != "B.f1360") { Console.WriteLine("FAILED: a.f1360()!=\"B.f1360\""); return 1; }
if (a.f1361() != "B.f1361") { Console.WriteLine("FAILED: a.f1361()!=\"B.f1361\""); return 1; }
if (a.f1362() != "B.f1362") { Console.WriteLine("FAILED: a.f1362()!=\"B.f1362\""); return 1; }
if (a.f1363() != "B.f1363") { Console.WriteLine("FAILED: a.f1363()!=\"B.f1363\""); return 1; }
if (a.f1364() != "B.f1364") { Console.WriteLine("FAILED: a.f1364()!=\"B.f1364\""); return 1; }
if (a.f1365() != "B.f1365") { Console.WriteLine("FAILED: a.f1365()!=\"B.f1365\""); return 1; }
if (a.f1366() != "B.f1366") { Console.WriteLine("FAILED: a.f1366()!=\"B.f1366\""); return 1; }
if (a.f1367() != "B.f1367") { Console.WriteLine("FAILED: a.f1367()!=\"B.f1367\""); return 1; }
if (a.f1368() != "B.f1368") { Console.WriteLine("FAILED: a.f1368()!=\"B.f1368\""); return 1; }
if (a.f1369() != "B.f1369") { Console.WriteLine("FAILED: a.f1369()!=\"B.f1369\""); return 1; }
if (a.f1370() != "B.f1370") { Console.WriteLine("FAILED: a.f1370()!=\"B.f1370\""); return 1; }
if (a.f1371() != "B.f1371") { Console.WriteLine("FAILED: a.f1371()!=\"B.f1371\""); return 1; }
if (a.f1372() != "B.f1372") { Console.WriteLine("FAILED: a.f1372()!=\"B.f1372\""); return 1; }
if (a.f1373() != "B.f1373") { Console.WriteLine("FAILED: a.f1373()!=\"B.f1373\""); return 1; }
if (a.f1374() != "B.f1374") { Console.WriteLine("FAILED: a.f1374()!=\"B.f1374\""); return 1; }
if (a.f1375() != "B.f1375") { Console.WriteLine("FAILED: a.f1375()!=\"B.f1375\""); return 1; }
if (a.f1376() != "B.f1376") { Console.WriteLine("FAILED: a.f1376()!=\"B.f1376\""); return 1; }
if (a.f1377() != "B.f1377") { Console.WriteLine("FAILED: a.f1377()!=\"B.f1377\""); return 1; }
if (a.f1378() != "B.f1378") { Console.WriteLine("FAILED: a.f1378()!=\"B.f1378\""); return 1; }
if (a.f1379() != "B.f1379") { Console.WriteLine("FAILED: a.f1379()!=\"B.f1379\""); return 1; }
if (a.f1380() != "B.f1380") { Console.WriteLine("FAILED: a.f1380()!=\"B.f1380\""); return 1; }
if (a.f1381() != "B.f1381") { Console.WriteLine("FAILED: a.f1381()!=\"B.f1381\""); return 1; }
if (a.f1382() != "B.f1382") { Console.WriteLine("FAILED: a.f1382()!=\"B.f1382\""); return 1; }
if (a.f1383() != "B.f1383") { Console.WriteLine("FAILED: a.f1383()!=\"B.f1383\""); return 1; }
if (a.f1384() != "B.f1384") { Console.WriteLine("FAILED: a.f1384()!=\"B.f1384\""); return 1; }
if (a.f1385() != "B.f1385") { Console.WriteLine("FAILED: a.f1385()!=\"B.f1385\""); return 1; }
if (a.f1386() != "B.f1386") { Console.WriteLine("FAILED: a.f1386()!=\"B.f1386\""); return 1; }
if (a.f1387() != "B.f1387") { Console.WriteLine("FAILED: a.f1387()!=\"B.f1387\""); return 1; }
if (a.f1388() != "B.f1388") { Console.WriteLine("FAILED: a.f1388()!=\"B.f1388\""); return 1; }
if (a.f1389() != "B.f1389") { Console.WriteLine("FAILED: a.f1389()!=\"B.f1389\""); return 1; }
if (a.f1390() != "B.f1390") { Console.WriteLine("FAILED: a.f1390()!=\"B.f1390\""); return 1; }
if (a.f1391() != "B.f1391") { Console.WriteLine("FAILED: a.f1391()!=\"B.f1391\""); return 1; }
if (a.f1392() != "B.f1392") { Console.WriteLine("FAILED: a.f1392()!=\"B.f1392\""); return 1; }
if (a.f1393() != "B.f1393") { Console.WriteLine("FAILED: a.f1393()!=\"B.f1393\""); return 1; }
if (a.f1394() != "B.f1394") { Console.WriteLine("FAILED: a.f1394()!=\"B.f1394\""); return 1; }
if (a.f1395() != "B.f1395") { Console.WriteLine("FAILED: a.f1395()!=\"B.f1395\""); return 1; }
if (a.f1396() != "B.f1396") { Console.WriteLine("FAILED: a.f1396()!=\"B.f1396\""); return 1; }
if (a.f1397() != "B.f1397") { Console.WriteLine("FAILED: a.f1397()!=\"B.f1397\""); return 1; }
if (a.f1398() != "B.f1398") { Console.WriteLine("FAILED: a.f1398()!=\"B.f1398\""); return 1; }
if (a.f1399() != "B.f1399") { Console.WriteLine("FAILED: a.f1399()!=\"B.f1399\""); return 1; }
if (a.f1400() != "B.f1400") { Console.WriteLine("FAILED: a.f1400()!=\"B.f1400\""); return 1; }
if (a.f1401() != "B.f1401") { Console.WriteLine("FAILED: a.f1401()!=\"B.f1401\""); return 1; }
if (a.f1402() != "B.f1402") { Console.WriteLine("FAILED: a.f1402()!=\"B.f1402\""); return 1; }
if (a.f1403() != "B.f1403") { Console.WriteLine("FAILED: a.f1403()!=\"B.f1403\""); return 1; }
if (a.f1404() != "B.f1404") { Console.WriteLine("FAILED: a.f1404()!=\"B.f1404\""); return 1; }
if (a.f1405() != "B.f1405") { Console.WriteLine("FAILED: a.f1405()!=\"B.f1405\""); return 1; }
if (a.f1406() != "B.f1406") { Console.WriteLine("FAILED: a.f1406()!=\"B.f1406\""); return 1; }
if (a.f1407() != "B.f1407") { Console.WriteLine("FAILED: a.f1407()!=\"B.f1407\""); return 1; }
if (a.f1408() != "B.f1408") { Console.WriteLine("FAILED: a.f1408()!=\"B.f1408\""); return 1; }
if (a.f1409() != "B.f1409") { Console.WriteLine("FAILED: a.f1409()!=\"B.f1409\""); return 1; }
if (a.f1410() != "B.f1410") { Console.WriteLine("FAILED: a.f1410()!=\"B.f1410\""); return 1; }
if (a.f1411() != "B.f1411") { Console.WriteLine("FAILED: a.f1411()!=\"B.f1411\""); return 1; }
if (a.f1412() != "B.f1412") { Console.WriteLine("FAILED: a.f1412()!=\"B.f1412\""); return 1; }
if (a.f1413() != "B.f1413") { Console.WriteLine("FAILED: a.f1413()!=\"B.f1413\""); return 1; }
if (a.f1414() != "B.f1414") { Console.WriteLine("FAILED: a.f1414()!=\"B.f1414\""); return 1; }
if (a.f1415() != "B.f1415") { Console.WriteLine("FAILED: a.f1415()!=\"B.f1415\""); return 1; }
if (a.f1416() != "B.f1416") { Console.WriteLine("FAILED: a.f1416()!=\"B.f1416\""); return 1; }
if (a.f1417() != "B.f1417") { Console.WriteLine("FAILED: a.f1417()!=\"B.f1417\""); return 1; }
if (a.f1418() != "B.f1418") { Console.WriteLine("FAILED: a.f1418()!=\"B.f1418\""); return 1; }
if (a.f1419() != "B.f1419") { Console.WriteLine("FAILED: a.f1419()!=\"B.f1419\""); return 1; }
if (a.f1420() != "B.f1420") { Console.WriteLine("FAILED: a.f1420()!=\"B.f1420\""); return 1; }
if (a.f1421() != "B.f1421") { Console.WriteLine("FAILED: a.f1421()!=\"B.f1421\""); return 1; }
if (a.f1422() != "B.f1422") { Console.WriteLine("FAILED: a.f1422()!=\"B.f1422\""); return 1; }
if (a.f1423() != "B.f1423") { Console.WriteLine("FAILED: a.f1423()!=\"B.f1423\""); return 1; }
if (a.f1424() != "B.f1424") { Console.WriteLine("FAILED: a.f1424()!=\"B.f1424\""); return 1; }
if (a.f1425() != "B.f1425") { Console.WriteLine("FAILED: a.f1425()!=\"B.f1425\""); return 1; }
if (a.f1426() != "B.f1426") { Console.WriteLine("FAILED: a.f1426()!=\"B.f1426\""); return 1; }
if (a.f1427() != "B.f1427") { Console.WriteLine("FAILED: a.f1427()!=\"B.f1427\""); return 1; }
if (a.f1428() != "B.f1428") { Console.WriteLine("FAILED: a.f1428()!=\"B.f1428\""); return 1; }
if (a.f1429() != "B.f1429") { Console.WriteLine("FAILED: a.f1429()!=\"B.f1429\""); return 1; }
if (a.f1430() != "B.f1430") { Console.WriteLine("FAILED: a.f1430()!=\"B.f1430\""); return 1; }
if (a.f1431() != "B.f1431") { Console.WriteLine("FAILED: a.f1431()!=\"B.f1431\""); return 1; }
if (a.f1432() != "B.f1432") { Console.WriteLine("FAILED: a.f1432()!=\"B.f1432\""); return 1; }
if (a.f1433() != "B.f1433") { Console.WriteLine("FAILED: a.f1433()!=\"B.f1433\""); return 1; }
if (a.f1434() != "B.f1434") { Console.WriteLine("FAILED: a.f1434()!=\"B.f1434\""); return 1; }
if (a.f1435() != "B.f1435") { Console.WriteLine("FAILED: a.f1435()!=\"B.f1435\""); return 1; }
if (a.f1436() != "B.f1436") { Console.WriteLine("FAILED: a.f1436()!=\"B.f1436\""); return 1; }
if (a.f1437() != "B.f1437") { Console.WriteLine("FAILED: a.f1437()!=\"B.f1437\""); return 1; }
if (a.f1438() != "B.f1438") { Console.WriteLine("FAILED: a.f1438()!=\"B.f1438\""); return 1; }
if (a.f1439() != "B.f1439") { Console.WriteLine("FAILED: a.f1439()!=\"B.f1439\""); return 1; }
if (a.f1440() != "B.f1440") { Console.WriteLine("FAILED: a.f1440()!=\"B.f1440\""); return 1; }
if (a.f1441() != "B.f1441") { Console.WriteLine("FAILED: a.f1441()!=\"B.f1441\""); return 1; }
if (a.f1442() != "B.f1442") { Console.WriteLine("FAILED: a.f1442()!=\"B.f1442\""); return 1; }
if (a.f1443() != "B.f1443") { Console.WriteLine("FAILED: a.f1443()!=\"B.f1443\""); return 1; }
if (a.f1444() != "B.f1444") { Console.WriteLine("FAILED: a.f1444()!=\"B.f1444\""); return 1; }
if (a.f1445() != "B.f1445") { Console.WriteLine("FAILED: a.f1445()!=\"B.f1445\""); return 1; }
if (a.f1446() != "B.f1446") { Console.WriteLine("FAILED: a.f1446()!=\"B.f1446\""); return 1; }
if (a.f1447() != "B.f1447") { Console.WriteLine("FAILED: a.f1447()!=\"B.f1447\""); return 1; }
if (a.f1448() != "B.f1448") { Console.WriteLine("FAILED: a.f1448()!=\"B.f1448\""); return 1; }
if (a.f1449() != "B.f1449") { Console.WriteLine("FAILED: a.f1449()!=\"B.f1449\""); return 1; }
if (a.f1450() != "B.f1450") { Console.WriteLine("FAILED: a.f1450()!=\"B.f1450\""); return 1; }
if (a.f1451() != "B.f1451") { Console.WriteLine("FAILED: a.f1451()!=\"B.f1451\""); return 1; }
if (a.f1452() != "B.f1452") { Console.WriteLine("FAILED: a.f1452()!=\"B.f1452\""); return 1; }
if (a.f1453() != "B.f1453") { Console.WriteLine("FAILED: a.f1453()!=\"B.f1453\""); return 1; }
if (a.f1454() != "B.f1454") { Console.WriteLine("FAILED: a.f1454()!=\"B.f1454\""); return 1; }
if (a.f1455() != "B.f1455") { Console.WriteLine("FAILED: a.f1455()!=\"B.f1455\""); return 1; }
if (a.f1456() != "B.f1456") { Console.WriteLine("FAILED: a.f1456()!=\"B.f1456\""); return 1; }
if (a.f1457() != "B.f1457") { Console.WriteLine("FAILED: a.f1457()!=\"B.f1457\""); return 1; }
if (a.f1458() != "B.f1458") { Console.WriteLine("FAILED: a.f1458()!=\"B.f1458\""); return 1; }
if (a.f1459() != "B.f1459") { Console.WriteLine("FAILED: a.f1459()!=\"B.f1459\""); return 1; }
if (a.f1460() != "B.f1460") { Console.WriteLine("FAILED: a.f1460()!=\"B.f1460\""); return 1; }
if (a.f1461() != "B.f1461") { Console.WriteLine("FAILED: a.f1461()!=\"B.f1461\""); return 1; }
if (a.f1462() != "B.f1462") { Console.WriteLine("FAILED: a.f1462()!=\"B.f1462\""); return 1; }
if (a.f1463() != "B.f1463") { Console.WriteLine("FAILED: a.f1463()!=\"B.f1463\""); return 1; }
if (a.f1464() != "B.f1464") { Console.WriteLine("FAILED: a.f1464()!=\"B.f1464\""); return 1; }
if (a.f1465() != "B.f1465") { Console.WriteLine("FAILED: a.f1465()!=\"B.f1465\""); return 1; }
if (a.f1466() != "B.f1466") { Console.WriteLine("FAILED: a.f1466()!=\"B.f1466\""); return 1; }
if (a.f1467() != "B.f1467") { Console.WriteLine("FAILED: a.f1467()!=\"B.f1467\""); return 1; }
if (a.f1468() != "B.f1468") { Console.WriteLine("FAILED: a.f1468()!=\"B.f1468\""); return 1; }
if (a.f1469() != "B.f1469") { Console.WriteLine("FAILED: a.f1469()!=\"B.f1469\""); return 1; }
if (a.f1470() != "B.f1470") { Console.WriteLine("FAILED: a.f1470()!=\"B.f1470\""); return 1; }
if (a.f1471() != "B.f1471") { Console.WriteLine("FAILED: a.f1471()!=\"B.f1471\""); return 1; }
if (a.f1472() != "B.f1472") { Console.WriteLine("FAILED: a.f1472()!=\"B.f1472\""); return 1; }
if (a.f1473() != "B.f1473") { Console.WriteLine("FAILED: a.f1473()!=\"B.f1473\""); return 1; }
if (a.f1474() != "B.f1474") { Console.WriteLine("FAILED: a.f1474()!=\"B.f1474\""); return 1; }
if (a.f1475() != "B.f1475") { Console.WriteLine("FAILED: a.f1475()!=\"B.f1475\""); return 1; }
if (a.f1476() != "B.f1476") { Console.WriteLine("FAILED: a.f1476()!=\"B.f1476\""); return 1; }
if (a.f1477() != "B.f1477") { Console.WriteLine("FAILED: a.f1477()!=\"B.f1477\""); return 1; }
if (a.f1478() != "B.f1478") { Console.WriteLine("FAILED: a.f1478()!=\"B.f1478\""); return 1; }
if (a.f1479() != "B.f1479") { Console.WriteLine("FAILED: a.f1479()!=\"B.f1479\""); return 1; }
if (a.f1480() != "B.f1480") { Console.WriteLine("FAILED: a.f1480()!=\"B.f1480\""); return 1; }
if (a.f1481() != "B.f1481") { Console.WriteLine("FAILED: a.f1481()!=\"B.f1481\""); return 1; }
if (a.f1482() != "B.f1482") { Console.WriteLine("FAILED: a.f1482()!=\"B.f1482\""); return 1; }
if (a.f1483() != "B.f1483") { Console.WriteLine("FAILED: a.f1483()!=\"B.f1483\""); return 1; }
if (a.f1484() != "B.f1484") { Console.WriteLine("FAILED: a.f1484()!=\"B.f1484\""); return 1; }
if (a.f1485() != "B.f1485") { Console.WriteLine("FAILED: a.f1485()!=\"B.f1485\""); return 1; }
if (a.f1486() != "B.f1486") { Console.WriteLine("FAILED: a.f1486()!=\"B.f1486\""); return 1; }
if (a.f1487() != "B.f1487") { Console.WriteLine("FAILED: a.f1487()!=\"B.f1487\""); return 1; }
if (a.f1488() != "B.f1488") { Console.WriteLine("FAILED: a.f1488()!=\"B.f1488\""); return 1; }
if (a.f1489() != "B.f1489") { Console.WriteLine("FAILED: a.f1489()!=\"B.f1489\""); return 1; }
if (a.f1490() != "B.f1490") { Console.WriteLine("FAILED: a.f1490()!=\"B.f1490\""); return 1; }
if (a.f1491() != "B.f1491") { Console.WriteLine("FAILED: a.f1491()!=\"B.f1491\""); return 1; }
if (a.f1492() != "B.f1492") { Console.WriteLine("FAILED: a.f1492()!=\"B.f1492\""); return 1; }
if (a.f1493() != "B.f1493") { Console.WriteLine("FAILED: a.f1493()!=\"B.f1493\""); return 1; }
if (a.f1494() != "B.f1494") { Console.WriteLine("FAILED: a.f1494()!=\"B.f1494\""); return 1; }
if (a.f1495() != "B.f1495") { Console.WriteLine("FAILED: a.f1495()!=\"B.f1495\""); return 1; }
if (a.f1496() != "B.f1496") { Console.WriteLine("FAILED: a.f1496()!=\"B.f1496\""); return 1; }
if (a.f1497() != "B.f1497") { Console.WriteLine("FAILED: a.f1497()!=\"B.f1497\""); return 1; }
if (a.f1498() != "B.f1498") { Console.WriteLine("FAILED: a.f1498()!=\"B.f1498\""); return 1; }
if (a.f1499() != "B.f1499") { Console.WriteLine("FAILED: a.f1499()!=\"B.f1499\""); return 1; }
if (a.f1500() != "B.f1500") { Console.WriteLine("FAILED: a.f1500()!=\"B.f1500\""); return 1; }
if (a.f1501() != "B.f1501") { Console.WriteLine("FAILED: a.f1501()!=\"B.f1501\""); return 1; }
if (a.f1502() != "B.f1502") { Console.WriteLine("FAILED: a.f1502()!=\"B.f1502\""); return 1; }
if (a.f1503() != "B.f1503") { Console.WriteLine("FAILED: a.f1503()!=\"B.f1503\""); return 1; }
if (a.f1504() != "B.f1504") { Console.WriteLine("FAILED: a.f1504()!=\"B.f1504\""); return 1; }
if (a.f1505() != "B.f1505") { Console.WriteLine("FAILED: a.f1505()!=\"B.f1505\""); return 1; }
if (a.f1506() != "B.f1506") { Console.WriteLine("FAILED: a.f1506()!=\"B.f1506\""); return 1; }
if (a.f1507() != "B.f1507") { Console.WriteLine("FAILED: a.f1507()!=\"B.f1507\""); return 1; }
if (a.f1508() != "B.f1508") { Console.WriteLine("FAILED: a.f1508()!=\"B.f1508\""); return 1; }
if (a.f1509() != "B.f1509") { Console.WriteLine("FAILED: a.f1509()!=\"B.f1509\""); return 1; }
if (a.f1510() != "B.f1510") { Console.WriteLine("FAILED: a.f1510()!=\"B.f1510\""); return 1; }
if (a.f1511() != "B.f1511") { Console.WriteLine("FAILED: a.f1511()!=\"B.f1511\""); return 1; }
if (a.f1512() != "B.f1512") { Console.WriteLine("FAILED: a.f1512()!=\"B.f1512\""); return 1; }
if (a.f1513() != "B.f1513") { Console.WriteLine("FAILED: a.f1513()!=\"B.f1513\""); return 1; }
if (a.f1514() != "B.f1514") { Console.WriteLine("FAILED: a.f1514()!=\"B.f1514\""); return 1; }
if (a.f1515() != "B.f1515") { Console.WriteLine("FAILED: a.f1515()!=\"B.f1515\""); return 1; }
if (a.f1516() != "B.f1516") { Console.WriteLine("FAILED: a.f1516()!=\"B.f1516\""); return 1; }
if (a.f1517() != "B.f1517") { Console.WriteLine("FAILED: a.f1517()!=\"B.f1517\""); return 1; }
if (a.f1518() != "B.f1518") { Console.WriteLine("FAILED: a.f1518()!=\"B.f1518\""); return 1; }
if (a.f1519() != "B.f1519") { Console.WriteLine("FAILED: a.f1519()!=\"B.f1519\""); return 1; }
if (a.f1520() != "B.f1520") { Console.WriteLine("FAILED: a.f1520()!=\"B.f1520\""); return 1; }
if (a.f1521() != "B.f1521") { Console.WriteLine("FAILED: a.f1521()!=\"B.f1521\""); return 1; }
if (a.f1522() != "B.f1522") { Console.WriteLine("FAILED: a.f1522()!=\"B.f1522\""); return 1; }
if (a.f1523() != "B.f1523") { Console.WriteLine("FAILED: a.f1523()!=\"B.f1523\""); return 1; }
if (a.f1524() != "B.f1524") { Console.WriteLine("FAILED: a.f1524()!=\"B.f1524\""); return 1; }
if (a.f1525() != "B.f1525") { Console.WriteLine("FAILED: a.f1525()!=\"B.f1525\""); return 1; }
if (a.f1526() != "B.f1526") { Console.WriteLine("FAILED: a.f1526()!=\"B.f1526\""); return 1; }
if (a.f1527() != "B.f1527") { Console.WriteLine("FAILED: a.f1527()!=\"B.f1527\""); return 1; }
if (a.f1528() != "B.f1528") { Console.WriteLine("FAILED: a.f1528()!=\"B.f1528\""); return 1; }
if (a.f1529() != "B.f1529") { Console.WriteLine("FAILED: a.f1529()!=\"B.f1529\""); return 1; }
if (a.f1530() != "B.f1530") { Console.WriteLine("FAILED: a.f1530()!=\"B.f1530\""); return 1; }
if (a.f1531() != "B.f1531") { Console.WriteLine("FAILED: a.f1531()!=\"B.f1531\""); return 1; }
if (a.f1532() != "B.f1532") { Console.WriteLine("FAILED: a.f1532()!=\"B.f1532\""); return 1; }
if (a.f1533() != "B.f1533") { Console.WriteLine("FAILED: a.f1533()!=\"B.f1533\""); return 1; }
if (a.f1534() != "B.f1534") { Console.WriteLine("FAILED: a.f1534()!=\"B.f1534\""); return 1; }
if (a.f1535() != "B.f1535") { Console.WriteLine("FAILED: a.f1535()!=\"B.f1535\""); return 1; }
if (a.f1536() != "B.f1536") { Console.WriteLine("FAILED: a.f1536()!=\"B.f1536\""); return 1; }
if (a.f1537() != "B.f1537") { Console.WriteLine("FAILED: a.f1537()!=\"B.f1537\""); return 1; }
if (a.f1538() != "B.f1538") { Console.WriteLine("FAILED: a.f1538()!=\"B.f1538\""); return 1; }
if (a.f1539() != "B.f1539") { Console.WriteLine("FAILED: a.f1539()!=\"B.f1539\""); return 1; }
if (a.f1540() != "B.f1540") { Console.WriteLine("FAILED: a.f1540()!=\"B.f1540\""); return 1; }
if (a.f1541() != "B.f1541") { Console.WriteLine("FAILED: a.f1541()!=\"B.f1541\""); return 1; }
if (a.f1542() != "B.f1542") { Console.WriteLine("FAILED: a.f1542()!=\"B.f1542\""); return 1; }
if (a.f1543() != "B.f1543") { Console.WriteLine("FAILED: a.f1543()!=\"B.f1543\""); return 1; }
if (a.f1544() != "B.f1544") { Console.WriteLine("FAILED: a.f1544()!=\"B.f1544\""); return 1; }
if (a.f1545() != "B.f1545") { Console.WriteLine("FAILED: a.f1545()!=\"B.f1545\""); return 1; }
if (a.f1546() != "B.f1546") { Console.WriteLine("FAILED: a.f1546()!=\"B.f1546\""); return 1; }
if (a.f1547() != "B.f1547") { Console.WriteLine("FAILED: a.f1547()!=\"B.f1547\""); return 1; }
if (a.f1548() != "B.f1548") { Console.WriteLine("FAILED: a.f1548()!=\"B.f1548\""); return 1; }
if (a.f1549() != "B.f1549") { Console.WriteLine("FAILED: a.f1549()!=\"B.f1549\""); return 1; }
if (a.f1550() != "B.f1550") { Console.WriteLine("FAILED: a.f1550()!=\"B.f1550\""); return 1; }
if (a.f1551() != "B.f1551") { Console.WriteLine("FAILED: a.f1551()!=\"B.f1551\""); return 1; }
if (a.f1552() != "B.f1552") { Console.WriteLine("FAILED: a.f1552()!=\"B.f1552\""); return 1; }
if (a.f1553() != "B.f1553") { Console.WriteLine("FAILED: a.f1553()!=\"B.f1553\""); return 1; }
if (a.f1554() != "B.f1554") { Console.WriteLine("FAILED: a.f1554()!=\"B.f1554\""); return 1; }
if (a.f1555() != "B.f1555") { Console.WriteLine("FAILED: a.f1555()!=\"B.f1555\""); return 1; }
if (a.f1556() != "B.f1556") { Console.WriteLine("FAILED: a.f1556()!=\"B.f1556\""); return 1; }
if (a.f1557() != "B.f1557") { Console.WriteLine("FAILED: a.f1557()!=\"B.f1557\""); return 1; }
if (a.f1558() != "B.f1558") { Console.WriteLine("FAILED: a.f1558()!=\"B.f1558\""); return 1; }
if (a.f1559() != "B.f1559") { Console.WriteLine("FAILED: a.f1559()!=\"B.f1559\""); return 1; }
if (a.f1560() != "B.f1560") { Console.WriteLine("FAILED: a.f1560()!=\"B.f1560\""); return 1; }
if (a.f1561() != "B.f1561") { Console.WriteLine("FAILED: a.f1561()!=\"B.f1561\""); return 1; }
if (a.f1562() != "B.f1562") { Console.WriteLine("FAILED: a.f1562()!=\"B.f1562\""); return 1; }
if (a.f1563() != "B.f1563") { Console.WriteLine("FAILED: a.f1563()!=\"B.f1563\""); return 1; }
if (a.f1564() != "B.f1564") { Console.WriteLine("FAILED: a.f1564()!=\"B.f1564\""); return 1; }
if (a.f1565() != "B.f1565") { Console.WriteLine("FAILED: a.f1565()!=\"B.f1565\""); return 1; }
if (a.f1566() != "B.f1566") { Console.WriteLine("FAILED: a.f1566()!=\"B.f1566\""); return 1; }
if (a.f1567() != "B.f1567") { Console.WriteLine("FAILED: a.f1567()!=\"B.f1567\""); return 1; }
if (a.f1568() != "B.f1568") { Console.WriteLine("FAILED: a.f1568()!=\"B.f1568\""); return 1; }
if (a.f1569() != "B.f1569") { Console.WriteLine("FAILED: a.f1569()!=\"B.f1569\""); return 1; }
if (a.f1570() != "B.f1570") { Console.WriteLine("FAILED: a.f1570()!=\"B.f1570\""); return 1; }
if (a.f1571() != "B.f1571") { Console.WriteLine("FAILED: a.f1571()!=\"B.f1571\""); return 1; }
if (a.f1572() != "B.f1572") { Console.WriteLine("FAILED: a.f1572()!=\"B.f1572\""); return 1; }
if (a.f1573() != "B.f1573") { Console.WriteLine("FAILED: a.f1573()!=\"B.f1573\""); return 1; }
if (a.f1574() != "B.f1574") { Console.WriteLine("FAILED: a.f1574()!=\"B.f1574\""); return 1; }
if (a.f1575() != "B.f1575") { Console.WriteLine("FAILED: a.f1575()!=\"B.f1575\""); return 1; }
if (a.f1576() != "B.f1576") { Console.WriteLine("FAILED: a.f1576()!=\"B.f1576\""); return 1; }
if (a.f1577() != "B.f1577") { Console.WriteLine("FAILED: a.f1577()!=\"B.f1577\""); return 1; }
if (a.f1578() != "B.f1578") { Console.WriteLine("FAILED: a.f1578()!=\"B.f1578\""); return 1; }
if (a.f1579() != "B.f1579") { Console.WriteLine("FAILED: a.f1579()!=\"B.f1579\""); return 1; }
if (a.f1580() != "B.f1580") { Console.WriteLine("FAILED: a.f1580()!=\"B.f1580\""); return 1; }
if (a.f1581() != "B.f1581") { Console.WriteLine("FAILED: a.f1581()!=\"B.f1581\""); return 1; }
if (a.f1582() != "B.f1582") { Console.WriteLine("FAILED: a.f1582()!=\"B.f1582\""); return 1; }
if (a.f1583() != "B.f1583") { Console.WriteLine("FAILED: a.f1583()!=\"B.f1583\""); return 1; }
if (a.f1584() != "B.f1584") { Console.WriteLine("FAILED: a.f1584()!=\"B.f1584\""); return 1; }
if (a.f1585() != "B.f1585") { Console.WriteLine("FAILED: a.f1585()!=\"B.f1585\""); return 1; }
if (a.f1586() != "B.f1586") { Console.WriteLine("FAILED: a.f1586()!=\"B.f1586\""); return 1; }
if (a.f1587() != "B.f1587") { Console.WriteLine("FAILED: a.f1587()!=\"B.f1587\""); return 1; }
if (a.f1588() != "B.f1588") { Console.WriteLine("FAILED: a.f1588()!=\"B.f1588\""); return 1; }
if (a.f1589() != "B.f1589") { Console.WriteLine("FAILED: a.f1589()!=\"B.f1589\""); return 1; }
if (a.f1590() != "B.f1590") { Console.WriteLine("FAILED: a.f1590()!=\"B.f1590\""); return 1; }
if (a.f1591() != "B.f1591") { Console.WriteLine("FAILED: a.f1591()!=\"B.f1591\""); return 1; }
if (a.f1592() != "B.f1592") { Console.WriteLine("FAILED: a.f1592()!=\"B.f1592\""); return 1; }
if (a.f1593() != "B.f1593") { Console.WriteLine("FAILED: a.f1593()!=\"B.f1593\""); return 1; }
if (a.f1594() != "B.f1594") { Console.WriteLine("FAILED: a.f1594()!=\"B.f1594\""); return 1; }
if (a.f1595() != "B.f1595") { Console.WriteLine("FAILED: a.f1595()!=\"B.f1595\""); return 1; }
if (a.f1596() != "B.f1596") { Console.WriteLine("FAILED: a.f1596()!=\"B.f1596\""); return 1; }
if (a.f1597() != "B.f1597") { Console.WriteLine("FAILED: a.f1597()!=\"B.f1597\""); return 1; }
if (a.f1598() != "B.f1598") { Console.WriteLine("FAILED: a.f1598()!=\"B.f1598\""); return 1; }
if (a.f1599() != "B.f1599") { Console.WriteLine("FAILED: a.f1599()!=\"B.f1599\""); return 1; }
if (a.f1600() != "B.f1600") { Console.WriteLine("FAILED: a.f1600()!=\"B.f1600\""); return 1; }
if (a.f1601() != "B.f1601") { Console.WriteLine("FAILED: a.f1601()!=\"B.f1601\""); return 1; }
if (a.f1602() != "B.f1602") { Console.WriteLine("FAILED: a.f1602()!=\"B.f1602\""); return 1; }
if (a.f1603() != "B.f1603") { Console.WriteLine("FAILED: a.f1603()!=\"B.f1603\""); return 1; }
if (a.f1604() != "B.f1604") { Console.WriteLine("FAILED: a.f1604()!=\"B.f1604\""); return 1; }
if (a.f1605() != "B.f1605") { Console.WriteLine("FAILED: a.f1605()!=\"B.f1605\""); return 1; }
if (a.f1606() != "B.f1606") { Console.WriteLine("FAILED: a.f1606()!=\"B.f1606\""); return 1; }
if (a.f1607() != "B.f1607") { Console.WriteLine("FAILED: a.f1607()!=\"B.f1607\""); return 1; }
if (a.f1608() != "B.f1608") { Console.WriteLine("FAILED: a.f1608()!=\"B.f1608\""); return 1; }
if (a.f1609() != "B.f1609") { Console.WriteLine("FAILED: a.f1609()!=\"B.f1609\""); return 1; }
if (a.f1610() != "B.f1610") { Console.WriteLine("FAILED: a.f1610()!=\"B.f1610\""); return 1; }
if (a.f1611() != "B.f1611") { Console.WriteLine("FAILED: a.f1611()!=\"B.f1611\""); return 1; }
if (a.f1612() != "B.f1612") { Console.WriteLine("FAILED: a.f1612()!=\"B.f1612\""); return 1; }
if (a.f1613() != "B.f1613") { Console.WriteLine("FAILED: a.f1613()!=\"B.f1613\""); return 1; }
if (a.f1614() != "B.f1614") { Console.WriteLine("FAILED: a.f1614()!=\"B.f1614\""); return 1; }
if (a.f1615() != "B.f1615") { Console.WriteLine("FAILED: a.f1615()!=\"B.f1615\""); return 1; }
if (a.f1616() != "B.f1616") { Console.WriteLine("FAILED: a.f1616()!=\"B.f1616\""); return 1; }
if (a.f1617() != "B.f1617") { Console.WriteLine("FAILED: a.f1617()!=\"B.f1617\""); return 1; }
if (a.f1618() != "B.f1618") { Console.WriteLine("FAILED: a.f1618()!=\"B.f1618\""); return 1; }
if (a.f1619() != "B.f1619") { Console.WriteLine("FAILED: a.f1619()!=\"B.f1619\""); return 1; }
if (a.f1620() != "B.f1620") { Console.WriteLine("FAILED: a.f1620()!=\"B.f1620\""); return 1; }
if (a.f1621() != "B.f1621") { Console.WriteLine("FAILED: a.f1621()!=\"B.f1621\""); return 1; }
if (a.f1622() != "B.f1622") { Console.WriteLine("FAILED: a.f1622()!=\"B.f1622\""); return 1; }
if (a.f1623() != "B.f1623") { Console.WriteLine("FAILED: a.f1623()!=\"B.f1623\""); return 1; }
if (a.f1624() != "B.f1624") { Console.WriteLine("FAILED: a.f1624()!=\"B.f1624\""); return 1; }
if (a.f1625() != "B.f1625") { Console.WriteLine("FAILED: a.f1625()!=\"B.f1625\""); return 1; }
if (a.f1626() != "B.f1626") { Console.WriteLine("FAILED: a.f1626()!=\"B.f1626\""); return 1; }
if (a.f1627() != "B.f1627") { Console.WriteLine("FAILED: a.f1627()!=\"B.f1627\""); return 1; }
if (a.f1628() != "B.f1628") { Console.WriteLine("FAILED: a.f1628()!=\"B.f1628\""); return 1; }
if (a.f1629() != "B.f1629") { Console.WriteLine("FAILED: a.f1629()!=\"B.f1629\""); return 1; }
if (a.f1630() != "B.f1630") { Console.WriteLine("FAILED: a.f1630()!=\"B.f1630\""); return 1; }
if (a.f1631() != "B.f1631") { Console.WriteLine("FAILED: a.f1631()!=\"B.f1631\""); return 1; }
if (a.f1632() != "B.f1632") { Console.WriteLine("FAILED: a.f1632()!=\"B.f1632\""); return 1; }
if (a.f1633() != "B.f1633") { Console.WriteLine("FAILED: a.f1633()!=\"B.f1633\""); return 1; }
if (a.f1634() != "B.f1634") { Console.WriteLine("FAILED: a.f1634()!=\"B.f1634\""); return 1; }
if (a.f1635() != "B.f1635") { Console.WriteLine("FAILED: a.f1635()!=\"B.f1635\""); return 1; }
if (a.f1636() != "B.f1636") { Console.WriteLine("FAILED: a.f1636()!=\"B.f1636\""); return 1; }
if (a.f1637() != "B.f1637") { Console.WriteLine("FAILED: a.f1637()!=\"B.f1637\""); return 1; }
if (a.f1638() != "B.f1638") { Console.WriteLine("FAILED: a.f1638()!=\"B.f1638\""); return 1; }
if (a.f1639() != "B.f1639") { Console.WriteLine("FAILED: a.f1639()!=\"B.f1639\""); return 1; }
if (a.f1640() != "B.f1640") { Console.WriteLine("FAILED: a.f1640()!=\"B.f1640\""); return 1; }
if (a.f1641() != "B.f1641") { Console.WriteLine("FAILED: a.f1641()!=\"B.f1641\""); return 1; }
if (a.f1642() != "B.f1642") { Console.WriteLine("FAILED: a.f1642()!=\"B.f1642\""); return 1; }
if (a.f1643() != "B.f1643") { Console.WriteLine("FAILED: a.f1643()!=\"B.f1643\""); return 1; }
if (a.f1644() != "B.f1644") { Console.WriteLine("FAILED: a.f1644()!=\"B.f1644\""); return 1; }
if (a.f1645() != "B.f1645") { Console.WriteLine("FAILED: a.f1645()!=\"B.f1645\""); return 1; }
if (a.f1646() != "B.f1646") { Console.WriteLine("FAILED: a.f1646()!=\"B.f1646\""); return 1; }
if (a.f1647() != "B.f1647") { Console.WriteLine("FAILED: a.f1647()!=\"B.f1647\""); return 1; }
if (a.f1648() != "B.f1648") { Console.WriteLine("FAILED: a.f1648()!=\"B.f1648\""); return 1; }
if (a.f1649() != "B.f1649") { Console.WriteLine("FAILED: a.f1649()!=\"B.f1649\""); return 1; }
if (a.f1650() != "B.f1650") { Console.WriteLine("FAILED: a.f1650()!=\"B.f1650\""); return 1; }
if (a.f1651() != "B.f1651") { Console.WriteLine("FAILED: a.f1651()!=\"B.f1651\""); return 1; }
if (a.f1652() != "B.f1652") { Console.WriteLine("FAILED: a.f1652()!=\"B.f1652\""); return 1; }
if (a.f1653() != "B.f1653") { Console.WriteLine("FAILED: a.f1653()!=\"B.f1653\""); return 1; }
if (a.f1654() != "B.f1654") { Console.WriteLine("FAILED: a.f1654()!=\"B.f1654\""); return 1; }
if (a.f1655() != "B.f1655") { Console.WriteLine("FAILED: a.f1655()!=\"B.f1655\""); return 1; }
if (a.f1656() != "B.f1656") { Console.WriteLine("FAILED: a.f1656()!=\"B.f1656\""); return 1; }
if (a.f1657() != "B.f1657") { Console.WriteLine("FAILED: a.f1657()!=\"B.f1657\""); return 1; }
if (a.f1658() != "B.f1658") { Console.WriteLine("FAILED: a.f1658()!=\"B.f1658\""); return 1; }
if (a.f1659() != "B.f1659") { Console.WriteLine("FAILED: a.f1659()!=\"B.f1659\""); return 1; }
if (a.f1660() != "B.f1660") { Console.WriteLine("FAILED: a.f1660()!=\"B.f1660\""); return 1; }
if (a.f1661() != "B.f1661") { Console.WriteLine("FAILED: a.f1661()!=\"B.f1661\""); return 1; }
if (a.f1662() != "B.f1662") { Console.WriteLine("FAILED: a.f1662()!=\"B.f1662\""); return 1; }
if (a.f1663() != "B.f1663") { Console.WriteLine("FAILED: a.f1663()!=\"B.f1663\""); return 1; }
if (a.f1664() != "B.f1664") { Console.WriteLine("FAILED: a.f1664()!=\"B.f1664\""); return 1; }
if (a.f1665() != "B.f1665") { Console.WriteLine("FAILED: a.f1665()!=\"B.f1665\""); return 1; }
if (a.f1666() != "B.f1666") { Console.WriteLine("FAILED: a.f1666()!=\"B.f1666\""); return 1; }
if (a.f1667() != "B.f1667") { Console.WriteLine("FAILED: a.f1667()!=\"B.f1667\""); return 1; }
if (a.f1668() != "B.f1668") { Console.WriteLine("FAILED: a.f1668()!=\"B.f1668\""); return 1; }
if (a.f1669() != "B.f1669") { Console.WriteLine("FAILED: a.f1669()!=\"B.f1669\""); return 1; }
if (a.f1670() != "B.f1670") { Console.WriteLine("FAILED: a.f1670()!=\"B.f1670\""); return 1; }
if (a.f1671() != "B.f1671") { Console.WriteLine("FAILED: a.f1671()!=\"B.f1671\""); return 1; }
if (a.f1672() != "B.f1672") { Console.WriteLine("FAILED: a.f1672()!=\"B.f1672\""); return 1; }
if (a.f1673() != "B.f1673") { Console.WriteLine("FAILED: a.f1673()!=\"B.f1673\""); return 1; }
if (a.f1674() != "B.f1674") { Console.WriteLine("FAILED: a.f1674()!=\"B.f1674\""); return 1; }
if (a.f1675() != "B.f1675") { Console.WriteLine("FAILED: a.f1675()!=\"B.f1675\""); return 1; }
if (a.f1676() != "B.f1676") { Console.WriteLine("FAILED: a.f1676()!=\"B.f1676\""); return 1; }
if (a.f1677() != "B.f1677") { Console.WriteLine("FAILED: a.f1677()!=\"B.f1677\""); return 1; }
if (a.f1678() != "B.f1678") { Console.WriteLine("FAILED: a.f1678()!=\"B.f1678\""); return 1; }
if (a.f1679() != "B.f1679") { Console.WriteLine("FAILED: a.f1679()!=\"B.f1679\""); return 1; }
if (a.f1680() != "B.f1680") { Console.WriteLine("FAILED: a.f1680()!=\"B.f1680\""); return 1; }
if (a.f1681() != "B.f1681") { Console.WriteLine("FAILED: a.f1681()!=\"B.f1681\""); return 1; }
if (a.f1682() != "B.f1682") { Console.WriteLine("FAILED: a.f1682()!=\"B.f1682\""); return 1; }
if (a.f1683() != "B.f1683") { Console.WriteLine("FAILED: a.f1683()!=\"B.f1683\""); return 1; }
if (a.f1684() != "B.f1684") { Console.WriteLine("FAILED: a.f1684()!=\"B.f1684\""); return 1; }
if (a.f1685() != "B.f1685") { Console.WriteLine("FAILED: a.f1685()!=\"B.f1685\""); return 1; }
if (a.f1686() != "B.f1686") { Console.WriteLine("FAILED: a.f1686()!=\"B.f1686\""); return 1; }
if (a.f1687() != "B.f1687") { Console.WriteLine("FAILED: a.f1687()!=\"B.f1687\""); return 1; }
if (a.f1688() != "B.f1688") { Console.WriteLine("FAILED: a.f1688()!=\"B.f1688\""); return 1; }
if (a.f1689() != "B.f1689") { Console.WriteLine("FAILED: a.f1689()!=\"B.f1689\""); return 1; }
if (a.f1690() != "B.f1690") { Console.WriteLine("FAILED: a.f1690()!=\"B.f1690\""); return 1; }
if (a.f1691() != "B.f1691") { Console.WriteLine("FAILED: a.f1691()!=\"B.f1691\""); return 1; }
if (a.f1692() != "B.f1692") { Console.WriteLine("FAILED: a.f1692()!=\"B.f1692\""); return 1; }
if (a.f1693() != "B.f1693") { Console.WriteLine("FAILED: a.f1693()!=\"B.f1693\""); return 1; }
if (a.f1694() != "B.f1694") { Console.WriteLine("FAILED: a.f1694()!=\"B.f1694\""); return 1; }
if (a.f1695() != "B.f1695") { Console.WriteLine("FAILED: a.f1695()!=\"B.f1695\""); return 1; }
if (a.f1696() != "B.f1696") { Console.WriteLine("FAILED: a.f1696()!=\"B.f1696\""); return 1; }
if (a.f1697() != "B.f1697") { Console.WriteLine("FAILED: a.f1697()!=\"B.f1697\""); return 1; }
if (a.f1698() != "B.f1698") { Console.WriteLine("FAILED: a.f1698()!=\"B.f1698\""); return 1; }
if (a.f1699() != "B.f1699") { Console.WriteLine("FAILED: a.f1699()!=\"B.f1699\""); return 1; }
if (a.f1700() != "B.f1700") { Console.WriteLine("FAILED: a.f1700()!=\"B.f1700\""); return 1; }
if (a.f1701() != "B.f1701") { Console.WriteLine("FAILED: a.f1701()!=\"B.f1701\""); return 1; }
if (a.f1702() != "B.f1702") { Console.WriteLine("FAILED: a.f1702()!=\"B.f1702\""); return 1; }
if (a.f1703() != "B.f1703") { Console.WriteLine("FAILED: a.f1703()!=\"B.f1703\""); return 1; }
if (a.f1704() != "B.f1704") { Console.WriteLine("FAILED: a.f1704()!=\"B.f1704\""); return 1; }
if (a.f1705() != "B.f1705") { Console.WriteLine("FAILED: a.f1705()!=\"B.f1705\""); return 1; }
if (a.f1706() != "B.f1706") { Console.WriteLine("FAILED: a.f1706()!=\"B.f1706\""); return 1; }
if (a.f1707() != "B.f1707") { Console.WriteLine("FAILED: a.f1707()!=\"B.f1707\""); return 1; }
if (a.f1708() != "B.f1708") { Console.WriteLine("FAILED: a.f1708()!=\"B.f1708\""); return 1; }
if (a.f1709() != "B.f1709") { Console.WriteLine("FAILED: a.f1709()!=\"B.f1709\""); return 1; }
if (a.f1710() != "B.f1710") { Console.WriteLine("FAILED: a.f1710()!=\"B.f1710\""); return 1; }
if (a.f1711() != "B.f1711") { Console.WriteLine("FAILED: a.f1711()!=\"B.f1711\""); return 1; }
if (a.f1712() != "B.f1712") { Console.WriteLine("FAILED: a.f1712()!=\"B.f1712\""); return 1; }
if (a.f1713() != "B.f1713") { Console.WriteLine("FAILED: a.f1713()!=\"B.f1713\""); return 1; }
if (a.f1714() != "B.f1714") { Console.WriteLine("FAILED: a.f1714()!=\"B.f1714\""); return 1; }
if (a.f1715() != "B.f1715") { Console.WriteLine("FAILED: a.f1715()!=\"B.f1715\""); return 1; }
if (a.f1716() != "B.f1716") { Console.WriteLine("FAILED: a.f1716()!=\"B.f1716\""); return 1; }
if (a.f1717() != "B.f1717") { Console.WriteLine("FAILED: a.f1717()!=\"B.f1717\""); return 1; }
if (a.f1718() != "B.f1718") { Console.WriteLine("FAILED: a.f1718()!=\"B.f1718\""); return 1; }
if (a.f1719() != "B.f1719") { Console.WriteLine("FAILED: a.f1719()!=\"B.f1719\""); return 1; }
if (a.f1720() != "B.f1720") { Console.WriteLine("FAILED: a.f1720()!=\"B.f1720\""); return 1; }
if (a.f1721() != "B.f1721") { Console.WriteLine("FAILED: a.f1721()!=\"B.f1721\""); return 1; }
if (a.f1722() != "B.f1722") { Console.WriteLine("FAILED: a.f1722()!=\"B.f1722\""); return 1; }
if (a.f1723() != "B.f1723") { Console.WriteLine("FAILED: a.f1723()!=\"B.f1723\""); return 1; }
if (a.f1724() != "B.f1724") { Console.WriteLine("FAILED: a.f1724()!=\"B.f1724\""); return 1; }
if (a.f1725() != "B.f1725") { Console.WriteLine("FAILED: a.f1725()!=\"B.f1725\""); return 1; }
if (a.f1726() != "B.f1726") { Console.WriteLine("FAILED: a.f1726()!=\"B.f1726\""); return 1; }
if (a.f1727() != "B.f1727") { Console.WriteLine("FAILED: a.f1727()!=\"B.f1727\""); return 1; }
if (a.f1728() != "B.f1728") { Console.WriteLine("FAILED: a.f1728()!=\"B.f1728\""); return 1; }
if (a.f1729() != "B.f1729") { Console.WriteLine("FAILED: a.f1729()!=\"B.f1729\""); return 1; }
if (a.f1730() != "B.f1730") { Console.WriteLine("FAILED: a.f1730()!=\"B.f1730\""); return 1; }
if (a.f1731() != "B.f1731") { Console.WriteLine("FAILED: a.f1731()!=\"B.f1731\""); return 1; }
if (a.f1732() != "B.f1732") { Console.WriteLine("FAILED: a.f1732()!=\"B.f1732\""); return 1; }
if (a.f1733() != "B.f1733") { Console.WriteLine("FAILED: a.f1733()!=\"B.f1733\""); return 1; }
if (a.f1734() != "B.f1734") { Console.WriteLine("FAILED: a.f1734()!=\"B.f1734\""); return 1; }
if (a.f1735() != "B.f1735") { Console.WriteLine("FAILED: a.f1735()!=\"B.f1735\""); return 1; }
if (a.f1736() != "B.f1736") { Console.WriteLine("FAILED: a.f1736()!=\"B.f1736\""); return 1; }
if (a.f1737() != "B.f1737") { Console.WriteLine("FAILED: a.f1737()!=\"B.f1737\""); return 1; }
if (a.f1738() != "B.f1738") { Console.WriteLine("FAILED: a.f1738()!=\"B.f1738\""); return 1; }
if (a.f1739() != "B.f1739") { Console.WriteLine("FAILED: a.f1739()!=\"B.f1739\""); return 1; }
if (a.f1740() != "B.f1740") { Console.WriteLine("FAILED: a.f1740()!=\"B.f1740\""); return 1; }
if (a.f1741() != "B.f1741") { Console.WriteLine("FAILED: a.f1741()!=\"B.f1741\""); return 1; }
if (a.f1742() != "B.f1742") { Console.WriteLine("FAILED: a.f1742()!=\"B.f1742\""); return 1; }
if (a.f1743() != "B.f1743") { Console.WriteLine("FAILED: a.f1743()!=\"B.f1743\""); return 1; }
if (a.f1744() != "B.f1744") { Console.WriteLine("FAILED: a.f1744()!=\"B.f1744\""); return 1; }
if (a.f1745() != "B.f1745") { Console.WriteLine("FAILED: a.f1745()!=\"B.f1745\""); return 1; }
if (a.f1746() != "B.f1746") { Console.WriteLine("FAILED: a.f1746()!=\"B.f1746\""); return 1; }
if (a.f1747() != "B.f1747") { Console.WriteLine("FAILED: a.f1747()!=\"B.f1747\""); return 1; }
if (a.f1748() != "B.f1748") { Console.WriteLine("FAILED: a.f1748()!=\"B.f1748\""); return 1; }
if (a.f1749() != "B.f1749") { Console.WriteLine("FAILED: a.f1749()!=\"B.f1749\""); return 1; }
if (a.f1750() != "B.f1750") { Console.WriteLine("FAILED: a.f1750()!=\"B.f1750\""); return 1; }
if (a.f1751() != "B.f1751") { Console.WriteLine("FAILED: a.f1751()!=\"B.f1751\""); return 1; }
if (a.f1752() != "B.f1752") { Console.WriteLine("FAILED: a.f1752()!=\"B.f1752\""); return 1; }
if (a.f1753() != "B.f1753") { Console.WriteLine("FAILED: a.f1753()!=\"B.f1753\""); return 1; }
if (a.f1754() != "B.f1754") { Console.WriteLine("FAILED: a.f1754()!=\"B.f1754\""); return 1; }
if (a.f1755() != "B.f1755") { Console.WriteLine("FAILED: a.f1755()!=\"B.f1755\""); return 1; }
if (a.f1756() != "B.f1756") { Console.WriteLine("FAILED: a.f1756()!=\"B.f1756\""); return 1; }
if (a.f1757() != "B.f1757") { Console.WriteLine("FAILED: a.f1757()!=\"B.f1757\""); return 1; }
if (a.f1758() != "B.f1758") { Console.WriteLine("FAILED: a.f1758()!=\"B.f1758\""); return 1; }
if (a.f1759() != "B.f1759") { Console.WriteLine("FAILED: a.f1759()!=\"B.f1759\""); return 1; }
if (a.f1760() != "B.f1760") { Console.WriteLine("FAILED: a.f1760()!=\"B.f1760\""); return 1; }
if (a.f1761() != "B.f1761") { Console.WriteLine("FAILED: a.f1761()!=\"B.f1761\""); return 1; }
if (a.f1762() != "B.f1762") { Console.WriteLine("FAILED: a.f1762()!=\"B.f1762\""); return 1; }
if (a.f1763() != "B.f1763") { Console.WriteLine("FAILED: a.f1763()!=\"B.f1763\""); return 1; }
if (a.f1764() != "B.f1764") { Console.WriteLine("FAILED: a.f1764()!=\"B.f1764\""); return 1; }
if (a.f1765() != "B.f1765") { Console.WriteLine("FAILED: a.f1765()!=\"B.f1765\""); return 1; }
if (a.f1766() != "B.f1766") { Console.WriteLine("FAILED: a.f1766()!=\"B.f1766\""); return 1; }
if (a.f1767() != "B.f1767") { Console.WriteLine("FAILED: a.f1767()!=\"B.f1767\""); return 1; }
if (a.f1768() != "B.f1768") { Console.WriteLine("FAILED: a.f1768()!=\"B.f1768\""); return 1; }
if (a.f1769() != "B.f1769") { Console.WriteLine("FAILED: a.f1769()!=\"B.f1769\""); return 1; }
if (a.f1770() != "B.f1770") { Console.WriteLine("FAILED: a.f1770()!=\"B.f1770\""); return 1; }
if (a.f1771() != "B.f1771") { Console.WriteLine("FAILED: a.f1771()!=\"B.f1771\""); return 1; }
if (a.f1772() != "B.f1772") { Console.WriteLine("FAILED: a.f1772()!=\"B.f1772\""); return 1; }
if (a.f1773() != "B.f1773") { Console.WriteLine("FAILED: a.f1773()!=\"B.f1773\""); return 1; }
if (a.f1774() != "B.f1774") { Console.WriteLine("FAILED: a.f1774()!=\"B.f1774\""); return 1; }
if (a.f1775() != "B.f1775") { Console.WriteLine("FAILED: a.f1775()!=\"B.f1775\""); return 1; }
if (a.f1776() != "B.f1776") { Console.WriteLine("FAILED: a.f1776()!=\"B.f1776\""); return 1; }
if (a.f1777() != "B.f1777") { Console.WriteLine("FAILED: a.f1777()!=\"B.f1777\""); return 1; }
if (a.f1778() != "B.f1778") { Console.WriteLine("FAILED: a.f1778()!=\"B.f1778\""); return 1; }
if (a.f1779() != "B.f1779") { Console.WriteLine("FAILED: a.f1779()!=\"B.f1779\""); return 1; }
if (a.f1780() != "B.f1780") { Console.WriteLine("FAILED: a.f1780()!=\"B.f1780\""); return 1; }
if (a.f1781() != "B.f1781") { Console.WriteLine("FAILED: a.f1781()!=\"B.f1781\""); return 1; }
if (a.f1782() != "B.f1782") { Console.WriteLine("FAILED: a.f1782()!=\"B.f1782\""); return 1; }
if (a.f1783() != "B.f1783") { Console.WriteLine("FAILED: a.f1783()!=\"B.f1783\""); return 1; }
if (a.f1784() != "B.f1784") { Console.WriteLine("FAILED: a.f1784()!=\"B.f1784\""); return 1; }
if (a.f1785() != "B.f1785") { Console.WriteLine("FAILED: a.f1785()!=\"B.f1785\""); return 1; }
if (a.f1786() != "B.f1786") { Console.WriteLine("FAILED: a.f1786()!=\"B.f1786\""); return 1; }
if (a.f1787() != "B.f1787") { Console.WriteLine("FAILED: a.f1787()!=\"B.f1787\""); return 1; }
if (a.f1788() != "B.f1788") { Console.WriteLine("FAILED: a.f1788()!=\"B.f1788\""); return 1; }
if (a.f1789() != "B.f1789") { Console.WriteLine("FAILED: a.f1789()!=\"B.f1789\""); return 1; }
if (a.f1790() != "B.f1790") { Console.WriteLine("FAILED: a.f1790()!=\"B.f1790\""); return 1; }
if (a.f1791() != "B.f1791") { Console.WriteLine("FAILED: a.f1791()!=\"B.f1791\""); return 1; }
if (a.f1792() != "B.f1792") { Console.WriteLine("FAILED: a.f1792()!=\"B.f1792\""); return 1; }
if (a.f1793() != "B.f1793") { Console.WriteLine("FAILED: a.f1793()!=\"B.f1793\""); return 1; }
if (a.f1794() != "B.f1794") { Console.WriteLine("FAILED: a.f1794()!=\"B.f1794\""); return 1; }
if (a.f1795() != "B.f1795") { Console.WriteLine("FAILED: a.f1795()!=\"B.f1795\""); return 1; }
if (a.f1796() != "B.f1796") { Console.WriteLine("FAILED: a.f1796()!=\"B.f1796\""); return 1; }
if (a.f1797() != "B.f1797") { Console.WriteLine("FAILED: a.f1797()!=\"B.f1797\""); return 1; }
if (a.f1798() != "B.f1798") { Console.WriteLine("FAILED: a.f1798()!=\"B.f1798\""); return 1; }
if (a.f1799() != "B.f1799") { Console.WriteLine("FAILED: a.f1799()!=\"B.f1799\""); return 1; }
if (a.f1800() != "B.f1800") { Console.WriteLine("FAILED: a.f1800()!=\"B.f1800\""); return 1; }
if (a.f1801() != "B.f1801") { Console.WriteLine("FAILED: a.f1801()!=\"B.f1801\""); return 1; }
if (a.f1802() != "B.f1802") { Console.WriteLine("FAILED: a.f1802()!=\"B.f1802\""); return 1; }
if (a.f1803() != "B.f1803") { Console.WriteLine("FAILED: a.f1803()!=\"B.f1803\""); return 1; }
if (a.f1804() != "B.f1804") { Console.WriteLine("FAILED: a.f1804()!=\"B.f1804\""); return 1; }
if (a.f1805() != "B.f1805") { Console.WriteLine("FAILED: a.f1805()!=\"B.f1805\""); return 1; }
if (a.f1806() != "B.f1806") { Console.WriteLine("FAILED: a.f1806()!=\"B.f1806\""); return 1; }
if (a.f1807() != "B.f1807") { Console.WriteLine("FAILED: a.f1807()!=\"B.f1807\""); return 1; }
if (a.f1808() != "B.f1808") { Console.WriteLine("FAILED: a.f1808()!=\"B.f1808\""); return 1; }
if (a.f1809() != "B.f1809") { Console.WriteLine("FAILED: a.f1809()!=\"B.f1809\""); return 1; }
if (a.f1810() != "B.f1810") { Console.WriteLine("FAILED: a.f1810()!=\"B.f1810\""); return 1; }
if (a.f1811() != "B.f1811") { Console.WriteLine("FAILED: a.f1811()!=\"B.f1811\""); return 1; }
if (a.f1812() != "B.f1812") { Console.WriteLine("FAILED: a.f1812()!=\"B.f1812\""); return 1; }
if (a.f1813() != "B.f1813") { Console.WriteLine("FAILED: a.f1813()!=\"B.f1813\""); return 1; }
if (a.f1814() != "B.f1814") { Console.WriteLine("FAILED: a.f1814()!=\"B.f1814\""); return 1; }
if (a.f1815() != "B.f1815") { Console.WriteLine("FAILED: a.f1815()!=\"B.f1815\""); return 1; }
if (a.f1816() != "B.f1816") { Console.WriteLine("FAILED: a.f1816()!=\"B.f1816\""); return 1; }
if (a.f1817() != "B.f1817") { Console.WriteLine("FAILED: a.f1817()!=\"B.f1817\""); return 1; }
if (a.f1818() != "B.f1818") { Console.WriteLine("FAILED: a.f1818()!=\"B.f1818\""); return 1; }
if (a.f1819() != "B.f1819") { Console.WriteLine("FAILED: a.f1819()!=\"B.f1819\""); return 1; }
if (a.f1820() != "B.f1820") { Console.WriteLine("FAILED: a.f1820()!=\"B.f1820\""); return 1; }
if (a.f1821() != "B.f1821") { Console.WriteLine("FAILED: a.f1821()!=\"B.f1821\""); return 1; }
if (a.f1822() != "B.f1822") { Console.WriteLine("FAILED: a.f1822()!=\"B.f1822\""); return 1; }
if (a.f1823() != "B.f1823") { Console.WriteLine("FAILED: a.f1823()!=\"B.f1823\""); return 1; }
if (a.f1824() != "B.f1824") { Console.WriteLine("FAILED: a.f1824()!=\"B.f1824\""); return 1; }
if (a.f1825() != "B.f1825") { Console.WriteLine("FAILED: a.f1825()!=\"B.f1825\""); return 1; }
if (a.f1826() != "B.f1826") { Console.WriteLine("FAILED: a.f1826()!=\"B.f1826\""); return 1; }
if (a.f1827() != "B.f1827") { Console.WriteLine("FAILED: a.f1827()!=\"B.f1827\""); return 1; }
if (a.f1828() != "B.f1828") { Console.WriteLine("FAILED: a.f1828()!=\"B.f1828\""); return 1; }
if (a.f1829() != "B.f1829") { Console.WriteLine("FAILED: a.f1829()!=\"B.f1829\""); return 1; }
if (a.f1830() != "B.f1830") { Console.WriteLine("FAILED: a.f1830()!=\"B.f1830\""); return 1; }
if (a.f1831() != "B.f1831") { Console.WriteLine("FAILED: a.f1831()!=\"B.f1831\""); return 1; }
if (a.f1832() != "B.f1832") { Console.WriteLine("FAILED: a.f1832()!=\"B.f1832\""); return 1; }
if (a.f1833() != "B.f1833") { Console.WriteLine("FAILED: a.f1833()!=\"B.f1833\""); return 1; }
if (a.f1834() != "B.f1834") { Console.WriteLine("FAILED: a.f1834()!=\"B.f1834\""); return 1; }
if (a.f1835() != "B.f1835") { Console.WriteLine("FAILED: a.f1835()!=\"B.f1835\""); return 1; }
if (a.f1836() != "B.f1836") { Console.WriteLine("FAILED: a.f1836()!=\"B.f1836\""); return 1; }
if (a.f1837() != "B.f1837") { Console.WriteLine("FAILED: a.f1837()!=\"B.f1837\""); return 1; }
if (a.f1838() != "B.f1838") { Console.WriteLine("FAILED: a.f1838()!=\"B.f1838\""); return 1; }
if (a.f1839() != "B.f1839") { Console.WriteLine("FAILED: a.f1839()!=\"B.f1839\""); return 1; }
if (a.f1840() != "B.f1840") { Console.WriteLine("FAILED: a.f1840()!=\"B.f1840\""); return 1; }
if (a.f1841() != "B.f1841") { Console.WriteLine("FAILED: a.f1841()!=\"B.f1841\""); return 1; }
if (a.f1842() != "B.f1842") { Console.WriteLine("FAILED: a.f1842()!=\"B.f1842\""); return 1; }
if (a.f1843() != "B.f1843") { Console.WriteLine("FAILED: a.f1843()!=\"B.f1843\""); return 1; }
if (a.f1844() != "B.f1844") { Console.WriteLine("FAILED: a.f1844()!=\"B.f1844\""); return 1; }
if (a.f1845() != "B.f1845") { Console.WriteLine("FAILED: a.f1845()!=\"B.f1845\""); return 1; }
if (a.f1846() != "B.f1846") { Console.WriteLine("FAILED: a.f1846()!=\"B.f1846\""); return 1; }
if (a.f1847() != "B.f1847") { Console.WriteLine("FAILED: a.f1847()!=\"B.f1847\""); return 1; }
if (a.f1848() != "B.f1848") { Console.WriteLine("FAILED: a.f1848()!=\"B.f1848\""); return 1; }
if (a.f1849() != "B.f1849") { Console.WriteLine("FAILED: a.f1849()!=\"B.f1849\""); return 1; }
if (a.f1850() != "B.f1850") { Console.WriteLine("FAILED: a.f1850()!=\"B.f1850\""); return 1; }
if (a.f1851() != "B.f1851") { Console.WriteLine("FAILED: a.f1851()!=\"B.f1851\""); return 1; }
if (a.f1852() != "B.f1852") { Console.WriteLine("FAILED: a.f1852()!=\"B.f1852\""); return 1; }
if (a.f1853() != "B.f1853") { Console.WriteLine("FAILED: a.f1853()!=\"B.f1853\""); return 1; }
if (a.f1854() != "B.f1854") { Console.WriteLine("FAILED: a.f1854()!=\"B.f1854\""); return 1; }
if (a.f1855() != "B.f1855") { Console.WriteLine("FAILED: a.f1855()!=\"B.f1855\""); return 1; }
if (a.f1856() != "B.f1856") { Console.WriteLine("FAILED: a.f1856()!=\"B.f1856\""); return 1; }
if (a.f1857() != "B.f1857") { Console.WriteLine("FAILED: a.f1857()!=\"B.f1857\""); return 1; }
if (a.f1858() != "B.f1858") { Console.WriteLine("FAILED: a.f1858()!=\"B.f1858\""); return 1; }
if (a.f1859() != "B.f1859") { Console.WriteLine("FAILED: a.f1859()!=\"B.f1859\""); return 1; }
if (a.f1860() != "B.f1860") { Console.WriteLine("FAILED: a.f1860()!=\"B.f1860\""); return 1; }
if (a.f1861() != "B.f1861") { Console.WriteLine("FAILED: a.f1861()!=\"B.f1861\""); return 1; }
if (a.f1862() != "B.f1862") { Console.WriteLine("FAILED: a.f1862()!=\"B.f1862\""); return 1; }
if (a.f1863() != "B.f1863") { Console.WriteLine("FAILED: a.f1863()!=\"B.f1863\""); return 1; }
if (a.f1864() != "B.f1864") { Console.WriteLine("FAILED: a.f1864()!=\"B.f1864\""); return 1; }
if (a.f1865() != "B.f1865") { Console.WriteLine("FAILED: a.f1865()!=\"B.f1865\""); return 1; }
if (a.f1866() != "B.f1866") { Console.WriteLine("FAILED: a.f1866()!=\"B.f1866\""); return 1; }
if (a.f1867() != "B.f1867") { Console.WriteLine("FAILED: a.f1867()!=\"B.f1867\""); return 1; }
if (a.f1868() != "B.f1868") { Console.WriteLine("FAILED: a.f1868()!=\"B.f1868\""); return 1; }
if (a.f1869() != "B.f1869") { Console.WriteLine("FAILED: a.f1869()!=\"B.f1869\""); return 1; }
if (a.f1870() != "B.f1870") { Console.WriteLine("FAILED: a.f1870()!=\"B.f1870\""); return 1; }
if (a.f1871() != "B.f1871") { Console.WriteLine("FAILED: a.f1871()!=\"B.f1871\""); return 1; }
if (a.f1872() != "B.f1872") { Console.WriteLine("FAILED: a.f1872()!=\"B.f1872\""); return 1; }
if (a.f1873() != "B.f1873") { Console.WriteLine("FAILED: a.f1873()!=\"B.f1873\""); return 1; }
if (a.f1874() != "B.f1874") { Console.WriteLine("FAILED: a.f1874()!=\"B.f1874\""); return 1; }
if (a.f1875() != "B.f1875") { Console.WriteLine("FAILED: a.f1875()!=\"B.f1875\""); return 1; }
if (a.f1876() != "B.f1876") { Console.WriteLine("FAILED: a.f1876()!=\"B.f1876\""); return 1; }
if (a.f1877() != "B.f1877") { Console.WriteLine("FAILED: a.f1877()!=\"B.f1877\""); return 1; }
if (a.f1878() != "B.f1878") { Console.WriteLine("FAILED: a.f1878()!=\"B.f1878\""); return 1; }
if (a.f1879() != "B.f1879") { Console.WriteLine("FAILED: a.f1879()!=\"B.f1879\""); return 1; }
if (a.f1880() != "B.f1880") { Console.WriteLine("FAILED: a.f1880()!=\"B.f1880\""); return 1; }
if (a.f1881() != "B.f1881") { Console.WriteLine("FAILED: a.f1881()!=\"B.f1881\""); return 1; }
if (a.f1882() != "B.f1882") { Console.WriteLine("FAILED: a.f1882()!=\"B.f1882\""); return 1; }
if (a.f1883() != "B.f1883") { Console.WriteLine("FAILED: a.f1883()!=\"B.f1883\""); return 1; }
if (a.f1884() != "B.f1884") { Console.WriteLine("FAILED: a.f1884()!=\"B.f1884\""); return 1; }
if (a.f1885() != "B.f1885") { Console.WriteLine("FAILED: a.f1885()!=\"B.f1885\""); return 1; }
if (a.f1886() != "B.f1886") { Console.WriteLine("FAILED: a.f1886()!=\"B.f1886\""); return 1; }
if (a.f1887() != "B.f1887") { Console.WriteLine("FAILED: a.f1887()!=\"B.f1887\""); return 1; }
if (a.f1888() != "B.f1888") { Console.WriteLine("FAILED: a.f1888()!=\"B.f1888\""); return 1; }
if (a.f1889() != "B.f1889") { Console.WriteLine("FAILED: a.f1889()!=\"B.f1889\""); return 1; }
if (a.f1890() != "B.f1890") { Console.WriteLine("FAILED: a.f1890()!=\"B.f1890\""); return 1; }
if (a.f1891() != "B.f1891") { Console.WriteLine("FAILED: a.f1891()!=\"B.f1891\""); return 1; }
if (a.f1892() != "B.f1892") { Console.WriteLine("FAILED: a.f1892()!=\"B.f1892\""); return 1; }
if (a.f1893() != "B.f1893") { Console.WriteLine("FAILED: a.f1893()!=\"B.f1893\""); return 1; }
if (a.f1894() != "B.f1894") { Console.WriteLine("FAILED: a.f1894()!=\"B.f1894\""); return 1; }
if (a.f1895() != "B.f1895") { Console.WriteLine("FAILED: a.f1895()!=\"B.f1895\""); return 1; }
if (a.f1896() != "B.f1896") { Console.WriteLine("FAILED: a.f1896()!=\"B.f1896\""); return 1; }
if (a.f1897() != "B.f1897") { Console.WriteLine("FAILED: a.f1897()!=\"B.f1897\""); return 1; }
if (a.f1898() != "B.f1898") { Console.WriteLine("FAILED: a.f1898()!=\"B.f1898\""); return 1; }
if (a.f1899() != "B.f1899") { Console.WriteLine("FAILED: a.f1899()!=\"B.f1899\""); return 1; }
if (a.f1900() != "B.f1900") { Console.WriteLine("FAILED: a.f1900()!=\"B.f1900\""); return 1; }
if (a.f1901() != "B.f1901") { Console.WriteLine("FAILED: a.f1901()!=\"B.f1901\""); return 1; }
if (a.f1902() != "B.f1902") { Console.WriteLine("FAILED: a.f1902()!=\"B.f1902\""); return 1; }
if (a.f1903() != "B.f1903") { Console.WriteLine("FAILED: a.f1903()!=\"B.f1903\""); return 1; }
if (a.f1904() != "B.f1904") { Console.WriteLine("FAILED: a.f1904()!=\"B.f1904\""); return 1; }
if (a.f1905() != "B.f1905") { Console.WriteLine("FAILED: a.f1905()!=\"B.f1905\""); return 1; }
if (a.f1906() != "B.f1906") { Console.WriteLine("FAILED: a.f1906()!=\"B.f1906\""); return 1; }
if (a.f1907() != "B.f1907") { Console.WriteLine("FAILED: a.f1907()!=\"B.f1907\""); return 1; }
if (a.f1908() != "B.f1908") { Console.WriteLine("FAILED: a.f1908()!=\"B.f1908\""); return 1; }
if (a.f1909() != "B.f1909") { Console.WriteLine("FAILED: a.f1909()!=\"B.f1909\""); return 1; }
if (a.f1910() != "B.f1910") { Console.WriteLine("FAILED: a.f1910()!=\"B.f1910\""); return 1; }
if (a.f1911() != "B.f1911") { Console.WriteLine("FAILED: a.f1911()!=\"B.f1911\""); return 1; }
if (a.f1912() != "B.f1912") { Console.WriteLine("FAILED: a.f1912()!=\"B.f1912\""); return 1; }
if (a.f1913() != "B.f1913") { Console.WriteLine("FAILED: a.f1913()!=\"B.f1913\""); return 1; }
if (a.f1914() != "B.f1914") { Console.WriteLine("FAILED: a.f1914()!=\"B.f1914\""); return 1; }
if (a.f1915() != "B.f1915") { Console.WriteLine("FAILED: a.f1915()!=\"B.f1915\""); return 1; }
if (a.f1916() != "B.f1916") { Console.WriteLine("FAILED: a.f1916()!=\"B.f1916\""); return 1; }
if (a.f1917() != "B.f1917") { Console.WriteLine("FAILED: a.f1917()!=\"B.f1917\""); return 1; }
if (a.f1918() != "B.f1918") { Console.WriteLine("FAILED: a.f1918()!=\"B.f1918\""); return 1; }
if (a.f1919() != "B.f1919") { Console.WriteLine("FAILED: a.f1919()!=\"B.f1919\""); return 1; }
if (a.f1920() != "B.f1920") { Console.WriteLine("FAILED: a.f1920()!=\"B.f1920\""); return 1; }
if (a.f1921() != "B.f1921") { Console.WriteLine("FAILED: a.f1921()!=\"B.f1921\""); return 1; }
if (a.f1922() != "B.f1922") { Console.WriteLine("FAILED: a.f1922()!=\"B.f1922\""); return 1; }
if (a.f1923() != "B.f1923") { Console.WriteLine("FAILED: a.f1923()!=\"B.f1923\""); return 1; }
if (a.f1924() != "B.f1924") { Console.WriteLine("FAILED: a.f1924()!=\"B.f1924\""); return 1; }
if (a.f1925() != "B.f1925") { Console.WriteLine("FAILED: a.f1925()!=\"B.f1925\""); return 1; }
if (a.f1926() != "B.f1926") { Console.WriteLine("FAILED: a.f1926()!=\"B.f1926\""); return 1; }
if (a.f1927() != "B.f1927") { Console.WriteLine("FAILED: a.f1927()!=\"B.f1927\""); return 1; }
if (a.f1928() != "B.f1928") { Console.WriteLine("FAILED: a.f1928()!=\"B.f1928\""); return 1; }
if (a.f1929() != "B.f1929") { Console.WriteLine("FAILED: a.f1929()!=\"B.f1929\""); return 1; }
if (a.f1930() != "B.f1930") { Console.WriteLine("FAILED: a.f1930()!=\"B.f1930\""); return 1; }
if (a.f1931() != "B.f1931") { Console.WriteLine("FAILED: a.f1931()!=\"B.f1931\""); return 1; }
if (a.f1932() != "B.f1932") { Console.WriteLine("FAILED: a.f1932()!=\"B.f1932\""); return 1; }
if (a.f1933() != "B.f1933") { Console.WriteLine("FAILED: a.f1933()!=\"B.f1933\""); return 1; }
if (a.f1934() != "B.f1934") { Console.WriteLine("FAILED: a.f1934()!=\"B.f1934\""); return 1; }
if (a.f1935() != "B.f1935") { Console.WriteLine("FAILED: a.f1935()!=\"B.f1935\""); return 1; }
if (a.f1936() != "B.f1936") { Console.WriteLine("FAILED: a.f1936()!=\"B.f1936\""); return 1; }
if (a.f1937() != "B.f1937") { Console.WriteLine("FAILED: a.f1937()!=\"B.f1937\""); return 1; }
if (a.f1938() != "B.f1938") { Console.WriteLine("FAILED: a.f1938()!=\"B.f1938\""); return 1; }
if (a.f1939() != "B.f1939") { Console.WriteLine("FAILED: a.f1939()!=\"B.f1939\""); return 1; }
if (a.f1940() != "B.f1940") { Console.WriteLine("FAILED: a.f1940()!=\"B.f1940\""); return 1; }
if (a.f1941() != "B.f1941") { Console.WriteLine("FAILED: a.f1941()!=\"B.f1941\""); return 1; }
if (a.f1942() != "B.f1942") { Console.WriteLine("FAILED: a.f1942()!=\"B.f1942\""); return 1; }
if (a.f1943() != "B.f1943") { Console.WriteLine("FAILED: a.f1943()!=\"B.f1943\""); return 1; }
if (a.f1944() != "B.f1944") { Console.WriteLine("FAILED: a.f1944()!=\"B.f1944\""); return 1; }
if (a.f1945() != "B.f1945") { Console.WriteLine("FAILED: a.f1945()!=\"B.f1945\""); return 1; }
if (a.f1946() != "B.f1946") { Console.WriteLine("FAILED: a.f1946()!=\"B.f1946\""); return 1; }
if (a.f1947() != "B.f1947") { Console.WriteLine("FAILED: a.f1947()!=\"B.f1947\""); return 1; }
if (a.f1948() != "B.f1948") { Console.WriteLine("FAILED: a.f1948()!=\"B.f1948\""); return 1; }
if (a.f1949() != "B.f1949") { Console.WriteLine("FAILED: a.f1949()!=\"B.f1949\""); return 1; }
if (a.f1950() != "B.f1950") { Console.WriteLine("FAILED: a.f1950()!=\"B.f1950\""); return 1; }
if (a.f1951() != "B.f1951") { Console.WriteLine("FAILED: a.f1951()!=\"B.f1951\""); return 1; }
if (a.f1952() != "B.f1952") { Console.WriteLine("FAILED: a.f1952()!=\"B.f1952\""); return 1; }
if (a.f1953() != "B.f1953") { Console.WriteLine("FAILED: a.f1953()!=\"B.f1953\""); return 1; }
if (a.f1954() != "B.f1954") { Console.WriteLine("FAILED: a.f1954()!=\"B.f1954\""); return 1; }
if (a.f1955() != "B.f1955") { Console.WriteLine("FAILED: a.f1955()!=\"B.f1955\""); return 1; }
if (a.f1956() != "B.f1956") { Console.WriteLine("FAILED: a.f1956()!=\"B.f1956\""); return 1; }
if (a.f1957() != "B.f1957") { Console.WriteLine("FAILED: a.f1957()!=\"B.f1957\""); return 1; }
if (a.f1958() != "B.f1958") { Console.WriteLine("FAILED: a.f1958()!=\"B.f1958\""); return 1; }
if (a.f1959() != "B.f1959") { Console.WriteLine("FAILED: a.f1959()!=\"B.f1959\""); return 1; }
if (a.f1960() != "B.f1960") { Console.WriteLine("FAILED: a.f1960()!=\"B.f1960\""); return 1; }
if (a.f1961() != "B.f1961") { Console.WriteLine("FAILED: a.f1961()!=\"B.f1961\""); return 1; }
if (a.f1962() != "B.f1962") { Console.WriteLine("FAILED: a.f1962()!=\"B.f1962\""); return 1; }
if (a.f1963() != "B.f1963") { Console.WriteLine("FAILED: a.f1963()!=\"B.f1963\""); return 1; }
if (a.f1964() != "B.f1964") { Console.WriteLine("FAILED: a.f1964()!=\"B.f1964\""); return 1; }
if (a.f1965() != "B.f1965") { Console.WriteLine("FAILED: a.f1965()!=\"B.f1965\""); return 1; }
if (a.f1966() != "B.f1966") { Console.WriteLine("FAILED: a.f1966()!=\"B.f1966\""); return 1; }
if (a.f1967() != "B.f1967") { Console.WriteLine("FAILED: a.f1967()!=\"B.f1967\""); return 1; }
if (a.f1968() != "B.f1968") { Console.WriteLine("FAILED: a.f1968()!=\"B.f1968\""); return 1; }
if (a.f1969() != "B.f1969") { Console.WriteLine("FAILED: a.f1969()!=\"B.f1969\""); return 1; }
if (a.f1970() != "B.f1970") { Console.WriteLine("FAILED: a.f1970()!=\"B.f1970\""); return 1; }
if (a.f1971() != "B.f1971") { Console.WriteLine("FAILED: a.f1971()!=\"B.f1971\""); return 1; }
if (a.f1972() != "B.f1972") { Console.WriteLine("FAILED: a.f1972()!=\"B.f1972\""); return 1; }
if (a.f1973() != "B.f1973") { Console.WriteLine("FAILED: a.f1973()!=\"B.f1973\""); return 1; }
if (a.f1974() != "B.f1974") { Console.WriteLine("FAILED: a.f1974()!=\"B.f1974\""); return 1; }
if (a.f1975() != "B.f1975") { Console.WriteLine("FAILED: a.f1975()!=\"B.f1975\""); return 1; }
if (a.f1976() != "B.f1976") { Console.WriteLine("FAILED: a.f1976()!=\"B.f1976\""); return 1; }
if (a.f1977() != "B.f1977") { Console.WriteLine("FAILED: a.f1977()!=\"B.f1977\""); return 1; }
if (a.f1978() != "B.f1978") { Console.WriteLine("FAILED: a.f1978()!=\"B.f1978\""); return 1; }
if (a.f1979() != "B.f1979") { Console.WriteLine("FAILED: a.f1979()!=\"B.f1979\""); return 1; }
if (a.f1980() != "B.f1980") { Console.WriteLine("FAILED: a.f1980()!=\"B.f1980\""); return 1; }
if (a.f1981() != "B.f1981") { Console.WriteLine("FAILED: a.f1981()!=\"B.f1981\""); return 1; }
if (a.f1982() != "B.f1982") { Console.WriteLine("FAILED: a.f1982()!=\"B.f1982\""); return 1; }
if (a.f1983() != "B.f1983") { Console.WriteLine("FAILED: a.f1983()!=\"B.f1983\""); return 1; }
if (a.f1984() != "B.f1984") { Console.WriteLine("FAILED: a.f1984()!=\"B.f1984\""); return 1; }
if (a.f1985() != "B.f1985") { Console.WriteLine("FAILED: a.f1985()!=\"B.f1985\""); return 1; }
if (a.f1986() != "B.f1986") { Console.WriteLine("FAILED: a.f1986()!=\"B.f1986\""); return 1; }
if (a.f1987() != "B.f1987") { Console.WriteLine("FAILED: a.f1987()!=\"B.f1987\""); return 1; }
if (a.f1988() != "B.f1988") { Console.WriteLine("FAILED: a.f1988()!=\"B.f1988\""); return 1; }
if (a.f1989() != "B.f1989") { Console.WriteLine("FAILED: a.f1989()!=\"B.f1989\""); return 1; }
if (a.f1990() != "B.f1990") { Console.WriteLine("FAILED: a.f1990()!=\"B.f1990\""); return 1; }
if (a.f1991() != "B.f1991") { Console.WriteLine("FAILED: a.f1991()!=\"B.f1991\""); return 1; }
if (a.f1992() != "B.f1992") { Console.WriteLine("FAILED: a.f1992()!=\"B.f1992\""); return 1; }
if (a.f1993() != "B.f1993") { Console.WriteLine("FAILED: a.f1993()!=\"B.f1993\""); return 1; }
if (a.f1994() != "B.f1994") { Console.WriteLine("FAILED: a.f1994()!=\"B.f1994\""); return 1; }
if (a.f1995() != "B.f1995") { Console.WriteLine("FAILED: a.f1995()!=\"B.f1995\""); return 1; }
if (a.f1996() != "B.f1996") { Console.WriteLine("FAILED: a.f1996()!=\"B.f1996\""); return 1; }
if (a.f1997() != "B.f1997") { Console.WriteLine("FAILED: a.f1997()!=\"B.f1997\""); return 1; }
if (a.f1998() != "B.f1998") { Console.WriteLine("FAILED: a.f1998()!=\"B.f1998\""); return 1; }
if (a.f1999() != "B.f1999") { Console.WriteLine("FAILED: a.f1999()!=\"B.f1999\""); return 1; }
if (a.f2000() != "B.f2000") { Console.WriteLine("FAILED: a.f2000()!=\"B.f2000\""); return 1; }
if (a.f2001() != "B.f2001") { Console.WriteLine("FAILED: a.f2001()!=\"B.f2001\""); return 1; }
if (a.f2002() != "B.f2002") { Console.WriteLine("FAILED: a.f2002()!=\"B.f2002\""); return 1; }
if (a.f2003() != "B.f2003") { Console.WriteLine("FAILED: a.f2003()!=\"B.f2003\""); return 1; }
if (a.f2004() != "B.f2004") { Console.WriteLine("FAILED: a.f2004()!=\"B.f2004\""); return 1; }
if (a.f2005() != "B.f2005") { Console.WriteLine("FAILED: a.f2005()!=\"B.f2005\""); return 1; }
if (a.f2006() != "B.f2006") { Console.WriteLine("FAILED: a.f2006()!=\"B.f2006\""); return 1; }
if (a.f2007() != "B.f2007") { Console.WriteLine("FAILED: a.f2007()!=\"B.f2007\""); return 1; }
if (a.f2008() != "B.f2008") { Console.WriteLine("FAILED: a.f2008()!=\"B.f2008\""); return 1; }
if (a.f2009() != "B.f2009") { Console.WriteLine("FAILED: a.f2009()!=\"B.f2009\""); return 1; }
if (a.f2010() != "B.f2010") { Console.WriteLine("FAILED: a.f2010()!=\"B.f2010\""); return 1; }
if (a.f2011() != "B.f2011") { Console.WriteLine("FAILED: a.f2011()!=\"B.f2011\""); return 1; }
if (a.f2012() != "B.f2012") { Console.WriteLine("FAILED: a.f2012()!=\"B.f2012\""); return 1; }
if (a.f2013() != "B.f2013") { Console.WriteLine("FAILED: a.f2013()!=\"B.f2013\""); return 1; }
if (a.f2014() != "B.f2014") { Console.WriteLine("FAILED: a.f2014()!=\"B.f2014\""); return 1; }
if (a.f2015() != "B.f2015") { Console.WriteLine("FAILED: a.f2015()!=\"B.f2015\""); return 1; }
if (a.f2016() != "B.f2016") { Console.WriteLine("FAILED: a.f2016()!=\"B.f2016\""); return 1; }
if (a.f2017() != "B.f2017") { Console.WriteLine("FAILED: a.f2017()!=\"B.f2017\""); return 1; }
if (a.f2018() != "B.f2018") { Console.WriteLine("FAILED: a.f2018()!=\"B.f2018\""); return 1; }
if (a.f2019() != "B.f2019") { Console.WriteLine("FAILED: a.f2019()!=\"B.f2019\""); return 1; }
if (a.f2020() != "B.f2020") { Console.WriteLine("FAILED: a.f2020()!=\"B.f2020\""); return 1; }
if (a.f2021() != "B.f2021") { Console.WriteLine("FAILED: a.f2021()!=\"B.f2021\""); return 1; }
if (a.f2022() != "B.f2022") { Console.WriteLine("FAILED: a.f2022()!=\"B.f2022\""); return 1; }
if (a.f2023() != "B.f2023") { Console.WriteLine("FAILED: a.f2023()!=\"B.f2023\""); return 1; }
if (a.f2024() != "B.f2024") { Console.WriteLine("FAILED: a.f2024()!=\"B.f2024\""); return 1; }
if (a.f2025() != "B.f2025") { Console.WriteLine("FAILED: a.f2025()!=\"B.f2025\""); return 1; }
if (a.f2026() != "B.f2026") { Console.WriteLine("FAILED: a.f2026()!=\"B.f2026\""); return 1; }
if (a.f2027() != "B.f2027") { Console.WriteLine("FAILED: a.f2027()!=\"B.f2027\""); return 1; }
if (a.f2028() != "B.f2028") { Console.WriteLine("FAILED: a.f2028()!=\"B.f2028\""); return 1; }
if (a.f2029() != "B.f2029") { Console.WriteLine("FAILED: a.f2029()!=\"B.f2029\""); return 1; }
if (a.f2030() != "B.f2030") { Console.WriteLine("FAILED: a.f2030()!=\"B.f2030\""); return 1; }
if (a.f2031() != "B.f2031") { Console.WriteLine("FAILED: a.f2031()!=\"B.f2031\""); return 1; }
if (a.f2032() != "B.f2032") { Console.WriteLine("FAILED: a.f2032()!=\"B.f2032\""); return 1; }
if (a.f2033() != "B.f2033") { Console.WriteLine("FAILED: a.f2033()!=\"B.f2033\""); return 1; }
if (a.f2034() != "B.f2034") { Console.WriteLine("FAILED: a.f2034()!=\"B.f2034\""); return 1; }
if (a.f2035() != "B.f2035") { Console.WriteLine("FAILED: a.f2035()!=\"B.f2035\""); return 1; }
if (a.f2036() != "B.f2036") { Console.WriteLine("FAILED: a.f2036()!=\"B.f2036\""); return 1; }
if (a.f2037() != "B.f2037") { Console.WriteLine("FAILED: a.f2037()!=\"B.f2037\""); return 1; }
if (a.f2038() != "B.f2038") { Console.WriteLine("FAILED: a.f2038()!=\"B.f2038\""); return 1; }
if (a.f2039() != "B.f2039") { Console.WriteLine("FAILED: a.f2039()!=\"B.f2039\""); return 1; }
if (a.f2040() != "B.f2040") { Console.WriteLine("FAILED: a.f2040()!=\"B.f2040\""); return 1; }
if (a.f2041() != "B.f2041") { Console.WriteLine("FAILED: a.f2041()!=\"B.f2041\""); return 1; }
if (a.f2042() != "B.f2042") { Console.WriteLine("FAILED: a.f2042()!=\"B.f2042\""); return 1; }
if (a.f2043() != "B.f2043") { Console.WriteLine("FAILED: a.f2043()!=\"B.f2043\""); return 1; }
if (a.f2044() != "B.f2044") { Console.WriteLine("FAILED: a.f2044()!=\"B.f2044\""); return 1; }
if (a.f2045() != "B.f2045") { Console.WriteLine("FAILED: a.f2045()!=\"B.f2045\""); return 1; }
if (a.f2046() != "B.f2046") { Console.WriteLine("FAILED: a.f2046()!=\"B.f2046\""); return 1; }
if (a.f2047() != "B.f2047") { Console.WriteLine("FAILED: a.f2047()!=\"B.f2047\""); return 1; }
if (a.f2048() != "B.f2048") { Console.WriteLine("FAILED: a.f2048()!=\"B.f2048\""); return 1; }
if (a.f2049() != "B.f2049") { Console.WriteLine("FAILED: a.f2049()!=\"B.f2049\""); return 1; }
if (a.f2050() != "B.f2050") { Console.WriteLine("FAILED: a.f2050()!=\"B.f2050\""); return 1; }
if (a.f2051() != "B.f2051") { Console.WriteLine("FAILED: a.f2051()!=\"B.f2051\""); return 1; }
if (a.f2052() != "B.f2052") { Console.WriteLine("FAILED: a.f2052()!=\"B.f2052\""); return 1; }
if (a.f2053() != "B.f2053") { Console.WriteLine("FAILED: a.f2053()!=\"B.f2053\""); return 1; }
if (a.f2054() != "B.f2054") { Console.WriteLine("FAILED: a.f2054()!=\"B.f2054\""); return 1; }
if (a.f2055() != "B.f2055") { Console.WriteLine("FAILED: a.f2055()!=\"B.f2055\""); return 1; }
if (a.f2056() != "B.f2056") { Console.WriteLine("FAILED: a.f2056()!=\"B.f2056\""); return 1; }
if (a.f2057() != "B.f2057") { Console.WriteLine("FAILED: a.f2057()!=\"B.f2057\""); return 1; }
if (a.f2058() != "B.f2058") { Console.WriteLine("FAILED: a.f2058()!=\"B.f2058\""); return 1; }
if (a.f2059() != "B.f2059") { Console.WriteLine("FAILED: a.f2059()!=\"B.f2059\""); return 1; }
if (a.f2060() != "B.f2060") { Console.WriteLine("FAILED: a.f2060()!=\"B.f2060\""); return 1; }
if (a.f2061() != "B.f2061") { Console.WriteLine("FAILED: a.f2061()!=\"B.f2061\""); return 1; }
if (a.f2062() != "B.f2062") { Console.WriteLine("FAILED: a.f2062()!=\"B.f2062\""); return 1; }
if (a.f2063() != "B.f2063") { Console.WriteLine("FAILED: a.f2063()!=\"B.f2063\""); return 1; }
if (a.f2064() != "B.f2064") { Console.WriteLine("FAILED: a.f2064()!=\"B.f2064\""); return 1; }
if (a.f2065() != "B.f2065") { Console.WriteLine("FAILED: a.f2065()!=\"B.f2065\""); return 1; }
if (a.f2066() != "B.f2066") { Console.WriteLine("FAILED: a.f2066()!=\"B.f2066\""); return 1; }
if (a.f2067() != "B.f2067") { Console.WriteLine("FAILED: a.f2067()!=\"B.f2067\""); return 1; }
if (a.f2068() != "B.f2068") { Console.WriteLine("FAILED: a.f2068()!=\"B.f2068\""); return 1; }
if (a.f2069() != "B.f2069") { Console.WriteLine("FAILED: a.f2069()!=\"B.f2069\""); return 1; }
if (a.f2070() != "B.f2070") { Console.WriteLine("FAILED: a.f2070()!=\"B.f2070\""); return 1; }
if (a.f2071() != "B.f2071") { Console.WriteLine("FAILED: a.f2071()!=\"B.f2071\""); return 1; }
if (a.f2072() != "B.f2072") { Console.WriteLine("FAILED: a.f2072()!=\"B.f2072\""); return 1; }
if (a.f2073() != "B.f2073") { Console.WriteLine("FAILED: a.f2073()!=\"B.f2073\""); return 1; }
if (a.f2074() != "B.f2074") { Console.WriteLine("FAILED: a.f2074()!=\"B.f2074\""); return 1; }
if (a.f2075() != "B.f2075") { Console.WriteLine("FAILED: a.f2075()!=\"B.f2075\""); return 1; }
if (a.f2076() != "B.f2076") { Console.WriteLine("FAILED: a.f2076()!=\"B.f2076\""); return 1; }
if (a.f2077() != "B.f2077") { Console.WriteLine("FAILED: a.f2077()!=\"B.f2077\""); return 1; }
if (a.f2078() != "B.f2078") { Console.WriteLine("FAILED: a.f2078()!=\"B.f2078\""); return 1; }
if (a.f2079() != "B.f2079") { Console.WriteLine("FAILED: a.f2079()!=\"B.f2079\""); return 1; }
if (a.f2080() != "B.f2080") { Console.WriteLine("FAILED: a.f2080()!=\"B.f2080\""); return 1; }
if (a.f2081() != "B.f2081") { Console.WriteLine("FAILED: a.f2081()!=\"B.f2081\""); return 1; }
if (a.f2082() != "B.f2082") { Console.WriteLine("FAILED: a.f2082()!=\"B.f2082\""); return 1; }
if (a.f2083() != "B.f2083") { Console.WriteLine("FAILED: a.f2083()!=\"B.f2083\""); return 1; }
if (a.f2084() != "B.f2084") { Console.WriteLine("FAILED: a.f2084()!=\"B.f2084\""); return 1; }
if (a.f2085() != "B.f2085") { Console.WriteLine("FAILED: a.f2085()!=\"B.f2085\""); return 1; }
if (a.f2086() != "B.f2086") { Console.WriteLine("FAILED: a.f2086()!=\"B.f2086\""); return 1; }
if (a.f2087() != "B.f2087") { Console.WriteLine("FAILED: a.f2087()!=\"B.f2087\""); return 1; }
if (a.f2088() != "B.f2088") { Console.WriteLine("FAILED: a.f2088()!=\"B.f2088\""); return 1; }
if (a.f2089() != "B.f2089") { Console.WriteLine("FAILED: a.f2089()!=\"B.f2089\""); return 1; }
if (a.f2090() != "B.f2090") { Console.WriteLine("FAILED: a.f2090()!=\"B.f2090\""); return 1; }
if (a.f2091() != "B.f2091") { Console.WriteLine("FAILED: a.f2091()!=\"B.f2091\""); return 1; }
if (a.f2092() != "B.f2092") { Console.WriteLine("FAILED: a.f2092()!=\"B.f2092\""); return 1; }
if (a.f2093() != "B.f2093") { Console.WriteLine("FAILED: a.f2093()!=\"B.f2093\""); return 1; }
if (a.f2094() != "B.f2094") { Console.WriteLine("FAILED: a.f2094()!=\"B.f2094\""); return 1; }
if (a.f2095() != "B.f2095") { Console.WriteLine("FAILED: a.f2095()!=\"B.f2095\""); return 1; }
if (a.f2096() != "B.f2096") { Console.WriteLine("FAILED: a.f2096()!=\"B.f2096\""); return 1; }
if (a.f2097() != "B.f2097") { Console.WriteLine("FAILED: a.f2097()!=\"B.f2097\""); return 1; }
if (a.f2098() != "B.f2098") { Console.WriteLine("FAILED: a.f2098()!=\"B.f2098\""); return 1; }
if (a.f2099() != "B.f2099") { Console.WriteLine("FAILED: a.f2099()!=\"B.f2099\""); return 1; }
if (a.f2100() != "B.f2100") { Console.WriteLine("FAILED: a.f2100()!=\"B.f2100\""); return 1; }
if (a.f2101() != "B.f2101") { Console.WriteLine("FAILED: a.f2101()!=\"B.f2101\""); return 1; }
if (a.f2102() != "B.f2102") { Console.WriteLine("FAILED: a.f2102()!=\"B.f2102\""); return 1; }
if (a.f2103() != "B.f2103") { Console.WriteLine("FAILED: a.f2103()!=\"B.f2103\""); return 1; }
if (a.f2104() != "B.f2104") { Console.WriteLine("FAILED: a.f2104()!=\"B.f2104\""); return 1; }
if (a.f2105() != "B.f2105") { Console.WriteLine("FAILED: a.f2105()!=\"B.f2105\""); return 1; }
if (a.f2106() != "B.f2106") { Console.WriteLine("FAILED: a.f2106()!=\"B.f2106\""); return 1; }
if (a.f2107() != "B.f2107") { Console.WriteLine("FAILED: a.f2107()!=\"B.f2107\""); return 1; }
if (a.f2108() != "B.f2108") { Console.WriteLine("FAILED: a.f2108()!=\"B.f2108\""); return 1; }
if (a.f2109() != "B.f2109") { Console.WriteLine("FAILED: a.f2109()!=\"B.f2109\""); return 1; }
if (a.f2110() != "B.f2110") { Console.WriteLine("FAILED: a.f2110()!=\"B.f2110\""); return 1; }
if (a.f2111() != "B.f2111") { Console.WriteLine("FAILED: a.f2111()!=\"B.f2111\""); return 1; }
if (a.f2112() != "B.f2112") { Console.WriteLine("FAILED: a.f2112()!=\"B.f2112\""); return 1; }
if (a.f2113() != "B.f2113") { Console.WriteLine("FAILED: a.f2113()!=\"B.f2113\""); return 1; }
if (a.f2114() != "B.f2114") { Console.WriteLine("FAILED: a.f2114()!=\"B.f2114\""); return 1; }
if (a.f2115() != "B.f2115") { Console.WriteLine("FAILED: a.f2115()!=\"B.f2115\""); return 1; }
if (a.f2116() != "B.f2116") { Console.WriteLine("FAILED: a.f2116()!=\"B.f2116\""); return 1; }
if (a.f2117() != "B.f2117") { Console.WriteLine("FAILED: a.f2117()!=\"B.f2117\""); return 1; }
if (a.f2118() != "B.f2118") { Console.WriteLine("FAILED: a.f2118()!=\"B.f2118\""); return 1; }
if (a.f2119() != "B.f2119") { Console.WriteLine("FAILED: a.f2119()!=\"B.f2119\""); return 1; }
if (a.f2120() != "B.f2120") { Console.WriteLine("FAILED: a.f2120()!=\"B.f2120\""); return 1; }
if (a.f2121() != "B.f2121") { Console.WriteLine("FAILED: a.f2121()!=\"B.f2121\""); return 1; }
if (a.f2122() != "B.f2122") { Console.WriteLine("FAILED: a.f2122()!=\"B.f2122\""); return 1; }
if (a.f2123() != "B.f2123") { Console.WriteLine("FAILED: a.f2123()!=\"B.f2123\""); return 1; }
if (a.f2124() != "B.f2124") { Console.WriteLine("FAILED: a.f2124()!=\"B.f2124\""); return 1; }
if (a.f2125() != "B.f2125") { Console.WriteLine("FAILED: a.f2125()!=\"B.f2125\""); return 1; }
if (a.f2126() != "B.f2126") { Console.WriteLine("FAILED: a.f2126()!=\"B.f2126\""); return 1; }
if (a.f2127() != "B.f2127") { Console.WriteLine("FAILED: a.f2127()!=\"B.f2127\""); return 1; }
if (a.f2128() != "B.f2128") { Console.WriteLine("FAILED: a.f2128()!=\"B.f2128\""); return 1; }
if (a.f2129() != "B.f2129") { Console.WriteLine("FAILED: a.f2129()!=\"B.f2129\""); return 1; }
if (a.f2130() != "B.f2130") { Console.WriteLine("FAILED: a.f2130()!=\"B.f2130\""); return 1; }
if (a.f2131() != "B.f2131") { Console.WriteLine("FAILED: a.f2131()!=\"B.f2131\""); return 1; }
if (a.f2132() != "B.f2132") { Console.WriteLine("FAILED: a.f2132()!=\"B.f2132\""); return 1; }
if (a.f2133() != "B.f2133") { Console.WriteLine("FAILED: a.f2133()!=\"B.f2133\""); return 1; }
if (a.f2134() != "B.f2134") { Console.WriteLine("FAILED: a.f2134()!=\"B.f2134\""); return 1; }
if (a.f2135() != "B.f2135") { Console.WriteLine("FAILED: a.f2135()!=\"B.f2135\""); return 1; }
if (a.f2136() != "B.f2136") { Console.WriteLine("FAILED: a.f2136()!=\"B.f2136\""); return 1; }
if (a.f2137() != "B.f2137") { Console.WriteLine("FAILED: a.f2137()!=\"B.f2137\""); return 1; }
if (a.f2138() != "B.f2138") { Console.WriteLine("FAILED: a.f2138()!=\"B.f2138\""); return 1; }
if (a.f2139() != "B.f2139") { Console.WriteLine("FAILED: a.f2139()!=\"B.f2139\""); return 1; }
if (a.f2140() != "B.f2140") { Console.WriteLine("FAILED: a.f2140()!=\"B.f2140\""); return 1; }
if (a.f2141() != "B.f2141") { Console.WriteLine("FAILED: a.f2141()!=\"B.f2141\""); return 1; }
if (a.f2142() != "B.f2142") { Console.WriteLine("FAILED: a.f2142()!=\"B.f2142\""); return 1; }
if (a.f2143() != "B.f2143") { Console.WriteLine("FAILED: a.f2143()!=\"B.f2143\""); return 1; }
if (a.f2144() != "B.f2144") { Console.WriteLine("FAILED: a.f2144()!=\"B.f2144\""); return 1; }
if (a.f2145() != "B.f2145") { Console.WriteLine("FAILED: a.f2145()!=\"B.f2145\""); return 1; }
if (a.f2146() != "B.f2146") { Console.WriteLine("FAILED: a.f2146()!=\"B.f2146\""); return 1; }
if (a.f2147() != "B.f2147") { Console.WriteLine("FAILED: a.f2147()!=\"B.f2147\""); return 1; }
if (a.f2148() != "B.f2148") { Console.WriteLine("FAILED: a.f2148()!=\"B.f2148\""); return 1; }
if (a.f2149() != "B.f2149") { Console.WriteLine("FAILED: a.f2149()!=\"B.f2149\""); return 1; }
if (a.f2150() != "B.f2150") { Console.WriteLine("FAILED: a.f2150()!=\"B.f2150\""); return 1; }
if (a.f2151() != "B.f2151") { Console.WriteLine("FAILED: a.f2151()!=\"B.f2151\""); return 1; }
if (a.f2152() != "B.f2152") { Console.WriteLine("FAILED: a.f2152()!=\"B.f2152\""); return 1; }
if (a.f2153() != "B.f2153") { Console.WriteLine("FAILED: a.f2153()!=\"B.f2153\""); return 1; }
if (a.f2154() != "B.f2154") { Console.WriteLine("FAILED: a.f2154()!=\"B.f2154\""); return 1; }
if (a.f2155() != "B.f2155") { Console.WriteLine("FAILED: a.f2155()!=\"B.f2155\""); return 1; }
if (a.f2156() != "B.f2156") { Console.WriteLine("FAILED: a.f2156()!=\"B.f2156\""); return 1; }
if (a.f2157() != "B.f2157") { Console.WriteLine("FAILED: a.f2157()!=\"B.f2157\""); return 1; }
if (a.f2158() != "B.f2158") { Console.WriteLine("FAILED: a.f2158()!=\"B.f2158\""); return 1; }
if (a.f2159() != "B.f2159") { Console.WriteLine("FAILED: a.f2159()!=\"B.f2159\""); return 1; }
if (a.f2160() != "B.f2160") { Console.WriteLine("FAILED: a.f2160()!=\"B.f2160\""); return 1; }
if (a.f2161() != "B.f2161") { Console.WriteLine("FAILED: a.f2161()!=\"B.f2161\""); return 1; }
if (a.f2162() != "B.f2162") { Console.WriteLine("FAILED: a.f2162()!=\"B.f2162\""); return 1; }
if (a.f2163() != "B.f2163") { Console.WriteLine("FAILED: a.f2163()!=\"B.f2163\""); return 1; }
if (a.f2164() != "B.f2164") { Console.WriteLine("FAILED: a.f2164()!=\"B.f2164\""); return 1; }
if (a.f2165() != "B.f2165") { Console.WriteLine("FAILED: a.f2165()!=\"B.f2165\""); return 1; }
if (a.f2166() != "B.f2166") { Console.WriteLine("FAILED: a.f2166()!=\"B.f2166\""); return 1; }
if (a.f2167() != "B.f2167") { Console.WriteLine("FAILED: a.f2167()!=\"B.f2167\""); return 1; }
if (a.f2168() != "B.f2168") { Console.WriteLine("FAILED: a.f2168()!=\"B.f2168\""); return 1; }
if (a.f2169() != "B.f2169") { Console.WriteLine("FAILED: a.f2169()!=\"B.f2169\""); return 1; }
if (a.f2170() != "B.f2170") { Console.WriteLine("FAILED: a.f2170()!=\"B.f2170\""); return 1; }
if (a.f2171() != "B.f2171") { Console.WriteLine("FAILED: a.f2171()!=\"B.f2171\""); return 1; }
if (a.f2172() != "B.f2172") { Console.WriteLine("FAILED: a.f2172()!=\"B.f2172\""); return 1; }
if (a.f2173() != "B.f2173") { Console.WriteLine("FAILED: a.f2173()!=\"B.f2173\""); return 1; }
if (a.f2174() != "B.f2174") { Console.WriteLine("FAILED: a.f2174()!=\"B.f2174\""); return 1; }
if (a.f2175() != "B.f2175") { Console.WriteLine("FAILED: a.f2175()!=\"B.f2175\""); return 1; }
if (a.f2176() != "B.f2176") { Console.WriteLine("FAILED: a.f2176()!=\"B.f2176\""); return 1; }
if (a.f2177() != "B.f2177") { Console.WriteLine("FAILED: a.f2177()!=\"B.f2177\""); return 1; }
if (a.f2178() != "B.f2178") { Console.WriteLine("FAILED: a.f2178()!=\"B.f2178\""); return 1; }
if (a.f2179() != "B.f2179") { Console.WriteLine("FAILED: a.f2179()!=\"B.f2179\""); return 1; }
if (a.f2180() != "B.f2180") { Console.WriteLine("FAILED: a.f2180()!=\"B.f2180\""); return 1; }
if (a.f2181() != "B.f2181") { Console.WriteLine("FAILED: a.f2181()!=\"B.f2181\""); return 1; }
if (a.f2182() != "B.f2182") { Console.WriteLine("FAILED: a.f2182()!=\"B.f2182\""); return 1; }
if (a.f2183() != "B.f2183") { Console.WriteLine("FAILED: a.f2183()!=\"B.f2183\""); return 1; }
if (a.f2184() != "B.f2184") { Console.WriteLine("FAILED: a.f2184()!=\"B.f2184\""); return 1; }
if (a.f2185() != "B.f2185") { Console.WriteLine("FAILED: a.f2185()!=\"B.f2185\""); return 1; }
if (a.f2186() != "B.f2186") { Console.WriteLine("FAILED: a.f2186()!=\"B.f2186\""); return 1; }
if (a.f2187() != "B.f2187") { Console.WriteLine("FAILED: a.f2187()!=\"B.f2187\""); return 1; }
if (a.f2188() != "B.f2188") { Console.WriteLine("FAILED: a.f2188()!=\"B.f2188\""); return 1; }
if (a.f2189() != "B.f2189") { Console.WriteLine("FAILED: a.f2189()!=\"B.f2189\""); return 1; }
if (a.f2190() != "B.f2190") { Console.WriteLine("FAILED: a.f2190()!=\"B.f2190\""); return 1; }
if (a.f2191() != "B.f2191") { Console.WriteLine("FAILED: a.f2191()!=\"B.f2191\""); return 1; }
if (a.f2192() != "B.f2192") { Console.WriteLine("FAILED: a.f2192()!=\"B.f2192\""); return 1; }
if (a.f2193() != "B.f2193") { Console.WriteLine("FAILED: a.f2193()!=\"B.f2193\""); return 1; }
if (a.f2194() != "B.f2194") { Console.WriteLine("FAILED: a.f2194()!=\"B.f2194\""); return 1; }
if (a.f2195() != "B.f2195") { Console.WriteLine("FAILED: a.f2195()!=\"B.f2195\""); return 1; }
if (a.f2196() != "B.f2196") { Console.WriteLine("FAILED: a.f2196()!=\"B.f2196\""); return 1; }
if (a.f2197() != "B.f2197") { Console.WriteLine("FAILED: a.f2197()!=\"B.f2197\""); return 1; }
if (a.f2198() != "B.f2198") { Console.WriteLine("FAILED: a.f2198()!=\"B.f2198\""); return 1; }
if (a.f2199() != "B.f2199") { Console.WriteLine("FAILED: a.f2199()!=\"B.f2199\""); return 1; }
if (a.f2200() != "B.f2200") { Console.WriteLine("FAILED: a.f2200()!=\"B.f2200\""); return 1; }
if (a.f2201() != "B.f2201") { Console.WriteLine("FAILED: a.f2201()!=\"B.f2201\""); return 1; }
if (a.f2202() != "B.f2202") { Console.WriteLine("FAILED: a.f2202()!=\"B.f2202\""); return 1; }
if (a.f2203() != "B.f2203") { Console.WriteLine("FAILED: a.f2203()!=\"B.f2203\""); return 1; }
if (a.f2204() != "B.f2204") { Console.WriteLine("FAILED: a.f2204()!=\"B.f2204\""); return 1; }
if (a.f2205() != "B.f2205") { Console.WriteLine("FAILED: a.f2205()!=\"B.f2205\""); return 1; }
if (a.f2206() != "B.f2206") { Console.WriteLine("FAILED: a.f2206()!=\"B.f2206\""); return 1; }
if (a.f2207() != "B.f2207") { Console.WriteLine("FAILED: a.f2207()!=\"B.f2207\""); return 1; }
if (a.f2208() != "B.f2208") { Console.WriteLine("FAILED: a.f2208()!=\"B.f2208\""); return 1; }
if (a.f2209() != "B.f2209") { Console.WriteLine("FAILED: a.f2209()!=\"B.f2209\""); return 1; }
if (a.f2210() != "B.f2210") { Console.WriteLine("FAILED: a.f2210()!=\"B.f2210\""); return 1; }
if (a.f2211() != "B.f2211") { Console.WriteLine("FAILED: a.f2211()!=\"B.f2211\""); return 1; }
if (a.f2212() != "B.f2212") { Console.WriteLine("FAILED: a.f2212()!=\"B.f2212\""); return 1; }
if (a.f2213() != "B.f2213") { Console.WriteLine("FAILED: a.f2213()!=\"B.f2213\""); return 1; }
if (a.f2214() != "B.f2214") { Console.WriteLine("FAILED: a.f2214()!=\"B.f2214\""); return 1; }
if (a.f2215() != "B.f2215") { Console.WriteLine("FAILED: a.f2215()!=\"B.f2215\""); return 1; }
if (a.f2216() != "B.f2216") { Console.WriteLine("FAILED: a.f2216()!=\"B.f2216\""); return 1; }
if (a.f2217() != "B.f2217") { Console.WriteLine("FAILED: a.f2217()!=\"B.f2217\""); return 1; }
if (a.f2218() != "B.f2218") { Console.WriteLine("FAILED: a.f2218()!=\"B.f2218\""); return 1; }
if (a.f2219() != "B.f2219") { Console.WriteLine("FAILED: a.f2219()!=\"B.f2219\""); return 1; }
if (a.f2220() != "B.f2220") { Console.WriteLine("FAILED: a.f2220()!=\"B.f2220\""); return 1; }
if (a.f2221() != "B.f2221") { Console.WriteLine("FAILED: a.f2221()!=\"B.f2221\""); return 1; }
if (a.f2222() != "B.f2222") { Console.WriteLine("FAILED: a.f2222()!=\"B.f2222\""); return 1; }
if (a.f2223() != "B.f2223") { Console.WriteLine("FAILED: a.f2223()!=\"B.f2223\""); return 1; }
if (a.f2224() != "B.f2224") { Console.WriteLine("FAILED: a.f2224()!=\"B.f2224\""); return 1; }
if (a.f2225() != "B.f2225") { Console.WriteLine("FAILED: a.f2225()!=\"B.f2225\""); return 1; }
if (a.f2226() != "B.f2226") { Console.WriteLine("FAILED: a.f2226()!=\"B.f2226\""); return 1; }
if (a.f2227() != "B.f2227") { Console.WriteLine("FAILED: a.f2227()!=\"B.f2227\""); return 1; }
if (a.f2228() != "B.f2228") { Console.WriteLine("FAILED: a.f2228()!=\"B.f2228\""); return 1; }
if (a.f2229() != "B.f2229") { Console.WriteLine("FAILED: a.f2229()!=\"B.f2229\""); return 1; }
if (a.f2230() != "B.f2230") { Console.WriteLine("FAILED: a.f2230()!=\"B.f2230\""); return 1; }
if (a.f2231() != "B.f2231") { Console.WriteLine("FAILED: a.f2231()!=\"B.f2231\""); return 1; }
if (a.f2232() != "B.f2232") { Console.WriteLine("FAILED: a.f2232()!=\"B.f2232\""); return 1; }
if (a.f2233() != "B.f2233") { Console.WriteLine("FAILED: a.f2233()!=\"B.f2233\""); return 1; }
if (a.f2234() != "B.f2234") { Console.WriteLine("FAILED: a.f2234()!=\"B.f2234\""); return 1; }
if (a.f2235() != "B.f2235") { Console.WriteLine("FAILED: a.f2235()!=\"B.f2235\""); return 1; }
if (a.f2236() != "B.f2236") { Console.WriteLine("FAILED: a.f2236()!=\"B.f2236\""); return 1; }
if (a.f2237() != "B.f2237") { Console.WriteLine("FAILED: a.f2237()!=\"B.f2237\""); return 1; }
if (a.f2238() != "B.f2238") { Console.WriteLine("FAILED: a.f2238()!=\"B.f2238\""); return 1; }
if (a.f2239() != "B.f2239") { Console.WriteLine("FAILED: a.f2239()!=\"B.f2239\""); return 1; }
if (a.f2240() != "B.f2240") { Console.WriteLine("FAILED: a.f2240()!=\"B.f2240\""); return 1; }
if (a.f2241() != "B.f2241") { Console.WriteLine("FAILED: a.f2241()!=\"B.f2241\""); return 1; }
if (a.f2242() != "B.f2242") { Console.WriteLine("FAILED: a.f2242()!=\"B.f2242\""); return 1; }
if (a.f2243() != "B.f2243") { Console.WriteLine("FAILED: a.f2243()!=\"B.f2243\""); return 1; }
if (a.f2244() != "B.f2244") { Console.WriteLine("FAILED: a.f2244()!=\"B.f2244\""); return 1; }
if (a.f2245() != "B.f2245") { Console.WriteLine("FAILED: a.f2245()!=\"B.f2245\""); return 1; }
if (a.f2246() != "B.f2246") { Console.WriteLine("FAILED: a.f2246()!=\"B.f2246\""); return 1; }
if (a.f2247() != "B.f2247") { Console.WriteLine("FAILED: a.f2247()!=\"B.f2247\""); return 1; }
if (a.f2248() != "B.f2248") { Console.WriteLine("FAILED: a.f2248()!=\"B.f2248\""); return 1; }
if (a.f2249() != "B.f2249") { Console.WriteLine("FAILED: a.f2249()!=\"B.f2249\""); return 1; }
if (a.f2250() != "B.f2250") { Console.WriteLine("FAILED: a.f2250()!=\"B.f2250\""); return 1; }
if (a.f2251() != "B.f2251") { Console.WriteLine("FAILED: a.f2251()!=\"B.f2251\""); return 1; }
if (a.f2252() != "B.f2252") { Console.WriteLine("FAILED: a.f2252()!=\"B.f2252\""); return 1; }
if (a.f2253() != "B.f2253") { Console.WriteLine("FAILED: a.f2253()!=\"B.f2253\""); return 1; }
if (a.f2254() != "B.f2254") { Console.WriteLine("FAILED: a.f2254()!=\"B.f2254\""); return 1; }
if (a.f2255() != "B.f2255") { Console.WriteLine("FAILED: a.f2255()!=\"B.f2255\""); return 1; }
if (a.f2256() != "B.f2256") { Console.WriteLine("FAILED: a.f2256()!=\"B.f2256\""); return 1; }
if (a.f2257() != "B.f2257") { Console.WriteLine("FAILED: a.f2257()!=\"B.f2257\""); return 1; }
if (a.f2258() != "B.f2258") { Console.WriteLine("FAILED: a.f2258()!=\"B.f2258\""); return 1; }
if (a.f2259() != "B.f2259") { Console.WriteLine("FAILED: a.f2259()!=\"B.f2259\""); return 1; }
if (a.f2260() != "B.f2260") { Console.WriteLine("FAILED: a.f2260()!=\"B.f2260\""); return 1; }
if (a.f2261() != "B.f2261") { Console.WriteLine("FAILED: a.f2261()!=\"B.f2261\""); return 1; }
if (a.f2262() != "B.f2262") { Console.WriteLine("FAILED: a.f2262()!=\"B.f2262\""); return 1; }
if (a.f2263() != "B.f2263") { Console.WriteLine("FAILED: a.f2263()!=\"B.f2263\""); return 1; }
if (a.f2264() != "B.f2264") { Console.WriteLine("FAILED: a.f2264()!=\"B.f2264\""); return 1; }
if (a.f2265() != "B.f2265") { Console.WriteLine("FAILED: a.f2265()!=\"B.f2265\""); return 1; }
if (a.f2266() != "B.f2266") { Console.WriteLine("FAILED: a.f2266()!=\"B.f2266\""); return 1; }
if (a.f2267() != "B.f2267") { Console.WriteLine("FAILED: a.f2267()!=\"B.f2267\""); return 1; }
if (a.f2268() != "B.f2268") { Console.WriteLine("FAILED: a.f2268()!=\"B.f2268\""); return 1; }
if (a.f2269() != "B.f2269") { Console.WriteLine("FAILED: a.f2269()!=\"B.f2269\""); return 1; }
if (a.f2270() != "B.f2270") { Console.WriteLine("FAILED: a.f2270()!=\"B.f2270\""); return 1; }
if (a.f2271() != "B.f2271") { Console.WriteLine("FAILED: a.f2271()!=\"B.f2271\""); return 1; }
if (a.f2272() != "B.f2272") { Console.WriteLine("FAILED: a.f2272()!=\"B.f2272\""); return 1; }
if (a.f2273() != "B.f2273") { Console.WriteLine("FAILED: a.f2273()!=\"B.f2273\""); return 1; }
if (a.f2274() != "B.f2274") { Console.WriteLine("FAILED: a.f2274()!=\"B.f2274\""); return 1; }
if (a.f2275() != "B.f2275") { Console.WriteLine("FAILED: a.f2275()!=\"B.f2275\""); return 1; }
if (a.f2276() != "B.f2276") { Console.WriteLine("FAILED: a.f2276()!=\"B.f2276\""); return 1; }
if (a.f2277() != "B.f2277") { Console.WriteLine("FAILED: a.f2277()!=\"B.f2277\""); return 1; }
if (a.f2278() != "B.f2278") { Console.WriteLine("FAILED: a.f2278()!=\"B.f2278\""); return 1; }
if (a.f2279() != "B.f2279") { Console.WriteLine("FAILED: a.f2279()!=\"B.f2279\""); return 1; }
if (a.f2280() != "B.f2280") { Console.WriteLine("FAILED: a.f2280()!=\"B.f2280\""); return 1; }
if (a.f2281() != "B.f2281") { Console.WriteLine("FAILED: a.f2281()!=\"B.f2281\""); return 1; }
if (a.f2282() != "B.f2282") { Console.WriteLine("FAILED: a.f2282()!=\"B.f2282\""); return 1; }
if (a.f2283() != "B.f2283") { Console.WriteLine("FAILED: a.f2283()!=\"B.f2283\""); return 1; }
if (a.f2284() != "B.f2284") { Console.WriteLine("FAILED: a.f2284()!=\"B.f2284\""); return 1; }
if (a.f2285() != "B.f2285") { Console.WriteLine("FAILED: a.f2285()!=\"B.f2285\""); return 1; }
if (a.f2286() != "B.f2286") { Console.WriteLine("FAILED: a.f2286()!=\"B.f2286\""); return 1; }
if (a.f2287() != "B.f2287") { Console.WriteLine("FAILED: a.f2287()!=\"B.f2287\""); return 1; }
if (a.f2288() != "B.f2288") { Console.WriteLine("FAILED: a.f2288()!=\"B.f2288\""); return 1; }
if (a.f2289() != "B.f2289") { Console.WriteLine("FAILED: a.f2289()!=\"B.f2289\""); return 1; }
if (a.f2290() != "B.f2290") { Console.WriteLine("FAILED: a.f2290()!=\"B.f2290\""); return 1; }
if (a.f2291() != "B.f2291") { Console.WriteLine("FAILED: a.f2291()!=\"B.f2291\""); return 1; }
if (a.f2292() != "B.f2292") { Console.WriteLine("FAILED: a.f2292()!=\"B.f2292\""); return 1; }
if (a.f2293() != "B.f2293") { Console.WriteLine("FAILED: a.f2293()!=\"B.f2293\""); return 1; }
if (a.f2294() != "B.f2294") { Console.WriteLine("FAILED: a.f2294()!=\"B.f2294\""); return 1; }
if (a.f2295() != "B.f2295") { Console.WriteLine("FAILED: a.f2295()!=\"B.f2295\""); return 1; }
if (a.f2296() != "B.f2296") { Console.WriteLine("FAILED: a.f2296()!=\"B.f2296\""); return 1; }
if (a.f2297() != "B.f2297") { Console.WriteLine("FAILED: a.f2297()!=\"B.f2297\""); return 1; }
if (a.f2298() != "B.f2298") { Console.WriteLine("FAILED: a.f2298()!=\"B.f2298\""); return 1; }
if (a.f2299() != "B.f2299") { Console.WriteLine("FAILED: a.f2299()!=\"B.f2299\""); return 1; }
if (a.f2300() != "B.f2300") { Console.WriteLine("FAILED: a.f2300()!=\"B.f2300\""); return 1; }
if (a.f2301() != "B.f2301") { Console.WriteLine("FAILED: a.f2301()!=\"B.f2301\""); return 1; }
if (a.f2302() != "B.f2302") { Console.WriteLine("FAILED: a.f2302()!=\"B.f2302\""); return 1; }
if (a.f2303() != "B.f2303") { Console.WriteLine("FAILED: a.f2303()!=\"B.f2303\""); return 1; }
if (a.f2304() != "B.f2304") { Console.WriteLine("FAILED: a.f2304()!=\"B.f2304\""); return 1; }
if (a.f2305() != "B.f2305") { Console.WriteLine("FAILED: a.f2305()!=\"B.f2305\""); return 1; }
if (a.f2306() != "B.f2306") { Console.WriteLine("FAILED: a.f2306()!=\"B.f2306\""); return 1; }
if (a.f2307() != "B.f2307") { Console.WriteLine("FAILED: a.f2307()!=\"B.f2307\""); return 1; }
if (a.f2308() != "B.f2308") { Console.WriteLine("FAILED: a.f2308()!=\"B.f2308\""); return 1; }
if (a.f2309() != "B.f2309") { Console.WriteLine("FAILED: a.f2309()!=\"B.f2309\""); return 1; }
if (a.f2310() != "B.f2310") { Console.WriteLine("FAILED: a.f2310()!=\"B.f2310\""); return 1; }
if (a.f2311() != "B.f2311") { Console.WriteLine("FAILED: a.f2311()!=\"B.f2311\""); return 1; }
if (a.f2312() != "B.f2312") { Console.WriteLine("FAILED: a.f2312()!=\"B.f2312\""); return 1; }
if (a.f2313() != "B.f2313") { Console.WriteLine("FAILED: a.f2313()!=\"B.f2313\""); return 1; }
if (a.f2314() != "B.f2314") { Console.WriteLine("FAILED: a.f2314()!=\"B.f2314\""); return 1; }
if (a.f2315() != "B.f2315") { Console.WriteLine("FAILED: a.f2315()!=\"B.f2315\""); return 1; }
if (a.f2316() != "B.f2316") { Console.WriteLine("FAILED: a.f2316()!=\"B.f2316\""); return 1; }
if (a.f2317() != "B.f2317") { Console.WriteLine("FAILED: a.f2317()!=\"B.f2317\""); return 1; }
if (a.f2318() != "B.f2318") { Console.WriteLine("FAILED: a.f2318()!=\"B.f2318\""); return 1; }
if (a.f2319() != "B.f2319") { Console.WriteLine("FAILED: a.f2319()!=\"B.f2319\""); return 1; }
if (a.f2320() != "B.f2320") { Console.WriteLine("FAILED: a.f2320()!=\"B.f2320\""); return 1; }
if (a.f2321() != "B.f2321") { Console.WriteLine("FAILED: a.f2321()!=\"B.f2321\""); return 1; }
if (a.f2322() != "B.f2322") { Console.WriteLine("FAILED: a.f2322()!=\"B.f2322\""); return 1; }
if (a.f2323() != "B.f2323") { Console.WriteLine("FAILED: a.f2323()!=\"B.f2323\""); return 1; }
if (a.f2324() != "B.f2324") { Console.WriteLine("FAILED: a.f2324()!=\"B.f2324\""); return 1; }
if (a.f2325() != "B.f2325") { Console.WriteLine("FAILED: a.f2325()!=\"B.f2325\""); return 1; }
if (a.f2326() != "B.f2326") { Console.WriteLine("FAILED: a.f2326()!=\"B.f2326\""); return 1; }
if (a.f2327() != "B.f2327") { Console.WriteLine("FAILED: a.f2327()!=\"B.f2327\""); return 1; }
if (a.f2328() != "B.f2328") { Console.WriteLine("FAILED: a.f2328()!=\"B.f2328\""); return 1; }
if (a.f2329() != "B.f2329") { Console.WriteLine("FAILED: a.f2329()!=\"B.f2329\""); return 1; }
if (a.f2330() != "B.f2330") { Console.WriteLine("FAILED: a.f2330()!=\"B.f2330\""); return 1; }
if (a.f2331() != "B.f2331") { Console.WriteLine("FAILED: a.f2331()!=\"B.f2331\""); return 1; }
if (a.f2332() != "B.f2332") { Console.WriteLine("FAILED: a.f2332()!=\"B.f2332\""); return 1; }
if (a.f2333() != "B.f2333") { Console.WriteLine("FAILED: a.f2333()!=\"B.f2333\""); return 1; }
if (a.f2334() != "B.f2334") { Console.WriteLine("FAILED: a.f2334()!=\"B.f2334\""); return 1; }
if (a.f2335() != "B.f2335") { Console.WriteLine("FAILED: a.f2335()!=\"B.f2335\""); return 1; }
if (a.f2336() != "B.f2336") { Console.WriteLine("FAILED: a.f2336()!=\"B.f2336\""); return 1; }
if (a.f2337() != "B.f2337") { Console.WriteLine("FAILED: a.f2337()!=\"B.f2337\""); return 1; }
if (a.f2338() != "B.f2338") { Console.WriteLine("FAILED: a.f2338()!=\"B.f2338\""); return 1; }
if (a.f2339() != "B.f2339") { Console.WriteLine("FAILED: a.f2339()!=\"B.f2339\""); return 1; }
if (a.f2340() != "B.f2340") { Console.WriteLine("FAILED: a.f2340()!=\"B.f2340\""); return 1; }
if (a.f2341() != "B.f2341") { Console.WriteLine("FAILED: a.f2341()!=\"B.f2341\""); return 1; }
if (a.f2342() != "B.f2342") { Console.WriteLine("FAILED: a.f2342()!=\"B.f2342\""); return 1; }
if (a.f2343() != "B.f2343") { Console.WriteLine("FAILED: a.f2343()!=\"B.f2343\""); return 1; }
if (a.f2344() != "B.f2344") { Console.WriteLine("FAILED: a.f2344()!=\"B.f2344\""); return 1; }
if (a.f2345() != "B.f2345") { Console.WriteLine("FAILED: a.f2345()!=\"B.f2345\""); return 1; }
if (a.f2346() != "B.f2346") { Console.WriteLine("FAILED: a.f2346()!=\"B.f2346\""); return 1; }
if (a.f2347() != "B.f2347") { Console.WriteLine("FAILED: a.f2347()!=\"B.f2347\""); return 1; }
if (a.f2348() != "B.f2348") { Console.WriteLine("FAILED: a.f2348()!=\"B.f2348\""); return 1; }
if (a.f2349() != "B.f2349") { Console.WriteLine("FAILED: a.f2349()!=\"B.f2349\""); return 1; }
if (a.f2350() != "B.f2350") { Console.WriteLine("FAILED: a.f2350()!=\"B.f2350\""); return 1; }
if (a.f2351() != "B.f2351") { Console.WriteLine("FAILED: a.f2351()!=\"B.f2351\""); return 1; }
if (a.f2352() != "B.f2352") { Console.WriteLine("FAILED: a.f2352()!=\"B.f2352\""); return 1; }
if (a.f2353() != "B.f2353") { Console.WriteLine("FAILED: a.f2353()!=\"B.f2353\""); return 1; }
if (a.f2354() != "B.f2354") { Console.WriteLine("FAILED: a.f2354()!=\"B.f2354\""); return 1; }
if (a.f2355() != "B.f2355") { Console.WriteLine("FAILED: a.f2355()!=\"B.f2355\""); return 1; }
if (a.f2356() != "B.f2356") { Console.WriteLine("FAILED: a.f2356()!=\"B.f2356\""); return 1; }
if (a.f2357() != "B.f2357") { Console.WriteLine("FAILED: a.f2357()!=\"B.f2357\""); return 1; }
if (a.f2358() != "B.f2358") { Console.WriteLine("FAILED: a.f2358()!=\"B.f2358\""); return 1; }
if (a.f2359() != "B.f2359") { Console.WriteLine("FAILED: a.f2359()!=\"B.f2359\""); return 1; }
if (a.f2360() != "B.f2360") { Console.WriteLine("FAILED: a.f2360()!=\"B.f2360\""); return 1; }
if (a.f2361() != "B.f2361") { Console.WriteLine("FAILED: a.f2361()!=\"B.f2361\""); return 1; }
if (a.f2362() != "B.f2362") { Console.WriteLine("FAILED: a.f2362()!=\"B.f2362\""); return 1; }
if (a.f2363() != "B.f2363") { Console.WriteLine("FAILED: a.f2363()!=\"B.f2363\""); return 1; }
if (a.f2364() != "B.f2364") { Console.WriteLine("FAILED: a.f2364()!=\"B.f2364\""); return 1; }
if (a.f2365() != "B.f2365") { Console.WriteLine("FAILED: a.f2365()!=\"B.f2365\""); return 1; }
if (a.f2366() != "B.f2366") { Console.WriteLine("FAILED: a.f2366()!=\"B.f2366\""); return 1; }
if (a.f2367() != "B.f2367") { Console.WriteLine("FAILED: a.f2367()!=\"B.f2367\""); return 1; }
if (a.f2368() != "B.f2368") { Console.WriteLine("FAILED: a.f2368()!=\"B.f2368\""); return 1; }
if (a.f2369() != "B.f2369") { Console.WriteLine("FAILED: a.f2369()!=\"B.f2369\""); return 1; }
if (a.f2370() != "B.f2370") { Console.WriteLine("FAILED: a.f2370()!=\"B.f2370\""); return 1; }
if (a.f2371() != "B.f2371") { Console.WriteLine("FAILED: a.f2371()!=\"B.f2371\""); return 1; }
if (a.f2372() != "B.f2372") { Console.WriteLine("FAILED: a.f2372()!=\"B.f2372\""); return 1; }
if (a.f2373() != "B.f2373") { Console.WriteLine("FAILED: a.f2373()!=\"B.f2373\""); return 1; }
if (a.f2374() != "B.f2374") { Console.WriteLine("FAILED: a.f2374()!=\"B.f2374\""); return 1; }
if (a.f2375() != "B.f2375") { Console.WriteLine("FAILED: a.f2375()!=\"B.f2375\""); return 1; }
if (a.f2376() != "B.f2376") { Console.WriteLine("FAILED: a.f2376()!=\"B.f2376\""); return 1; }
if (a.f2377() != "B.f2377") { Console.WriteLine("FAILED: a.f2377()!=\"B.f2377\""); return 1; }
if (a.f2378() != "B.f2378") { Console.WriteLine("FAILED: a.f2378()!=\"B.f2378\""); return 1; }
if (a.f2379() != "B.f2379") { Console.WriteLine("FAILED: a.f2379()!=\"B.f2379\""); return 1; }
if (a.f2380() != "B.f2380") { Console.WriteLine("FAILED: a.f2380()!=\"B.f2380\""); return 1; }
if (a.f2381() != "B.f2381") { Console.WriteLine("FAILED: a.f2381()!=\"B.f2381\""); return 1; }
if (a.f2382() != "B.f2382") { Console.WriteLine("FAILED: a.f2382()!=\"B.f2382\""); return 1; }
if (a.f2383() != "B.f2383") { Console.WriteLine("FAILED: a.f2383()!=\"B.f2383\""); return 1; }
if (a.f2384() != "B.f2384") { Console.WriteLine("FAILED: a.f2384()!=\"B.f2384\""); return 1; }
if (a.f2385() != "B.f2385") { Console.WriteLine("FAILED: a.f2385()!=\"B.f2385\""); return 1; }
if (a.f2386() != "B.f2386") { Console.WriteLine("FAILED: a.f2386()!=\"B.f2386\""); return 1; }
if (a.f2387() != "B.f2387") { Console.WriteLine("FAILED: a.f2387()!=\"B.f2387\""); return 1; }
if (a.f2388() != "B.f2388") { Console.WriteLine("FAILED: a.f2388()!=\"B.f2388\""); return 1; }
if (a.f2389() != "B.f2389") { Console.WriteLine("FAILED: a.f2389()!=\"B.f2389\""); return 1; }
if (a.f2390() != "B.f2390") { Console.WriteLine("FAILED: a.f2390()!=\"B.f2390\""); return 1; }
if (a.f2391() != "B.f2391") { Console.WriteLine("FAILED: a.f2391()!=\"B.f2391\""); return 1; }
if (a.f2392() != "B.f2392") { Console.WriteLine("FAILED: a.f2392()!=\"B.f2392\""); return 1; }
if (a.f2393() != "B.f2393") { Console.WriteLine("FAILED: a.f2393()!=\"B.f2393\""); return 1; }
if (a.f2394() != "B.f2394") { Console.WriteLine("FAILED: a.f2394()!=\"B.f2394\""); return 1; }
if (a.f2395() != "B.f2395") { Console.WriteLine("FAILED: a.f2395()!=\"B.f2395\""); return 1; }
if (a.f2396() != "B.f2396") { Console.WriteLine("FAILED: a.f2396()!=\"B.f2396\""); return 1; }
if (a.f2397() != "B.f2397") { Console.WriteLine("FAILED: a.f2397()!=\"B.f2397\""); return 1; }
if (a.f2398() != "B.f2398") { Console.WriteLine("FAILED: a.f2398()!=\"B.f2398\""); return 1; }
if (a.f2399() != "B.f2399") { Console.WriteLine("FAILED: a.f2399()!=\"B.f2399\""); return 1; }
if (a.f2400() != "B.f2400") { Console.WriteLine("FAILED: a.f2400()!=\"B.f2400\""); return 1; }
if (a.f2401() != "B.f2401") { Console.WriteLine("FAILED: a.f2401()!=\"B.f2401\""); return 1; }
if (a.f2402() != "B.f2402") { Console.WriteLine("FAILED: a.f2402()!=\"B.f2402\""); return 1; }
if (a.f2403() != "B.f2403") { Console.WriteLine("FAILED: a.f2403()!=\"B.f2403\""); return 1; }
if (a.f2404() != "B.f2404") { Console.WriteLine("FAILED: a.f2404()!=\"B.f2404\""); return 1; }
if (a.f2405() != "B.f2405") { Console.WriteLine("FAILED: a.f2405()!=\"B.f2405\""); return 1; }
if (a.f2406() != "B.f2406") { Console.WriteLine("FAILED: a.f2406()!=\"B.f2406\""); return 1; }
if (a.f2407() != "B.f2407") { Console.WriteLine("FAILED: a.f2407()!=\"B.f2407\""); return 1; }
if (a.f2408() != "B.f2408") { Console.WriteLine("FAILED: a.f2408()!=\"B.f2408\""); return 1; }
if (a.f2409() != "B.f2409") { Console.WriteLine("FAILED: a.f2409()!=\"B.f2409\""); return 1; }
if (a.f2410() != "B.f2410") { Console.WriteLine("FAILED: a.f2410()!=\"B.f2410\""); return 1; }
if (a.f2411() != "B.f2411") { Console.WriteLine("FAILED: a.f2411()!=\"B.f2411\""); return 1; }
if (a.f2412() != "B.f2412") { Console.WriteLine("FAILED: a.f2412()!=\"B.f2412\""); return 1; }
if (a.f2413() != "B.f2413") { Console.WriteLine("FAILED: a.f2413()!=\"B.f2413\""); return 1; }
if (a.f2414() != "B.f2414") { Console.WriteLine("FAILED: a.f2414()!=\"B.f2414\""); return 1; }
if (a.f2415() != "B.f2415") { Console.WriteLine("FAILED: a.f2415()!=\"B.f2415\""); return 1; }
if (a.f2416() != "B.f2416") { Console.WriteLine("FAILED: a.f2416()!=\"B.f2416\""); return 1; }
if (a.f2417() != "B.f2417") { Console.WriteLine("FAILED: a.f2417()!=\"B.f2417\""); return 1; }
if (a.f2418() != "B.f2418") { Console.WriteLine("FAILED: a.f2418()!=\"B.f2418\""); return 1; }
if (a.f2419() != "B.f2419") { Console.WriteLine("FAILED: a.f2419()!=\"B.f2419\""); return 1; }
if (a.f2420() != "B.f2420") { Console.WriteLine("FAILED: a.f2420()!=\"B.f2420\""); return 1; }
if (a.f2421() != "B.f2421") { Console.WriteLine("FAILED: a.f2421()!=\"B.f2421\""); return 1; }
if (a.f2422() != "B.f2422") { Console.WriteLine("FAILED: a.f2422()!=\"B.f2422\""); return 1; }
if (a.f2423() != "B.f2423") { Console.WriteLine("FAILED: a.f2423()!=\"B.f2423\""); return 1; }
if (a.f2424() != "B.f2424") { Console.WriteLine("FAILED: a.f2424()!=\"B.f2424\""); return 1; }
if (a.f2425() != "B.f2425") { Console.WriteLine("FAILED: a.f2425()!=\"B.f2425\""); return 1; }
if (a.f2426() != "B.f2426") { Console.WriteLine("FAILED: a.f2426()!=\"B.f2426\""); return 1; }
if (a.f2427() != "B.f2427") { Console.WriteLine("FAILED: a.f2427()!=\"B.f2427\""); return 1; }
if (a.f2428() != "B.f2428") { Console.WriteLine("FAILED: a.f2428()!=\"B.f2428\""); return 1; }
if (a.f2429() != "B.f2429") { Console.WriteLine("FAILED: a.f2429()!=\"B.f2429\""); return 1; }
if (a.f2430() != "B.f2430") { Console.WriteLine("FAILED: a.f2430()!=\"B.f2430\""); return 1; }
if (a.f2431() != "B.f2431") { Console.WriteLine("FAILED: a.f2431()!=\"B.f2431\""); return 1; }
if (a.f2432() != "B.f2432") { Console.WriteLine("FAILED: a.f2432()!=\"B.f2432\""); return 1; }
if (a.f2433() != "B.f2433") { Console.WriteLine("FAILED: a.f2433()!=\"B.f2433\""); return 1; }
if (a.f2434() != "B.f2434") { Console.WriteLine("FAILED: a.f2434()!=\"B.f2434\""); return 1; }
if (a.f2435() != "B.f2435") { Console.WriteLine("FAILED: a.f2435()!=\"B.f2435\""); return 1; }
if (a.f2436() != "B.f2436") { Console.WriteLine("FAILED: a.f2436()!=\"B.f2436\""); return 1; }
if (a.f2437() != "B.f2437") { Console.WriteLine("FAILED: a.f2437()!=\"B.f2437\""); return 1; }
if (a.f2438() != "B.f2438") { Console.WriteLine("FAILED: a.f2438()!=\"B.f2438\""); return 1; }
if (a.f2439() != "B.f2439") { Console.WriteLine("FAILED: a.f2439()!=\"B.f2439\""); return 1; }
if (a.f2440() != "B.f2440") { Console.WriteLine("FAILED: a.f2440()!=\"B.f2440\""); return 1; }
if (a.f2441() != "B.f2441") { Console.WriteLine("FAILED: a.f2441()!=\"B.f2441\""); return 1; }
if (a.f2442() != "B.f2442") { Console.WriteLine("FAILED: a.f2442()!=\"B.f2442\""); return 1; }
if (a.f2443() != "B.f2443") { Console.WriteLine("FAILED: a.f2443()!=\"B.f2443\""); return 1; }
if (a.f2444() != "B.f2444") { Console.WriteLine("FAILED: a.f2444()!=\"B.f2444\""); return 1; }
if (a.f2445() != "B.f2445") { Console.WriteLine("FAILED: a.f2445()!=\"B.f2445\""); return 1; }
if (a.f2446() != "B.f2446") { Console.WriteLine("FAILED: a.f2446()!=\"B.f2446\""); return 1; }
if (a.f2447() != "B.f2447") { Console.WriteLine("FAILED: a.f2447()!=\"B.f2447\""); return 1; }
if (a.f2448() != "B.f2448") { Console.WriteLine("FAILED: a.f2448()!=\"B.f2448\""); return 1; }
if (a.f2449() != "B.f2449") { Console.WriteLine("FAILED: a.f2449()!=\"B.f2449\""); return 1; }
if (a.f2450() != "B.f2450") { Console.WriteLine("FAILED: a.f2450()!=\"B.f2450\""); return 1; }
if (a.f2451() != "B.f2451") { Console.WriteLine("FAILED: a.f2451()!=\"B.f2451\""); return 1; }
if (a.f2452() != "B.f2452") { Console.WriteLine("FAILED: a.f2452()!=\"B.f2452\""); return 1; }
if (a.f2453() != "B.f2453") { Console.WriteLine("FAILED: a.f2453()!=\"B.f2453\""); return 1; }
if (a.f2454() != "B.f2454") { Console.WriteLine("FAILED: a.f2454()!=\"B.f2454\""); return 1; }
if (a.f2455() != "B.f2455") { Console.WriteLine("FAILED: a.f2455()!=\"B.f2455\""); return 1; }
if (a.f2456() != "B.f2456") { Console.WriteLine("FAILED: a.f2456()!=\"B.f2456\""); return 1; }
if (a.f2457() != "B.f2457") { Console.WriteLine("FAILED: a.f2457()!=\"B.f2457\""); return 1; }
if (a.f2458() != "B.f2458") { Console.WriteLine("FAILED: a.f2458()!=\"B.f2458\""); return 1; }
if (a.f2459() != "B.f2459") { Console.WriteLine("FAILED: a.f2459()!=\"B.f2459\""); return 1; }
if (a.f2460() != "B.f2460") { Console.WriteLine("FAILED: a.f2460()!=\"B.f2460\""); return 1; }
if (a.f2461() != "B.f2461") { Console.WriteLine("FAILED: a.f2461()!=\"B.f2461\""); return 1; }
if (a.f2462() != "B.f2462") { Console.WriteLine("FAILED: a.f2462()!=\"B.f2462\""); return 1; }
if (a.f2463() != "B.f2463") { Console.WriteLine("FAILED: a.f2463()!=\"B.f2463\""); return 1; }
if (a.f2464() != "B.f2464") { Console.WriteLine("FAILED: a.f2464()!=\"B.f2464\""); return 1; }
if (a.f2465() != "B.f2465") { Console.WriteLine("FAILED: a.f2465()!=\"B.f2465\""); return 1; }
if (a.f2466() != "B.f2466") { Console.WriteLine("FAILED: a.f2466()!=\"B.f2466\""); return 1; }
if (a.f2467() != "B.f2467") { Console.WriteLine("FAILED: a.f2467()!=\"B.f2467\""); return 1; }
if (a.f2468() != "B.f2468") { Console.WriteLine("FAILED: a.f2468()!=\"B.f2468\""); return 1; }
if (a.f2469() != "B.f2469") { Console.WriteLine("FAILED: a.f2469()!=\"B.f2469\""); return 1; }
if (a.f2470() != "B.f2470") { Console.WriteLine("FAILED: a.f2470()!=\"B.f2470\""); return 1; }
if (a.f2471() != "B.f2471") { Console.WriteLine("FAILED: a.f2471()!=\"B.f2471\""); return 1; }
if (a.f2472() != "B.f2472") { Console.WriteLine("FAILED: a.f2472()!=\"B.f2472\""); return 1; }
if (a.f2473() != "B.f2473") { Console.WriteLine("FAILED: a.f2473()!=\"B.f2473\""); return 1; }
if (a.f2474() != "B.f2474") { Console.WriteLine("FAILED: a.f2474()!=\"B.f2474\""); return 1; }
if (a.f2475() != "B.f2475") { Console.WriteLine("FAILED: a.f2475()!=\"B.f2475\""); return 1; }
if (a.f2476() != "B.f2476") { Console.WriteLine("FAILED: a.f2476()!=\"B.f2476\""); return 1; }
if (a.f2477() != "B.f2477") { Console.WriteLine("FAILED: a.f2477()!=\"B.f2477\""); return 1; }
if (a.f2478() != "B.f2478") { Console.WriteLine("FAILED: a.f2478()!=\"B.f2478\""); return 1; }
if (a.f2479() != "B.f2479") { Console.WriteLine("FAILED: a.f2479()!=\"B.f2479\""); return 1; }
if (a.f2480() != "B.f2480") { Console.WriteLine("FAILED: a.f2480()!=\"B.f2480\""); return 1; }
if (a.f2481() != "B.f2481") { Console.WriteLine("FAILED: a.f2481()!=\"B.f2481\""); return 1; }
if (a.f2482() != "B.f2482") { Console.WriteLine("FAILED: a.f2482()!=\"B.f2482\""); return 1; }
if (a.f2483() != "B.f2483") { Console.WriteLine("FAILED: a.f2483()!=\"B.f2483\""); return 1; }
if (a.f2484() != "B.f2484") { Console.WriteLine("FAILED: a.f2484()!=\"B.f2484\""); return 1; }
if (a.f2485() != "B.f2485") { Console.WriteLine("FAILED: a.f2485()!=\"B.f2485\""); return 1; }
if (a.f2486() != "B.f2486") { Console.WriteLine("FAILED: a.f2486()!=\"B.f2486\""); return 1; }
if (a.f2487() != "B.f2487") { Console.WriteLine("FAILED: a.f2487()!=\"B.f2487\""); return 1; }
if (a.f2488() != "B.f2488") { Console.WriteLine("FAILED: a.f2488()!=\"B.f2488\""); return 1; }
if (a.f2489() != "B.f2489") { Console.WriteLine("FAILED: a.f2489()!=\"B.f2489\""); return 1; }
if (a.f2490() != "B.f2490") { Console.WriteLine("FAILED: a.f2490()!=\"B.f2490\""); return 1; }
if (a.f2491() != "B.f2491") { Console.WriteLine("FAILED: a.f2491()!=\"B.f2491\""); return 1; }
if (a.f2492() != "B.f2492") { Console.WriteLine("FAILED: a.f2492()!=\"B.f2492\""); return 1; }
if (a.f2493() != "B.f2493") { Console.WriteLine("FAILED: a.f2493()!=\"B.f2493\""); return 1; }
if (a.f2494() != "B.f2494") { Console.WriteLine("FAILED: a.f2494()!=\"B.f2494\""); return 1; }
if (a.f2495() != "B.f2495") { Console.WriteLine("FAILED: a.f2495()!=\"B.f2495\""); return 1; }
if (a.f2496() != "B.f2496") { Console.WriteLine("FAILED: a.f2496()!=\"B.f2496\""); return 1; }
if (a.f2497() != "B.f2497") { Console.WriteLine("FAILED: a.f2497()!=\"B.f2497\""); return 1; }
if (a.f2498() != "B.f2498") { Console.WriteLine("FAILED: a.f2498()!=\"B.f2498\""); return 1; }
if (a.f2499() != "B.f2499") { Console.WriteLine("FAILED: a.f2499()!=\"B.f2499\""); return 1; }
if (a.f2500() != "B.f2500") { Console.WriteLine("FAILED: a.f2500()!=\"B.f2500\""); return 1; }
if (a.f2501() != "B.f2501") { Console.WriteLine("FAILED: a.f2501()!=\"B.f2501\""); return 1; }
if (a.f2502() != "B.f2502") { Console.WriteLine("FAILED: a.f2502()!=\"B.f2502\""); return 1; }
if (a.f2503() != "B.f2503") { Console.WriteLine("FAILED: a.f2503()!=\"B.f2503\""); return 1; }
if (a.f2504() != "B.f2504") { Console.WriteLine("FAILED: a.f2504()!=\"B.f2504\""); return 1; }
if (a.f2505() != "B.f2505") { Console.WriteLine("FAILED: a.f2505()!=\"B.f2505\""); return 1; }
if (a.f2506() != "B.f2506") { Console.WriteLine("FAILED: a.f2506()!=\"B.f2506\""); return 1; }
if (a.f2507() != "B.f2507") { Console.WriteLine("FAILED: a.f2507()!=\"B.f2507\""); return 1; }
if (a.f2508() != "B.f2508") { Console.WriteLine("FAILED: a.f2508()!=\"B.f2508\""); return 1; }
if (a.f2509() != "B.f2509") { Console.WriteLine("FAILED: a.f2509()!=\"B.f2509\""); return 1; }
if (a.f2510() != "B.f2510") { Console.WriteLine("FAILED: a.f2510()!=\"B.f2510\""); return 1; }
if (a.f2511() != "B.f2511") { Console.WriteLine("FAILED: a.f2511()!=\"B.f2511\""); return 1; }
if (a.f2512() != "B.f2512") { Console.WriteLine("FAILED: a.f2512()!=\"B.f2512\""); return 1; }
if (a.f2513() != "B.f2513") { Console.WriteLine("FAILED: a.f2513()!=\"B.f2513\""); return 1; }
if (a.f2514() != "B.f2514") { Console.WriteLine("FAILED: a.f2514()!=\"B.f2514\""); return 1; }
if (a.f2515() != "B.f2515") { Console.WriteLine("FAILED: a.f2515()!=\"B.f2515\""); return 1; }
if (a.f2516() != "B.f2516") { Console.WriteLine("FAILED: a.f2516()!=\"B.f2516\""); return 1; }
if (a.f2517() != "B.f2517") { Console.WriteLine("FAILED: a.f2517()!=\"B.f2517\""); return 1; }
if (a.f2518() != "B.f2518") { Console.WriteLine("FAILED: a.f2518()!=\"B.f2518\""); return 1; }
if (a.f2519() != "B.f2519") { Console.WriteLine("FAILED: a.f2519()!=\"B.f2519\""); return 1; }
if (a.f2520() != "B.f2520") { Console.WriteLine("FAILED: a.f2520()!=\"B.f2520\""); return 1; }
if (a.f2521() != "B.f2521") { Console.WriteLine("FAILED: a.f2521()!=\"B.f2521\""); return 1; }
if (a.f2522() != "B.f2522") { Console.WriteLine("FAILED: a.f2522()!=\"B.f2522\""); return 1; }
if (a.f2523() != "B.f2523") { Console.WriteLine("FAILED: a.f2523()!=\"B.f2523\""); return 1; }
if (a.f2524() != "B.f2524") { Console.WriteLine("FAILED: a.f2524()!=\"B.f2524\""); return 1; }
if (a.f2525() != "B.f2525") { Console.WriteLine("FAILED: a.f2525()!=\"B.f2525\""); return 1; }
if (a.f2526() != "B.f2526") { Console.WriteLine("FAILED: a.f2526()!=\"B.f2526\""); return 1; }
if (a.f2527() != "B.f2527") { Console.WriteLine("FAILED: a.f2527()!=\"B.f2527\""); return 1; }
if (a.f2528() != "B.f2528") { Console.WriteLine("FAILED: a.f2528()!=\"B.f2528\""); return 1; }
if (a.f2529() != "B.f2529") { Console.WriteLine("FAILED: a.f2529()!=\"B.f2529\""); return 1; }
if (a.f2530() != "B.f2530") { Console.WriteLine("FAILED: a.f2530()!=\"B.f2530\""); return 1; }
if (a.f2531() != "B.f2531") { Console.WriteLine("FAILED: a.f2531()!=\"B.f2531\""); return 1; }
if (a.f2532() != "B.f2532") { Console.WriteLine("FAILED: a.f2532()!=\"B.f2532\""); return 1; }
if (a.f2533() != "B.f2533") { Console.WriteLine("FAILED: a.f2533()!=\"B.f2533\""); return 1; }
if (a.f2534() != "B.f2534") { Console.WriteLine("FAILED: a.f2534()!=\"B.f2534\""); return 1; }
if (a.f2535() != "B.f2535") { Console.WriteLine("FAILED: a.f2535()!=\"B.f2535\""); return 1; }
if (a.f2536() != "B.f2536") { Console.WriteLine("FAILED: a.f2536()!=\"B.f2536\""); return 1; }
if (a.f2537() != "B.f2537") { Console.WriteLine("FAILED: a.f2537()!=\"B.f2537\""); return 1; }
if (a.f2538() != "B.f2538") { Console.WriteLine("FAILED: a.f2538()!=\"B.f2538\""); return 1; }
if (a.f2539() != "B.f2539") { Console.WriteLine("FAILED: a.f2539()!=\"B.f2539\""); return 1; }
if (a.f2540() != "B.f2540") { Console.WriteLine("FAILED: a.f2540()!=\"B.f2540\""); return 1; }
if (a.f2541() != "B.f2541") { Console.WriteLine("FAILED: a.f2541()!=\"B.f2541\""); return 1; }
if (a.f2542() != "B.f2542") { Console.WriteLine("FAILED: a.f2542()!=\"B.f2542\""); return 1; }
if (a.f2543() != "B.f2543") { Console.WriteLine("FAILED: a.f2543()!=\"B.f2543\""); return 1; }
if (a.f2544() != "B.f2544") { Console.WriteLine("FAILED: a.f2544()!=\"B.f2544\""); return 1; }
if (a.f2545() != "B.f2545") { Console.WriteLine("FAILED: a.f2545()!=\"B.f2545\""); return 1; }
if (a.f2546() != "B.f2546") { Console.WriteLine("FAILED: a.f2546()!=\"B.f2546\""); return 1; }
if (a.f2547() != "B.f2547") { Console.WriteLine("FAILED: a.f2547()!=\"B.f2547\""); return 1; }
if (a.f2548() != "B.f2548") { Console.WriteLine("FAILED: a.f2548()!=\"B.f2548\""); return 1; }
if (a.f2549() != "B.f2549") { Console.WriteLine("FAILED: a.f2549()!=\"B.f2549\""); return 1; }
if (a.f2550() != "B.f2550") { Console.WriteLine("FAILED: a.f2550()!=\"B.f2550\""); return 1; }
if (a.f2551() != "B.f2551") { Console.WriteLine("FAILED: a.f2551()!=\"B.f2551\""); return 1; }
if (a.f2552() != "B.f2552") { Console.WriteLine("FAILED: a.f2552()!=\"B.f2552\""); return 1; }
if (a.f2553() != "B.f2553") { Console.WriteLine("FAILED: a.f2553()!=\"B.f2553\""); return 1; }
if (a.f2554() != "B.f2554") { Console.WriteLine("FAILED: a.f2554()!=\"B.f2554\""); return 1; }
if (a.f2555() != "B.f2555") { Console.WriteLine("FAILED: a.f2555()!=\"B.f2555\""); return 1; }
if (a.f2556() != "B.f2556") { Console.WriteLine("FAILED: a.f2556()!=\"B.f2556\""); return 1; }
if (a.f2557() != "B.f2557") { Console.WriteLine("FAILED: a.f2557()!=\"B.f2557\""); return 1; }
if (a.f2558() != "B.f2558") { Console.WriteLine("FAILED: a.f2558()!=\"B.f2558\""); return 1; }
if (a.f2559() != "B.f2559") { Console.WriteLine("FAILED: a.f2559()!=\"B.f2559\""); return 1; }
if (a.f2560() != "B.f2560") { Console.WriteLine("FAILED: a.f2560()!=\"B.f2560\""); return 1; }
if (a.f2561() != "B.f2561") { Console.WriteLine("FAILED: a.f2561()!=\"B.f2561\""); return 1; }
if (a.f2562() != "B.f2562") { Console.WriteLine("FAILED: a.f2562()!=\"B.f2562\""); return 1; }
if (a.f2563() != "B.f2563") { Console.WriteLine("FAILED: a.f2563()!=\"B.f2563\""); return 1; }
if (a.f2564() != "B.f2564") { Console.WriteLine("FAILED: a.f2564()!=\"B.f2564\""); return 1; }
if (a.f2565() != "B.f2565") { Console.WriteLine("FAILED: a.f2565()!=\"B.f2565\""); return 1; }
if (a.f2566() != "B.f2566") { Console.WriteLine("FAILED: a.f2566()!=\"B.f2566\""); return 1; }
if (a.f2567() != "B.f2567") { Console.WriteLine("FAILED: a.f2567()!=\"B.f2567\""); return 1; }
if (a.f2568() != "B.f2568") { Console.WriteLine("FAILED: a.f2568()!=\"B.f2568\""); return 1; }
if (a.f2569() != "B.f2569") { Console.WriteLine("FAILED: a.f2569()!=\"B.f2569\""); return 1; }
if (a.f2570() != "B.f2570") { Console.WriteLine("FAILED: a.f2570()!=\"B.f2570\""); return 1; }
if (a.f2571() != "B.f2571") { Console.WriteLine("FAILED: a.f2571()!=\"B.f2571\""); return 1; }
if (a.f2572() != "B.f2572") { Console.WriteLine("FAILED: a.f2572()!=\"B.f2572\""); return 1; }
if (a.f2573() != "B.f2573") { Console.WriteLine("FAILED: a.f2573()!=\"B.f2573\""); return 1; }
if (a.f2574() != "B.f2574") { Console.WriteLine("FAILED: a.f2574()!=\"B.f2574\""); return 1; }
if (a.f2575() != "B.f2575") { Console.WriteLine("FAILED: a.f2575()!=\"B.f2575\""); return 1; }
if (a.f2576() != "B.f2576") { Console.WriteLine("FAILED: a.f2576()!=\"B.f2576\""); return 1; }
if (a.f2577() != "B.f2577") { Console.WriteLine("FAILED: a.f2577()!=\"B.f2577\""); return 1; }
if (a.f2578() != "B.f2578") { Console.WriteLine("FAILED: a.f2578()!=\"B.f2578\""); return 1; }
if (a.f2579() != "B.f2579") { Console.WriteLine("FAILED: a.f2579()!=\"B.f2579\""); return 1; }
if (a.f2580() != "B.f2580") { Console.WriteLine("FAILED: a.f2580()!=\"B.f2580\""); return 1; }
if (a.f2581() != "B.f2581") { Console.WriteLine("FAILED: a.f2581()!=\"B.f2581\""); return 1; }
if (a.f2582() != "B.f2582") { Console.WriteLine("FAILED: a.f2582()!=\"B.f2582\""); return 1; }
if (a.f2583() != "B.f2583") { Console.WriteLine("FAILED: a.f2583()!=\"B.f2583\""); return 1; }
if (a.f2584() != "B.f2584") { Console.WriteLine("FAILED: a.f2584()!=\"B.f2584\""); return 1; }
if (a.f2585() != "B.f2585") { Console.WriteLine("FAILED: a.f2585()!=\"B.f2585\""); return 1; }
if (a.f2586() != "B.f2586") { Console.WriteLine("FAILED: a.f2586()!=\"B.f2586\""); return 1; }
if (a.f2587() != "B.f2587") { Console.WriteLine("FAILED: a.f2587()!=\"B.f2587\""); return 1; }
if (a.f2588() != "B.f2588") { Console.WriteLine("FAILED: a.f2588()!=\"B.f2588\""); return 1; }
if (a.f2589() != "B.f2589") { Console.WriteLine("FAILED: a.f2589()!=\"B.f2589\""); return 1; }
if (a.f2590() != "B.f2590") { Console.WriteLine("FAILED: a.f2590()!=\"B.f2590\""); return 1; }
if (a.f2591() != "B.f2591") { Console.WriteLine("FAILED: a.f2591()!=\"B.f2591\""); return 1; }
if (a.f2592() != "B.f2592") { Console.WriteLine("FAILED: a.f2592()!=\"B.f2592\""); return 1; }
if (a.f2593() != "B.f2593") { Console.WriteLine("FAILED: a.f2593()!=\"B.f2593\""); return 1; }
if (a.f2594() != "B.f2594") { Console.WriteLine("FAILED: a.f2594()!=\"B.f2594\""); return 1; }
if (a.f2595() != "B.f2595") { Console.WriteLine("FAILED: a.f2595()!=\"B.f2595\""); return 1; }
if (a.f2596() != "B.f2596") { Console.WriteLine("FAILED: a.f2596()!=\"B.f2596\""); return 1; }
if (a.f2597() != "B.f2597") { Console.WriteLine("FAILED: a.f2597()!=\"B.f2597\""); return 1; }
if (a.f2598() != "B.f2598") { Console.WriteLine("FAILED: a.f2598()!=\"B.f2598\""); return 1; }
if (a.f2599() != "B.f2599") { Console.WriteLine("FAILED: a.f2599()!=\"B.f2599\""); return 1; }
if (a.f2600() != "B.f2600") { Console.WriteLine("FAILED: a.f2600()!=\"B.f2600\""); return 1; }
if (a.f2601() != "B.f2601") { Console.WriteLine("FAILED: a.f2601()!=\"B.f2601\""); return 1; }
if (a.f2602() != "B.f2602") { Console.WriteLine("FAILED: a.f2602()!=\"B.f2602\""); return 1; }
if (a.f2603() != "B.f2603") { Console.WriteLine("FAILED: a.f2603()!=\"B.f2603\""); return 1; }
if (a.f2604() != "B.f2604") { Console.WriteLine("FAILED: a.f2604()!=\"B.f2604\""); return 1; }
if (a.f2605() != "B.f2605") { Console.WriteLine("FAILED: a.f2605()!=\"B.f2605\""); return 1; }
if (a.f2606() != "B.f2606") { Console.WriteLine("FAILED: a.f2606()!=\"B.f2606\""); return 1; }
if (a.f2607() != "B.f2607") { Console.WriteLine("FAILED: a.f2607()!=\"B.f2607\""); return 1; }
if (a.f2608() != "B.f2608") { Console.WriteLine("FAILED: a.f2608()!=\"B.f2608\""); return 1; }
if (a.f2609() != "B.f2609") { Console.WriteLine("FAILED: a.f2609()!=\"B.f2609\""); return 1; }
if (a.f2610() != "B.f2610") { Console.WriteLine("FAILED: a.f2610()!=\"B.f2610\""); return 1; }
if (a.f2611() != "B.f2611") { Console.WriteLine("FAILED: a.f2611()!=\"B.f2611\""); return 1; }
if (a.f2612() != "B.f2612") { Console.WriteLine("FAILED: a.f2612()!=\"B.f2612\""); return 1; }
if (a.f2613() != "B.f2613") { Console.WriteLine("FAILED: a.f2613()!=\"B.f2613\""); return 1; }
if (a.f2614() != "B.f2614") { Console.WriteLine("FAILED: a.f2614()!=\"B.f2614\""); return 1; }
if (a.f2615() != "B.f2615") { Console.WriteLine("FAILED: a.f2615()!=\"B.f2615\""); return 1; }
if (a.f2616() != "B.f2616") { Console.WriteLine("FAILED: a.f2616()!=\"B.f2616\""); return 1; }
if (a.f2617() != "B.f2617") { Console.WriteLine("FAILED: a.f2617()!=\"B.f2617\""); return 1; }
if (a.f2618() != "B.f2618") { Console.WriteLine("FAILED: a.f2618()!=\"B.f2618\""); return 1; }
if (a.f2619() != "B.f2619") { Console.WriteLine("FAILED: a.f2619()!=\"B.f2619\""); return 1; }
if (a.f2620() != "B.f2620") { Console.WriteLine("FAILED: a.f2620()!=\"B.f2620\""); return 1; }
if (a.f2621() != "B.f2621") { Console.WriteLine("FAILED: a.f2621()!=\"B.f2621\""); return 1; }
if (a.f2622() != "B.f2622") { Console.WriteLine("FAILED: a.f2622()!=\"B.f2622\""); return 1; }
if (a.f2623() != "B.f2623") { Console.WriteLine("FAILED: a.f2623()!=\"B.f2623\""); return 1; }
if (a.f2624() != "B.f2624") { Console.WriteLine("FAILED: a.f2624()!=\"B.f2624\""); return 1; }
if (a.f2625() != "B.f2625") { Console.WriteLine("FAILED: a.f2625()!=\"B.f2625\""); return 1; }
if (a.f2626() != "B.f2626") { Console.WriteLine("FAILED: a.f2626()!=\"B.f2626\""); return 1; }
if (a.f2627() != "B.f2627") { Console.WriteLine("FAILED: a.f2627()!=\"B.f2627\""); return 1; }
if (a.f2628() != "B.f2628") { Console.WriteLine("FAILED: a.f2628()!=\"B.f2628\""); return 1; }
if (a.f2629() != "B.f2629") { Console.WriteLine("FAILED: a.f2629()!=\"B.f2629\""); return 1; }
if (a.f2630() != "B.f2630") { Console.WriteLine("FAILED: a.f2630()!=\"B.f2630\""); return 1; }
if (a.f2631() != "B.f2631") { Console.WriteLine("FAILED: a.f2631()!=\"B.f2631\""); return 1; }
if (a.f2632() != "B.f2632") { Console.WriteLine("FAILED: a.f2632()!=\"B.f2632\""); return 1; }
if (a.f2633() != "B.f2633") { Console.WriteLine("FAILED: a.f2633()!=\"B.f2633\""); return 1; }
if (a.f2634() != "B.f2634") { Console.WriteLine("FAILED: a.f2634()!=\"B.f2634\""); return 1; }
if (a.f2635() != "B.f2635") { Console.WriteLine("FAILED: a.f2635()!=\"B.f2635\""); return 1; }
if (a.f2636() != "B.f2636") { Console.WriteLine("FAILED: a.f2636()!=\"B.f2636\""); return 1; }
if (a.f2637() != "B.f2637") { Console.WriteLine("FAILED: a.f2637()!=\"B.f2637\""); return 1; }
if (a.f2638() != "B.f2638") { Console.WriteLine("FAILED: a.f2638()!=\"B.f2638\""); return 1; }
if (a.f2639() != "B.f2639") { Console.WriteLine("FAILED: a.f2639()!=\"B.f2639\""); return 1; }
if (a.f2640() != "B.f2640") { Console.WriteLine("FAILED: a.f2640()!=\"B.f2640\""); return 1; }
if (a.f2641() != "B.f2641") { Console.WriteLine("FAILED: a.f2641()!=\"B.f2641\""); return 1; }
if (a.f2642() != "B.f2642") { Console.WriteLine("FAILED: a.f2642()!=\"B.f2642\""); return 1; }
if (a.f2643() != "B.f2643") { Console.WriteLine("FAILED: a.f2643()!=\"B.f2643\""); return 1; }
if (a.f2644() != "B.f2644") { Console.WriteLine("FAILED: a.f2644()!=\"B.f2644\""); return 1; }
if (a.f2645() != "B.f2645") { Console.WriteLine("FAILED: a.f2645()!=\"B.f2645\""); return 1; }
if (a.f2646() != "B.f2646") { Console.WriteLine("FAILED: a.f2646()!=\"B.f2646\""); return 1; }
if (a.f2647() != "B.f2647") { Console.WriteLine("FAILED: a.f2647()!=\"B.f2647\""); return 1; }
if (a.f2648() != "B.f2648") { Console.WriteLine("FAILED: a.f2648()!=\"B.f2648\""); return 1; }
if (a.f2649() != "B.f2649") { Console.WriteLine("FAILED: a.f2649()!=\"B.f2649\""); return 1; }
if (a.f2650() != "B.f2650") { Console.WriteLine("FAILED: a.f2650()!=\"B.f2650\""); return 1; }
if (a.f2651() != "B.f2651") { Console.WriteLine("FAILED: a.f2651()!=\"B.f2651\""); return 1; }
if (a.f2652() != "B.f2652") { Console.WriteLine("FAILED: a.f2652()!=\"B.f2652\""); return 1; }
if (a.f2653() != "B.f2653") { Console.WriteLine("FAILED: a.f2653()!=\"B.f2653\""); return 1; }
if (a.f2654() != "B.f2654") { Console.WriteLine("FAILED: a.f2654()!=\"B.f2654\""); return 1; }
if (a.f2655() != "B.f2655") { Console.WriteLine("FAILED: a.f2655()!=\"B.f2655\""); return 1; }
if (a.f2656() != "B.f2656") { Console.WriteLine("FAILED: a.f2656()!=\"B.f2656\""); return 1; }
if (a.f2657() != "B.f2657") { Console.WriteLine("FAILED: a.f2657()!=\"B.f2657\""); return 1; }
if (a.f2658() != "B.f2658") { Console.WriteLine("FAILED: a.f2658()!=\"B.f2658\""); return 1; }
if (a.f2659() != "B.f2659") { Console.WriteLine("FAILED: a.f2659()!=\"B.f2659\""); return 1; }
if (a.f2660() != "B.f2660") { Console.WriteLine("FAILED: a.f2660()!=\"B.f2660\""); return 1; }
if (a.f2661() != "B.f2661") { Console.WriteLine("FAILED: a.f2661()!=\"B.f2661\""); return 1; }
if (a.f2662() != "B.f2662") { Console.WriteLine("FAILED: a.f2662()!=\"B.f2662\""); return 1; }
if (a.f2663() != "B.f2663") { Console.WriteLine("FAILED: a.f2663()!=\"B.f2663\""); return 1; }
if (a.f2664() != "B.f2664") { Console.WriteLine("FAILED: a.f2664()!=\"B.f2664\""); return 1; }
if (a.f2665() != "B.f2665") { Console.WriteLine("FAILED: a.f2665()!=\"B.f2665\""); return 1; }
if (a.f2666() != "B.f2666") { Console.WriteLine("FAILED: a.f2666()!=\"B.f2666\""); return 1; }
if (a.f2667() != "B.f2667") { Console.WriteLine("FAILED: a.f2667()!=\"B.f2667\""); return 1; }
if (a.f2668() != "B.f2668") { Console.WriteLine("FAILED: a.f2668()!=\"B.f2668\""); return 1; }
if (a.f2669() != "B.f2669") { Console.WriteLine("FAILED: a.f2669()!=\"B.f2669\""); return 1; }
if (a.f2670() != "B.f2670") { Console.WriteLine("FAILED: a.f2670()!=\"B.f2670\""); return 1; }
if (a.f2671() != "B.f2671") { Console.WriteLine("FAILED: a.f2671()!=\"B.f2671\""); return 1; }
if (a.f2672() != "B.f2672") { Console.WriteLine("FAILED: a.f2672()!=\"B.f2672\""); return 1; }
if (a.f2673() != "B.f2673") { Console.WriteLine("FAILED: a.f2673()!=\"B.f2673\""); return 1; }
if (a.f2674() != "B.f2674") { Console.WriteLine("FAILED: a.f2674()!=\"B.f2674\""); return 1; }
if (a.f2675() != "B.f2675") { Console.WriteLine("FAILED: a.f2675()!=\"B.f2675\""); return 1; }
if (a.f2676() != "B.f2676") { Console.WriteLine("FAILED: a.f2676()!=\"B.f2676\""); return 1; }
if (a.f2677() != "B.f2677") { Console.WriteLine("FAILED: a.f2677()!=\"B.f2677\""); return 1; }
if (a.f2678() != "B.f2678") { Console.WriteLine("FAILED: a.f2678()!=\"B.f2678\""); return 1; }
if (a.f2679() != "B.f2679") { Console.WriteLine("FAILED: a.f2679()!=\"B.f2679\""); return 1; }
if (a.f2680() != "B.f2680") { Console.WriteLine("FAILED: a.f2680()!=\"B.f2680\""); return 1; }
if (a.f2681() != "B.f2681") { Console.WriteLine("FAILED: a.f2681()!=\"B.f2681\""); return 1; }
if (a.f2682() != "B.f2682") { Console.WriteLine("FAILED: a.f2682()!=\"B.f2682\""); return 1; }
if (a.f2683() != "B.f2683") { Console.WriteLine("FAILED: a.f2683()!=\"B.f2683\""); return 1; }
if (a.f2684() != "B.f2684") { Console.WriteLine("FAILED: a.f2684()!=\"B.f2684\""); return 1; }
if (a.f2685() != "B.f2685") { Console.WriteLine("FAILED: a.f2685()!=\"B.f2685\""); return 1; }
if (a.f2686() != "B.f2686") { Console.WriteLine("FAILED: a.f2686()!=\"B.f2686\""); return 1; }
if (a.f2687() != "B.f2687") { Console.WriteLine("FAILED: a.f2687()!=\"B.f2687\""); return 1; }
if (a.f2688() != "B.f2688") { Console.WriteLine("FAILED: a.f2688()!=\"B.f2688\""); return 1; }
if (a.f2689() != "B.f2689") { Console.WriteLine("FAILED: a.f2689()!=\"B.f2689\""); return 1; }
if (a.f2690() != "B.f2690") { Console.WriteLine("FAILED: a.f2690()!=\"B.f2690\""); return 1; }
if (a.f2691() != "B.f2691") { Console.WriteLine("FAILED: a.f2691()!=\"B.f2691\""); return 1; }
if (a.f2692() != "B.f2692") { Console.WriteLine("FAILED: a.f2692()!=\"B.f2692\""); return 1; }
if (a.f2693() != "B.f2693") { Console.WriteLine("FAILED: a.f2693()!=\"B.f2693\""); return 1; }
if (a.f2694() != "B.f2694") { Console.WriteLine("FAILED: a.f2694()!=\"B.f2694\""); return 1; }
if (a.f2695() != "B.f2695") { Console.WriteLine("FAILED: a.f2695()!=\"B.f2695\""); return 1; }
if (a.f2696() != "B.f2696") { Console.WriteLine("FAILED: a.f2696()!=\"B.f2696\""); return 1; }
if (a.f2697() != "B.f2697") { Console.WriteLine("FAILED: a.f2697()!=\"B.f2697\""); return 1; }
if (a.f2698() != "B.f2698") { Console.WriteLine("FAILED: a.f2698()!=\"B.f2698\""); return 1; }
if (a.f2699() != "B.f2699") { Console.WriteLine("FAILED: a.f2699()!=\"B.f2699\""); return 1; }
if (a.f2700() != "B.f2700") { Console.WriteLine("FAILED: a.f2700()!=\"B.f2700\""); return 1; }
if (a.f2701() != "B.f2701") { Console.WriteLine("FAILED: a.f2701()!=\"B.f2701\""); return 1; }
if (a.f2702() != "B.f2702") { Console.WriteLine("FAILED: a.f2702()!=\"B.f2702\""); return 1; }
if (a.f2703() != "B.f2703") { Console.WriteLine("FAILED: a.f2703()!=\"B.f2703\""); return 1; }
if (a.f2704() != "B.f2704") { Console.WriteLine("FAILED: a.f2704()!=\"B.f2704\""); return 1; }
if (a.f2705() != "B.f2705") { Console.WriteLine("FAILED: a.f2705()!=\"B.f2705\""); return 1; }
if (a.f2706() != "B.f2706") { Console.WriteLine("FAILED: a.f2706()!=\"B.f2706\""); return 1; }
if (a.f2707() != "B.f2707") { Console.WriteLine("FAILED: a.f2707()!=\"B.f2707\""); return 1; }
if (a.f2708() != "B.f2708") { Console.WriteLine("FAILED: a.f2708()!=\"B.f2708\""); return 1; }
if (a.f2709() != "B.f2709") { Console.WriteLine("FAILED: a.f2709()!=\"B.f2709\""); return 1; }
if (a.f2710() != "B.f2710") { Console.WriteLine("FAILED: a.f2710()!=\"B.f2710\""); return 1; }
if (a.f2711() != "B.f2711") { Console.WriteLine("FAILED: a.f2711()!=\"B.f2711\""); return 1; }
if (a.f2712() != "B.f2712") { Console.WriteLine("FAILED: a.f2712()!=\"B.f2712\""); return 1; }
if (a.f2713() != "B.f2713") { Console.WriteLine("FAILED: a.f2713()!=\"B.f2713\""); return 1; }
if (a.f2714() != "B.f2714") { Console.WriteLine("FAILED: a.f2714()!=\"B.f2714\""); return 1; }
if (a.f2715() != "B.f2715") { Console.WriteLine("FAILED: a.f2715()!=\"B.f2715\""); return 1; }
if (a.f2716() != "B.f2716") { Console.WriteLine("FAILED: a.f2716()!=\"B.f2716\""); return 1; }
if (a.f2717() != "B.f2717") { Console.WriteLine("FAILED: a.f2717()!=\"B.f2717\""); return 1; }
if (a.f2718() != "B.f2718") { Console.WriteLine("FAILED: a.f2718()!=\"B.f2718\""); return 1; }
if (a.f2719() != "B.f2719") { Console.WriteLine("FAILED: a.f2719()!=\"B.f2719\""); return 1; }
if (a.f2720() != "B.f2720") { Console.WriteLine("FAILED: a.f2720()!=\"B.f2720\""); return 1; }
if (a.f2721() != "B.f2721") { Console.WriteLine("FAILED: a.f2721()!=\"B.f2721\""); return 1; }
if (a.f2722() != "B.f2722") { Console.WriteLine("FAILED: a.f2722()!=\"B.f2722\""); return 1; }
if (a.f2723() != "B.f2723") { Console.WriteLine("FAILED: a.f2723()!=\"B.f2723\""); return 1; }
if (a.f2724() != "B.f2724") { Console.WriteLine("FAILED: a.f2724()!=\"B.f2724\""); return 1; }
if (a.f2725() != "B.f2725") { Console.WriteLine("FAILED: a.f2725()!=\"B.f2725\""); return 1; }
if (a.f2726() != "B.f2726") { Console.WriteLine("FAILED: a.f2726()!=\"B.f2726\""); return 1; }
if (a.f2727() != "B.f2727") { Console.WriteLine("FAILED: a.f2727()!=\"B.f2727\""); return 1; }
if (a.f2728() != "B.f2728") { Console.WriteLine("FAILED: a.f2728()!=\"B.f2728\""); return 1; }
if (a.f2729() != "B.f2729") { Console.WriteLine("FAILED: a.f2729()!=\"B.f2729\""); return 1; }
if (a.f2730() != "B.f2730") { Console.WriteLine("FAILED: a.f2730()!=\"B.f2730\""); return 1; }
if (a.f2731() != "B.f2731") { Console.WriteLine("FAILED: a.f2731()!=\"B.f2731\""); return 1; }
if (a.f2732() != "B.f2732") { Console.WriteLine("FAILED: a.f2732()!=\"B.f2732\""); return 1; }
if (a.f2733() != "B.f2733") { Console.WriteLine("FAILED: a.f2733()!=\"B.f2733\""); return 1; }
if (a.f2734() != "B.f2734") { Console.WriteLine("FAILED: a.f2734()!=\"B.f2734\""); return 1; }
if (a.f2735() != "B.f2735") { Console.WriteLine("FAILED: a.f2735()!=\"B.f2735\""); return 1; }
if (a.f2736() != "B.f2736") { Console.WriteLine("FAILED: a.f2736()!=\"B.f2736\""); return 1; }
if (a.f2737() != "B.f2737") { Console.WriteLine("FAILED: a.f2737()!=\"B.f2737\""); return 1; }
if (a.f2738() != "B.f2738") { Console.WriteLine("FAILED: a.f2738()!=\"B.f2738\""); return 1; }
if (a.f2739() != "B.f2739") { Console.WriteLine("FAILED: a.f2739()!=\"B.f2739\""); return 1; }
if (a.f2740() != "B.f2740") { Console.WriteLine("FAILED: a.f2740()!=\"B.f2740\""); return 1; }
if (a.f2741() != "B.f2741") { Console.WriteLine("FAILED: a.f2741()!=\"B.f2741\""); return 1; }
if (a.f2742() != "B.f2742") { Console.WriteLine("FAILED: a.f2742()!=\"B.f2742\""); return 1; }
if (a.f2743() != "B.f2743") { Console.WriteLine("FAILED: a.f2743()!=\"B.f2743\""); return 1; }
if (a.f2744() != "B.f2744") { Console.WriteLine("FAILED: a.f2744()!=\"B.f2744\""); return 1; }
if (a.f2745() != "B.f2745") { Console.WriteLine("FAILED: a.f2745()!=\"B.f2745\""); return 1; }
if (a.f2746() != "B.f2746") { Console.WriteLine("FAILED: a.f2746()!=\"B.f2746\""); return 1; }
if (a.f2747() != "B.f2747") { Console.WriteLine("FAILED: a.f2747()!=\"B.f2747\""); return 1; }
if (a.f2748() != "B.f2748") { Console.WriteLine("FAILED: a.f2748()!=\"B.f2748\""); return 1; }
if (a.f2749() != "B.f2749") { Console.WriteLine("FAILED: a.f2749()!=\"B.f2749\""); return 1; }
if (a.f2750() != "B.f2750") { Console.WriteLine("FAILED: a.f2750()!=\"B.f2750\""); return 1; }
if (a.f2751() != "B.f2751") { Console.WriteLine("FAILED: a.f2751()!=\"B.f2751\""); return 1; }
if (a.f2752() != "B.f2752") { Console.WriteLine("FAILED: a.f2752()!=\"B.f2752\""); return 1; }
if (a.f2753() != "B.f2753") { Console.WriteLine("FAILED: a.f2753()!=\"B.f2753\""); return 1; }
if (a.f2754() != "B.f2754") { Console.WriteLine("FAILED: a.f2754()!=\"B.f2754\""); return 1; }
if (a.f2755() != "B.f2755") { Console.WriteLine("FAILED: a.f2755()!=\"B.f2755\""); return 1; }
if (a.f2756() != "B.f2756") { Console.WriteLine("FAILED: a.f2756()!=\"B.f2756\""); return 1; }
if (a.f2757() != "B.f2757") { Console.WriteLine("FAILED: a.f2757()!=\"B.f2757\""); return 1; }
if (a.f2758() != "B.f2758") { Console.WriteLine("FAILED: a.f2758()!=\"B.f2758\""); return 1; }
if (a.f2759() != "B.f2759") { Console.WriteLine("FAILED: a.f2759()!=\"B.f2759\""); return 1; }
if (a.f2760() != "B.f2760") { Console.WriteLine("FAILED: a.f2760()!=\"B.f2760\""); return 1; }
if (a.f2761() != "B.f2761") { Console.WriteLine("FAILED: a.f2761()!=\"B.f2761\""); return 1; }
if (a.f2762() != "B.f2762") { Console.WriteLine("FAILED: a.f2762()!=\"B.f2762\""); return 1; }
if (a.f2763() != "B.f2763") { Console.WriteLine("FAILED: a.f2763()!=\"B.f2763\""); return 1; }
if (a.f2764() != "B.f2764") { Console.WriteLine("FAILED: a.f2764()!=\"B.f2764\""); return 1; }
if (a.f2765() != "B.f2765") { Console.WriteLine("FAILED: a.f2765()!=\"B.f2765\""); return 1; }
if (a.f2766() != "B.f2766") { Console.WriteLine("FAILED: a.f2766()!=\"B.f2766\""); return 1; }
if (a.f2767() != "B.f2767") { Console.WriteLine("FAILED: a.f2767()!=\"B.f2767\""); return 1; }
if (a.f2768() != "B.f2768") { Console.WriteLine("FAILED: a.f2768()!=\"B.f2768\""); return 1; }
if (a.f2769() != "B.f2769") { Console.WriteLine("FAILED: a.f2769()!=\"B.f2769\""); return 1; }
if (a.f2770() != "B.f2770") { Console.WriteLine("FAILED: a.f2770()!=\"B.f2770\""); return 1; }
if (a.f2771() != "B.f2771") { Console.WriteLine("FAILED: a.f2771()!=\"B.f2771\""); return 1; }
if (a.f2772() != "B.f2772") { Console.WriteLine("FAILED: a.f2772()!=\"B.f2772\""); return 1; }
if (a.f2773() != "B.f2773") { Console.WriteLine("FAILED: a.f2773()!=\"B.f2773\""); return 1; }
if (a.f2774() != "B.f2774") { Console.WriteLine("FAILED: a.f2774()!=\"B.f2774\""); return 1; }
if (a.f2775() != "B.f2775") { Console.WriteLine("FAILED: a.f2775()!=\"B.f2775\""); return 1; }
if (a.f2776() != "B.f2776") { Console.WriteLine("FAILED: a.f2776()!=\"B.f2776\""); return 1; }
if (a.f2777() != "B.f2777") { Console.WriteLine("FAILED: a.f2777()!=\"B.f2777\""); return 1; }
if (a.f2778() != "B.f2778") { Console.WriteLine("FAILED: a.f2778()!=\"B.f2778\""); return 1; }
if (a.f2779() != "B.f2779") { Console.WriteLine("FAILED: a.f2779()!=\"B.f2779\""); return 1; }
if (a.f2780() != "B.f2780") { Console.WriteLine("FAILED: a.f2780()!=\"B.f2780\""); return 1; }
if (a.f2781() != "B.f2781") { Console.WriteLine("FAILED: a.f2781()!=\"B.f2781\""); return 1; }
if (a.f2782() != "B.f2782") { Console.WriteLine("FAILED: a.f2782()!=\"B.f2782\""); return 1; }
if (a.f2783() != "B.f2783") { Console.WriteLine("FAILED: a.f2783()!=\"B.f2783\""); return 1; }
if (a.f2784() != "B.f2784") { Console.WriteLine("FAILED: a.f2784()!=\"B.f2784\""); return 1; }
if (a.f2785() != "B.f2785") { Console.WriteLine("FAILED: a.f2785()!=\"B.f2785\""); return 1; }
if (a.f2786() != "B.f2786") { Console.WriteLine("FAILED: a.f2786()!=\"B.f2786\""); return 1; }
if (a.f2787() != "B.f2787") { Console.WriteLine("FAILED: a.f2787()!=\"B.f2787\""); return 1; }
if (a.f2788() != "B.f2788") { Console.WriteLine("FAILED: a.f2788()!=\"B.f2788\""); return 1; }
if (a.f2789() != "B.f2789") { Console.WriteLine("FAILED: a.f2789()!=\"B.f2789\""); return 1; }
if (a.f2790() != "B.f2790") { Console.WriteLine("FAILED: a.f2790()!=\"B.f2790\""); return 1; }
if (a.f2791() != "B.f2791") { Console.WriteLine("FAILED: a.f2791()!=\"B.f2791\""); return 1; }
if (a.f2792() != "B.f2792") { Console.WriteLine("FAILED: a.f2792()!=\"B.f2792\""); return 1; }
if (a.f2793() != "B.f2793") { Console.WriteLine("FAILED: a.f2793()!=\"B.f2793\""); return 1; }
if (a.f2794() != "B.f2794") { Console.WriteLine("FAILED: a.f2794()!=\"B.f2794\""); return 1; }
if (a.f2795() != "B.f2795") { Console.WriteLine("FAILED: a.f2795()!=\"B.f2795\""); return 1; }
if (a.f2796() != "B.f2796") { Console.WriteLine("FAILED: a.f2796()!=\"B.f2796\""); return 1; }
if (a.f2797() != "B.f2797") { Console.WriteLine("FAILED: a.f2797()!=\"B.f2797\""); return 1; }
if (a.f2798() != "B.f2798") { Console.WriteLine("FAILED: a.f2798()!=\"B.f2798\""); return 1; }
if (a.f2799() != "B.f2799") { Console.WriteLine("FAILED: a.f2799()!=\"B.f2799\""); return 1; }
if (a.f2800() != "B.f2800") { Console.WriteLine("FAILED: a.f2800()!=\"B.f2800\""); return 1; }
if (a.f2801() != "B.f2801") { Console.WriteLine("FAILED: a.f2801()!=\"B.f2801\""); return 1; }
if (a.f2802() != "B.f2802") { Console.WriteLine("FAILED: a.f2802()!=\"B.f2802\""); return 1; }
if (a.f2803() != "B.f2803") { Console.WriteLine("FAILED: a.f2803()!=\"B.f2803\""); return 1; }
if (a.f2804() != "B.f2804") { Console.WriteLine("FAILED: a.f2804()!=\"B.f2804\""); return 1; }
if (a.f2805() != "B.f2805") { Console.WriteLine("FAILED: a.f2805()!=\"B.f2805\""); return 1; }
if (a.f2806() != "B.f2806") { Console.WriteLine("FAILED: a.f2806()!=\"B.f2806\""); return 1; }
if (a.f2807() != "B.f2807") { Console.WriteLine("FAILED: a.f2807()!=\"B.f2807\""); return 1; }
if (a.f2808() != "B.f2808") { Console.WriteLine("FAILED: a.f2808()!=\"B.f2808\""); return 1; }
if (a.f2809() != "B.f2809") { Console.WriteLine("FAILED: a.f2809()!=\"B.f2809\""); return 1; }
if (a.f2810() != "B.f2810") { Console.WriteLine("FAILED: a.f2810()!=\"B.f2810\""); return 1; }
if (a.f2811() != "B.f2811") { Console.WriteLine("FAILED: a.f2811()!=\"B.f2811\""); return 1; }
if (a.f2812() != "B.f2812") { Console.WriteLine("FAILED: a.f2812()!=\"B.f2812\""); return 1; }
if (a.f2813() != "B.f2813") { Console.WriteLine("FAILED: a.f2813()!=\"B.f2813\""); return 1; }
if (a.f2814() != "B.f2814") { Console.WriteLine("FAILED: a.f2814()!=\"B.f2814\""); return 1; }
if (a.f2815() != "B.f2815") { Console.WriteLine("FAILED: a.f2815()!=\"B.f2815\""); return 1; }
if (a.f2816() != "B.f2816") { Console.WriteLine("FAILED: a.f2816()!=\"B.f2816\""); return 1; }
if (a.f2817() != "B.f2817") { Console.WriteLine("FAILED: a.f2817()!=\"B.f2817\""); return 1; }
if (a.f2818() != "B.f2818") { Console.WriteLine("FAILED: a.f2818()!=\"B.f2818\""); return 1; }
if (a.f2819() != "B.f2819") { Console.WriteLine("FAILED: a.f2819()!=\"B.f2819\""); return 1; }
if (a.f2820() != "B.f2820") { Console.WriteLine("FAILED: a.f2820()!=\"B.f2820\""); return 1; }
if (a.f2821() != "B.f2821") { Console.WriteLine("FAILED: a.f2821()!=\"B.f2821\""); return 1; }
if (a.f2822() != "B.f2822") { Console.WriteLine("FAILED: a.f2822()!=\"B.f2822\""); return 1; }
if (a.f2823() != "B.f2823") { Console.WriteLine("FAILED: a.f2823()!=\"B.f2823\""); return 1; }
if (a.f2824() != "B.f2824") { Console.WriteLine("FAILED: a.f2824()!=\"B.f2824\""); return 1; }
if (a.f2825() != "B.f2825") { Console.WriteLine("FAILED: a.f2825()!=\"B.f2825\""); return 1; }
if (a.f2826() != "B.f2826") { Console.WriteLine("FAILED: a.f2826()!=\"B.f2826\""); return 1; }
if (a.f2827() != "B.f2827") { Console.WriteLine("FAILED: a.f2827()!=\"B.f2827\""); return 1; }
if (a.f2828() != "B.f2828") { Console.WriteLine("FAILED: a.f2828()!=\"B.f2828\""); return 1; }
if (a.f2829() != "B.f2829") { Console.WriteLine("FAILED: a.f2829()!=\"B.f2829\""); return 1; }
if (a.f2830() != "B.f2830") { Console.WriteLine("FAILED: a.f2830()!=\"B.f2830\""); return 1; }
if (a.f2831() != "B.f2831") { Console.WriteLine("FAILED: a.f2831()!=\"B.f2831\""); return 1; }
if (a.f2832() != "B.f2832") { Console.WriteLine("FAILED: a.f2832()!=\"B.f2832\""); return 1; }
if (a.f2833() != "B.f2833") { Console.WriteLine("FAILED: a.f2833()!=\"B.f2833\""); return 1; }
if (a.f2834() != "B.f2834") { Console.WriteLine("FAILED: a.f2834()!=\"B.f2834\""); return 1; }
if (a.f2835() != "B.f2835") { Console.WriteLine("FAILED: a.f2835()!=\"B.f2835\""); return 1; }
if (a.f2836() != "B.f2836") { Console.WriteLine("FAILED: a.f2836()!=\"B.f2836\""); return 1; }
if (a.f2837() != "B.f2837") { Console.WriteLine("FAILED: a.f2837()!=\"B.f2837\""); return 1; }
if (a.f2838() != "B.f2838") { Console.WriteLine("FAILED: a.f2838()!=\"B.f2838\""); return 1; }
if (a.f2839() != "B.f2839") { Console.WriteLine("FAILED: a.f2839()!=\"B.f2839\""); return 1; }
if (a.f2840() != "B.f2840") { Console.WriteLine("FAILED: a.f2840()!=\"B.f2840\""); return 1; }
if (a.f2841() != "B.f2841") { Console.WriteLine("FAILED: a.f2841()!=\"B.f2841\""); return 1; }
if (a.f2842() != "B.f2842") { Console.WriteLine("FAILED: a.f2842()!=\"B.f2842\""); return 1; }
if (a.f2843() != "B.f2843") { Console.WriteLine("FAILED: a.f2843()!=\"B.f2843\""); return 1; }
if (a.f2844() != "B.f2844") { Console.WriteLine("FAILED: a.f2844()!=\"B.f2844\""); return 1; }
if (a.f2845() != "B.f2845") { Console.WriteLine("FAILED: a.f2845()!=\"B.f2845\""); return 1; }
if (a.f2846() != "B.f2846") { Console.WriteLine("FAILED: a.f2846()!=\"B.f2846\""); return 1; }
if (a.f2847() != "B.f2847") { Console.WriteLine("FAILED: a.f2847()!=\"B.f2847\""); return 1; }
if (a.f2848() != "B.f2848") { Console.WriteLine("FAILED: a.f2848()!=\"B.f2848\""); return 1; }
if (a.f2849() != "B.f2849") { Console.WriteLine("FAILED: a.f2849()!=\"B.f2849\""); return 1; }
if (a.f2850() != "B.f2850") { Console.WriteLine("FAILED: a.f2850()!=\"B.f2850\""); return 1; }
if (a.f2851() != "B.f2851") { Console.WriteLine("FAILED: a.f2851()!=\"B.f2851\""); return 1; }
if (a.f2852() != "B.f2852") { Console.WriteLine("FAILED: a.f2852()!=\"B.f2852\""); return 1; }
if (a.f2853() != "B.f2853") { Console.WriteLine("FAILED: a.f2853()!=\"B.f2853\""); return 1; }
if (a.f2854() != "B.f2854") { Console.WriteLine("FAILED: a.f2854()!=\"B.f2854\""); return 1; }
if (a.f2855() != "B.f2855") { Console.WriteLine("FAILED: a.f2855()!=\"B.f2855\""); return 1; }
if (a.f2856() != "B.f2856") { Console.WriteLine("FAILED: a.f2856()!=\"B.f2856\""); return 1; }
if (a.f2857() != "B.f2857") { Console.WriteLine("FAILED: a.f2857()!=\"B.f2857\""); return 1; }
if (a.f2858() != "B.f2858") { Console.WriteLine("FAILED: a.f2858()!=\"B.f2858\""); return 1; }
if (a.f2859() != "B.f2859") { Console.WriteLine("FAILED: a.f2859()!=\"B.f2859\""); return 1; }
if (a.f2860() != "B.f2860") { Console.WriteLine("FAILED: a.f2860()!=\"B.f2860\""); return 1; }
if (a.f2861() != "B.f2861") { Console.WriteLine("FAILED: a.f2861()!=\"B.f2861\""); return 1; }
if (a.f2862() != "B.f2862") { Console.WriteLine("FAILED: a.f2862()!=\"B.f2862\""); return 1; }
if (a.f2863() != "B.f2863") { Console.WriteLine("FAILED: a.f2863()!=\"B.f2863\""); return 1; }
if (a.f2864() != "B.f2864") { Console.WriteLine("FAILED: a.f2864()!=\"B.f2864\""); return 1; }
if (a.f2865() != "B.f2865") { Console.WriteLine("FAILED: a.f2865()!=\"B.f2865\""); return 1; }
if (a.f2866() != "B.f2866") { Console.WriteLine("FAILED: a.f2866()!=\"B.f2866\""); return 1; }
if (a.f2867() != "B.f2867") { Console.WriteLine("FAILED: a.f2867()!=\"B.f2867\""); return 1; }
if (a.f2868() != "B.f2868") { Console.WriteLine("FAILED: a.f2868()!=\"B.f2868\""); return 1; }
if (a.f2869() != "B.f2869") { Console.WriteLine("FAILED: a.f2869()!=\"B.f2869\""); return 1; }
if (a.f2870() != "B.f2870") { Console.WriteLine("FAILED: a.f2870()!=\"B.f2870\""); return 1; }
if (a.f2871() != "B.f2871") { Console.WriteLine("FAILED: a.f2871()!=\"B.f2871\""); return 1; }
if (a.f2872() != "B.f2872") { Console.WriteLine("FAILED: a.f2872()!=\"B.f2872\""); return 1; }
if (a.f2873() != "B.f2873") { Console.WriteLine("FAILED: a.f2873()!=\"B.f2873\""); return 1; }
if (a.f2874() != "B.f2874") { Console.WriteLine("FAILED: a.f2874()!=\"B.f2874\""); return 1; }
if (a.f2875() != "B.f2875") { Console.WriteLine("FAILED: a.f2875()!=\"B.f2875\""); return 1; }
if (a.f2876() != "B.f2876") { Console.WriteLine("FAILED: a.f2876()!=\"B.f2876\""); return 1; }
if (a.f2877() != "B.f2877") { Console.WriteLine("FAILED: a.f2877()!=\"B.f2877\""); return 1; }
if (a.f2878() != "B.f2878") { Console.WriteLine("FAILED: a.f2878()!=\"B.f2878\""); return 1; }
if (a.f2879() != "B.f2879") { Console.WriteLine("FAILED: a.f2879()!=\"B.f2879\""); return 1; }
if (a.f2880() != "B.f2880") { Console.WriteLine("FAILED: a.f2880()!=\"B.f2880\""); return 1; }
if (a.f2881() != "B.f2881") { Console.WriteLine("FAILED: a.f2881()!=\"B.f2881\""); return 1; }
if (a.f2882() != "B.f2882") { Console.WriteLine("FAILED: a.f2882()!=\"B.f2882\""); return 1; }
if (a.f2883() != "B.f2883") { Console.WriteLine("FAILED: a.f2883()!=\"B.f2883\""); return 1; }
if (a.f2884() != "B.f2884") { Console.WriteLine("FAILED: a.f2884()!=\"B.f2884\""); return 1; }
if (a.f2885() != "B.f2885") { Console.WriteLine("FAILED: a.f2885()!=\"B.f2885\""); return 1; }
if (a.f2886() != "B.f2886") { Console.WriteLine("FAILED: a.f2886()!=\"B.f2886\""); return 1; }
if (a.f2887() != "B.f2887") { Console.WriteLine("FAILED: a.f2887()!=\"B.f2887\""); return 1; }
if (a.f2888() != "B.f2888") { Console.WriteLine("FAILED: a.f2888()!=\"B.f2888\""); return 1; }
if (a.f2889() != "B.f2889") { Console.WriteLine("FAILED: a.f2889()!=\"B.f2889\""); return 1; }
if (a.f2890() != "B.f2890") { Console.WriteLine("FAILED: a.f2890()!=\"B.f2890\""); return 1; }
if (a.f2891() != "B.f2891") { Console.WriteLine("FAILED: a.f2891()!=\"B.f2891\""); return 1; }
if (a.f2892() != "B.f2892") { Console.WriteLine("FAILED: a.f2892()!=\"B.f2892\""); return 1; }
if (a.f2893() != "B.f2893") { Console.WriteLine("FAILED: a.f2893()!=\"B.f2893\""); return 1; }
if (a.f2894() != "B.f2894") { Console.WriteLine("FAILED: a.f2894()!=\"B.f2894\""); return 1; }
if (a.f2895() != "B.f2895") { Console.WriteLine("FAILED: a.f2895()!=\"B.f2895\""); return 1; }
if (a.f2896() != "B.f2896") { Console.WriteLine("FAILED: a.f2896()!=\"B.f2896\""); return 1; }
if (a.f2897() != "B.f2897") { Console.WriteLine("FAILED: a.f2897()!=\"B.f2897\""); return 1; }
if (a.f2898() != "B.f2898") { Console.WriteLine("FAILED: a.f2898()!=\"B.f2898\""); return 1; }
if (a.f2899() != "B.f2899") { Console.WriteLine("FAILED: a.f2899()!=\"B.f2899\""); return 1; }
if (a.f2900() != "B.f2900") { Console.WriteLine("FAILED: a.f2900()!=\"B.f2900\""); return 1; }
if (a.f2901() != "B.f2901") { Console.WriteLine("FAILED: a.f2901()!=\"B.f2901\""); return 1; }
if (a.f2902() != "B.f2902") { Console.WriteLine("FAILED: a.f2902()!=\"B.f2902\""); return 1; }
if (a.f2903() != "B.f2903") { Console.WriteLine("FAILED: a.f2903()!=\"B.f2903\""); return 1; }
if (a.f2904() != "B.f2904") { Console.WriteLine("FAILED: a.f2904()!=\"B.f2904\""); return 1; }
if (a.f2905() != "B.f2905") { Console.WriteLine("FAILED: a.f2905()!=\"B.f2905\""); return 1; }
if (a.f2906() != "B.f2906") { Console.WriteLine("FAILED: a.f2906()!=\"B.f2906\""); return 1; }
if (a.f2907() != "B.f2907") { Console.WriteLine("FAILED: a.f2907()!=\"B.f2907\""); return 1; }
if (a.f2908() != "B.f2908") { Console.WriteLine("FAILED: a.f2908()!=\"B.f2908\""); return 1; }
if (a.f2909() != "B.f2909") { Console.WriteLine("FAILED: a.f2909()!=\"B.f2909\""); return 1; }
if (a.f2910() != "B.f2910") { Console.WriteLine("FAILED: a.f2910()!=\"B.f2910\""); return 1; }
if (a.f2911() != "B.f2911") { Console.WriteLine("FAILED: a.f2911()!=\"B.f2911\""); return 1; }
if (a.f2912() != "B.f2912") { Console.WriteLine("FAILED: a.f2912()!=\"B.f2912\""); return 1; }
if (a.f2913() != "B.f2913") { Console.WriteLine("FAILED: a.f2913()!=\"B.f2913\""); return 1; }
if (a.f2914() != "B.f2914") { Console.WriteLine("FAILED: a.f2914()!=\"B.f2914\""); return 1; }
if (a.f2915() != "B.f2915") { Console.WriteLine("FAILED: a.f2915()!=\"B.f2915\""); return 1; }
if (a.f2916() != "B.f2916") { Console.WriteLine("FAILED: a.f2916()!=\"B.f2916\""); return 1; }
if (a.f2917() != "B.f2917") { Console.WriteLine("FAILED: a.f2917()!=\"B.f2917\""); return 1; }
if (a.f2918() != "B.f2918") { Console.WriteLine("FAILED: a.f2918()!=\"B.f2918\""); return 1; }
if (a.f2919() != "B.f2919") { Console.WriteLine("FAILED: a.f2919()!=\"B.f2919\""); return 1; }
if (a.f2920() != "B.f2920") { Console.WriteLine("FAILED: a.f2920()!=\"B.f2920\""); return 1; }
if (a.f2921() != "B.f2921") { Console.WriteLine("FAILED: a.f2921()!=\"B.f2921\""); return 1; }
if (a.f2922() != "B.f2922") { Console.WriteLine("FAILED: a.f2922()!=\"B.f2922\""); return 1; }
if (a.f2923() != "B.f2923") { Console.WriteLine("FAILED: a.f2923()!=\"B.f2923\""); return 1; }
if (a.f2924() != "B.f2924") { Console.WriteLine("FAILED: a.f2924()!=\"B.f2924\""); return 1; }
if (a.f2925() != "B.f2925") { Console.WriteLine("FAILED: a.f2925()!=\"B.f2925\""); return 1; }
if (a.f2926() != "B.f2926") { Console.WriteLine("FAILED: a.f2926()!=\"B.f2926\""); return 1; }
if (a.f2927() != "B.f2927") { Console.WriteLine("FAILED: a.f2927()!=\"B.f2927\""); return 1; }
if (a.f2928() != "B.f2928") { Console.WriteLine("FAILED: a.f2928()!=\"B.f2928\""); return 1; }
if (a.f2929() != "B.f2929") { Console.WriteLine("FAILED: a.f2929()!=\"B.f2929\""); return 1; }
if (a.f2930() != "B.f2930") { Console.WriteLine("FAILED: a.f2930()!=\"B.f2930\""); return 1; }
if (a.f2931() != "B.f2931") { Console.WriteLine("FAILED: a.f2931()!=\"B.f2931\""); return 1; }
if (a.f2932() != "B.f2932") { Console.WriteLine("FAILED: a.f2932()!=\"B.f2932\""); return 1; }
if (a.f2933() != "B.f2933") { Console.WriteLine("FAILED: a.f2933()!=\"B.f2933\""); return 1; }
if (a.f2934() != "B.f2934") { Console.WriteLine("FAILED: a.f2934()!=\"B.f2934\""); return 1; }
if (a.f2935() != "B.f2935") { Console.WriteLine("FAILED: a.f2935()!=\"B.f2935\""); return 1; }
if (a.f2936() != "B.f2936") { Console.WriteLine("FAILED: a.f2936()!=\"B.f2936\""); return 1; }
if (a.f2937() != "B.f2937") { Console.WriteLine("FAILED: a.f2937()!=\"B.f2937\""); return 1; }
if (a.f2938() != "B.f2938") { Console.WriteLine("FAILED: a.f2938()!=\"B.f2938\""); return 1; }
if (a.f2939() != "B.f2939") { Console.WriteLine("FAILED: a.f2939()!=\"B.f2939\""); return 1; }
if (a.f2940() != "B.f2940") { Console.WriteLine("FAILED: a.f2940()!=\"B.f2940\""); return 1; }
if (a.f2941() != "B.f2941") { Console.WriteLine("FAILED: a.f2941()!=\"B.f2941\""); return 1; }
if (a.f2942() != "B.f2942") { Console.WriteLine("FAILED: a.f2942()!=\"B.f2942\""); return 1; }
if (a.f2943() != "B.f2943") { Console.WriteLine("FAILED: a.f2943()!=\"B.f2943\""); return 1; }
if (a.f2944() != "B.f2944") { Console.WriteLine("FAILED: a.f2944()!=\"B.f2944\""); return 1; }
if (a.f2945() != "B.f2945") { Console.WriteLine("FAILED: a.f2945()!=\"B.f2945\""); return 1; }
if (a.f2946() != "B.f2946") { Console.WriteLine("FAILED: a.f2946()!=\"B.f2946\""); return 1; }
if (a.f2947() != "B.f2947") { Console.WriteLine("FAILED: a.f2947()!=\"B.f2947\""); return 1; }
if (a.f2948() != "B.f2948") { Console.WriteLine("FAILED: a.f2948()!=\"B.f2948\""); return 1; }
if (a.f2949() != "B.f2949") { Console.WriteLine("FAILED: a.f2949()!=\"B.f2949\""); return 1; }
if (a.f2950() != "B.f2950") { Console.WriteLine("FAILED: a.f2950()!=\"B.f2950\""); return 1; }
if (a.f2951() != "B.f2951") { Console.WriteLine("FAILED: a.f2951()!=\"B.f2951\""); return 1; }
if (a.f2952() != "B.f2952") { Console.WriteLine("FAILED: a.f2952()!=\"B.f2952\""); return 1; }
if (a.f2953() != "B.f2953") { Console.WriteLine("FAILED: a.f2953()!=\"B.f2953\""); return 1; }
if (a.f2954() != "B.f2954") { Console.WriteLine("FAILED: a.f2954()!=\"B.f2954\""); return 1; }
if (a.f2955() != "B.f2955") { Console.WriteLine("FAILED: a.f2955()!=\"B.f2955\""); return 1; }
if (a.f2956() != "B.f2956") { Console.WriteLine("FAILED: a.f2956()!=\"B.f2956\""); return 1; }
if (a.f2957() != "B.f2957") { Console.WriteLine("FAILED: a.f2957()!=\"B.f2957\""); return 1; }
if (a.f2958() != "B.f2958") { Console.WriteLine("FAILED: a.f2958()!=\"B.f2958\""); return 1; }
if (a.f2959() != "B.f2959") { Console.WriteLine("FAILED: a.f2959()!=\"B.f2959\""); return 1; }
if (a.f2960() != "B.f2960") { Console.WriteLine("FAILED: a.f2960()!=\"B.f2960\""); return 1; }
if (a.f2961() != "B.f2961") { Console.WriteLine("FAILED: a.f2961()!=\"B.f2961\""); return 1; }
if (a.f2962() != "B.f2962") { Console.WriteLine("FAILED: a.f2962()!=\"B.f2962\""); return 1; }
if (a.f2963() != "B.f2963") { Console.WriteLine("FAILED: a.f2963()!=\"B.f2963\""); return 1; }
if (a.f2964() != "B.f2964") { Console.WriteLine("FAILED: a.f2964()!=\"B.f2964\""); return 1; }
if (a.f2965() != "B.f2965") { Console.WriteLine("FAILED: a.f2965()!=\"B.f2965\""); return 1; }
if (a.f2966() != "B.f2966") { Console.WriteLine("FAILED: a.f2966()!=\"B.f2966\""); return 1; }
if (a.f2967() != "B.f2967") { Console.WriteLine("FAILED: a.f2967()!=\"B.f2967\""); return 1; }
if (a.f2968() != "B.f2968") { Console.WriteLine("FAILED: a.f2968()!=\"B.f2968\""); return 1; }
if (a.f2969() != "B.f2969") { Console.WriteLine("FAILED: a.f2969()!=\"B.f2969\""); return 1; }
if (a.f2970() != "B.f2970") { Console.WriteLine("FAILED: a.f2970()!=\"B.f2970\""); return 1; }
if (a.f2971() != "B.f2971") { Console.WriteLine("FAILED: a.f2971()!=\"B.f2971\""); return 1; }
if (a.f2972() != "B.f2972") { Console.WriteLine("FAILED: a.f2972()!=\"B.f2972\""); return 1; }
if (a.f2973() != "B.f2973") { Console.WriteLine("FAILED: a.f2973()!=\"B.f2973\""); return 1; }
if (a.f2974() != "B.f2974") { Console.WriteLine("FAILED: a.f2974()!=\"B.f2974\""); return 1; }
if (a.f2975() != "B.f2975") { Console.WriteLine("FAILED: a.f2975()!=\"B.f2975\""); return 1; }
if (a.f2976() != "B.f2976") { Console.WriteLine("FAILED: a.f2976()!=\"B.f2976\""); return 1; }
if (a.f2977() != "B.f2977") { Console.WriteLine("FAILED: a.f2977()!=\"B.f2977\""); return 1; }
if (a.f2978() != "B.f2978") { Console.WriteLine("FAILED: a.f2978()!=\"B.f2978\""); return 1; }
if (a.f2979() != "B.f2979") { Console.WriteLine("FAILED: a.f2979()!=\"B.f2979\""); return 1; }
if (a.f2980() != "B.f2980") { Console.WriteLine("FAILED: a.f2980()!=\"B.f2980\""); return 1; }
if (a.f2981() != "B.f2981") { Console.WriteLine("FAILED: a.f2981()!=\"B.f2981\""); return 1; }
if (a.f2982() != "B.f2982") { Console.WriteLine("FAILED: a.f2982()!=\"B.f2982\""); return 1; }
if (a.f2983() != "B.f2983") { Console.WriteLine("FAILED: a.f2983()!=\"B.f2983\""); return 1; }
if (a.f2984() != "B.f2984") { Console.WriteLine("FAILED: a.f2984()!=\"B.f2984\""); return 1; }
if (a.f2985() != "B.f2985") { Console.WriteLine("FAILED: a.f2985()!=\"B.f2985\""); return 1; }
if (a.f2986() != "B.f2986") { Console.WriteLine("FAILED: a.f2986()!=\"B.f2986\""); return 1; }
if (a.f2987() != "B.f2987") { Console.WriteLine("FAILED: a.f2987()!=\"B.f2987\""); return 1; }
if (a.f2988() != "B.f2988") { Console.WriteLine("FAILED: a.f2988()!=\"B.f2988\""); return 1; }
if (a.f2989() != "B.f2989") { Console.WriteLine("FAILED: a.f2989()!=\"B.f2989\""); return 1; }
if (a.f2990() != "B.f2990") { Console.WriteLine("FAILED: a.f2990()!=\"B.f2990\""); return 1; }
if (a.f2991() != "B.f2991") { Console.WriteLine("FAILED: a.f2991()!=\"B.f2991\""); return 1; }
if (a.f2992() != "B.f2992") { Console.WriteLine("FAILED: a.f2992()!=\"B.f2992\""); return 1; }
if (a.f2993() != "B.f2993") { Console.WriteLine("FAILED: a.f2993()!=\"B.f2993\""); return 1; }
if (a.f2994() != "B.f2994") { Console.WriteLine("FAILED: a.f2994()!=\"B.f2994\""); return 1; }
if (a.f2995() != "B.f2995") { Console.WriteLine("FAILED: a.f2995()!=\"B.f2995\""); return 1; }
if (a.f2996() != "B.f2996") { Console.WriteLine("FAILED: a.f2996()!=\"B.f2996\""); return 1; }
if (a.f2997() != "B.f2997") { Console.WriteLine("FAILED: a.f2997()!=\"B.f2997\""); return 1; }
if (a.f2998() != "B.f2998") { Console.WriteLine("FAILED: a.f2998()!=\"B.f2998\""); return 1; }
if (a.f2999() != "B.f2999") { Console.WriteLine("FAILED: a.f2999()!=\"B.f2999\""); return 1; }
if (b.f1() != "B.f1") { Console.WriteLine("FAILED: b.f1()!=\"B.f1\""); return 1; }
if (c.f1() != "D.f1") { Console.WriteLine("FAILED: c.f1()!=\"D.f1\""); return 1; }
if (c.f601() != "D.f601") { Console.WriteLine("FAILED: c.f601()!=\"D.f601\""); return 1; }
if (c.f1201() != "D.f1201") { Console.WriteLine("FAILED: c.f1201()!=\"D.f1201\""); return 1; }
if (c.f1801() != "D.f1801") { Console.WriteLine("FAILED: c.f1801()!=\"D.f1801\""); return 1; }
if (c.f2401() != "D.f2401") { Console.WriteLine("FAILED: c.f2401()!=\"D.f2401\""); return 1; }
if (d.f2999() != "D.f2999") { Console.WriteLine("FAILED: d.f2999()!=\"D.f2999\""); return 1; }
if (d.f2849() != "D.f2849") { Console.WriteLine("FAILED: d.f2849()!=\"D.f2849\""); return 1; }
if (d.f2699() != "D.f2699") { Console.WriteLine("FAILED: d.f2699()!=\"D.f2699\""); return 1; }
if (d.f2549() != "D.f2549") { Console.WriteLine("FAILED: d.f2549()!=\"D.f2549\""); return 1; }
if (d.f2399() != "D.f2399") { Console.WriteLine("FAILED: d.f2399()!=\"D.f2399\""); return 1; }
if (d.f2249() != "D.f2249") { Console.WriteLine("FAILED: d.f2249()!=\"D.f2249\""); return 1; }
if (d.f2099() != "D.f2099") { Console.WriteLine("FAILED: d.f2099()!=\"D.f2099\""); return 1; }
if (d.f1949() != "D.f1949") { Console.WriteLine("FAILED: d.f1949()!=\"D.f1949\""); return 1; }
if (d.f1799() != "D.f1799") { Console.WriteLine("FAILED: d.f1799()!=\"D.f1799\""); return 1; }
if (d.f1649() != "D.f1649") { Console.WriteLine("FAILED: d.f1649()!=\"D.f1649\""); return 1; }
if (d.f1499() != "D.f1499") { Console.WriteLine("FAILED: d.f1499()!=\"D.f1499\""); return 1; }
if (d.f1349() != "D.f1349") { Console.WriteLine("FAILED: d.f1349()!=\"D.f1349\""); return 1; }
if (d.f1199() != "D.f1199") { Console.WriteLine("FAILED: d.f1199()!=\"D.f1199\""); return 1; }
if (d.f1049() != "D.f1049") { Console.WriteLine("FAILED: d.f1049()!=\"D.f1049\""); return 1; }
if (d.f899() != "D.f899") { Console.WriteLine("FAILED: d.f899()!=\"D.f899\""); return 1; }
if (d.f749() != "D.f749") { Console.WriteLine("FAILED: d.f749()!=\"D.f749\""); return 1; }
if (d.f599() != "D.f599") { Console.WriteLine("FAILED: d.f599()!=\"D.f599\""); return 1; }
if (d.f449() != "D.f449") { Console.WriteLine("FAILED: d.f449()!=\"D.f449\""); return 1; }
if (d.f299() != "D.f299") { Console.WriteLine("FAILED: d.f299()!=\"D.f299\""); return 1; }
if (d.f149() != "D.f149") { Console.WriteLine("FAILED: d.f149()!=\"D.f149\""); return 1; }
Console.WriteLine("PASSED");
return 100;
}
}
| -1 |
dotnet/runtime
| 66,398 |
Reenable compiler warning 4244 under coreclr/
|
Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
AaronRobinsonMSFT
| 2022-03-09T15:46:00Z | 2022-03-10T01:12:51Z |
763936ed098deaa1588935f17d7cc0a07c27c3fa
|
b71eba8b3a74fa6282dc1526e68abbd26f3e385f
|
Reenable compiler warning 4244 under coreclr/. Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
./src/libraries/System.Private.CoreLib/src/System/ComponentModel/Win32Exception.Unix.cs
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
namespace System.ComponentModel
{
public partial class Win32Exception
{
private static string GetErrorMessage(int error) => Interop.Sys.StrError(error);
}
}
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
namespace System.ComponentModel
{
public partial class Win32Exception
{
private static string GetErrorMessage(int error) => Interop.Sys.StrError(error);
}
}
| -1 |
dotnet/runtime
| 66,398 |
Reenable compiler warning 4244 under coreclr/
|
Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
AaronRobinsonMSFT
| 2022-03-09T15:46:00Z | 2022-03-10T01:12:51Z |
763936ed098deaa1588935f17d7cc0a07c27c3fa
|
b71eba8b3a74fa6282dc1526e68abbd26f3e385f
|
Reenable compiler warning 4244 under coreclr/. Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
./src/libraries/System.Text.Json/src/System/Text/Json/Serialization/Converters/Collection/StackOrQueueConverter.cs
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
using System.Collections;
using System.Diagnostics;
using System.Text.Json.Serialization.Metadata;
namespace System.Text.Json.Serialization.Converters
{
internal class StackOrQueueConverter<TCollection>
: JsonCollectionConverter<TCollection, object?>
where TCollection : IEnumerable
{
protected sealed override void Add(in object? value, ref ReadStack state)
{
var addMethodDelegate = ((Action<TCollection, object?>?)state.Current.JsonTypeInfo.AddMethodDelegate);
Debug.Assert(addMethodDelegate != null);
addMethodDelegate((TCollection)state.Current.ReturnValue!, value);
}
protected sealed override void CreateCollection(ref Utf8JsonReader reader, ref ReadStack state, JsonSerializerOptions options)
{
JsonTypeInfo typeInfo = state.Current.JsonTypeInfo;
JsonTypeInfo.ConstructorDelegate? constructorDelegate = typeInfo.CreateObject;
if (constructorDelegate == null)
{
ThrowHelper.ThrowNotSupportedException_CannotPopulateCollection(TypeToConvert, ref reader, ref state);
}
state.Current.ReturnValue = constructorDelegate();
Debug.Assert(typeInfo.AddMethodDelegate != null);
}
protected sealed override bool OnWriteResume(Utf8JsonWriter writer, TCollection value, JsonSerializerOptions options, ref WriteStack state)
{
IEnumerator enumerator;
if (state.Current.CollectionEnumerator == null)
{
enumerator = value.GetEnumerator();
if (!enumerator.MoveNext())
{
return true;
}
}
else
{
enumerator = state.Current.CollectionEnumerator;
}
JsonConverter<object?> converter = GetElementConverter(ref state);
do
{
if (ShouldFlush(writer, ref state))
{
state.Current.CollectionEnumerator = enumerator;
return false;
}
object? element = enumerator.Current;
if (!converter.TryWrite(writer, element, options, ref state))
{
state.Current.CollectionEnumerator = enumerator;
return false;
}
} while (enumerator.MoveNext());
return true;
}
}
}
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
using System.Collections;
using System.Diagnostics;
using System.Text.Json.Serialization.Metadata;
namespace System.Text.Json.Serialization.Converters
{
internal class StackOrQueueConverter<TCollection>
: JsonCollectionConverter<TCollection, object?>
where TCollection : IEnumerable
{
protected sealed override void Add(in object? value, ref ReadStack state)
{
var addMethodDelegate = ((Action<TCollection, object?>?)state.Current.JsonTypeInfo.AddMethodDelegate);
Debug.Assert(addMethodDelegate != null);
addMethodDelegate((TCollection)state.Current.ReturnValue!, value);
}
protected sealed override void CreateCollection(ref Utf8JsonReader reader, ref ReadStack state, JsonSerializerOptions options)
{
JsonTypeInfo typeInfo = state.Current.JsonTypeInfo;
JsonTypeInfo.ConstructorDelegate? constructorDelegate = typeInfo.CreateObject;
if (constructorDelegate == null)
{
ThrowHelper.ThrowNotSupportedException_CannotPopulateCollection(TypeToConvert, ref reader, ref state);
}
state.Current.ReturnValue = constructorDelegate();
Debug.Assert(typeInfo.AddMethodDelegate != null);
}
protected sealed override bool OnWriteResume(Utf8JsonWriter writer, TCollection value, JsonSerializerOptions options, ref WriteStack state)
{
IEnumerator enumerator;
if (state.Current.CollectionEnumerator == null)
{
enumerator = value.GetEnumerator();
if (!enumerator.MoveNext())
{
return true;
}
}
else
{
enumerator = state.Current.CollectionEnumerator;
}
JsonConverter<object?> converter = GetElementConverter(ref state);
do
{
if (ShouldFlush(writer, ref state))
{
state.Current.CollectionEnumerator = enumerator;
return false;
}
object? element = enumerator.Current;
if (!converter.TryWrite(writer, element, options, ref state))
{
state.Current.CollectionEnumerator = enumerator;
return false;
}
} while (enumerator.MoveNext());
return true;
}
}
}
| -1 |
dotnet/runtime
| 66,398 |
Reenable compiler warning 4244 under coreclr/
|
Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
AaronRobinsonMSFT
| 2022-03-09T15:46:00Z | 2022-03-10T01:12:51Z |
763936ed098deaa1588935f17d7cc0a07c27c3fa
|
b71eba8b3a74fa6282dc1526e68abbd26f3e385f
|
Reenable compiler warning 4244 under coreclr/. Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
./src/libraries/System.CodeDom/src/System/CodeDom/CodeExpressionStatement.cs
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
namespace System.CodeDom
{
public class CodeExpressionStatement : CodeStatement
{
public CodeExpressionStatement() { }
public CodeExpressionStatement(CodeExpression expression)
{
Expression = expression;
}
public CodeExpression Expression { get; set; }
}
}
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
namespace System.CodeDom
{
public class CodeExpressionStatement : CodeStatement
{
public CodeExpressionStatement() { }
public CodeExpressionStatement(CodeExpression expression)
{
Expression = expression;
}
public CodeExpression Expression { get; set; }
}
}
| -1 |
dotnet/runtime
| 66,398 |
Reenable compiler warning 4244 under coreclr/
|
Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
AaronRobinsonMSFT
| 2022-03-09T15:46:00Z | 2022-03-10T01:12:51Z |
763936ed098deaa1588935f17d7cc0a07c27c3fa
|
b71eba8b3a74fa6282dc1526e68abbd26f3e385f
|
Reenable compiler warning 4244 under coreclr/. Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
./src/tests/Interop/COM/Dynamic/Server/BasicTest.h
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
#pragma once
#include <ComHelpers.h>
#include <Contract.h>
#include "DispatchImpl.h"
#include <vector>
class BasicTest : public DispatchImpl, public IBasicTest
{
public:
BasicTest()
: DispatchImpl(IID_IBasicTest, static_cast<IBasicTest*>(this))
, _boolean { VARIANT_FALSE }
, _string { nullptr }
, _dispatch { nullptr }
{
::VariantInit(&_variant);
}
~BasicTest()
{
if (_string != nullptr)
::SysFreeString(_string);
::VariantClear(&_variant);
}
public: // IBasicTest
virtual HRESULT STDMETHODCALLTYPE Default(
/* [in] */ LONG val,
/* [retval][out] */ LONG *ret);
virtual HRESULT STDMETHODCALLTYPE get_Boolean_Property(
/* [retval][out] */ VARIANT_BOOL *ret);
virtual HRESULT STDMETHODCALLTYPE put_Boolean_Property(
/* [in] */ VARIANT_BOOL val);
virtual HRESULT STDMETHODCALLTYPE Boolean_Inverse_InOut(
/* [out][in] */ VARIANT_BOOL *val);
virtual HRESULT STDMETHODCALLTYPE Boolean_Inverse_Ret(
/* [in] */ VARIANT_BOOL val,
/* [retval][out] */ VARIANT_BOOL *ret);
virtual HRESULT STDMETHODCALLTYPE get_SByte_Property(
/* [retval][out] */ signed char *ret);
virtual HRESULT STDMETHODCALLTYPE put_SByte_Property(
/* [in] */ signed char val);
virtual HRESULT STDMETHODCALLTYPE SByte_Doubled_InOut(
/* [out][in] */ signed char *val);
virtual HRESULT STDMETHODCALLTYPE SByte_Doubled_Ret(
/* [in] */ signed char val,
/* [retval][out] */ signed char *ret);
virtual HRESULT STDMETHODCALLTYPE get_Byte_Property(
/* [retval][out] */ unsigned char *ret);
virtual HRESULT STDMETHODCALLTYPE put_Byte_Property(
/* [in] */ unsigned char val);
virtual HRESULT STDMETHODCALLTYPE Byte_Doubled_InOut(
/* [out][in] */ unsigned char *val);
virtual HRESULT STDMETHODCALLTYPE Byte_Doubled_Ret(
/* [in] */ unsigned char val,
/* [retval][out] */ unsigned char *ret);
virtual HRESULT STDMETHODCALLTYPE get_Short_Property(
/* [retval][out] */ short *ret);
virtual HRESULT STDMETHODCALLTYPE put_Short_Property(
/* [in] */ short val);
virtual HRESULT STDMETHODCALLTYPE Short_Doubled_InOut(
/* [out][in] */ short *val);
virtual HRESULT STDMETHODCALLTYPE Short_Doubled_Ret(
/* [in] */ short val,
/* [retval][out] */ short *ret);
virtual HRESULT STDMETHODCALLTYPE get_UShort_Property(
/* [retval][out] */ unsigned short *ret);
virtual HRESULT STDMETHODCALLTYPE put_UShort_Property(
/* [in] */ unsigned short val);
virtual HRESULT STDMETHODCALLTYPE UShort_Doubled_InOut(
/* [out][in] */ unsigned short *val);
virtual HRESULT STDMETHODCALLTYPE UShort_Doubled_Ret(
/* [in] */ unsigned short val,
/* [retval][out] */ unsigned short *ret);
virtual HRESULT STDMETHODCALLTYPE get_Int_Property(
/* [retval][out] */ int *ret);
virtual HRESULT STDMETHODCALLTYPE put_Int_Property(
/* [in] */ int val);
virtual HRESULT STDMETHODCALLTYPE Int_Doubled_InOut(
/* [out][in] */ int *val);
virtual HRESULT STDMETHODCALLTYPE Int_Doubled_Ret(
/* [in] */ int val,
/* [retval][out] */ int *ret);
virtual HRESULT STDMETHODCALLTYPE get_UInt_Property(
/* [retval][out] */ unsigned int *ret);
virtual HRESULT STDMETHODCALLTYPE put_UInt_Property(
/* [in] */ unsigned int val);
virtual HRESULT STDMETHODCALLTYPE UInt_Doubled_InOut(
/* [out][in] */ unsigned int *val);
virtual HRESULT STDMETHODCALLTYPE UInt_Doubled_Ret(
/* [in] */ unsigned int val,
/* [retval][out] */ unsigned int *ret);
virtual HRESULT STDMETHODCALLTYPE get_Int64_Property(
/* [retval][out] */ __int64 *ret);
virtual HRESULT STDMETHODCALLTYPE put_Int64_Property(
/* [in] */ __int64 val);
virtual HRESULT STDMETHODCALLTYPE Int64_Doubled_InOut(
/* [out][in] */ __int64 *val);
virtual HRESULT STDMETHODCALLTYPE Int64_Doubled_Ret(
/* [in] */ __int64 val,
/* [retval][out] */ __int64 *ret);
virtual HRESULT STDMETHODCALLTYPE get_UInt64_Property(
/* [retval][out] */ unsigned __int64 *ret);
virtual HRESULT STDMETHODCALLTYPE put_UInt64_Property(
/* [in] */ unsigned __int64 val);
virtual HRESULT STDMETHODCALLTYPE UInt64_Doubled_InOut(
/* [out][in] */ unsigned __int64 *val);
virtual HRESULT STDMETHODCALLTYPE UInt64_Doubled_Ret(
/* [in] */ unsigned __int64 val,
/* [retval][out] */ unsigned __int64 *ret);
virtual HRESULT STDMETHODCALLTYPE get_Float_Property(
/* [retval][out] */ float *ret);
virtual HRESULT STDMETHODCALLTYPE put_Float_Property(
/* [in] */ float val);
virtual HRESULT STDMETHODCALLTYPE Float_Ceil_InOut(
/* [out][in] */ float *val);
virtual HRESULT STDMETHODCALLTYPE Float_Ceil_Ret(
/* [in] */ float val,
/* [retval][out] */ float *ret);
virtual HRESULT STDMETHODCALLTYPE get_Double_Property(
/* [retval][out] */ double *ret);
virtual HRESULT STDMETHODCALLTYPE put_Double_Property(
/* [in] */ double val);
virtual HRESULT STDMETHODCALLTYPE Double_Ceil_InOut(
/* [out][in] */ double *val);
virtual HRESULT STDMETHODCALLTYPE Double_Ceil_Ret(
/* [in] */ double val,
/* [retval][out] */ double *ret);
virtual HRESULT STDMETHODCALLTYPE get_String_Property(
/* [retval][out] */ BSTR *ret);
virtual HRESULT STDMETHODCALLTYPE put_String_Property(
/* [in] */ BSTR val);
virtual HRESULT STDMETHODCALLTYPE String_Reverse_InOut(
/* [out][in] */ BSTR *val);
virtual HRESULT STDMETHODCALLTYPE String_Reverse_Ret(
/* [in] */ BSTR val,
/* [retval][out] */ BSTR *ret);
virtual HRESULT STDMETHODCALLTYPE get_Date_Property(
/* [retval][out] */ DATE *ret);
virtual HRESULT STDMETHODCALLTYPE put_Date_Property(
/* [in] */ DATE val);
virtual HRESULT STDMETHODCALLTYPE Date_AddDay_InOut(
/* [out][in] */ DATE *val);
virtual HRESULT STDMETHODCALLTYPE Date_AddDay_Ret(
/* [in] */ DATE val,
/* [retval][out] */ DATE *ret);
virtual HRESULT STDMETHODCALLTYPE get_Dispatch_Property(
/* [retval][out] */ IDispatch **ret);
virtual HRESULT STDMETHODCALLTYPE put_Dispatch_Property(
/* [in] */ IDispatch *val);
virtual HRESULT STDMETHODCALLTYPE Dispatch_InOut(
/* [out][in] */ IDispatch **val);
virtual HRESULT STDMETHODCALLTYPE Dispatch_Ret(
/* [in] */ IDispatch *val,
/* [retval][out] */ IDispatch **ret);
virtual HRESULT STDMETHODCALLTYPE get_Variant_Property(
/* [retval][out] */ VARIANT *ret);
virtual HRESULT STDMETHODCALLTYPE put_Variant_Property(
/* [in] */ VARIANT val);
virtual HRESULT STDMETHODCALLTYPE Variant_InOut(
/* [out][in] */ VARIANT *val);
virtual HRESULT STDMETHODCALLTYPE Variant_Ret(
/* [in] */ VARIANT val,
/* [retval][out] */ VARIANT *ret);
virtual HRESULT STDMETHODCALLTYPE Fail(
/* [in] */ int errorCode,
/* [in] */ BSTR message);
virtual HRESULT STDMETHODCALLTYPE Throw() { throw std::exception(); }
public: // IDispatch
DEFINE_DISPATCH();
public: // IUnknown
STDMETHOD(QueryInterface)(
/* [in] */ REFIID riid,
/* [iid_is][out] */ _COM_Outptr_ void __RPC_FAR *__RPC_FAR *ppvObject)
{
return DoQueryInterface(riid, ppvObject,
static_cast<IDispatch *>(this),
static_cast<IBasicTest *>(this));
}
DEFINE_REF_COUNTING();
private:
VARIANT_BOOL _boolean;
signed char _sbyte;
unsigned char _byte;
short _short;
unsigned short _ushort;
int _int;
unsigned int _uint;
__int64 _long;
unsigned __int64 _ulong;
float _float;
double _double;
BSTR _string;
DATE _date;
IDispatch *_dispatch;
VARIANT _variant;
};
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
#pragma once
#include <ComHelpers.h>
#include <Contract.h>
#include "DispatchImpl.h"
#include <vector>
class BasicTest : public DispatchImpl, public IBasicTest
{
public:
BasicTest()
: DispatchImpl(IID_IBasicTest, static_cast<IBasicTest*>(this))
, _boolean { VARIANT_FALSE }
, _string { nullptr }
, _dispatch { nullptr }
{
::VariantInit(&_variant);
}
~BasicTest()
{
if (_string != nullptr)
::SysFreeString(_string);
::VariantClear(&_variant);
}
public: // IBasicTest
virtual HRESULT STDMETHODCALLTYPE Default(
/* [in] */ LONG val,
/* [retval][out] */ LONG *ret);
virtual HRESULT STDMETHODCALLTYPE get_Boolean_Property(
/* [retval][out] */ VARIANT_BOOL *ret);
virtual HRESULT STDMETHODCALLTYPE put_Boolean_Property(
/* [in] */ VARIANT_BOOL val);
virtual HRESULT STDMETHODCALLTYPE Boolean_Inverse_InOut(
/* [out][in] */ VARIANT_BOOL *val);
virtual HRESULT STDMETHODCALLTYPE Boolean_Inverse_Ret(
/* [in] */ VARIANT_BOOL val,
/* [retval][out] */ VARIANT_BOOL *ret);
virtual HRESULT STDMETHODCALLTYPE get_SByte_Property(
/* [retval][out] */ signed char *ret);
virtual HRESULT STDMETHODCALLTYPE put_SByte_Property(
/* [in] */ signed char val);
virtual HRESULT STDMETHODCALLTYPE SByte_Doubled_InOut(
/* [out][in] */ signed char *val);
virtual HRESULT STDMETHODCALLTYPE SByte_Doubled_Ret(
/* [in] */ signed char val,
/* [retval][out] */ signed char *ret);
virtual HRESULT STDMETHODCALLTYPE get_Byte_Property(
/* [retval][out] */ unsigned char *ret);
virtual HRESULT STDMETHODCALLTYPE put_Byte_Property(
/* [in] */ unsigned char val);
virtual HRESULT STDMETHODCALLTYPE Byte_Doubled_InOut(
/* [out][in] */ unsigned char *val);
virtual HRESULT STDMETHODCALLTYPE Byte_Doubled_Ret(
/* [in] */ unsigned char val,
/* [retval][out] */ unsigned char *ret);
virtual HRESULT STDMETHODCALLTYPE get_Short_Property(
/* [retval][out] */ short *ret);
virtual HRESULT STDMETHODCALLTYPE put_Short_Property(
/* [in] */ short val);
virtual HRESULT STDMETHODCALLTYPE Short_Doubled_InOut(
/* [out][in] */ short *val);
virtual HRESULT STDMETHODCALLTYPE Short_Doubled_Ret(
/* [in] */ short val,
/* [retval][out] */ short *ret);
virtual HRESULT STDMETHODCALLTYPE get_UShort_Property(
/* [retval][out] */ unsigned short *ret);
virtual HRESULT STDMETHODCALLTYPE put_UShort_Property(
/* [in] */ unsigned short val);
virtual HRESULT STDMETHODCALLTYPE UShort_Doubled_InOut(
/* [out][in] */ unsigned short *val);
virtual HRESULT STDMETHODCALLTYPE UShort_Doubled_Ret(
/* [in] */ unsigned short val,
/* [retval][out] */ unsigned short *ret);
virtual HRESULT STDMETHODCALLTYPE get_Int_Property(
/* [retval][out] */ int *ret);
virtual HRESULT STDMETHODCALLTYPE put_Int_Property(
/* [in] */ int val);
virtual HRESULT STDMETHODCALLTYPE Int_Doubled_InOut(
/* [out][in] */ int *val);
virtual HRESULT STDMETHODCALLTYPE Int_Doubled_Ret(
/* [in] */ int val,
/* [retval][out] */ int *ret);
virtual HRESULT STDMETHODCALLTYPE get_UInt_Property(
/* [retval][out] */ unsigned int *ret);
virtual HRESULT STDMETHODCALLTYPE put_UInt_Property(
/* [in] */ unsigned int val);
virtual HRESULT STDMETHODCALLTYPE UInt_Doubled_InOut(
/* [out][in] */ unsigned int *val);
virtual HRESULT STDMETHODCALLTYPE UInt_Doubled_Ret(
/* [in] */ unsigned int val,
/* [retval][out] */ unsigned int *ret);
virtual HRESULT STDMETHODCALLTYPE get_Int64_Property(
/* [retval][out] */ __int64 *ret);
virtual HRESULT STDMETHODCALLTYPE put_Int64_Property(
/* [in] */ __int64 val);
virtual HRESULT STDMETHODCALLTYPE Int64_Doubled_InOut(
/* [out][in] */ __int64 *val);
virtual HRESULT STDMETHODCALLTYPE Int64_Doubled_Ret(
/* [in] */ __int64 val,
/* [retval][out] */ __int64 *ret);
virtual HRESULT STDMETHODCALLTYPE get_UInt64_Property(
/* [retval][out] */ unsigned __int64 *ret);
virtual HRESULT STDMETHODCALLTYPE put_UInt64_Property(
/* [in] */ unsigned __int64 val);
virtual HRESULT STDMETHODCALLTYPE UInt64_Doubled_InOut(
/* [out][in] */ unsigned __int64 *val);
virtual HRESULT STDMETHODCALLTYPE UInt64_Doubled_Ret(
/* [in] */ unsigned __int64 val,
/* [retval][out] */ unsigned __int64 *ret);
virtual HRESULT STDMETHODCALLTYPE get_Float_Property(
/* [retval][out] */ float *ret);
virtual HRESULT STDMETHODCALLTYPE put_Float_Property(
/* [in] */ float val);
virtual HRESULT STDMETHODCALLTYPE Float_Ceil_InOut(
/* [out][in] */ float *val);
virtual HRESULT STDMETHODCALLTYPE Float_Ceil_Ret(
/* [in] */ float val,
/* [retval][out] */ float *ret);
virtual HRESULT STDMETHODCALLTYPE get_Double_Property(
/* [retval][out] */ double *ret);
virtual HRESULT STDMETHODCALLTYPE put_Double_Property(
/* [in] */ double val);
virtual HRESULT STDMETHODCALLTYPE Double_Ceil_InOut(
/* [out][in] */ double *val);
virtual HRESULT STDMETHODCALLTYPE Double_Ceil_Ret(
/* [in] */ double val,
/* [retval][out] */ double *ret);
virtual HRESULT STDMETHODCALLTYPE get_String_Property(
/* [retval][out] */ BSTR *ret);
virtual HRESULT STDMETHODCALLTYPE put_String_Property(
/* [in] */ BSTR val);
virtual HRESULT STDMETHODCALLTYPE String_Reverse_InOut(
/* [out][in] */ BSTR *val);
virtual HRESULT STDMETHODCALLTYPE String_Reverse_Ret(
/* [in] */ BSTR val,
/* [retval][out] */ BSTR *ret);
virtual HRESULT STDMETHODCALLTYPE get_Date_Property(
/* [retval][out] */ DATE *ret);
virtual HRESULT STDMETHODCALLTYPE put_Date_Property(
/* [in] */ DATE val);
virtual HRESULT STDMETHODCALLTYPE Date_AddDay_InOut(
/* [out][in] */ DATE *val);
virtual HRESULT STDMETHODCALLTYPE Date_AddDay_Ret(
/* [in] */ DATE val,
/* [retval][out] */ DATE *ret);
virtual HRESULT STDMETHODCALLTYPE get_Dispatch_Property(
/* [retval][out] */ IDispatch **ret);
virtual HRESULT STDMETHODCALLTYPE put_Dispatch_Property(
/* [in] */ IDispatch *val);
virtual HRESULT STDMETHODCALLTYPE Dispatch_InOut(
/* [out][in] */ IDispatch **val);
virtual HRESULT STDMETHODCALLTYPE Dispatch_Ret(
/* [in] */ IDispatch *val,
/* [retval][out] */ IDispatch **ret);
virtual HRESULT STDMETHODCALLTYPE get_Variant_Property(
/* [retval][out] */ VARIANT *ret);
virtual HRESULT STDMETHODCALLTYPE put_Variant_Property(
/* [in] */ VARIANT val);
virtual HRESULT STDMETHODCALLTYPE Variant_InOut(
/* [out][in] */ VARIANT *val);
virtual HRESULT STDMETHODCALLTYPE Variant_Ret(
/* [in] */ VARIANT val,
/* [retval][out] */ VARIANT *ret);
virtual HRESULT STDMETHODCALLTYPE Fail(
/* [in] */ int errorCode,
/* [in] */ BSTR message);
virtual HRESULT STDMETHODCALLTYPE Throw() { throw std::exception(); }
public: // IDispatch
DEFINE_DISPATCH();
public: // IUnknown
STDMETHOD(QueryInterface)(
/* [in] */ REFIID riid,
/* [iid_is][out] */ _COM_Outptr_ void __RPC_FAR *__RPC_FAR *ppvObject)
{
return DoQueryInterface(riid, ppvObject,
static_cast<IDispatch *>(this),
static_cast<IBasicTest *>(this));
}
DEFINE_REF_COUNTING();
private:
VARIANT_BOOL _boolean;
signed char _sbyte;
unsigned char _byte;
short _short;
unsigned short _ushort;
int _int;
unsigned int _uint;
__int64 _long;
unsigned __int64 _ulong;
float _float;
double _double;
BSTR _string;
DATE _date;
IDispatch *_dispatch;
VARIANT _variant;
};
| -1 |
dotnet/runtime
| 66,398 |
Reenable compiler warning 4244 under coreclr/
|
Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
AaronRobinsonMSFT
| 2022-03-09T15:46:00Z | 2022-03-10T01:12:51Z |
763936ed098deaa1588935f17d7cc0a07c27c3fa
|
b71eba8b3a74fa6282dc1526e68abbd26f3e385f
|
Reenable compiler warning 4244 under coreclr/. Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
./src/coreclr/utilcode/CMakeLists.txt
|
set(CMAKE_INCLUDE_CURRENT_DIR ON)
set(UTILCODE_COMMON_SOURCES
clrhost_nodependencies.cpp
ccomprc.cpp
ex.cpp
sbuffer.cpp
sstring_com.cpp
fstring.cpp
namespaceutil.cpp
makepath.cpp
splitpath.cpp
clrconfig.cpp
configuration.cpp
collections.cpp
posterror.cpp
fstream.cpp
clrhelpers.cpp
stgpool.cpp
stgpooli.cpp
stgpoolreadonly.cpp
utsem.cpp
check.cpp
log.cpp
arraylist.cpp
bitvector.cpp
comex.cpp
guidfromname.cpp
memorypool.cpp
iallocator.cpp
loaderheap.cpp
outstring.cpp
ilformatter.cpp
opinfo.cpp
corimage.cpp
format1.cpp
prettyprintsig.cpp
sha1.cpp
sigbuilder.cpp
sigparser.cpp
sstring.cpp
util_nodependencies.cpp
utilmessagebox.cpp
safewrap.cpp
clrhost.cpp
cycletimer.cpp
md5.cpp
util.cpp
stresslog.cpp
debug.cpp
pedecoder.cpp
winfix.cpp
longfilepathwrappers.cpp
yieldprocessornormalized.cpp
)
# These source file do not yet compile on Linux.
# They should be moved out from here into the declaration
# of UTILCODE_SOURCES above after fixing compiler errors.
if(CLR_CMAKE_TARGET_WIN32)
list(APPEND UTILCODE_COMMON_SOURCES
dacutil.cpp
dlwrap.cpp
securitywrapper.cpp
securityutil.cpp
stacktrace.cpp
)
endif(CLR_CMAKE_TARGET_WIN32)
set(UTILCODE_SOURCES
${UTILCODE_COMMON_SOURCES}
executableallocator.cpp
)
set(UTILCODE_DAC_SOURCES
${UTILCODE_COMMON_SOURCES}
hostimpl.cpp
)
set(UTILCODE_STATICNOHOST_SOURCES
${UTILCODE_COMMON_SOURCES}
hostimpl.cpp
)
set (UTILCODE_DEPENDENCIES eventing_headers)
convert_to_absolute_path(UTILCODE_SOURCES ${UTILCODE_SOURCES})
convert_to_absolute_path(UTILCODE_DAC_SOURCES ${UTILCODE_DAC_SOURCES})
convert_to_absolute_path(UTILCODE_STATICNOHOST_SOURCES ${UTILCODE_STATICNOHOST_SOURCES})
add_library_clr(utilcode_dac STATIC ${UTILCODE_DAC_SOURCES})
add_library_clr(utilcode_obj OBJECT ${UTILCODE_SOURCES})
add_library(utilcode INTERFACE)
target_sources(utilcode INTERFACE $<TARGET_OBJECTS:utilcode_obj>)
add_library_clr(utilcodestaticnohost STATIC ${UTILCODE_STATICNOHOST_SOURCES})
if(CLR_CMAKE_HOST_UNIX)
target_link_libraries(utilcodestaticnohost nativeresourcestring)
target_link_libraries(utilcode_dac nativeresourcestring)
target_link_libraries(utilcode INTERFACE nativeresourcestring)
add_dependencies(utilcode_dac coreclrpal)
add_dependencies(utilcode_obj coreclrpal)
endif(CLR_CMAKE_HOST_UNIX)
if(CLR_CMAKE_HOST_WIN32)
target_compile_definitions(utilcodestaticnohost PRIVATE _CRTIMP=) # use static version of crt
link_natvis_sources_for_target(utilcodestaticnohost INTERFACE utilcode.natvis)
link_natvis_sources_for_target(utilcode_dac INTERFACE utilcode.natvis)
link_natvis_sources_for_target(utilcode INTERFACE utilcode.natvis)
endif(CLR_CMAKE_HOST_WIN32)
set_target_properties(utilcode_dac PROPERTIES DAC_COMPONENT TRUE)
target_compile_definitions(utilcode_dac PRIVATE SELF_NO_HOST)
target_compile_definitions(utilcodestaticnohost PRIVATE SELF_NO_HOST)
add_dependencies(utilcode_dac ${UTILCODE_DEPENDENCIES})
add_dependencies(utilcode_obj ${UTILCODE_DEPENDENCIES})
add_dependencies(utilcodestaticnohost ${UTILCODE_DEPENDENCIES})
target_precompile_headers(utilcode_dac PRIVATE [["stdafx.h"]])
target_precompile_headers(utilcode_obj PRIVATE [["stdafx.h"]])
target_precompile_headers(utilcodestaticnohost PRIVATE [["stdafx.h"]])
|
set(CMAKE_INCLUDE_CURRENT_DIR ON)
set(UTILCODE_COMMON_SOURCES
clrhost_nodependencies.cpp
ccomprc.cpp
ex.cpp
sbuffer.cpp
sstring_com.cpp
fstring.cpp
namespaceutil.cpp
makepath.cpp
splitpath.cpp
clrconfig.cpp
configuration.cpp
collections.cpp
posterror.cpp
fstream.cpp
clrhelpers.cpp
stgpool.cpp
stgpooli.cpp
stgpoolreadonly.cpp
utsem.cpp
check.cpp
log.cpp
arraylist.cpp
bitvector.cpp
comex.cpp
guidfromname.cpp
memorypool.cpp
iallocator.cpp
loaderheap.cpp
outstring.cpp
ilformatter.cpp
opinfo.cpp
corimage.cpp
format1.cpp
prettyprintsig.cpp
sha1.cpp
sigbuilder.cpp
sigparser.cpp
sstring.cpp
util_nodependencies.cpp
utilmessagebox.cpp
safewrap.cpp
clrhost.cpp
cycletimer.cpp
md5.cpp
util.cpp
stresslog.cpp
debug.cpp
pedecoder.cpp
winfix.cpp
longfilepathwrappers.cpp
yieldprocessornormalized.cpp
)
# These source file do not yet compile on Linux.
# They should be moved out from here into the declaration
# of UTILCODE_SOURCES above after fixing compiler errors.
if(CLR_CMAKE_TARGET_WIN32)
list(APPEND UTILCODE_COMMON_SOURCES
dacutil.cpp
dlwrap.cpp
securitywrapper.cpp
securityutil.cpp
stacktrace.cpp
)
endif(CLR_CMAKE_TARGET_WIN32)
set(UTILCODE_SOURCES
${UTILCODE_COMMON_SOURCES}
executableallocator.cpp
)
set(UTILCODE_DAC_SOURCES
${UTILCODE_COMMON_SOURCES}
hostimpl.cpp
)
set(UTILCODE_STATICNOHOST_SOURCES
${UTILCODE_COMMON_SOURCES}
hostimpl.cpp
)
set (UTILCODE_DEPENDENCIES eventing_headers)
convert_to_absolute_path(UTILCODE_SOURCES ${UTILCODE_SOURCES})
convert_to_absolute_path(UTILCODE_DAC_SOURCES ${UTILCODE_DAC_SOURCES})
convert_to_absolute_path(UTILCODE_STATICNOHOST_SOURCES ${UTILCODE_STATICNOHOST_SOURCES})
add_library_clr(utilcode_dac STATIC ${UTILCODE_DAC_SOURCES})
add_library_clr(utilcode_obj OBJECT ${UTILCODE_SOURCES})
add_library(utilcode INTERFACE)
target_sources(utilcode INTERFACE $<TARGET_OBJECTS:utilcode_obj>)
add_library_clr(utilcodestaticnohost STATIC ${UTILCODE_STATICNOHOST_SOURCES})
if(CLR_CMAKE_HOST_UNIX)
target_link_libraries(utilcodestaticnohost nativeresourcestring)
target_link_libraries(utilcode_dac nativeresourcestring)
target_link_libraries(utilcode INTERFACE nativeresourcestring)
add_dependencies(utilcode_dac coreclrpal)
add_dependencies(utilcode_obj coreclrpal)
endif(CLR_CMAKE_HOST_UNIX)
if(CLR_CMAKE_HOST_WIN32)
target_compile_definitions(utilcodestaticnohost PRIVATE _CRTIMP=) # use static version of crt
link_natvis_sources_for_target(utilcodestaticnohost INTERFACE utilcode.natvis)
link_natvis_sources_for_target(utilcode_dac INTERFACE utilcode.natvis)
link_natvis_sources_for_target(utilcode INTERFACE utilcode.natvis)
endif(CLR_CMAKE_HOST_WIN32)
set_target_properties(utilcode_dac PROPERTIES DAC_COMPONENT TRUE)
target_compile_definitions(utilcode_dac PRIVATE SELF_NO_HOST)
target_compile_definitions(utilcodestaticnohost PRIVATE SELF_NO_HOST)
add_dependencies(utilcode_dac ${UTILCODE_DEPENDENCIES})
add_dependencies(utilcode_obj ${UTILCODE_DEPENDENCIES})
add_dependencies(utilcodestaticnohost ${UTILCODE_DEPENDENCIES})
target_precompile_headers(utilcode_dac PRIVATE [["stdafx.h"]])
target_precompile_headers(utilcode_obj PRIVATE [["stdafx.h"]])
target_precompile_headers(utilcodestaticnohost PRIVATE [["stdafx.h"]])
| -1 |
dotnet/runtime
| 66,398 |
Reenable compiler warning 4244 under coreclr/
|
Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
AaronRobinsonMSFT
| 2022-03-09T15:46:00Z | 2022-03-10T01:12:51Z |
763936ed098deaa1588935f17d7cc0a07c27c3fa
|
b71eba8b3a74fa6282dc1526e68abbd26f3e385f
|
Reenable compiler warning 4244 under coreclr/. Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
./src/tests/JIT/HardwareIntrinsics/X86/Sse2/UnpackLow.UInt32.cs
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
/******************************************************************************
* This file is auto-generated from a template file by the GenerateTests.csx *
* script in tests\src\JIT\HardwareIntrinsics\X86\Shared. In order to make *
* changes, please update the corresponding template and run according to the *
* directions listed in the file. *
******************************************************************************/
using System;
using System.Runtime.CompilerServices;
using System.Runtime.InteropServices;
using System.Runtime.Intrinsics;
using System.Runtime.Intrinsics.X86;
namespace JIT.HardwareIntrinsics.X86
{
public static partial class Program
{
private static void UnpackLowUInt32()
{
var test = new SimpleBinaryOpTest__UnpackLowUInt32();
if (test.IsSupported)
{
// Validates basic functionality works, using Unsafe.Read
test.RunBasicScenario_UnsafeRead();
if (Sse2.IsSupported)
{
// Validates basic functionality works, using Load
test.RunBasicScenario_Load();
// Validates basic functionality works, using LoadAligned
test.RunBasicScenario_LoadAligned();
}
// Validates calling via reflection works, using Unsafe.Read
test.RunReflectionScenario_UnsafeRead();
if (Sse2.IsSupported)
{
// Validates calling via reflection works, using Load
test.RunReflectionScenario_Load();
// Validates calling via reflection works, using LoadAligned
test.RunReflectionScenario_LoadAligned();
}
// Validates passing a static member works
test.RunClsVarScenario();
if (Sse2.IsSupported)
{
// Validates passing a static member works, using pinning and Load
test.RunClsVarScenario_Load();
}
// Validates passing a local works, using Unsafe.Read
test.RunLclVarScenario_UnsafeRead();
if (Sse2.IsSupported)
{
// Validates passing a local works, using Load
test.RunLclVarScenario_Load();
// Validates passing a local works, using LoadAligned
test.RunLclVarScenario_LoadAligned();
}
// Validates passing the field of a local class works
test.RunClassLclFldScenario();
if (Sse2.IsSupported)
{
// Validates passing the field of a local class works, using pinning and Load
test.RunClassLclFldScenario_Load();
}
// Validates passing an instance member of a class works
test.RunClassFldScenario();
if (Sse2.IsSupported)
{
// Validates passing an instance member of a class works, using pinning and Load
test.RunClassFldScenario_Load();
}
// Validates passing the field of a local struct works
test.RunStructLclFldScenario();
if (Sse2.IsSupported)
{
// Validates passing the field of a local struct works, using pinning and Load
test.RunStructLclFldScenario_Load();
}
// Validates passing an instance member of a struct works
test.RunStructFldScenario();
if (Sse2.IsSupported)
{
// Validates passing an instance member of a struct works, using pinning and Load
test.RunStructFldScenario_Load();
}
}
else
{
// Validates we throw on unsupported hardware
test.RunUnsupportedScenario();
}
if (!test.Succeeded)
{
throw new Exception("One or more scenarios did not complete as expected.");
}
}
}
public sealed unsafe class SimpleBinaryOpTest__UnpackLowUInt32
{
private struct DataTable
{
private byte[] inArray1;
private byte[] inArray2;
private byte[] outArray;
private GCHandle inHandle1;
private GCHandle inHandle2;
private GCHandle outHandle;
private ulong alignment;
public DataTable(UInt32[] inArray1, UInt32[] inArray2, UInt32[] outArray, int alignment)
{
int sizeOfinArray1 = inArray1.Length * Unsafe.SizeOf<UInt32>();
int sizeOfinArray2 = inArray2.Length * Unsafe.SizeOf<UInt32>();
int sizeOfoutArray = outArray.Length * Unsafe.SizeOf<UInt32>();
if ((alignment != 32 && alignment != 16) || (alignment * 2) < sizeOfinArray1 || (alignment * 2) < sizeOfinArray2 || (alignment * 2) < sizeOfoutArray)
{
throw new ArgumentException("Invalid value of alignment");
}
this.inArray1 = new byte[alignment * 2];
this.inArray2 = new byte[alignment * 2];
this.outArray = new byte[alignment * 2];
this.inHandle1 = GCHandle.Alloc(this.inArray1, GCHandleType.Pinned);
this.inHandle2 = GCHandle.Alloc(this.inArray2, GCHandleType.Pinned);
this.outHandle = GCHandle.Alloc(this.outArray, GCHandleType.Pinned);
this.alignment = (ulong)alignment;
Unsafe.CopyBlockUnaligned(ref Unsafe.AsRef<byte>(inArray1Ptr), ref Unsafe.As<UInt32, byte>(ref inArray1[0]), (uint)sizeOfinArray1);
Unsafe.CopyBlockUnaligned(ref Unsafe.AsRef<byte>(inArray2Ptr), ref Unsafe.As<UInt32, byte>(ref inArray2[0]), (uint)sizeOfinArray2);
}
public void* inArray1Ptr => Align((byte*)(inHandle1.AddrOfPinnedObject().ToPointer()), alignment);
public void* inArray2Ptr => Align((byte*)(inHandle2.AddrOfPinnedObject().ToPointer()), alignment);
public void* outArrayPtr => Align((byte*)(outHandle.AddrOfPinnedObject().ToPointer()), alignment);
public void Dispose()
{
inHandle1.Free();
inHandle2.Free();
outHandle.Free();
}
private static unsafe void* Align(byte* buffer, ulong expectedAlignment)
{
return (void*)(((ulong)buffer + expectedAlignment - 1) & ~(expectedAlignment - 1));
}
}
private struct TestStruct
{
public Vector128<UInt32> _fld1;
public Vector128<UInt32> _fld2;
public static TestStruct Create()
{
var testStruct = new TestStruct();
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetUInt32(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<UInt32>, byte>(ref testStruct._fld1), ref Unsafe.As<UInt32, byte>(ref _data1[0]), (uint)Unsafe.SizeOf<Vector128<UInt32>>());
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetUInt32(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<UInt32>, byte>(ref testStruct._fld2), ref Unsafe.As<UInt32, byte>(ref _data2[0]), (uint)Unsafe.SizeOf<Vector128<UInt32>>());
return testStruct;
}
public void RunStructFldScenario(SimpleBinaryOpTest__UnpackLowUInt32 testClass)
{
var result = Sse2.UnpackLow(_fld1, _fld2);
Unsafe.Write(testClass._dataTable.outArrayPtr, result);
testClass.ValidateResult(_fld1, _fld2, testClass._dataTable.outArrayPtr);
}
public void RunStructFldScenario_Load(SimpleBinaryOpTest__UnpackLowUInt32 testClass)
{
fixed (Vector128<UInt32>* pFld1 = &_fld1)
fixed (Vector128<UInt32>* pFld2 = &_fld2)
{
var result = Sse2.UnpackLow(
Sse2.LoadVector128((UInt32*)(pFld1)),
Sse2.LoadVector128((UInt32*)(pFld2))
);
Unsafe.Write(testClass._dataTable.outArrayPtr, result);
testClass.ValidateResult(_fld1, _fld2, testClass._dataTable.outArrayPtr);
}
}
}
private static readonly int LargestVectorSize = 16;
private static readonly int Op1ElementCount = Unsafe.SizeOf<Vector128<UInt32>>() / sizeof(UInt32);
private static readonly int Op2ElementCount = Unsafe.SizeOf<Vector128<UInt32>>() / sizeof(UInt32);
private static readonly int RetElementCount = Unsafe.SizeOf<Vector128<UInt32>>() / sizeof(UInt32);
private static UInt32[] _data1 = new UInt32[Op1ElementCount];
private static UInt32[] _data2 = new UInt32[Op2ElementCount];
private static Vector128<UInt32> _clsVar1;
private static Vector128<UInt32> _clsVar2;
private Vector128<UInt32> _fld1;
private Vector128<UInt32> _fld2;
private DataTable _dataTable;
static SimpleBinaryOpTest__UnpackLowUInt32()
{
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetUInt32(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<UInt32>, byte>(ref _clsVar1), ref Unsafe.As<UInt32, byte>(ref _data1[0]), (uint)Unsafe.SizeOf<Vector128<UInt32>>());
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetUInt32(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<UInt32>, byte>(ref _clsVar2), ref Unsafe.As<UInt32, byte>(ref _data2[0]), (uint)Unsafe.SizeOf<Vector128<UInt32>>());
}
public SimpleBinaryOpTest__UnpackLowUInt32()
{
Succeeded = true;
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetUInt32(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<UInt32>, byte>(ref _fld1), ref Unsafe.As<UInt32, byte>(ref _data1[0]), (uint)Unsafe.SizeOf<Vector128<UInt32>>());
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetUInt32(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<UInt32>, byte>(ref _fld2), ref Unsafe.As<UInt32, byte>(ref _data2[0]), (uint)Unsafe.SizeOf<Vector128<UInt32>>());
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetUInt32(); }
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetUInt32(); }
_dataTable = new DataTable(_data1, _data2, new UInt32[RetElementCount], LargestVectorSize);
}
public bool IsSupported => Sse2.IsSupported;
public bool Succeeded { get; set; }
public void RunBasicScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunBasicScenario_UnsafeRead));
var result = Sse2.UnpackLow(
Unsafe.Read<Vector128<UInt32>>(_dataTable.inArray1Ptr),
Unsafe.Read<Vector128<UInt32>>(_dataTable.inArray2Ptr)
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunBasicScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunBasicScenario_Load));
var result = Sse2.UnpackLow(
Sse2.LoadVector128((UInt32*)(_dataTable.inArray1Ptr)),
Sse2.LoadVector128((UInt32*)(_dataTable.inArray2Ptr))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunBasicScenario_LoadAligned()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunBasicScenario_LoadAligned));
var result = Sse2.UnpackLow(
Sse2.LoadAlignedVector128((UInt32*)(_dataTable.inArray1Ptr)),
Sse2.LoadAlignedVector128((UInt32*)(_dataTable.inArray2Ptr))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunReflectionScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunReflectionScenario_UnsafeRead));
var result = typeof(Sse2).GetMethod(nameof(Sse2.UnpackLow), new Type[] { typeof(Vector128<UInt32>), typeof(Vector128<UInt32>) })
.Invoke(null, new object[] {
Unsafe.Read<Vector128<UInt32>>(_dataTable.inArray1Ptr),
Unsafe.Read<Vector128<UInt32>>(_dataTable.inArray2Ptr)
});
Unsafe.Write(_dataTable.outArrayPtr, (Vector128<UInt32>)(result));
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunReflectionScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunReflectionScenario_Load));
var result = typeof(Sse2).GetMethod(nameof(Sse2.UnpackLow), new Type[] { typeof(Vector128<UInt32>), typeof(Vector128<UInt32>) })
.Invoke(null, new object[] {
Sse2.LoadVector128((UInt32*)(_dataTable.inArray1Ptr)),
Sse2.LoadVector128((UInt32*)(_dataTable.inArray2Ptr))
});
Unsafe.Write(_dataTable.outArrayPtr, (Vector128<UInt32>)(result));
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunReflectionScenario_LoadAligned()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunReflectionScenario_LoadAligned));
var result = typeof(Sse2).GetMethod(nameof(Sse2.UnpackLow), new Type[] { typeof(Vector128<UInt32>), typeof(Vector128<UInt32>) })
.Invoke(null, new object[] {
Sse2.LoadAlignedVector128((UInt32*)(_dataTable.inArray1Ptr)),
Sse2.LoadAlignedVector128((UInt32*)(_dataTable.inArray2Ptr))
});
Unsafe.Write(_dataTable.outArrayPtr, (Vector128<UInt32>)(result));
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunClsVarScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClsVarScenario));
var result = Sse2.UnpackLow(
_clsVar1,
_clsVar2
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_clsVar1, _clsVar2, _dataTable.outArrayPtr);
}
public void RunClsVarScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClsVarScenario_Load));
fixed (Vector128<UInt32>* pClsVar1 = &_clsVar1)
fixed (Vector128<UInt32>* pClsVar2 = &_clsVar2)
{
var result = Sse2.UnpackLow(
Sse2.LoadVector128((UInt32*)(pClsVar1)),
Sse2.LoadVector128((UInt32*)(pClsVar2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_clsVar1, _clsVar2, _dataTable.outArrayPtr);
}
}
public void RunLclVarScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunLclVarScenario_UnsafeRead));
var op1 = Unsafe.Read<Vector128<UInt32>>(_dataTable.inArray1Ptr);
var op2 = Unsafe.Read<Vector128<UInt32>>(_dataTable.inArray2Ptr);
var result = Sse2.UnpackLow(op1, op2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(op1, op2, _dataTable.outArrayPtr);
}
public void RunLclVarScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunLclVarScenario_Load));
var op1 = Sse2.LoadVector128((UInt32*)(_dataTable.inArray1Ptr));
var op2 = Sse2.LoadVector128((UInt32*)(_dataTable.inArray2Ptr));
var result = Sse2.UnpackLow(op1, op2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(op1, op2, _dataTable.outArrayPtr);
}
public void RunLclVarScenario_LoadAligned()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunLclVarScenario_LoadAligned));
var op1 = Sse2.LoadAlignedVector128((UInt32*)(_dataTable.inArray1Ptr));
var op2 = Sse2.LoadAlignedVector128((UInt32*)(_dataTable.inArray2Ptr));
var result = Sse2.UnpackLow(op1, op2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(op1, op2, _dataTable.outArrayPtr);
}
public void RunClassLclFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassLclFldScenario));
var test = new SimpleBinaryOpTest__UnpackLowUInt32();
var result = Sse2.UnpackLow(test._fld1, test._fld2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
public void RunClassLclFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassLclFldScenario_Load));
var test = new SimpleBinaryOpTest__UnpackLowUInt32();
fixed (Vector128<UInt32>* pFld1 = &test._fld1)
fixed (Vector128<UInt32>* pFld2 = &test._fld2)
{
var result = Sse2.UnpackLow(
Sse2.LoadVector128((UInt32*)(pFld1)),
Sse2.LoadVector128((UInt32*)(pFld2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
}
public void RunClassFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassFldScenario));
var result = Sse2.UnpackLow(_fld1, _fld2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_fld1, _fld2, _dataTable.outArrayPtr);
}
public void RunClassFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassFldScenario_Load));
fixed (Vector128<UInt32>* pFld1 = &_fld1)
fixed (Vector128<UInt32>* pFld2 = &_fld2)
{
var result = Sse2.UnpackLow(
Sse2.LoadVector128((UInt32*)(pFld1)),
Sse2.LoadVector128((UInt32*)(pFld2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_fld1, _fld2, _dataTable.outArrayPtr);
}
}
public void RunStructLclFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructLclFldScenario));
var test = TestStruct.Create();
var result = Sse2.UnpackLow(test._fld1, test._fld2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
public void RunStructLclFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructLclFldScenario_Load));
var test = TestStruct.Create();
var result = Sse2.UnpackLow(
Sse2.LoadVector128((UInt32*)(&test._fld1)),
Sse2.LoadVector128((UInt32*)(&test._fld2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
public void RunStructFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructFldScenario));
var test = TestStruct.Create();
test.RunStructFldScenario(this);
}
public void RunStructFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructFldScenario_Load));
var test = TestStruct.Create();
test.RunStructFldScenario_Load(this);
}
public void RunUnsupportedScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunUnsupportedScenario));
bool succeeded = false;
try
{
RunBasicScenario_UnsafeRead();
}
catch (PlatformNotSupportedException)
{
succeeded = true;
}
if (!succeeded)
{
Succeeded = false;
}
}
private void ValidateResult(Vector128<UInt32> op1, Vector128<UInt32> op2, void* result, [CallerMemberName] string method = "")
{
UInt32[] inArray1 = new UInt32[Op1ElementCount];
UInt32[] inArray2 = new UInt32[Op2ElementCount];
UInt32[] outArray = new UInt32[RetElementCount];
Unsafe.WriteUnaligned(ref Unsafe.As<UInt32, byte>(ref inArray1[0]), op1);
Unsafe.WriteUnaligned(ref Unsafe.As<UInt32, byte>(ref inArray2[0]), op2);
Unsafe.CopyBlockUnaligned(ref Unsafe.As<UInt32, byte>(ref outArray[0]), ref Unsafe.AsRef<byte>(result), (uint)Unsafe.SizeOf<Vector128<UInt32>>());
ValidateResult(inArray1, inArray2, outArray, method);
}
private void ValidateResult(void* op1, void* op2, void* result, [CallerMemberName] string method = "")
{
UInt32[] inArray1 = new UInt32[Op1ElementCount];
UInt32[] inArray2 = new UInt32[Op2ElementCount];
UInt32[] outArray = new UInt32[RetElementCount];
Unsafe.CopyBlockUnaligned(ref Unsafe.As<UInt32, byte>(ref inArray1[0]), ref Unsafe.AsRef<byte>(op1), (uint)Unsafe.SizeOf<Vector128<UInt32>>());
Unsafe.CopyBlockUnaligned(ref Unsafe.As<UInt32, byte>(ref inArray2[0]), ref Unsafe.AsRef<byte>(op2), (uint)Unsafe.SizeOf<Vector128<UInt32>>());
Unsafe.CopyBlockUnaligned(ref Unsafe.As<UInt32, byte>(ref outArray[0]), ref Unsafe.AsRef<byte>(result), (uint)Unsafe.SizeOf<Vector128<UInt32>>());
ValidateResult(inArray1, inArray2, outArray, method);
}
private void ValidateResult(UInt32[] left, UInt32[] right, UInt32[] result, [CallerMemberName] string method = "")
{
bool succeeded = true;
if (result[0] != left[0])
{
succeeded = false;
}
else
{
for (var i = 1; i < RetElementCount; i++)
{
if ((i % 2 == 0) ? result[i] != left[i/2] : result[i] != right[(i - 1)/2])
{
succeeded = false;
break;
}
}
}
if (!succeeded)
{
TestLibrary.TestFramework.LogInformation($"{nameof(Sse2)}.{nameof(Sse2.UnpackLow)}<UInt32>(Vector128<UInt32>, Vector128<UInt32>): {method} failed:");
TestLibrary.TestFramework.LogInformation($" left: ({string.Join(", ", left)})");
TestLibrary.TestFramework.LogInformation($" right: ({string.Join(", ", right)})");
TestLibrary.TestFramework.LogInformation($" result: ({string.Join(", ", result)})");
TestLibrary.TestFramework.LogInformation(string.Empty);
Succeeded = false;
}
}
}
}
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
/******************************************************************************
* This file is auto-generated from a template file by the GenerateTests.csx *
* script in tests\src\JIT\HardwareIntrinsics\X86\Shared. In order to make *
* changes, please update the corresponding template and run according to the *
* directions listed in the file. *
******************************************************************************/
using System;
using System.Runtime.CompilerServices;
using System.Runtime.InteropServices;
using System.Runtime.Intrinsics;
using System.Runtime.Intrinsics.X86;
namespace JIT.HardwareIntrinsics.X86
{
public static partial class Program
{
private static void UnpackLowUInt32()
{
var test = new SimpleBinaryOpTest__UnpackLowUInt32();
if (test.IsSupported)
{
// Validates basic functionality works, using Unsafe.Read
test.RunBasicScenario_UnsafeRead();
if (Sse2.IsSupported)
{
// Validates basic functionality works, using Load
test.RunBasicScenario_Load();
// Validates basic functionality works, using LoadAligned
test.RunBasicScenario_LoadAligned();
}
// Validates calling via reflection works, using Unsafe.Read
test.RunReflectionScenario_UnsafeRead();
if (Sse2.IsSupported)
{
// Validates calling via reflection works, using Load
test.RunReflectionScenario_Load();
// Validates calling via reflection works, using LoadAligned
test.RunReflectionScenario_LoadAligned();
}
// Validates passing a static member works
test.RunClsVarScenario();
if (Sse2.IsSupported)
{
// Validates passing a static member works, using pinning and Load
test.RunClsVarScenario_Load();
}
// Validates passing a local works, using Unsafe.Read
test.RunLclVarScenario_UnsafeRead();
if (Sse2.IsSupported)
{
// Validates passing a local works, using Load
test.RunLclVarScenario_Load();
// Validates passing a local works, using LoadAligned
test.RunLclVarScenario_LoadAligned();
}
// Validates passing the field of a local class works
test.RunClassLclFldScenario();
if (Sse2.IsSupported)
{
// Validates passing the field of a local class works, using pinning and Load
test.RunClassLclFldScenario_Load();
}
// Validates passing an instance member of a class works
test.RunClassFldScenario();
if (Sse2.IsSupported)
{
// Validates passing an instance member of a class works, using pinning and Load
test.RunClassFldScenario_Load();
}
// Validates passing the field of a local struct works
test.RunStructLclFldScenario();
if (Sse2.IsSupported)
{
// Validates passing the field of a local struct works, using pinning and Load
test.RunStructLclFldScenario_Load();
}
// Validates passing an instance member of a struct works
test.RunStructFldScenario();
if (Sse2.IsSupported)
{
// Validates passing an instance member of a struct works, using pinning and Load
test.RunStructFldScenario_Load();
}
}
else
{
// Validates we throw on unsupported hardware
test.RunUnsupportedScenario();
}
if (!test.Succeeded)
{
throw new Exception("One or more scenarios did not complete as expected.");
}
}
}
public sealed unsafe class SimpleBinaryOpTest__UnpackLowUInt32
{
private struct DataTable
{
private byte[] inArray1;
private byte[] inArray2;
private byte[] outArray;
private GCHandle inHandle1;
private GCHandle inHandle2;
private GCHandle outHandle;
private ulong alignment;
public DataTable(UInt32[] inArray1, UInt32[] inArray2, UInt32[] outArray, int alignment)
{
int sizeOfinArray1 = inArray1.Length * Unsafe.SizeOf<UInt32>();
int sizeOfinArray2 = inArray2.Length * Unsafe.SizeOf<UInt32>();
int sizeOfoutArray = outArray.Length * Unsafe.SizeOf<UInt32>();
if ((alignment != 32 && alignment != 16) || (alignment * 2) < sizeOfinArray1 || (alignment * 2) < sizeOfinArray2 || (alignment * 2) < sizeOfoutArray)
{
throw new ArgumentException("Invalid value of alignment");
}
this.inArray1 = new byte[alignment * 2];
this.inArray2 = new byte[alignment * 2];
this.outArray = new byte[alignment * 2];
this.inHandle1 = GCHandle.Alloc(this.inArray1, GCHandleType.Pinned);
this.inHandle2 = GCHandle.Alloc(this.inArray2, GCHandleType.Pinned);
this.outHandle = GCHandle.Alloc(this.outArray, GCHandleType.Pinned);
this.alignment = (ulong)alignment;
Unsafe.CopyBlockUnaligned(ref Unsafe.AsRef<byte>(inArray1Ptr), ref Unsafe.As<UInt32, byte>(ref inArray1[0]), (uint)sizeOfinArray1);
Unsafe.CopyBlockUnaligned(ref Unsafe.AsRef<byte>(inArray2Ptr), ref Unsafe.As<UInt32, byte>(ref inArray2[0]), (uint)sizeOfinArray2);
}
public void* inArray1Ptr => Align((byte*)(inHandle1.AddrOfPinnedObject().ToPointer()), alignment);
public void* inArray2Ptr => Align((byte*)(inHandle2.AddrOfPinnedObject().ToPointer()), alignment);
public void* outArrayPtr => Align((byte*)(outHandle.AddrOfPinnedObject().ToPointer()), alignment);
public void Dispose()
{
inHandle1.Free();
inHandle2.Free();
outHandle.Free();
}
private static unsafe void* Align(byte* buffer, ulong expectedAlignment)
{
return (void*)(((ulong)buffer + expectedAlignment - 1) & ~(expectedAlignment - 1));
}
}
private struct TestStruct
{
public Vector128<UInt32> _fld1;
public Vector128<UInt32> _fld2;
public static TestStruct Create()
{
var testStruct = new TestStruct();
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetUInt32(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<UInt32>, byte>(ref testStruct._fld1), ref Unsafe.As<UInt32, byte>(ref _data1[0]), (uint)Unsafe.SizeOf<Vector128<UInt32>>());
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetUInt32(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<UInt32>, byte>(ref testStruct._fld2), ref Unsafe.As<UInt32, byte>(ref _data2[0]), (uint)Unsafe.SizeOf<Vector128<UInt32>>());
return testStruct;
}
public void RunStructFldScenario(SimpleBinaryOpTest__UnpackLowUInt32 testClass)
{
var result = Sse2.UnpackLow(_fld1, _fld2);
Unsafe.Write(testClass._dataTable.outArrayPtr, result);
testClass.ValidateResult(_fld1, _fld2, testClass._dataTable.outArrayPtr);
}
public void RunStructFldScenario_Load(SimpleBinaryOpTest__UnpackLowUInt32 testClass)
{
fixed (Vector128<UInt32>* pFld1 = &_fld1)
fixed (Vector128<UInt32>* pFld2 = &_fld2)
{
var result = Sse2.UnpackLow(
Sse2.LoadVector128((UInt32*)(pFld1)),
Sse2.LoadVector128((UInt32*)(pFld2))
);
Unsafe.Write(testClass._dataTable.outArrayPtr, result);
testClass.ValidateResult(_fld1, _fld2, testClass._dataTable.outArrayPtr);
}
}
}
private static readonly int LargestVectorSize = 16;
private static readonly int Op1ElementCount = Unsafe.SizeOf<Vector128<UInt32>>() / sizeof(UInt32);
private static readonly int Op2ElementCount = Unsafe.SizeOf<Vector128<UInt32>>() / sizeof(UInt32);
private static readonly int RetElementCount = Unsafe.SizeOf<Vector128<UInt32>>() / sizeof(UInt32);
private static UInt32[] _data1 = new UInt32[Op1ElementCount];
private static UInt32[] _data2 = new UInt32[Op2ElementCount];
private static Vector128<UInt32> _clsVar1;
private static Vector128<UInt32> _clsVar2;
private Vector128<UInt32> _fld1;
private Vector128<UInt32> _fld2;
private DataTable _dataTable;
static SimpleBinaryOpTest__UnpackLowUInt32()
{
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetUInt32(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<UInt32>, byte>(ref _clsVar1), ref Unsafe.As<UInt32, byte>(ref _data1[0]), (uint)Unsafe.SizeOf<Vector128<UInt32>>());
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetUInt32(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<UInt32>, byte>(ref _clsVar2), ref Unsafe.As<UInt32, byte>(ref _data2[0]), (uint)Unsafe.SizeOf<Vector128<UInt32>>());
}
public SimpleBinaryOpTest__UnpackLowUInt32()
{
Succeeded = true;
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetUInt32(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<UInt32>, byte>(ref _fld1), ref Unsafe.As<UInt32, byte>(ref _data1[0]), (uint)Unsafe.SizeOf<Vector128<UInt32>>());
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetUInt32(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<UInt32>, byte>(ref _fld2), ref Unsafe.As<UInt32, byte>(ref _data2[0]), (uint)Unsafe.SizeOf<Vector128<UInt32>>());
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetUInt32(); }
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetUInt32(); }
_dataTable = new DataTable(_data1, _data2, new UInt32[RetElementCount], LargestVectorSize);
}
public bool IsSupported => Sse2.IsSupported;
public bool Succeeded { get; set; }
public void RunBasicScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunBasicScenario_UnsafeRead));
var result = Sse2.UnpackLow(
Unsafe.Read<Vector128<UInt32>>(_dataTable.inArray1Ptr),
Unsafe.Read<Vector128<UInt32>>(_dataTable.inArray2Ptr)
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunBasicScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunBasicScenario_Load));
var result = Sse2.UnpackLow(
Sse2.LoadVector128((UInt32*)(_dataTable.inArray1Ptr)),
Sse2.LoadVector128((UInt32*)(_dataTable.inArray2Ptr))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunBasicScenario_LoadAligned()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunBasicScenario_LoadAligned));
var result = Sse2.UnpackLow(
Sse2.LoadAlignedVector128((UInt32*)(_dataTable.inArray1Ptr)),
Sse2.LoadAlignedVector128((UInt32*)(_dataTable.inArray2Ptr))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunReflectionScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunReflectionScenario_UnsafeRead));
var result = typeof(Sse2).GetMethod(nameof(Sse2.UnpackLow), new Type[] { typeof(Vector128<UInt32>), typeof(Vector128<UInt32>) })
.Invoke(null, new object[] {
Unsafe.Read<Vector128<UInt32>>(_dataTable.inArray1Ptr),
Unsafe.Read<Vector128<UInt32>>(_dataTable.inArray2Ptr)
});
Unsafe.Write(_dataTable.outArrayPtr, (Vector128<UInt32>)(result));
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunReflectionScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunReflectionScenario_Load));
var result = typeof(Sse2).GetMethod(nameof(Sse2.UnpackLow), new Type[] { typeof(Vector128<UInt32>), typeof(Vector128<UInt32>) })
.Invoke(null, new object[] {
Sse2.LoadVector128((UInt32*)(_dataTable.inArray1Ptr)),
Sse2.LoadVector128((UInt32*)(_dataTable.inArray2Ptr))
});
Unsafe.Write(_dataTable.outArrayPtr, (Vector128<UInt32>)(result));
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunReflectionScenario_LoadAligned()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunReflectionScenario_LoadAligned));
var result = typeof(Sse2).GetMethod(nameof(Sse2.UnpackLow), new Type[] { typeof(Vector128<UInt32>), typeof(Vector128<UInt32>) })
.Invoke(null, new object[] {
Sse2.LoadAlignedVector128((UInt32*)(_dataTable.inArray1Ptr)),
Sse2.LoadAlignedVector128((UInt32*)(_dataTable.inArray2Ptr))
});
Unsafe.Write(_dataTable.outArrayPtr, (Vector128<UInt32>)(result));
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunClsVarScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClsVarScenario));
var result = Sse2.UnpackLow(
_clsVar1,
_clsVar2
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_clsVar1, _clsVar2, _dataTable.outArrayPtr);
}
public void RunClsVarScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClsVarScenario_Load));
fixed (Vector128<UInt32>* pClsVar1 = &_clsVar1)
fixed (Vector128<UInt32>* pClsVar2 = &_clsVar2)
{
var result = Sse2.UnpackLow(
Sse2.LoadVector128((UInt32*)(pClsVar1)),
Sse2.LoadVector128((UInt32*)(pClsVar2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_clsVar1, _clsVar2, _dataTable.outArrayPtr);
}
}
public void RunLclVarScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunLclVarScenario_UnsafeRead));
var op1 = Unsafe.Read<Vector128<UInt32>>(_dataTable.inArray1Ptr);
var op2 = Unsafe.Read<Vector128<UInt32>>(_dataTable.inArray2Ptr);
var result = Sse2.UnpackLow(op1, op2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(op1, op2, _dataTable.outArrayPtr);
}
public void RunLclVarScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunLclVarScenario_Load));
var op1 = Sse2.LoadVector128((UInt32*)(_dataTable.inArray1Ptr));
var op2 = Sse2.LoadVector128((UInt32*)(_dataTable.inArray2Ptr));
var result = Sse2.UnpackLow(op1, op2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(op1, op2, _dataTable.outArrayPtr);
}
public void RunLclVarScenario_LoadAligned()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunLclVarScenario_LoadAligned));
var op1 = Sse2.LoadAlignedVector128((UInt32*)(_dataTable.inArray1Ptr));
var op2 = Sse2.LoadAlignedVector128((UInt32*)(_dataTable.inArray2Ptr));
var result = Sse2.UnpackLow(op1, op2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(op1, op2, _dataTable.outArrayPtr);
}
public void RunClassLclFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassLclFldScenario));
var test = new SimpleBinaryOpTest__UnpackLowUInt32();
var result = Sse2.UnpackLow(test._fld1, test._fld2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
public void RunClassLclFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassLclFldScenario_Load));
var test = new SimpleBinaryOpTest__UnpackLowUInt32();
fixed (Vector128<UInt32>* pFld1 = &test._fld1)
fixed (Vector128<UInt32>* pFld2 = &test._fld2)
{
var result = Sse2.UnpackLow(
Sse2.LoadVector128((UInt32*)(pFld1)),
Sse2.LoadVector128((UInt32*)(pFld2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
}
public void RunClassFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassFldScenario));
var result = Sse2.UnpackLow(_fld1, _fld2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_fld1, _fld2, _dataTable.outArrayPtr);
}
public void RunClassFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassFldScenario_Load));
fixed (Vector128<UInt32>* pFld1 = &_fld1)
fixed (Vector128<UInt32>* pFld2 = &_fld2)
{
var result = Sse2.UnpackLow(
Sse2.LoadVector128((UInt32*)(pFld1)),
Sse2.LoadVector128((UInt32*)(pFld2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_fld1, _fld2, _dataTable.outArrayPtr);
}
}
public void RunStructLclFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructLclFldScenario));
var test = TestStruct.Create();
var result = Sse2.UnpackLow(test._fld1, test._fld2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
public void RunStructLclFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructLclFldScenario_Load));
var test = TestStruct.Create();
var result = Sse2.UnpackLow(
Sse2.LoadVector128((UInt32*)(&test._fld1)),
Sse2.LoadVector128((UInt32*)(&test._fld2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
public void RunStructFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructFldScenario));
var test = TestStruct.Create();
test.RunStructFldScenario(this);
}
public void RunStructFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructFldScenario_Load));
var test = TestStruct.Create();
test.RunStructFldScenario_Load(this);
}
public void RunUnsupportedScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunUnsupportedScenario));
bool succeeded = false;
try
{
RunBasicScenario_UnsafeRead();
}
catch (PlatformNotSupportedException)
{
succeeded = true;
}
if (!succeeded)
{
Succeeded = false;
}
}
private void ValidateResult(Vector128<UInt32> op1, Vector128<UInt32> op2, void* result, [CallerMemberName] string method = "")
{
UInt32[] inArray1 = new UInt32[Op1ElementCount];
UInt32[] inArray2 = new UInt32[Op2ElementCount];
UInt32[] outArray = new UInt32[RetElementCount];
Unsafe.WriteUnaligned(ref Unsafe.As<UInt32, byte>(ref inArray1[0]), op1);
Unsafe.WriteUnaligned(ref Unsafe.As<UInt32, byte>(ref inArray2[0]), op2);
Unsafe.CopyBlockUnaligned(ref Unsafe.As<UInt32, byte>(ref outArray[0]), ref Unsafe.AsRef<byte>(result), (uint)Unsafe.SizeOf<Vector128<UInt32>>());
ValidateResult(inArray1, inArray2, outArray, method);
}
private void ValidateResult(void* op1, void* op2, void* result, [CallerMemberName] string method = "")
{
UInt32[] inArray1 = new UInt32[Op1ElementCount];
UInt32[] inArray2 = new UInt32[Op2ElementCount];
UInt32[] outArray = new UInt32[RetElementCount];
Unsafe.CopyBlockUnaligned(ref Unsafe.As<UInt32, byte>(ref inArray1[0]), ref Unsafe.AsRef<byte>(op1), (uint)Unsafe.SizeOf<Vector128<UInt32>>());
Unsafe.CopyBlockUnaligned(ref Unsafe.As<UInt32, byte>(ref inArray2[0]), ref Unsafe.AsRef<byte>(op2), (uint)Unsafe.SizeOf<Vector128<UInt32>>());
Unsafe.CopyBlockUnaligned(ref Unsafe.As<UInt32, byte>(ref outArray[0]), ref Unsafe.AsRef<byte>(result), (uint)Unsafe.SizeOf<Vector128<UInt32>>());
ValidateResult(inArray1, inArray2, outArray, method);
}
private void ValidateResult(UInt32[] left, UInt32[] right, UInt32[] result, [CallerMemberName] string method = "")
{
bool succeeded = true;
if (result[0] != left[0])
{
succeeded = false;
}
else
{
for (var i = 1; i < RetElementCount; i++)
{
if ((i % 2 == 0) ? result[i] != left[i/2] : result[i] != right[(i - 1)/2])
{
succeeded = false;
break;
}
}
}
if (!succeeded)
{
TestLibrary.TestFramework.LogInformation($"{nameof(Sse2)}.{nameof(Sse2.UnpackLow)}<UInt32>(Vector128<UInt32>, Vector128<UInt32>): {method} failed:");
TestLibrary.TestFramework.LogInformation($" left: ({string.Join(", ", left)})");
TestLibrary.TestFramework.LogInformation($" right: ({string.Join(", ", right)})");
TestLibrary.TestFramework.LogInformation($" result: ({string.Join(", ", result)})");
TestLibrary.TestFramework.LogInformation(string.Empty);
Succeeded = false;
}
}
}
}
| -1 |
dotnet/runtime
| 66,398 |
Reenable compiler warning 4244 under coreclr/
|
Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
AaronRobinsonMSFT
| 2022-03-09T15:46:00Z | 2022-03-10T01:12:51Z |
763936ed098deaa1588935f17d7cc0a07c27c3fa
|
b71eba8b3a74fa6282dc1526e68abbd26f3e385f
|
Reenable compiler warning 4244 under coreclr/. Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
./src/mono/mono/utils/mono-uri.h
|
/**
* \file
*/
#ifndef __MONO_URI_H
#define __MONO_URI_H
#include <glib.h>
#include <mono/utils/mono-publib.h>
MONO_API gchar * mono_escape_uri_string (const gchar *string);
#endif /* __MONO_URI_H */
|
/**
* \file
*/
#ifndef __MONO_URI_H
#define __MONO_URI_H
#include <glib.h>
#include <mono/utils/mono-publib.h>
MONO_API gchar * mono_escape_uri_string (const gchar *string);
#endif /* __MONO_URI_H */
| -1 |
dotnet/runtime
| 66,398 |
Reenable compiler warning 4244 under coreclr/
|
Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
AaronRobinsonMSFT
| 2022-03-09T15:46:00Z | 2022-03-10T01:12:51Z |
763936ed098deaa1588935f17d7cc0a07c27c3fa
|
b71eba8b3a74fa6282dc1526e68abbd26f3e385f
|
Reenable compiler warning 4244 under coreclr/. Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
./src/coreclr/pal/tests/palsuite/miscellaneous/SetLastError/test1/test.cpp
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
/*============================================================
**
** Source: test.c
**
** Purpose: Test for SetLastError() function
**
**
**=========================================================*/
/* Depends on GetLastError() */
#include <palsuite.h>
PALTEST(miscellaneous_SetLastError_test1_paltest_setlasterror_test1, "miscellaneous/SetLastError/test1/paltest_setlasterror_test1")
{
/* Error value that we can set to test */
const unsigned int FAKE_ERROR = 5;
const int NEGATIVE_ERROR = -1;
/*
* Initialize the PAL and return FAILURE if this fails
*/
if(0 != (PAL_Initialize(argc, argv)))
{
return FAIL;
}
/* Set error */
SetLastError(FAKE_ERROR);
/* Check to make sure it returns the error value we just set */
if(GetLastError() != FAKE_ERROR)
{
Fail("ERROR: The last error should have been '%d' but the error "
"returned was '%d'\n",FAKE_ERROR,GetLastError());
}
/* Set the error to a negative */
SetLastError(NEGATIVE_ERROR);
/* Check to make sure it returns the error value we just set */
if((signed)GetLastError() != NEGATIVE_ERROR)
{
Fail("ERROR: The last error should have been '%d' but the error "
"returned was '%d'\n",NEGATIVE_ERROR,GetLastError());
}
PAL_Terminate();
return PASS;
}
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
/*============================================================
**
** Source: test.c
**
** Purpose: Test for SetLastError() function
**
**
**=========================================================*/
/* Depends on GetLastError() */
#include <palsuite.h>
PALTEST(miscellaneous_SetLastError_test1_paltest_setlasterror_test1, "miscellaneous/SetLastError/test1/paltest_setlasterror_test1")
{
/* Error value that we can set to test */
const unsigned int FAKE_ERROR = 5;
const int NEGATIVE_ERROR = -1;
/*
* Initialize the PAL and return FAILURE if this fails
*/
if(0 != (PAL_Initialize(argc, argv)))
{
return FAIL;
}
/* Set error */
SetLastError(FAKE_ERROR);
/* Check to make sure it returns the error value we just set */
if(GetLastError() != FAKE_ERROR)
{
Fail("ERROR: The last error should have been '%d' but the error "
"returned was '%d'\n",FAKE_ERROR,GetLastError());
}
/* Set the error to a negative */
SetLastError(NEGATIVE_ERROR);
/* Check to make sure it returns the error value we just set */
if((signed)GetLastError() != NEGATIVE_ERROR)
{
Fail("ERROR: The last error should have been '%d' but the error "
"returned was '%d'\n",NEGATIVE_ERROR,GetLastError());
}
PAL_Terminate();
return PASS;
}
| -1 |
dotnet/runtime
| 66,398 |
Reenable compiler warning 4244 under coreclr/
|
Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
AaronRobinsonMSFT
| 2022-03-09T15:46:00Z | 2022-03-10T01:12:51Z |
763936ed098deaa1588935f17d7cc0a07c27c3fa
|
b71eba8b3a74fa6282dc1526e68abbd26f3e385f
|
Reenable compiler warning 4244 under coreclr/. Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
./src/libraries/System.ComponentModel.Composition/src/System/ComponentModel/Composition/ChangeRejectedException.cs
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
using System.Collections.Generic;
using System.Globalization;
namespace System.ComponentModel.Composition
{
/// <summary>
/// The exception that is thrown when one or more recoverable errors occur during
/// composition which results in those changes being rejected.
/// </summary>
public class ChangeRejectedException : CompositionException
{
/// <summary>
/// Initializes a new instance of the <see cref="ChangeRejectedException"/> class.
/// </summary>
public ChangeRejectedException()
: this((string?)null, (Exception?)null)
{
}
/// <summary>
/// Initializes a new instance of the <see cref="ChangeRejectedException"/> class.
/// </summary>
public ChangeRejectedException(string? message)
: this(message, (Exception?)null)
{
}
/// <summary>
/// Initializes a new instance of the <see cref="ChangeRejectedException"/> class.
/// </summary>
public ChangeRejectedException(string? message, Exception? innerException)
: base(message, innerException, (IEnumerable<CompositionError>?)null)
{
}
/// <summary>
/// Initializes a new instance of the <see cref="ChangeRejectedException"/> class.
/// </summary>
/// <param name="errors">List of errors that occured while applying the changes.</param>
public ChangeRejectedException(IEnumerable<CompositionError>? errors)
: base((string?)null, (Exception?)null, errors)
{
}
/// <summary>
/// Gets a message that describes the exception.
/// </summary>
/// <value>
/// A <see cref="string"/> containing a message that describes the
/// <see cref="ChangeRejectedException"/>.
/// </value>
public override string Message
{
get
{
return SR.Format(
SR.CompositionException_ChangesRejected,
base.Message);
}
}
}
}
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
using System.Collections.Generic;
using System.Globalization;
namespace System.ComponentModel.Composition
{
/// <summary>
/// The exception that is thrown when one or more recoverable errors occur during
/// composition which results in those changes being rejected.
/// </summary>
public class ChangeRejectedException : CompositionException
{
/// <summary>
/// Initializes a new instance of the <see cref="ChangeRejectedException"/> class.
/// </summary>
public ChangeRejectedException()
: this((string?)null, (Exception?)null)
{
}
/// <summary>
/// Initializes a new instance of the <see cref="ChangeRejectedException"/> class.
/// </summary>
public ChangeRejectedException(string? message)
: this(message, (Exception?)null)
{
}
/// <summary>
/// Initializes a new instance of the <see cref="ChangeRejectedException"/> class.
/// </summary>
public ChangeRejectedException(string? message, Exception? innerException)
: base(message, innerException, (IEnumerable<CompositionError>?)null)
{
}
/// <summary>
/// Initializes a new instance of the <see cref="ChangeRejectedException"/> class.
/// </summary>
/// <param name="errors">List of errors that occured while applying the changes.</param>
public ChangeRejectedException(IEnumerable<CompositionError>? errors)
: base((string?)null, (Exception?)null, errors)
{
}
/// <summary>
/// Gets a message that describes the exception.
/// </summary>
/// <value>
/// A <see cref="string"/> containing a message that describes the
/// <see cref="ChangeRejectedException"/>.
/// </value>
public override string Message
{
get
{
return SR.Format(
SR.CompositionException_ChangesRejected,
base.Message);
}
}
}
}
| -1 |
dotnet/runtime
| 66,398 |
Reenable compiler warning 4244 under coreclr/
|
Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
AaronRobinsonMSFT
| 2022-03-09T15:46:00Z | 2022-03-10T01:12:51Z |
763936ed098deaa1588935f17d7cc0a07c27c3fa
|
b71eba8b3a74fa6282dc1526e68abbd26f3e385f
|
Reenable compiler warning 4244 under coreclr/. Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
./src/tests/JIT/Directed/Convert/value_numbering_checked_casts_of_constants_byte.cs
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
using System;
using System.Runtime.CompilerServices;
public partial class ValueNumberingCheckedCastsOfConstants
{
private static void TestCastingSByteToSingle()
{
ConfirmIntegerZeroCastToSingleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerZeroCastToSingleIsFoldedCorrectly()
{
sbyte integerZero = 0;
if (BreakUpFlow())
return;
if (checked((float)integerZero) != 0f)
{
Console.WriteLine($"'(float)0' was evaluted to '{(float)integerZero}'. Expected: '0f'.");
_counter++;
}
}
ConfirmSByteMinValueCastToSingleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMinValueCastToSingleIsFoldedCorrectly()
{
sbyte sByteMinValue = -128;
if (BreakUpFlow())
return;
if (checked((float)sByteMinValue) != -128f)
{
Console.WriteLine($"'(float)-128' was evaluted to '{(float)sByteMinValue}'. Expected: '-128f'.");
_counter++;
}
}
ConfirmSByteMaxValueCastToSingleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMaxValueCastToSingleIsFoldedCorrectly()
{
sbyte sByteMaxValue = 127;
if (BreakUpFlow())
return;
if (checked((float)sByteMaxValue) != 127f)
{
Console.WriteLine($"'(float)127' was evaluted to '{(float)sByteMaxValue}'. Expected: '127f'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveSByteMinValueCastToSingleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveSByteMinValueCastToSingleIsFoldedCorrectly()
{
sbyte integerOneIncrementAboveSByteMinValue = -127;
if (BreakUpFlow())
return;
if (checked((float)integerOneIncrementAboveSByteMinValue) != -127f)
{
Console.WriteLine($"'(float)-127' was evaluted to '{(float)integerOneIncrementAboveSByteMinValue}'. Expected: '-127f'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderSByteMaxValueCastToSingleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderSByteMaxValueCastToSingleIsFoldedCorrectly()
{
sbyte integerOneDecrementUnderSByteMaxValue = 126;
if (BreakUpFlow())
return;
if (checked((float)integerOneDecrementUnderSByteMaxValue) != 126f)
{
Console.WriteLine($"'(float)126' was evaluted to '{(float)integerOneDecrementUnderSByteMaxValue}'. Expected: '126f'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderByteMinValueCastToSingleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderByteMinValueCastToSingleIsFoldedCorrectly()
{
sbyte integerOneDecrementUnderByteMinValue = -1;
if (BreakUpFlow())
return;
if (checked((float)integerOneDecrementUnderByteMinValue) != -1f)
{
Console.WriteLine($"'(float)-1' was evaluted to '{(float)integerOneDecrementUnderByteMinValue}'. Expected: '-1f'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveByteMinValueCastToSingleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveByteMinValueCastToSingleIsFoldedCorrectly()
{
sbyte integerOneIncrementAboveByteMinValue = 1;
if (BreakUpFlow())
return;
if (checked((float)integerOneIncrementAboveByteMinValue) != 1f)
{
Console.WriteLine($"'(float)1' was evaluted to '{(float)integerOneIncrementAboveByteMinValue}'. Expected: '1f'.");
_counter++;
}
}
}
private static void TestCastingSByteToDouble()
{
ConfirmIntegerZeroCastToDoubleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerZeroCastToDoubleIsFoldedCorrectly()
{
sbyte integerZero = 0;
if (BreakUpFlow())
return;
if (checked((double)integerZero) != 0d)
{
Console.WriteLine($"'(double)0' was evaluted to '{(double)integerZero}'. Expected: '0d'.");
_counter++;
}
}
ConfirmSByteMinValueCastToDoubleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMinValueCastToDoubleIsFoldedCorrectly()
{
sbyte sByteMinValue = -128;
if (BreakUpFlow())
return;
if (checked((double)sByteMinValue) != -128d)
{
Console.WriteLine($"'(double)-128' was evaluted to '{(double)sByteMinValue}'. Expected: '-128d'.");
_counter++;
}
}
ConfirmSByteMaxValueCastToDoubleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMaxValueCastToDoubleIsFoldedCorrectly()
{
sbyte sByteMaxValue = 127;
if (BreakUpFlow())
return;
if (checked((double)sByteMaxValue) != 127d)
{
Console.WriteLine($"'(double)127' was evaluted to '{(double)sByteMaxValue}'. Expected: '127d'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveSByteMinValueCastToDoubleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveSByteMinValueCastToDoubleIsFoldedCorrectly()
{
sbyte integerOneIncrementAboveSByteMinValue = -127;
if (BreakUpFlow())
return;
if (checked((double)integerOneIncrementAboveSByteMinValue) != -127d)
{
Console.WriteLine($"'(double)-127' was evaluted to '{(double)integerOneIncrementAboveSByteMinValue}'. Expected: '-127d'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderSByteMaxValueCastToDoubleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderSByteMaxValueCastToDoubleIsFoldedCorrectly()
{
sbyte integerOneDecrementUnderSByteMaxValue = 126;
if (BreakUpFlow())
return;
if (checked((double)integerOneDecrementUnderSByteMaxValue) != 126d)
{
Console.WriteLine($"'(double)126' was evaluted to '{(double)integerOneDecrementUnderSByteMaxValue}'. Expected: '126d'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderByteMinValueCastToDoubleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderByteMinValueCastToDoubleIsFoldedCorrectly()
{
sbyte integerOneDecrementUnderByteMinValue = -1;
if (BreakUpFlow())
return;
if (checked((double)integerOneDecrementUnderByteMinValue) != -1d)
{
Console.WriteLine($"'(double)-1' was evaluted to '{(double)integerOneDecrementUnderByteMinValue}'. Expected: '-1d'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveByteMinValueCastToDoubleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveByteMinValueCastToDoubleIsFoldedCorrectly()
{
sbyte integerOneIncrementAboveByteMinValue = 1;
if (BreakUpFlow())
return;
if (checked((double)integerOneIncrementAboveByteMinValue) != 1d)
{
Console.WriteLine($"'(double)1' was evaluted to '{(double)integerOneIncrementAboveByteMinValue}'. Expected: '1d'.");
_counter++;
}
}
}
private static void TestCastingSByteToSByte()
{
ConfirmIntegerZeroCastToSByteIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerZeroCastToSByteIsFoldedCorrectly()
{
sbyte integerZero = 0;
if (BreakUpFlow())
return;
if (checked((sbyte)integerZero) != 0)
{
Console.WriteLine($"'(sbyte)0' was evaluted to '{(sbyte)integerZero}'. Expected: '0'.");
_counter++;
}
}
ConfirmSByteMinValueCastToSByteIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMinValueCastToSByteIsFoldedCorrectly()
{
sbyte sByteMinValue = -128;
if (BreakUpFlow())
return;
if (checked((sbyte)sByteMinValue) != -128)
{
Console.WriteLine($"'(sbyte)-128' was evaluted to '{(sbyte)sByteMinValue}'. Expected: '-128'.");
_counter++;
}
}
ConfirmSByteMaxValueCastToSByteIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMaxValueCastToSByteIsFoldedCorrectly()
{
sbyte sByteMaxValue = 127;
if (BreakUpFlow())
return;
if (checked((sbyte)sByteMaxValue) != 127)
{
Console.WriteLine($"'(sbyte)127' was evaluted to '{(sbyte)sByteMaxValue}'. Expected: '127'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveSByteMinValueCastToSByteIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveSByteMinValueCastToSByteIsFoldedCorrectly()
{
sbyte integerOneIncrementAboveSByteMinValue = -127;
if (BreakUpFlow())
return;
if (checked((sbyte)integerOneIncrementAboveSByteMinValue) != -127)
{
Console.WriteLine($"'(sbyte)-127' was evaluted to '{(sbyte)integerOneIncrementAboveSByteMinValue}'. Expected: '-127'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderSByteMaxValueCastToSByteIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderSByteMaxValueCastToSByteIsFoldedCorrectly()
{
sbyte integerOneDecrementUnderSByteMaxValue = 126;
if (BreakUpFlow())
return;
if (checked((sbyte)integerOneDecrementUnderSByteMaxValue) != 126)
{
Console.WriteLine($"'(sbyte)126' was evaluted to '{(sbyte)integerOneDecrementUnderSByteMaxValue}'. Expected: '126'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderByteMinValueCastToSByteIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderByteMinValueCastToSByteIsFoldedCorrectly()
{
sbyte integerOneDecrementUnderByteMinValue = -1;
if (BreakUpFlow())
return;
if (checked((sbyte)integerOneDecrementUnderByteMinValue) != -1)
{
Console.WriteLine($"'(sbyte)-1' was evaluted to '{(sbyte)integerOneDecrementUnderByteMinValue}'. Expected: '-1'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveByteMinValueCastToSByteIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveByteMinValueCastToSByteIsFoldedCorrectly()
{
sbyte integerOneIncrementAboveByteMinValue = 1;
if (BreakUpFlow())
return;
if (checked((sbyte)integerOneIncrementAboveByteMinValue) != 1)
{
Console.WriteLine($"'(sbyte)1' was evaluted to '{(sbyte)integerOneIncrementAboveByteMinValue}'. Expected: '1'.");
_counter++;
}
}
}
private static void TestCastingSByteToByte()
{
ConfirmIntegerZeroCastToByteIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerZeroCastToByteIsFoldedCorrectly()
{
sbyte integerZero = 0;
if (BreakUpFlow())
return;
if (checked((byte)integerZero) != 0)
{
Console.WriteLine($"'(byte)0' was evaluted to '{(byte)integerZero}'. Expected: '0'.");
_counter++;
}
}
ConfirmSByteMinValueCastToByteOverflows();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMinValueCastToByteOverflows()
{
sbyte from = -128;
_counter++;
try
{
_ = checked((byte)from);
}
catch (OverflowException) { _counter--; }
if (_counter != 100)
Console.WriteLine("'checked((byte)-128)' did not throw OverflowException.");
}
ConfirmSByteMaxValueCastToByteIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMaxValueCastToByteIsFoldedCorrectly()
{
sbyte sByteMaxValue = 127;
if (BreakUpFlow())
return;
if (checked((byte)sByteMaxValue) != 127)
{
Console.WriteLine($"'(byte)127' was evaluted to '{(byte)sByteMaxValue}'. Expected: '127'.");
_counter++;
}
}
ConfirmSByteOneIncrementAboveSByteMinValueCastToByteOverflows();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteOneIncrementAboveSByteMinValueCastToByteOverflows()
{
sbyte from = -127;
_counter++;
try
{
_ = checked((byte)from);
}
catch (OverflowException) { _counter--; }
if (_counter != 100)
Console.WriteLine("'checked((byte)-127)' did not throw OverflowException.");
}
ConfirmIntegerOneDecrementUnderSByteMaxValueCastToByteIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderSByteMaxValueCastToByteIsFoldedCorrectly()
{
sbyte integerOneDecrementUnderSByteMaxValue = 126;
if (BreakUpFlow())
return;
if (checked((byte)integerOneDecrementUnderSByteMaxValue) != 126)
{
Console.WriteLine($"'(byte)126' was evaluted to '{(byte)integerOneDecrementUnderSByteMaxValue}'. Expected: '126'.");
_counter++;
}
}
ConfirmSByteOneDecrementUnderByteMinValueCastToByteOverflows();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteOneDecrementUnderByteMinValueCastToByteOverflows()
{
sbyte from = -1;
_counter++;
try
{
_ = checked((byte)from);
}
catch (OverflowException) { _counter--; }
if (_counter != 100)
Console.WriteLine("'checked((byte)-1)' did not throw OverflowException.");
}
ConfirmIntegerOneIncrementAboveByteMinValueCastToByteIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveByteMinValueCastToByteIsFoldedCorrectly()
{
sbyte integerOneIncrementAboveByteMinValue = 1;
if (BreakUpFlow())
return;
if (checked((byte)integerOneIncrementAboveByteMinValue) != 1)
{
Console.WriteLine($"'(byte)1' was evaluted to '{(byte)integerOneIncrementAboveByteMinValue}'. Expected: '1'.");
_counter++;
}
}
}
private static void TestCastingSByteToInt16()
{
ConfirmIntegerZeroCastToInt16IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerZeroCastToInt16IsFoldedCorrectly()
{
sbyte integerZero = 0;
if (BreakUpFlow())
return;
if (checked((short)integerZero) != 0)
{
Console.WriteLine($"'(short)0' was evaluted to '{(short)integerZero}'. Expected: '0'.");
_counter++;
}
}
ConfirmSByteMinValueCastToInt16IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMinValueCastToInt16IsFoldedCorrectly()
{
sbyte sByteMinValue = -128;
if (BreakUpFlow())
return;
if (checked((short)sByteMinValue) != -128)
{
Console.WriteLine($"'(short)-128' was evaluted to '{(short)sByteMinValue}'. Expected: '-128'.");
_counter++;
}
}
ConfirmSByteMaxValueCastToInt16IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMaxValueCastToInt16IsFoldedCorrectly()
{
sbyte sByteMaxValue = 127;
if (BreakUpFlow())
return;
if (checked((short)sByteMaxValue) != 127)
{
Console.WriteLine($"'(short)127' was evaluted to '{(short)sByteMaxValue}'. Expected: '127'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveSByteMinValueCastToInt16IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveSByteMinValueCastToInt16IsFoldedCorrectly()
{
sbyte integerOneIncrementAboveSByteMinValue = -127;
if (BreakUpFlow())
return;
if (checked((short)integerOneIncrementAboveSByteMinValue) != -127)
{
Console.WriteLine($"'(short)-127' was evaluted to '{(short)integerOneIncrementAboveSByteMinValue}'. Expected: '-127'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderSByteMaxValueCastToInt16IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderSByteMaxValueCastToInt16IsFoldedCorrectly()
{
sbyte integerOneDecrementUnderSByteMaxValue = 126;
if (BreakUpFlow())
return;
if (checked((short)integerOneDecrementUnderSByteMaxValue) != 126)
{
Console.WriteLine($"'(short)126' was evaluted to '{(short)integerOneDecrementUnderSByteMaxValue}'. Expected: '126'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderByteMinValueCastToInt16IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderByteMinValueCastToInt16IsFoldedCorrectly()
{
sbyte integerOneDecrementUnderByteMinValue = -1;
if (BreakUpFlow())
return;
if (checked((short)integerOneDecrementUnderByteMinValue) != -1)
{
Console.WriteLine($"'(short)-1' was evaluted to '{(short)integerOneDecrementUnderByteMinValue}'. Expected: '-1'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveByteMinValueCastToInt16IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveByteMinValueCastToInt16IsFoldedCorrectly()
{
sbyte integerOneIncrementAboveByteMinValue = 1;
if (BreakUpFlow())
return;
if (checked((short)integerOneIncrementAboveByteMinValue) != 1)
{
Console.WriteLine($"'(short)1' was evaluted to '{(short)integerOneIncrementAboveByteMinValue}'. Expected: '1'.");
_counter++;
}
}
}
private static void TestCastingSByteToUInt16()
{
ConfirmIntegerZeroCastToUInt16IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerZeroCastToUInt16IsFoldedCorrectly()
{
sbyte integerZero = 0;
if (BreakUpFlow())
return;
if (checked((ushort)integerZero) != 0)
{
Console.WriteLine($"'(ushort)0' was evaluted to '{(ushort)integerZero}'. Expected: '0'.");
_counter++;
}
}
ConfirmSByteMinValueCastToUInt16Overflows();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMinValueCastToUInt16Overflows()
{
sbyte from = -128;
_counter++;
try
{
_ = checked((ushort)from);
}
catch (OverflowException) { _counter--; }
if (_counter != 100)
Console.WriteLine("'checked((ushort)-128)' did not throw OverflowException.");
}
ConfirmSByteMaxValueCastToUInt16IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMaxValueCastToUInt16IsFoldedCorrectly()
{
sbyte sByteMaxValue = 127;
if (BreakUpFlow())
return;
if (checked((ushort)sByteMaxValue) != 127)
{
Console.WriteLine($"'(ushort)127' was evaluted to '{(ushort)sByteMaxValue}'. Expected: '127'.");
_counter++;
}
}
ConfirmSByteOneIncrementAboveSByteMinValueCastToUInt16Overflows();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteOneIncrementAboveSByteMinValueCastToUInt16Overflows()
{
sbyte from = -127;
_counter++;
try
{
_ = checked((ushort)from);
}
catch (OverflowException) { _counter--; }
if (_counter != 100)
Console.WriteLine("'checked((ushort)-127)' did not throw OverflowException.");
}
ConfirmIntegerOneDecrementUnderSByteMaxValueCastToUInt16IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderSByteMaxValueCastToUInt16IsFoldedCorrectly()
{
sbyte integerOneDecrementUnderSByteMaxValue = 126;
if (BreakUpFlow())
return;
if (checked((ushort)integerOneDecrementUnderSByteMaxValue) != 126)
{
Console.WriteLine($"'(ushort)126' was evaluted to '{(ushort)integerOneDecrementUnderSByteMaxValue}'. Expected: '126'.");
_counter++;
}
}
ConfirmSByteOneDecrementUnderByteMinValueCastToUInt16Overflows();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteOneDecrementUnderByteMinValueCastToUInt16Overflows()
{
sbyte from = -1;
_counter++;
try
{
_ = checked((ushort)from);
}
catch (OverflowException) { _counter--; }
if (_counter != 100)
Console.WriteLine("'checked((ushort)-1)' did not throw OverflowException.");
}
ConfirmIntegerOneIncrementAboveByteMinValueCastToUInt16IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveByteMinValueCastToUInt16IsFoldedCorrectly()
{
sbyte integerOneIncrementAboveByteMinValue = 1;
if (BreakUpFlow())
return;
if (checked((ushort)integerOneIncrementAboveByteMinValue) != 1)
{
Console.WriteLine($"'(ushort)1' was evaluted to '{(ushort)integerOneIncrementAboveByteMinValue}'. Expected: '1'.");
_counter++;
}
}
}
private static void TestCastingSByteToInt32()
{
ConfirmIntegerZeroCastToInt32IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerZeroCastToInt32IsFoldedCorrectly()
{
sbyte integerZero = 0;
if (BreakUpFlow())
return;
if (checked((int)integerZero) != 0)
{
Console.WriteLine($"'(int)0' was evaluted to '{(int)integerZero}'. Expected: '0'.");
_counter++;
}
}
ConfirmSByteMinValueCastToInt32IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMinValueCastToInt32IsFoldedCorrectly()
{
sbyte sByteMinValue = -128;
if (BreakUpFlow())
return;
if (checked((int)sByteMinValue) != -128)
{
Console.WriteLine($"'(int)-128' was evaluted to '{(int)sByteMinValue}'. Expected: '-128'.");
_counter++;
}
}
ConfirmSByteMaxValueCastToInt32IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMaxValueCastToInt32IsFoldedCorrectly()
{
sbyte sByteMaxValue = 127;
if (BreakUpFlow())
return;
if (checked((int)sByteMaxValue) != 127)
{
Console.WriteLine($"'(int)127' was evaluted to '{(int)sByteMaxValue}'. Expected: '127'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveSByteMinValueCastToInt32IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveSByteMinValueCastToInt32IsFoldedCorrectly()
{
sbyte integerOneIncrementAboveSByteMinValue = -127;
if (BreakUpFlow())
return;
if (checked((int)integerOneIncrementAboveSByteMinValue) != -127)
{
Console.WriteLine($"'(int)-127' was evaluted to '{(int)integerOneIncrementAboveSByteMinValue}'. Expected: '-127'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderSByteMaxValueCastToInt32IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderSByteMaxValueCastToInt32IsFoldedCorrectly()
{
sbyte integerOneDecrementUnderSByteMaxValue = 126;
if (BreakUpFlow())
return;
if (checked((int)integerOneDecrementUnderSByteMaxValue) != 126)
{
Console.WriteLine($"'(int)126' was evaluted to '{(int)integerOneDecrementUnderSByteMaxValue}'. Expected: '126'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderByteMinValueCastToInt32IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderByteMinValueCastToInt32IsFoldedCorrectly()
{
sbyte integerOneDecrementUnderByteMinValue = -1;
if (BreakUpFlow())
return;
if (checked((int)integerOneDecrementUnderByteMinValue) != -1)
{
Console.WriteLine($"'(int)-1' was evaluted to '{(int)integerOneDecrementUnderByteMinValue}'. Expected: '-1'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveByteMinValueCastToInt32IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveByteMinValueCastToInt32IsFoldedCorrectly()
{
sbyte integerOneIncrementAboveByteMinValue = 1;
if (BreakUpFlow())
return;
if (checked((int)integerOneIncrementAboveByteMinValue) != 1)
{
Console.WriteLine($"'(int)1' was evaluted to '{(int)integerOneIncrementAboveByteMinValue}'. Expected: '1'.");
_counter++;
}
}
}
private static void TestCastingSByteToUInt32()
{
ConfirmIntegerZeroCastToUInt32IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerZeroCastToUInt32IsFoldedCorrectly()
{
sbyte integerZero = 0;
if (BreakUpFlow())
return;
if (checked((uint)integerZero) != 0)
{
Console.WriteLine($"'(uint)0' was evaluted to '{(uint)integerZero}'. Expected: '0'.");
_counter++;
}
}
ConfirmSByteMinValueCastToUInt32Overflows();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMinValueCastToUInt32Overflows()
{
sbyte from = -128;
_counter++;
try
{
_ = checked((uint)from);
}
catch (OverflowException) { _counter--; }
if (_counter != 100)
Console.WriteLine("'checked((uint)-128)' did not throw OverflowException.");
}
ConfirmSByteMaxValueCastToUInt32IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMaxValueCastToUInt32IsFoldedCorrectly()
{
sbyte sByteMaxValue = 127;
if (BreakUpFlow())
return;
if (checked((uint)sByteMaxValue) != 127)
{
Console.WriteLine($"'(uint)127' was evaluted to '{(uint)sByteMaxValue}'. Expected: '127'.");
_counter++;
}
}
ConfirmSByteOneIncrementAboveSByteMinValueCastToUInt32Overflows();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteOneIncrementAboveSByteMinValueCastToUInt32Overflows()
{
sbyte from = -127;
_counter++;
try
{
_ = checked((uint)from);
}
catch (OverflowException) { _counter--; }
if (_counter != 100)
Console.WriteLine("'checked((uint)-127)' did not throw OverflowException.");
}
ConfirmIntegerOneDecrementUnderSByteMaxValueCastToUInt32IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderSByteMaxValueCastToUInt32IsFoldedCorrectly()
{
sbyte integerOneDecrementUnderSByteMaxValue = 126;
if (BreakUpFlow())
return;
if (checked((uint)integerOneDecrementUnderSByteMaxValue) != 126)
{
Console.WriteLine($"'(uint)126' was evaluted to '{(uint)integerOneDecrementUnderSByteMaxValue}'. Expected: '126'.");
_counter++;
}
}
ConfirmSByteOneDecrementUnderByteMinValueCastToUInt32Overflows();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteOneDecrementUnderByteMinValueCastToUInt32Overflows()
{
sbyte from = -1;
_counter++;
try
{
_ = checked((uint)from);
}
catch (OverflowException) { _counter--; }
if (_counter != 100)
Console.WriteLine("'checked((uint)-1)' did not throw OverflowException.");
}
ConfirmIntegerOneIncrementAboveByteMinValueCastToUInt32IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveByteMinValueCastToUInt32IsFoldedCorrectly()
{
sbyte integerOneIncrementAboveByteMinValue = 1;
if (BreakUpFlow())
return;
if (checked((uint)integerOneIncrementAboveByteMinValue) != 1)
{
Console.WriteLine($"'(uint)1' was evaluted to '{(uint)integerOneIncrementAboveByteMinValue}'. Expected: '1'.");
_counter++;
}
}
}
private static void TestCastingSByteToInt64()
{
ConfirmIntegerZeroCastToInt64IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerZeroCastToInt64IsFoldedCorrectly()
{
sbyte integerZero = 0;
if (BreakUpFlow())
return;
if (checked((long)integerZero) != 0)
{
Console.WriteLine($"'(long)0' was evaluted to '{(long)integerZero}'. Expected: '0'.");
_counter++;
}
}
ConfirmSByteMinValueCastToInt64IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMinValueCastToInt64IsFoldedCorrectly()
{
sbyte sByteMinValue = -128;
if (BreakUpFlow())
return;
if (checked((long)sByteMinValue) != -128)
{
Console.WriteLine($"'(long)-128' was evaluted to '{(long)sByteMinValue}'. Expected: '-128'.");
_counter++;
}
}
ConfirmSByteMaxValueCastToInt64IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMaxValueCastToInt64IsFoldedCorrectly()
{
sbyte sByteMaxValue = 127;
if (BreakUpFlow())
return;
if (checked((long)sByteMaxValue) != 127)
{
Console.WriteLine($"'(long)127' was evaluted to '{(long)sByteMaxValue}'. Expected: '127'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveSByteMinValueCastToInt64IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveSByteMinValueCastToInt64IsFoldedCorrectly()
{
sbyte integerOneIncrementAboveSByteMinValue = -127;
if (BreakUpFlow())
return;
if (checked((long)integerOneIncrementAboveSByteMinValue) != -127)
{
Console.WriteLine($"'(long)-127' was evaluted to '{(long)integerOneIncrementAboveSByteMinValue}'. Expected: '-127'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderSByteMaxValueCastToInt64IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderSByteMaxValueCastToInt64IsFoldedCorrectly()
{
sbyte integerOneDecrementUnderSByteMaxValue = 126;
if (BreakUpFlow())
return;
if (checked((long)integerOneDecrementUnderSByteMaxValue) != 126)
{
Console.WriteLine($"'(long)126' was evaluted to '{(long)integerOneDecrementUnderSByteMaxValue}'. Expected: '126'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderByteMinValueCastToInt64IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderByteMinValueCastToInt64IsFoldedCorrectly()
{
sbyte integerOneDecrementUnderByteMinValue = -1;
if (BreakUpFlow())
return;
if (checked((long)integerOneDecrementUnderByteMinValue) != -1)
{
Console.WriteLine($"'(long)-1' was evaluted to '{(long)integerOneDecrementUnderByteMinValue}'. Expected: '-1'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveByteMinValueCastToInt64IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveByteMinValueCastToInt64IsFoldedCorrectly()
{
sbyte integerOneIncrementAboveByteMinValue = 1;
if (BreakUpFlow())
return;
if (checked((long)integerOneIncrementAboveByteMinValue) != 1)
{
Console.WriteLine($"'(long)1' was evaluted to '{(long)integerOneIncrementAboveByteMinValue}'. Expected: '1'.");
_counter++;
}
}
}
private static void TestCastingSByteToUInt64()
{
ConfirmIntegerZeroCastToUInt64IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerZeroCastToUInt64IsFoldedCorrectly()
{
sbyte integerZero = 0;
if (BreakUpFlow())
return;
if (checked((ulong)integerZero) != 0)
{
Console.WriteLine($"'(ulong)0' was evaluted to '{(ulong)integerZero}'. Expected: '0'.");
_counter++;
}
}
ConfirmSByteMinValueCastToUInt64Overflows();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMinValueCastToUInt64Overflows()
{
sbyte from = -128;
_counter++;
try
{
_ = checked((ulong)from);
}
catch (OverflowException) { _counter--; }
if (_counter != 100)
Console.WriteLine("'checked((ulong)-128)' did not throw OverflowException.");
}
ConfirmSByteMaxValueCastToUInt64IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMaxValueCastToUInt64IsFoldedCorrectly()
{
sbyte sByteMaxValue = 127;
if (BreakUpFlow())
return;
if (checked((ulong)sByteMaxValue) != 127)
{
Console.WriteLine($"'(ulong)127' was evaluted to '{(ulong)sByteMaxValue}'. Expected: '127'.");
_counter++;
}
}
ConfirmSByteOneIncrementAboveSByteMinValueCastToUInt64Overflows();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteOneIncrementAboveSByteMinValueCastToUInt64Overflows()
{
sbyte from = -127;
_counter++;
try
{
_ = checked((ulong)from);
}
catch (OverflowException) { _counter--; }
if (_counter != 100)
Console.WriteLine("'checked((ulong)-127)' did not throw OverflowException.");
}
ConfirmIntegerOneDecrementUnderSByteMaxValueCastToUInt64IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderSByteMaxValueCastToUInt64IsFoldedCorrectly()
{
sbyte integerOneDecrementUnderSByteMaxValue = 126;
if (BreakUpFlow())
return;
if (checked((ulong)integerOneDecrementUnderSByteMaxValue) != 126)
{
Console.WriteLine($"'(ulong)126' was evaluted to '{(ulong)integerOneDecrementUnderSByteMaxValue}'. Expected: '126'.");
_counter++;
}
}
ConfirmSByteOneDecrementUnderByteMinValueCastToUInt64Overflows();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteOneDecrementUnderByteMinValueCastToUInt64Overflows()
{
sbyte from = -1;
_counter++;
try
{
_ = checked((ulong)from);
}
catch (OverflowException) { _counter--; }
if (_counter != 100)
Console.WriteLine("'checked((ulong)-1)' did not throw OverflowException.");
}
ConfirmIntegerOneIncrementAboveByteMinValueCastToUInt64IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveByteMinValueCastToUInt64IsFoldedCorrectly()
{
sbyte integerOneIncrementAboveByteMinValue = 1;
if (BreakUpFlow())
return;
if (checked((ulong)integerOneIncrementAboveByteMinValue) != 1)
{
Console.WriteLine($"'(ulong)1' was evaluted to '{(ulong)integerOneIncrementAboveByteMinValue}'. Expected: '1'.");
_counter++;
}
}
}
private static void TestCastingByteToSingle()
{
ConfirmIntegerZeroCastToSingleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerZeroCastToSingleIsFoldedCorrectly()
{
byte integerZero = 0;
if (BreakUpFlow())
return;
if (checked((float)integerZero) != 0f)
{
Console.WriteLine($"'(float)0' was evaluted to '{(float)integerZero}'. Expected: '0f'.");
_counter++;
}
}
ConfirmSByteMaxValueCastToSingleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMaxValueCastToSingleIsFoldedCorrectly()
{
byte sByteMaxValue = 127;
if (BreakUpFlow())
return;
if (checked((float)sByteMaxValue) != 127f)
{
Console.WriteLine($"'(float)127' was evaluted to '{(float)sByteMaxValue}'. Expected: '127f'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderSByteMaxValueCastToSingleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderSByteMaxValueCastToSingleIsFoldedCorrectly()
{
byte integerOneDecrementUnderSByteMaxValue = 126;
if (BreakUpFlow())
return;
if (checked((float)integerOneDecrementUnderSByteMaxValue) != 126f)
{
Console.WriteLine($"'(float)126' was evaluted to '{(float)integerOneDecrementUnderSByteMaxValue}'. Expected: '126f'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveSByteMaxValueCastToSingleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveSByteMaxValueCastToSingleIsFoldedCorrectly()
{
byte integerOneIncrementAboveSByteMaxValue = 128;
if (BreakUpFlow())
return;
if (checked((float)integerOneIncrementAboveSByteMaxValue) != 128f)
{
Console.WriteLine($"'(float)128' was evaluted to '{(float)integerOneIncrementAboveSByteMaxValue}'. Expected: '128f'.");
_counter++;
}
}
ConfirmByteMaxValueCastToSingleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmByteMaxValueCastToSingleIsFoldedCorrectly()
{
byte byteMaxValue = 255;
if (BreakUpFlow())
return;
if (checked((float)byteMaxValue) != 255f)
{
Console.WriteLine($"'(float)255' was evaluted to '{(float)byteMaxValue}'. Expected: '255f'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveByteMinValueCastToSingleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveByteMinValueCastToSingleIsFoldedCorrectly()
{
byte integerOneIncrementAboveByteMinValue = 1;
if (BreakUpFlow())
return;
if (checked((float)integerOneIncrementAboveByteMinValue) != 1f)
{
Console.WriteLine($"'(float)1' was evaluted to '{(float)integerOneIncrementAboveByteMinValue}'. Expected: '1f'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderByteMaxValueCastToSingleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderByteMaxValueCastToSingleIsFoldedCorrectly()
{
byte integerOneDecrementUnderByteMaxValue = 254;
if (BreakUpFlow())
return;
if (checked((float)integerOneDecrementUnderByteMaxValue) != 254f)
{
Console.WriteLine($"'(float)254' was evaluted to '{(float)integerOneDecrementUnderByteMaxValue}'. Expected: '254f'.");
_counter++;
}
}
}
private static void TestCastingByteToDouble()
{
ConfirmIntegerZeroCastToDoubleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerZeroCastToDoubleIsFoldedCorrectly()
{
byte integerZero = 0;
if (BreakUpFlow())
return;
if (checked((double)integerZero) != 0d)
{
Console.WriteLine($"'(double)0' was evaluted to '{(double)integerZero}'. Expected: '0d'.");
_counter++;
}
}
ConfirmSByteMaxValueCastToDoubleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMaxValueCastToDoubleIsFoldedCorrectly()
{
byte sByteMaxValue = 127;
if (BreakUpFlow())
return;
if (checked((double)sByteMaxValue) != 127d)
{
Console.WriteLine($"'(double)127' was evaluted to '{(double)sByteMaxValue}'. Expected: '127d'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderSByteMaxValueCastToDoubleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderSByteMaxValueCastToDoubleIsFoldedCorrectly()
{
byte integerOneDecrementUnderSByteMaxValue = 126;
if (BreakUpFlow())
return;
if (checked((double)integerOneDecrementUnderSByteMaxValue) != 126d)
{
Console.WriteLine($"'(double)126' was evaluted to '{(double)integerOneDecrementUnderSByteMaxValue}'. Expected: '126d'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveSByteMaxValueCastToDoubleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveSByteMaxValueCastToDoubleIsFoldedCorrectly()
{
byte integerOneIncrementAboveSByteMaxValue = 128;
if (BreakUpFlow())
return;
if (checked((double)integerOneIncrementAboveSByteMaxValue) != 128d)
{
Console.WriteLine($"'(double)128' was evaluted to '{(double)integerOneIncrementAboveSByteMaxValue}'. Expected: '128d'.");
_counter++;
}
}
ConfirmByteMaxValueCastToDoubleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmByteMaxValueCastToDoubleIsFoldedCorrectly()
{
byte byteMaxValue = 255;
if (BreakUpFlow())
return;
if (checked((double)byteMaxValue) != 255d)
{
Console.WriteLine($"'(double)255' was evaluted to '{(double)byteMaxValue}'. Expected: '255d'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveByteMinValueCastToDoubleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveByteMinValueCastToDoubleIsFoldedCorrectly()
{
byte integerOneIncrementAboveByteMinValue = 1;
if (BreakUpFlow())
return;
if (checked((double)integerOneIncrementAboveByteMinValue) != 1d)
{
Console.WriteLine($"'(double)1' was evaluted to '{(double)integerOneIncrementAboveByteMinValue}'. Expected: '1d'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderByteMaxValueCastToDoubleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderByteMaxValueCastToDoubleIsFoldedCorrectly()
{
byte integerOneDecrementUnderByteMaxValue = 254;
if (BreakUpFlow())
return;
if (checked((double)integerOneDecrementUnderByteMaxValue) != 254d)
{
Console.WriteLine($"'(double)254' was evaluted to '{(double)integerOneDecrementUnderByteMaxValue}'. Expected: '254d'.");
_counter++;
}
}
}
private static void TestCastingByteToSByte()
{
ConfirmIntegerZeroCastToSByteIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerZeroCastToSByteIsFoldedCorrectly()
{
byte integerZero = 0;
if (BreakUpFlow())
return;
if (checked((sbyte)integerZero) != 0)
{
Console.WriteLine($"'(sbyte)0' was evaluted to '{(sbyte)integerZero}'. Expected: '0'.");
_counter++;
}
}
ConfirmSByteMaxValueCastToSByteIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMaxValueCastToSByteIsFoldedCorrectly()
{
byte sByteMaxValue = 127;
if (BreakUpFlow())
return;
if (checked((sbyte)sByteMaxValue) != 127)
{
Console.WriteLine($"'(sbyte)127' was evaluted to '{(sbyte)sByteMaxValue}'. Expected: '127'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderSByteMaxValueCastToSByteIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderSByteMaxValueCastToSByteIsFoldedCorrectly()
{
byte integerOneDecrementUnderSByteMaxValue = 126;
if (BreakUpFlow())
return;
if (checked((sbyte)integerOneDecrementUnderSByteMaxValue) != 126)
{
Console.WriteLine($"'(sbyte)126' was evaluted to '{(sbyte)integerOneDecrementUnderSByteMaxValue}'. Expected: '126'.");
_counter++;
}
}
ConfirmByteOneIncrementAboveSByteMaxValueCastToSByteOverflows();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmByteOneIncrementAboveSByteMaxValueCastToSByteOverflows()
{
byte from = 128;
_counter++;
try
{
_ = checked((sbyte)from);
}
catch (OverflowException) { _counter--; }
if (_counter != 100)
Console.WriteLine("'checked((sbyte)128)' did not throw OverflowException.");
}
ConfirmByteMaxValueCastToSByteOverflows();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmByteMaxValueCastToSByteOverflows()
{
byte from = 255;
_counter++;
try
{
_ = checked((sbyte)from);
}
catch (OverflowException) { _counter--; }
if (_counter != 100)
Console.WriteLine("'checked((sbyte)255)' did not throw OverflowException.");
}
ConfirmIntegerOneIncrementAboveByteMinValueCastToSByteIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveByteMinValueCastToSByteIsFoldedCorrectly()
{
byte integerOneIncrementAboveByteMinValue = 1;
if (BreakUpFlow())
return;
if (checked((sbyte)integerOneIncrementAboveByteMinValue) != 1)
{
Console.WriteLine($"'(sbyte)1' was evaluted to '{(sbyte)integerOneIncrementAboveByteMinValue}'. Expected: '1'.");
_counter++;
}
}
ConfirmByteOneDecrementUnderByteMaxValueCastToSByteOverflows();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmByteOneDecrementUnderByteMaxValueCastToSByteOverflows()
{
byte from = 254;
_counter++;
try
{
_ = checked((sbyte)from);
}
catch (OverflowException) { _counter--; }
if (_counter != 100)
Console.WriteLine("'checked((sbyte)254)' did not throw OverflowException.");
}
}
private static void TestCastingByteToByte()
{
ConfirmIntegerZeroCastToByteIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerZeroCastToByteIsFoldedCorrectly()
{
byte integerZero = 0;
if (BreakUpFlow())
return;
if (checked((byte)integerZero) != 0)
{
Console.WriteLine($"'(byte)0' was evaluted to '{(byte)integerZero}'. Expected: '0'.");
_counter++;
}
}
ConfirmSByteMaxValueCastToByteIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMaxValueCastToByteIsFoldedCorrectly()
{
byte sByteMaxValue = 127;
if (BreakUpFlow())
return;
if (checked((byte)sByteMaxValue) != 127)
{
Console.WriteLine($"'(byte)127' was evaluted to '{(byte)sByteMaxValue}'. Expected: '127'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderSByteMaxValueCastToByteIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderSByteMaxValueCastToByteIsFoldedCorrectly()
{
byte integerOneDecrementUnderSByteMaxValue = 126;
if (BreakUpFlow())
return;
if (checked((byte)integerOneDecrementUnderSByteMaxValue) != 126)
{
Console.WriteLine($"'(byte)126' was evaluted to '{(byte)integerOneDecrementUnderSByteMaxValue}'. Expected: '126'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveSByteMaxValueCastToByteIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveSByteMaxValueCastToByteIsFoldedCorrectly()
{
byte integerOneIncrementAboveSByteMaxValue = 128;
if (BreakUpFlow())
return;
if (checked((byte)integerOneIncrementAboveSByteMaxValue) != 128)
{
Console.WriteLine($"'(byte)128' was evaluted to '{(byte)integerOneIncrementAboveSByteMaxValue}'. Expected: '128'.");
_counter++;
}
}
ConfirmByteMaxValueCastToByteIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmByteMaxValueCastToByteIsFoldedCorrectly()
{
byte byteMaxValue = 255;
if (BreakUpFlow())
return;
if (checked((byte)byteMaxValue) != 255)
{
Console.WriteLine($"'(byte)255' was evaluted to '{(byte)byteMaxValue}'. Expected: '255'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveByteMinValueCastToByteIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveByteMinValueCastToByteIsFoldedCorrectly()
{
byte integerOneIncrementAboveByteMinValue = 1;
if (BreakUpFlow())
return;
if (checked((byte)integerOneIncrementAboveByteMinValue) != 1)
{
Console.WriteLine($"'(byte)1' was evaluted to '{(byte)integerOneIncrementAboveByteMinValue}'. Expected: '1'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderByteMaxValueCastToByteIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderByteMaxValueCastToByteIsFoldedCorrectly()
{
byte integerOneDecrementUnderByteMaxValue = 254;
if (BreakUpFlow())
return;
if (checked((byte)integerOneDecrementUnderByteMaxValue) != 254)
{
Console.WriteLine($"'(byte)254' was evaluted to '{(byte)integerOneDecrementUnderByteMaxValue}'. Expected: '254'.");
_counter++;
}
}
}
private static void TestCastingByteToInt16()
{
ConfirmIntegerZeroCastToInt16IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerZeroCastToInt16IsFoldedCorrectly()
{
byte integerZero = 0;
if (BreakUpFlow())
return;
if (checked((short)integerZero) != 0)
{
Console.WriteLine($"'(short)0' was evaluted to '{(short)integerZero}'. Expected: '0'.");
_counter++;
}
}
ConfirmSByteMaxValueCastToInt16IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMaxValueCastToInt16IsFoldedCorrectly()
{
byte sByteMaxValue = 127;
if (BreakUpFlow())
return;
if (checked((short)sByteMaxValue) != 127)
{
Console.WriteLine($"'(short)127' was evaluted to '{(short)sByteMaxValue}'. Expected: '127'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderSByteMaxValueCastToInt16IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderSByteMaxValueCastToInt16IsFoldedCorrectly()
{
byte integerOneDecrementUnderSByteMaxValue = 126;
if (BreakUpFlow())
return;
if (checked((short)integerOneDecrementUnderSByteMaxValue) != 126)
{
Console.WriteLine($"'(short)126' was evaluted to '{(short)integerOneDecrementUnderSByteMaxValue}'. Expected: '126'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveSByteMaxValueCastToInt16IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveSByteMaxValueCastToInt16IsFoldedCorrectly()
{
byte integerOneIncrementAboveSByteMaxValue = 128;
if (BreakUpFlow())
return;
if (checked((short)integerOneIncrementAboveSByteMaxValue) != 128)
{
Console.WriteLine($"'(short)128' was evaluted to '{(short)integerOneIncrementAboveSByteMaxValue}'. Expected: '128'.");
_counter++;
}
}
ConfirmByteMaxValueCastToInt16IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmByteMaxValueCastToInt16IsFoldedCorrectly()
{
byte byteMaxValue = 255;
if (BreakUpFlow())
return;
if (checked((short)byteMaxValue) != 255)
{
Console.WriteLine($"'(short)255' was evaluted to '{(short)byteMaxValue}'. Expected: '255'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveByteMinValueCastToInt16IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveByteMinValueCastToInt16IsFoldedCorrectly()
{
byte integerOneIncrementAboveByteMinValue = 1;
if (BreakUpFlow())
return;
if (checked((short)integerOneIncrementAboveByteMinValue) != 1)
{
Console.WriteLine($"'(short)1' was evaluted to '{(short)integerOneIncrementAboveByteMinValue}'. Expected: '1'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderByteMaxValueCastToInt16IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderByteMaxValueCastToInt16IsFoldedCorrectly()
{
byte integerOneDecrementUnderByteMaxValue = 254;
if (BreakUpFlow())
return;
if (checked((short)integerOneDecrementUnderByteMaxValue) != 254)
{
Console.WriteLine($"'(short)254' was evaluted to '{(short)integerOneDecrementUnderByteMaxValue}'. Expected: '254'.");
_counter++;
}
}
}
private static void TestCastingByteToUInt16()
{
ConfirmIntegerZeroCastToUInt16IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerZeroCastToUInt16IsFoldedCorrectly()
{
byte integerZero = 0;
if (BreakUpFlow())
return;
if (checked((ushort)integerZero) != 0)
{
Console.WriteLine($"'(ushort)0' was evaluted to '{(ushort)integerZero}'. Expected: '0'.");
_counter++;
}
}
ConfirmSByteMaxValueCastToUInt16IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMaxValueCastToUInt16IsFoldedCorrectly()
{
byte sByteMaxValue = 127;
if (BreakUpFlow())
return;
if (checked((ushort)sByteMaxValue) != 127)
{
Console.WriteLine($"'(ushort)127' was evaluted to '{(ushort)sByteMaxValue}'. Expected: '127'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderSByteMaxValueCastToUInt16IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderSByteMaxValueCastToUInt16IsFoldedCorrectly()
{
byte integerOneDecrementUnderSByteMaxValue = 126;
if (BreakUpFlow())
return;
if (checked((ushort)integerOneDecrementUnderSByteMaxValue) != 126)
{
Console.WriteLine($"'(ushort)126' was evaluted to '{(ushort)integerOneDecrementUnderSByteMaxValue}'. Expected: '126'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveSByteMaxValueCastToUInt16IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveSByteMaxValueCastToUInt16IsFoldedCorrectly()
{
byte integerOneIncrementAboveSByteMaxValue = 128;
if (BreakUpFlow())
return;
if (checked((ushort)integerOneIncrementAboveSByteMaxValue) != 128)
{
Console.WriteLine($"'(ushort)128' was evaluted to '{(ushort)integerOneIncrementAboveSByteMaxValue}'. Expected: '128'.");
_counter++;
}
}
ConfirmByteMaxValueCastToUInt16IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmByteMaxValueCastToUInt16IsFoldedCorrectly()
{
byte byteMaxValue = 255;
if (BreakUpFlow())
return;
if (checked((ushort)byteMaxValue) != 255)
{
Console.WriteLine($"'(ushort)255' was evaluted to '{(ushort)byteMaxValue}'. Expected: '255'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveByteMinValueCastToUInt16IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveByteMinValueCastToUInt16IsFoldedCorrectly()
{
byte integerOneIncrementAboveByteMinValue = 1;
if (BreakUpFlow())
return;
if (checked((ushort)integerOneIncrementAboveByteMinValue) != 1)
{
Console.WriteLine($"'(ushort)1' was evaluted to '{(ushort)integerOneIncrementAboveByteMinValue}'. Expected: '1'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderByteMaxValueCastToUInt16IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderByteMaxValueCastToUInt16IsFoldedCorrectly()
{
byte integerOneDecrementUnderByteMaxValue = 254;
if (BreakUpFlow())
return;
if (checked((ushort)integerOneDecrementUnderByteMaxValue) != 254)
{
Console.WriteLine($"'(ushort)254' was evaluted to '{(ushort)integerOneDecrementUnderByteMaxValue}'. Expected: '254'.");
_counter++;
}
}
}
private static void TestCastingByteToInt32()
{
ConfirmIntegerZeroCastToInt32IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerZeroCastToInt32IsFoldedCorrectly()
{
byte integerZero = 0;
if (BreakUpFlow())
return;
if (checked((int)integerZero) != 0)
{
Console.WriteLine($"'(int)0' was evaluted to '{(int)integerZero}'. Expected: '0'.");
_counter++;
}
}
ConfirmSByteMaxValueCastToInt32IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMaxValueCastToInt32IsFoldedCorrectly()
{
byte sByteMaxValue = 127;
if (BreakUpFlow())
return;
if (checked((int)sByteMaxValue) != 127)
{
Console.WriteLine($"'(int)127' was evaluted to '{(int)sByteMaxValue}'. Expected: '127'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderSByteMaxValueCastToInt32IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderSByteMaxValueCastToInt32IsFoldedCorrectly()
{
byte integerOneDecrementUnderSByteMaxValue = 126;
if (BreakUpFlow())
return;
if (checked((int)integerOneDecrementUnderSByteMaxValue) != 126)
{
Console.WriteLine($"'(int)126' was evaluted to '{(int)integerOneDecrementUnderSByteMaxValue}'. Expected: '126'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveSByteMaxValueCastToInt32IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveSByteMaxValueCastToInt32IsFoldedCorrectly()
{
byte integerOneIncrementAboveSByteMaxValue = 128;
if (BreakUpFlow())
return;
if (checked((int)integerOneIncrementAboveSByteMaxValue) != 128)
{
Console.WriteLine($"'(int)128' was evaluted to '{(int)integerOneIncrementAboveSByteMaxValue}'. Expected: '128'.");
_counter++;
}
}
ConfirmByteMaxValueCastToInt32IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmByteMaxValueCastToInt32IsFoldedCorrectly()
{
byte byteMaxValue = 255;
if (BreakUpFlow())
return;
if (checked((int)byteMaxValue) != 255)
{
Console.WriteLine($"'(int)255' was evaluted to '{(int)byteMaxValue}'. Expected: '255'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveByteMinValueCastToInt32IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveByteMinValueCastToInt32IsFoldedCorrectly()
{
byte integerOneIncrementAboveByteMinValue = 1;
if (BreakUpFlow())
return;
if (checked((int)integerOneIncrementAboveByteMinValue) != 1)
{
Console.WriteLine($"'(int)1' was evaluted to '{(int)integerOneIncrementAboveByteMinValue}'. Expected: '1'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderByteMaxValueCastToInt32IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderByteMaxValueCastToInt32IsFoldedCorrectly()
{
byte integerOneDecrementUnderByteMaxValue = 254;
if (BreakUpFlow())
return;
if (checked((int)integerOneDecrementUnderByteMaxValue) != 254)
{
Console.WriteLine($"'(int)254' was evaluted to '{(int)integerOneDecrementUnderByteMaxValue}'. Expected: '254'.");
_counter++;
}
}
}
private static void TestCastingByteToUInt32()
{
ConfirmIntegerZeroCastToUInt32IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerZeroCastToUInt32IsFoldedCorrectly()
{
byte integerZero = 0;
if (BreakUpFlow())
return;
if (checked((uint)integerZero) != 0)
{
Console.WriteLine($"'(uint)0' was evaluted to '{(uint)integerZero}'. Expected: '0'.");
_counter++;
}
}
ConfirmSByteMaxValueCastToUInt32IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMaxValueCastToUInt32IsFoldedCorrectly()
{
byte sByteMaxValue = 127;
if (BreakUpFlow())
return;
if (checked((uint)sByteMaxValue) != 127)
{
Console.WriteLine($"'(uint)127' was evaluted to '{(uint)sByteMaxValue}'. Expected: '127'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderSByteMaxValueCastToUInt32IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderSByteMaxValueCastToUInt32IsFoldedCorrectly()
{
byte integerOneDecrementUnderSByteMaxValue = 126;
if (BreakUpFlow())
return;
if (checked((uint)integerOneDecrementUnderSByteMaxValue) != 126)
{
Console.WriteLine($"'(uint)126' was evaluted to '{(uint)integerOneDecrementUnderSByteMaxValue}'. Expected: '126'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveSByteMaxValueCastToUInt32IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveSByteMaxValueCastToUInt32IsFoldedCorrectly()
{
byte integerOneIncrementAboveSByteMaxValue = 128;
if (BreakUpFlow())
return;
if (checked((uint)integerOneIncrementAboveSByteMaxValue) != 128)
{
Console.WriteLine($"'(uint)128' was evaluted to '{(uint)integerOneIncrementAboveSByteMaxValue}'. Expected: '128'.");
_counter++;
}
}
ConfirmByteMaxValueCastToUInt32IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmByteMaxValueCastToUInt32IsFoldedCorrectly()
{
byte byteMaxValue = 255;
if (BreakUpFlow())
return;
if (checked((uint)byteMaxValue) != 255)
{
Console.WriteLine($"'(uint)255' was evaluted to '{(uint)byteMaxValue}'. Expected: '255'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveByteMinValueCastToUInt32IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveByteMinValueCastToUInt32IsFoldedCorrectly()
{
byte integerOneIncrementAboveByteMinValue = 1;
if (BreakUpFlow())
return;
if (checked((uint)integerOneIncrementAboveByteMinValue) != 1)
{
Console.WriteLine($"'(uint)1' was evaluted to '{(uint)integerOneIncrementAboveByteMinValue}'. Expected: '1'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderByteMaxValueCastToUInt32IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderByteMaxValueCastToUInt32IsFoldedCorrectly()
{
byte integerOneDecrementUnderByteMaxValue = 254;
if (BreakUpFlow())
return;
if (checked((uint)integerOneDecrementUnderByteMaxValue) != 254)
{
Console.WriteLine($"'(uint)254' was evaluted to '{(uint)integerOneDecrementUnderByteMaxValue}'. Expected: '254'.");
_counter++;
}
}
}
private static void TestCastingByteToInt64()
{
ConfirmIntegerZeroCastToInt64IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerZeroCastToInt64IsFoldedCorrectly()
{
byte integerZero = 0;
if (BreakUpFlow())
return;
if (checked((long)integerZero) != 0)
{
Console.WriteLine($"'(long)0' was evaluted to '{(long)integerZero}'. Expected: '0'.");
_counter++;
}
}
ConfirmSByteMaxValueCastToInt64IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMaxValueCastToInt64IsFoldedCorrectly()
{
byte sByteMaxValue = 127;
if (BreakUpFlow())
return;
if (checked((long)sByteMaxValue) != 127)
{
Console.WriteLine($"'(long)127' was evaluted to '{(long)sByteMaxValue}'. Expected: '127'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderSByteMaxValueCastToInt64IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderSByteMaxValueCastToInt64IsFoldedCorrectly()
{
byte integerOneDecrementUnderSByteMaxValue = 126;
if (BreakUpFlow())
return;
if (checked((long)integerOneDecrementUnderSByteMaxValue) != 126)
{
Console.WriteLine($"'(long)126' was evaluted to '{(long)integerOneDecrementUnderSByteMaxValue}'. Expected: '126'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveSByteMaxValueCastToInt64IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveSByteMaxValueCastToInt64IsFoldedCorrectly()
{
byte integerOneIncrementAboveSByteMaxValue = 128;
if (BreakUpFlow())
return;
if (checked((long)integerOneIncrementAboveSByteMaxValue) != 128)
{
Console.WriteLine($"'(long)128' was evaluted to '{(long)integerOneIncrementAboveSByteMaxValue}'. Expected: '128'.");
_counter++;
}
}
ConfirmByteMaxValueCastToInt64IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmByteMaxValueCastToInt64IsFoldedCorrectly()
{
byte byteMaxValue = 255;
if (BreakUpFlow())
return;
if (checked((long)byteMaxValue) != 255)
{
Console.WriteLine($"'(long)255' was evaluted to '{(long)byteMaxValue}'. Expected: '255'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveByteMinValueCastToInt64IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveByteMinValueCastToInt64IsFoldedCorrectly()
{
byte integerOneIncrementAboveByteMinValue = 1;
if (BreakUpFlow())
return;
if (checked((long)integerOneIncrementAboveByteMinValue) != 1)
{
Console.WriteLine($"'(long)1' was evaluted to '{(long)integerOneIncrementAboveByteMinValue}'. Expected: '1'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderByteMaxValueCastToInt64IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderByteMaxValueCastToInt64IsFoldedCorrectly()
{
byte integerOneDecrementUnderByteMaxValue = 254;
if (BreakUpFlow())
return;
if (checked((long)integerOneDecrementUnderByteMaxValue) != 254)
{
Console.WriteLine($"'(long)254' was evaluted to '{(long)integerOneDecrementUnderByteMaxValue}'. Expected: '254'.");
_counter++;
}
}
}
private static void TestCastingByteToUInt64()
{
ConfirmIntegerZeroCastToUInt64IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerZeroCastToUInt64IsFoldedCorrectly()
{
byte integerZero = 0;
if (BreakUpFlow())
return;
if (checked((ulong)integerZero) != 0)
{
Console.WriteLine($"'(ulong)0' was evaluted to '{(ulong)integerZero}'. Expected: '0'.");
_counter++;
}
}
ConfirmSByteMaxValueCastToUInt64IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMaxValueCastToUInt64IsFoldedCorrectly()
{
byte sByteMaxValue = 127;
if (BreakUpFlow())
return;
if (checked((ulong)sByteMaxValue) != 127)
{
Console.WriteLine($"'(ulong)127' was evaluted to '{(ulong)sByteMaxValue}'. Expected: '127'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderSByteMaxValueCastToUInt64IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderSByteMaxValueCastToUInt64IsFoldedCorrectly()
{
byte integerOneDecrementUnderSByteMaxValue = 126;
if (BreakUpFlow())
return;
if (checked((ulong)integerOneDecrementUnderSByteMaxValue) != 126)
{
Console.WriteLine($"'(ulong)126' was evaluted to '{(ulong)integerOneDecrementUnderSByteMaxValue}'. Expected: '126'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveSByteMaxValueCastToUInt64IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveSByteMaxValueCastToUInt64IsFoldedCorrectly()
{
byte integerOneIncrementAboveSByteMaxValue = 128;
if (BreakUpFlow())
return;
if (checked((ulong)integerOneIncrementAboveSByteMaxValue) != 128)
{
Console.WriteLine($"'(ulong)128' was evaluted to '{(ulong)integerOneIncrementAboveSByteMaxValue}'. Expected: '128'.");
_counter++;
}
}
ConfirmByteMaxValueCastToUInt64IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmByteMaxValueCastToUInt64IsFoldedCorrectly()
{
byte byteMaxValue = 255;
if (BreakUpFlow())
return;
if (checked((ulong)byteMaxValue) != 255)
{
Console.WriteLine($"'(ulong)255' was evaluted to '{(ulong)byteMaxValue}'. Expected: '255'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveByteMinValueCastToUInt64IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveByteMinValueCastToUInt64IsFoldedCorrectly()
{
byte integerOneIncrementAboveByteMinValue = 1;
if (BreakUpFlow())
return;
if (checked((ulong)integerOneIncrementAboveByteMinValue) != 1)
{
Console.WriteLine($"'(ulong)1' was evaluted to '{(ulong)integerOneIncrementAboveByteMinValue}'. Expected: '1'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderByteMaxValueCastToUInt64IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderByteMaxValueCastToUInt64IsFoldedCorrectly()
{
byte integerOneDecrementUnderByteMaxValue = 254;
if (BreakUpFlow())
return;
if (checked((ulong)integerOneDecrementUnderByteMaxValue) != 254)
{
Console.WriteLine($"'(ulong)254' was evaluted to '{(ulong)integerOneDecrementUnderByteMaxValue}'. Expected: '254'.");
_counter++;
}
}
}
}
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
using System;
using System.Runtime.CompilerServices;
public partial class ValueNumberingCheckedCastsOfConstants
{
private static void TestCastingSByteToSingle()
{
ConfirmIntegerZeroCastToSingleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerZeroCastToSingleIsFoldedCorrectly()
{
sbyte integerZero = 0;
if (BreakUpFlow())
return;
if (checked((float)integerZero) != 0f)
{
Console.WriteLine($"'(float)0' was evaluted to '{(float)integerZero}'. Expected: '0f'.");
_counter++;
}
}
ConfirmSByteMinValueCastToSingleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMinValueCastToSingleIsFoldedCorrectly()
{
sbyte sByteMinValue = -128;
if (BreakUpFlow())
return;
if (checked((float)sByteMinValue) != -128f)
{
Console.WriteLine($"'(float)-128' was evaluted to '{(float)sByteMinValue}'. Expected: '-128f'.");
_counter++;
}
}
ConfirmSByteMaxValueCastToSingleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMaxValueCastToSingleIsFoldedCorrectly()
{
sbyte sByteMaxValue = 127;
if (BreakUpFlow())
return;
if (checked((float)sByteMaxValue) != 127f)
{
Console.WriteLine($"'(float)127' was evaluted to '{(float)sByteMaxValue}'. Expected: '127f'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveSByteMinValueCastToSingleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveSByteMinValueCastToSingleIsFoldedCorrectly()
{
sbyte integerOneIncrementAboveSByteMinValue = -127;
if (BreakUpFlow())
return;
if (checked((float)integerOneIncrementAboveSByteMinValue) != -127f)
{
Console.WriteLine($"'(float)-127' was evaluted to '{(float)integerOneIncrementAboveSByteMinValue}'. Expected: '-127f'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderSByteMaxValueCastToSingleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderSByteMaxValueCastToSingleIsFoldedCorrectly()
{
sbyte integerOneDecrementUnderSByteMaxValue = 126;
if (BreakUpFlow())
return;
if (checked((float)integerOneDecrementUnderSByteMaxValue) != 126f)
{
Console.WriteLine($"'(float)126' was evaluted to '{(float)integerOneDecrementUnderSByteMaxValue}'. Expected: '126f'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderByteMinValueCastToSingleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderByteMinValueCastToSingleIsFoldedCorrectly()
{
sbyte integerOneDecrementUnderByteMinValue = -1;
if (BreakUpFlow())
return;
if (checked((float)integerOneDecrementUnderByteMinValue) != -1f)
{
Console.WriteLine($"'(float)-1' was evaluted to '{(float)integerOneDecrementUnderByteMinValue}'. Expected: '-1f'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveByteMinValueCastToSingleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveByteMinValueCastToSingleIsFoldedCorrectly()
{
sbyte integerOneIncrementAboveByteMinValue = 1;
if (BreakUpFlow())
return;
if (checked((float)integerOneIncrementAboveByteMinValue) != 1f)
{
Console.WriteLine($"'(float)1' was evaluted to '{(float)integerOneIncrementAboveByteMinValue}'. Expected: '1f'.");
_counter++;
}
}
}
private static void TestCastingSByteToDouble()
{
ConfirmIntegerZeroCastToDoubleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerZeroCastToDoubleIsFoldedCorrectly()
{
sbyte integerZero = 0;
if (BreakUpFlow())
return;
if (checked((double)integerZero) != 0d)
{
Console.WriteLine($"'(double)0' was evaluted to '{(double)integerZero}'. Expected: '0d'.");
_counter++;
}
}
ConfirmSByteMinValueCastToDoubleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMinValueCastToDoubleIsFoldedCorrectly()
{
sbyte sByteMinValue = -128;
if (BreakUpFlow())
return;
if (checked((double)sByteMinValue) != -128d)
{
Console.WriteLine($"'(double)-128' was evaluted to '{(double)sByteMinValue}'. Expected: '-128d'.");
_counter++;
}
}
ConfirmSByteMaxValueCastToDoubleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMaxValueCastToDoubleIsFoldedCorrectly()
{
sbyte sByteMaxValue = 127;
if (BreakUpFlow())
return;
if (checked((double)sByteMaxValue) != 127d)
{
Console.WriteLine($"'(double)127' was evaluted to '{(double)sByteMaxValue}'. Expected: '127d'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveSByteMinValueCastToDoubleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveSByteMinValueCastToDoubleIsFoldedCorrectly()
{
sbyte integerOneIncrementAboveSByteMinValue = -127;
if (BreakUpFlow())
return;
if (checked((double)integerOneIncrementAboveSByteMinValue) != -127d)
{
Console.WriteLine($"'(double)-127' was evaluted to '{(double)integerOneIncrementAboveSByteMinValue}'. Expected: '-127d'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderSByteMaxValueCastToDoubleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderSByteMaxValueCastToDoubleIsFoldedCorrectly()
{
sbyte integerOneDecrementUnderSByteMaxValue = 126;
if (BreakUpFlow())
return;
if (checked((double)integerOneDecrementUnderSByteMaxValue) != 126d)
{
Console.WriteLine($"'(double)126' was evaluted to '{(double)integerOneDecrementUnderSByteMaxValue}'. Expected: '126d'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderByteMinValueCastToDoubleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderByteMinValueCastToDoubleIsFoldedCorrectly()
{
sbyte integerOneDecrementUnderByteMinValue = -1;
if (BreakUpFlow())
return;
if (checked((double)integerOneDecrementUnderByteMinValue) != -1d)
{
Console.WriteLine($"'(double)-1' was evaluted to '{(double)integerOneDecrementUnderByteMinValue}'. Expected: '-1d'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveByteMinValueCastToDoubleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveByteMinValueCastToDoubleIsFoldedCorrectly()
{
sbyte integerOneIncrementAboveByteMinValue = 1;
if (BreakUpFlow())
return;
if (checked((double)integerOneIncrementAboveByteMinValue) != 1d)
{
Console.WriteLine($"'(double)1' was evaluted to '{(double)integerOneIncrementAboveByteMinValue}'. Expected: '1d'.");
_counter++;
}
}
}
private static void TestCastingSByteToSByte()
{
ConfirmIntegerZeroCastToSByteIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerZeroCastToSByteIsFoldedCorrectly()
{
sbyte integerZero = 0;
if (BreakUpFlow())
return;
if (checked((sbyte)integerZero) != 0)
{
Console.WriteLine($"'(sbyte)0' was evaluted to '{(sbyte)integerZero}'. Expected: '0'.");
_counter++;
}
}
ConfirmSByteMinValueCastToSByteIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMinValueCastToSByteIsFoldedCorrectly()
{
sbyte sByteMinValue = -128;
if (BreakUpFlow())
return;
if (checked((sbyte)sByteMinValue) != -128)
{
Console.WriteLine($"'(sbyte)-128' was evaluted to '{(sbyte)sByteMinValue}'. Expected: '-128'.");
_counter++;
}
}
ConfirmSByteMaxValueCastToSByteIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMaxValueCastToSByteIsFoldedCorrectly()
{
sbyte sByteMaxValue = 127;
if (BreakUpFlow())
return;
if (checked((sbyte)sByteMaxValue) != 127)
{
Console.WriteLine($"'(sbyte)127' was evaluted to '{(sbyte)sByteMaxValue}'. Expected: '127'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveSByteMinValueCastToSByteIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveSByteMinValueCastToSByteIsFoldedCorrectly()
{
sbyte integerOneIncrementAboveSByteMinValue = -127;
if (BreakUpFlow())
return;
if (checked((sbyte)integerOneIncrementAboveSByteMinValue) != -127)
{
Console.WriteLine($"'(sbyte)-127' was evaluted to '{(sbyte)integerOneIncrementAboveSByteMinValue}'. Expected: '-127'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderSByteMaxValueCastToSByteIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderSByteMaxValueCastToSByteIsFoldedCorrectly()
{
sbyte integerOneDecrementUnderSByteMaxValue = 126;
if (BreakUpFlow())
return;
if (checked((sbyte)integerOneDecrementUnderSByteMaxValue) != 126)
{
Console.WriteLine($"'(sbyte)126' was evaluted to '{(sbyte)integerOneDecrementUnderSByteMaxValue}'. Expected: '126'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderByteMinValueCastToSByteIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderByteMinValueCastToSByteIsFoldedCorrectly()
{
sbyte integerOneDecrementUnderByteMinValue = -1;
if (BreakUpFlow())
return;
if (checked((sbyte)integerOneDecrementUnderByteMinValue) != -1)
{
Console.WriteLine($"'(sbyte)-1' was evaluted to '{(sbyte)integerOneDecrementUnderByteMinValue}'. Expected: '-1'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveByteMinValueCastToSByteIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveByteMinValueCastToSByteIsFoldedCorrectly()
{
sbyte integerOneIncrementAboveByteMinValue = 1;
if (BreakUpFlow())
return;
if (checked((sbyte)integerOneIncrementAboveByteMinValue) != 1)
{
Console.WriteLine($"'(sbyte)1' was evaluted to '{(sbyte)integerOneIncrementAboveByteMinValue}'. Expected: '1'.");
_counter++;
}
}
}
private static void TestCastingSByteToByte()
{
ConfirmIntegerZeroCastToByteIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerZeroCastToByteIsFoldedCorrectly()
{
sbyte integerZero = 0;
if (BreakUpFlow())
return;
if (checked((byte)integerZero) != 0)
{
Console.WriteLine($"'(byte)0' was evaluted to '{(byte)integerZero}'. Expected: '0'.");
_counter++;
}
}
ConfirmSByteMinValueCastToByteOverflows();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMinValueCastToByteOverflows()
{
sbyte from = -128;
_counter++;
try
{
_ = checked((byte)from);
}
catch (OverflowException) { _counter--; }
if (_counter != 100)
Console.WriteLine("'checked((byte)-128)' did not throw OverflowException.");
}
ConfirmSByteMaxValueCastToByteIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMaxValueCastToByteIsFoldedCorrectly()
{
sbyte sByteMaxValue = 127;
if (BreakUpFlow())
return;
if (checked((byte)sByteMaxValue) != 127)
{
Console.WriteLine($"'(byte)127' was evaluted to '{(byte)sByteMaxValue}'. Expected: '127'.");
_counter++;
}
}
ConfirmSByteOneIncrementAboveSByteMinValueCastToByteOverflows();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteOneIncrementAboveSByteMinValueCastToByteOverflows()
{
sbyte from = -127;
_counter++;
try
{
_ = checked((byte)from);
}
catch (OverflowException) { _counter--; }
if (_counter != 100)
Console.WriteLine("'checked((byte)-127)' did not throw OverflowException.");
}
ConfirmIntegerOneDecrementUnderSByteMaxValueCastToByteIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderSByteMaxValueCastToByteIsFoldedCorrectly()
{
sbyte integerOneDecrementUnderSByteMaxValue = 126;
if (BreakUpFlow())
return;
if (checked((byte)integerOneDecrementUnderSByteMaxValue) != 126)
{
Console.WriteLine($"'(byte)126' was evaluted to '{(byte)integerOneDecrementUnderSByteMaxValue}'. Expected: '126'.");
_counter++;
}
}
ConfirmSByteOneDecrementUnderByteMinValueCastToByteOverflows();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteOneDecrementUnderByteMinValueCastToByteOverflows()
{
sbyte from = -1;
_counter++;
try
{
_ = checked((byte)from);
}
catch (OverflowException) { _counter--; }
if (_counter != 100)
Console.WriteLine("'checked((byte)-1)' did not throw OverflowException.");
}
ConfirmIntegerOneIncrementAboveByteMinValueCastToByteIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveByteMinValueCastToByteIsFoldedCorrectly()
{
sbyte integerOneIncrementAboveByteMinValue = 1;
if (BreakUpFlow())
return;
if (checked((byte)integerOneIncrementAboveByteMinValue) != 1)
{
Console.WriteLine($"'(byte)1' was evaluted to '{(byte)integerOneIncrementAboveByteMinValue}'. Expected: '1'.");
_counter++;
}
}
}
private static void TestCastingSByteToInt16()
{
ConfirmIntegerZeroCastToInt16IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerZeroCastToInt16IsFoldedCorrectly()
{
sbyte integerZero = 0;
if (BreakUpFlow())
return;
if (checked((short)integerZero) != 0)
{
Console.WriteLine($"'(short)0' was evaluted to '{(short)integerZero}'. Expected: '0'.");
_counter++;
}
}
ConfirmSByteMinValueCastToInt16IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMinValueCastToInt16IsFoldedCorrectly()
{
sbyte sByteMinValue = -128;
if (BreakUpFlow())
return;
if (checked((short)sByteMinValue) != -128)
{
Console.WriteLine($"'(short)-128' was evaluted to '{(short)sByteMinValue}'. Expected: '-128'.");
_counter++;
}
}
ConfirmSByteMaxValueCastToInt16IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMaxValueCastToInt16IsFoldedCorrectly()
{
sbyte sByteMaxValue = 127;
if (BreakUpFlow())
return;
if (checked((short)sByteMaxValue) != 127)
{
Console.WriteLine($"'(short)127' was evaluted to '{(short)sByteMaxValue}'. Expected: '127'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveSByteMinValueCastToInt16IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveSByteMinValueCastToInt16IsFoldedCorrectly()
{
sbyte integerOneIncrementAboveSByteMinValue = -127;
if (BreakUpFlow())
return;
if (checked((short)integerOneIncrementAboveSByteMinValue) != -127)
{
Console.WriteLine($"'(short)-127' was evaluted to '{(short)integerOneIncrementAboveSByteMinValue}'. Expected: '-127'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderSByteMaxValueCastToInt16IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderSByteMaxValueCastToInt16IsFoldedCorrectly()
{
sbyte integerOneDecrementUnderSByteMaxValue = 126;
if (BreakUpFlow())
return;
if (checked((short)integerOneDecrementUnderSByteMaxValue) != 126)
{
Console.WriteLine($"'(short)126' was evaluted to '{(short)integerOneDecrementUnderSByteMaxValue}'. Expected: '126'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderByteMinValueCastToInt16IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderByteMinValueCastToInt16IsFoldedCorrectly()
{
sbyte integerOneDecrementUnderByteMinValue = -1;
if (BreakUpFlow())
return;
if (checked((short)integerOneDecrementUnderByteMinValue) != -1)
{
Console.WriteLine($"'(short)-1' was evaluted to '{(short)integerOneDecrementUnderByteMinValue}'. Expected: '-1'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveByteMinValueCastToInt16IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveByteMinValueCastToInt16IsFoldedCorrectly()
{
sbyte integerOneIncrementAboveByteMinValue = 1;
if (BreakUpFlow())
return;
if (checked((short)integerOneIncrementAboveByteMinValue) != 1)
{
Console.WriteLine($"'(short)1' was evaluted to '{(short)integerOneIncrementAboveByteMinValue}'. Expected: '1'.");
_counter++;
}
}
}
private static void TestCastingSByteToUInt16()
{
ConfirmIntegerZeroCastToUInt16IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerZeroCastToUInt16IsFoldedCorrectly()
{
sbyte integerZero = 0;
if (BreakUpFlow())
return;
if (checked((ushort)integerZero) != 0)
{
Console.WriteLine($"'(ushort)0' was evaluted to '{(ushort)integerZero}'. Expected: '0'.");
_counter++;
}
}
ConfirmSByteMinValueCastToUInt16Overflows();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMinValueCastToUInt16Overflows()
{
sbyte from = -128;
_counter++;
try
{
_ = checked((ushort)from);
}
catch (OverflowException) { _counter--; }
if (_counter != 100)
Console.WriteLine("'checked((ushort)-128)' did not throw OverflowException.");
}
ConfirmSByteMaxValueCastToUInt16IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMaxValueCastToUInt16IsFoldedCorrectly()
{
sbyte sByteMaxValue = 127;
if (BreakUpFlow())
return;
if (checked((ushort)sByteMaxValue) != 127)
{
Console.WriteLine($"'(ushort)127' was evaluted to '{(ushort)sByteMaxValue}'. Expected: '127'.");
_counter++;
}
}
ConfirmSByteOneIncrementAboveSByteMinValueCastToUInt16Overflows();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteOneIncrementAboveSByteMinValueCastToUInt16Overflows()
{
sbyte from = -127;
_counter++;
try
{
_ = checked((ushort)from);
}
catch (OverflowException) { _counter--; }
if (_counter != 100)
Console.WriteLine("'checked((ushort)-127)' did not throw OverflowException.");
}
ConfirmIntegerOneDecrementUnderSByteMaxValueCastToUInt16IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderSByteMaxValueCastToUInt16IsFoldedCorrectly()
{
sbyte integerOneDecrementUnderSByteMaxValue = 126;
if (BreakUpFlow())
return;
if (checked((ushort)integerOneDecrementUnderSByteMaxValue) != 126)
{
Console.WriteLine($"'(ushort)126' was evaluted to '{(ushort)integerOneDecrementUnderSByteMaxValue}'. Expected: '126'.");
_counter++;
}
}
ConfirmSByteOneDecrementUnderByteMinValueCastToUInt16Overflows();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteOneDecrementUnderByteMinValueCastToUInt16Overflows()
{
sbyte from = -1;
_counter++;
try
{
_ = checked((ushort)from);
}
catch (OverflowException) { _counter--; }
if (_counter != 100)
Console.WriteLine("'checked((ushort)-1)' did not throw OverflowException.");
}
ConfirmIntegerOneIncrementAboveByteMinValueCastToUInt16IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveByteMinValueCastToUInt16IsFoldedCorrectly()
{
sbyte integerOneIncrementAboveByteMinValue = 1;
if (BreakUpFlow())
return;
if (checked((ushort)integerOneIncrementAboveByteMinValue) != 1)
{
Console.WriteLine($"'(ushort)1' was evaluted to '{(ushort)integerOneIncrementAboveByteMinValue}'. Expected: '1'.");
_counter++;
}
}
}
private static void TestCastingSByteToInt32()
{
ConfirmIntegerZeroCastToInt32IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerZeroCastToInt32IsFoldedCorrectly()
{
sbyte integerZero = 0;
if (BreakUpFlow())
return;
if (checked((int)integerZero) != 0)
{
Console.WriteLine($"'(int)0' was evaluted to '{(int)integerZero}'. Expected: '0'.");
_counter++;
}
}
ConfirmSByteMinValueCastToInt32IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMinValueCastToInt32IsFoldedCorrectly()
{
sbyte sByteMinValue = -128;
if (BreakUpFlow())
return;
if (checked((int)sByteMinValue) != -128)
{
Console.WriteLine($"'(int)-128' was evaluted to '{(int)sByteMinValue}'. Expected: '-128'.");
_counter++;
}
}
ConfirmSByteMaxValueCastToInt32IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMaxValueCastToInt32IsFoldedCorrectly()
{
sbyte sByteMaxValue = 127;
if (BreakUpFlow())
return;
if (checked((int)sByteMaxValue) != 127)
{
Console.WriteLine($"'(int)127' was evaluted to '{(int)sByteMaxValue}'. Expected: '127'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveSByteMinValueCastToInt32IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveSByteMinValueCastToInt32IsFoldedCorrectly()
{
sbyte integerOneIncrementAboveSByteMinValue = -127;
if (BreakUpFlow())
return;
if (checked((int)integerOneIncrementAboveSByteMinValue) != -127)
{
Console.WriteLine($"'(int)-127' was evaluted to '{(int)integerOneIncrementAboveSByteMinValue}'. Expected: '-127'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderSByteMaxValueCastToInt32IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderSByteMaxValueCastToInt32IsFoldedCorrectly()
{
sbyte integerOneDecrementUnderSByteMaxValue = 126;
if (BreakUpFlow())
return;
if (checked((int)integerOneDecrementUnderSByteMaxValue) != 126)
{
Console.WriteLine($"'(int)126' was evaluted to '{(int)integerOneDecrementUnderSByteMaxValue}'. Expected: '126'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderByteMinValueCastToInt32IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderByteMinValueCastToInt32IsFoldedCorrectly()
{
sbyte integerOneDecrementUnderByteMinValue = -1;
if (BreakUpFlow())
return;
if (checked((int)integerOneDecrementUnderByteMinValue) != -1)
{
Console.WriteLine($"'(int)-1' was evaluted to '{(int)integerOneDecrementUnderByteMinValue}'. Expected: '-1'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveByteMinValueCastToInt32IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveByteMinValueCastToInt32IsFoldedCorrectly()
{
sbyte integerOneIncrementAboveByteMinValue = 1;
if (BreakUpFlow())
return;
if (checked((int)integerOneIncrementAboveByteMinValue) != 1)
{
Console.WriteLine($"'(int)1' was evaluted to '{(int)integerOneIncrementAboveByteMinValue}'. Expected: '1'.");
_counter++;
}
}
}
private static void TestCastingSByteToUInt32()
{
ConfirmIntegerZeroCastToUInt32IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerZeroCastToUInt32IsFoldedCorrectly()
{
sbyte integerZero = 0;
if (BreakUpFlow())
return;
if (checked((uint)integerZero) != 0)
{
Console.WriteLine($"'(uint)0' was evaluted to '{(uint)integerZero}'. Expected: '0'.");
_counter++;
}
}
ConfirmSByteMinValueCastToUInt32Overflows();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMinValueCastToUInt32Overflows()
{
sbyte from = -128;
_counter++;
try
{
_ = checked((uint)from);
}
catch (OverflowException) { _counter--; }
if (_counter != 100)
Console.WriteLine("'checked((uint)-128)' did not throw OverflowException.");
}
ConfirmSByteMaxValueCastToUInt32IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMaxValueCastToUInt32IsFoldedCorrectly()
{
sbyte sByteMaxValue = 127;
if (BreakUpFlow())
return;
if (checked((uint)sByteMaxValue) != 127)
{
Console.WriteLine($"'(uint)127' was evaluted to '{(uint)sByteMaxValue}'. Expected: '127'.");
_counter++;
}
}
ConfirmSByteOneIncrementAboveSByteMinValueCastToUInt32Overflows();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteOneIncrementAboveSByteMinValueCastToUInt32Overflows()
{
sbyte from = -127;
_counter++;
try
{
_ = checked((uint)from);
}
catch (OverflowException) { _counter--; }
if (_counter != 100)
Console.WriteLine("'checked((uint)-127)' did not throw OverflowException.");
}
ConfirmIntegerOneDecrementUnderSByteMaxValueCastToUInt32IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderSByteMaxValueCastToUInt32IsFoldedCorrectly()
{
sbyte integerOneDecrementUnderSByteMaxValue = 126;
if (BreakUpFlow())
return;
if (checked((uint)integerOneDecrementUnderSByteMaxValue) != 126)
{
Console.WriteLine($"'(uint)126' was evaluted to '{(uint)integerOneDecrementUnderSByteMaxValue}'. Expected: '126'.");
_counter++;
}
}
ConfirmSByteOneDecrementUnderByteMinValueCastToUInt32Overflows();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteOneDecrementUnderByteMinValueCastToUInt32Overflows()
{
sbyte from = -1;
_counter++;
try
{
_ = checked((uint)from);
}
catch (OverflowException) { _counter--; }
if (_counter != 100)
Console.WriteLine("'checked((uint)-1)' did not throw OverflowException.");
}
ConfirmIntegerOneIncrementAboveByteMinValueCastToUInt32IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveByteMinValueCastToUInt32IsFoldedCorrectly()
{
sbyte integerOneIncrementAboveByteMinValue = 1;
if (BreakUpFlow())
return;
if (checked((uint)integerOneIncrementAboveByteMinValue) != 1)
{
Console.WriteLine($"'(uint)1' was evaluted to '{(uint)integerOneIncrementAboveByteMinValue}'. Expected: '1'.");
_counter++;
}
}
}
private static void TestCastingSByteToInt64()
{
ConfirmIntegerZeroCastToInt64IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerZeroCastToInt64IsFoldedCorrectly()
{
sbyte integerZero = 0;
if (BreakUpFlow())
return;
if (checked((long)integerZero) != 0)
{
Console.WriteLine($"'(long)0' was evaluted to '{(long)integerZero}'. Expected: '0'.");
_counter++;
}
}
ConfirmSByteMinValueCastToInt64IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMinValueCastToInt64IsFoldedCorrectly()
{
sbyte sByteMinValue = -128;
if (BreakUpFlow())
return;
if (checked((long)sByteMinValue) != -128)
{
Console.WriteLine($"'(long)-128' was evaluted to '{(long)sByteMinValue}'. Expected: '-128'.");
_counter++;
}
}
ConfirmSByteMaxValueCastToInt64IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMaxValueCastToInt64IsFoldedCorrectly()
{
sbyte sByteMaxValue = 127;
if (BreakUpFlow())
return;
if (checked((long)sByteMaxValue) != 127)
{
Console.WriteLine($"'(long)127' was evaluted to '{(long)sByteMaxValue}'. Expected: '127'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveSByteMinValueCastToInt64IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveSByteMinValueCastToInt64IsFoldedCorrectly()
{
sbyte integerOneIncrementAboveSByteMinValue = -127;
if (BreakUpFlow())
return;
if (checked((long)integerOneIncrementAboveSByteMinValue) != -127)
{
Console.WriteLine($"'(long)-127' was evaluted to '{(long)integerOneIncrementAboveSByteMinValue}'. Expected: '-127'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderSByteMaxValueCastToInt64IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderSByteMaxValueCastToInt64IsFoldedCorrectly()
{
sbyte integerOneDecrementUnderSByteMaxValue = 126;
if (BreakUpFlow())
return;
if (checked((long)integerOneDecrementUnderSByteMaxValue) != 126)
{
Console.WriteLine($"'(long)126' was evaluted to '{(long)integerOneDecrementUnderSByteMaxValue}'. Expected: '126'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderByteMinValueCastToInt64IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderByteMinValueCastToInt64IsFoldedCorrectly()
{
sbyte integerOneDecrementUnderByteMinValue = -1;
if (BreakUpFlow())
return;
if (checked((long)integerOneDecrementUnderByteMinValue) != -1)
{
Console.WriteLine($"'(long)-1' was evaluted to '{(long)integerOneDecrementUnderByteMinValue}'. Expected: '-1'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveByteMinValueCastToInt64IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveByteMinValueCastToInt64IsFoldedCorrectly()
{
sbyte integerOneIncrementAboveByteMinValue = 1;
if (BreakUpFlow())
return;
if (checked((long)integerOneIncrementAboveByteMinValue) != 1)
{
Console.WriteLine($"'(long)1' was evaluted to '{(long)integerOneIncrementAboveByteMinValue}'. Expected: '1'.");
_counter++;
}
}
}
private static void TestCastingSByteToUInt64()
{
ConfirmIntegerZeroCastToUInt64IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerZeroCastToUInt64IsFoldedCorrectly()
{
sbyte integerZero = 0;
if (BreakUpFlow())
return;
if (checked((ulong)integerZero) != 0)
{
Console.WriteLine($"'(ulong)0' was evaluted to '{(ulong)integerZero}'. Expected: '0'.");
_counter++;
}
}
ConfirmSByteMinValueCastToUInt64Overflows();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMinValueCastToUInt64Overflows()
{
sbyte from = -128;
_counter++;
try
{
_ = checked((ulong)from);
}
catch (OverflowException) { _counter--; }
if (_counter != 100)
Console.WriteLine("'checked((ulong)-128)' did not throw OverflowException.");
}
ConfirmSByteMaxValueCastToUInt64IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMaxValueCastToUInt64IsFoldedCorrectly()
{
sbyte sByteMaxValue = 127;
if (BreakUpFlow())
return;
if (checked((ulong)sByteMaxValue) != 127)
{
Console.WriteLine($"'(ulong)127' was evaluted to '{(ulong)sByteMaxValue}'. Expected: '127'.");
_counter++;
}
}
ConfirmSByteOneIncrementAboveSByteMinValueCastToUInt64Overflows();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteOneIncrementAboveSByteMinValueCastToUInt64Overflows()
{
sbyte from = -127;
_counter++;
try
{
_ = checked((ulong)from);
}
catch (OverflowException) { _counter--; }
if (_counter != 100)
Console.WriteLine("'checked((ulong)-127)' did not throw OverflowException.");
}
ConfirmIntegerOneDecrementUnderSByteMaxValueCastToUInt64IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderSByteMaxValueCastToUInt64IsFoldedCorrectly()
{
sbyte integerOneDecrementUnderSByteMaxValue = 126;
if (BreakUpFlow())
return;
if (checked((ulong)integerOneDecrementUnderSByteMaxValue) != 126)
{
Console.WriteLine($"'(ulong)126' was evaluted to '{(ulong)integerOneDecrementUnderSByteMaxValue}'. Expected: '126'.");
_counter++;
}
}
ConfirmSByteOneDecrementUnderByteMinValueCastToUInt64Overflows();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteOneDecrementUnderByteMinValueCastToUInt64Overflows()
{
sbyte from = -1;
_counter++;
try
{
_ = checked((ulong)from);
}
catch (OverflowException) { _counter--; }
if (_counter != 100)
Console.WriteLine("'checked((ulong)-1)' did not throw OverflowException.");
}
ConfirmIntegerOneIncrementAboveByteMinValueCastToUInt64IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveByteMinValueCastToUInt64IsFoldedCorrectly()
{
sbyte integerOneIncrementAboveByteMinValue = 1;
if (BreakUpFlow())
return;
if (checked((ulong)integerOneIncrementAboveByteMinValue) != 1)
{
Console.WriteLine($"'(ulong)1' was evaluted to '{(ulong)integerOneIncrementAboveByteMinValue}'. Expected: '1'.");
_counter++;
}
}
}
private static void TestCastingByteToSingle()
{
ConfirmIntegerZeroCastToSingleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerZeroCastToSingleIsFoldedCorrectly()
{
byte integerZero = 0;
if (BreakUpFlow())
return;
if (checked((float)integerZero) != 0f)
{
Console.WriteLine($"'(float)0' was evaluted to '{(float)integerZero}'. Expected: '0f'.");
_counter++;
}
}
ConfirmSByteMaxValueCastToSingleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMaxValueCastToSingleIsFoldedCorrectly()
{
byte sByteMaxValue = 127;
if (BreakUpFlow())
return;
if (checked((float)sByteMaxValue) != 127f)
{
Console.WriteLine($"'(float)127' was evaluted to '{(float)sByteMaxValue}'. Expected: '127f'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderSByteMaxValueCastToSingleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderSByteMaxValueCastToSingleIsFoldedCorrectly()
{
byte integerOneDecrementUnderSByteMaxValue = 126;
if (BreakUpFlow())
return;
if (checked((float)integerOneDecrementUnderSByteMaxValue) != 126f)
{
Console.WriteLine($"'(float)126' was evaluted to '{(float)integerOneDecrementUnderSByteMaxValue}'. Expected: '126f'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveSByteMaxValueCastToSingleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveSByteMaxValueCastToSingleIsFoldedCorrectly()
{
byte integerOneIncrementAboveSByteMaxValue = 128;
if (BreakUpFlow())
return;
if (checked((float)integerOneIncrementAboveSByteMaxValue) != 128f)
{
Console.WriteLine($"'(float)128' was evaluted to '{(float)integerOneIncrementAboveSByteMaxValue}'. Expected: '128f'.");
_counter++;
}
}
ConfirmByteMaxValueCastToSingleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmByteMaxValueCastToSingleIsFoldedCorrectly()
{
byte byteMaxValue = 255;
if (BreakUpFlow())
return;
if (checked((float)byteMaxValue) != 255f)
{
Console.WriteLine($"'(float)255' was evaluted to '{(float)byteMaxValue}'. Expected: '255f'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveByteMinValueCastToSingleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveByteMinValueCastToSingleIsFoldedCorrectly()
{
byte integerOneIncrementAboveByteMinValue = 1;
if (BreakUpFlow())
return;
if (checked((float)integerOneIncrementAboveByteMinValue) != 1f)
{
Console.WriteLine($"'(float)1' was evaluted to '{(float)integerOneIncrementAboveByteMinValue}'. Expected: '1f'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderByteMaxValueCastToSingleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderByteMaxValueCastToSingleIsFoldedCorrectly()
{
byte integerOneDecrementUnderByteMaxValue = 254;
if (BreakUpFlow())
return;
if (checked((float)integerOneDecrementUnderByteMaxValue) != 254f)
{
Console.WriteLine($"'(float)254' was evaluted to '{(float)integerOneDecrementUnderByteMaxValue}'. Expected: '254f'.");
_counter++;
}
}
}
private static void TestCastingByteToDouble()
{
ConfirmIntegerZeroCastToDoubleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerZeroCastToDoubleIsFoldedCorrectly()
{
byte integerZero = 0;
if (BreakUpFlow())
return;
if (checked((double)integerZero) != 0d)
{
Console.WriteLine($"'(double)0' was evaluted to '{(double)integerZero}'. Expected: '0d'.");
_counter++;
}
}
ConfirmSByteMaxValueCastToDoubleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMaxValueCastToDoubleIsFoldedCorrectly()
{
byte sByteMaxValue = 127;
if (BreakUpFlow())
return;
if (checked((double)sByteMaxValue) != 127d)
{
Console.WriteLine($"'(double)127' was evaluted to '{(double)sByteMaxValue}'. Expected: '127d'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderSByteMaxValueCastToDoubleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderSByteMaxValueCastToDoubleIsFoldedCorrectly()
{
byte integerOneDecrementUnderSByteMaxValue = 126;
if (BreakUpFlow())
return;
if (checked((double)integerOneDecrementUnderSByteMaxValue) != 126d)
{
Console.WriteLine($"'(double)126' was evaluted to '{(double)integerOneDecrementUnderSByteMaxValue}'. Expected: '126d'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveSByteMaxValueCastToDoubleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveSByteMaxValueCastToDoubleIsFoldedCorrectly()
{
byte integerOneIncrementAboveSByteMaxValue = 128;
if (BreakUpFlow())
return;
if (checked((double)integerOneIncrementAboveSByteMaxValue) != 128d)
{
Console.WriteLine($"'(double)128' was evaluted to '{(double)integerOneIncrementAboveSByteMaxValue}'. Expected: '128d'.");
_counter++;
}
}
ConfirmByteMaxValueCastToDoubleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmByteMaxValueCastToDoubleIsFoldedCorrectly()
{
byte byteMaxValue = 255;
if (BreakUpFlow())
return;
if (checked((double)byteMaxValue) != 255d)
{
Console.WriteLine($"'(double)255' was evaluted to '{(double)byteMaxValue}'. Expected: '255d'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveByteMinValueCastToDoubleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveByteMinValueCastToDoubleIsFoldedCorrectly()
{
byte integerOneIncrementAboveByteMinValue = 1;
if (BreakUpFlow())
return;
if (checked((double)integerOneIncrementAboveByteMinValue) != 1d)
{
Console.WriteLine($"'(double)1' was evaluted to '{(double)integerOneIncrementAboveByteMinValue}'. Expected: '1d'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderByteMaxValueCastToDoubleIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderByteMaxValueCastToDoubleIsFoldedCorrectly()
{
byte integerOneDecrementUnderByteMaxValue = 254;
if (BreakUpFlow())
return;
if (checked((double)integerOneDecrementUnderByteMaxValue) != 254d)
{
Console.WriteLine($"'(double)254' was evaluted to '{(double)integerOneDecrementUnderByteMaxValue}'. Expected: '254d'.");
_counter++;
}
}
}
private static void TestCastingByteToSByte()
{
ConfirmIntegerZeroCastToSByteIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerZeroCastToSByteIsFoldedCorrectly()
{
byte integerZero = 0;
if (BreakUpFlow())
return;
if (checked((sbyte)integerZero) != 0)
{
Console.WriteLine($"'(sbyte)0' was evaluted to '{(sbyte)integerZero}'. Expected: '0'.");
_counter++;
}
}
ConfirmSByteMaxValueCastToSByteIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMaxValueCastToSByteIsFoldedCorrectly()
{
byte sByteMaxValue = 127;
if (BreakUpFlow())
return;
if (checked((sbyte)sByteMaxValue) != 127)
{
Console.WriteLine($"'(sbyte)127' was evaluted to '{(sbyte)sByteMaxValue}'. Expected: '127'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderSByteMaxValueCastToSByteIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderSByteMaxValueCastToSByteIsFoldedCorrectly()
{
byte integerOneDecrementUnderSByteMaxValue = 126;
if (BreakUpFlow())
return;
if (checked((sbyte)integerOneDecrementUnderSByteMaxValue) != 126)
{
Console.WriteLine($"'(sbyte)126' was evaluted to '{(sbyte)integerOneDecrementUnderSByteMaxValue}'. Expected: '126'.");
_counter++;
}
}
ConfirmByteOneIncrementAboveSByteMaxValueCastToSByteOverflows();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmByteOneIncrementAboveSByteMaxValueCastToSByteOverflows()
{
byte from = 128;
_counter++;
try
{
_ = checked((sbyte)from);
}
catch (OverflowException) { _counter--; }
if (_counter != 100)
Console.WriteLine("'checked((sbyte)128)' did not throw OverflowException.");
}
ConfirmByteMaxValueCastToSByteOverflows();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmByteMaxValueCastToSByteOverflows()
{
byte from = 255;
_counter++;
try
{
_ = checked((sbyte)from);
}
catch (OverflowException) { _counter--; }
if (_counter != 100)
Console.WriteLine("'checked((sbyte)255)' did not throw OverflowException.");
}
ConfirmIntegerOneIncrementAboveByteMinValueCastToSByteIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveByteMinValueCastToSByteIsFoldedCorrectly()
{
byte integerOneIncrementAboveByteMinValue = 1;
if (BreakUpFlow())
return;
if (checked((sbyte)integerOneIncrementAboveByteMinValue) != 1)
{
Console.WriteLine($"'(sbyte)1' was evaluted to '{(sbyte)integerOneIncrementAboveByteMinValue}'. Expected: '1'.");
_counter++;
}
}
ConfirmByteOneDecrementUnderByteMaxValueCastToSByteOverflows();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmByteOneDecrementUnderByteMaxValueCastToSByteOverflows()
{
byte from = 254;
_counter++;
try
{
_ = checked((sbyte)from);
}
catch (OverflowException) { _counter--; }
if (_counter != 100)
Console.WriteLine("'checked((sbyte)254)' did not throw OverflowException.");
}
}
private static void TestCastingByteToByte()
{
ConfirmIntegerZeroCastToByteIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerZeroCastToByteIsFoldedCorrectly()
{
byte integerZero = 0;
if (BreakUpFlow())
return;
if (checked((byte)integerZero) != 0)
{
Console.WriteLine($"'(byte)0' was evaluted to '{(byte)integerZero}'. Expected: '0'.");
_counter++;
}
}
ConfirmSByteMaxValueCastToByteIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMaxValueCastToByteIsFoldedCorrectly()
{
byte sByteMaxValue = 127;
if (BreakUpFlow())
return;
if (checked((byte)sByteMaxValue) != 127)
{
Console.WriteLine($"'(byte)127' was evaluted to '{(byte)sByteMaxValue}'. Expected: '127'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderSByteMaxValueCastToByteIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderSByteMaxValueCastToByteIsFoldedCorrectly()
{
byte integerOneDecrementUnderSByteMaxValue = 126;
if (BreakUpFlow())
return;
if (checked((byte)integerOneDecrementUnderSByteMaxValue) != 126)
{
Console.WriteLine($"'(byte)126' was evaluted to '{(byte)integerOneDecrementUnderSByteMaxValue}'. Expected: '126'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveSByteMaxValueCastToByteIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveSByteMaxValueCastToByteIsFoldedCorrectly()
{
byte integerOneIncrementAboveSByteMaxValue = 128;
if (BreakUpFlow())
return;
if (checked((byte)integerOneIncrementAboveSByteMaxValue) != 128)
{
Console.WriteLine($"'(byte)128' was evaluted to '{(byte)integerOneIncrementAboveSByteMaxValue}'. Expected: '128'.");
_counter++;
}
}
ConfirmByteMaxValueCastToByteIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmByteMaxValueCastToByteIsFoldedCorrectly()
{
byte byteMaxValue = 255;
if (BreakUpFlow())
return;
if (checked((byte)byteMaxValue) != 255)
{
Console.WriteLine($"'(byte)255' was evaluted to '{(byte)byteMaxValue}'. Expected: '255'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveByteMinValueCastToByteIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveByteMinValueCastToByteIsFoldedCorrectly()
{
byte integerOneIncrementAboveByteMinValue = 1;
if (BreakUpFlow())
return;
if (checked((byte)integerOneIncrementAboveByteMinValue) != 1)
{
Console.WriteLine($"'(byte)1' was evaluted to '{(byte)integerOneIncrementAboveByteMinValue}'. Expected: '1'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderByteMaxValueCastToByteIsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderByteMaxValueCastToByteIsFoldedCorrectly()
{
byte integerOneDecrementUnderByteMaxValue = 254;
if (BreakUpFlow())
return;
if (checked((byte)integerOneDecrementUnderByteMaxValue) != 254)
{
Console.WriteLine($"'(byte)254' was evaluted to '{(byte)integerOneDecrementUnderByteMaxValue}'. Expected: '254'.");
_counter++;
}
}
}
private static void TestCastingByteToInt16()
{
ConfirmIntegerZeroCastToInt16IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerZeroCastToInt16IsFoldedCorrectly()
{
byte integerZero = 0;
if (BreakUpFlow())
return;
if (checked((short)integerZero) != 0)
{
Console.WriteLine($"'(short)0' was evaluted to '{(short)integerZero}'. Expected: '0'.");
_counter++;
}
}
ConfirmSByteMaxValueCastToInt16IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMaxValueCastToInt16IsFoldedCorrectly()
{
byte sByteMaxValue = 127;
if (BreakUpFlow())
return;
if (checked((short)sByteMaxValue) != 127)
{
Console.WriteLine($"'(short)127' was evaluted to '{(short)sByteMaxValue}'. Expected: '127'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderSByteMaxValueCastToInt16IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderSByteMaxValueCastToInt16IsFoldedCorrectly()
{
byte integerOneDecrementUnderSByteMaxValue = 126;
if (BreakUpFlow())
return;
if (checked((short)integerOneDecrementUnderSByteMaxValue) != 126)
{
Console.WriteLine($"'(short)126' was evaluted to '{(short)integerOneDecrementUnderSByteMaxValue}'. Expected: '126'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveSByteMaxValueCastToInt16IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveSByteMaxValueCastToInt16IsFoldedCorrectly()
{
byte integerOneIncrementAboveSByteMaxValue = 128;
if (BreakUpFlow())
return;
if (checked((short)integerOneIncrementAboveSByteMaxValue) != 128)
{
Console.WriteLine($"'(short)128' was evaluted to '{(short)integerOneIncrementAboveSByteMaxValue}'. Expected: '128'.");
_counter++;
}
}
ConfirmByteMaxValueCastToInt16IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmByteMaxValueCastToInt16IsFoldedCorrectly()
{
byte byteMaxValue = 255;
if (BreakUpFlow())
return;
if (checked((short)byteMaxValue) != 255)
{
Console.WriteLine($"'(short)255' was evaluted to '{(short)byteMaxValue}'. Expected: '255'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveByteMinValueCastToInt16IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveByteMinValueCastToInt16IsFoldedCorrectly()
{
byte integerOneIncrementAboveByteMinValue = 1;
if (BreakUpFlow())
return;
if (checked((short)integerOneIncrementAboveByteMinValue) != 1)
{
Console.WriteLine($"'(short)1' was evaluted to '{(short)integerOneIncrementAboveByteMinValue}'. Expected: '1'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderByteMaxValueCastToInt16IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderByteMaxValueCastToInt16IsFoldedCorrectly()
{
byte integerOneDecrementUnderByteMaxValue = 254;
if (BreakUpFlow())
return;
if (checked((short)integerOneDecrementUnderByteMaxValue) != 254)
{
Console.WriteLine($"'(short)254' was evaluted to '{(short)integerOneDecrementUnderByteMaxValue}'. Expected: '254'.");
_counter++;
}
}
}
private static void TestCastingByteToUInt16()
{
ConfirmIntegerZeroCastToUInt16IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerZeroCastToUInt16IsFoldedCorrectly()
{
byte integerZero = 0;
if (BreakUpFlow())
return;
if (checked((ushort)integerZero) != 0)
{
Console.WriteLine($"'(ushort)0' was evaluted to '{(ushort)integerZero}'. Expected: '0'.");
_counter++;
}
}
ConfirmSByteMaxValueCastToUInt16IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMaxValueCastToUInt16IsFoldedCorrectly()
{
byte sByteMaxValue = 127;
if (BreakUpFlow())
return;
if (checked((ushort)sByteMaxValue) != 127)
{
Console.WriteLine($"'(ushort)127' was evaluted to '{(ushort)sByteMaxValue}'. Expected: '127'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderSByteMaxValueCastToUInt16IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderSByteMaxValueCastToUInt16IsFoldedCorrectly()
{
byte integerOneDecrementUnderSByteMaxValue = 126;
if (BreakUpFlow())
return;
if (checked((ushort)integerOneDecrementUnderSByteMaxValue) != 126)
{
Console.WriteLine($"'(ushort)126' was evaluted to '{(ushort)integerOneDecrementUnderSByteMaxValue}'. Expected: '126'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveSByteMaxValueCastToUInt16IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveSByteMaxValueCastToUInt16IsFoldedCorrectly()
{
byte integerOneIncrementAboveSByteMaxValue = 128;
if (BreakUpFlow())
return;
if (checked((ushort)integerOneIncrementAboveSByteMaxValue) != 128)
{
Console.WriteLine($"'(ushort)128' was evaluted to '{(ushort)integerOneIncrementAboveSByteMaxValue}'. Expected: '128'.");
_counter++;
}
}
ConfirmByteMaxValueCastToUInt16IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmByteMaxValueCastToUInt16IsFoldedCorrectly()
{
byte byteMaxValue = 255;
if (BreakUpFlow())
return;
if (checked((ushort)byteMaxValue) != 255)
{
Console.WriteLine($"'(ushort)255' was evaluted to '{(ushort)byteMaxValue}'. Expected: '255'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveByteMinValueCastToUInt16IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveByteMinValueCastToUInt16IsFoldedCorrectly()
{
byte integerOneIncrementAboveByteMinValue = 1;
if (BreakUpFlow())
return;
if (checked((ushort)integerOneIncrementAboveByteMinValue) != 1)
{
Console.WriteLine($"'(ushort)1' was evaluted to '{(ushort)integerOneIncrementAboveByteMinValue}'. Expected: '1'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderByteMaxValueCastToUInt16IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderByteMaxValueCastToUInt16IsFoldedCorrectly()
{
byte integerOneDecrementUnderByteMaxValue = 254;
if (BreakUpFlow())
return;
if (checked((ushort)integerOneDecrementUnderByteMaxValue) != 254)
{
Console.WriteLine($"'(ushort)254' was evaluted to '{(ushort)integerOneDecrementUnderByteMaxValue}'. Expected: '254'.");
_counter++;
}
}
}
private static void TestCastingByteToInt32()
{
ConfirmIntegerZeroCastToInt32IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerZeroCastToInt32IsFoldedCorrectly()
{
byte integerZero = 0;
if (BreakUpFlow())
return;
if (checked((int)integerZero) != 0)
{
Console.WriteLine($"'(int)0' was evaluted to '{(int)integerZero}'. Expected: '0'.");
_counter++;
}
}
ConfirmSByteMaxValueCastToInt32IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMaxValueCastToInt32IsFoldedCorrectly()
{
byte sByteMaxValue = 127;
if (BreakUpFlow())
return;
if (checked((int)sByteMaxValue) != 127)
{
Console.WriteLine($"'(int)127' was evaluted to '{(int)sByteMaxValue}'. Expected: '127'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderSByteMaxValueCastToInt32IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderSByteMaxValueCastToInt32IsFoldedCorrectly()
{
byte integerOneDecrementUnderSByteMaxValue = 126;
if (BreakUpFlow())
return;
if (checked((int)integerOneDecrementUnderSByteMaxValue) != 126)
{
Console.WriteLine($"'(int)126' was evaluted to '{(int)integerOneDecrementUnderSByteMaxValue}'. Expected: '126'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveSByteMaxValueCastToInt32IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveSByteMaxValueCastToInt32IsFoldedCorrectly()
{
byte integerOneIncrementAboveSByteMaxValue = 128;
if (BreakUpFlow())
return;
if (checked((int)integerOneIncrementAboveSByteMaxValue) != 128)
{
Console.WriteLine($"'(int)128' was evaluted to '{(int)integerOneIncrementAboveSByteMaxValue}'. Expected: '128'.");
_counter++;
}
}
ConfirmByteMaxValueCastToInt32IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmByteMaxValueCastToInt32IsFoldedCorrectly()
{
byte byteMaxValue = 255;
if (BreakUpFlow())
return;
if (checked((int)byteMaxValue) != 255)
{
Console.WriteLine($"'(int)255' was evaluted to '{(int)byteMaxValue}'. Expected: '255'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveByteMinValueCastToInt32IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveByteMinValueCastToInt32IsFoldedCorrectly()
{
byte integerOneIncrementAboveByteMinValue = 1;
if (BreakUpFlow())
return;
if (checked((int)integerOneIncrementAboveByteMinValue) != 1)
{
Console.WriteLine($"'(int)1' was evaluted to '{(int)integerOneIncrementAboveByteMinValue}'. Expected: '1'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderByteMaxValueCastToInt32IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderByteMaxValueCastToInt32IsFoldedCorrectly()
{
byte integerOneDecrementUnderByteMaxValue = 254;
if (BreakUpFlow())
return;
if (checked((int)integerOneDecrementUnderByteMaxValue) != 254)
{
Console.WriteLine($"'(int)254' was evaluted to '{(int)integerOneDecrementUnderByteMaxValue}'. Expected: '254'.");
_counter++;
}
}
}
private static void TestCastingByteToUInt32()
{
ConfirmIntegerZeroCastToUInt32IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerZeroCastToUInt32IsFoldedCorrectly()
{
byte integerZero = 0;
if (BreakUpFlow())
return;
if (checked((uint)integerZero) != 0)
{
Console.WriteLine($"'(uint)0' was evaluted to '{(uint)integerZero}'. Expected: '0'.");
_counter++;
}
}
ConfirmSByteMaxValueCastToUInt32IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMaxValueCastToUInt32IsFoldedCorrectly()
{
byte sByteMaxValue = 127;
if (BreakUpFlow())
return;
if (checked((uint)sByteMaxValue) != 127)
{
Console.WriteLine($"'(uint)127' was evaluted to '{(uint)sByteMaxValue}'. Expected: '127'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderSByteMaxValueCastToUInt32IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderSByteMaxValueCastToUInt32IsFoldedCorrectly()
{
byte integerOneDecrementUnderSByteMaxValue = 126;
if (BreakUpFlow())
return;
if (checked((uint)integerOneDecrementUnderSByteMaxValue) != 126)
{
Console.WriteLine($"'(uint)126' was evaluted to '{(uint)integerOneDecrementUnderSByteMaxValue}'. Expected: '126'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveSByteMaxValueCastToUInt32IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveSByteMaxValueCastToUInt32IsFoldedCorrectly()
{
byte integerOneIncrementAboveSByteMaxValue = 128;
if (BreakUpFlow())
return;
if (checked((uint)integerOneIncrementAboveSByteMaxValue) != 128)
{
Console.WriteLine($"'(uint)128' was evaluted to '{(uint)integerOneIncrementAboveSByteMaxValue}'. Expected: '128'.");
_counter++;
}
}
ConfirmByteMaxValueCastToUInt32IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmByteMaxValueCastToUInt32IsFoldedCorrectly()
{
byte byteMaxValue = 255;
if (BreakUpFlow())
return;
if (checked((uint)byteMaxValue) != 255)
{
Console.WriteLine($"'(uint)255' was evaluted to '{(uint)byteMaxValue}'. Expected: '255'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveByteMinValueCastToUInt32IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveByteMinValueCastToUInt32IsFoldedCorrectly()
{
byte integerOneIncrementAboveByteMinValue = 1;
if (BreakUpFlow())
return;
if (checked((uint)integerOneIncrementAboveByteMinValue) != 1)
{
Console.WriteLine($"'(uint)1' was evaluted to '{(uint)integerOneIncrementAboveByteMinValue}'. Expected: '1'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderByteMaxValueCastToUInt32IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderByteMaxValueCastToUInt32IsFoldedCorrectly()
{
byte integerOneDecrementUnderByteMaxValue = 254;
if (BreakUpFlow())
return;
if (checked((uint)integerOneDecrementUnderByteMaxValue) != 254)
{
Console.WriteLine($"'(uint)254' was evaluted to '{(uint)integerOneDecrementUnderByteMaxValue}'. Expected: '254'.");
_counter++;
}
}
}
private static void TestCastingByteToInt64()
{
ConfirmIntegerZeroCastToInt64IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerZeroCastToInt64IsFoldedCorrectly()
{
byte integerZero = 0;
if (BreakUpFlow())
return;
if (checked((long)integerZero) != 0)
{
Console.WriteLine($"'(long)0' was evaluted to '{(long)integerZero}'. Expected: '0'.");
_counter++;
}
}
ConfirmSByteMaxValueCastToInt64IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMaxValueCastToInt64IsFoldedCorrectly()
{
byte sByteMaxValue = 127;
if (BreakUpFlow())
return;
if (checked((long)sByteMaxValue) != 127)
{
Console.WriteLine($"'(long)127' was evaluted to '{(long)sByteMaxValue}'. Expected: '127'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderSByteMaxValueCastToInt64IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderSByteMaxValueCastToInt64IsFoldedCorrectly()
{
byte integerOneDecrementUnderSByteMaxValue = 126;
if (BreakUpFlow())
return;
if (checked((long)integerOneDecrementUnderSByteMaxValue) != 126)
{
Console.WriteLine($"'(long)126' was evaluted to '{(long)integerOneDecrementUnderSByteMaxValue}'. Expected: '126'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveSByteMaxValueCastToInt64IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveSByteMaxValueCastToInt64IsFoldedCorrectly()
{
byte integerOneIncrementAboveSByteMaxValue = 128;
if (BreakUpFlow())
return;
if (checked((long)integerOneIncrementAboveSByteMaxValue) != 128)
{
Console.WriteLine($"'(long)128' was evaluted to '{(long)integerOneIncrementAboveSByteMaxValue}'. Expected: '128'.");
_counter++;
}
}
ConfirmByteMaxValueCastToInt64IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmByteMaxValueCastToInt64IsFoldedCorrectly()
{
byte byteMaxValue = 255;
if (BreakUpFlow())
return;
if (checked((long)byteMaxValue) != 255)
{
Console.WriteLine($"'(long)255' was evaluted to '{(long)byteMaxValue}'. Expected: '255'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveByteMinValueCastToInt64IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveByteMinValueCastToInt64IsFoldedCorrectly()
{
byte integerOneIncrementAboveByteMinValue = 1;
if (BreakUpFlow())
return;
if (checked((long)integerOneIncrementAboveByteMinValue) != 1)
{
Console.WriteLine($"'(long)1' was evaluted to '{(long)integerOneIncrementAboveByteMinValue}'. Expected: '1'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderByteMaxValueCastToInt64IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderByteMaxValueCastToInt64IsFoldedCorrectly()
{
byte integerOneDecrementUnderByteMaxValue = 254;
if (BreakUpFlow())
return;
if (checked((long)integerOneDecrementUnderByteMaxValue) != 254)
{
Console.WriteLine($"'(long)254' was evaluted to '{(long)integerOneDecrementUnderByteMaxValue}'. Expected: '254'.");
_counter++;
}
}
}
private static void TestCastingByteToUInt64()
{
ConfirmIntegerZeroCastToUInt64IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerZeroCastToUInt64IsFoldedCorrectly()
{
byte integerZero = 0;
if (BreakUpFlow())
return;
if (checked((ulong)integerZero) != 0)
{
Console.WriteLine($"'(ulong)0' was evaluted to '{(ulong)integerZero}'. Expected: '0'.");
_counter++;
}
}
ConfirmSByteMaxValueCastToUInt64IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmSByteMaxValueCastToUInt64IsFoldedCorrectly()
{
byte sByteMaxValue = 127;
if (BreakUpFlow())
return;
if (checked((ulong)sByteMaxValue) != 127)
{
Console.WriteLine($"'(ulong)127' was evaluted to '{(ulong)sByteMaxValue}'. Expected: '127'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderSByteMaxValueCastToUInt64IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderSByteMaxValueCastToUInt64IsFoldedCorrectly()
{
byte integerOneDecrementUnderSByteMaxValue = 126;
if (BreakUpFlow())
return;
if (checked((ulong)integerOneDecrementUnderSByteMaxValue) != 126)
{
Console.WriteLine($"'(ulong)126' was evaluted to '{(ulong)integerOneDecrementUnderSByteMaxValue}'. Expected: '126'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveSByteMaxValueCastToUInt64IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveSByteMaxValueCastToUInt64IsFoldedCorrectly()
{
byte integerOneIncrementAboveSByteMaxValue = 128;
if (BreakUpFlow())
return;
if (checked((ulong)integerOneIncrementAboveSByteMaxValue) != 128)
{
Console.WriteLine($"'(ulong)128' was evaluted to '{(ulong)integerOneIncrementAboveSByteMaxValue}'. Expected: '128'.");
_counter++;
}
}
ConfirmByteMaxValueCastToUInt64IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmByteMaxValueCastToUInt64IsFoldedCorrectly()
{
byte byteMaxValue = 255;
if (BreakUpFlow())
return;
if (checked((ulong)byteMaxValue) != 255)
{
Console.WriteLine($"'(ulong)255' was evaluted to '{(ulong)byteMaxValue}'. Expected: '255'.");
_counter++;
}
}
ConfirmIntegerOneIncrementAboveByteMinValueCastToUInt64IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneIncrementAboveByteMinValueCastToUInt64IsFoldedCorrectly()
{
byte integerOneIncrementAboveByteMinValue = 1;
if (BreakUpFlow())
return;
if (checked((ulong)integerOneIncrementAboveByteMinValue) != 1)
{
Console.WriteLine($"'(ulong)1' was evaluted to '{(ulong)integerOneIncrementAboveByteMinValue}'. Expected: '1'.");
_counter++;
}
}
ConfirmIntegerOneDecrementUnderByteMaxValueCastToUInt64IsFoldedCorrectly();
[MethodImpl(MethodImplOptions.NoInlining)]
static void ConfirmIntegerOneDecrementUnderByteMaxValueCastToUInt64IsFoldedCorrectly()
{
byte integerOneDecrementUnderByteMaxValue = 254;
if (BreakUpFlow())
return;
if (checked((ulong)integerOneDecrementUnderByteMaxValue) != 254)
{
Console.WriteLine($"'(ulong)254' was evaluted to '{(ulong)integerOneDecrementUnderByteMaxValue}'. Expected: '254'.");
_counter++;
}
}
}
}
| -1 |
dotnet/runtime
| 66,398 |
Reenable compiler warning 4244 under coreclr/
|
Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
AaronRobinsonMSFT
| 2022-03-09T15:46:00Z | 2022-03-10T01:12:51Z |
763936ed098deaa1588935f17d7cc0a07c27c3fa
|
b71eba8b3a74fa6282dc1526e68abbd26f3e385f
|
Reenable compiler warning 4244 under coreclr/. Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
./src/tests/JIT/IL_Conformance/Old/Conformance_Base/dup4.ilproj
|
<Project Sdk="Microsoft.NET.Sdk.IL">
<PropertyGroup>
<OutputType>Exe</OutputType>
<RestorePackages>true</RestorePackages>
<CLRTestPriority>1</CLRTestPriority>
</PropertyGroup>
<PropertyGroup>
<DebugType>PdbOnly</DebugType>
<Optimize>True</Optimize>
</PropertyGroup>
<ItemGroup>
<Compile Include="dup4.il" />
</ItemGroup>
</Project>
|
<Project Sdk="Microsoft.NET.Sdk.IL">
<PropertyGroup>
<OutputType>Exe</OutputType>
<RestorePackages>true</RestorePackages>
<CLRTestPriority>1</CLRTestPriority>
</PropertyGroup>
<PropertyGroup>
<DebugType>PdbOnly</DebugType>
<Optimize>True</Optimize>
</PropertyGroup>
<ItemGroup>
<Compile Include="dup4.il" />
</ItemGroup>
</Project>
| -1 |
dotnet/runtime
| 66,398 |
Reenable compiler warning 4244 under coreclr/
|
Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
AaronRobinsonMSFT
| 2022-03-09T15:46:00Z | 2022-03-10T01:12:51Z |
763936ed098deaa1588935f17d7cc0a07c27c3fa
|
b71eba8b3a74fa6282dc1526e68abbd26f3e385f
|
Reenable compiler warning 4244 under coreclr/. Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
./src/tests/JIT/Regression/CLR-x86-JIT/V1-M12-Beta2/b68872/b68872.ilproj
|
<Project Sdk="Microsoft.NET.Sdk.IL">
<PropertyGroup>
<OutputType>Exe</OutputType>
</PropertyGroup>
<PropertyGroup>
<DebugType>PdbOnly</DebugType>
<Optimize>True</Optimize>
</PropertyGroup>
<ItemGroup>
<Compile Include="$(MSBuildProjectName).il" />
</ItemGroup>
</Project>
|
<Project Sdk="Microsoft.NET.Sdk.IL">
<PropertyGroup>
<OutputType>Exe</OutputType>
</PropertyGroup>
<PropertyGroup>
<DebugType>PdbOnly</DebugType>
<Optimize>True</Optimize>
</PropertyGroup>
<ItemGroup>
<Compile Include="$(MSBuildProjectName).il" />
</ItemGroup>
</Project>
| -1 |
dotnet/runtime
| 66,398 |
Reenable compiler warning 4244 under coreclr/
|
Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
AaronRobinsonMSFT
| 2022-03-09T15:46:00Z | 2022-03-10T01:12:51Z |
763936ed098deaa1588935f17d7cc0a07c27c3fa
|
b71eba8b3a74fa6282dc1526e68abbd26f3e385f
|
Reenable compiler warning 4244 under coreclr/. Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
./src/tests/JIT/HardwareIntrinsics/General/Vector128/Negate.SByte.cs
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
/******************************************************************************
* This file is auto-generated from a template file by the GenerateTests.csx *
* script in tests\src\JIT\HardwareIntrinsics\X86\Shared. In order to make *
* changes, please update the corresponding template and run according to the *
* directions listed in the file. *
******************************************************************************/
using System;
using System.Runtime.CompilerServices;
using System.Runtime.InteropServices;
using System.Runtime.Intrinsics;
namespace JIT.HardwareIntrinsics.General
{
public static partial class Program
{
private static void NegateSByte()
{
var test = new VectorUnaryOpTest__NegateSByte();
// Validates basic functionality works, using Unsafe.Read
test.RunBasicScenario_UnsafeRead();
// Validates calling via reflection works, using Unsafe.Read
test.RunReflectionScenario_UnsafeRead();
// Validates passing a static member works
test.RunClsVarScenario();
// Validates passing a local works, using Unsafe.Read
test.RunLclVarScenario_UnsafeRead();
// Validates passing the field of a local class works
test.RunClassLclFldScenario();
// Validates passing an instance member of a class works
test.RunClassFldScenario();
// Validates passing the field of a local struct works
test.RunStructLclFldScenario();
// Validates passing an instance member of a struct works
test.RunStructFldScenario();
if (!test.Succeeded)
{
throw new Exception("One or more scenarios did not complete as expected.");
}
}
}
public sealed unsafe class VectorUnaryOpTest__NegateSByte
{
private struct DataTable
{
private byte[] inArray1;
private byte[] outArray;
private GCHandle inHandle1;
private GCHandle outHandle;
private ulong alignment;
public DataTable(SByte[] inArray1, SByte[] outArray, int alignment)
{
int sizeOfinArray1 = inArray1.Length * Unsafe.SizeOf<SByte>();
int sizeOfoutArray = outArray.Length * Unsafe.SizeOf<SByte>();
if ((alignment != 32 && alignment != 16 && alignment != 8) || (alignment * 2) < sizeOfinArray1 || (alignment * 2) < sizeOfoutArray)
{
throw new ArgumentException("Invalid value of alignment");
}
this.inArray1 = new byte[alignment * 2];
this.outArray = new byte[alignment * 2];
this.inHandle1 = GCHandle.Alloc(this.inArray1, GCHandleType.Pinned);
this.outHandle = GCHandle.Alloc(this.outArray, GCHandleType.Pinned);
this.alignment = (ulong)alignment;
Unsafe.CopyBlockUnaligned(ref Unsafe.AsRef<byte>(inArray1Ptr), ref Unsafe.As<SByte, byte>(ref inArray1[0]), (uint)sizeOfinArray1);
}
public void* inArray1Ptr => Align((byte*)(inHandle1.AddrOfPinnedObject().ToPointer()), alignment);
public void* outArrayPtr => Align((byte*)(outHandle.AddrOfPinnedObject().ToPointer()), alignment);
public void Dispose()
{
inHandle1.Free();
outHandle.Free();
}
private static unsafe void* Align(byte* buffer, ulong expectedAlignment)
{
return (void*)(((ulong)buffer + expectedAlignment - 1) & ~(expectedAlignment - 1));
}
}
private struct TestStruct
{
public Vector128<SByte> _fld1;
public static TestStruct Create()
{
var testStruct = new TestStruct();
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetSByte(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<SByte>, byte>(ref testStruct._fld1), ref Unsafe.As<SByte, byte>(ref _data1[0]), (uint)Unsafe.SizeOf<Vector128<SByte>>());
return testStruct;
}
public void RunStructFldScenario(VectorUnaryOpTest__NegateSByte testClass)
{
var result = Vector128.Negate(_fld1);
Unsafe.Write(testClass._dataTable.outArrayPtr, result);
testClass.ValidateResult(_fld1, testClass._dataTable.outArrayPtr);
}
}
private static readonly int LargestVectorSize = 16;
private static readonly int Op1ElementCount = Unsafe.SizeOf<Vector128<SByte>>() / sizeof(SByte);
private static readonly int RetElementCount = Unsafe.SizeOf<Vector128<SByte>>() / sizeof(SByte);
private static SByte[] _data1 = new SByte[Op1ElementCount];
private static Vector128<SByte> _clsVar1;
private Vector128<SByte> _fld1;
private DataTable _dataTable;
static VectorUnaryOpTest__NegateSByte()
{
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetSByte(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<SByte>, byte>(ref _clsVar1), ref Unsafe.As<SByte, byte>(ref _data1[0]), (uint)Unsafe.SizeOf<Vector128<SByte>>());
}
public VectorUnaryOpTest__NegateSByte()
{
Succeeded = true;
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetSByte(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<SByte>, byte>(ref _fld1), ref Unsafe.As<SByte, byte>(ref _data1[0]), (uint)Unsafe.SizeOf<Vector128<SByte>>());
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetSByte(); }
_dataTable = new DataTable(_data1, new SByte[RetElementCount], LargestVectorSize);
}
public bool Succeeded { get; set; }
public void RunBasicScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunBasicScenario_UnsafeRead));
var result = Vector128.Negate(
Unsafe.Read<Vector128<SByte>>(_dataTable.inArray1Ptr)
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_dataTable.inArray1Ptr, _dataTable.outArrayPtr);
}
public void RunReflectionScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunReflectionScenario_UnsafeRead));
var method = typeof(Vector128).GetMethod(nameof(Vector128.Negate), new Type[] {
typeof(Vector128<SByte>)
});
if (method is null)
{
method = typeof(Vector128).GetMethod(nameof(Vector128.Negate), 1, new Type[] {
typeof(Vector128<>).MakeGenericType(Type.MakeGenericMethodParameter(0))
});
}
if (method.IsGenericMethodDefinition)
{
method = method.MakeGenericMethod(typeof(SByte));
}
var result = method.Invoke(null, new object[] {
Unsafe.Read<Vector128<SByte>>(_dataTable.inArray1Ptr)
});
Unsafe.Write(_dataTable.outArrayPtr, (Vector128<SByte>)(result));
ValidateResult(_dataTable.inArray1Ptr, _dataTable.outArrayPtr);
}
public void RunClsVarScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClsVarScenario));
var result = Vector128.Negate(
_clsVar1
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_clsVar1, _dataTable.outArrayPtr);
}
public void RunLclVarScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunLclVarScenario_UnsafeRead));
var op1 = Unsafe.Read<Vector128<SByte>>(_dataTable.inArray1Ptr);
var result = Vector128.Negate(op1);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(op1, _dataTable.outArrayPtr);
}
public void RunClassLclFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassLclFldScenario));
var test = new VectorUnaryOpTest__NegateSByte();
var result = Vector128.Negate(test._fld1);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, _dataTable.outArrayPtr);
}
public void RunClassFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassFldScenario));
var result = Vector128.Negate(_fld1);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_fld1, _dataTable.outArrayPtr);
}
public void RunStructLclFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructLclFldScenario));
var test = TestStruct.Create();
var result = Vector128.Negate(test._fld1);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, _dataTable.outArrayPtr);
}
public void RunStructFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructFldScenario));
var test = TestStruct.Create();
test.RunStructFldScenario(this);
}
private void ValidateResult(Vector128<SByte> op1, void* result, [CallerMemberName] string method = "")
{
SByte[] inArray1 = new SByte[Op1ElementCount];
SByte[] outArray = new SByte[RetElementCount];
Unsafe.WriteUnaligned(ref Unsafe.As<SByte, byte>(ref inArray1[0]), op1);
Unsafe.CopyBlockUnaligned(ref Unsafe.As<SByte, byte>(ref outArray[0]), ref Unsafe.AsRef<byte>(result), (uint)Unsafe.SizeOf<Vector128<SByte>>());
ValidateResult(inArray1, outArray, method);
}
private void ValidateResult(void* op1, void* result, [CallerMemberName] string method = "")
{
SByte[] inArray1 = new SByte[Op1ElementCount];
SByte[] outArray = new SByte[RetElementCount];
Unsafe.CopyBlockUnaligned(ref Unsafe.As<SByte, byte>(ref inArray1[0]), ref Unsafe.AsRef<byte>(op1), (uint)Unsafe.SizeOf<Vector128<SByte>>());
Unsafe.CopyBlockUnaligned(ref Unsafe.As<SByte, byte>(ref outArray[0]), ref Unsafe.AsRef<byte>(result), (uint)Unsafe.SizeOf<Vector128<SByte>>());
ValidateResult(inArray1, outArray, method);
}
private void ValidateResult(SByte[] firstOp, SByte[] result, [CallerMemberName] string method = "")
{
bool succeeded = true;
if (result[0] != (sbyte)(0 - firstOp[0]))
{
succeeded = false;
}
else
{
for (var i = 1; i < RetElementCount; i++)
{
if (result[i] != (sbyte)(0 - firstOp[i]))
{
succeeded = false;
break;
}
}
}
if (!succeeded)
{
TestLibrary.TestFramework.LogInformation($"{nameof(Vector128)}.{nameof(Vector128.Negate)}<SByte>(Vector128<SByte>): {method} failed:");
TestLibrary.TestFramework.LogInformation($" firstOp: ({string.Join(", ", firstOp)})");
TestLibrary.TestFramework.LogInformation($" result: ({string.Join(", ", result)})");
TestLibrary.TestFramework.LogInformation(string.Empty);
Succeeded = false;
}
}
}
}
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
/******************************************************************************
* This file is auto-generated from a template file by the GenerateTests.csx *
* script in tests\src\JIT\HardwareIntrinsics\X86\Shared. In order to make *
* changes, please update the corresponding template and run according to the *
* directions listed in the file. *
******************************************************************************/
using System;
using System.Runtime.CompilerServices;
using System.Runtime.InteropServices;
using System.Runtime.Intrinsics;
namespace JIT.HardwareIntrinsics.General
{
public static partial class Program
{
private static void NegateSByte()
{
var test = new VectorUnaryOpTest__NegateSByte();
// Validates basic functionality works, using Unsafe.Read
test.RunBasicScenario_UnsafeRead();
// Validates calling via reflection works, using Unsafe.Read
test.RunReflectionScenario_UnsafeRead();
// Validates passing a static member works
test.RunClsVarScenario();
// Validates passing a local works, using Unsafe.Read
test.RunLclVarScenario_UnsafeRead();
// Validates passing the field of a local class works
test.RunClassLclFldScenario();
// Validates passing an instance member of a class works
test.RunClassFldScenario();
// Validates passing the field of a local struct works
test.RunStructLclFldScenario();
// Validates passing an instance member of a struct works
test.RunStructFldScenario();
if (!test.Succeeded)
{
throw new Exception("One or more scenarios did not complete as expected.");
}
}
}
public sealed unsafe class VectorUnaryOpTest__NegateSByte
{
private struct DataTable
{
private byte[] inArray1;
private byte[] outArray;
private GCHandle inHandle1;
private GCHandle outHandle;
private ulong alignment;
public DataTable(SByte[] inArray1, SByte[] outArray, int alignment)
{
int sizeOfinArray1 = inArray1.Length * Unsafe.SizeOf<SByte>();
int sizeOfoutArray = outArray.Length * Unsafe.SizeOf<SByte>();
if ((alignment != 32 && alignment != 16 && alignment != 8) || (alignment * 2) < sizeOfinArray1 || (alignment * 2) < sizeOfoutArray)
{
throw new ArgumentException("Invalid value of alignment");
}
this.inArray1 = new byte[alignment * 2];
this.outArray = new byte[alignment * 2];
this.inHandle1 = GCHandle.Alloc(this.inArray1, GCHandleType.Pinned);
this.outHandle = GCHandle.Alloc(this.outArray, GCHandleType.Pinned);
this.alignment = (ulong)alignment;
Unsafe.CopyBlockUnaligned(ref Unsafe.AsRef<byte>(inArray1Ptr), ref Unsafe.As<SByte, byte>(ref inArray1[0]), (uint)sizeOfinArray1);
}
public void* inArray1Ptr => Align((byte*)(inHandle1.AddrOfPinnedObject().ToPointer()), alignment);
public void* outArrayPtr => Align((byte*)(outHandle.AddrOfPinnedObject().ToPointer()), alignment);
public void Dispose()
{
inHandle1.Free();
outHandle.Free();
}
private static unsafe void* Align(byte* buffer, ulong expectedAlignment)
{
return (void*)(((ulong)buffer + expectedAlignment - 1) & ~(expectedAlignment - 1));
}
}
private struct TestStruct
{
public Vector128<SByte> _fld1;
public static TestStruct Create()
{
var testStruct = new TestStruct();
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetSByte(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<SByte>, byte>(ref testStruct._fld1), ref Unsafe.As<SByte, byte>(ref _data1[0]), (uint)Unsafe.SizeOf<Vector128<SByte>>());
return testStruct;
}
public void RunStructFldScenario(VectorUnaryOpTest__NegateSByte testClass)
{
var result = Vector128.Negate(_fld1);
Unsafe.Write(testClass._dataTable.outArrayPtr, result);
testClass.ValidateResult(_fld1, testClass._dataTable.outArrayPtr);
}
}
private static readonly int LargestVectorSize = 16;
private static readonly int Op1ElementCount = Unsafe.SizeOf<Vector128<SByte>>() / sizeof(SByte);
private static readonly int RetElementCount = Unsafe.SizeOf<Vector128<SByte>>() / sizeof(SByte);
private static SByte[] _data1 = new SByte[Op1ElementCount];
private static Vector128<SByte> _clsVar1;
private Vector128<SByte> _fld1;
private DataTable _dataTable;
static VectorUnaryOpTest__NegateSByte()
{
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetSByte(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<SByte>, byte>(ref _clsVar1), ref Unsafe.As<SByte, byte>(ref _data1[0]), (uint)Unsafe.SizeOf<Vector128<SByte>>());
}
public VectorUnaryOpTest__NegateSByte()
{
Succeeded = true;
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetSByte(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<SByte>, byte>(ref _fld1), ref Unsafe.As<SByte, byte>(ref _data1[0]), (uint)Unsafe.SizeOf<Vector128<SByte>>());
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetSByte(); }
_dataTable = new DataTable(_data1, new SByte[RetElementCount], LargestVectorSize);
}
public bool Succeeded { get; set; }
public void RunBasicScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunBasicScenario_UnsafeRead));
var result = Vector128.Negate(
Unsafe.Read<Vector128<SByte>>(_dataTable.inArray1Ptr)
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_dataTable.inArray1Ptr, _dataTable.outArrayPtr);
}
public void RunReflectionScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunReflectionScenario_UnsafeRead));
var method = typeof(Vector128).GetMethod(nameof(Vector128.Negate), new Type[] {
typeof(Vector128<SByte>)
});
if (method is null)
{
method = typeof(Vector128).GetMethod(nameof(Vector128.Negate), 1, new Type[] {
typeof(Vector128<>).MakeGenericType(Type.MakeGenericMethodParameter(0))
});
}
if (method.IsGenericMethodDefinition)
{
method = method.MakeGenericMethod(typeof(SByte));
}
var result = method.Invoke(null, new object[] {
Unsafe.Read<Vector128<SByte>>(_dataTable.inArray1Ptr)
});
Unsafe.Write(_dataTable.outArrayPtr, (Vector128<SByte>)(result));
ValidateResult(_dataTable.inArray1Ptr, _dataTable.outArrayPtr);
}
public void RunClsVarScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClsVarScenario));
var result = Vector128.Negate(
_clsVar1
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_clsVar1, _dataTable.outArrayPtr);
}
public void RunLclVarScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunLclVarScenario_UnsafeRead));
var op1 = Unsafe.Read<Vector128<SByte>>(_dataTable.inArray1Ptr);
var result = Vector128.Negate(op1);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(op1, _dataTable.outArrayPtr);
}
public void RunClassLclFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassLclFldScenario));
var test = new VectorUnaryOpTest__NegateSByte();
var result = Vector128.Negate(test._fld1);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, _dataTable.outArrayPtr);
}
public void RunClassFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassFldScenario));
var result = Vector128.Negate(_fld1);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_fld1, _dataTable.outArrayPtr);
}
public void RunStructLclFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructLclFldScenario));
var test = TestStruct.Create();
var result = Vector128.Negate(test._fld1);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, _dataTable.outArrayPtr);
}
public void RunStructFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructFldScenario));
var test = TestStruct.Create();
test.RunStructFldScenario(this);
}
private void ValidateResult(Vector128<SByte> op1, void* result, [CallerMemberName] string method = "")
{
SByte[] inArray1 = new SByte[Op1ElementCount];
SByte[] outArray = new SByte[RetElementCount];
Unsafe.WriteUnaligned(ref Unsafe.As<SByte, byte>(ref inArray1[0]), op1);
Unsafe.CopyBlockUnaligned(ref Unsafe.As<SByte, byte>(ref outArray[0]), ref Unsafe.AsRef<byte>(result), (uint)Unsafe.SizeOf<Vector128<SByte>>());
ValidateResult(inArray1, outArray, method);
}
private void ValidateResult(void* op1, void* result, [CallerMemberName] string method = "")
{
SByte[] inArray1 = new SByte[Op1ElementCount];
SByte[] outArray = new SByte[RetElementCount];
Unsafe.CopyBlockUnaligned(ref Unsafe.As<SByte, byte>(ref inArray1[0]), ref Unsafe.AsRef<byte>(op1), (uint)Unsafe.SizeOf<Vector128<SByte>>());
Unsafe.CopyBlockUnaligned(ref Unsafe.As<SByte, byte>(ref outArray[0]), ref Unsafe.AsRef<byte>(result), (uint)Unsafe.SizeOf<Vector128<SByte>>());
ValidateResult(inArray1, outArray, method);
}
private void ValidateResult(SByte[] firstOp, SByte[] result, [CallerMemberName] string method = "")
{
bool succeeded = true;
if (result[0] != (sbyte)(0 - firstOp[0]))
{
succeeded = false;
}
else
{
for (var i = 1; i < RetElementCount; i++)
{
if (result[i] != (sbyte)(0 - firstOp[i]))
{
succeeded = false;
break;
}
}
}
if (!succeeded)
{
TestLibrary.TestFramework.LogInformation($"{nameof(Vector128)}.{nameof(Vector128.Negate)}<SByte>(Vector128<SByte>): {method} failed:");
TestLibrary.TestFramework.LogInformation($" firstOp: ({string.Join(", ", firstOp)})");
TestLibrary.TestFramework.LogInformation($" result: ({string.Join(", ", result)})");
TestLibrary.TestFramework.LogInformation(string.Empty);
Succeeded = false;
}
}
}
}
| -1 |
dotnet/runtime
| 66,398 |
Reenable compiler warning 4244 under coreclr/
|
Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
AaronRobinsonMSFT
| 2022-03-09T15:46:00Z | 2022-03-10T01:12:51Z |
763936ed098deaa1588935f17d7cc0a07c27c3fa
|
b71eba8b3a74fa6282dc1526e68abbd26f3e385f
|
Reenable compiler warning 4244 under coreclr/. Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
./src/coreclr/nativeaot/System.Private.CoreLib/src/System/Threading/Timer.Windows.cs
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
using System.Diagnostics;
using System.Runtime.CompilerServices;
using System.Runtime.InteropServices;
using System.Threading.Tasks;
namespace System.Threading
{
//
// Windows-specific implementation of Timer
//
internal partial class TimerQueue
{
private IntPtr _nativeTimer;
private readonly int _id;
private TimerQueue(int id)
{
_id = id;
}
[UnmanagedCallersOnly]
private static void TimerCallback(IntPtr instance, IntPtr context, IntPtr timer)
{
int id = (int)context;
var wrapper = ThreadPoolCallbackWrapper.Enter();
Instances[id].FireNextTimers();
ThreadPool.IncrementCompletedWorkItemCount();
wrapper.Exit();
}
private unsafe bool SetTimer(uint actualDuration)
{
if (_nativeTimer == IntPtr.Zero)
{
_nativeTimer = Interop.Kernel32.CreateThreadpoolTimer(&TimerCallback, (IntPtr)_id, IntPtr.Zero);
if (_nativeTimer == IntPtr.Zero)
throw new OutOfMemoryException();
}
// Negative time indicates the amount of time to wait relative to the current time, in 100 nanosecond units
long dueTime = -10000 * (long)actualDuration;
Interop.Kernel32.SetThreadpoolTimer(_nativeTimer, &dueTime, 0, 0);
return true;
}
}
}
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
using System.Diagnostics;
using System.Runtime.CompilerServices;
using System.Runtime.InteropServices;
using System.Threading.Tasks;
namespace System.Threading
{
//
// Windows-specific implementation of Timer
//
internal partial class TimerQueue
{
private IntPtr _nativeTimer;
private readonly int _id;
private TimerQueue(int id)
{
_id = id;
}
[UnmanagedCallersOnly]
private static void TimerCallback(IntPtr instance, IntPtr context, IntPtr timer)
{
int id = (int)context;
var wrapper = ThreadPoolCallbackWrapper.Enter();
Instances[id].FireNextTimers();
ThreadPool.IncrementCompletedWorkItemCount();
wrapper.Exit();
}
private unsafe bool SetTimer(uint actualDuration)
{
if (_nativeTimer == IntPtr.Zero)
{
_nativeTimer = Interop.Kernel32.CreateThreadpoolTimer(&TimerCallback, (IntPtr)_id, IntPtr.Zero);
if (_nativeTimer == IntPtr.Zero)
throw new OutOfMemoryException();
}
// Negative time indicates the amount of time to wait relative to the current time, in 100 nanosecond units
long dueTime = -10000 * (long)actualDuration;
Interop.Kernel32.SetThreadpoolTimer(_nativeTimer, &dueTime, 0, 0);
return true;
}
}
}
| -1 |
dotnet/runtime
| 66,398 |
Reenable compiler warning 4244 under coreclr/
|
Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
AaronRobinsonMSFT
| 2022-03-09T15:46:00Z | 2022-03-10T01:12:51Z |
763936ed098deaa1588935f17d7cc0a07c27c3fa
|
b71eba8b3a74fa6282dc1526e68abbd26f3e385f
|
Reenable compiler warning 4244 under coreclr/. Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
./src/tests/Loader/classloader/TypeGeneratorTests/TypeGeneratorTest74/Generated74.ilproj
|
<Project Sdk="Microsoft.NET.Sdk.IL">
<PropertyGroup>
<CLRTestPriority>1</CLRTestPriority>
</PropertyGroup>
<ItemGroup>
<Compile Include="Generated74.il" />
</ItemGroup>
<ItemGroup>
<ProjectReference Include="..\TestFramework\TestFramework.csproj" />
</ItemGroup>
</Project>
|
<Project Sdk="Microsoft.NET.Sdk.IL">
<PropertyGroup>
<CLRTestPriority>1</CLRTestPriority>
</PropertyGroup>
<ItemGroup>
<Compile Include="Generated74.il" />
</ItemGroup>
<ItemGroup>
<ProjectReference Include="..\TestFramework\TestFramework.csproj" />
</ItemGroup>
</Project>
| -1 |
dotnet/runtime
| 66,398 |
Reenable compiler warning 4244 under coreclr/
|
Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
AaronRobinsonMSFT
| 2022-03-09T15:46:00Z | 2022-03-10T01:12:51Z |
763936ed098deaa1588935f17d7cc0a07c27c3fa
|
b71eba8b3a74fa6282dc1526e68abbd26f3e385f
|
Reenable compiler warning 4244 under coreclr/. Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
./src/libraries/System.Linq.Expressions/tests/Constant/ConstantNullableTests.cs
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
using Xunit;
namespace System.Linq.Expressions.Tests
{
public static class ConstantNullableTests
{
#region Test methods
[Theory, ClassData(typeof(CompilationTypes))]
public static void CheckNullableBoolConstantTest(bool useInterpreter)
{
foreach (bool? value in new bool?[] { null, true, false })
{
VerifyNullableBoolConstant(value, useInterpreter);
}
}
[Theory, ClassData(typeof(CompilationTypes))]
public static void CheckNullableByteConstantTest(bool useInterpreter)
{
foreach (byte? value in new byte?[] { null, 0, 1, byte.MaxValue })
{
VerifyNullableByteConstant(value, useInterpreter);
}
}
[Theory, ClassData(typeof(CompilationTypes))]
public static void CheckNullableCharConstantTest(bool useInterpreter)
{
foreach (char? value in new char?[] { null, '\0', '\b', 'A', '\uffff' })
{
VerifyNullableCharConstant(value, useInterpreter);
}
}
[Theory, ClassData(typeof(CompilationTypes))]
public static void CheckNullableDecimalConstantTest(bool useInterpreter)
{
foreach (decimal? value in new decimal?[] { null, decimal.Zero, decimal.One, decimal.MinusOne, decimal.MinValue, decimal.MaxValue })
{
VerifyNullableDecimalConstant(value, useInterpreter);
}
}
[Theory, ClassData(typeof(CompilationTypes))]
public static void CheckNullableDoubleConstantTest(bool useInterpreter)
{
foreach (double? value in new double?[] { null, 0, 1, -1, double.MinValue, double.MaxValue, double.Epsilon, double.NegativeInfinity, double.PositiveInfinity, double.NaN })
{
VerifyNullableDoubleConstant(value, useInterpreter);
}
}
[Theory, ClassData(typeof(CompilationTypes))]
public static void CheckNullableEnumConstantTest(bool useInterpreter)
{
foreach (E? value in new E?[] { null, (E)0, E.A, E.B, (E)int.MaxValue, (E)int.MinValue })
{
VerifyNullableEnumConstant(value, useInterpreter);
}
}
[Theory, ClassData(typeof(CompilationTypes))]
public static void CheckNullableEnumLongConstantTest(bool useInterpreter)
{
foreach (El? value in new El?[] { null, (El)0, El.A, El.B, (El)long.MaxValue, (El)long.MinValue })
{
VerifyNullableEnumLongConstant(value, useInterpreter);
}
}
[Theory, ClassData(typeof(CompilationTypes))]
public static void CheckNullableFloatConstantTest(bool useInterpreter)
{
foreach (float? value in new float?[] { null, 0, 1, -1, float.MinValue, float.MaxValue, float.Epsilon, float.NegativeInfinity, float.PositiveInfinity, float.NaN })
{
VerifyNullableFloatConstant(value, useInterpreter);
}
}
[Theory, ClassData(typeof(CompilationTypes))]
public static void CheckNullableIntConstantTest(bool useInterpreter)
{
foreach (int? value in new int?[] { null, 0, 1, -1, int.MinValue, int.MaxValue })
{
VerifyNullableIntConstant(value, useInterpreter);
}
}
[Theory, ClassData(typeof(CompilationTypes))]
public static void CheckNullableLongConstantTest(bool useInterpreter)
{
foreach (long? value in new long?[] { null, 0, 1, -1, long.MinValue, long.MaxValue })
{
VerifyNullableLongConstant(value, useInterpreter);
}
}
[Theory, ClassData(typeof(CompilationTypes))]
public static void CheckNullableStructConstantTest(bool useInterpreter)
{
foreach (S? value in new S?[] { null, default(S), new S() })
{
VerifyNullableStructConstant(value, useInterpreter);
}
}
[Theory, ClassData(typeof(CompilationTypes))]
public static void CheckNullableSByteConstantTest(bool useInterpreter)
{
foreach (sbyte? value in new sbyte?[] { null, 0, 1, -1, sbyte.MinValue, sbyte.MaxValue })
{
VerifyNullableSByteConstant(value, useInterpreter);
}
}
[Theory, ClassData(typeof(CompilationTypes))]
public static void CheckNullableStructWithStringConstantTest(bool useInterpreter)
{
foreach (Sc? value in new Sc?[] { null, default(Sc), new Sc(), new Sc(null) })
{
VerifyNullableStructWithStringConstant(value, useInterpreter);
}
}
[Theory, ClassData(typeof(CompilationTypes))]
public static void CheckNullableStructWithStringAndFieldConstantTest(bool useInterpreter)
{
foreach (Scs? value in new Scs?[] { null, default(Scs), new Scs(), new Scs(null, new S()) })
{
VerifyNullableStructWithStringAndFieldConstant(value, useInterpreter);
}
}
[Theory, ClassData(typeof(CompilationTypes))]
public static void CheckNullableShortConstantTest(bool useInterpreter)
{
foreach (short? value in new short?[] { null, 0, 1, -1, short.MinValue, short.MaxValue })
{
VerifyNullableShortConstant(value, useInterpreter);
}
}
[Theory, ClassData(typeof(CompilationTypes))]
public static void CheckNullableStructWithTwoValuesConstantTest(bool useInterpreter)
{
foreach (Sp? value in new Sp?[] { null, default(Sp), new Sp(), new Sp(5, 5.0) })
{
VerifyNullableStructWithTwoValuesConstant(value, useInterpreter);
}
}
[Theory, ClassData(typeof(CompilationTypes))]
public static void CheckNullableStructWithValueConstantTest(bool useInterpreter)
{
foreach (Ss? value in new Ss?[] { null, default(Ss), new Ss(), new Ss(new S()) })
{
VerifyNullableStructWithValueConstant(value, useInterpreter);
}
}
[Theory, ClassData(typeof(CompilationTypes))]
public static void CheckNullableUIntConstantTest(bool useInterpreter)
{
foreach (uint? value in new uint?[] { null, 0, 1, uint.MaxValue })
{
VerifyNullableUIntConstant(value, useInterpreter);
}
}
[Theory, ClassData(typeof(CompilationTypes))]
public static void CheckNullableULongConstantTest(bool useInterpreter)
{
foreach (ulong? value in new ulong?[] { null, 0, 1, ulong.MaxValue })
{
VerifyNullableULongConstant(value, useInterpreter);
}
}
[Theory, ClassData(typeof(CompilationTypes))]
public static void CheckNullableUShortConstantTest(bool useInterpreter)
{
foreach (ushort? value in new ushort?[] { null, 0, 1, ushort.MaxValue })
{
VerifyNullableUShortConstant(value, useInterpreter);
}
}
[Theory, ClassData(typeof(CompilationTypes))]
public static void CheckNullableGenericWithStructRestrictionWithEnumConstantTest(bool useInterpreter)
{
CheckNullableGenericWithStructRestrictionConstantHelper<E>(useInterpreter);
}
[Theory, ClassData(typeof(CompilationTypes))]
public static void CheckNullableGenericWithStructRestrictionWithStructConstantTest(bool useInterpreter)
{
CheckNullableGenericWithStructRestrictionConstantHelper<S>(useInterpreter);
}
[Theory, ClassData(typeof(CompilationTypes))]
public static void CheckNullableGenericWithStructRestrictionWithStructWithStringAndValueConstantTest(bool useInterpreter)
{
CheckNullableGenericWithStructRestrictionConstantHelper<Scs>(useInterpreter);
}
#endregion
#region Generic helpers
private static void CheckNullableGenericWithStructRestrictionConstantHelper<Ts>(bool useInterpreter) where Ts : struct
{
foreach (Ts? value in new Ts?[] { null, default(Ts), new Ts() })
{
VerifyNullableGenericWithStructRestriction<Ts>(value, useInterpreter);
}
}
#endregion
#region Test verifiers
private static void VerifyNullableBoolConstant(bool? value, bool useInterpreter)
{
Expression<Func<bool?>> e =
Expression.Lambda<Func<bool?>>(
Expression.Constant(value, typeof(bool?)),
Enumerable.Empty<ParameterExpression>());
Func<bool?> f = e.Compile(useInterpreter);
Assert.Equal(value, f());
}
private static void VerifyNullableByteConstant(byte? value, bool useInterpreter)
{
Expression<Func<byte?>> e =
Expression.Lambda<Func<byte?>>(
Expression.Constant(value, typeof(byte?)),
Enumerable.Empty<ParameterExpression>());
Func<byte?> f = e.Compile(useInterpreter);
Assert.Equal(value, f());
}
private static void VerifyNullableCharConstant(char? value, bool useInterpreter)
{
Expression<Func<char?>> e =
Expression.Lambda<Func<char?>>(
Expression.Constant(value, typeof(char?)),
Enumerable.Empty<ParameterExpression>());
Func<char?> f = e.Compile(useInterpreter);
Assert.Equal(value, f());
}
private static void VerifyNullableDecimalConstant(decimal? value, bool useInterpreter)
{
Expression<Func<decimal?>> e =
Expression.Lambda<Func<decimal?>>(
Expression.Constant(value, typeof(decimal?)),
Enumerable.Empty<ParameterExpression>());
Func<decimal?> f = e.Compile(useInterpreter);
Assert.Equal(value, f());
}
private static void VerifyNullableDoubleConstant(double? value, bool useInterpreter)
{
Expression<Func<double?>> e =
Expression.Lambda<Func<double?>>(
Expression.Constant(value, typeof(double?)),
Enumerable.Empty<ParameterExpression>());
Func<double?> f = e.Compile(useInterpreter);
Assert.Equal(value, f());
}
private static void VerifyNullableEnumConstant(E? value, bool useInterpreter)
{
Expression<Func<E?>> e =
Expression.Lambda<Func<E?>>(
Expression.Constant(value, typeof(E?)),
Enumerable.Empty<ParameterExpression>());
Func<E?> f = e.Compile(useInterpreter);
Assert.Equal(value, f());
}
private static void VerifyNullableEnumLongConstant(El? value, bool useInterpreter)
{
Expression<Func<El?>> e =
Expression.Lambda<Func<El?>>(
Expression.Constant(value, typeof(El?)),
Enumerable.Empty<ParameterExpression>());
Func<El?> f = e.Compile(useInterpreter);
Assert.Equal(value, f());
}
private static void VerifyNullableFloatConstant(float? value, bool useInterpreter)
{
Expression<Func<float?>> e =
Expression.Lambda<Func<float?>>(
Expression.Constant(value, typeof(float?)),
Enumerable.Empty<ParameterExpression>());
Func<float?> f = e.Compile(useInterpreter);
Assert.Equal(value, f());
}
private static void VerifyNullableIntConstant(int? value, bool useInterpreter)
{
Expression<Func<int?>> e =
Expression.Lambda<Func<int?>>(
Expression.Constant(value, typeof(int?)),
Enumerable.Empty<ParameterExpression>());
Func<int?> f = e.Compile(useInterpreter);
Assert.Equal(value, f());
}
private static void VerifyNullableLongConstant(long? value, bool useInterpreter)
{
Expression<Func<long?>> e =
Expression.Lambda<Func<long?>>(
Expression.Constant(value, typeof(long?)),
Enumerable.Empty<ParameterExpression>());
Func<long?> f = e.Compile(useInterpreter);
Assert.Equal(value, f());
}
private static void VerifyNullableStructConstant(S? value, bool useInterpreter)
{
Expression<Func<S?>> e =
Expression.Lambda<Func<S?>>(
Expression.Constant(value, typeof(S?)),
Enumerable.Empty<ParameterExpression>());
Func<S?> f = e.Compile(useInterpreter);
Assert.Equal(value, f());
}
private static void VerifyNullableSByteConstant(sbyte? value, bool useInterpreter)
{
Expression<Func<sbyte?>> e =
Expression.Lambda<Func<sbyte?>>(
Expression.Constant(value, typeof(sbyte?)),
Enumerable.Empty<ParameterExpression>());
Func<sbyte?> f = e.Compile(useInterpreter);
Assert.Equal(value, f());
}
private static void VerifyNullableStructWithStringConstant(Sc? value, bool useInterpreter)
{
Expression<Func<Sc?>> e =
Expression.Lambda<Func<Sc?>>(
Expression.Constant(value, typeof(Sc?)),
Enumerable.Empty<ParameterExpression>());
Func<Sc?> f = e.Compile(useInterpreter);
Assert.Equal(value, f());
}
private static void VerifyNullableStructWithStringAndFieldConstant(Scs? value, bool useInterpreter)
{
Expression<Func<Scs?>> e =
Expression.Lambda<Func<Scs?>>(
Expression.Constant(value, typeof(Scs?)),
Enumerable.Empty<ParameterExpression>());
Func<Scs?> f = e.Compile(useInterpreter);
Assert.Equal(value, f());
}
private static void VerifyNullableShortConstant(short? value, bool useInterpreter)
{
Expression<Func<short?>> e =
Expression.Lambda<Func<short?>>(
Expression.Constant(value, typeof(short?)),
Enumerable.Empty<ParameterExpression>());
Func<short?> f = e.Compile(useInterpreter);
Assert.Equal(value, f());
}
private static void VerifyNullableStructWithTwoValuesConstant(Sp? value, bool useInterpreter)
{
Expression<Func<Sp?>> e =
Expression.Lambda<Func<Sp?>>(
Expression.Constant(value, typeof(Sp?)),
Enumerable.Empty<ParameterExpression>());
Func<Sp?> f = e.Compile(useInterpreter);
Assert.Equal(value, f());
}
private static void VerifyNullableStructWithValueConstant(Ss? value, bool useInterpreter)
{
Expression<Func<Ss?>> e =
Expression.Lambda<Func<Ss?>>(
Expression.Constant(value, typeof(Ss?)),
Enumerable.Empty<ParameterExpression>());
Func<Ss?> f = e.Compile(useInterpreter);
Assert.Equal(value, f());
}
private static void VerifyNullableUIntConstant(uint? value, bool useInterpreter)
{
Expression<Func<uint?>> e =
Expression.Lambda<Func<uint?>>(
Expression.Constant(value, typeof(uint?)),
Enumerable.Empty<ParameterExpression>());
Func<uint?> f = e.Compile(useInterpreter);
Assert.Equal(value, f());
}
private static void VerifyNullableULongConstant(ulong? value, bool useInterpreter)
{
Expression<Func<ulong?>> e =
Expression.Lambda<Func<ulong?>>(
Expression.Constant(value, typeof(ulong?)),
Enumerable.Empty<ParameterExpression>());
Func<ulong?> f = e.Compile(useInterpreter);
Assert.Equal(value, f());
}
private static void VerifyNullableUShortConstant(ushort? value, bool useInterpreter)
{
Expression<Func<ushort?>> e =
Expression.Lambda<Func<ushort?>>(
Expression.Constant(value, typeof(ushort?)),
Enumerable.Empty<ParameterExpression>());
Func<ushort?> f = e.Compile(useInterpreter);
Assert.Equal(value, f());
}
private static void VerifyNullableGenericWithStructRestriction<Ts>(Ts? value, bool useInterpreter) where Ts : struct
{
Expression<Func<Ts?>> e =
Expression.Lambda<Func<Ts?>>(
Expression.Constant(value, typeof(Ts?)),
Enumerable.Empty<ParameterExpression>());
Func<Ts?> f = e.Compile(useInterpreter);
Assert.Equal(value, f());
}
#endregion
}
}
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
using Xunit;
namespace System.Linq.Expressions.Tests
{
public static class ConstantNullableTests
{
#region Test methods
[Theory, ClassData(typeof(CompilationTypes))]
public static void CheckNullableBoolConstantTest(bool useInterpreter)
{
foreach (bool? value in new bool?[] { null, true, false })
{
VerifyNullableBoolConstant(value, useInterpreter);
}
}
[Theory, ClassData(typeof(CompilationTypes))]
public static void CheckNullableByteConstantTest(bool useInterpreter)
{
foreach (byte? value in new byte?[] { null, 0, 1, byte.MaxValue })
{
VerifyNullableByteConstant(value, useInterpreter);
}
}
[Theory, ClassData(typeof(CompilationTypes))]
public static void CheckNullableCharConstantTest(bool useInterpreter)
{
foreach (char? value in new char?[] { null, '\0', '\b', 'A', '\uffff' })
{
VerifyNullableCharConstant(value, useInterpreter);
}
}
[Theory, ClassData(typeof(CompilationTypes))]
public static void CheckNullableDecimalConstantTest(bool useInterpreter)
{
foreach (decimal? value in new decimal?[] { null, decimal.Zero, decimal.One, decimal.MinusOne, decimal.MinValue, decimal.MaxValue })
{
VerifyNullableDecimalConstant(value, useInterpreter);
}
}
[Theory, ClassData(typeof(CompilationTypes))]
public static void CheckNullableDoubleConstantTest(bool useInterpreter)
{
foreach (double? value in new double?[] { null, 0, 1, -1, double.MinValue, double.MaxValue, double.Epsilon, double.NegativeInfinity, double.PositiveInfinity, double.NaN })
{
VerifyNullableDoubleConstant(value, useInterpreter);
}
}
[Theory, ClassData(typeof(CompilationTypes))]
public static void CheckNullableEnumConstantTest(bool useInterpreter)
{
foreach (E? value in new E?[] { null, (E)0, E.A, E.B, (E)int.MaxValue, (E)int.MinValue })
{
VerifyNullableEnumConstant(value, useInterpreter);
}
}
[Theory, ClassData(typeof(CompilationTypes))]
public static void CheckNullableEnumLongConstantTest(bool useInterpreter)
{
foreach (El? value in new El?[] { null, (El)0, El.A, El.B, (El)long.MaxValue, (El)long.MinValue })
{
VerifyNullableEnumLongConstant(value, useInterpreter);
}
}
[Theory, ClassData(typeof(CompilationTypes))]
public static void CheckNullableFloatConstantTest(bool useInterpreter)
{
foreach (float? value in new float?[] { null, 0, 1, -1, float.MinValue, float.MaxValue, float.Epsilon, float.NegativeInfinity, float.PositiveInfinity, float.NaN })
{
VerifyNullableFloatConstant(value, useInterpreter);
}
}
[Theory, ClassData(typeof(CompilationTypes))]
public static void CheckNullableIntConstantTest(bool useInterpreter)
{
foreach (int? value in new int?[] { null, 0, 1, -1, int.MinValue, int.MaxValue })
{
VerifyNullableIntConstant(value, useInterpreter);
}
}
[Theory, ClassData(typeof(CompilationTypes))]
public static void CheckNullableLongConstantTest(bool useInterpreter)
{
foreach (long? value in new long?[] { null, 0, 1, -1, long.MinValue, long.MaxValue })
{
VerifyNullableLongConstant(value, useInterpreter);
}
}
[Theory, ClassData(typeof(CompilationTypes))]
public static void CheckNullableStructConstantTest(bool useInterpreter)
{
foreach (S? value in new S?[] { null, default(S), new S() })
{
VerifyNullableStructConstant(value, useInterpreter);
}
}
[Theory, ClassData(typeof(CompilationTypes))]
public static void CheckNullableSByteConstantTest(bool useInterpreter)
{
foreach (sbyte? value in new sbyte?[] { null, 0, 1, -1, sbyte.MinValue, sbyte.MaxValue })
{
VerifyNullableSByteConstant(value, useInterpreter);
}
}
[Theory, ClassData(typeof(CompilationTypes))]
public static void CheckNullableStructWithStringConstantTest(bool useInterpreter)
{
foreach (Sc? value in new Sc?[] { null, default(Sc), new Sc(), new Sc(null) })
{
VerifyNullableStructWithStringConstant(value, useInterpreter);
}
}
[Theory, ClassData(typeof(CompilationTypes))]
public static void CheckNullableStructWithStringAndFieldConstantTest(bool useInterpreter)
{
foreach (Scs? value in new Scs?[] { null, default(Scs), new Scs(), new Scs(null, new S()) })
{
VerifyNullableStructWithStringAndFieldConstant(value, useInterpreter);
}
}
[Theory, ClassData(typeof(CompilationTypes))]
public static void CheckNullableShortConstantTest(bool useInterpreter)
{
foreach (short? value in new short?[] { null, 0, 1, -1, short.MinValue, short.MaxValue })
{
VerifyNullableShortConstant(value, useInterpreter);
}
}
[Theory, ClassData(typeof(CompilationTypes))]
public static void CheckNullableStructWithTwoValuesConstantTest(bool useInterpreter)
{
foreach (Sp? value in new Sp?[] { null, default(Sp), new Sp(), new Sp(5, 5.0) })
{
VerifyNullableStructWithTwoValuesConstant(value, useInterpreter);
}
}
[Theory, ClassData(typeof(CompilationTypes))]
public static void CheckNullableStructWithValueConstantTest(bool useInterpreter)
{
foreach (Ss? value in new Ss?[] { null, default(Ss), new Ss(), new Ss(new S()) })
{
VerifyNullableStructWithValueConstant(value, useInterpreter);
}
}
[Theory, ClassData(typeof(CompilationTypes))]
public static void CheckNullableUIntConstantTest(bool useInterpreter)
{
foreach (uint? value in new uint?[] { null, 0, 1, uint.MaxValue })
{
VerifyNullableUIntConstant(value, useInterpreter);
}
}
[Theory, ClassData(typeof(CompilationTypes))]
public static void CheckNullableULongConstantTest(bool useInterpreter)
{
foreach (ulong? value in new ulong?[] { null, 0, 1, ulong.MaxValue })
{
VerifyNullableULongConstant(value, useInterpreter);
}
}
[Theory, ClassData(typeof(CompilationTypes))]
public static void CheckNullableUShortConstantTest(bool useInterpreter)
{
foreach (ushort? value in new ushort?[] { null, 0, 1, ushort.MaxValue })
{
VerifyNullableUShortConstant(value, useInterpreter);
}
}
[Theory, ClassData(typeof(CompilationTypes))]
public static void CheckNullableGenericWithStructRestrictionWithEnumConstantTest(bool useInterpreter)
{
CheckNullableGenericWithStructRestrictionConstantHelper<E>(useInterpreter);
}
[Theory, ClassData(typeof(CompilationTypes))]
public static void CheckNullableGenericWithStructRestrictionWithStructConstantTest(bool useInterpreter)
{
CheckNullableGenericWithStructRestrictionConstantHelper<S>(useInterpreter);
}
[Theory, ClassData(typeof(CompilationTypes))]
public static void CheckNullableGenericWithStructRestrictionWithStructWithStringAndValueConstantTest(bool useInterpreter)
{
CheckNullableGenericWithStructRestrictionConstantHelper<Scs>(useInterpreter);
}
#endregion
#region Generic helpers
private static void CheckNullableGenericWithStructRestrictionConstantHelper<Ts>(bool useInterpreter) where Ts : struct
{
foreach (Ts? value in new Ts?[] { null, default(Ts), new Ts() })
{
VerifyNullableGenericWithStructRestriction<Ts>(value, useInterpreter);
}
}
#endregion
#region Test verifiers
private static void VerifyNullableBoolConstant(bool? value, bool useInterpreter)
{
Expression<Func<bool?>> e =
Expression.Lambda<Func<bool?>>(
Expression.Constant(value, typeof(bool?)),
Enumerable.Empty<ParameterExpression>());
Func<bool?> f = e.Compile(useInterpreter);
Assert.Equal(value, f());
}
private static void VerifyNullableByteConstant(byte? value, bool useInterpreter)
{
Expression<Func<byte?>> e =
Expression.Lambda<Func<byte?>>(
Expression.Constant(value, typeof(byte?)),
Enumerable.Empty<ParameterExpression>());
Func<byte?> f = e.Compile(useInterpreter);
Assert.Equal(value, f());
}
private static void VerifyNullableCharConstant(char? value, bool useInterpreter)
{
Expression<Func<char?>> e =
Expression.Lambda<Func<char?>>(
Expression.Constant(value, typeof(char?)),
Enumerable.Empty<ParameterExpression>());
Func<char?> f = e.Compile(useInterpreter);
Assert.Equal(value, f());
}
private static void VerifyNullableDecimalConstant(decimal? value, bool useInterpreter)
{
Expression<Func<decimal?>> e =
Expression.Lambda<Func<decimal?>>(
Expression.Constant(value, typeof(decimal?)),
Enumerable.Empty<ParameterExpression>());
Func<decimal?> f = e.Compile(useInterpreter);
Assert.Equal(value, f());
}
private static void VerifyNullableDoubleConstant(double? value, bool useInterpreter)
{
Expression<Func<double?>> e =
Expression.Lambda<Func<double?>>(
Expression.Constant(value, typeof(double?)),
Enumerable.Empty<ParameterExpression>());
Func<double?> f = e.Compile(useInterpreter);
Assert.Equal(value, f());
}
private static void VerifyNullableEnumConstant(E? value, bool useInterpreter)
{
Expression<Func<E?>> e =
Expression.Lambda<Func<E?>>(
Expression.Constant(value, typeof(E?)),
Enumerable.Empty<ParameterExpression>());
Func<E?> f = e.Compile(useInterpreter);
Assert.Equal(value, f());
}
private static void VerifyNullableEnumLongConstant(El? value, bool useInterpreter)
{
Expression<Func<El?>> e =
Expression.Lambda<Func<El?>>(
Expression.Constant(value, typeof(El?)),
Enumerable.Empty<ParameterExpression>());
Func<El?> f = e.Compile(useInterpreter);
Assert.Equal(value, f());
}
private static void VerifyNullableFloatConstant(float? value, bool useInterpreter)
{
Expression<Func<float?>> e =
Expression.Lambda<Func<float?>>(
Expression.Constant(value, typeof(float?)),
Enumerable.Empty<ParameterExpression>());
Func<float?> f = e.Compile(useInterpreter);
Assert.Equal(value, f());
}
private static void VerifyNullableIntConstant(int? value, bool useInterpreter)
{
Expression<Func<int?>> e =
Expression.Lambda<Func<int?>>(
Expression.Constant(value, typeof(int?)),
Enumerable.Empty<ParameterExpression>());
Func<int?> f = e.Compile(useInterpreter);
Assert.Equal(value, f());
}
private static void VerifyNullableLongConstant(long? value, bool useInterpreter)
{
Expression<Func<long?>> e =
Expression.Lambda<Func<long?>>(
Expression.Constant(value, typeof(long?)),
Enumerable.Empty<ParameterExpression>());
Func<long?> f = e.Compile(useInterpreter);
Assert.Equal(value, f());
}
private static void VerifyNullableStructConstant(S? value, bool useInterpreter)
{
Expression<Func<S?>> e =
Expression.Lambda<Func<S?>>(
Expression.Constant(value, typeof(S?)),
Enumerable.Empty<ParameterExpression>());
Func<S?> f = e.Compile(useInterpreter);
Assert.Equal(value, f());
}
private static void VerifyNullableSByteConstant(sbyte? value, bool useInterpreter)
{
Expression<Func<sbyte?>> e =
Expression.Lambda<Func<sbyte?>>(
Expression.Constant(value, typeof(sbyte?)),
Enumerable.Empty<ParameterExpression>());
Func<sbyte?> f = e.Compile(useInterpreter);
Assert.Equal(value, f());
}
private static void VerifyNullableStructWithStringConstant(Sc? value, bool useInterpreter)
{
Expression<Func<Sc?>> e =
Expression.Lambda<Func<Sc?>>(
Expression.Constant(value, typeof(Sc?)),
Enumerable.Empty<ParameterExpression>());
Func<Sc?> f = e.Compile(useInterpreter);
Assert.Equal(value, f());
}
private static void VerifyNullableStructWithStringAndFieldConstant(Scs? value, bool useInterpreter)
{
Expression<Func<Scs?>> e =
Expression.Lambda<Func<Scs?>>(
Expression.Constant(value, typeof(Scs?)),
Enumerable.Empty<ParameterExpression>());
Func<Scs?> f = e.Compile(useInterpreter);
Assert.Equal(value, f());
}
private static void VerifyNullableShortConstant(short? value, bool useInterpreter)
{
Expression<Func<short?>> e =
Expression.Lambda<Func<short?>>(
Expression.Constant(value, typeof(short?)),
Enumerable.Empty<ParameterExpression>());
Func<short?> f = e.Compile(useInterpreter);
Assert.Equal(value, f());
}
private static void VerifyNullableStructWithTwoValuesConstant(Sp? value, bool useInterpreter)
{
Expression<Func<Sp?>> e =
Expression.Lambda<Func<Sp?>>(
Expression.Constant(value, typeof(Sp?)),
Enumerable.Empty<ParameterExpression>());
Func<Sp?> f = e.Compile(useInterpreter);
Assert.Equal(value, f());
}
private static void VerifyNullableStructWithValueConstant(Ss? value, bool useInterpreter)
{
Expression<Func<Ss?>> e =
Expression.Lambda<Func<Ss?>>(
Expression.Constant(value, typeof(Ss?)),
Enumerable.Empty<ParameterExpression>());
Func<Ss?> f = e.Compile(useInterpreter);
Assert.Equal(value, f());
}
private static void VerifyNullableUIntConstant(uint? value, bool useInterpreter)
{
Expression<Func<uint?>> e =
Expression.Lambda<Func<uint?>>(
Expression.Constant(value, typeof(uint?)),
Enumerable.Empty<ParameterExpression>());
Func<uint?> f = e.Compile(useInterpreter);
Assert.Equal(value, f());
}
private static void VerifyNullableULongConstant(ulong? value, bool useInterpreter)
{
Expression<Func<ulong?>> e =
Expression.Lambda<Func<ulong?>>(
Expression.Constant(value, typeof(ulong?)),
Enumerable.Empty<ParameterExpression>());
Func<ulong?> f = e.Compile(useInterpreter);
Assert.Equal(value, f());
}
private static void VerifyNullableUShortConstant(ushort? value, bool useInterpreter)
{
Expression<Func<ushort?>> e =
Expression.Lambda<Func<ushort?>>(
Expression.Constant(value, typeof(ushort?)),
Enumerable.Empty<ParameterExpression>());
Func<ushort?> f = e.Compile(useInterpreter);
Assert.Equal(value, f());
}
private static void VerifyNullableGenericWithStructRestriction<Ts>(Ts? value, bool useInterpreter) where Ts : struct
{
Expression<Func<Ts?>> e =
Expression.Lambda<Func<Ts?>>(
Expression.Constant(value, typeof(Ts?)),
Enumerable.Empty<ParameterExpression>());
Func<Ts?> f = e.Compile(useInterpreter);
Assert.Equal(value, f());
}
#endregion
}
}
| -1 |
dotnet/runtime
| 66,398 |
Reenable compiler warning 4244 under coreclr/
|
Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
AaronRobinsonMSFT
| 2022-03-09T15:46:00Z | 2022-03-10T01:12:51Z |
763936ed098deaa1588935f17d7cc0a07c27c3fa
|
b71eba8b3a74fa6282dc1526e68abbd26f3e385f
|
Reenable compiler warning 4244 under coreclr/. Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
./src/tests/Loader/classloader/v1/Beta1/Layout/Matrix/cs/L-2-11-1.csproj
|
<Project Sdk="Microsoft.NET.Sdk">
<PropertyGroup>
<AllowUnsafeBlocks>true</AllowUnsafeBlocks>
<OutputType>Exe</OutputType>
<CLRTestPriority>1</CLRTestPriority>
</PropertyGroup>
<ItemGroup>
<Compile Include="L-2-11-1.cs" />
</ItemGroup>
</Project>
|
<Project Sdk="Microsoft.NET.Sdk">
<PropertyGroup>
<AllowUnsafeBlocks>true</AllowUnsafeBlocks>
<OutputType>Exe</OutputType>
<CLRTestPriority>1</CLRTestPriority>
</PropertyGroup>
<ItemGroup>
<Compile Include="L-2-11-1.cs" />
</ItemGroup>
</Project>
| -1 |
dotnet/runtime
| 66,398 |
Reenable compiler warning 4244 under coreclr/
|
Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
AaronRobinsonMSFT
| 2022-03-09T15:46:00Z | 2022-03-10T01:12:51Z |
763936ed098deaa1588935f17d7cc0a07c27c3fa
|
b71eba8b3a74fa6282dc1526e68abbd26f3e385f
|
Reenable compiler warning 4244 under coreclr/. Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
./src/libraries/System.Net.Sockets/tests/FunctionalTests/LoggingTest.cs
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
using System.Collections.Concurrent;
using System.Diagnostics.Tracing;
using Microsoft.DotNet.RemoteExecutor;
using Xunit;
using Xunit.Abstractions;
namespace System.Net.Sockets.Tests
{
public class LoggingTest
{
public readonly ITestOutputHelper _output;
public LoggingTest(ITestOutputHelper output)
{
_output = output;
}
[Fact]
public static void EventSource_ExistsWithCorrectId()
{
Type esType = typeof(Socket).Assembly.GetType("System.Net.NetEventSource", throwOnError: true, ignoreCase: false);
Assert.NotNull(esType);
Assert.Equal("Private.InternalDiagnostics.System.Net.Sockets", EventSource.GetName(esType));
Assert.Equal(Guid.Parse("ae391de7-a2cb-557c-dd34-fe00d0b98c7f"), EventSource.GetGuid(esType));
Assert.NotEmpty(EventSource.GenerateManifest(esType, esType.Assembly.Location));
}
[OuterLoop]
[ConditionalFact(typeof(RemoteExecutor), nameof(RemoteExecutor.IsSupported))]
public void EventSource_EventsRaisedAsExpected()
{
RemoteExecutor.Invoke(async () =>
{
using (var listener = new TestEventListener("Private.InternalDiagnostics.System.Net.Sockets", EventLevel.Verbose))
{
var events = new ConcurrentQueue<EventWrittenEventArgs>();
await listener.RunWithCallbackAsync(events.Enqueue, async () =>
{
// Invoke several tests to execute code paths while tracing is enabled
await new SendReceive_Sync(null).SendRecv_Stream_TCP(IPAddress.Loopback, false);
await new SendReceive_Sync(null).SendRecv_Stream_TCP(IPAddress.Loopback, true);
await new SendReceive_Task(null).SendRecv_Stream_TCP(IPAddress.Loopback, false);
await new SendReceive_Task(null).SendRecv_Stream_TCP(IPAddress.Loopback, true);
await new SendReceive_Eap(null).SendRecv_Stream_TCP(IPAddress.Loopback, false);
await new SendReceive_Eap(null).SendRecv_Stream_TCP(IPAddress.Loopback, true);
await new SendReceive_Apm(null).SendRecv_Stream_TCP(IPAddress.Loopback, false);
await new SendReceive_Apm(null).SendRecv_Stream_TCP(IPAddress.Loopback, true);
await new NetworkStreamTest().CopyToAsync_AllDataCopied(4096, true);
await new NetworkStreamTest().Timeout_Roundtrips();
});
Assert.DoesNotContain(events, ev => ev.EventId == 0); // errors from the EventSource itself
Assert.InRange(events.Count, 1, int.MaxValue);
}
}).Dispose();
}
}
}
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
using System.Collections.Concurrent;
using System.Diagnostics.Tracing;
using Microsoft.DotNet.RemoteExecutor;
using Xunit;
using Xunit.Abstractions;
namespace System.Net.Sockets.Tests
{
public class LoggingTest
{
public readonly ITestOutputHelper _output;
public LoggingTest(ITestOutputHelper output)
{
_output = output;
}
[Fact]
public static void EventSource_ExistsWithCorrectId()
{
Type esType = typeof(Socket).Assembly.GetType("System.Net.NetEventSource", throwOnError: true, ignoreCase: false);
Assert.NotNull(esType);
Assert.Equal("Private.InternalDiagnostics.System.Net.Sockets", EventSource.GetName(esType));
Assert.Equal(Guid.Parse("ae391de7-a2cb-557c-dd34-fe00d0b98c7f"), EventSource.GetGuid(esType));
Assert.NotEmpty(EventSource.GenerateManifest(esType, esType.Assembly.Location));
}
[OuterLoop]
[ConditionalFact(typeof(RemoteExecutor), nameof(RemoteExecutor.IsSupported))]
public void EventSource_EventsRaisedAsExpected()
{
RemoteExecutor.Invoke(async () =>
{
using (var listener = new TestEventListener("Private.InternalDiagnostics.System.Net.Sockets", EventLevel.Verbose))
{
var events = new ConcurrentQueue<EventWrittenEventArgs>();
await listener.RunWithCallbackAsync(events.Enqueue, async () =>
{
// Invoke several tests to execute code paths while tracing is enabled
await new SendReceive_Sync(null).SendRecv_Stream_TCP(IPAddress.Loopback, false);
await new SendReceive_Sync(null).SendRecv_Stream_TCP(IPAddress.Loopback, true);
await new SendReceive_Task(null).SendRecv_Stream_TCP(IPAddress.Loopback, false);
await new SendReceive_Task(null).SendRecv_Stream_TCP(IPAddress.Loopback, true);
await new SendReceive_Eap(null).SendRecv_Stream_TCP(IPAddress.Loopback, false);
await new SendReceive_Eap(null).SendRecv_Stream_TCP(IPAddress.Loopback, true);
await new SendReceive_Apm(null).SendRecv_Stream_TCP(IPAddress.Loopback, false);
await new SendReceive_Apm(null).SendRecv_Stream_TCP(IPAddress.Loopback, true);
await new NetworkStreamTest().CopyToAsync_AllDataCopied(4096, true);
await new NetworkStreamTest().Timeout_Roundtrips();
});
Assert.DoesNotContain(events, ev => ev.EventId == 0); // errors from the EventSource itself
Assert.InRange(events.Count, 1, int.MaxValue);
}
}).Dispose();
}
}
}
| -1 |
dotnet/runtime
| 66,398 |
Reenable compiler warning 4244 under coreclr/
|
Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
AaronRobinsonMSFT
| 2022-03-09T15:46:00Z | 2022-03-10T01:12:51Z |
763936ed098deaa1588935f17d7cc0a07c27c3fa
|
b71eba8b3a74fa6282dc1526e68abbd26f3e385f
|
Reenable compiler warning 4244 under coreclr/. Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
./src/libraries/System.Net.WebSockets.Client/tests/CancelTest.cs
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
using System.Threading;
using System.Threading.Tasks;
using Xunit;
using Xunit.Abstractions;
namespace System.Net.WebSockets.Client.Tests
{
public class CancelTest : ClientWebSocketTestBase
{
public CancelTest(ITestOutputHelper output) : base(output) { }
[OuterLoop("Uses external servers", typeof(PlatformDetection), nameof(PlatformDetection.LocalEchoServerIsNotAvailable))]
[ConditionalTheory(nameof(WebSocketsSupported)), MemberData(nameof(EchoServers))]
public async Task ConnectAsync_Cancel_ThrowsCancellationException(Uri server)
{
using (var cws = new ClientWebSocket())
{
var cts = new CancellationTokenSource(100);
var ub = new UriBuilder(server);
ub.Query = PlatformDetection.IsBrowser ? "delay20sec" : "delay10sec";
var ex = await Assert.ThrowsAnyAsync<OperationCanceledException>(() => cws.ConnectAsync(ub.Uri, cts.Token));
Assert.True(WebSocketState.Closed == cws.State, $"Actual {cws.State} when {ex}");
}
}
[OuterLoop("Uses external servers", typeof(PlatformDetection), nameof(PlatformDetection.LocalEchoServerIsNotAvailable))]
[ConditionalTheory(nameof(WebSocketsSupported)), MemberData(nameof(EchoServers))]
public async Task SendAsync_Cancel_Success(Uri server)
{
await TestCancellation((cws) =>
{
var cts = new CancellationTokenSource(5);
return cws.SendAsync(
WebSocketData.GetBufferFromText(".delay5sec"),
WebSocketMessageType.Text,
true,
cts.Token);
}, server);
}
[OuterLoop("Uses external servers", typeof(PlatformDetection), nameof(PlatformDetection.LocalEchoServerIsNotAvailable))]
[ConditionalTheory(nameof(WebSocketsSupported)), MemberData(nameof(EchoServers))]
[ActiveIssue("https://github.com/dotnet/runtime/issues/19217")]
public async Task ReceiveAsync_Cancel_Success(Uri server)
{
await TestCancellation(async (cws) =>
{
var ctsDefault = new CancellationTokenSource(TimeOutMilliseconds);
var cts = new CancellationTokenSource(5);
await cws.SendAsync(
WebSocketData.GetBufferFromText(".delay5sec"),
WebSocketMessageType.Text,
true,
ctsDefault.Token);
var recvBuffer = new byte[100];
var segment = new ArraySegment<byte>(recvBuffer);
await cws.ReceiveAsync(segment, cts.Token);
}, server);
}
[OuterLoop("Uses external servers", typeof(PlatformDetection), nameof(PlatformDetection.LocalEchoServerIsNotAvailable))]
[ConditionalTheory(nameof(WebSocketsSupported)), MemberData(nameof(EchoServers))]
public async Task CloseAsync_Cancel_Success(Uri server)
{
await TestCancellation(async (cws) =>
{
var ctsDefault = new CancellationTokenSource(TimeOutMilliseconds);
var cts = new CancellationTokenSource(TimeOutMilliseconds);
await cws.SendAsync(
WebSocketData.GetBufferFromText(".delay5sec"),
WebSocketMessageType.Text,
true,
ctsDefault.Token);
var recvBuffer = new byte[100];
var segment = new ArraySegment<byte>(recvBuffer);
await cws.CloseAsync(WebSocketCloseStatus.NormalClosure, "CancelClose", cts.Token);
}, server);
}
[OuterLoop("Uses external servers", typeof(PlatformDetection), nameof(PlatformDetection.LocalEchoServerIsNotAvailable))]
[ConditionalTheory(nameof(WebSocketsSupported)), MemberData(nameof(EchoServers))]
public async Task CloseOutputAsync_Cancel_Success(Uri server)
{
await TestCancellation(async (cws) =>
{
var cts = new CancellationTokenSource(TimeOutMilliseconds);
var ctsDefault = new CancellationTokenSource(TimeOutMilliseconds);
await cws.SendAsync(
WebSocketData.GetBufferFromText(".delay5sec"),
WebSocketMessageType.Text,
true,
ctsDefault.Token);
var recvBuffer = new byte[100];
var segment = new ArraySegment<byte>(recvBuffer);
await cws.CloseOutputAsync(WebSocketCloseStatus.NormalClosure, "CancelShutdown", cts.Token);
}, server);
}
[OuterLoop("Uses external servers", typeof(PlatformDetection), nameof(PlatformDetection.LocalEchoServerIsNotAvailable))]
[ConditionalTheory(nameof(WebSocketsSupported)), MemberData(nameof(EchoServers))]
public async Task ReceiveAsync_CancelThenReceive_ThrowsOperationCanceledException(Uri server)
{
using (ClientWebSocket cws = await WebSocketHelper.GetConnectedWebSocket(server, TimeOutMilliseconds, _output))
{
var recvBuffer = new byte[100];
var segment = new ArraySegment<byte>(recvBuffer);
var cts = new CancellationTokenSource();
cts.Cancel();
Task receive = cws.ReceiveAsync(segment, cts.Token);
await Assert.ThrowsAnyAsync<OperationCanceledException>(() => receive);
}
}
[OuterLoop("Uses external servers", typeof(PlatformDetection), nameof(PlatformDetection.LocalEchoServerIsNotAvailable))]
[ConditionalTheory(nameof(WebSocketsSupported)), MemberData(nameof(EchoServers))]
public async Task ReceiveAsync_ReceiveThenCancel_ThrowsOperationCanceledException(Uri server)
{
using (ClientWebSocket cws = await WebSocketHelper.GetConnectedWebSocket(server, TimeOutMilliseconds, _output))
{
var recvBuffer = new byte[100];
var segment = new ArraySegment<byte>(recvBuffer);
var cts = new CancellationTokenSource();
Task receive = cws.ReceiveAsync(segment, cts.Token);
cts.Cancel();
await Assert.ThrowsAnyAsync<OperationCanceledException>(() => receive);
}
}
[OuterLoop("Uses external servers", typeof(PlatformDetection), nameof(PlatformDetection.LocalEchoServerIsNotAvailable))]
[ConditionalTheory(nameof(WebSocketsSupported)), MemberData(nameof(EchoServers))]
public async Task ReceiveAsync_AfterCancellationDoReceiveAsync_ThrowsWebSocketException(Uri server)
{
using (ClientWebSocket cws = await WebSocketHelper.GetConnectedWebSocket(server, TimeOutMilliseconds, _output))
{
var recvBuffer = new byte[100];
var segment = new ArraySegment<byte>(recvBuffer);
var cts = new CancellationTokenSource();
Task receive = cws.ReceiveAsync(segment, cts.Token);
cts.Cancel();
await Assert.ThrowsAnyAsync<OperationCanceledException>(() => receive);
WebSocketException ex = await Assert.ThrowsAsync<WebSocketException>(() =>
cws.ReceiveAsync(segment, CancellationToken.None));
Assert.Equal(
ResourceHelper.GetExceptionMessage("net_WebSockets_InvalidState", "Aborted", "Open, CloseSent"),
ex.Message);
}
}
}
}
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
using System.Threading;
using System.Threading.Tasks;
using Xunit;
using Xunit.Abstractions;
namespace System.Net.WebSockets.Client.Tests
{
public class CancelTest : ClientWebSocketTestBase
{
public CancelTest(ITestOutputHelper output) : base(output) { }
[OuterLoop("Uses external servers", typeof(PlatformDetection), nameof(PlatformDetection.LocalEchoServerIsNotAvailable))]
[ConditionalTheory(nameof(WebSocketsSupported)), MemberData(nameof(EchoServers))]
public async Task ConnectAsync_Cancel_ThrowsCancellationException(Uri server)
{
using (var cws = new ClientWebSocket())
{
var cts = new CancellationTokenSource(100);
var ub = new UriBuilder(server);
ub.Query = PlatformDetection.IsBrowser ? "delay20sec" : "delay10sec";
var ex = await Assert.ThrowsAnyAsync<OperationCanceledException>(() => cws.ConnectAsync(ub.Uri, cts.Token));
Assert.True(WebSocketState.Closed == cws.State, $"Actual {cws.State} when {ex}");
}
}
[OuterLoop("Uses external servers", typeof(PlatformDetection), nameof(PlatformDetection.LocalEchoServerIsNotAvailable))]
[ConditionalTheory(nameof(WebSocketsSupported)), MemberData(nameof(EchoServers))]
public async Task SendAsync_Cancel_Success(Uri server)
{
await TestCancellation((cws) =>
{
var cts = new CancellationTokenSource(5);
return cws.SendAsync(
WebSocketData.GetBufferFromText(".delay5sec"),
WebSocketMessageType.Text,
true,
cts.Token);
}, server);
}
[OuterLoop("Uses external servers", typeof(PlatformDetection), nameof(PlatformDetection.LocalEchoServerIsNotAvailable))]
[ConditionalTheory(nameof(WebSocketsSupported)), MemberData(nameof(EchoServers))]
[ActiveIssue("https://github.com/dotnet/runtime/issues/19217")]
public async Task ReceiveAsync_Cancel_Success(Uri server)
{
await TestCancellation(async (cws) =>
{
var ctsDefault = new CancellationTokenSource(TimeOutMilliseconds);
var cts = new CancellationTokenSource(5);
await cws.SendAsync(
WebSocketData.GetBufferFromText(".delay5sec"),
WebSocketMessageType.Text,
true,
ctsDefault.Token);
var recvBuffer = new byte[100];
var segment = new ArraySegment<byte>(recvBuffer);
await cws.ReceiveAsync(segment, cts.Token);
}, server);
}
[OuterLoop("Uses external servers", typeof(PlatformDetection), nameof(PlatformDetection.LocalEchoServerIsNotAvailable))]
[ConditionalTheory(nameof(WebSocketsSupported)), MemberData(nameof(EchoServers))]
public async Task CloseAsync_Cancel_Success(Uri server)
{
await TestCancellation(async (cws) =>
{
var ctsDefault = new CancellationTokenSource(TimeOutMilliseconds);
var cts = new CancellationTokenSource(TimeOutMilliseconds);
await cws.SendAsync(
WebSocketData.GetBufferFromText(".delay5sec"),
WebSocketMessageType.Text,
true,
ctsDefault.Token);
var recvBuffer = new byte[100];
var segment = new ArraySegment<byte>(recvBuffer);
await cws.CloseAsync(WebSocketCloseStatus.NormalClosure, "CancelClose", cts.Token);
}, server);
}
[OuterLoop("Uses external servers", typeof(PlatformDetection), nameof(PlatformDetection.LocalEchoServerIsNotAvailable))]
[ConditionalTheory(nameof(WebSocketsSupported)), MemberData(nameof(EchoServers))]
public async Task CloseOutputAsync_Cancel_Success(Uri server)
{
await TestCancellation(async (cws) =>
{
var cts = new CancellationTokenSource(TimeOutMilliseconds);
var ctsDefault = new CancellationTokenSource(TimeOutMilliseconds);
await cws.SendAsync(
WebSocketData.GetBufferFromText(".delay5sec"),
WebSocketMessageType.Text,
true,
ctsDefault.Token);
var recvBuffer = new byte[100];
var segment = new ArraySegment<byte>(recvBuffer);
await cws.CloseOutputAsync(WebSocketCloseStatus.NormalClosure, "CancelShutdown", cts.Token);
}, server);
}
[OuterLoop("Uses external servers", typeof(PlatformDetection), nameof(PlatformDetection.LocalEchoServerIsNotAvailable))]
[ConditionalTheory(nameof(WebSocketsSupported)), MemberData(nameof(EchoServers))]
public async Task ReceiveAsync_CancelThenReceive_ThrowsOperationCanceledException(Uri server)
{
using (ClientWebSocket cws = await WebSocketHelper.GetConnectedWebSocket(server, TimeOutMilliseconds, _output))
{
var recvBuffer = new byte[100];
var segment = new ArraySegment<byte>(recvBuffer);
var cts = new CancellationTokenSource();
cts.Cancel();
Task receive = cws.ReceiveAsync(segment, cts.Token);
await Assert.ThrowsAnyAsync<OperationCanceledException>(() => receive);
}
}
[OuterLoop("Uses external servers", typeof(PlatformDetection), nameof(PlatformDetection.LocalEchoServerIsNotAvailable))]
[ConditionalTheory(nameof(WebSocketsSupported)), MemberData(nameof(EchoServers))]
public async Task ReceiveAsync_ReceiveThenCancel_ThrowsOperationCanceledException(Uri server)
{
using (ClientWebSocket cws = await WebSocketHelper.GetConnectedWebSocket(server, TimeOutMilliseconds, _output))
{
var recvBuffer = new byte[100];
var segment = new ArraySegment<byte>(recvBuffer);
var cts = new CancellationTokenSource();
Task receive = cws.ReceiveAsync(segment, cts.Token);
cts.Cancel();
await Assert.ThrowsAnyAsync<OperationCanceledException>(() => receive);
}
}
[OuterLoop("Uses external servers", typeof(PlatformDetection), nameof(PlatformDetection.LocalEchoServerIsNotAvailable))]
[ConditionalTheory(nameof(WebSocketsSupported)), MemberData(nameof(EchoServers))]
public async Task ReceiveAsync_AfterCancellationDoReceiveAsync_ThrowsWebSocketException(Uri server)
{
using (ClientWebSocket cws = await WebSocketHelper.GetConnectedWebSocket(server, TimeOutMilliseconds, _output))
{
var recvBuffer = new byte[100];
var segment = new ArraySegment<byte>(recvBuffer);
var cts = new CancellationTokenSource();
Task receive = cws.ReceiveAsync(segment, cts.Token);
cts.Cancel();
await Assert.ThrowsAnyAsync<OperationCanceledException>(() => receive);
WebSocketException ex = await Assert.ThrowsAsync<WebSocketException>(() =>
cws.ReceiveAsync(segment, CancellationToken.None));
Assert.Equal(
ResourceHelper.GetExceptionMessage("net_WebSockets_InvalidState", "Aborted", "Open, CloseSent"),
ex.Message);
}
}
}
}
| -1 |
dotnet/runtime
| 66,398 |
Reenable compiler warning 4244 under coreclr/
|
Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
AaronRobinsonMSFT
| 2022-03-09T15:46:00Z | 2022-03-10T01:12:51Z |
763936ed098deaa1588935f17d7cc0a07c27c3fa
|
b71eba8b3a74fa6282dc1526e68abbd26f3e385f
|
Reenable compiler warning 4244 under coreclr/. Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
./src/tests/JIT/CodeGenBringUpTests/DblAdd_do.csproj
|
<Project Sdk="Microsoft.NET.Sdk">
<PropertyGroup>
<OutputType>Exe</OutputType>
<CLRTestPriority>1</CLRTestPriority>
</PropertyGroup>
<PropertyGroup>
<DebugType>Full</DebugType>
<Optimize>True</Optimize>
</PropertyGroup>
<ItemGroup>
<Compile Include="DblAdd.cs" />
</ItemGroup>
</Project>
|
<Project Sdk="Microsoft.NET.Sdk">
<PropertyGroup>
<OutputType>Exe</OutputType>
<CLRTestPriority>1</CLRTestPriority>
</PropertyGroup>
<PropertyGroup>
<DebugType>Full</DebugType>
<Optimize>True</Optimize>
</PropertyGroup>
<ItemGroup>
<Compile Include="DblAdd.cs" />
</ItemGroup>
</Project>
| -1 |
dotnet/runtime
| 66,398 |
Reenable compiler warning 4244 under coreclr/
|
Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
AaronRobinsonMSFT
| 2022-03-09T15:46:00Z | 2022-03-10T01:12:51Z |
763936ed098deaa1588935f17d7cc0a07c27c3fa
|
b71eba8b3a74fa6282dc1526e68abbd26f3e385f
|
Reenable compiler warning 4244 under coreclr/. Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
./src/libraries/System.Globalization.Extensions/tests/Normalization/StringNormalizationTests.cs
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
using System;
using System.Text;
using Xunit;
using System.Collections.Generic;
namespace System.Globalization.Tests
{
public class StringNormalizationTests
{
[Theory]
[ActiveIssue("https://github.com/dotnet/runtime/issues/34577", TestPlatforms.Windows, TargetFrameworkMonikers.Netcoreapp, TestRuntimes.Mono)]
[InlineData("\u00C4\u00C7", NormalizationForm.FormC, true)]
[InlineData("\u00C4\u00C7", NormalizationForm.FormD, false)]
[InlineData("A\u0308C\u0327", NormalizationForm.FormC, false)]
[InlineData("A\u0308C\u0327", NormalizationForm.FormD, true)]
public void IsNormalized(string value, NormalizationForm normalizationForm, bool expected)
{
if (normalizationForm == NormalizationForm.FormC)
{
Assert.Equal(expected, value.IsNormalized());
}
Assert.Equal(expected, value.IsNormalized(normalizationForm));
}
[Fact]
public void IsNormalized_Invalid()
{
Assert.Throws<ArgumentException>(() => "\uFB01".IsNormalized((NormalizationForm)10));
AssertExtensions.Throws<ArgumentException>("strInput", () => "\uFFFE".IsNormalized()); // Invalid codepoint
AssertExtensions.Throws<ArgumentException>("strInput", () => "\uD800\uD800".IsNormalized()); // Invalid surrogate pair
}
[Fact]
public void IsNormalized_Null()
{
AssertExtensions.Throws<ArgumentNullException>("strInput", () => StringNormalizationExtensions.IsNormalized(null));
}
public static IEnumerable<object[]> NormalizeTestData()
{
yield return new object[] { "", NormalizationForm.FormC, "" };
yield return new object[] { "\u00C4\u00C7", NormalizationForm.FormD, "A\u0308C\u0327" };
yield return new object[] { "A\u0308C\u0327", NormalizationForm.FormC, "\u00C4\u00C7" };
yield return new object[] { "\uFB01", NormalizationForm.FormC, "\uFB01" };
yield return new object[] { "\uFB01", NormalizationForm.FormD, "\uFB01" };
yield return new object[] { "\u1E9b\u0323", NormalizationForm.FormC, "\u1E9b\u0323" };
yield return new object[] { "\u1E9b\u0323", NormalizationForm.FormD, "\u017f\u0323\u0307" };
if (PlatformDetection.IsNotUsingLimitedCultures)
{
// Mobile / Browser ICU doesn't support FormKC and FormKD
yield return new object[] { "\uFB01", NormalizationForm.FormKC, "fi" };
yield return new object[] { "\uFB01", NormalizationForm.FormKD, "fi" };
yield return new object[] { "\u1E9b\u0323", NormalizationForm.FormKC, "\u1E69" };
yield return new object[] { "\u1E9b\u0323", NormalizationForm.FormKD, "\u0073\u0323\u0307" };
}
}
[Theory]
[MemberData(nameof(NormalizeTestData))]
public void Normalize(string value, NormalizationForm normalizationForm, string expected)
{
if (normalizationForm == NormalizationForm.FormC)
{
Assert.Equal(expected, value.Normalize());
}
Assert.Equal(expected, value.Normalize(normalizationForm));
}
[Fact]
public void Normalize_Invalid()
{
Assert.Throws<ArgumentException>(() => "\uFB01".Normalize((NormalizationForm)7));
AssertExtensions.Throws<ArgumentException>("strInput", () => "\uFFFE".Normalize()); // Invalid codepoint
AssertExtensions.Throws<ArgumentException>("strInput", () => "\uD800\uD800".Normalize()); // Invalid surrogate pair
}
[Fact]
public void Normalize_Null()
{
AssertExtensions.Throws<ArgumentNullException>("strInput", () => StringNormalizationExtensions.Normalize(null));
}
}
}
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
using System;
using System.Text;
using Xunit;
using System.Collections.Generic;
namespace System.Globalization.Tests
{
public class StringNormalizationTests
{
[Theory]
[ActiveIssue("https://github.com/dotnet/runtime/issues/34577", TestPlatforms.Windows, TargetFrameworkMonikers.Netcoreapp, TestRuntimes.Mono)]
[InlineData("\u00C4\u00C7", NormalizationForm.FormC, true)]
[InlineData("\u00C4\u00C7", NormalizationForm.FormD, false)]
[InlineData("A\u0308C\u0327", NormalizationForm.FormC, false)]
[InlineData("A\u0308C\u0327", NormalizationForm.FormD, true)]
public void IsNormalized(string value, NormalizationForm normalizationForm, bool expected)
{
if (normalizationForm == NormalizationForm.FormC)
{
Assert.Equal(expected, value.IsNormalized());
}
Assert.Equal(expected, value.IsNormalized(normalizationForm));
}
[Fact]
public void IsNormalized_Invalid()
{
Assert.Throws<ArgumentException>(() => "\uFB01".IsNormalized((NormalizationForm)10));
AssertExtensions.Throws<ArgumentException>("strInput", () => "\uFFFE".IsNormalized()); // Invalid codepoint
AssertExtensions.Throws<ArgumentException>("strInput", () => "\uD800\uD800".IsNormalized()); // Invalid surrogate pair
}
[Fact]
public void IsNormalized_Null()
{
AssertExtensions.Throws<ArgumentNullException>("strInput", () => StringNormalizationExtensions.IsNormalized(null));
}
public static IEnumerable<object[]> NormalizeTestData()
{
yield return new object[] { "", NormalizationForm.FormC, "" };
yield return new object[] { "\u00C4\u00C7", NormalizationForm.FormD, "A\u0308C\u0327" };
yield return new object[] { "A\u0308C\u0327", NormalizationForm.FormC, "\u00C4\u00C7" };
yield return new object[] { "\uFB01", NormalizationForm.FormC, "\uFB01" };
yield return new object[] { "\uFB01", NormalizationForm.FormD, "\uFB01" };
yield return new object[] { "\u1E9b\u0323", NormalizationForm.FormC, "\u1E9b\u0323" };
yield return new object[] { "\u1E9b\u0323", NormalizationForm.FormD, "\u017f\u0323\u0307" };
if (PlatformDetection.IsNotUsingLimitedCultures)
{
// Mobile / Browser ICU doesn't support FormKC and FormKD
yield return new object[] { "\uFB01", NormalizationForm.FormKC, "fi" };
yield return new object[] { "\uFB01", NormalizationForm.FormKD, "fi" };
yield return new object[] { "\u1E9b\u0323", NormalizationForm.FormKC, "\u1E69" };
yield return new object[] { "\u1E9b\u0323", NormalizationForm.FormKD, "\u0073\u0323\u0307" };
}
}
[Theory]
[MemberData(nameof(NormalizeTestData))]
public void Normalize(string value, NormalizationForm normalizationForm, string expected)
{
if (normalizationForm == NormalizationForm.FormC)
{
Assert.Equal(expected, value.Normalize());
}
Assert.Equal(expected, value.Normalize(normalizationForm));
}
[Fact]
public void Normalize_Invalid()
{
Assert.Throws<ArgumentException>(() => "\uFB01".Normalize((NormalizationForm)7));
AssertExtensions.Throws<ArgumentException>("strInput", () => "\uFFFE".Normalize()); // Invalid codepoint
AssertExtensions.Throws<ArgumentException>("strInput", () => "\uD800\uD800".Normalize()); // Invalid surrogate pair
}
[Fact]
public void Normalize_Null()
{
AssertExtensions.Throws<ArgumentNullException>("strInput", () => StringNormalizationExtensions.Normalize(null));
}
}
}
| -1 |
dotnet/runtime
| 66,398 |
Reenable compiler warning 4244 under coreclr/
|
Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
AaronRobinsonMSFT
| 2022-03-09T15:46:00Z | 2022-03-10T01:12:51Z |
763936ed098deaa1588935f17d7cc0a07c27c3fa
|
b71eba8b3a74fa6282dc1526e68abbd26f3e385f
|
Reenable compiler warning 4244 under coreclr/. Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
./src/tests/JIT/HardwareIntrinsics/Arm/AdvSimd/MinNumber.Vector64.Single.cs
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
/******************************************************************************
* This file is auto-generated from a template file by the GenerateTests.csx *
* script in tests\src\JIT\HardwareIntrinsics.Arm\Shared. In order to make *
* changes, please update the corresponding template and run according to the *
* directions listed in the file. *
******************************************************************************/
using System;
using System.Runtime.CompilerServices;
using System.Runtime.InteropServices;
using System.Runtime.Intrinsics;
using System.Runtime.Intrinsics.Arm;
namespace JIT.HardwareIntrinsics.Arm
{
public static partial class Program
{
private static void MinNumber_Vector64_Single()
{
var test = new SimpleBinaryOpTest__MinNumber_Vector64_Single();
if (test.IsSupported)
{
// Validates basic functionality works, using Unsafe.Read
test.RunBasicScenario_UnsafeRead();
if (AdvSimd.IsSupported)
{
// Validates basic functionality works, using Load
test.RunBasicScenario_Load();
}
// Validates calling via reflection works, using Unsafe.Read
test.RunReflectionScenario_UnsafeRead();
if (AdvSimd.IsSupported)
{
// Validates calling via reflection works, using Load
test.RunReflectionScenario_Load();
}
// Validates passing a static member works
test.RunClsVarScenario();
if (AdvSimd.IsSupported)
{
// Validates passing a static member works, using pinning and Load
test.RunClsVarScenario_Load();
}
// Validates passing a local works, using Unsafe.Read
test.RunLclVarScenario_UnsafeRead();
if (AdvSimd.IsSupported)
{
// Validates passing a local works, using Load
test.RunLclVarScenario_Load();
}
// Validates passing the field of a local class works
test.RunClassLclFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing the field of a local class works, using pinning and Load
test.RunClassLclFldScenario_Load();
}
// Validates passing an instance member of a class works
test.RunClassFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing an instance member of a class works, using pinning and Load
test.RunClassFldScenario_Load();
}
// Validates passing the field of a local struct works
test.RunStructLclFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing the field of a local struct works, using pinning and Load
test.RunStructLclFldScenario_Load();
}
// Validates passing an instance member of a struct works
test.RunStructFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing an instance member of a struct works, using pinning and Load
test.RunStructFldScenario_Load();
}
}
else
{
// Validates we throw on unsupported hardware
test.RunUnsupportedScenario();
}
if (!test.Succeeded)
{
throw new Exception("One or more scenarios did not complete as expected.");
}
}
}
public sealed unsafe class SimpleBinaryOpTest__MinNumber_Vector64_Single
{
private struct DataTable
{
private byte[] inArray1;
private byte[] inArray2;
private byte[] outArray;
private GCHandle inHandle1;
private GCHandle inHandle2;
private GCHandle outHandle;
private ulong alignment;
public DataTable(Single[] inArray1, Single[] inArray2, Single[] outArray, int alignment)
{
int sizeOfinArray1 = inArray1.Length * Unsafe.SizeOf<Single>();
int sizeOfinArray2 = inArray2.Length * Unsafe.SizeOf<Single>();
int sizeOfoutArray = outArray.Length * Unsafe.SizeOf<Single>();
if ((alignment != 16 && alignment != 8) || (alignment * 2) < sizeOfinArray1 || (alignment * 2) < sizeOfinArray2 || (alignment * 2) < sizeOfoutArray)
{
throw new ArgumentException("Invalid value of alignment");
}
this.inArray1 = new byte[alignment * 2];
this.inArray2 = new byte[alignment * 2];
this.outArray = new byte[alignment * 2];
this.inHandle1 = GCHandle.Alloc(this.inArray1, GCHandleType.Pinned);
this.inHandle2 = GCHandle.Alloc(this.inArray2, GCHandleType.Pinned);
this.outHandle = GCHandle.Alloc(this.outArray, GCHandleType.Pinned);
this.alignment = (ulong)alignment;
Unsafe.CopyBlockUnaligned(ref Unsafe.AsRef<byte>(inArray1Ptr), ref Unsafe.As<Single, byte>(ref inArray1[0]), (uint)sizeOfinArray1);
Unsafe.CopyBlockUnaligned(ref Unsafe.AsRef<byte>(inArray2Ptr), ref Unsafe.As<Single, byte>(ref inArray2[0]), (uint)sizeOfinArray2);
}
public void* inArray1Ptr => Align((byte*)(inHandle1.AddrOfPinnedObject().ToPointer()), alignment);
public void* inArray2Ptr => Align((byte*)(inHandle2.AddrOfPinnedObject().ToPointer()), alignment);
public void* outArrayPtr => Align((byte*)(outHandle.AddrOfPinnedObject().ToPointer()), alignment);
public void Dispose()
{
inHandle1.Free();
inHandle2.Free();
outHandle.Free();
}
private static unsafe void* Align(byte* buffer, ulong expectedAlignment)
{
return (void*)(((ulong)buffer + expectedAlignment - 1) & ~(expectedAlignment - 1));
}
}
private struct TestStruct
{
public Vector64<Single> _fld1;
public Vector64<Single> _fld2;
public static TestStruct Create()
{
var testStruct = new TestStruct();
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetSingle(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector64<Single>, byte>(ref testStruct._fld1), ref Unsafe.As<Single, byte>(ref _data1[0]), (uint)Unsafe.SizeOf<Vector64<Single>>());
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetSingle(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector64<Single>, byte>(ref testStruct._fld2), ref Unsafe.As<Single, byte>(ref _data2[0]), (uint)Unsafe.SizeOf<Vector64<Single>>());
return testStruct;
}
public void RunStructFldScenario(SimpleBinaryOpTest__MinNumber_Vector64_Single testClass)
{
var result = AdvSimd.MinNumber(_fld1, _fld2);
Unsafe.Write(testClass._dataTable.outArrayPtr, result);
testClass.ValidateResult(_fld1, _fld2, testClass._dataTable.outArrayPtr);
}
public void RunStructFldScenario_Load(SimpleBinaryOpTest__MinNumber_Vector64_Single testClass)
{
fixed (Vector64<Single>* pFld1 = &_fld1)
fixed (Vector64<Single>* pFld2 = &_fld2)
{
var result = AdvSimd.MinNumber(
AdvSimd.LoadVector64((Single*)(pFld1)),
AdvSimd.LoadVector64((Single*)(pFld2))
);
Unsafe.Write(testClass._dataTable.outArrayPtr, result);
testClass.ValidateResult(_fld1, _fld2, testClass._dataTable.outArrayPtr);
}
}
}
private static readonly int LargestVectorSize = 8;
private static readonly int Op1ElementCount = Unsafe.SizeOf<Vector64<Single>>() / sizeof(Single);
private static readonly int Op2ElementCount = Unsafe.SizeOf<Vector64<Single>>() / sizeof(Single);
private static readonly int RetElementCount = Unsafe.SizeOf<Vector64<Single>>() / sizeof(Single);
private static Single[] _data1 = new Single[Op1ElementCount];
private static Single[] _data2 = new Single[Op2ElementCount];
private static Vector64<Single> _clsVar1;
private static Vector64<Single> _clsVar2;
private Vector64<Single> _fld1;
private Vector64<Single> _fld2;
private DataTable _dataTable;
static SimpleBinaryOpTest__MinNumber_Vector64_Single()
{
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetSingle(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector64<Single>, byte>(ref _clsVar1), ref Unsafe.As<Single, byte>(ref _data1[0]), (uint)Unsafe.SizeOf<Vector64<Single>>());
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetSingle(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector64<Single>, byte>(ref _clsVar2), ref Unsafe.As<Single, byte>(ref _data2[0]), (uint)Unsafe.SizeOf<Vector64<Single>>());
}
public SimpleBinaryOpTest__MinNumber_Vector64_Single()
{
Succeeded = true;
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetSingle(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector64<Single>, byte>(ref _fld1), ref Unsafe.As<Single, byte>(ref _data1[0]), (uint)Unsafe.SizeOf<Vector64<Single>>());
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetSingle(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector64<Single>, byte>(ref _fld2), ref Unsafe.As<Single, byte>(ref _data2[0]), (uint)Unsafe.SizeOf<Vector64<Single>>());
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetSingle(); }
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetSingle(); }
_dataTable = new DataTable(_data1, _data2, new Single[RetElementCount], LargestVectorSize);
}
public bool IsSupported => AdvSimd.IsSupported;
public bool Succeeded { get; set; }
public void RunBasicScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunBasicScenario_UnsafeRead));
var result = AdvSimd.MinNumber(
Unsafe.Read<Vector64<Single>>(_dataTable.inArray1Ptr),
Unsafe.Read<Vector64<Single>>(_dataTable.inArray2Ptr)
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunBasicScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunBasicScenario_Load));
var result = AdvSimd.MinNumber(
AdvSimd.LoadVector64((Single*)(_dataTable.inArray1Ptr)),
AdvSimd.LoadVector64((Single*)(_dataTable.inArray2Ptr))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunReflectionScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunReflectionScenario_UnsafeRead));
var result = typeof(AdvSimd).GetMethod(nameof(AdvSimd.MinNumber), new Type[] { typeof(Vector64<Single>), typeof(Vector64<Single>) })
.Invoke(null, new object[] {
Unsafe.Read<Vector64<Single>>(_dataTable.inArray1Ptr),
Unsafe.Read<Vector64<Single>>(_dataTable.inArray2Ptr)
});
Unsafe.Write(_dataTable.outArrayPtr, (Vector64<Single>)(result));
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunReflectionScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunReflectionScenario_Load));
var result = typeof(AdvSimd).GetMethod(nameof(AdvSimd.MinNumber), new Type[] { typeof(Vector64<Single>), typeof(Vector64<Single>) })
.Invoke(null, new object[] {
AdvSimd.LoadVector64((Single*)(_dataTable.inArray1Ptr)),
AdvSimd.LoadVector64((Single*)(_dataTable.inArray2Ptr))
});
Unsafe.Write(_dataTable.outArrayPtr, (Vector64<Single>)(result));
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunClsVarScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClsVarScenario));
var result = AdvSimd.MinNumber(
_clsVar1,
_clsVar2
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_clsVar1, _clsVar2, _dataTable.outArrayPtr);
}
public void RunClsVarScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClsVarScenario_Load));
fixed (Vector64<Single>* pClsVar1 = &_clsVar1)
fixed (Vector64<Single>* pClsVar2 = &_clsVar2)
{
var result = AdvSimd.MinNumber(
AdvSimd.LoadVector64((Single*)(pClsVar1)),
AdvSimd.LoadVector64((Single*)(pClsVar2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_clsVar1, _clsVar2, _dataTable.outArrayPtr);
}
}
public void RunLclVarScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunLclVarScenario_UnsafeRead));
var op1 = Unsafe.Read<Vector64<Single>>(_dataTable.inArray1Ptr);
var op2 = Unsafe.Read<Vector64<Single>>(_dataTable.inArray2Ptr);
var result = AdvSimd.MinNumber(op1, op2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(op1, op2, _dataTable.outArrayPtr);
}
public void RunLclVarScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunLclVarScenario_Load));
var op1 = AdvSimd.LoadVector64((Single*)(_dataTable.inArray1Ptr));
var op2 = AdvSimd.LoadVector64((Single*)(_dataTable.inArray2Ptr));
var result = AdvSimd.MinNumber(op1, op2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(op1, op2, _dataTable.outArrayPtr);
}
public void RunClassLclFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassLclFldScenario));
var test = new SimpleBinaryOpTest__MinNumber_Vector64_Single();
var result = AdvSimd.MinNumber(test._fld1, test._fld2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
public void RunClassLclFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassLclFldScenario_Load));
var test = new SimpleBinaryOpTest__MinNumber_Vector64_Single();
fixed (Vector64<Single>* pFld1 = &test._fld1)
fixed (Vector64<Single>* pFld2 = &test._fld2)
{
var result = AdvSimd.MinNumber(
AdvSimd.LoadVector64((Single*)(pFld1)),
AdvSimd.LoadVector64((Single*)(pFld2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
}
public void RunClassFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassFldScenario));
var result = AdvSimd.MinNumber(_fld1, _fld2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_fld1, _fld2, _dataTable.outArrayPtr);
}
public void RunClassFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassFldScenario_Load));
fixed (Vector64<Single>* pFld1 = &_fld1)
fixed (Vector64<Single>* pFld2 = &_fld2)
{
var result = AdvSimd.MinNumber(
AdvSimd.LoadVector64((Single*)(pFld1)),
AdvSimd.LoadVector64((Single*)(pFld2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_fld1, _fld2, _dataTable.outArrayPtr);
}
}
public void RunStructLclFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructLclFldScenario));
var test = TestStruct.Create();
var result = AdvSimd.MinNumber(test._fld1, test._fld2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
public void RunStructLclFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructLclFldScenario_Load));
var test = TestStruct.Create();
var result = AdvSimd.MinNumber(
AdvSimd.LoadVector64((Single*)(&test._fld1)),
AdvSimd.LoadVector64((Single*)(&test._fld2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
public void RunStructFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructFldScenario));
var test = TestStruct.Create();
test.RunStructFldScenario(this);
}
public void RunStructFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructFldScenario_Load));
var test = TestStruct.Create();
test.RunStructFldScenario_Load(this);
}
public void RunUnsupportedScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunUnsupportedScenario));
bool succeeded = false;
try
{
RunBasicScenario_UnsafeRead();
}
catch (PlatformNotSupportedException)
{
succeeded = true;
}
if (!succeeded)
{
Succeeded = false;
}
}
private void ValidateResult(Vector64<Single> op1, Vector64<Single> op2, void* result, [CallerMemberName] string method = "")
{
Single[] inArray1 = new Single[Op1ElementCount];
Single[] inArray2 = new Single[Op2ElementCount];
Single[] outArray = new Single[RetElementCount];
Unsafe.WriteUnaligned(ref Unsafe.As<Single, byte>(ref inArray1[0]), op1);
Unsafe.WriteUnaligned(ref Unsafe.As<Single, byte>(ref inArray2[0]), op2);
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Single, byte>(ref outArray[0]), ref Unsafe.AsRef<byte>(result), (uint)Unsafe.SizeOf<Vector64<Single>>());
ValidateResult(inArray1, inArray2, outArray, method);
}
private void ValidateResult(void* op1, void* op2, void* result, [CallerMemberName] string method = "")
{
Single[] inArray1 = new Single[Op1ElementCount];
Single[] inArray2 = new Single[Op2ElementCount];
Single[] outArray = new Single[RetElementCount];
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Single, byte>(ref inArray1[0]), ref Unsafe.AsRef<byte>(op1), (uint)Unsafe.SizeOf<Vector64<Single>>());
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Single, byte>(ref inArray2[0]), ref Unsafe.AsRef<byte>(op2), (uint)Unsafe.SizeOf<Vector64<Single>>());
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Single, byte>(ref outArray[0]), ref Unsafe.AsRef<byte>(result), (uint)Unsafe.SizeOf<Vector64<Single>>());
ValidateResult(inArray1, inArray2, outArray, method);
}
private void ValidateResult(Single[] left, Single[] right, Single[] result, [CallerMemberName] string method = "")
{
bool succeeded = true;
for (var i = 0; i < RetElementCount; i++)
{
if (BitConverter.SingleToInt32Bits(Helpers.MinNumber(left[i], right[i])) != BitConverter.SingleToInt32Bits(result[i]))
{
succeeded = false;
break;
}
}
if (!succeeded)
{
TestLibrary.TestFramework.LogInformation($"{nameof(AdvSimd)}.{nameof(AdvSimd.MinNumber)}<Single>(Vector64<Single>, Vector64<Single>): {method} failed:");
TestLibrary.TestFramework.LogInformation($" left: ({string.Join(", ", left)})");
TestLibrary.TestFramework.LogInformation($" right: ({string.Join(", ", right)})");
TestLibrary.TestFramework.LogInformation($" result: ({string.Join(", ", result)})");
TestLibrary.TestFramework.LogInformation(string.Empty);
Succeeded = false;
}
}
}
}
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
/******************************************************************************
* This file is auto-generated from a template file by the GenerateTests.csx *
* script in tests\src\JIT\HardwareIntrinsics.Arm\Shared. In order to make *
* changes, please update the corresponding template and run according to the *
* directions listed in the file. *
******************************************************************************/
using System;
using System.Runtime.CompilerServices;
using System.Runtime.InteropServices;
using System.Runtime.Intrinsics;
using System.Runtime.Intrinsics.Arm;
namespace JIT.HardwareIntrinsics.Arm
{
public static partial class Program
{
private static void MinNumber_Vector64_Single()
{
var test = new SimpleBinaryOpTest__MinNumber_Vector64_Single();
if (test.IsSupported)
{
// Validates basic functionality works, using Unsafe.Read
test.RunBasicScenario_UnsafeRead();
if (AdvSimd.IsSupported)
{
// Validates basic functionality works, using Load
test.RunBasicScenario_Load();
}
// Validates calling via reflection works, using Unsafe.Read
test.RunReflectionScenario_UnsafeRead();
if (AdvSimd.IsSupported)
{
// Validates calling via reflection works, using Load
test.RunReflectionScenario_Load();
}
// Validates passing a static member works
test.RunClsVarScenario();
if (AdvSimd.IsSupported)
{
// Validates passing a static member works, using pinning and Load
test.RunClsVarScenario_Load();
}
// Validates passing a local works, using Unsafe.Read
test.RunLclVarScenario_UnsafeRead();
if (AdvSimd.IsSupported)
{
// Validates passing a local works, using Load
test.RunLclVarScenario_Load();
}
// Validates passing the field of a local class works
test.RunClassLclFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing the field of a local class works, using pinning and Load
test.RunClassLclFldScenario_Load();
}
// Validates passing an instance member of a class works
test.RunClassFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing an instance member of a class works, using pinning and Load
test.RunClassFldScenario_Load();
}
// Validates passing the field of a local struct works
test.RunStructLclFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing the field of a local struct works, using pinning and Load
test.RunStructLclFldScenario_Load();
}
// Validates passing an instance member of a struct works
test.RunStructFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing an instance member of a struct works, using pinning and Load
test.RunStructFldScenario_Load();
}
}
else
{
// Validates we throw on unsupported hardware
test.RunUnsupportedScenario();
}
if (!test.Succeeded)
{
throw new Exception("One or more scenarios did not complete as expected.");
}
}
}
public sealed unsafe class SimpleBinaryOpTest__MinNumber_Vector64_Single
{
private struct DataTable
{
private byte[] inArray1;
private byte[] inArray2;
private byte[] outArray;
private GCHandle inHandle1;
private GCHandle inHandle2;
private GCHandle outHandle;
private ulong alignment;
public DataTable(Single[] inArray1, Single[] inArray2, Single[] outArray, int alignment)
{
int sizeOfinArray1 = inArray1.Length * Unsafe.SizeOf<Single>();
int sizeOfinArray2 = inArray2.Length * Unsafe.SizeOf<Single>();
int sizeOfoutArray = outArray.Length * Unsafe.SizeOf<Single>();
if ((alignment != 16 && alignment != 8) || (alignment * 2) < sizeOfinArray1 || (alignment * 2) < sizeOfinArray2 || (alignment * 2) < sizeOfoutArray)
{
throw new ArgumentException("Invalid value of alignment");
}
this.inArray1 = new byte[alignment * 2];
this.inArray2 = new byte[alignment * 2];
this.outArray = new byte[alignment * 2];
this.inHandle1 = GCHandle.Alloc(this.inArray1, GCHandleType.Pinned);
this.inHandle2 = GCHandle.Alloc(this.inArray2, GCHandleType.Pinned);
this.outHandle = GCHandle.Alloc(this.outArray, GCHandleType.Pinned);
this.alignment = (ulong)alignment;
Unsafe.CopyBlockUnaligned(ref Unsafe.AsRef<byte>(inArray1Ptr), ref Unsafe.As<Single, byte>(ref inArray1[0]), (uint)sizeOfinArray1);
Unsafe.CopyBlockUnaligned(ref Unsafe.AsRef<byte>(inArray2Ptr), ref Unsafe.As<Single, byte>(ref inArray2[0]), (uint)sizeOfinArray2);
}
public void* inArray1Ptr => Align((byte*)(inHandle1.AddrOfPinnedObject().ToPointer()), alignment);
public void* inArray2Ptr => Align((byte*)(inHandle2.AddrOfPinnedObject().ToPointer()), alignment);
public void* outArrayPtr => Align((byte*)(outHandle.AddrOfPinnedObject().ToPointer()), alignment);
public void Dispose()
{
inHandle1.Free();
inHandle2.Free();
outHandle.Free();
}
private static unsafe void* Align(byte* buffer, ulong expectedAlignment)
{
return (void*)(((ulong)buffer + expectedAlignment - 1) & ~(expectedAlignment - 1));
}
}
private struct TestStruct
{
public Vector64<Single> _fld1;
public Vector64<Single> _fld2;
public static TestStruct Create()
{
var testStruct = new TestStruct();
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetSingle(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector64<Single>, byte>(ref testStruct._fld1), ref Unsafe.As<Single, byte>(ref _data1[0]), (uint)Unsafe.SizeOf<Vector64<Single>>());
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetSingle(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector64<Single>, byte>(ref testStruct._fld2), ref Unsafe.As<Single, byte>(ref _data2[0]), (uint)Unsafe.SizeOf<Vector64<Single>>());
return testStruct;
}
public void RunStructFldScenario(SimpleBinaryOpTest__MinNumber_Vector64_Single testClass)
{
var result = AdvSimd.MinNumber(_fld1, _fld2);
Unsafe.Write(testClass._dataTable.outArrayPtr, result);
testClass.ValidateResult(_fld1, _fld2, testClass._dataTable.outArrayPtr);
}
public void RunStructFldScenario_Load(SimpleBinaryOpTest__MinNumber_Vector64_Single testClass)
{
fixed (Vector64<Single>* pFld1 = &_fld1)
fixed (Vector64<Single>* pFld2 = &_fld2)
{
var result = AdvSimd.MinNumber(
AdvSimd.LoadVector64((Single*)(pFld1)),
AdvSimd.LoadVector64((Single*)(pFld2))
);
Unsafe.Write(testClass._dataTable.outArrayPtr, result);
testClass.ValidateResult(_fld1, _fld2, testClass._dataTable.outArrayPtr);
}
}
}
private static readonly int LargestVectorSize = 8;
private static readonly int Op1ElementCount = Unsafe.SizeOf<Vector64<Single>>() / sizeof(Single);
private static readonly int Op2ElementCount = Unsafe.SizeOf<Vector64<Single>>() / sizeof(Single);
private static readonly int RetElementCount = Unsafe.SizeOf<Vector64<Single>>() / sizeof(Single);
private static Single[] _data1 = new Single[Op1ElementCount];
private static Single[] _data2 = new Single[Op2ElementCount];
private static Vector64<Single> _clsVar1;
private static Vector64<Single> _clsVar2;
private Vector64<Single> _fld1;
private Vector64<Single> _fld2;
private DataTable _dataTable;
static SimpleBinaryOpTest__MinNumber_Vector64_Single()
{
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetSingle(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector64<Single>, byte>(ref _clsVar1), ref Unsafe.As<Single, byte>(ref _data1[0]), (uint)Unsafe.SizeOf<Vector64<Single>>());
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetSingle(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector64<Single>, byte>(ref _clsVar2), ref Unsafe.As<Single, byte>(ref _data2[0]), (uint)Unsafe.SizeOf<Vector64<Single>>());
}
public SimpleBinaryOpTest__MinNumber_Vector64_Single()
{
Succeeded = true;
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetSingle(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector64<Single>, byte>(ref _fld1), ref Unsafe.As<Single, byte>(ref _data1[0]), (uint)Unsafe.SizeOf<Vector64<Single>>());
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetSingle(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector64<Single>, byte>(ref _fld2), ref Unsafe.As<Single, byte>(ref _data2[0]), (uint)Unsafe.SizeOf<Vector64<Single>>());
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetSingle(); }
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetSingle(); }
_dataTable = new DataTable(_data1, _data2, new Single[RetElementCount], LargestVectorSize);
}
public bool IsSupported => AdvSimd.IsSupported;
public bool Succeeded { get; set; }
public void RunBasicScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunBasicScenario_UnsafeRead));
var result = AdvSimd.MinNumber(
Unsafe.Read<Vector64<Single>>(_dataTable.inArray1Ptr),
Unsafe.Read<Vector64<Single>>(_dataTable.inArray2Ptr)
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunBasicScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunBasicScenario_Load));
var result = AdvSimd.MinNumber(
AdvSimd.LoadVector64((Single*)(_dataTable.inArray1Ptr)),
AdvSimd.LoadVector64((Single*)(_dataTable.inArray2Ptr))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunReflectionScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunReflectionScenario_UnsafeRead));
var result = typeof(AdvSimd).GetMethod(nameof(AdvSimd.MinNumber), new Type[] { typeof(Vector64<Single>), typeof(Vector64<Single>) })
.Invoke(null, new object[] {
Unsafe.Read<Vector64<Single>>(_dataTable.inArray1Ptr),
Unsafe.Read<Vector64<Single>>(_dataTable.inArray2Ptr)
});
Unsafe.Write(_dataTable.outArrayPtr, (Vector64<Single>)(result));
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunReflectionScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunReflectionScenario_Load));
var result = typeof(AdvSimd).GetMethod(nameof(AdvSimd.MinNumber), new Type[] { typeof(Vector64<Single>), typeof(Vector64<Single>) })
.Invoke(null, new object[] {
AdvSimd.LoadVector64((Single*)(_dataTable.inArray1Ptr)),
AdvSimd.LoadVector64((Single*)(_dataTable.inArray2Ptr))
});
Unsafe.Write(_dataTable.outArrayPtr, (Vector64<Single>)(result));
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunClsVarScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClsVarScenario));
var result = AdvSimd.MinNumber(
_clsVar1,
_clsVar2
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_clsVar1, _clsVar2, _dataTable.outArrayPtr);
}
public void RunClsVarScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClsVarScenario_Load));
fixed (Vector64<Single>* pClsVar1 = &_clsVar1)
fixed (Vector64<Single>* pClsVar2 = &_clsVar2)
{
var result = AdvSimd.MinNumber(
AdvSimd.LoadVector64((Single*)(pClsVar1)),
AdvSimd.LoadVector64((Single*)(pClsVar2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_clsVar1, _clsVar2, _dataTable.outArrayPtr);
}
}
public void RunLclVarScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunLclVarScenario_UnsafeRead));
var op1 = Unsafe.Read<Vector64<Single>>(_dataTable.inArray1Ptr);
var op2 = Unsafe.Read<Vector64<Single>>(_dataTable.inArray2Ptr);
var result = AdvSimd.MinNumber(op1, op2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(op1, op2, _dataTable.outArrayPtr);
}
public void RunLclVarScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunLclVarScenario_Load));
var op1 = AdvSimd.LoadVector64((Single*)(_dataTable.inArray1Ptr));
var op2 = AdvSimd.LoadVector64((Single*)(_dataTable.inArray2Ptr));
var result = AdvSimd.MinNumber(op1, op2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(op1, op2, _dataTable.outArrayPtr);
}
public void RunClassLclFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassLclFldScenario));
var test = new SimpleBinaryOpTest__MinNumber_Vector64_Single();
var result = AdvSimd.MinNumber(test._fld1, test._fld2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
public void RunClassLclFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassLclFldScenario_Load));
var test = new SimpleBinaryOpTest__MinNumber_Vector64_Single();
fixed (Vector64<Single>* pFld1 = &test._fld1)
fixed (Vector64<Single>* pFld2 = &test._fld2)
{
var result = AdvSimd.MinNumber(
AdvSimd.LoadVector64((Single*)(pFld1)),
AdvSimd.LoadVector64((Single*)(pFld2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
}
public void RunClassFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassFldScenario));
var result = AdvSimd.MinNumber(_fld1, _fld2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_fld1, _fld2, _dataTable.outArrayPtr);
}
public void RunClassFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassFldScenario_Load));
fixed (Vector64<Single>* pFld1 = &_fld1)
fixed (Vector64<Single>* pFld2 = &_fld2)
{
var result = AdvSimd.MinNumber(
AdvSimd.LoadVector64((Single*)(pFld1)),
AdvSimd.LoadVector64((Single*)(pFld2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_fld1, _fld2, _dataTable.outArrayPtr);
}
}
public void RunStructLclFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructLclFldScenario));
var test = TestStruct.Create();
var result = AdvSimd.MinNumber(test._fld1, test._fld2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
public void RunStructLclFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructLclFldScenario_Load));
var test = TestStruct.Create();
var result = AdvSimd.MinNumber(
AdvSimd.LoadVector64((Single*)(&test._fld1)),
AdvSimd.LoadVector64((Single*)(&test._fld2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
public void RunStructFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructFldScenario));
var test = TestStruct.Create();
test.RunStructFldScenario(this);
}
public void RunStructFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructFldScenario_Load));
var test = TestStruct.Create();
test.RunStructFldScenario_Load(this);
}
public void RunUnsupportedScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunUnsupportedScenario));
bool succeeded = false;
try
{
RunBasicScenario_UnsafeRead();
}
catch (PlatformNotSupportedException)
{
succeeded = true;
}
if (!succeeded)
{
Succeeded = false;
}
}
private void ValidateResult(Vector64<Single> op1, Vector64<Single> op2, void* result, [CallerMemberName] string method = "")
{
Single[] inArray1 = new Single[Op1ElementCount];
Single[] inArray2 = new Single[Op2ElementCount];
Single[] outArray = new Single[RetElementCount];
Unsafe.WriteUnaligned(ref Unsafe.As<Single, byte>(ref inArray1[0]), op1);
Unsafe.WriteUnaligned(ref Unsafe.As<Single, byte>(ref inArray2[0]), op2);
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Single, byte>(ref outArray[0]), ref Unsafe.AsRef<byte>(result), (uint)Unsafe.SizeOf<Vector64<Single>>());
ValidateResult(inArray1, inArray2, outArray, method);
}
private void ValidateResult(void* op1, void* op2, void* result, [CallerMemberName] string method = "")
{
Single[] inArray1 = new Single[Op1ElementCount];
Single[] inArray2 = new Single[Op2ElementCount];
Single[] outArray = new Single[RetElementCount];
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Single, byte>(ref inArray1[0]), ref Unsafe.AsRef<byte>(op1), (uint)Unsafe.SizeOf<Vector64<Single>>());
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Single, byte>(ref inArray2[0]), ref Unsafe.AsRef<byte>(op2), (uint)Unsafe.SizeOf<Vector64<Single>>());
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Single, byte>(ref outArray[0]), ref Unsafe.AsRef<byte>(result), (uint)Unsafe.SizeOf<Vector64<Single>>());
ValidateResult(inArray1, inArray2, outArray, method);
}
private void ValidateResult(Single[] left, Single[] right, Single[] result, [CallerMemberName] string method = "")
{
bool succeeded = true;
for (var i = 0; i < RetElementCount; i++)
{
if (BitConverter.SingleToInt32Bits(Helpers.MinNumber(left[i], right[i])) != BitConverter.SingleToInt32Bits(result[i]))
{
succeeded = false;
break;
}
}
if (!succeeded)
{
TestLibrary.TestFramework.LogInformation($"{nameof(AdvSimd)}.{nameof(AdvSimd.MinNumber)}<Single>(Vector64<Single>, Vector64<Single>): {method} failed:");
TestLibrary.TestFramework.LogInformation($" left: ({string.Join(", ", left)})");
TestLibrary.TestFramework.LogInformation($" right: ({string.Join(", ", right)})");
TestLibrary.TestFramework.LogInformation($" result: ({string.Join(", ", result)})");
TestLibrary.TestFramework.LogInformation(string.Empty);
Succeeded = false;
}
}
}
}
| -1 |
dotnet/runtime
| 66,398 |
Reenable compiler warning 4244 under coreclr/
|
Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
AaronRobinsonMSFT
| 2022-03-09T15:46:00Z | 2022-03-10T01:12:51Z |
763936ed098deaa1588935f17d7cc0a07c27c3fa
|
b71eba8b3a74fa6282dc1526e68abbd26f3e385f
|
Reenable compiler warning 4244 under coreclr/. Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
./src/tests/JIT/Methodical/explicit/coverage/body_safe_int.cs
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
using System;
internal class TestApp
{
private static int test_0_0(int num, AA init, AA zero)
{
return init.q;
}
private static int test_0_1(int num, AA init, AA zero)
{
zero.q = num;
return zero.q;
}
private static int test_0_2(int num, AA init, AA zero)
{
return init.q + zero.q;
}
private static int test_0_3(int num, AA init, AA zero)
{
return checked(init.q - zero.q);
}
private static int test_0_4(int num, AA init, AA zero)
{
zero.q += num; return zero.q;
}
private static int test_0_5(int num, AA init, AA zero)
{
zero.q += init.q; return zero.q;
}
private static int test_0_6(int num, AA init, AA zero)
{
if (init.q == num)
return 100;
else
return zero.q;
}
private static int test_0_7(int num, AA init, AA zero)
{
return init.q < num + 1 ? 100 : -1;
}
private static int test_0_8(int num, AA init, AA zero)
{
return (init.q > zero.q ? 1 : 0) + 99;
}
private static int test_0_9(int num, AA init, AA zero)
{
return (init.q ^ zero.q) | num;
}
private static int test_0_10(int num, AA init, AA zero)
{
zero.q |= init.q;
return zero.q & num;
}
private static int test_0_11(int num, AA init, AA zero)
{
return init.q >> zero.q;
}
private static int test_0_12(int num, AA init, AA zero)
{
return AA.a_init[init.q].q;
}
private static int test_0_13(int num, AA init, AA zero)
{
return AA.aa_init[num - 100, (init.q | 1) - 2, 1 + zero.q].q;
}
private static int test_0_14(int num, AA init, AA zero)
{
object bb = init.q;
return (int)bb;
}
private static int test_0_15(int num, AA init, AA zero)
{
double dbl = init.q;
return (int)dbl;
}
private static int test_0_16(int num, AA init, AA zero)
{
return AA.call_target(init.q);
}
private static int test_0_17(int num, AA init, AA zero)
{
return AA.call_target_ref(ref init.q);
}
private static int test_1_0(int num, ref AA r_init, ref AA r_zero)
{
return r_init.q;
}
private static int test_1_1(int num, ref AA r_init, ref AA r_zero)
{
r_zero.q = num;
return r_zero.q;
}
private static int test_1_2(int num, ref AA r_init, ref AA r_zero)
{
return r_init.q + r_zero.q;
}
private static int test_1_3(int num, ref AA r_init, ref AA r_zero)
{
return checked(r_init.q - r_zero.q);
}
private static int test_1_4(int num, ref AA r_init, ref AA r_zero)
{
r_zero.q += num; return r_zero.q;
}
private static int test_1_5(int num, ref AA r_init, ref AA r_zero)
{
r_zero.q += r_init.q; return r_zero.q;
}
private static int test_1_6(int num, ref AA r_init, ref AA r_zero)
{
if (r_init.q == num)
return 100;
else
return r_zero.q;
}
private static int test_1_7(int num, ref AA r_init, ref AA r_zero)
{
return r_init.q < num + 1 ? 100 : -1;
}
private static int test_1_8(int num, ref AA r_init, ref AA r_zero)
{
return (r_init.q > r_zero.q ? 1 : 0) + 99;
}
private static int test_1_9(int num, ref AA r_init, ref AA r_zero)
{
return (r_init.q ^ r_zero.q) | num;
}
private static int test_1_10(int num, ref AA r_init, ref AA r_zero)
{
r_zero.q |= r_init.q;
return r_zero.q & num;
}
private static int test_1_11(int num, ref AA r_init, ref AA r_zero)
{
return r_init.q >> r_zero.q;
}
private static int test_1_12(int num, ref AA r_init, ref AA r_zero)
{
return AA.a_init[r_init.q].q;
}
private static int test_1_13(int num, ref AA r_init, ref AA r_zero)
{
return AA.aa_init[num - 100, (r_init.q | 1) - 2, 1 + r_zero.q].q;
}
private static int test_1_14(int num, ref AA r_init, ref AA r_zero)
{
object bb = r_init.q;
return (int)bb;
}
private static int test_1_15(int num, ref AA r_init, ref AA r_zero)
{
double dbl = r_init.q;
return (int)dbl;
}
private static int test_1_16(int num, ref AA r_init, ref AA r_zero)
{
return AA.call_target(r_init.q);
}
private static int test_1_17(int num, ref AA r_init, ref AA r_zero)
{
return AA.call_target_ref(ref r_init.q);
}
private static int test_2_0(int num)
{
return AA.a_init[num].q;
}
private static int test_2_1(int num)
{
AA.a_zero[num].q = num;
return AA.a_zero[num].q;
}
private static int test_2_2(int num)
{
return AA.a_init[num].q + AA.a_zero[num].q;
}
private static int test_2_3(int num)
{
return checked(AA.a_init[num].q - AA.a_zero[num].q);
}
private static int test_2_4(int num)
{
AA.a_zero[num].q += num; return AA.a_zero[num].q;
}
private static int test_2_5(int num)
{
AA.a_zero[num].q += AA.a_init[num].q; return AA.a_zero[num].q;
}
private static int test_2_6(int num)
{
if (AA.a_init[num].q == num)
return 100;
else
return AA.a_zero[num].q;
}
private static int test_2_7(int num)
{
return AA.a_init[num].q < num + 1 ? 100 : -1;
}
private static int test_2_8(int num)
{
return (AA.a_init[num].q > AA.a_zero[num].q ? 1 : 0) + 99;
}
private static int test_2_9(int num)
{
return (AA.a_init[num].q ^ AA.a_zero[num].q) | num;
}
private static int test_2_10(int num)
{
AA.a_zero[num].q |= AA.a_init[num].q;
return AA.a_zero[num].q & num;
}
private static int test_2_11(int num)
{
return AA.a_init[num].q >> AA.a_zero[num].q;
}
private static int test_2_12(int num)
{
return AA.a_init[AA.a_init[num].q].q;
}
private static int test_2_13(int num)
{
return AA.aa_init[num - 100, (AA.a_init[num].q | 1) - 2, 1 + AA.a_zero[num].q].q;
}
private static int test_2_14(int num)
{
object bb = AA.a_init[num].q;
return (int)bb;
}
private static int test_2_15(int num)
{
double dbl = AA.a_init[num].q;
return (int)dbl;
}
private static int test_2_16(int num)
{
return AA.call_target(AA.a_init[num].q);
}
private static int test_2_17(int num)
{
return AA.call_target_ref(ref AA.a_init[num].q);
}
private static int test_3_0(int num)
{
return AA.aa_init[0, num - 1, num / 100].q;
}
private static int test_3_1(int num)
{
AA.aa_zero[0, num - 1, num / 100].q = num;
return AA.aa_zero[0, num - 1, num / 100].q;
}
private static int test_3_2(int num)
{
return AA.aa_init[0, num - 1, num / 100].q + AA.aa_zero[0, num - 1, num / 100].q;
}
private static int test_3_3(int num)
{
return checked(AA.aa_init[0, num - 1, num / 100].q - AA.aa_zero[0, num - 1, num / 100].q);
}
private static int test_3_4(int num)
{
AA.aa_zero[0, num - 1, num / 100].q += num; return AA.aa_zero[0, num - 1, num / 100].q;
}
private static int test_3_5(int num)
{
AA.aa_zero[0, num - 1, num / 100].q += AA.aa_init[0, num - 1, num / 100].q; return AA.aa_zero[0, num - 1, num / 100].q;
}
private static int test_3_6(int num)
{
if (AA.aa_init[0, num - 1, num / 100].q == num)
return 100;
else
return AA.aa_zero[0, num - 1, num / 100].q;
}
private static int test_3_7(int num)
{
return AA.aa_init[0, num - 1, num / 100].q < num + 1 ? 100 : -1;
}
private static int test_3_8(int num)
{
return (AA.aa_init[0, num - 1, num / 100].q > AA.aa_zero[0, num - 1, num / 100].q ? 1 : 0) + 99;
}
private static int test_3_9(int num)
{
return (AA.aa_init[0, num - 1, num / 100].q ^ AA.aa_zero[0, num - 1, num / 100].q) | num;
}
private static int test_3_10(int num)
{
AA.aa_zero[0, num - 1, num / 100].q |= AA.aa_init[0, num - 1, num / 100].q;
return AA.aa_zero[0, num - 1, num / 100].q & num;
}
private static int test_3_11(int num)
{
return AA.aa_init[0, num - 1, num / 100].q >> AA.aa_zero[0, num - 1, num / 100].q;
}
private static int test_3_12(int num)
{
return AA.a_init[AA.aa_init[0, num - 1, num / 100].q].q;
}
private static int test_3_13(int num)
{
return AA.aa_init[num - 100, (AA.aa_init[0, num - 1, num / 100].q | 1) - 2, 1 + AA.aa_zero[0, num - 1, num / 100].q].q;
}
private static int test_3_14(int num)
{
object bb = AA.aa_init[0, num - 1, num / 100].q;
return (int)bb;
}
private static int test_3_15(int num)
{
double dbl = AA.aa_init[0, num - 1, num / 100].q;
return (int)dbl;
}
private static int test_3_16(int num)
{
return AA.call_target(AA.aa_init[0, num - 1, num / 100].q);
}
private static int test_3_17(int num)
{
return AA.call_target_ref(ref AA.aa_init[0, num - 1, num / 100].q);
}
private static int test_4_0(int num)
{
return BB.f_init.q;
}
private static int test_4_1(int num)
{
BB.f_zero.q = num;
return BB.f_zero.q;
}
private static int test_4_2(int num)
{
return BB.f_init.q + BB.f_zero.q;
}
private static int test_4_3(int num)
{
return checked(BB.f_init.q - BB.f_zero.q);
}
private static int test_4_4(int num)
{
BB.f_zero.q += num; return BB.f_zero.q;
}
private static int test_4_5(int num)
{
BB.f_zero.q += BB.f_init.q; return BB.f_zero.q;
}
private static int test_4_6(int num)
{
if (BB.f_init.q == num)
return 100;
else
return BB.f_zero.q;
}
private static int test_4_7(int num)
{
return BB.f_init.q < num + 1 ? 100 : -1;
}
private static int test_4_8(int num)
{
return (BB.f_init.q > BB.f_zero.q ? 1 : 0) + 99;
}
private static int test_4_9(int num)
{
return (BB.f_init.q ^ BB.f_zero.q) | num;
}
private static int test_4_10(int num)
{
BB.f_zero.q |= BB.f_init.q;
return BB.f_zero.q & num;
}
private static int test_4_11(int num)
{
return BB.f_init.q >> BB.f_zero.q;
}
private static int test_4_12(int num)
{
return AA.a_init[BB.f_init.q].q;
}
private static int test_4_13(int num)
{
return AA.aa_init[num - 100, (BB.f_init.q | 1) - 2, 1 + BB.f_zero.q].q;
}
private static int test_4_14(int num)
{
object bb = BB.f_init.q;
return (int)bb;
}
private static int test_4_15(int num)
{
double dbl = BB.f_init.q;
return (int)dbl;
}
private static int test_4_16(int num)
{
return AA.call_target(BB.f_init.q);
}
private static int test_4_17(int num)
{
return AA.call_target_ref(ref BB.f_init.q);
}
private static int test_5_0(int num)
{
return ((AA)AA.b_init).q;
}
private static int test_6_0(int num, TypedReference tr_init)
{
return __refvalue(tr_init, AA).q;
}
internal static unsafe int RunAllTests()
{
AA.reset();
if (test_0_0(100, new AA(100), new AA(0)) != 100)
{
Console.WriteLine("test_0_0() failed.");
return 101;
}
AA.verify_all(); AA.reset();
if (test_0_1(100, new AA(100), new AA(0)) != 100)
{
Console.WriteLine("test_0_1() failed.");
return 102;
}
AA.verify_all(); AA.reset();
if (test_0_2(100, new AA(100), new AA(0)) != 100)
{
Console.WriteLine("test_0_2() failed.");
return 103;
}
AA.verify_all(); AA.reset();
if (test_0_3(100, new AA(100), new AA(0)) != 100)
{
Console.WriteLine("test_0_3() failed.");
return 104;
}
AA.verify_all(); AA.reset();
if (test_0_4(100, new AA(100), new AA(0)) != 100)
{
Console.WriteLine("test_0_4() failed.");
return 105;
}
AA.verify_all(); AA.reset();
if (test_0_5(100, new AA(100), new AA(0)) != 100)
{
Console.WriteLine("test_0_5() failed.");
return 106;
}
AA.verify_all(); AA.reset();
if (test_0_6(100, new AA(100), new AA(0)) != 100)
{
Console.WriteLine("test_0_6() failed.");
return 107;
}
AA.verify_all(); AA.reset();
if (test_0_7(100, new AA(100), new AA(0)) != 100)
{
Console.WriteLine("test_0_7() failed.");
return 108;
}
AA.verify_all(); AA.reset();
if (test_0_8(100, new AA(100), new AA(0)) != 100)
{
Console.WriteLine("test_0_8() failed.");
return 109;
}
AA.verify_all(); AA.reset();
if (test_0_9(100, new AA(100), new AA(0)) != 100)
{
Console.WriteLine("test_0_9() failed.");
return 110;
}
AA.verify_all(); AA.reset();
if (test_0_10(100, new AA(100), new AA(0)) != 100)
{
Console.WriteLine("test_0_10() failed.");
return 111;
}
AA.verify_all(); AA.reset();
if (test_0_11(100, new AA(100), new AA(0)) != 100)
{
Console.WriteLine("test_0_11() failed.");
return 112;
}
AA.verify_all(); AA.reset();
if (test_0_12(100, new AA(100), new AA(0)) != 100)
{
Console.WriteLine("test_0_12() failed.");
return 113;
}
AA.verify_all(); AA.reset();
if (test_0_13(100, new AA(100), new AA(0)) != 100)
{
Console.WriteLine("test_0_13() failed.");
return 114;
}
AA.verify_all(); AA.reset();
if (test_0_14(100, new AA(100), new AA(0)) != 100)
{
Console.WriteLine("test_0_14() failed.");
return 115;
}
AA.verify_all(); AA.reset();
if (test_0_15(100, new AA(100), new AA(0)) != 100)
{
Console.WriteLine("test_0_15() failed.");
return 116;
}
AA.verify_all(); AA.reset();
if (test_0_16(100, new AA(100), new AA(0)) != 100)
{
Console.WriteLine("test_0_16() failed.");
return 117;
}
AA.verify_all(); AA.reset();
if (test_0_17(100, new AA(100), new AA(0)) != 100)
{
Console.WriteLine("test_0_17() failed.");
return 118;
}
AA.verify_all(); AA.reset();
if (test_1_0(100, ref AA._init, ref AA._zero) != 100)
{
Console.WriteLine("test_1_0() failed.");
return 119;
}
AA.verify_all(); AA.reset();
if (test_1_1(100, ref AA._init, ref AA._zero) != 100)
{
Console.WriteLine("test_1_1() failed.");
return 120;
}
AA.verify_all(); AA.reset();
if (test_1_2(100, ref AA._init, ref AA._zero) != 100)
{
Console.WriteLine("test_1_2() failed.");
return 121;
}
AA.verify_all(); AA.reset();
if (test_1_3(100, ref AA._init, ref AA._zero) != 100)
{
Console.WriteLine("test_1_3() failed.");
return 122;
}
AA.verify_all(); AA.reset();
if (test_1_4(100, ref AA._init, ref AA._zero) != 100)
{
Console.WriteLine("test_1_4() failed.");
return 123;
}
AA.verify_all(); AA.reset();
if (test_1_5(100, ref AA._init, ref AA._zero) != 100)
{
Console.WriteLine("test_1_5() failed.");
return 124;
}
AA.verify_all(); AA.reset();
if (test_1_6(100, ref AA._init, ref AA._zero) != 100)
{
Console.WriteLine("test_1_6() failed.");
return 125;
}
AA.verify_all(); AA.reset();
if (test_1_7(100, ref AA._init, ref AA._zero) != 100)
{
Console.WriteLine("test_1_7() failed.");
return 126;
}
AA.verify_all(); AA.reset();
if (test_1_8(100, ref AA._init, ref AA._zero) != 100)
{
Console.WriteLine("test_1_8() failed.");
return 127;
}
AA.verify_all(); AA.reset();
if (test_1_9(100, ref AA._init, ref AA._zero) != 100)
{
Console.WriteLine("test_1_9() failed.");
return 128;
}
AA.verify_all(); AA.reset();
if (test_1_10(100, ref AA._init, ref AA._zero) != 100)
{
Console.WriteLine("test_1_10() failed.");
return 129;
}
AA.verify_all(); AA.reset();
if (test_1_11(100, ref AA._init, ref AA._zero) != 100)
{
Console.WriteLine("test_1_11() failed.");
return 130;
}
AA.verify_all(); AA.reset();
if (test_1_12(100, ref AA._init, ref AA._zero) != 100)
{
Console.WriteLine("test_1_12() failed.");
return 131;
}
AA.verify_all(); AA.reset();
if (test_1_13(100, ref AA._init, ref AA._zero) != 100)
{
Console.WriteLine("test_1_13() failed.");
return 132;
}
AA.verify_all(); AA.reset();
if (test_1_14(100, ref AA._init, ref AA._zero) != 100)
{
Console.WriteLine("test_1_14() failed.");
return 133;
}
AA.verify_all(); AA.reset();
if (test_1_15(100, ref AA._init, ref AA._zero) != 100)
{
Console.WriteLine("test_1_15() failed.");
return 134;
}
AA.verify_all(); AA.reset();
if (test_1_16(100, ref AA._init, ref AA._zero) != 100)
{
Console.WriteLine("test_1_16() failed.");
return 135;
}
AA.verify_all(); AA.reset();
if (test_1_17(100, ref AA._init, ref AA._zero) != 100)
{
Console.WriteLine("test_1_17() failed.");
return 136;
}
AA.verify_all(); AA.reset();
if (test_2_0(100) != 100)
{
Console.WriteLine("test_2_0() failed.");
return 137;
}
AA.verify_all(); AA.reset();
if (test_2_1(100) != 100)
{
Console.WriteLine("test_2_1() failed.");
return 138;
}
AA.verify_all(); AA.reset();
if (test_2_2(100) != 100)
{
Console.WriteLine("test_2_2() failed.");
return 139;
}
AA.verify_all(); AA.reset();
if (test_2_3(100) != 100)
{
Console.WriteLine("test_2_3() failed.");
return 140;
}
AA.verify_all(); AA.reset();
if (test_2_4(100) != 100)
{
Console.WriteLine("test_2_4() failed.");
return 141;
}
AA.verify_all(); AA.reset();
if (test_2_5(100) != 100)
{
Console.WriteLine("test_2_5() failed.");
return 142;
}
AA.verify_all(); AA.reset();
if (test_2_6(100) != 100)
{
Console.WriteLine("test_2_6() failed.");
return 143;
}
AA.verify_all(); AA.reset();
if (test_2_7(100) != 100)
{
Console.WriteLine("test_2_7() failed.");
return 144;
}
AA.verify_all(); AA.reset();
if (test_2_8(100) != 100)
{
Console.WriteLine("test_2_8() failed.");
return 145;
}
AA.verify_all(); AA.reset();
if (test_2_9(100) != 100)
{
Console.WriteLine("test_2_9() failed.");
return 146;
}
AA.verify_all(); AA.reset();
if (test_2_10(100) != 100)
{
Console.WriteLine("test_2_10() failed.");
return 147;
}
AA.verify_all(); AA.reset();
if (test_2_11(100) != 100)
{
Console.WriteLine("test_2_11() failed.");
return 148;
}
AA.verify_all(); AA.reset();
if (test_2_12(100) != 100)
{
Console.WriteLine("test_2_12() failed.");
return 149;
}
AA.verify_all(); AA.reset();
if (test_2_13(100) != 100)
{
Console.WriteLine("test_2_13() failed.");
return 150;
}
AA.verify_all(); AA.reset();
if (test_2_14(100) != 100)
{
Console.WriteLine("test_2_14() failed.");
return 151;
}
AA.verify_all(); AA.reset();
if (test_2_15(100) != 100)
{
Console.WriteLine("test_2_15() failed.");
return 152;
}
AA.verify_all(); AA.reset();
if (test_2_16(100) != 100)
{
Console.WriteLine("test_2_16() failed.");
return 153;
}
AA.verify_all(); AA.reset();
if (test_2_17(100) != 100)
{
Console.WriteLine("test_2_17() failed.");
return 154;
}
AA.verify_all(); AA.reset();
if (test_3_0(100) != 100)
{
Console.WriteLine("test_3_0() failed.");
return 155;
}
AA.verify_all(); AA.reset();
if (test_3_1(100) != 100)
{
Console.WriteLine("test_3_1() failed.");
return 156;
}
AA.verify_all(); AA.reset();
if (test_3_2(100) != 100)
{
Console.WriteLine("test_3_2() failed.");
return 157;
}
AA.verify_all(); AA.reset();
if (test_3_3(100) != 100)
{
Console.WriteLine("test_3_3() failed.");
return 158;
}
AA.verify_all(); AA.reset();
if (test_3_4(100) != 100)
{
Console.WriteLine("test_3_4() failed.");
return 159;
}
AA.verify_all(); AA.reset();
if (test_3_5(100) != 100)
{
Console.WriteLine("test_3_5() failed.");
return 160;
}
AA.verify_all(); AA.reset();
if (test_3_6(100) != 100)
{
Console.WriteLine("test_3_6() failed.");
return 161;
}
AA.verify_all(); AA.reset();
if (test_3_7(100) != 100)
{
Console.WriteLine("test_3_7() failed.");
return 162;
}
AA.verify_all(); AA.reset();
if (test_3_8(100) != 100)
{
Console.WriteLine("test_3_8() failed.");
return 163;
}
AA.verify_all(); AA.reset();
if (test_3_9(100) != 100)
{
Console.WriteLine("test_3_9() failed.");
return 164;
}
AA.verify_all(); AA.reset();
if (test_3_10(100) != 100)
{
Console.WriteLine("test_3_10() failed.");
return 165;
}
AA.verify_all(); AA.reset();
if (test_3_11(100) != 100)
{
Console.WriteLine("test_3_11() failed.");
return 166;
}
AA.verify_all(); AA.reset();
if (test_3_12(100) != 100)
{
Console.WriteLine("test_3_12() failed.");
return 167;
}
AA.verify_all(); AA.reset();
if (test_3_13(100) != 100)
{
Console.WriteLine("test_3_13() failed.");
return 168;
}
AA.verify_all(); AA.reset();
if (test_3_14(100) != 100)
{
Console.WriteLine("test_3_14() failed.");
return 169;
}
AA.verify_all(); AA.reset();
if (test_3_15(100) != 100)
{
Console.WriteLine("test_3_15() failed.");
return 170;
}
AA.verify_all(); AA.reset();
if (test_3_16(100) != 100)
{
Console.WriteLine("test_3_16() failed.");
return 171;
}
AA.verify_all(); AA.reset();
if (test_3_17(100) != 100)
{
Console.WriteLine("test_3_17() failed.");
return 172;
}
AA.verify_all(); AA.reset();
if (test_4_0(100) != 100)
{
Console.WriteLine("test_4_0() failed.");
return 173;
}
AA.verify_all(); AA.reset();
if (test_4_1(100) != 100)
{
Console.WriteLine("test_4_1() failed.");
return 174;
}
AA.verify_all(); AA.reset();
if (test_4_2(100) != 100)
{
Console.WriteLine("test_4_2() failed.");
return 175;
}
AA.verify_all(); AA.reset();
if (test_4_3(100) != 100)
{
Console.WriteLine("test_4_3() failed.");
return 176;
}
AA.verify_all(); AA.reset();
if (test_4_4(100) != 100)
{
Console.WriteLine("test_4_4() failed.");
return 177;
}
AA.verify_all(); AA.reset();
if (test_4_5(100) != 100)
{
Console.WriteLine("test_4_5() failed.");
return 178;
}
AA.verify_all(); AA.reset();
if (test_4_6(100) != 100)
{
Console.WriteLine("test_4_6() failed.");
return 179;
}
AA.verify_all(); AA.reset();
if (test_4_7(100) != 100)
{
Console.WriteLine("test_4_7() failed.");
return 180;
}
AA.verify_all(); AA.reset();
if (test_4_8(100) != 100)
{
Console.WriteLine("test_4_8() failed.");
return 181;
}
AA.verify_all(); AA.reset();
if (test_4_9(100) != 100)
{
Console.WriteLine("test_4_9() failed.");
return 182;
}
AA.verify_all(); AA.reset();
if (test_4_10(100) != 100)
{
Console.WriteLine("test_4_10() failed.");
return 183;
}
AA.verify_all(); AA.reset();
if (test_4_11(100) != 100)
{
Console.WriteLine("test_4_11() failed.");
return 184;
}
AA.verify_all(); AA.reset();
if (test_4_12(100) != 100)
{
Console.WriteLine("test_4_12() failed.");
return 185;
}
AA.verify_all(); AA.reset();
if (test_4_13(100) != 100)
{
Console.WriteLine("test_4_13() failed.");
return 186;
}
AA.verify_all(); AA.reset();
if (test_4_14(100) != 100)
{
Console.WriteLine("test_4_14() failed.");
return 187;
}
AA.verify_all(); AA.reset();
if (test_4_15(100) != 100)
{
Console.WriteLine("test_4_15() failed.");
return 188;
}
AA.verify_all(); AA.reset();
if (test_4_16(100) != 100)
{
Console.WriteLine("test_4_16() failed.");
return 189;
}
AA.verify_all(); AA.reset();
if (test_4_17(100) != 100)
{
Console.WriteLine("test_4_17() failed.");
return 190;
}
AA.verify_all(); AA.reset();
if (test_5_0(100) != 100)
{
Console.WriteLine("test_5_0() failed.");
return 191;
}
AA.verify_all(); AA.reset();
if (test_6_0(100, __makeref(AA._init)) != 100)
{
Console.WriteLine("test_6_0() failed.");
return 192;
}
AA.verify_all(); Console.WriteLine("All tests passed.");
return 100;
}
}
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
using System;
internal class TestApp
{
private static int test_0_0(int num, AA init, AA zero)
{
return init.q;
}
private static int test_0_1(int num, AA init, AA zero)
{
zero.q = num;
return zero.q;
}
private static int test_0_2(int num, AA init, AA zero)
{
return init.q + zero.q;
}
private static int test_0_3(int num, AA init, AA zero)
{
return checked(init.q - zero.q);
}
private static int test_0_4(int num, AA init, AA zero)
{
zero.q += num; return zero.q;
}
private static int test_0_5(int num, AA init, AA zero)
{
zero.q += init.q; return zero.q;
}
private static int test_0_6(int num, AA init, AA zero)
{
if (init.q == num)
return 100;
else
return zero.q;
}
private static int test_0_7(int num, AA init, AA zero)
{
return init.q < num + 1 ? 100 : -1;
}
private static int test_0_8(int num, AA init, AA zero)
{
return (init.q > zero.q ? 1 : 0) + 99;
}
private static int test_0_9(int num, AA init, AA zero)
{
return (init.q ^ zero.q) | num;
}
private static int test_0_10(int num, AA init, AA zero)
{
zero.q |= init.q;
return zero.q & num;
}
private static int test_0_11(int num, AA init, AA zero)
{
return init.q >> zero.q;
}
private static int test_0_12(int num, AA init, AA zero)
{
return AA.a_init[init.q].q;
}
private static int test_0_13(int num, AA init, AA zero)
{
return AA.aa_init[num - 100, (init.q | 1) - 2, 1 + zero.q].q;
}
private static int test_0_14(int num, AA init, AA zero)
{
object bb = init.q;
return (int)bb;
}
private static int test_0_15(int num, AA init, AA zero)
{
double dbl = init.q;
return (int)dbl;
}
private static int test_0_16(int num, AA init, AA zero)
{
return AA.call_target(init.q);
}
private static int test_0_17(int num, AA init, AA zero)
{
return AA.call_target_ref(ref init.q);
}
private static int test_1_0(int num, ref AA r_init, ref AA r_zero)
{
return r_init.q;
}
private static int test_1_1(int num, ref AA r_init, ref AA r_zero)
{
r_zero.q = num;
return r_zero.q;
}
private static int test_1_2(int num, ref AA r_init, ref AA r_zero)
{
return r_init.q + r_zero.q;
}
private static int test_1_3(int num, ref AA r_init, ref AA r_zero)
{
return checked(r_init.q - r_zero.q);
}
private static int test_1_4(int num, ref AA r_init, ref AA r_zero)
{
r_zero.q += num; return r_zero.q;
}
private static int test_1_5(int num, ref AA r_init, ref AA r_zero)
{
r_zero.q += r_init.q; return r_zero.q;
}
private static int test_1_6(int num, ref AA r_init, ref AA r_zero)
{
if (r_init.q == num)
return 100;
else
return r_zero.q;
}
private static int test_1_7(int num, ref AA r_init, ref AA r_zero)
{
return r_init.q < num + 1 ? 100 : -1;
}
private static int test_1_8(int num, ref AA r_init, ref AA r_zero)
{
return (r_init.q > r_zero.q ? 1 : 0) + 99;
}
private static int test_1_9(int num, ref AA r_init, ref AA r_zero)
{
return (r_init.q ^ r_zero.q) | num;
}
private static int test_1_10(int num, ref AA r_init, ref AA r_zero)
{
r_zero.q |= r_init.q;
return r_zero.q & num;
}
private static int test_1_11(int num, ref AA r_init, ref AA r_zero)
{
return r_init.q >> r_zero.q;
}
private static int test_1_12(int num, ref AA r_init, ref AA r_zero)
{
return AA.a_init[r_init.q].q;
}
private static int test_1_13(int num, ref AA r_init, ref AA r_zero)
{
return AA.aa_init[num - 100, (r_init.q | 1) - 2, 1 + r_zero.q].q;
}
private static int test_1_14(int num, ref AA r_init, ref AA r_zero)
{
object bb = r_init.q;
return (int)bb;
}
private static int test_1_15(int num, ref AA r_init, ref AA r_zero)
{
double dbl = r_init.q;
return (int)dbl;
}
private static int test_1_16(int num, ref AA r_init, ref AA r_zero)
{
return AA.call_target(r_init.q);
}
private static int test_1_17(int num, ref AA r_init, ref AA r_zero)
{
return AA.call_target_ref(ref r_init.q);
}
private static int test_2_0(int num)
{
return AA.a_init[num].q;
}
private static int test_2_1(int num)
{
AA.a_zero[num].q = num;
return AA.a_zero[num].q;
}
private static int test_2_2(int num)
{
return AA.a_init[num].q + AA.a_zero[num].q;
}
private static int test_2_3(int num)
{
return checked(AA.a_init[num].q - AA.a_zero[num].q);
}
private static int test_2_4(int num)
{
AA.a_zero[num].q += num; return AA.a_zero[num].q;
}
private static int test_2_5(int num)
{
AA.a_zero[num].q += AA.a_init[num].q; return AA.a_zero[num].q;
}
private static int test_2_6(int num)
{
if (AA.a_init[num].q == num)
return 100;
else
return AA.a_zero[num].q;
}
private static int test_2_7(int num)
{
return AA.a_init[num].q < num + 1 ? 100 : -1;
}
private static int test_2_8(int num)
{
return (AA.a_init[num].q > AA.a_zero[num].q ? 1 : 0) + 99;
}
private static int test_2_9(int num)
{
return (AA.a_init[num].q ^ AA.a_zero[num].q) | num;
}
private static int test_2_10(int num)
{
AA.a_zero[num].q |= AA.a_init[num].q;
return AA.a_zero[num].q & num;
}
private static int test_2_11(int num)
{
return AA.a_init[num].q >> AA.a_zero[num].q;
}
private static int test_2_12(int num)
{
return AA.a_init[AA.a_init[num].q].q;
}
private static int test_2_13(int num)
{
return AA.aa_init[num - 100, (AA.a_init[num].q | 1) - 2, 1 + AA.a_zero[num].q].q;
}
private static int test_2_14(int num)
{
object bb = AA.a_init[num].q;
return (int)bb;
}
private static int test_2_15(int num)
{
double dbl = AA.a_init[num].q;
return (int)dbl;
}
private static int test_2_16(int num)
{
return AA.call_target(AA.a_init[num].q);
}
private static int test_2_17(int num)
{
return AA.call_target_ref(ref AA.a_init[num].q);
}
private static int test_3_0(int num)
{
return AA.aa_init[0, num - 1, num / 100].q;
}
private static int test_3_1(int num)
{
AA.aa_zero[0, num - 1, num / 100].q = num;
return AA.aa_zero[0, num - 1, num / 100].q;
}
private static int test_3_2(int num)
{
return AA.aa_init[0, num - 1, num / 100].q + AA.aa_zero[0, num - 1, num / 100].q;
}
private static int test_3_3(int num)
{
return checked(AA.aa_init[0, num - 1, num / 100].q - AA.aa_zero[0, num - 1, num / 100].q);
}
private static int test_3_4(int num)
{
AA.aa_zero[0, num - 1, num / 100].q += num; return AA.aa_zero[0, num - 1, num / 100].q;
}
private static int test_3_5(int num)
{
AA.aa_zero[0, num - 1, num / 100].q += AA.aa_init[0, num - 1, num / 100].q; return AA.aa_zero[0, num - 1, num / 100].q;
}
private static int test_3_6(int num)
{
if (AA.aa_init[0, num - 1, num / 100].q == num)
return 100;
else
return AA.aa_zero[0, num - 1, num / 100].q;
}
private static int test_3_7(int num)
{
return AA.aa_init[0, num - 1, num / 100].q < num + 1 ? 100 : -1;
}
private static int test_3_8(int num)
{
return (AA.aa_init[0, num - 1, num / 100].q > AA.aa_zero[0, num - 1, num / 100].q ? 1 : 0) + 99;
}
private static int test_3_9(int num)
{
return (AA.aa_init[0, num - 1, num / 100].q ^ AA.aa_zero[0, num - 1, num / 100].q) | num;
}
private static int test_3_10(int num)
{
AA.aa_zero[0, num - 1, num / 100].q |= AA.aa_init[0, num - 1, num / 100].q;
return AA.aa_zero[0, num - 1, num / 100].q & num;
}
private static int test_3_11(int num)
{
return AA.aa_init[0, num - 1, num / 100].q >> AA.aa_zero[0, num - 1, num / 100].q;
}
private static int test_3_12(int num)
{
return AA.a_init[AA.aa_init[0, num - 1, num / 100].q].q;
}
private static int test_3_13(int num)
{
return AA.aa_init[num - 100, (AA.aa_init[0, num - 1, num / 100].q | 1) - 2, 1 + AA.aa_zero[0, num - 1, num / 100].q].q;
}
private static int test_3_14(int num)
{
object bb = AA.aa_init[0, num - 1, num / 100].q;
return (int)bb;
}
private static int test_3_15(int num)
{
double dbl = AA.aa_init[0, num - 1, num / 100].q;
return (int)dbl;
}
private static int test_3_16(int num)
{
return AA.call_target(AA.aa_init[0, num - 1, num / 100].q);
}
private static int test_3_17(int num)
{
return AA.call_target_ref(ref AA.aa_init[0, num - 1, num / 100].q);
}
private static int test_4_0(int num)
{
return BB.f_init.q;
}
private static int test_4_1(int num)
{
BB.f_zero.q = num;
return BB.f_zero.q;
}
private static int test_4_2(int num)
{
return BB.f_init.q + BB.f_zero.q;
}
private static int test_4_3(int num)
{
return checked(BB.f_init.q - BB.f_zero.q);
}
private static int test_4_4(int num)
{
BB.f_zero.q += num; return BB.f_zero.q;
}
private static int test_4_5(int num)
{
BB.f_zero.q += BB.f_init.q; return BB.f_zero.q;
}
private static int test_4_6(int num)
{
if (BB.f_init.q == num)
return 100;
else
return BB.f_zero.q;
}
private static int test_4_7(int num)
{
return BB.f_init.q < num + 1 ? 100 : -1;
}
private static int test_4_8(int num)
{
return (BB.f_init.q > BB.f_zero.q ? 1 : 0) + 99;
}
private static int test_4_9(int num)
{
return (BB.f_init.q ^ BB.f_zero.q) | num;
}
private static int test_4_10(int num)
{
BB.f_zero.q |= BB.f_init.q;
return BB.f_zero.q & num;
}
private static int test_4_11(int num)
{
return BB.f_init.q >> BB.f_zero.q;
}
private static int test_4_12(int num)
{
return AA.a_init[BB.f_init.q].q;
}
private static int test_4_13(int num)
{
return AA.aa_init[num - 100, (BB.f_init.q | 1) - 2, 1 + BB.f_zero.q].q;
}
private static int test_4_14(int num)
{
object bb = BB.f_init.q;
return (int)bb;
}
private static int test_4_15(int num)
{
double dbl = BB.f_init.q;
return (int)dbl;
}
private static int test_4_16(int num)
{
return AA.call_target(BB.f_init.q);
}
private static int test_4_17(int num)
{
return AA.call_target_ref(ref BB.f_init.q);
}
private static int test_5_0(int num)
{
return ((AA)AA.b_init).q;
}
private static int test_6_0(int num, TypedReference tr_init)
{
return __refvalue(tr_init, AA).q;
}
internal static unsafe int RunAllTests()
{
AA.reset();
if (test_0_0(100, new AA(100), new AA(0)) != 100)
{
Console.WriteLine("test_0_0() failed.");
return 101;
}
AA.verify_all(); AA.reset();
if (test_0_1(100, new AA(100), new AA(0)) != 100)
{
Console.WriteLine("test_0_1() failed.");
return 102;
}
AA.verify_all(); AA.reset();
if (test_0_2(100, new AA(100), new AA(0)) != 100)
{
Console.WriteLine("test_0_2() failed.");
return 103;
}
AA.verify_all(); AA.reset();
if (test_0_3(100, new AA(100), new AA(0)) != 100)
{
Console.WriteLine("test_0_3() failed.");
return 104;
}
AA.verify_all(); AA.reset();
if (test_0_4(100, new AA(100), new AA(0)) != 100)
{
Console.WriteLine("test_0_4() failed.");
return 105;
}
AA.verify_all(); AA.reset();
if (test_0_5(100, new AA(100), new AA(0)) != 100)
{
Console.WriteLine("test_0_5() failed.");
return 106;
}
AA.verify_all(); AA.reset();
if (test_0_6(100, new AA(100), new AA(0)) != 100)
{
Console.WriteLine("test_0_6() failed.");
return 107;
}
AA.verify_all(); AA.reset();
if (test_0_7(100, new AA(100), new AA(0)) != 100)
{
Console.WriteLine("test_0_7() failed.");
return 108;
}
AA.verify_all(); AA.reset();
if (test_0_8(100, new AA(100), new AA(0)) != 100)
{
Console.WriteLine("test_0_8() failed.");
return 109;
}
AA.verify_all(); AA.reset();
if (test_0_9(100, new AA(100), new AA(0)) != 100)
{
Console.WriteLine("test_0_9() failed.");
return 110;
}
AA.verify_all(); AA.reset();
if (test_0_10(100, new AA(100), new AA(0)) != 100)
{
Console.WriteLine("test_0_10() failed.");
return 111;
}
AA.verify_all(); AA.reset();
if (test_0_11(100, new AA(100), new AA(0)) != 100)
{
Console.WriteLine("test_0_11() failed.");
return 112;
}
AA.verify_all(); AA.reset();
if (test_0_12(100, new AA(100), new AA(0)) != 100)
{
Console.WriteLine("test_0_12() failed.");
return 113;
}
AA.verify_all(); AA.reset();
if (test_0_13(100, new AA(100), new AA(0)) != 100)
{
Console.WriteLine("test_0_13() failed.");
return 114;
}
AA.verify_all(); AA.reset();
if (test_0_14(100, new AA(100), new AA(0)) != 100)
{
Console.WriteLine("test_0_14() failed.");
return 115;
}
AA.verify_all(); AA.reset();
if (test_0_15(100, new AA(100), new AA(0)) != 100)
{
Console.WriteLine("test_0_15() failed.");
return 116;
}
AA.verify_all(); AA.reset();
if (test_0_16(100, new AA(100), new AA(0)) != 100)
{
Console.WriteLine("test_0_16() failed.");
return 117;
}
AA.verify_all(); AA.reset();
if (test_0_17(100, new AA(100), new AA(0)) != 100)
{
Console.WriteLine("test_0_17() failed.");
return 118;
}
AA.verify_all(); AA.reset();
if (test_1_0(100, ref AA._init, ref AA._zero) != 100)
{
Console.WriteLine("test_1_0() failed.");
return 119;
}
AA.verify_all(); AA.reset();
if (test_1_1(100, ref AA._init, ref AA._zero) != 100)
{
Console.WriteLine("test_1_1() failed.");
return 120;
}
AA.verify_all(); AA.reset();
if (test_1_2(100, ref AA._init, ref AA._zero) != 100)
{
Console.WriteLine("test_1_2() failed.");
return 121;
}
AA.verify_all(); AA.reset();
if (test_1_3(100, ref AA._init, ref AA._zero) != 100)
{
Console.WriteLine("test_1_3() failed.");
return 122;
}
AA.verify_all(); AA.reset();
if (test_1_4(100, ref AA._init, ref AA._zero) != 100)
{
Console.WriteLine("test_1_4() failed.");
return 123;
}
AA.verify_all(); AA.reset();
if (test_1_5(100, ref AA._init, ref AA._zero) != 100)
{
Console.WriteLine("test_1_5() failed.");
return 124;
}
AA.verify_all(); AA.reset();
if (test_1_6(100, ref AA._init, ref AA._zero) != 100)
{
Console.WriteLine("test_1_6() failed.");
return 125;
}
AA.verify_all(); AA.reset();
if (test_1_7(100, ref AA._init, ref AA._zero) != 100)
{
Console.WriteLine("test_1_7() failed.");
return 126;
}
AA.verify_all(); AA.reset();
if (test_1_8(100, ref AA._init, ref AA._zero) != 100)
{
Console.WriteLine("test_1_8() failed.");
return 127;
}
AA.verify_all(); AA.reset();
if (test_1_9(100, ref AA._init, ref AA._zero) != 100)
{
Console.WriteLine("test_1_9() failed.");
return 128;
}
AA.verify_all(); AA.reset();
if (test_1_10(100, ref AA._init, ref AA._zero) != 100)
{
Console.WriteLine("test_1_10() failed.");
return 129;
}
AA.verify_all(); AA.reset();
if (test_1_11(100, ref AA._init, ref AA._zero) != 100)
{
Console.WriteLine("test_1_11() failed.");
return 130;
}
AA.verify_all(); AA.reset();
if (test_1_12(100, ref AA._init, ref AA._zero) != 100)
{
Console.WriteLine("test_1_12() failed.");
return 131;
}
AA.verify_all(); AA.reset();
if (test_1_13(100, ref AA._init, ref AA._zero) != 100)
{
Console.WriteLine("test_1_13() failed.");
return 132;
}
AA.verify_all(); AA.reset();
if (test_1_14(100, ref AA._init, ref AA._zero) != 100)
{
Console.WriteLine("test_1_14() failed.");
return 133;
}
AA.verify_all(); AA.reset();
if (test_1_15(100, ref AA._init, ref AA._zero) != 100)
{
Console.WriteLine("test_1_15() failed.");
return 134;
}
AA.verify_all(); AA.reset();
if (test_1_16(100, ref AA._init, ref AA._zero) != 100)
{
Console.WriteLine("test_1_16() failed.");
return 135;
}
AA.verify_all(); AA.reset();
if (test_1_17(100, ref AA._init, ref AA._zero) != 100)
{
Console.WriteLine("test_1_17() failed.");
return 136;
}
AA.verify_all(); AA.reset();
if (test_2_0(100) != 100)
{
Console.WriteLine("test_2_0() failed.");
return 137;
}
AA.verify_all(); AA.reset();
if (test_2_1(100) != 100)
{
Console.WriteLine("test_2_1() failed.");
return 138;
}
AA.verify_all(); AA.reset();
if (test_2_2(100) != 100)
{
Console.WriteLine("test_2_2() failed.");
return 139;
}
AA.verify_all(); AA.reset();
if (test_2_3(100) != 100)
{
Console.WriteLine("test_2_3() failed.");
return 140;
}
AA.verify_all(); AA.reset();
if (test_2_4(100) != 100)
{
Console.WriteLine("test_2_4() failed.");
return 141;
}
AA.verify_all(); AA.reset();
if (test_2_5(100) != 100)
{
Console.WriteLine("test_2_5() failed.");
return 142;
}
AA.verify_all(); AA.reset();
if (test_2_6(100) != 100)
{
Console.WriteLine("test_2_6() failed.");
return 143;
}
AA.verify_all(); AA.reset();
if (test_2_7(100) != 100)
{
Console.WriteLine("test_2_7() failed.");
return 144;
}
AA.verify_all(); AA.reset();
if (test_2_8(100) != 100)
{
Console.WriteLine("test_2_8() failed.");
return 145;
}
AA.verify_all(); AA.reset();
if (test_2_9(100) != 100)
{
Console.WriteLine("test_2_9() failed.");
return 146;
}
AA.verify_all(); AA.reset();
if (test_2_10(100) != 100)
{
Console.WriteLine("test_2_10() failed.");
return 147;
}
AA.verify_all(); AA.reset();
if (test_2_11(100) != 100)
{
Console.WriteLine("test_2_11() failed.");
return 148;
}
AA.verify_all(); AA.reset();
if (test_2_12(100) != 100)
{
Console.WriteLine("test_2_12() failed.");
return 149;
}
AA.verify_all(); AA.reset();
if (test_2_13(100) != 100)
{
Console.WriteLine("test_2_13() failed.");
return 150;
}
AA.verify_all(); AA.reset();
if (test_2_14(100) != 100)
{
Console.WriteLine("test_2_14() failed.");
return 151;
}
AA.verify_all(); AA.reset();
if (test_2_15(100) != 100)
{
Console.WriteLine("test_2_15() failed.");
return 152;
}
AA.verify_all(); AA.reset();
if (test_2_16(100) != 100)
{
Console.WriteLine("test_2_16() failed.");
return 153;
}
AA.verify_all(); AA.reset();
if (test_2_17(100) != 100)
{
Console.WriteLine("test_2_17() failed.");
return 154;
}
AA.verify_all(); AA.reset();
if (test_3_0(100) != 100)
{
Console.WriteLine("test_3_0() failed.");
return 155;
}
AA.verify_all(); AA.reset();
if (test_3_1(100) != 100)
{
Console.WriteLine("test_3_1() failed.");
return 156;
}
AA.verify_all(); AA.reset();
if (test_3_2(100) != 100)
{
Console.WriteLine("test_3_2() failed.");
return 157;
}
AA.verify_all(); AA.reset();
if (test_3_3(100) != 100)
{
Console.WriteLine("test_3_3() failed.");
return 158;
}
AA.verify_all(); AA.reset();
if (test_3_4(100) != 100)
{
Console.WriteLine("test_3_4() failed.");
return 159;
}
AA.verify_all(); AA.reset();
if (test_3_5(100) != 100)
{
Console.WriteLine("test_3_5() failed.");
return 160;
}
AA.verify_all(); AA.reset();
if (test_3_6(100) != 100)
{
Console.WriteLine("test_3_6() failed.");
return 161;
}
AA.verify_all(); AA.reset();
if (test_3_7(100) != 100)
{
Console.WriteLine("test_3_7() failed.");
return 162;
}
AA.verify_all(); AA.reset();
if (test_3_8(100) != 100)
{
Console.WriteLine("test_3_8() failed.");
return 163;
}
AA.verify_all(); AA.reset();
if (test_3_9(100) != 100)
{
Console.WriteLine("test_3_9() failed.");
return 164;
}
AA.verify_all(); AA.reset();
if (test_3_10(100) != 100)
{
Console.WriteLine("test_3_10() failed.");
return 165;
}
AA.verify_all(); AA.reset();
if (test_3_11(100) != 100)
{
Console.WriteLine("test_3_11() failed.");
return 166;
}
AA.verify_all(); AA.reset();
if (test_3_12(100) != 100)
{
Console.WriteLine("test_3_12() failed.");
return 167;
}
AA.verify_all(); AA.reset();
if (test_3_13(100) != 100)
{
Console.WriteLine("test_3_13() failed.");
return 168;
}
AA.verify_all(); AA.reset();
if (test_3_14(100) != 100)
{
Console.WriteLine("test_3_14() failed.");
return 169;
}
AA.verify_all(); AA.reset();
if (test_3_15(100) != 100)
{
Console.WriteLine("test_3_15() failed.");
return 170;
}
AA.verify_all(); AA.reset();
if (test_3_16(100) != 100)
{
Console.WriteLine("test_3_16() failed.");
return 171;
}
AA.verify_all(); AA.reset();
if (test_3_17(100) != 100)
{
Console.WriteLine("test_3_17() failed.");
return 172;
}
AA.verify_all(); AA.reset();
if (test_4_0(100) != 100)
{
Console.WriteLine("test_4_0() failed.");
return 173;
}
AA.verify_all(); AA.reset();
if (test_4_1(100) != 100)
{
Console.WriteLine("test_4_1() failed.");
return 174;
}
AA.verify_all(); AA.reset();
if (test_4_2(100) != 100)
{
Console.WriteLine("test_4_2() failed.");
return 175;
}
AA.verify_all(); AA.reset();
if (test_4_3(100) != 100)
{
Console.WriteLine("test_4_3() failed.");
return 176;
}
AA.verify_all(); AA.reset();
if (test_4_4(100) != 100)
{
Console.WriteLine("test_4_4() failed.");
return 177;
}
AA.verify_all(); AA.reset();
if (test_4_5(100) != 100)
{
Console.WriteLine("test_4_5() failed.");
return 178;
}
AA.verify_all(); AA.reset();
if (test_4_6(100) != 100)
{
Console.WriteLine("test_4_6() failed.");
return 179;
}
AA.verify_all(); AA.reset();
if (test_4_7(100) != 100)
{
Console.WriteLine("test_4_7() failed.");
return 180;
}
AA.verify_all(); AA.reset();
if (test_4_8(100) != 100)
{
Console.WriteLine("test_4_8() failed.");
return 181;
}
AA.verify_all(); AA.reset();
if (test_4_9(100) != 100)
{
Console.WriteLine("test_4_9() failed.");
return 182;
}
AA.verify_all(); AA.reset();
if (test_4_10(100) != 100)
{
Console.WriteLine("test_4_10() failed.");
return 183;
}
AA.verify_all(); AA.reset();
if (test_4_11(100) != 100)
{
Console.WriteLine("test_4_11() failed.");
return 184;
}
AA.verify_all(); AA.reset();
if (test_4_12(100) != 100)
{
Console.WriteLine("test_4_12() failed.");
return 185;
}
AA.verify_all(); AA.reset();
if (test_4_13(100) != 100)
{
Console.WriteLine("test_4_13() failed.");
return 186;
}
AA.verify_all(); AA.reset();
if (test_4_14(100) != 100)
{
Console.WriteLine("test_4_14() failed.");
return 187;
}
AA.verify_all(); AA.reset();
if (test_4_15(100) != 100)
{
Console.WriteLine("test_4_15() failed.");
return 188;
}
AA.verify_all(); AA.reset();
if (test_4_16(100) != 100)
{
Console.WriteLine("test_4_16() failed.");
return 189;
}
AA.verify_all(); AA.reset();
if (test_4_17(100) != 100)
{
Console.WriteLine("test_4_17() failed.");
return 190;
}
AA.verify_all(); AA.reset();
if (test_5_0(100) != 100)
{
Console.WriteLine("test_5_0() failed.");
return 191;
}
AA.verify_all(); AA.reset();
if (test_6_0(100, __makeref(AA._init)) != 100)
{
Console.WriteLine("test_6_0() failed.");
return 192;
}
AA.verify_all(); Console.WriteLine("All tests passed.");
return 100;
}
}
| -1 |
dotnet/runtime
| 66,398 |
Reenable compiler warning 4244 under coreclr/
|
Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
AaronRobinsonMSFT
| 2022-03-09T15:46:00Z | 2022-03-10T01:12:51Z |
763936ed098deaa1588935f17d7cc0a07c27c3fa
|
b71eba8b3a74fa6282dc1526e68abbd26f3e385f
|
Reenable compiler warning 4244 under coreclr/. Contributes to https://github.com/dotnet/runtime/issues/66154
Reenable and fix MSVC compiler warnings under `coreclr/`.
/cc @GrabYourPitchforks @jkotas @janvorli
|
./src/tests/JIT/Regression/Dev11/External/dev11_145295/CSharpPart.csproj
|
<Project Sdk="Microsoft.NET.Sdk">
<PropertyGroup>
<OutputType>Exe</OutputType>
<CLRTestPriority>1</CLRTestPriority>
</PropertyGroup>
<PropertyGroup>
<!-- Set to 'Full' if the Debug? column is marked in the spreadsheet. Leave blank otherwise. -->
<DebugType>Full</DebugType>
<Optimize>True</Optimize>
<AllowUnsafeBlocks>True</AllowUnsafeBlocks>
<NoWarn>$(NoWarn),8002</NoWarn>
</PropertyGroup>
<ItemGroup>
<Compile Include="BadUnwind2.cs" />
<ProjectReference Include="ilpart.ilproj" />
</ItemGroup>
</Project>
|
<Project Sdk="Microsoft.NET.Sdk">
<PropertyGroup>
<OutputType>Exe</OutputType>
<CLRTestPriority>1</CLRTestPriority>
</PropertyGroup>
<PropertyGroup>
<!-- Set to 'Full' if the Debug? column is marked in the spreadsheet. Leave blank otherwise. -->
<DebugType>Full</DebugType>
<Optimize>True</Optimize>
<AllowUnsafeBlocks>True</AllowUnsafeBlocks>
<NoWarn>$(NoWarn),8002</NoWarn>
</PropertyGroup>
<ItemGroup>
<Compile Include="BadUnwind2.cs" />
<ProjectReference Include="ilpart.ilproj" />
</ItemGroup>
</Project>
| -1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/mono/mono/mini/llvm-intrinsics.h
|
/*
* List of LLVM intrinsics
*
* INTRINS(id, llvm_id, arch, llvm_argument_type)
* To define a simple intrinsic
* INTRINS_OVR(id, llvm_id, arch, llvm_argument_type)
* To define an overloaded intrinsic with a single argument
* INTRINS_OVR_2_ARG(id, llvm_id, arch, llvm_argument_type1, llvm_argument_type2)
* To define an overloaded intrinsic with two arguments
* INTRINS_OVR_3_ARG(id, llvm_id, arch, llvm_argument_type1, llvm_argument_type2, llvm_argument_type3)
* To define an overloaded intrinsic with three arguments
*/
#define Scalar INTRIN_scalar
#define V64 INTRIN_vector64
#define V128 INTRIN_vector128
#define I1 INTRIN_int8
#define I2 INTRIN_int16
#define I4 INTRIN_int32
#define I8 INTRIN_int64
#define R4 INTRIN_float32
#define R8 INTRIN_float64
#define Ftoi INTRIN_kind_ftoi
#define Widen INTRIN_kind_widen
#define WidenAcross INTRIN_kind_widen_across
#define Across INTRIN_kind_across
#define Arm64DotProd INTRIN_kind_arm64_dot_prod
#if !defined(Generic)
#define Generic
#endif
#if !defined(X86)
#define X86
#endif
#if !defined(Arm64)
#define Arm64
#endif
#if !defined(Wasm)
#define Wasm
#endif
INTRINS_OVR_2_ARG(MEMSET, memset, Generic, LLVMPointerType (LLVMInt8Type (), 0), LLVMInt32Type ())
INTRINS_OVR_3_ARG(MEMCPY, memcpy, Generic, LLVMPointerType (LLVMInt8Type (), 0), LLVMPointerType (LLVMInt8Type (), 0), LLVMInt32Type () )
INTRINS_OVR_3_ARG(MEMMOVE, memmove, Generic, LLVMPointerType (LLVMInt8Type (), 0), LLVMPointerType (LLVMInt8Type (), 0), LLVMInt64Type ())
INTRINS_OVR(SADD_OVF_I32, sadd_with_overflow, Generic, LLVMInt32Type ())
INTRINS_OVR(UADD_OVF_I32, uadd_with_overflow, Generic, LLVMInt32Type ())
INTRINS_OVR(SSUB_OVF_I32, ssub_with_overflow, Generic, LLVMInt32Type ())
INTRINS_OVR(USUB_OVF_I32, usub_with_overflow, Generic, LLVMInt32Type ())
INTRINS_OVR(SMUL_OVF_I32, smul_with_overflow, Generic, LLVMInt32Type ())
INTRINS_OVR(UMUL_OVF_I32, umul_with_overflow, Generic, LLVMInt32Type ())
INTRINS_OVR(SADD_OVF_I64, sadd_with_overflow, Generic, LLVMInt64Type ())
INTRINS_OVR(UADD_OVF_I64, uadd_with_overflow, Generic, LLVMInt64Type ())
INTRINS_OVR(SSUB_OVF_I64, ssub_with_overflow, Generic, LLVMInt64Type ())
INTRINS_OVR(USUB_OVF_I64, usub_with_overflow, Generic, LLVMInt64Type ())
INTRINS_OVR(SMUL_OVF_I64, smul_with_overflow, Generic, LLVMInt64Type ())
INTRINS_OVR(UMUL_OVF_I64, umul_with_overflow, Generic, LLVMInt64Type ())
INTRINS_OVR(SIN, sin, Generic, LLVMDoubleType ())
INTRINS_OVR(COS, cos, Generic, LLVMDoubleType ())
INTRINS_OVR(SQRT, sqrt, Generic, LLVMDoubleType ())
INTRINS_OVR(FLOOR, floor, Generic, LLVMDoubleType ())
INTRINS_OVR(FLOORF, floor, Generic, LLVMFloatType ())
INTRINS_OVR(CEIL, ceil, Generic, LLVMDoubleType ())
INTRINS_OVR(CEILF, ceil, Generic, LLVMFloatType ())
INTRINS_OVR(FMA, fma, Generic, LLVMDoubleType ())
INTRINS_OVR(FMAF, fma, Generic, LLVMFloatType ())
/* This isn't an intrinsic, instead llvm seems to special case it by name */
INTRINS_OVR(FABS, fabs, Generic, LLVMDoubleType ())
INTRINS_OVR(ABSF, fabs, Generic, LLVMFloatType ())
INTRINS_OVR(SINF, sin, Generic, LLVMFloatType ())
INTRINS_OVR(COSF, cos, Generic, LLVMFloatType ())
INTRINS_OVR(SQRTF, sqrt, Generic, LLVMFloatType ())
INTRINS_OVR(POWF, pow, Generic, LLVMFloatType ())
INTRINS_OVR(POW, pow, Generic, LLVMDoubleType ())
INTRINS_OVR(EXP, exp, Generic, LLVMDoubleType ())
INTRINS_OVR(EXPF, exp, Generic, LLVMFloatType ())
INTRINS_OVR(LOG, log, Generic, LLVMDoubleType ())
INTRINS_OVR(LOG2, log2, Generic, LLVMDoubleType ())
INTRINS_OVR(LOG2F, log2, Generic, LLVMFloatType ())
INTRINS_OVR(LOG10, log10, Generic, LLVMDoubleType ())
INTRINS_OVR(LOG10F, log10, Generic, LLVMFloatType ())
INTRINS_OVR(TRUNC, trunc, Generic, LLVMDoubleType ())
INTRINS_OVR(TRUNCF, trunc, Generic, LLVMFloatType ())
INTRINS_OVR(COPYSIGN, copysign, Generic, LLVMDoubleType ())
INTRINS_OVR(COPYSIGNF, copysign, Generic, LLVMFloatType ())
INTRINS_OVR(EXPECT_I8, expect, Generic, LLVMInt8Type ())
INTRINS_OVR(EXPECT_I1, expect, Generic, LLVMInt1Type ())
INTRINS_OVR(CTPOP_I32, ctpop, Generic, LLVMInt32Type ())
INTRINS_OVR(CTPOP_I64, ctpop, Generic, LLVMInt64Type ())
INTRINS_OVR(CTLZ_I32, ctlz, Generic, LLVMInt32Type ())
INTRINS_OVR(CTLZ_I64, ctlz, Generic, LLVMInt64Type ())
INTRINS_OVR(CTTZ_I32, cttz, Generic, LLVMInt32Type ())
INTRINS_OVR(CTTZ_I64, cttz, Generic, LLVMInt64Type ())
#if LLVM_API_VERSION >= 1000
INTRINS_OVR(PREFETCH, prefetch, Generic, LLVMPointerType (i1_t, 0))
#else
INTRINS(PREFETCH, prefetch, Generic)
#endif
INTRINS(BZHI_I32, x86_bmi_bzhi_32, X86)
INTRINS(BZHI_I64, x86_bmi_bzhi_64, X86)
INTRINS(BEXTR_I32, x86_bmi_bextr_32, X86)
INTRINS(BEXTR_I64, x86_bmi_bextr_64, X86)
INTRINS(PEXT_I32, x86_bmi_pext_32, X86)
INTRINS(PEXT_I64, x86_bmi_pext_64, X86)
INTRINS(PDEP_I32, x86_bmi_pdep_32, X86)
INTRINS(PDEP_I64, x86_bmi_pdep_64, X86)
#if defined(TARGET_AMD64) || defined(TARGET_X86)
INTRINS(SSE_PMOVMSKB, x86_sse2_pmovmskb_128, X86)
INTRINS(SSE_MOVMSK_PS, x86_sse_movmsk_ps, X86)
INTRINS(SSE_MOVMSK_PD, x86_sse2_movmsk_pd, X86)
INTRINS(SSE_PSRLI_W, x86_sse2_psrli_w, X86)
INTRINS(SSE_PSRAI_W, x86_sse2_psrai_w, X86)
INTRINS(SSE_PSLLI_W, x86_sse2_pslli_w, X86)
INTRINS(SSE_PSRLI_D, x86_sse2_psrli_d, X86)
INTRINS(SSE_PSRAI_D, x86_sse2_psrai_d, X86)
INTRINS(SSE_PSLLI_D, x86_sse2_pslli_d, X86)
INTRINS(SSE_PSRLI_Q, x86_sse2_psrli_q, X86)
INTRINS(SSE_PSLLI_Q, x86_sse2_pslli_q, X86)
INTRINS(SSE_PSRL_W, x86_sse2_psrl_w, X86)
INTRINS(SSE_PSRA_W, x86_sse2_psra_w, X86)
INTRINS(SSE_PSRL_D, x86_sse2_psrl_d, X86)
INTRINS(SSE_PSRA_D, x86_sse2_psra_d, X86)
INTRINS(SSE_PSRL_Q, x86_sse2_psrl_q, X86)
INTRINS(SSE_PSLL_W, x86_sse2_psll_w, X86)
INTRINS(SSE_PSLL_D, x86_sse2_psll_d, X86)
INTRINS(SSE_PSLL_Q, x86_sse2_psll_q, X86)
INTRINS_OVR(SSE_SQRT_PD, sqrt, Generic, sse_r8_t)
INTRINS_OVR(SSE_SQRT_PS, sqrt, Generic, sse_r4_t)
INTRINS_OVR(SSE_SQRT_SD, sqrt, Generic, LLVMDoubleType ())
INTRINS_OVR(SSE_SQRT_SS, sqrt, Generic, LLVMFloatType ())
INTRINS(SSE_RCP_PS, x86_sse_rcp_ps, X86)
INTRINS(SSE_RSQRT_PS, x86_sse_rsqrt_ps, X86)
INTRINS(SSE_RCP_SS, x86_sse_rcp_ss, X86)
INTRINS(SSE_RSQRT_SS, x86_sse_rsqrt_ss, X86)
INTRINS(SSE_CVTTPD2DQ, x86_sse2_cvttpd2dq, X86)
INTRINS(SSE_CVTTPS2DQ, x86_sse2_cvttps2dq, X86)
INTRINS(SSE_CVTPD2DQ, x86_sse2_cvtpd2dq, X86)
INTRINS(SSE_CVTPS2DQ, x86_sse2_cvtps2dq, X86)
INTRINS(SSE_CVTPD2PS, x86_sse2_cvtpd2ps, X86)
INTRINS(SSE_CVTSS2SI, x86_sse_cvtss2si, X86)
INTRINS(SSE_CVTSS2SI64, x86_sse_cvtss2si64, X86)
INTRINS(SSE_CVTTSS2SI, x86_sse_cvttss2si, X86)
INTRINS(SSE_CVTTSS2SI64, x86_sse_cvttss2si64, X86)
INTRINS(SSE_CVTSD2SI, x86_sse2_cvtsd2si, X86)
INTRINS(SSE_CVTTSD2SI, x86_sse2_cvttsd2si, X86)
INTRINS(SSE_CVTSD2SI64, x86_sse2_cvtsd2si64, X86)
INTRINS(SSE_CVTTSD2SI64, x86_sse2_cvttsd2si64, X86)
INTRINS(SSE_CVTSD2SS, x86_sse2_cvtsd2ss, X86)
INTRINS(SSE_CMPPD, x86_sse2_cmp_pd, X86)
INTRINS(SSE_CMPPS, x86_sse_cmp_ps, X86)
INTRINS(SSE_CMPSS, x86_sse_cmp_ss, X86)
INTRINS(SSE_CMPSD, x86_sse2_cmp_sd, X86)
INTRINS(SSE_COMIEQ_SS, x86_sse_comieq_ss, X86)
INTRINS(SSE_COMIGT_SS, x86_sse_comigt_ss, X86)
INTRINS(SSE_COMIGE_SS, x86_sse_comige_ss, X86)
INTRINS(SSE_COMILT_SS, x86_sse_comilt_ss, X86)
INTRINS(SSE_COMILE_SS, x86_sse_comile_ss, X86)
INTRINS(SSE_COMINEQ_SS, x86_sse_comineq_ss, X86)
INTRINS(SSE_UCOMIEQ_SS, x86_sse_ucomieq_ss, X86)
INTRINS(SSE_UCOMIGT_SS, x86_sse_ucomigt_ss, X86)
INTRINS(SSE_UCOMIGE_SS, x86_sse_ucomige_ss, X86)
INTRINS(SSE_UCOMILT_SS, x86_sse_ucomilt_ss, X86)
INTRINS(SSE_UCOMILE_SS, x86_sse_ucomile_ss, X86)
INTRINS(SSE_UCOMINEQ_SS, x86_sse_ucomineq_ss, X86)
INTRINS(SSE_COMIEQ_SD, x86_sse2_comieq_sd, X86)
INTRINS(SSE_COMIGT_SD, x86_sse2_comigt_sd, X86)
INTRINS(SSE_COMIGE_SD, x86_sse2_comige_sd, X86)
INTRINS(SSE_COMILT_SD, x86_sse2_comilt_sd, X86)
INTRINS(SSE_COMILE_SD, x86_sse2_comile_sd, X86)
INTRINS(SSE_COMINEQ_SD, x86_sse2_comineq_sd, X86)
INTRINS(SSE_UCOMIEQ_SD, x86_sse2_ucomieq_sd, X86)
INTRINS(SSE_UCOMIGT_SD, x86_sse2_ucomigt_sd, X86)
INTRINS(SSE_UCOMIGE_SD, x86_sse2_ucomige_sd, X86)
INTRINS(SSE_UCOMILT_SD, x86_sse2_ucomilt_sd, X86)
INTRINS(SSE_UCOMILE_SD, x86_sse2_ucomile_sd, X86)
INTRINS(SSE_UCOMINEQ_SD, x86_sse2_ucomineq_sd, X86)
INTRINS(SSE_PACKSSWB, x86_sse2_packsswb_128, X86)
INTRINS(SSE_PACKUSWB, x86_sse2_packuswb_128, X86)
INTRINS(SSE_PACKSSDW, x86_sse2_packssdw_128, X86)
INTRINS(SSE_PACKUSDW, x86_sse41_packusdw, X86)
INTRINS(SSE_MINPS, x86_sse_min_ps, X86)
INTRINS(SSE_MAXPS, x86_sse_max_ps, X86)
INTRINS(SSE_MINSS, x86_sse_min_ss, X86)
INTRINS(SSE_MAXSS, x86_sse_max_ss, X86)
INTRINS(SSE_HADDPS, x86_sse3_hadd_ps, X86)
INTRINS(SSE_HSUBPS, x86_sse3_hsub_ps, X86)
INTRINS(SSE_ADDSUBPS, x86_sse3_addsub_ps, X86)
INTRINS(SSE_MINPD, x86_sse2_min_pd, X86)
INTRINS(SSE_MAXPD, x86_sse2_max_pd, X86)
INTRINS(SSE_MAXSD, x86_sse2_max_sd, X86)
INTRINS(SSE_MINSD, x86_sse2_min_sd, X86)
INTRINS(SSE_HADDPD, x86_sse3_hadd_pd, X86)
INTRINS(SSE_HSUBPD, x86_sse3_hsub_pd, X86)
INTRINS(SSE_ADDSUBPD, x86_sse3_addsub_pd, X86)
INTRINS(SSE_PMULHW, x86_sse2_pmulh_w, X86)
INTRINS(SSE_PMULHU, x86_sse2_pmulhu_w, X86)
INTRINS(SSE_PMULHUW, x86_sse2_pmulhu_w, X86)
INTRINS(SSE_PMADDWD, x86_sse2_pmadd_wd, X86)
INTRINS(SSE_PSADBW, x86_sse2_psad_bw, X86)
INTRINS(SSE_PAUSE, x86_sse2_pause, X86)
INTRINS(SSE_MASKMOVDQU, x86_sse2_maskmov_dqu, X86)
INTRINS(SSE_PSHUFB, x86_ssse3_pshuf_b_128, X86)
INTRINS(SSE_DPPS, x86_sse41_dpps, X86)
INTRINS(SSE_DPPD, x86_sse41_dppd, X86)
INTRINS(SSE_ROUNDSS, x86_sse41_round_ss, X86)
INTRINS(SSE_ROUNDSD, x86_sse41_round_sd, X86)
INTRINS(SSE_ROUNDPS, x86_sse41_round_ps, X86)
INTRINS(SSE_ROUNDPD, x86_sse41_round_pd, X86)
INTRINS(SSE_PTESTZ, x86_sse41_ptestz, X86)
INTRINS(SSE_INSERTPS, x86_sse41_insertps, X86)
INTRINS(SSE_SFENCE, x86_sse_sfence, X86)
INTRINS(SSE_MFENCE, x86_sse2_mfence, X86)
INTRINS(SSE_LFENCE, x86_sse2_lfence, X86)
INTRINS(SSE_LDU_DQ, x86_sse3_ldu_dq, X86)
INTRINS(SSE_PHADDW, x86_ssse3_phadd_w_128, X86)
INTRINS(SSE_PHADDD, x86_ssse3_phadd_d_128, X86)
INTRINS(SSE_PHADDSW, x86_ssse3_phadd_sw_128, X86)
INTRINS(SSE_PHSUBW, x86_ssse3_phsub_w_128, X86)
INTRINS(SSE_PHSUBD, x86_ssse3_phsub_d_128, X86)
INTRINS(SSE_PHSUBSW, x86_ssse3_phsub_sw_128, X86)
INTRINS(SSE_PMADDUBSW, x86_ssse3_pmadd_ub_sw_128, X86)
INTRINS(SSE_PMULHRSW, x86_ssse3_pmul_hr_sw_128, X86)
INTRINS(SSE_PSIGNB, x86_ssse3_psign_b_128, X86)
INTRINS(SSE_PSIGNW, x86_ssse3_psign_w_128, X86)
INTRINS(SSE_PSIGND, x86_ssse3_psign_d_128, X86)
INTRINS(SSE_CRC32_32_8, x86_sse42_crc32_32_8, X86)
INTRINS(SSE_CRC32_32_16, x86_sse42_crc32_32_16, X86)
INTRINS(SSE_CRC32_32_32, x86_sse42_crc32_32_32, X86)
INTRINS(SSE_CRC32_64_64, x86_sse42_crc32_64_64, X86)
INTRINS(SSE_TESTC, x86_sse41_ptestc, X86)
INTRINS(SSE_TESTNZ, x86_sse41_ptestnzc, X86)
INTRINS(SSE_TESTZ, x86_sse41_ptestz, X86)
INTRINS(SSE_PBLENDVB, x86_sse41_pblendvb, X86)
INTRINS(SSE_BLENDVPS, x86_sse41_blendvps, X86)
INTRINS(SSE_BLENDVPD, x86_sse41_blendvpd, X86)
INTRINS(SSE_PHMINPOSUW, x86_sse41_phminposuw, X86)
INTRINS(SSE_MPSADBW, x86_sse41_mpsadbw, X86)
INTRINS(PCLMULQDQ, x86_pclmulqdq, X86)
INTRINS(AESNI_AESKEYGENASSIST, x86_aesni_aeskeygenassist, X86)
INTRINS(AESNI_AESDEC, x86_aesni_aesdec, X86)
INTRINS(AESNI_AESDECLAST, x86_aesni_aesdeclast, X86)
INTRINS(AESNI_AESENC, x86_aesni_aesenc, X86)
INTRINS(AESNI_AESENCLAST, x86_aesni_aesenclast, X86)
INTRINS(AESNI_AESIMC, x86_aesni_aesimc, X86)
INTRINS_OVR(SSE_SADD_SATI8, sadd_sat, Generic, v128_i1_t)
INTRINS_OVR(SSE_UADD_SATI8, uadd_sat, Generic, v128_i1_t)
INTRINS_OVR(SSE_SADD_SATI16, sadd_sat, Generic, v128_i2_t)
INTRINS_OVR(SSE_UADD_SATI16, uadd_sat, Generic, v128_i2_t)
INTRINS_OVR(SSE_SSUB_SATI8, ssub_sat, Generic, v128_i1_t)
INTRINS_OVR(SSE_USUB_SATI8, usub_sat, Generic, v128_i1_t)
INTRINS_OVR(SSE_SSUB_SATI16, ssub_sat, Generic, v128_i2_t)
INTRINS_OVR(SSE_USUB_SATI16, usub_sat, Generic, v128_i2_t)
#endif
#if defined(TARGET_WASM)
INTRINS_OVR(WASM_ANYTRUE_V16, wasm_anytrue, Wasm, sse_i1_t)
INTRINS_OVR(WASM_ANYTRUE_V8, wasm_anytrue, Wasm, sse_i2_t)
INTRINS_OVR(WASM_ANYTRUE_V4, wasm_anytrue, Wasm, sse_i4_t)
INTRINS_OVR(WASM_ANYTRUE_V2, wasm_anytrue, Wasm, sse_i8_t)
#endif
#if defined(TARGET_ARM64)
INTRINS_OVR(BITREVERSE_I32, bitreverse, Generic, LLVMInt32Type ())
INTRINS_OVR(BITREVERSE_I64, bitreverse, Generic, LLVMInt64Type ())
INTRINS(AARCH64_CRC32B, aarch64_crc32b, Arm64)
INTRINS(AARCH64_CRC32H, aarch64_crc32h, Arm64)
INTRINS(AARCH64_CRC32W, aarch64_crc32w, Arm64)
INTRINS(AARCH64_CRC32X, aarch64_crc32x, Arm64)
INTRINS(AARCH64_CRC32CB, aarch64_crc32cb, Arm64)
INTRINS(AARCH64_CRC32CH, aarch64_crc32ch, Arm64)
INTRINS(AARCH64_CRC32CW, aarch64_crc32cw, Arm64)
INTRINS(AARCH64_CRC32CX, aarch64_crc32cx, Arm64)
INTRINS(AARCH64_AESD, aarch64_crypto_aesd, Arm64)
INTRINS(AARCH64_AESE, aarch64_crypto_aese, Arm64)
INTRINS(AARCH64_AESIMC, aarch64_crypto_aesimc, Arm64)
INTRINS(AARCH64_AESMC, aarch64_crypto_aesmc, Arm64)
INTRINS(AARCH64_SHA1C, aarch64_crypto_sha1c, Arm64)
INTRINS(AARCH64_SHA1H, aarch64_crypto_sha1h, Arm64)
INTRINS(AARCH64_SHA1M, aarch64_crypto_sha1m, Arm64)
INTRINS(AARCH64_SHA1P, aarch64_crypto_sha1p, Arm64)
INTRINS(AARCH64_SHA1SU0, aarch64_crypto_sha1su0, Arm64)
INTRINS(AARCH64_SHA1SU1, aarch64_crypto_sha1su1, Arm64)
INTRINS(AARCH64_SHA256SU0, aarch64_crypto_sha256su0, Arm64)
INTRINS(AARCH64_SHA256SU1, aarch64_crypto_sha256su1, Arm64)
INTRINS(AARCH64_SHA256H, aarch64_crypto_sha256h, Arm64)
INTRINS(AARCH64_SHA256H2, aarch64_crypto_sha256h2, Arm64)
INTRINS(AARCH64_PMULL64, aarch64_neon_pmull64, Arm64)
INTRINS_OVR_TAG_KIND(AARCH64_ADV_SIMD_FACGE, aarch64_neon_facge, Arm64, Ftoi, Scalar | V64 | V128 | I4 | I8)
INTRINS_OVR_TAG_KIND(AARCH64_ADV_SIMD_FACGT, aarch64_neon_facgt, Arm64, Ftoi, Scalar | V64 | V128 | I4 | I8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_FABD_SCALAR, aarch64_sisd_fabd, Arm64, Scalar | R4 | R8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_FABD, aarch64_neon_fabd, Arm64, V64 | V128 | R4 | R8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_UABD, aarch64_neon_uabd, Arm64, V64 | V128 | I1 | I2 | I4)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SABD, aarch64_neon_sabd, Arm64, V64 | V128 | I1 | I2 | I4)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SQABS, aarch64_neon_sqabs, Arm64, Scalar | V64 | V128 | I1 | I2 | I4 | I8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_FABS, fabs, Generic, Scalar | V64 | V128 | R4 | R8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_ABS, aarch64_neon_abs, Arm64, Scalar | V64 | V128 | I1 | I2 | I4 | I8)
INTRINS_OVR_TAG_KIND(AARCH64_ADV_SIMD_UADDLV, aarch64_neon_uaddlv, Arm64, WidenAcross, V64 | V128 | I1 | I2 | I4)
INTRINS_OVR_TAG_KIND(AARCH64_ADV_SIMD_SADDLV, aarch64_neon_saddlv, Arm64, WidenAcross, V64 | V128 | I1 | I2 | I4)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_ADDP, aarch64_neon_addp, Arm64, V64 | V128 | I1 | I2 | I4 | I8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_FADDP, aarch64_neon_faddp, Arm64, V64 | V128 | R4 | R8)
INTRINS_OVR_TAG_KIND(AARCH64_ADV_SIMD_FMAXNMV, aarch64_neon_fmaxnmv, Arm64, Across, V64 | V128 | R4 | R8)
INTRINS_OVR_TAG_KIND(AARCH64_ADV_SIMD_FMINNMV, aarch64_neon_fminnmv, Arm64, Across, V64 | V128 | R4 | R8)
INTRINS_OVR_TAG_KIND(AARCH64_ADV_SIMD_SADDV, aarch64_neon_saddv, Arm64, Across, V64 | V128 | I1 | I2 | I4)
INTRINS_OVR_TAG_KIND(AARCH64_ADV_SIMD_UADDV, aarch64_neon_uaddv, Arm64, Across, V64 | V128 | I1 | I2 | I4 | I8)
INTRINS_OVR_TAG_KIND(AARCH64_ADV_SIMD_SMAXV, aarch64_neon_smaxv, Arm64, Across, V64 | V128 | I1 | I2 | I4)
INTRINS_OVR_TAG_KIND(AARCH64_ADV_SIMD_UMAXV, aarch64_neon_umaxv, Arm64, Across, V64 | V128 | I1 | I2 | I4)
INTRINS_OVR_TAG_KIND(AARCH64_ADV_SIMD_SMINV, aarch64_neon_sminv, Arm64, Across, V64 | V128 | I1 | I2 | I4)
INTRINS_OVR_TAG_KIND(AARCH64_ADV_SIMD_UMINV, aarch64_neon_uminv, Arm64, Across, V64 | V128 | I1 | I2 | I4)
INTRINS_OVR_TAG_KIND(AARCH64_ADV_SIMD_FMAXV, aarch64_neon_fmaxv, Arm64, Across, V64 | V128 | R4 | R8)
INTRINS_OVR_TAG_KIND(AARCH64_ADV_SIMD_FMINV, aarch64_neon_fminv, Arm64, Across, V64 | V128 | R4 | R8)
INTRINS_OVR_TAG_KIND(AARCH64_ADV_SIMD_SADDLP, aarch64_neon_saddlp, Arm64, Widen, V64 | V128 | I1 | I2 | I4 | I8)
INTRINS_OVR_TAG_KIND(AARCH64_ADV_SIMD_UADDLP, aarch64_neon_uaddlp, Arm64, Widen, V64 | V128 | I1 | I2 | I4 | I8)
INTRINS_OVR_2_ARG(AARCH64_ADV_SIMD_FCVTXN, aarch64_neon_fcvtxn, Arm64, v64_r4_t, v128_r8_t)
INTRINS_OVR_TAG_KIND(AARCH64_ADV_SIMD_FCVTAS, aarch64_neon_fcvtas, Arm64, Ftoi, Scalar | V64 | V128 | I4 | I8)
INTRINS_OVR_TAG_KIND(AARCH64_ADV_SIMD_FCVTNS, aarch64_neon_fcvtns, Arm64, Ftoi, Scalar | V64 | V128 | I4 | I8)
INTRINS_OVR_TAG_KIND(AARCH64_ADV_SIMD_FCVTMS, aarch64_neon_fcvtms, Arm64, Ftoi, Scalar | V64 | V128 | I4 | I8)
INTRINS_OVR_TAG_KIND(AARCH64_ADV_SIMD_FCVTPS, aarch64_neon_fcvtps, Arm64, Ftoi, Scalar | V64 | V128 | I4 | I8)
INTRINS_OVR_TAG_KIND(AARCH64_ADV_SIMD_FCVTAU, aarch64_neon_fcvtau, Arm64, Ftoi, Scalar | V64 | V128 | I4 | I8)
INTRINS_OVR_TAG_KIND(AARCH64_ADV_SIMD_FCVTNU, aarch64_neon_fcvtnu, Arm64, Ftoi, Scalar | V64 | V128 | I4 | I8)
INTRINS_OVR_TAG_KIND(AARCH64_ADV_SIMD_FCVTMU, aarch64_neon_fcvtmu, Arm64, Ftoi, Scalar | V64 | V128 | I4 | I8)
INTRINS_OVR_TAG_KIND(AARCH64_ADV_SIMD_FCVTPU, aarch64_neon_fcvtpu, Arm64, Ftoi, Scalar | V64 | V128 | I4 | I8)
INTRINS_OVR_2_ARG(AARCH64_ADV_SIMD_SCALAR_SQXTUN, aarch64_neon_scalar_sqxtun, Arm64, i4_t, i8_t)
INTRINS_OVR_2_ARG(AARCH64_ADV_SIMD_SCALAR_SQXTN, aarch64_neon_scalar_sqxtn, Arm64, i4_t, i8_t)
INTRINS_OVR_2_ARG(AARCH64_ADV_SIMD_SCALAR_UQXTN, aarch64_neon_scalar_uqxtn, Arm64, i4_t, i8_t)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SQXTUN, aarch64_neon_sqxtun, Arm64, V64 | I1 | I2 | I4)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SQXTN, aarch64_neon_sqxtn, Arm64, V64 | I1 | I2 | I4)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_UQXTN, aarch64_neon_uqxtn, Arm64, V64 | I1 | I2 | I4)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SRHADD, aarch64_neon_srhadd, Arm64, V64 | V128 | I1 | I2 | I4)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_URHADD, aarch64_neon_urhadd, Arm64, V64 | V128 | I1 | I2 | I4)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_FMA, fma, Generic, Scalar | V64 | V128 | R4 | R8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SHADD, aarch64_neon_shadd, Arm64, V64 | V128 | I1 | I2 | I4)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_UHADD, aarch64_neon_uhadd, Arm64, V64 | V128 | I1 | I2 | I4)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SHSUB, aarch64_neon_shsub, Arm64, V64 | V128 | I1 | I2 | I4)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_UHSUB, aarch64_neon_uhsub, Arm64, V64 | V128 | I1 | I2 | I4)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_CLS, aarch64_neon_cls, Arm64, V64 | V128 | I1 | I2 | I4 | I8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_CLZ, ctlz, Generic, V64 | V128 | I1 | I2 | I4 | I8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SMAX, aarch64_neon_smax, Arm64, V64 | V128 | I1 | I2 | I4 | I8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_UMAX, aarch64_neon_umax, Arm64, V64 | V128 | I1 | I2 | I4 | I8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_FMAX, aarch64_neon_fmax, Arm64, Scalar | V64 | V128 | R4 | R8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SMIN, aarch64_neon_smin, Arm64, V64 | V128 | I1 | I2 | I4 | I8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_UMIN, aarch64_neon_umin, Arm64, V64 | V128 | I1 | I2 | I4 | I8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_FMIN, aarch64_neon_fmin, Arm64, Scalar | V64 | V128 | R4 | R8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_FMAXP, aarch64_neon_fmaxp, Arm64, V64 | V128 | R4 | R8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SMAXP, aarch64_neon_smaxp, Arm64, V64 | V128 | I1 | I2 | I4 | I8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_UMAXP, aarch64_neon_umaxp, Arm64, V64 | V128 | I1 | I2 | I4 | I8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_FMINP, aarch64_neon_fminp, Arm64, V64 | V128 | R4 | R8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SMINP, aarch64_neon_sminp, Arm64, V64 | V128 | I1 | I2 | I4 | I8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_UMINP, aarch64_neon_uminp, Arm64, V64 | V128 | I1 | I2 | I4 | I8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_FMAXNM, aarch64_neon_fmaxnm, Arm64, Scalar | V64 | V128 | R4 | R8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_FMINNM, aarch64_neon_fminnm, Arm64, Scalar | V64 | V128 | R4 | R8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_FMAXNMP, aarch64_neon_fmaxnmp, Arm64, V64 | V128 | R4 | R8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_FMINNMP, aarch64_neon_fminnmp, Arm64, V64 | V128 | R4 | R8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SQDMULH, aarch64_neon_sqdmulh, Arm64, Scalar | V64 | V128 | I2 | I4)
INTRINS(AARCH64_ADV_SIMD_SQDMULL_SCALAR, aarch64_neon_sqdmulls_scalar, Arm64)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SQDMULL, aarch64_neon_sqdmull, Arm64, V64 | V128 | I2 | I4 | I8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SQRDMULH, aarch64_neon_sqrdmulh, Arm64, Scalar | V64 | V128 | I2 | I4)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SMULL, aarch64_neon_smull, Arm64, V128 | I2 | I4 | I8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_UMULL, aarch64_neon_umull, Arm64, V128 | I2 | I4 | I8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SQNEG, aarch64_neon_sqneg, Arm64, Scalar | V64 | V128 | I1 | I2 | I4 | I8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_PMUL, aarch64_neon_pmul, Arm64, V64 | V128 | I1)
INTRINS_OVR(AARCH64_ADV_SIMD_PMULL, aarch64_neon_pmull, Arm64, v128_i2_t)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_FMULX, aarch64_neon_fmulx, Arm64, Scalar | V64 | V128 | R4 | R8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_CNT, ctpop, Generic, V64 | V128 | I1)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_URECPE, aarch64_neon_urecpe, Arm64, V64 | V128 | I4)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_FRECPE, aarch64_neon_frecpe, Arm64, Scalar | V64 | V128 | R4 | R8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_FRECPX, aarch64_neon_frecpx, Arm64, Scalar | R4 | R8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_URSQRTE, aarch64_neon_ursqrte, Arm64, V64 | V128 | I4)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_FRSQRTE, aarch64_neon_frsqrte, Arm64, Scalar | V64 | V128| R4 | R8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_FRSQRTS, aarch64_neon_frsqrts, Arm64, Scalar | V64 | V128 | R4 | R8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_FRECPS, aarch64_neon_frecps, Arm64, Scalar | V64 | V128 | R4 | R8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_RBIT, aarch64_neon_rbit, Arm64, V64 | V128 | I1)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_FRINTA, round, Generic, Scalar | V64 | V128 | R4 | R8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_FRINTN, aarch64_neon_frintn, Arm64, Scalar | V64 | V128 | R4 | R8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_FRINTM, floor, Generic, Scalar | V64 | V128 | R4 | R8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_FRINTP, ceil, Generic, Scalar | V64 | V128 | R4 | R8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_FRINTZ, trunc, Generic, Scalar | V64 | V128 | R4 | R8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SUQADD, aarch64_neon_suqadd, Arm64, Scalar | V64 | V128 | I1 | I2 | I4 | I8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_USQADD, aarch64_neon_usqadd, Arm64, Scalar | V64 | V128 | I1 | I2 | I4 | I8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_UQADD, aarch64_neon_uqadd, Arm64, Scalar | V64 | V128 | I1 | I2 | I4 | I8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SQADD, aarch64_neon_sqadd, Arm64, Scalar | V64 | V128 | I1 | I2 | I4 | I8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_UQSUB, aarch64_neon_uqsub, Arm64, Scalar | V64 | V128 | I1 | I2 | I4 | I8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SQSUB, aarch64_neon_sqsub, Arm64, Scalar | V64 | V128 | I1 | I2 | I4 | I8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_RADDHN, aarch64_neon_raddhn, Arm64, V64 | I1 | I2 | I4)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_RSUBHN, aarch64_neon_rsubhn, Arm64, V64 | I1 | I2 | I4)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_FSQRT, sqrt, Generic, Scalar | V64 | V128 | R4 | R8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_UQSHRN, aarch64_neon_uqshrn, Arm64, V64 | I1 | I2 | I4) // Constant shift
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_RSHRN, aarch64_neon_rshrn, Arm64, V64 | I1 | I2 | I4) // Constant shift
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SQRSHRN, aarch64_neon_sqrshrn, Arm64, V64 | I1 | I2 | I4) // Constant shift
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SQRSHRUN, aarch64_neon_sqrshrun, Arm64, V64 | I1 | I2 | I4) // Constant shift
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SQSHRN, aarch64_neon_sqshrn, Arm64, V64 | I1 | I2 | I4) // Constant shift
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SQSHRUN, aarch64_neon_sqshrun, Arm64, V64 | I1 | I2 | I4) // Constant shift
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_UQRSHRN, aarch64_neon_uqrshrn, Arm64, Scalar | V64 | I1 | I2 | I4) // Constant shift
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SQRSHL, aarch64_neon_sqrshl, Arm64, Scalar | V64 | V128 | I1 | I2 | I4 | I8) // Variable shift
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SQSHL, aarch64_neon_sqshl, Arm64, Scalar | V64 | V128 | I1 | I2 | I4 | I8) // Variable shift
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SRSHL, aarch64_neon_srshl, Arm64, V64 | V128 | I1 | I2 | I4 | I8) // Variable shift
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SSHL, aarch64_neon_sshl, Arm64, V64 | V128 | I1 | I2 | I4 | I8) // Variable shift
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_UQRSHL, aarch64_neon_uqrshl, Arm64, Scalar | V64 | V128 | I1 | I2 | I4 | I8) // Variable shift
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_UQSHL, aarch64_neon_uqshl, Arm64, Scalar | V64 | V128 | I1 | I2 | I4 | I8) // Variable shift
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_URSHL, aarch64_neon_urshl, Arm64, V64 | V128 | I1 | I2 | I4 | I8) // Variable shift
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_USHL, aarch64_neon_ushl, Arm64, V64 | V128 | I1 | I2 | I4 | I8) // Variable shift
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SQSHLU, aarch64_neon_sqshlu, Arm64, Scalar | V64 | V128 | I1 | I2 | I4 | I8) // Constant shift
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SLI, aarch64_neon_vsli, Arm64, V64 | V128 | I1 | I2 | I4 | I8) // Constant shift
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SRI, aarch64_neon_vsri, Arm64, V64 | V128 | I1 | I2 | I4 | I8) // Constant shift
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_TBX1, aarch64_neon_tbx1, Arm64, V64 | V128 | I1)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_TBL1, aarch64_neon_tbl1, Arm64, V64 | V128 | I1)
INTRINS_OVR_TAG_KIND(AARCH64_ADV_SIMD_SDOT, aarch64_neon_sdot, Arm64, Arm64DotProd, V64 | V128 | I4)
INTRINS_OVR_TAG_KIND(AARCH64_ADV_SIMD_UDOT, aarch64_neon_udot, Arm64, Arm64DotProd, V64 | V128 | I4)
#endif
#undef INTRINS
#undef INTRINS_OVR
#undef INTRINS_OVR_2_ARG
#undef INTRINS_OVR_3_ARG
#undef INTRINS_OVR_TAG
#undef INTRINS_OVR_TAG_KIND
#undef Scalar
#undef V64
#undef V128
#undef I1
#undef I2
#undef I4
#undef I8
#undef R4
#undef R8
#undef Ftoi
#undef WidenAcross
#undef Across
#undef Arm64DotProd
#undef Generic
#undef X86
#undef Arm64
#undef Wasm
|
/*
* List of LLVM intrinsics
*
* INTRINS(id, llvm_id, arch, llvm_argument_type)
* To define a simple intrinsic
* INTRINS_OVR(id, llvm_id, arch, llvm_argument_type)
* To define an overloaded intrinsic with a single argument
* INTRINS_OVR_2_ARG(id, llvm_id, arch, llvm_argument_type1, llvm_argument_type2)
* To define an overloaded intrinsic with two arguments
* INTRINS_OVR_3_ARG(id, llvm_id, arch, llvm_argument_type1, llvm_argument_type2, llvm_argument_type3)
* To define an overloaded intrinsic with three arguments
*/
#define Scalar INTRIN_scalar
#define V64 INTRIN_vector64
#define V128 INTRIN_vector128
#define I1 INTRIN_int8
#define I2 INTRIN_int16
#define I4 INTRIN_int32
#define I8 INTRIN_int64
#define R4 INTRIN_float32
#define R8 INTRIN_float64
#define Ftoi INTRIN_kind_ftoi
#define Widen INTRIN_kind_widen
#define WidenAcross INTRIN_kind_widen_across
#define Across INTRIN_kind_across
#define Arm64DotProd INTRIN_kind_arm64_dot_prod
#if !defined(Generic)
#define Generic
#endif
#if !defined(X86)
#define X86
#endif
#if !defined(Arm64)
#define Arm64
#endif
#if !defined(Wasm)
#define Wasm
#endif
INTRINS_OVR_2_ARG(MEMSET, memset, Generic, LLVMPointerType (LLVMInt8Type (), 0), LLVMInt32Type ())
INTRINS_OVR_3_ARG(MEMCPY, memcpy, Generic, LLVMPointerType (LLVMInt8Type (), 0), LLVMPointerType (LLVMInt8Type (), 0), LLVMInt32Type () )
INTRINS_OVR_3_ARG(MEMMOVE, memmove, Generic, LLVMPointerType (LLVMInt8Type (), 0), LLVMPointerType (LLVMInt8Type (), 0), LLVMInt64Type ())
INTRINS_OVR(SADD_OVF_I32, sadd_with_overflow, Generic, LLVMInt32Type ())
INTRINS_OVR(UADD_OVF_I32, uadd_with_overflow, Generic, LLVMInt32Type ())
INTRINS_OVR(SSUB_OVF_I32, ssub_with_overflow, Generic, LLVMInt32Type ())
INTRINS_OVR(USUB_OVF_I32, usub_with_overflow, Generic, LLVMInt32Type ())
INTRINS_OVR(SMUL_OVF_I32, smul_with_overflow, Generic, LLVMInt32Type ())
INTRINS_OVR(UMUL_OVF_I32, umul_with_overflow, Generic, LLVMInt32Type ())
INTRINS_OVR(SADD_OVF_I64, sadd_with_overflow, Generic, LLVMInt64Type ())
INTRINS_OVR(UADD_OVF_I64, uadd_with_overflow, Generic, LLVMInt64Type ())
INTRINS_OVR(SSUB_OVF_I64, ssub_with_overflow, Generic, LLVMInt64Type ())
INTRINS_OVR(USUB_OVF_I64, usub_with_overflow, Generic, LLVMInt64Type ())
INTRINS_OVR(SMUL_OVF_I64, smul_with_overflow, Generic, LLVMInt64Type ())
INTRINS_OVR(UMUL_OVF_I64, umul_with_overflow, Generic, LLVMInt64Type ())
INTRINS_OVR(SIN, sin, Generic, LLVMDoubleType ())
INTRINS_OVR(COS, cos, Generic, LLVMDoubleType ())
INTRINS_OVR(SQRT, sqrt, Generic, LLVMDoubleType ())
INTRINS_OVR(FLOOR, floor, Generic, LLVMDoubleType ())
INTRINS_OVR(FLOORF, floor, Generic, LLVMFloatType ())
INTRINS_OVR(CEIL, ceil, Generic, LLVMDoubleType ())
INTRINS_OVR(CEILF, ceil, Generic, LLVMFloatType ())
INTRINS_OVR(FMA, fma, Generic, LLVMDoubleType ())
INTRINS_OVR(FMAF, fma, Generic, LLVMFloatType ())
/* This isn't an intrinsic, instead llvm seems to special case it by name */
INTRINS_OVR(FABS, fabs, Generic, LLVMDoubleType ())
INTRINS_OVR(ABSF, fabs, Generic, LLVMFloatType ())
INTRINS_OVR(SINF, sin, Generic, LLVMFloatType ())
INTRINS_OVR(COSF, cos, Generic, LLVMFloatType ())
INTRINS_OVR(SQRTF, sqrt, Generic, LLVMFloatType ())
INTRINS_OVR(POWF, pow, Generic, LLVMFloatType ())
INTRINS_OVR(POW, pow, Generic, LLVMDoubleType ())
INTRINS_OVR(EXP, exp, Generic, LLVMDoubleType ())
INTRINS_OVR(EXPF, exp, Generic, LLVMFloatType ())
INTRINS_OVR(LOG, log, Generic, LLVMDoubleType ())
INTRINS_OVR(LOG2, log2, Generic, LLVMDoubleType ())
INTRINS_OVR(LOG2F, log2, Generic, LLVMFloatType ())
INTRINS_OVR(LOG10, log10, Generic, LLVMDoubleType ())
INTRINS_OVR(LOG10F, log10, Generic, LLVMFloatType ())
INTRINS_OVR(TRUNC, trunc, Generic, LLVMDoubleType ())
INTRINS_OVR(TRUNCF, trunc, Generic, LLVMFloatType ())
INTRINS_OVR(COPYSIGN, copysign, Generic, LLVMDoubleType ())
INTRINS_OVR(COPYSIGNF, copysign, Generic, LLVMFloatType ())
INTRINS_OVR(EXPECT_I8, expect, Generic, LLVMInt8Type ())
INTRINS_OVR(EXPECT_I1, expect, Generic, LLVMInt1Type ())
INTRINS_OVR(CTPOP_I32, ctpop, Generic, LLVMInt32Type ())
INTRINS_OVR(CTPOP_I64, ctpop, Generic, LLVMInt64Type ())
INTRINS_OVR(CTLZ_I32, ctlz, Generic, LLVMInt32Type ())
INTRINS_OVR(CTLZ_I64, ctlz, Generic, LLVMInt64Type ())
INTRINS_OVR(CTTZ_I32, cttz, Generic, LLVMInt32Type ())
INTRINS_OVR(CTTZ_I64, cttz, Generic, LLVMInt64Type ())
#if LLVM_API_VERSION >= 1000
INTRINS_OVR(PREFETCH, prefetch, Generic, LLVMPointerType (i1_t, 0))
#else
INTRINS(PREFETCH, prefetch, Generic)
#endif
INTRINS(BZHI_I32, x86_bmi_bzhi_32, X86)
INTRINS(BZHI_I64, x86_bmi_bzhi_64, X86)
INTRINS(BEXTR_I32, x86_bmi_bextr_32, X86)
INTRINS(BEXTR_I64, x86_bmi_bextr_64, X86)
INTRINS(PEXT_I32, x86_bmi_pext_32, X86)
INTRINS(PEXT_I64, x86_bmi_pext_64, X86)
INTRINS(PDEP_I32, x86_bmi_pdep_32, X86)
INTRINS(PDEP_I64, x86_bmi_pdep_64, X86)
#if defined(TARGET_AMD64) || defined(TARGET_X86)
INTRINS(SSE_PMOVMSKB, x86_sse2_pmovmskb_128, X86)
INTRINS(SSE_MOVMSK_PS, x86_sse_movmsk_ps, X86)
INTRINS(SSE_MOVMSK_PD, x86_sse2_movmsk_pd, X86)
INTRINS(SSE_PSRLI_W, x86_sse2_psrli_w, X86)
INTRINS(SSE_PSRAI_W, x86_sse2_psrai_w, X86)
INTRINS(SSE_PSLLI_W, x86_sse2_pslli_w, X86)
INTRINS(SSE_PSRLI_D, x86_sse2_psrli_d, X86)
INTRINS(SSE_PSRAI_D, x86_sse2_psrai_d, X86)
INTRINS(SSE_PSLLI_D, x86_sse2_pslli_d, X86)
INTRINS(SSE_PSRLI_Q, x86_sse2_psrli_q, X86)
INTRINS(SSE_PSLLI_Q, x86_sse2_pslli_q, X86)
INTRINS(SSE_PSRL_W, x86_sse2_psrl_w, X86)
INTRINS(SSE_PSRA_W, x86_sse2_psra_w, X86)
INTRINS(SSE_PSRL_D, x86_sse2_psrl_d, X86)
INTRINS(SSE_PSRA_D, x86_sse2_psra_d, X86)
INTRINS(SSE_PSRL_Q, x86_sse2_psrl_q, X86)
INTRINS(SSE_PSLL_W, x86_sse2_psll_w, X86)
INTRINS(SSE_PSLL_D, x86_sse2_psll_d, X86)
INTRINS(SSE_PSLL_Q, x86_sse2_psll_q, X86)
INTRINS_OVR(SSE_SQRT_PD, sqrt, Generic, sse_r8_t)
INTRINS_OVR(SSE_SQRT_PS, sqrt, Generic, sse_r4_t)
INTRINS_OVR(SSE_SQRT_SD, sqrt, Generic, LLVMDoubleType ())
INTRINS_OVR(SSE_SQRT_SS, sqrt, Generic, LLVMFloatType ())
INTRINS(SSE_RCP_PS, x86_sse_rcp_ps, X86)
INTRINS(SSE_RSQRT_PS, x86_sse_rsqrt_ps, X86)
INTRINS(SSE_RCP_SS, x86_sse_rcp_ss, X86)
INTRINS(SSE_RSQRT_SS, x86_sse_rsqrt_ss, X86)
INTRINS(SSE_CVTTPD2DQ, x86_sse2_cvttpd2dq, X86)
INTRINS(SSE_CVTTPS2DQ, x86_sse2_cvttps2dq, X86)
INTRINS(SSE_CVTPD2DQ, x86_sse2_cvtpd2dq, X86)
INTRINS(SSE_CVTPS2DQ, x86_sse2_cvtps2dq, X86)
INTRINS(SSE_CVTPD2PS, x86_sse2_cvtpd2ps, X86)
INTRINS(SSE_CVTSS2SI, x86_sse_cvtss2si, X86)
INTRINS(SSE_CVTSS2SI64, x86_sse_cvtss2si64, X86)
INTRINS(SSE_CVTTSS2SI, x86_sse_cvttss2si, X86)
INTRINS(SSE_CVTTSS2SI64, x86_sse_cvttss2si64, X86)
INTRINS(SSE_CVTSD2SI, x86_sse2_cvtsd2si, X86)
INTRINS(SSE_CVTTSD2SI, x86_sse2_cvttsd2si, X86)
INTRINS(SSE_CVTSD2SI64, x86_sse2_cvtsd2si64, X86)
INTRINS(SSE_CVTTSD2SI64, x86_sse2_cvttsd2si64, X86)
INTRINS(SSE_CVTSD2SS, x86_sse2_cvtsd2ss, X86)
INTRINS(SSE_CMPPD, x86_sse2_cmp_pd, X86)
INTRINS(SSE_CMPPS, x86_sse_cmp_ps, X86)
INTRINS(SSE_CMPSS, x86_sse_cmp_ss, X86)
INTRINS(SSE_CMPSD, x86_sse2_cmp_sd, X86)
INTRINS(SSE_COMIEQ_SS, x86_sse_comieq_ss, X86)
INTRINS(SSE_COMIGT_SS, x86_sse_comigt_ss, X86)
INTRINS(SSE_COMIGE_SS, x86_sse_comige_ss, X86)
INTRINS(SSE_COMILT_SS, x86_sse_comilt_ss, X86)
INTRINS(SSE_COMILE_SS, x86_sse_comile_ss, X86)
INTRINS(SSE_COMINEQ_SS, x86_sse_comineq_ss, X86)
INTRINS(SSE_UCOMIEQ_SS, x86_sse_ucomieq_ss, X86)
INTRINS(SSE_UCOMIGT_SS, x86_sse_ucomigt_ss, X86)
INTRINS(SSE_UCOMIGE_SS, x86_sse_ucomige_ss, X86)
INTRINS(SSE_UCOMILT_SS, x86_sse_ucomilt_ss, X86)
INTRINS(SSE_UCOMILE_SS, x86_sse_ucomile_ss, X86)
INTRINS(SSE_UCOMINEQ_SS, x86_sse_ucomineq_ss, X86)
INTRINS(SSE_COMIEQ_SD, x86_sse2_comieq_sd, X86)
INTRINS(SSE_COMIGT_SD, x86_sse2_comigt_sd, X86)
INTRINS(SSE_COMIGE_SD, x86_sse2_comige_sd, X86)
INTRINS(SSE_COMILT_SD, x86_sse2_comilt_sd, X86)
INTRINS(SSE_COMILE_SD, x86_sse2_comile_sd, X86)
INTRINS(SSE_COMINEQ_SD, x86_sse2_comineq_sd, X86)
INTRINS(SSE_UCOMIEQ_SD, x86_sse2_ucomieq_sd, X86)
INTRINS(SSE_UCOMIGT_SD, x86_sse2_ucomigt_sd, X86)
INTRINS(SSE_UCOMIGE_SD, x86_sse2_ucomige_sd, X86)
INTRINS(SSE_UCOMILT_SD, x86_sse2_ucomilt_sd, X86)
INTRINS(SSE_UCOMILE_SD, x86_sse2_ucomile_sd, X86)
INTRINS(SSE_UCOMINEQ_SD, x86_sse2_ucomineq_sd, X86)
INTRINS(SSE_PACKSSWB, x86_sse2_packsswb_128, X86)
INTRINS(SSE_PACKUSWB, x86_sse2_packuswb_128, X86)
INTRINS(SSE_PACKSSDW, x86_sse2_packssdw_128, X86)
INTRINS(SSE_PACKUSDW, x86_sse41_packusdw, X86)
INTRINS(SSE_MINPS, x86_sse_min_ps, X86)
INTRINS(SSE_MAXPS, x86_sse_max_ps, X86)
INTRINS(SSE_MINSS, x86_sse_min_ss, X86)
INTRINS(SSE_MAXSS, x86_sse_max_ss, X86)
INTRINS(SSE_HADDPS, x86_sse3_hadd_ps, X86)
INTRINS(SSE_HSUBPS, x86_sse3_hsub_ps, X86)
INTRINS(SSE_ADDSUBPS, x86_sse3_addsub_ps, X86)
INTRINS(SSE_MINPD, x86_sse2_min_pd, X86)
INTRINS(SSE_MAXPD, x86_sse2_max_pd, X86)
INTRINS(SSE_MAXSD, x86_sse2_max_sd, X86)
INTRINS(SSE_MINSD, x86_sse2_min_sd, X86)
INTRINS(SSE_HADDPD, x86_sse3_hadd_pd, X86)
INTRINS(SSE_HSUBPD, x86_sse3_hsub_pd, X86)
INTRINS(SSE_ADDSUBPD, x86_sse3_addsub_pd, X86)
INTRINS(SSE_PMULHW, x86_sse2_pmulh_w, X86)
INTRINS(SSE_PMULHU, x86_sse2_pmulhu_w, X86)
INTRINS(SSE_PMULHUW, x86_sse2_pmulhu_w, X86)
INTRINS(SSE_PMADDWD, x86_sse2_pmadd_wd, X86)
INTRINS(SSE_PSADBW, x86_sse2_psad_bw, X86)
INTRINS(SSE_PAUSE, x86_sse2_pause, X86)
INTRINS(SSE_MASKMOVDQU, x86_sse2_maskmov_dqu, X86)
INTRINS(SSE_PSHUFB, x86_ssse3_pshuf_b_128, X86)
INTRINS(SSE_DPPS, x86_sse41_dpps, X86)
INTRINS(SSE_DPPD, x86_sse41_dppd, X86)
INTRINS(SSE_ROUNDSS, x86_sse41_round_ss, X86)
INTRINS(SSE_ROUNDSD, x86_sse41_round_sd, X86)
INTRINS(SSE_ROUNDPS, x86_sse41_round_ps, X86)
INTRINS(SSE_ROUNDPD, x86_sse41_round_pd, X86)
INTRINS(SSE_PTESTZ, x86_sse41_ptestz, X86)
INTRINS(SSE_INSERTPS, x86_sse41_insertps, X86)
INTRINS(SSE_SFENCE, x86_sse_sfence, X86)
INTRINS(SSE_MFENCE, x86_sse2_mfence, X86)
INTRINS(SSE_LFENCE, x86_sse2_lfence, X86)
INTRINS(SSE_LDU_DQ, x86_sse3_ldu_dq, X86)
INTRINS(SSE_PHADDW, x86_ssse3_phadd_w_128, X86)
INTRINS(SSE_PHADDD, x86_ssse3_phadd_d_128, X86)
INTRINS(SSE_PHADDSW, x86_ssse3_phadd_sw_128, X86)
INTRINS(SSE_PHSUBW, x86_ssse3_phsub_w_128, X86)
INTRINS(SSE_PHSUBD, x86_ssse3_phsub_d_128, X86)
INTRINS(SSE_PHSUBSW, x86_ssse3_phsub_sw_128, X86)
INTRINS(SSE_PMADDUBSW, x86_ssse3_pmadd_ub_sw_128, X86)
INTRINS(SSE_PMULHRSW, x86_ssse3_pmul_hr_sw_128, X86)
INTRINS(SSE_PSIGNB, x86_ssse3_psign_b_128, X86)
INTRINS(SSE_PSIGNW, x86_ssse3_psign_w_128, X86)
INTRINS(SSE_PSIGND, x86_ssse3_psign_d_128, X86)
INTRINS(SSE_CRC32_32_8, x86_sse42_crc32_32_8, X86)
INTRINS(SSE_CRC32_32_16, x86_sse42_crc32_32_16, X86)
INTRINS(SSE_CRC32_32_32, x86_sse42_crc32_32_32, X86)
INTRINS(SSE_CRC32_64_64, x86_sse42_crc32_64_64, X86)
INTRINS(SSE_TESTC, x86_sse41_ptestc, X86)
INTRINS(SSE_TESTNZ, x86_sse41_ptestnzc, X86)
INTRINS(SSE_TESTZ, x86_sse41_ptestz, X86)
INTRINS(SSE_PBLENDVB, x86_sse41_pblendvb, X86)
INTRINS(SSE_BLENDVPS, x86_sse41_blendvps, X86)
INTRINS(SSE_BLENDVPD, x86_sse41_blendvpd, X86)
INTRINS(SSE_PHMINPOSUW, x86_sse41_phminposuw, X86)
INTRINS(SSE_MPSADBW, x86_sse41_mpsadbw, X86)
INTRINS(PCLMULQDQ, x86_pclmulqdq, X86)
INTRINS(AESNI_AESKEYGENASSIST, x86_aesni_aeskeygenassist, X86)
INTRINS(AESNI_AESDEC, x86_aesni_aesdec, X86)
INTRINS(AESNI_AESDECLAST, x86_aesni_aesdeclast, X86)
INTRINS(AESNI_AESENC, x86_aesni_aesenc, X86)
INTRINS(AESNI_AESENCLAST, x86_aesni_aesenclast, X86)
INTRINS(AESNI_AESIMC, x86_aesni_aesimc, X86)
INTRINS_OVR(SSE_SADD_SATI8, sadd_sat, Generic, v128_i1_t)
INTRINS_OVR(SSE_UADD_SATI8, uadd_sat, Generic, v128_i1_t)
INTRINS_OVR(SSE_SADD_SATI16, sadd_sat, Generic, v128_i2_t)
INTRINS_OVR(SSE_UADD_SATI16, uadd_sat, Generic, v128_i2_t)
INTRINS_OVR(SSE_SSUB_SATI8, ssub_sat, Generic, v128_i1_t)
INTRINS_OVR(SSE_USUB_SATI8, usub_sat, Generic, v128_i1_t)
INTRINS_OVR(SSE_SSUB_SATI16, ssub_sat, Generic, v128_i2_t)
INTRINS_OVR(SSE_USUB_SATI16, usub_sat, Generic, v128_i2_t)
#endif
#if defined(TARGET_WASM)
INTRINS_OVR(WASM_ANYTRUE_V16, wasm_anytrue, Wasm, sse_i1_t)
INTRINS_OVR(WASM_ANYTRUE_V8, wasm_anytrue, Wasm, sse_i2_t)
INTRINS_OVR(WASM_ANYTRUE_V4, wasm_anytrue, Wasm, sse_i4_t)
INTRINS_OVR(WASM_ANYTRUE_V2, wasm_anytrue, Wasm, sse_i8_t)
#endif
#if defined(TARGET_ARM64)
INTRINS_OVR(BITREVERSE_I32, bitreverse, Generic, LLVMInt32Type ())
INTRINS_OVR(BITREVERSE_I64, bitreverse, Generic, LLVMInt64Type ())
INTRINS(AARCH64_CRC32B, aarch64_crc32b, Arm64)
INTRINS(AARCH64_CRC32H, aarch64_crc32h, Arm64)
INTRINS(AARCH64_CRC32W, aarch64_crc32w, Arm64)
INTRINS(AARCH64_CRC32X, aarch64_crc32x, Arm64)
INTRINS(AARCH64_CRC32CB, aarch64_crc32cb, Arm64)
INTRINS(AARCH64_CRC32CH, aarch64_crc32ch, Arm64)
INTRINS(AARCH64_CRC32CW, aarch64_crc32cw, Arm64)
INTRINS(AARCH64_CRC32CX, aarch64_crc32cx, Arm64)
INTRINS(AARCH64_AESD, aarch64_crypto_aesd, Arm64)
INTRINS(AARCH64_AESE, aarch64_crypto_aese, Arm64)
INTRINS(AARCH64_AESIMC, aarch64_crypto_aesimc, Arm64)
INTRINS(AARCH64_AESMC, aarch64_crypto_aesmc, Arm64)
INTRINS(AARCH64_SHA1C, aarch64_crypto_sha1c, Arm64)
INTRINS(AARCH64_SHA1H, aarch64_crypto_sha1h, Arm64)
INTRINS(AARCH64_SHA1M, aarch64_crypto_sha1m, Arm64)
INTRINS(AARCH64_SHA1P, aarch64_crypto_sha1p, Arm64)
INTRINS(AARCH64_SHA1SU0, aarch64_crypto_sha1su0, Arm64)
INTRINS(AARCH64_SHA1SU1, aarch64_crypto_sha1su1, Arm64)
INTRINS(AARCH64_SHA256SU0, aarch64_crypto_sha256su0, Arm64)
INTRINS(AARCH64_SHA256SU1, aarch64_crypto_sha256su1, Arm64)
INTRINS(AARCH64_SHA256H, aarch64_crypto_sha256h, Arm64)
INTRINS(AARCH64_SHA256H2, aarch64_crypto_sha256h2, Arm64)
INTRINS(AARCH64_PMULL64, aarch64_neon_pmull64, Arm64)
INTRINS_OVR_TAG_KIND(AARCH64_ADV_SIMD_FACGE, aarch64_neon_facge, Arm64, Ftoi, Scalar | V64 | V128 | I4 | I8)
INTRINS_OVR_TAG_KIND(AARCH64_ADV_SIMD_FACGT, aarch64_neon_facgt, Arm64, Ftoi, Scalar | V64 | V128 | I4 | I8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_FABD_SCALAR, aarch64_sisd_fabd, Arm64, Scalar | R4 | R8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_FABD, aarch64_neon_fabd, Arm64, V64 | V128 | R4 | R8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_UABD, aarch64_neon_uabd, Arm64, V64 | V128 | I1 | I2 | I4)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SABD, aarch64_neon_sabd, Arm64, V64 | V128 | I1 | I2 | I4)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SQABS, aarch64_neon_sqabs, Arm64, Scalar | V64 | V128 | I1 | I2 | I4 | I8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_FABS, fabs, Generic, Scalar | V64 | V128 | R4 | R8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_ABS, aarch64_neon_abs, Arm64, Scalar | V64 | V128 | I1 | I2 | I4 | I8)
INTRINS_OVR_TAG_KIND(AARCH64_ADV_SIMD_UADDLV, aarch64_neon_uaddlv, Arm64, WidenAcross, V64 | V128 | I1 | I2 | I4)
INTRINS_OVR_TAG_KIND(AARCH64_ADV_SIMD_SADDLV, aarch64_neon_saddlv, Arm64, WidenAcross, V64 | V128 | I1 | I2 | I4)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_ADDP, aarch64_neon_addp, Arm64, V64 | V128 | I1 | I2 | I4 | I8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_FADDP, aarch64_neon_faddp, Arm64, V64 | V128 | R4 | R8)
INTRINS_OVR_TAG_KIND(AARCH64_ADV_SIMD_FMAXNMV, aarch64_neon_fmaxnmv, Arm64, Across, V64 | V128 | R4 | R8)
INTRINS_OVR_TAG_KIND(AARCH64_ADV_SIMD_FMINNMV, aarch64_neon_fminnmv, Arm64, Across, V64 | V128 | R4 | R8)
INTRINS_OVR_TAG_KIND(AARCH64_ADV_SIMD_SADDV, aarch64_neon_saddv, Arm64, Across, V64 | V128 | I1 | I2 | I4 | I8)
INTRINS_OVR_TAG_KIND(AARCH64_ADV_SIMD_UADDV, aarch64_neon_uaddv, Arm64, Across, V64 | V128 | I1 | I2 | I4 | I8)
INTRINS_OVR_TAG_KIND(AARCH64_ADV_SIMD_FADDV, aarch64_neon_faddv, Arm64, Across, V64 | V128 | R4 | R8)
INTRINS_OVR_TAG_KIND(AARCH64_ADV_SIMD_SMAXV, aarch64_neon_smaxv, Arm64, Across, V64 | V128 | I1 | I2 | I4)
INTRINS_OVR_TAG_KIND(AARCH64_ADV_SIMD_UMAXV, aarch64_neon_umaxv, Arm64, Across, V64 | V128 | I1 | I2 | I4)
INTRINS_OVR_TAG_KIND(AARCH64_ADV_SIMD_SMINV, aarch64_neon_sminv, Arm64, Across, V64 | V128 | I1 | I2 | I4)
INTRINS_OVR_TAG_KIND(AARCH64_ADV_SIMD_UMINV, aarch64_neon_uminv, Arm64, Across, V64 | V128 | I1 | I2 | I4)
INTRINS_OVR_TAG_KIND(AARCH64_ADV_SIMD_FMAXV, aarch64_neon_fmaxv, Arm64, Across, V64 | V128 | R4 | R8)
INTRINS_OVR_TAG_KIND(AARCH64_ADV_SIMD_FMINV, aarch64_neon_fminv, Arm64, Across, V64 | V128 | R4 | R8)
INTRINS_OVR_TAG_KIND(AARCH64_ADV_SIMD_SADDLP, aarch64_neon_saddlp, Arm64, Widen, V64 | V128 | I1 | I2 | I4 | I8)
INTRINS_OVR_TAG_KIND(AARCH64_ADV_SIMD_UADDLP, aarch64_neon_uaddlp, Arm64, Widen, V64 | V128 | I1 | I2 | I4 | I8)
INTRINS_OVR_2_ARG(AARCH64_ADV_SIMD_FCVTXN, aarch64_neon_fcvtxn, Arm64, v64_r4_t, v128_r8_t)
INTRINS_OVR_TAG_KIND(AARCH64_ADV_SIMD_FCVTAS, aarch64_neon_fcvtas, Arm64, Ftoi, Scalar | V64 | V128 | I4 | I8)
INTRINS_OVR_TAG_KIND(AARCH64_ADV_SIMD_FCVTNS, aarch64_neon_fcvtns, Arm64, Ftoi, Scalar | V64 | V128 | I4 | I8)
INTRINS_OVR_TAG_KIND(AARCH64_ADV_SIMD_FCVTMS, aarch64_neon_fcvtms, Arm64, Ftoi, Scalar | V64 | V128 | I4 | I8)
INTRINS_OVR_TAG_KIND(AARCH64_ADV_SIMD_FCVTPS, aarch64_neon_fcvtps, Arm64, Ftoi, Scalar | V64 | V128 | I4 | I8)
INTRINS_OVR_TAG_KIND(AARCH64_ADV_SIMD_FCVTAU, aarch64_neon_fcvtau, Arm64, Ftoi, Scalar | V64 | V128 | I4 | I8)
INTRINS_OVR_TAG_KIND(AARCH64_ADV_SIMD_FCVTNU, aarch64_neon_fcvtnu, Arm64, Ftoi, Scalar | V64 | V128 | I4 | I8)
INTRINS_OVR_TAG_KIND(AARCH64_ADV_SIMD_FCVTMU, aarch64_neon_fcvtmu, Arm64, Ftoi, Scalar | V64 | V128 | I4 | I8)
INTRINS_OVR_TAG_KIND(AARCH64_ADV_SIMD_FCVTPU, aarch64_neon_fcvtpu, Arm64, Ftoi, Scalar | V64 | V128 | I4 | I8)
INTRINS_OVR_2_ARG(AARCH64_ADV_SIMD_SCALAR_SQXTUN, aarch64_neon_scalar_sqxtun, Arm64, i4_t, i8_t)
INTRINS_OVR_2_ARG(AARCH64_ADV_SIMD_SCALAR_SQXTN, aarch64_neon_scalar_sqxtn, Arm64, i4_t, i8_t)
INTRINS_OVR_2_ARG(AARCH64_ADV_SIMD_SCALAR_UQXTN, aarch64_neon_scalar_uqxtn, Arm64, i4_t, i8_t)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SQXTUN, aarch64_neon_sqxtun, Arm64, V64 | I1 | I2 | I4)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SQXTN, aarch64_neon_sqxtn, Arm64, V64 | I1 | I2 | I4)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_UQXTN, aarch64_neon_uqxtn, Arm64, V64 | I1 | I2 | I4)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SRHADD, aarch64_neon_srhadd, Arm64, V64 | V128 | I1 | I2 | I4)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_URHADD, aarch64_neon_urhadd, Arm64, V64 | V128 | I1 | I2 | I4)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_FMA, fma, Generic, Scalar | V64 | V128 | R4 | R8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SHADD, aarch64_neon_shadd, Arm64, V64 | V128 | I1 | I2 | I4)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_UHADD, aarch64_neon_uhadd, Arm64, V64 | V128 | I1 | I2 | I4)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SHSUB, aarch64_neon_shsub, Arm64, V64 | V128 | I1 | I2 | I4)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_UHSUB, aarch64_neon_uhsub, Arm64, V64 | V128 | I1 | I2 | I4)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_CLS, aarch64_neon_cls, Arm64, V64 | V128 | I1 | I2 | I4 | I8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_CLZ, ctlz, Generic, V64 | V128 | I1 | I2 | I4 | I8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SMAX, aarch64_neon_smax, Arm64, V64 | V128 | I1 | I2 | I4 | I8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_UMAX, aarch64_neon_umax, Arm64, V64 | V128 | I1 | I2 | I4 | I8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_FMAX, aarch64_neon_fmax, Arm64, Scalar | V64 | V128 | R4 | R8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SMIN, aarch64_neon_smin, Arm64, V64 | V128 | I1 | I2 | I4 | I8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_UMIN, aarch64_neon_umin, Arm64, V64 | V128 | I1 | I2 | I4 | I8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_FMIN, aarch64_neon_fmin, Arm64, Scalar | V64 | V128 | R4 | R8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_FMAXP, aarch64_neon_fmaxp, Arm64, V64 | V128 | R4 | R8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SMAXP, aarch64_neon_smaxp, Arm64, V64 | V128 | I1 | I2 | I4 | I8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_UMAXP, aarch64_neon_umaxp, Arm64, V64 | V128 | I1 | I2 | I4 | I8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_FMINP, aarch64_neon_fminp, Arm64, V64 | V128 | R4 | R8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SMINP, aarch64_neon_sminp, Arm64, V64 | V128 | I1 | I2 | I4 | I8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_UMINP, aarch64_neon_uminp, Arm64, V64 | V128 | I1 | I2 | I4 | I8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_FMAXNM, aarch64_neon_fmaxnm, Arm64, Scalar | V64 | V128 | R4 | R8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_FMINNM, aarch64_neon_fminnm, Arm64, Scalar | V64 | V128 | R4 | R8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_FMAXNMP, aarch64_neon_fmaxnmp, Arm64, V64 | V128 | R4 | R8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_FMINNMP, aarch64_neon_fminnmp, Arm64, V64 | V128 | R4 | R8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SQDMULH, aarch64_neon_sqdmulh, Arm64, Scalar | V64 | V128 | I2 | I4)
INTRINS(AARCH64_ADV_SIMD_SQDMULL_SCALAR, aarch64_neon_sqdmulls_scalar, Arm64)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SQDMULL, aarch64_neon_sqdmull, Arm64, V64 | V128 | I2 | I4 | I8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SQRDMULH, aarch64_neon_sqrdmulh, Arm64, Scalar | V64 | V128 | I2 | I4)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SMULL, aarch64_neon_smull, Arm64, V128 | I2 | I4 | I8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_UMULL, aarch64_neon_umull, Arm64, V128 | I2 | I4 | I8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SQNEG, aarch64_neon_sqneg, Arm64, Scalar | V64 | V128 | I1 | I2 | I4 | I8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_PMUL, aarch64_neon_pmul, Arm64, V64 | V128 | I1)
INTRINS_OVR(AARCH64_ADV_SIMD_PMULL, aarch64_neon_pmull, Arm64, v128_i2_t)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_FMULX, aarch64_neon_fmulx, Arm64, Scalar | V64 | V128 | R4 | R8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_CNT, ctpop, Generic, V64 | V128 | I1)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_URECPE, aarch64_neon_urecpe, Arm64, V64 | V128 | I4)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_FRECPE, aarch64_neon_frecpe, Arm64, Scalar | V64 | V128 | R4 | R8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_FRECPX, aarch64_neon_frecpx, Arm64, Scalar | R4 | R8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_URSQRTE, aarch64_neon_ursqrte, Arm64, V64 | V128 | I4)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_FRSQRTE, aarch64_neon_frsqrte, Arm64, Scalar | V64 | V128| R4 | R8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_FRSQRTS, aarch64_neon_frsqrts, Arm64, Scalar | V64 | V128 | R4 | R8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_FRECPS, aarch64_neon_frecps, Arm64, Scalar | V64 | V128 | R4 | R8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_RBIT, aarch64_neon_rbit, Arm64, V64 | V128 | I1)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_FRINTA, round, Generic, Scalar | V64 | V128 | R4 | R8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_FRINTN, aarch64_neon_frintn, Arm64, Scalar | V64 | V128 | R4 | R8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_FRINTM, floor, Generic, Scalar | V64 | V128 | R4 | R8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_FRINTP, ceil, Generic, Scalar | V64 | V128 | R4 | R8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_FRINTZ, trunc, Generic, Scalar | V64 | V128 | R4 | R8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SUQADD, aarch64_neon_suqadd, Arm64, Scalar | V64 | V128 | I1 | I2 | I4 | I8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_USQADD, aarch64_neon_usqadd, Arm64, Scalar | V64 | V128 | I1 | I2 | I4 | I8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_UQADD, aarch64_neon_uqadd, Arm64, Scalar | V64 | V128 | I1 | I2 | I4 | I8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SQADD, aarch64_neon_sqadd, Arm64, Scalar | V64 | V128 | I1 | I2 | I4 | I8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_UQSUB, aarch64_neon_uqsub, Arm64, Scalar | V64 | V128 | I1 | I2 | I4 | I8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SQSUB, aarch64_neon_sqsub, Arm64, Scalar | V64 | V128 | I1 | I2 | I4 | I8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_RADDHN, aarch64_neon_raddhn, Arm64, V64 | I1 | I2 | I4)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_RSUBHN, aarch64_neon_rsubhn, Arm64, V64 | I1 | I2 | I4)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_FSQRT, sqrt, Generic, Scalar | V64 | V128 | R4 | R8)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_UQSHRN, aarch64_neon_uqshrn, Arm64, V64 | I1 | I2 | I4) // Constant shift
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_RSHRN, aarch64_neon_rshrn, Arm64, V64 | I1 | I2 | I4) // Constant shift
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SQRSHRN, aarch64_neon_sqrshrn, Arm64, V64 | I1 | I2 | I4) // Constant shift
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SQRSHRUN, aarch64_neon_sqrshrun, Arm64, V64 | I1 | I2 | I4) // Constant shift
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SQSHRN, aarch64_neon_sqshrn, Arm64, V64 | I1 | I2 | I4) // Constant shift
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SQSHRUN, aarch64_neon_sqshrun, Arm64, V64 | I1 | I2 | I4) // Constant shift
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_UQRSHRN, aarch64_neon_uqrshrn, Arm64, Scalar | V64 | I1 | I2 | I4) // Constant shift
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SQRSHL, aarch64_neon_sqrshl, Arm64, Scalar | V64 | V128 | I1 | I2 | I4 | I8) // Variable shift
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SQSHL, aarch64_neon_sqshl, Arm64, Scalar | V64 | V128 | I1 | I2 | I4 | I8) // Variable shift
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SRSHL, aarch64_neon_srshl, Arm64, V64 | V128 | I1 | I2 | I4 | I8) // Variable shift
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SSHL, aarch64_neon_sshl, Arm64, V64 | V128 | I1 | I2 | I4 | I8) // Variable shift
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_UQRSHL, aarch64_neon_uqrshl, Arm64, Scalar | V64 | V128 | I1 | I2 | I4 | I8) // Variable shift
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_UQSHL, aarch64_neon_uqshl, Arm64, Scalar | V64 | V128 | I1 | I2 | I4 | I8) // Variable shift
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_URSHL, aarch64_neon_urshl, Arm64, V64 | V128 | I1 | I2 | I4 | I8) // Variable shift
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_USHL, aarch64_neon_ushl, Arm64, V64 | V128 | I1 | I2 | I4 | I8) // Variable shift
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SQSHLU, aarch64_neon_sqshlu, Arm64, Scalar | V64 | V128 | I1 | I2 | I4 | I8) // Constant shift
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SLI, aarch64_neon_vsli, Arm64, V64 | V128 | I1 | I2 | I4 | I8) // Constant shift
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_SRI, aarch64_neon_vsri, Arm64, V64 | V128 | I1 | I2 | I4 | I8) // Constant shift
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_TBX1, aarch64_neon_tbx1, Arm64, V64 | V128 | I1)
INTRINS_OVR_TAG(AARCH64_ADV_SIMD_TBL1, aarch64_neon_tbl1, Arm64, V64 | V128 | I1)
INTRINS_OVR_TAG_KIND(AARCH64_ADV_SIMD_SDOT, aarch64_neon_sdot, Arm64, Arm64DotProd, V64 | V128 | I4)
INTRINS_OVR_TAG_KIND(AARCH64_ADV_SIMD_UDOT, aarch64_neon_udot, Arm64, Arm64DotProd, V64 | V128 | I4)
#endif
#undef INTRINS
#undef INTRINS_OVR
#undef INTRINS_OVR_2_ARG
#undef INTRINS_OVR_3_ARG
#undef INTRINS_OVR_TAG
#undef INTRINS_OVR_TAG_KIND
#undef Scalar
#undef V64
#undef V128
#undef I1
#undef I2
#undef I4
#undef I8
#undef R4
#undef R8
#undef Ftoi
#undef WidenAcross
#undef Across
#undef Arm64DotProd
#undef Generic
#undef X86
#undef Arm64
#undef Wasm
| 1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/mono/mono/mini/mini-llvm.c
|
/**
* \file
* llvm "Backend" for the mono JIT
*
* Copyright 2009-2011 Novell Inc (http://www.novell.com)
* Copyright 2011 Xamarin Inc (http://www.xamarin.com)
* Licensed under the MIT license. See LICENSE file in the project root for full license information.
*/
#include "config.h"
#include <mono/metadata/debug-helpers.h>
#include <mono/metadata/debug-internals.h>
#include <mono/metadata/mempool-internals.h>
#include <mono/metadata/environment.h>
#include <mono/metadata/object-internals.h>
#include <mono/metadata/abi-details.h>
#include <mono/metadata/tokentype.h>
#include <mono/utils/mono-tls.h>
#include <mono/utils/mono-dl.h>
#include <mono/utils/mono-time.h>
#include <mono/utils/freebsd-dwarf.h>
#include <mono/utils/options.h>
#ifndef __STDC_LIMIT_MACROS
#define __STDC_LIMIT_MACROS
#endif
#ifndef __STDC_CONSTANT_MACROS
#define __STDC_CONSTANT_MACROS
#endif
#include "llvm-c/BitWriter.h"
#include "llvm-c/Analysis.h"
#include "mini-llvm-cpp.h"
#include "llvm-jit.h"
#include "aot-compiler.h"
#include "mini-llvm.h"
#include "mini-runtime.h"
#include <mono/utils/mono-math.h>
#ifndef DISABLE_JIT
#if defined(TARGET_AMD64) && defined(TARGET_WIN32) && defined(HOST_WIN32) && defined(_MSC_VER)
#define TARGET_X86_64_WIN32_MSVC
#endif
#if defined(TARGET_X86_64_WIN32_MSVC)
#define TARGET_WIN32_MSVC
#endif
#if LLVM_API_VERSION < 900
#error "The version of the mono llvm repository is too old."
#endif
/*
* Information associated by mono with LLVM modules.
*/
typedef struct {
LLVMModuleRef lmodule;
LLVMValueRef throw_icall, rethrow, throw_corlib_exception;
GHashTable *llvm_types;
LLVMValueRef dummy_got_var;
const char *get_method_symbol;
const char *get_unbox_tramp_symbol;
const char *init_aotconst_symbol;
GHashTable *plt_entries;
GHashTable *plt_entries_ji;
GHashTable *method_to_lmethod;
GHashTable *method_to_call_info;
GHashTable *lvalue_to_lcalls;
GHashTable *direct_callables;
/* Maps got slot index -> LLVMValueRef */
GHashTable *aotconst_vars;
char **bb_names;
int bb_names_len;
GPtrArray *used;
LLVMTypeRef ptr_type;
GPtrArray *subprogram_mds;
MonoEERef *mono_ee;
LLVMExecutionEngineRef ee;
gboolean external_symbols;
gboolean emit_dwarf;
int max_got_offset;
LLVMValueRef personality;
gpointer gc_poll_cold_wrapper_compiled;
/* For AOT */
MonoAssembly *assembly;
char *global_prefix;
MonoAotFileInfo aot_info;
const char *eh_frame_symbol;
LLVMValueRef get_method, get_unbox_tramp, init_aotconst_func;
LLVMValueRef init_methods [AOT_INIT_METHOD_NUM];
LLVMValueRef code_start, code_end;
LLVMValueRef inited_var;
LLVMValueRef unbox_tramp_indexes;
LLVMValueRef unbox_trampolines;
LLVMValueRef gc_poll_cold_wrapper;
LLVMValueRef info_var;
LLVMTypeRef *info_var_eltypes;
int max_inited_idx, max_method_idx;
gboolean has_jitted_code;
gboolean static_link;
gboolean llvm_only;
gboolean interp;
GHashTable *idx_to_lmethod;
GHashTable *idx_to_unbox_tramp;
GPtrArray *callsite_list;
LLVMContextRef context;
LLVMValueRef sentinel_exception;
LLVMValueRef gc_safe_point_flag_var;
LLVMValueRef interrupt_flag_var;
void *di_builder, *cu;
GHashTable *objc_selector_to_var;
GPtrArray *cfgs;
int unbox_tramp_num, unbox_tramp_elemsize;
GHashTable *got_idx_to_type;
GHashTable *no_method_table_lmethods;
} MonoLLVMModule;
/*
* Information associated by the backend with mono basic blocks.
*/
typedef struct {
LLVMBasicBlockRef bblock, end_bblock;
LLVMValueRef finally_ind;
gboolean added, invoke_target;
/*
* If this bblock is the start of a finally clause, this is a list of bblocks it
* needs to branch to in ENDFINALLY.
*/
GSList *call_handler_return_bbs;
/*
* If this bblock is the start of a finally clause, this is the bblock that
* CALL_HANDLER needs to branch to.
*/
LLVMBasicBlockRef call_handler_target_bb;
/* The list of switch statements generated by ENDFINALLY instructions */
GSList *endfinally_switch_ins_list;
GSList *phi_nodes;
} BBInfo;
/*
* Structure containing emit state
*/
typedef struct {
MonoMemPool *mempool;
/* Maps method names to the corresponding LLVMValueRef */
GHashTable *emitted_method_decls;
MonoCompile *cfg;
LLVMValueRef lmethod;
MonoLLVMModule *module;
LLVMModuleRef lmodule;
BBInfo *bblocks;
int sindex, default_index, ex_index;
LLVMBuilderRef builder;
LLVMValueRef *values, *addresses;
MonoType **vreg_cli_types;
LLVMCallInfo *linfo;
MonoMethodSignature *sig;
GSList *builders;
GHashTable *region_to_handler;
GHashTable *clause_to_handler;
LLVMBuilderRef alloca_builder;
LLVMValueRef last_alloca;
LLVMValueRef rgctx_arg;
LLVMValueRef this_arg;
LLVMTypeRef *vreg_types;
gboolean *is_vphi;
LLVMTypeRef method_type;
LLVMBasicBlockRef init_bb, inited_bb;
gboolean *is_dead;
gboolean *unreachable;
gboolean llvm_only;
gboolean has_got_access;
gboolean is_linkonce;
gboolean emit_dummy_arg;
gboolean has_safepoints;
gboolean has_catch;
int this_arg_pindex, rgctx_arg_pindex;
LLVMValueRef imt_rgctx_loc;
GHashTable *llvm_types;
LLVMValueRef dbg_md;
MonoDebugMethodInfo *minfo;
/* For every clause, the clauses it is nested in */
GSList **nested_in;
LLVMValueRef ex_var;
GHashTable *exc_meta;
GPtrArray *callsite_list;
GPtrArray *phi_values;
GPtrArray *bblock_list;
char *method_name;
GHashTable *jit_callees;
LLVMValueRef long_bb_break_var;
int *gc_var_indexes;
LLVMValueRef gc_pin_area;
LLVMValueRef il_state;
LLVMValueRef il_state_ret;
} EmitContext;
typedef struct {
MonoBasicBlock *bb;
MonoInst *phi;
MonoBasicBlock *in_bb;
int sreg;
} PhiNode;
/*
* Instruction metadata
* This is the same as ins_info, but LREG != IREG.
*/
#ifdef MINI_OP
#undef MINI_OP
#endif
#ifdef MINI_OP3
#undef MINI_OP3
#endif
#define MINI_OP(a,b,dest,src1,src2) dest, src1, src2, ' ',
#define MINI_OP3(a,b,dest,src1,src2,src3) dest, src1, src2, src3,
#define NONE ' '
#define IREG 'i'
#define FREG 'f'
#define VREG 'v'
#define XREG 'x'
#define LREG 'l'
/* keep in sync with the enum in mini.h */
const char
mini_llvm_ins_info[] = {
#include "mini-ops.h"
};
#undef MINI_OP
#undef MINI_OP3
#if TARGET_SIZEOF_VOID_P == 4
#define GET_LONG_IMM(ins) ((ins)->inst_l)
#else
#define GET_LONG_IMM(ins) ((ins)->inst_imm)
#endif
#define LLVM_INS_INFO(opcode) (&mini_llvm_ins_info [((opcode) - OP_START - 1) * 4])
#if 0
#define TRACE_FAILURE(msg) do { printf ("%s\n", msg); } while (0)
#else
#define TRACE_FAILURE(msg)
#endif
#ifdef TARGET_X86
#define IS_TARGET_X86 1
#else
#define IS_TARGET_X86 0
#endif
#ifdef TARGET_AMD64
#define IS_TARGET_AMD64 1
#else
#define IS_TARGET_AMD64 0
#endif
#define ctx_ok(ctx) (!(ctx)->cfg->disable_llvm)
enum {
MAX_VECTOR_ELEMS = 32, // 2 vectors * 128 bits per vector / 8 bits per element
ARM64_MAX_VECTOR_ELEMS = 16,
};
const int mask_0_incr_1 [] = {
0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16,
17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31,
};
static LLVMIntPredicate cond_to_llvm_cond [] = {
LLVMIntEQ,
LLVMIntNE,
LLVMIntSLE,
LLVMIntSGE,
LLVMIntSLT,
LLVMIntSGT,
LLVMIntULE,
LLVMIntUGE,
LLVMIntULT,
LLVMIntUGT,
};
static LLVMRealPredicate fpcond_to_llvm_cond [] = {
LLVMRealOEQ,
LLVMRealUNE,
LLVMRealOLE,
LLVMRealOGE,
LLVMRealOLT,
LLVMRealOGT,
LLVMRealULE,
LLVMRealUGE,
LLVMRealULT,
LLVMRealUGT,
LLVMRealORD,
LLVMRealUNO
};
/* See Table 3-1 ("Comparison Predicate for CMPPD and CMPPS Instructions") in
* Vol. 2A of the Intel SDM.
*/
enum {
SSE_eq_ord_nosignal = 0,
SSE_lt_ord_signal = 1,
SSE_le_ord_signal = 2,
SSE_unord_nosignal = 3,
SSE_neq_unord_nosignal = 4,
SSE_nlt_unord_signal = 5,
SSE_nle_unord_signal = 6,
SSE_ord_nosignal = 7,
};
static MonoLLVMModule aot_module;
static GHashTable *intrins_id_to_intrins;
static LLVMTypeRef i1_t, i2_t, i4_t, i8_t, r4_t, r8_t;
static LLVMTypeRef sse_i1_t, sse_i2_t, sse_i4_t, sse_i8_t, sse_r4_t, sse_r8_t;
static LLVMTypeRef v64_i1_t, v64_i2_t, v64_i4_t, v64_i8_t, v64_r4_t, v64_r8_t;
static LLVMTypeRef v128_i1_t, v128_i2_t, v128_i4_t, v128_i8_t, v128_r4_t, v128_r8_t;
static LLVMTypeRef void_func_t;
static MonoLLVMModule *init_jit_module (void);
static void emit_dbg_loc (EmitContext *ctx, LLVMBuilderRef builder, const unsigned char *cil_code);
static void emit_default_dbg_loc (EmitContext *ctx, LLVMBuilderRef builder);
static LLVMValueRef emit_dbg_subprogram (EmitContext *ctx, MonoCompile *cfg, LLVMValueRef method, const char *name);
static void emit_dbg_info (MonoLLVMModule *module, const char *filename, const char *cu_name);
static void emit_cond_system_exception (EmitContext *ctx, MonoBasicBlock *bb, const char *exc_type, LLVMValueRef cmp, gboolean force_explicit);
static LLVMValueRef get_intrins (EmitContext *ctx, int id);
static LLVMValueRef get_intrins_from_module (LLVMModuleRef lmodule, int id);
static void llvm_jit_finalize_method (EmitContext *ctx);
static void mono_llvm_nonnull_state_update (EmitContext *ctx, LLVMValueRef lcall, MonoMethod *call_method, LLVMValueRef *args, int num_params);
static void mono_llvm_propagate_nonnull_final (GHashTable *all_specializable, MonoLLVMModule *module);
static void create_aot_info_var (MonoLLVMModule *module);
static void set_invariant_load_flag (LLVMValueRef v);
static void set_nonnull_load_flag (LLVMValueRef v);
enum {
INTRIN_scalar = 1 << 0,
INTRIN_vector64 = 1 << 1,
INTRIN_vector128 = 1 << 2,
INTRIN_vectorwidths = 3,
INTRIN_vectormask = 0x7,
INTRIN_int8 = 1 << 3,
INTRIN_int16 = 1 << 4,
INTRIN_int32 = 1 << 5,
INTRIN_int64 = 1 << 6,
INTRIN_float32 = 1 << 7,
INTRIN_float64 = 1 << 8,
INTRIN_elementwidths = 6,
};
typedef uint16_t llvm_ovr_tag_t;
static LLVMTypeRef intrin_types [INTRIN_vectorwidths][INTRIN_elementwidths];
static const llvm_ovr_tag_t intrin_arm64_ovr [] = {
#define INTRINS(sym, ...) 0,
#define INTRINS_OVR(sym, ...) 0,
#define INTRINS_OVR_2_ARG(sym, ...) 0,
#define INTRINS_OVR_3_ARG(sym, ...) 0,
#define INTRINS_OVR_TAG(sym, _, arch, spec) spec,
#define INTRINS_OVR_TAG_KIND(sym, _, kind, arch, spec) spec,
#include "llvm-intrinsics.h"
};
enum {
INTRIN_kind_ftoi = 1,
INTRIN_kind_widen,
INTRIN_kind_widen_across,
INTRIN_kind_across,
INTRIN_kind_arm64_dot_prod,
};
static const uint8_t intrin_kind [] = {
#define INTRINS(sym, ...) 0,
#define INTRINS_OVR(sym, ...) 0,
#define INTRINS_OVR_2_ARG(sym, ...) 0,
#define INTRINS_OVR_3_ARG(sym, ...) 0,
#define INTRINS_OVR_TAG(sym, _, arch, spec) 0,
#define INTRINS_OVR_TAG_KIND(sym, _, arch, kind, spec) kind,
#include "llvm-intrinsics.h"
};
static inline llvm_ovr_tag_t
ovr_tag_force_scalar (llvm_ovr_tag_t tag)
{
return (tag & ~INTRIN_vectormask) | INTRIN_scalar;
}
static inline llvm_ovr_tag_t
ovr_tag_smaller_vector (llvm_ovr_tag_t tag)
{
return (tag & ~INTRIN_vectormask) | ((tag & INTRIN_vectormask) >> 1);
}
static inline llvm_ovr_tag_t
ovr_tag_smaller_elements (llvm_ovr_tag_t tag)
{
return ((tag & ~INTRIN_vectormask) >> 1) | (tag & INTRIN_vectormask);
}
static inline llvm_ovr_tag_t
ovr_tag_corresponding_integer (llvm_ovr_tag_t tag)
{
return ((tag & ~INTRIN_vectormask) >> 2) | (tag & INTRIN_vectormask);
}
static LLVMTypeRef
ovr_tag_to_llvm_type (llvm_ovr_tag_t tag)
{
int vw = 0;
int ew = 0;
if (tag & INTRIN_vector64) vw = 1;
else if (tag & INTRIN_vector128) vw = 2;
if (tag & INTRIN_int16) ew = 1;
else if (tag & INTRIN_int32) ew = 2;
else if (tag & INTRIN_int64) ew = 3;
else if (tag & INTRIN_float32) ew = 4;
else if (tag & INTRIN_float64) ew = 5;
return intrin_types [vw][ew];
}
static int
key_from_id_and_tag (int id, llvm_ovr_tag_t ovr_tag)
{
return (((int) ovr_tag) << 23) | id;
}
static llvm_ovr_tag_t
ovr_tag_from_mono_vector_class (MonoClass *klass) {
int size = mono_class_value_size (klass, NULL);
llvm_ovr_tag_t ret = 0;
switch (size) {
case 8: ret |= INTRIN_vector64; break;
case 16: ret |= INTRIN_vector128; break;
}
MonoType *etype = mono_class_get_context (klass)->class_inst->type_argv [0];
switch (etype->type) {
case MONO_TYPE_I1: case MONO_TYPE_U1: ret |= INTRIN_int8; break;
case MONO_TYPE_I2: case MONO_TYPE_U2: ret |= INTRIN_int16; break;
case MONO_TYPE_I4: case MONO_TYPE_U4: ret |= INTRIN_int32; break;
case MONO_TYPE_I8: case MONO_TYPE_U8: ret |= INTRIN_int64; break;
case MONO_TYPE_R4: ret |= INTRIN_float32; break;
case MONO_TYPE_R8: ret |= INTRIN_float64; break;
}
return ret;
}
static llvm_ovr_tag_t
ovr_tag_from_llvm_type (LLVMTypeRef type)
{
llvm_ovr_tag_t ret = 0;
LLVMTypeKind kind = LLVMGetTypeKind (type);
LLVMTypeRef elem_t = NULL;
switch (kind) {
case LLVMVectorTypeKind: {
elem_t = LLVMGetElementType (type);
unsigned int bits = mono_llvm_get_prim_size_bits (type);
switch (bits) {
case 64: ret |= INTRIN_vector64; break;
case 128: ret |= INTRIN_vector128; break;
default: g_assert_not_reached ();
}
break;
}
default:
g_assert_not_reached ();
}
if (elem_t == i1_t) ret |= INTRIN_int8;
if (elem_t == i2_t) ret |= INTRIN_int16;
if (elem_t == i4_t) ret |= INTRIN_int32;
if (elem_t == i8_t) ret |= INTRIN_int64;
if (elem_t == r4_t) ret |= INTRIN_float32;
if (elem_t == r8_t) ret |= INTRIN_float64;
return ret;
}
static inline void
set_failure (EmitContext *ctx, const char *message)
{
TRACE_FAILURE (reason);
ctx->cfg->exception_message = g_strdup (message);
ctx->cfg->disable_llvm = TRUE;
}
static LLVMValueRef
const_int1 (int v)
{
return LLVMConstInt (LLVMInt1Type (), v ? 1 : 0, FALSE);
}
static LLVMValueRef
const_int8 (int v)
{
return LLVMConstInt (LLVMInt8Type (), v, FALSE);
}
static LLVMValueRef
const_int32 (int v)
{
return LLVMConstInt (LLVMInt32Type (), v, FALSE);
}
static LLVMValueRef
const_int64 (int64_t v)
{
return LLVMConstInt (LLVMInt64Type (), v, FALSE);
}
/*
* IntPtrType:
*
* The LLVM type with width == TARGET_SIZEOF_VOID_P
*/
static LLVMTypeRef
IntPtrType (void)
{
return TARGET_SIZEOF_VOID_P == 8 ? LLVMInt64Type () : LLVMInt32Type ();
}
static LLVMTypeRef
ObjRefType (void)
{
return TARGET_SIZEOF_VOID_P == 8 ? LLVMPointerType (LLVMInt64Type (), 0) : LLVMPointerType (LLVMInt32Type (), 0);
}
static LLVMTypeRef
ThisType (void)
{
return TARGET_SIZEOF_VOID_P == 8 ? LLVMPointerType (LLVMInt64Type (), 0) : LLVMPointerType (LLVMInt32Type (), 0);
}
typedef struct {
int32_t size;
uint32_t align;
} MonoSizeAlign;
/*
* get_vtype_size:
*
* Return the size of the LLVM representation of the vtype T.
*/
static MonoSizeAlign
get_vtype_size_align (MonoType *t)
{
uint32_t align = 0;
int32_t size = mono_class_value_size (mono_class_from_mono_type_internal (t), &align);
/* LLVMArgAsIArgs depends on this since it stores whole words */
while (size < 2 * TARGET_SIZEOF_VOID_P && mono_is_power_of_two (size) == -1)
size ++;
MonoSizeAlign ret = { size, align };
return ret;
}
/*
* simd_class_to_llvm_type:
*
* Return the LLVM type corresponding to the Mono.SIMD class KLASS
*/
static LLVMTypeRef
simd_class_to_llvm_type (EmitContext *ctx, MonoClass *klass)
{
const char *klass_name = m_class_get_name (klass);
if (!strcmp (klass_name, "Vector2d")) {
return LLVMVectorType (LLVMDoubleType (), 2);
} else if (!strcmp (klass_name, "Vector2l")) {
return LLVMVectorType (LLVMInt64Type (), 2);
} else if (!strcmp (klass_name, "Vector2ul")) {
return LLVMVectorType (LLVMInt64Type (), 2);
} else if (!strcmp (klass_name, "Vector4i")) {
return LLVMVectorType (LLVMInt32Type (), 4);
} else if (!strcmp (klass_name, "Vector4ui")) {
return LLVMVectorType (LLVMInt32Type (), 4);
} else if (!strcmp (klass_name, "Vector4f")) {
return LLVMVectorType (LLVMFloatType (), 4);
} else if (!strcmp (klass_name, "Vector8s")) {
return LLVMVectorType (LLVMInt16Type (), 8);
} else if (!strcmp (klass_name, "Vector8us")) {
return LLVMVectorType (LLVMInt16Type (), 8);
} else if (!strcmp (klass_name, "Vector16sb")) {
return LLVMVectorType (LLVMInt8Type (), 16);
} else if (!strcmp (klass_name, "Vector16b")) {
return LLVMVectorType (LLVMInt8Type (), 16);
} else if (!strcmp (klass_name, "Vector2")) {
/* System.Numerics */
return LLVMVectorType (LLVMFloatType (), 4);
} else if (!strcmp (klass_name, "Vector3")) {
return LLVMVectorType (LLVMFloatType (), 4);
} else if (!strcmp (klass_name, "Vector4")) {
return LLVMVectorType (LLVMFloatType (), 4);
} else if (!strcmp (klass_name, "Vector`1") || !strcmp (klass_name, "Vector64`1") || !strcmp (klass_name, "Vector128`1") || !strcmp (klass_name, "Vector256`1")) {
MonoType *etype = mono_class_get_generic_class (klass)->context.class_inst->type_argv [0];
int size = mono_class_value_size (klass, NULL);
switch (etype->type) {
case MONO_TYPE_I1:
case MONO_TYPE_U1:
return LLVMVectorType (LLVMInt8Type (), size);
case MONO_TYPE_I2:
case MONO_TYPE_U2:
return LLVMVectorType (LLVMInt16Type (), size / 2);
case MONO_TYPE_I4:
case MONO_TYPE_U4:
return LLVMVectorType (LLVMInt32Type (), size / 4);
case MONO_TYPE_I8:
case MONO_TYPE_U8:
return LLVMVectorType (LLVMInt64Type (), size / 8);
case MONO_TYPE_I:
case MONO_TYPE_U:
#if TARGET_SIZEOF_VOID_P == 8
return LLVMVectorType (LLVMInt64Type (), size / 8);
#else
return LLVMVectorType (LLVMInt32Type (), size / 4);
#endif
case MONO_TYPE_R4:
return LLVMVectorType (LLVMFloatType (), size / 4);
case MONO_TYPE_R8:
return LLVMVectorType (LLVMDoubleType (), size / 8);
default:
g_assert_not_reached ();
return NULL;
}
} else {
printf ("%s\n", klass_name);
NOT_IMPLEMENTED;
return NULL;
}
}
static LLVMTypeRef
simd_valuetuple_to_llvm_type (EmitContext *ctx, MonoClass *klass)
{
const char *klass_name = m_class_get_name (klass);
if (!strcmp (klass_name, "ValueTuple`2")) {
MonoType *etype = mono_class_get_generic_class (klass)->context.class_inst->type_argv [0];
if (etype->type != MONO_TYPE_GENERICINST)
g_assert_not_reached ();
MonoClass *eklass = etype->data.generic_class->cached_class;
LLVMTypeRef ltype = simd_class_to_llvm_type (ctx, eklass);
return LLVMArrayType (ltype, 2);
}
g_assert_not_reached ();
}
/* Return the 128 bit SIMD type corresponding to the mono type TYPE */
static inline G_GNUC_UNUSED LLVMTypeRef
type_to_sse_type (int type)
{
switch (type) {
case MONO_TYPE_I1:
case MONO_TYPE_U1:
return LLVMVectorType (LLVMInt8Type (), 16);
case MONO_TYPE_U2:
case MONO_TYPE_I2:
return LLVMVectorType (LLVMInt16Type (), 8);
case MONO_TYPE_U4:
case MONO_TYPE_I4:
return LLVMVectorType (LLVMInt32Type (), 4);
case MONO_TYPE_U8:
case MONO_TYPE_I8:
return LLVMVectorType (LLVMInt64Type (), 2);
case MONO_TYPE_I:
case MONO_TYPE_U:
#if TARGET_SIZEOF_VOID_P == 8
return LLVMVectorType (LLVMInt64Type (), 2);
#else
return LLVMVectorType (LLVMInt32Type (), 4);
#endif
case MONO_TYPE_R8:
return LLVMVectorType (LLVMDoubleType (), 2);
case MONO_TYPE_R4:
return LLVMVectorType (LLVMFloatType (), 4);
default:
g_assert_not_reached ();
return NULL;
}
}
static LLVMTypeRef
create_llvm_type_for_type (MonoLLVMModule *module, MonoClass *klass)
{
int i, size, nfields, esize;
LLVMTypeRef *eltypes;
char *name;
MonoType *t;
LLVMTypeRef ltype;
t = m_class_get_byval_arg (klass);
if (mini_type_is_hfa (t, &nfields, &esize)) {
/*
* This is needed on arm64 where HFAs are returned in
* registers.
*/
/* SIMD types have size 16 in mono_class_value_size () */
if (m_class_is_simd_type (klass))
nfields = 16/ esize;
size = nfields;
eltypes = g_new (LLVMTypeRef, size);
for (i = 0; i < size; ++i)
eltypes [i] = esize == 4 ? LLVMFloatType () : LLVMDoubleType ();
} else {
MonoSizeAlign size_align = get_vtype_size_align (t);
eltypes = g_new (LLVMTypeRef, size_align.size);
size = 0;
uint32_t bytes = 0;
uint32_t chunk = size_align.align < TARGET_SIZEOF_VOID_P ? size_align.align : TARGET_SIZEOF_VOID_P;
for (; chunk > 0; chunk = chunk >> 1) {
for (; (bytes + chunk) <= size_align.size; bytes += chunk) {
eltypes [size] = LLVMIntType (chunk * 8);
++size;
}
}
}
name = mono_type_full_name (m_class_get_byval_arg (klass));
ltype = LLVMStructCreateNamed (module->context, name);
LLVMStructSetBody (ltype, eltypes, size, FALSE);
g_free (eltypes);
g_free (name);
return ltype;
}
static LLVMTypeRef
primitive_type_to_llvm_type (MonoTypeEnum type)
{
switch (type) {
case MONO_TYPE_I1:
case MONO_TYPE_U1:
return LLVMInt8Type ();
case MONO_TYPE_I2:
case MONO_TYPE_U2:
return LLVMInt16Type ();
case MONO_TYPE_I4:
case MONO_TYPE_U4:
return LLVMInt32Type ();
case MONO_TYPE_I8:
case MONO_TYPE_U8:
return LLVMInt64Type ();
case MONO_TYPE_R4:
return LLVMFloatType ();
case MONO_TYPE_R8:
return LLVMDoubleType ();
case MONO_TYPE_I:
case MONO_TYPE_U:
return IntPtrType ();
default:
return NULL;
}
}
static MonoTypeEnum
inst_c1_type (const MonoInst *ins)
{
return (MonoTypeEnum)ins->inst_c1;
}
/*
* type_to_llvm_type:
*
* Return the LLVM type corresponding to T.
*/
static LLVMTypeRef
type_to_llvm_type (EmitContext *ctx, MonoType *t)
{
if (m_type_is_byref (t))
return ThisType ();
t = mini_get_underlying_type (t);
LLVMTypeRef prim_llvm_type = primitive_type_to_llvm_type (t->type);
if (prim_llvm_type != NULL)
return prim_llvm_type;
switch (t->type) {
case MONO_TYPE_VOID:
return LLVMVoidType ();
case MONO_TYPE_OBJECT:
return ObjRefType ();
case MONO_TYPE_PTR:
case MONO_TYPE_FNPTR: {
MonoClass *klass = mono_class_from_mono_type_internal (t);
MonoClass *ptr_klass = m_class_get_element_class (klass);
MonoType *ptr_type = m_class_get_byval_arg (ptr_klass);
/* Handle primitive pointers */
switch (ptr_type->type) {
case MONO_TYPE_I1:
case MONO_TYPE_I2:
case MONO_TYPE_I4:
case MONO_TYPE_U1:
case MONO_TYPE_U2:
case MONO_TYPE_U4:
return LLVMPointerType (type_to_llvm_type (ctx, ptr_type), 0);
}
return ObjRefType ();
}
case MONO_TYPE_VAR:
case MONO_TYPE_MVAR:
/* Because of generic sharing */
return ObjRefType ();
case MONO_TYPE_GENERICINST:
if (!mono_type_generic_inst_is_valuetype (t))
return ObjRefType ();
/* Fall through */
case MONO_TYPE_VALUETYPE:
case MONO_TYPE_TYPEDBYREF: {
MonoClass *klass;
LLVMTypeRef ltype;
klass = mono_class_from_mono_type_internal (t);
if (MONO_CLASS_IS_SIMD (ctx->cfg, klass))
return simd_class_to_llvm_type (ctx, klass);
if (m_class_is_enumtype (klass))
return type_to_llvm_type (ctx, mono_class_enum_basetype_internal (klass));
ltype = (LLVMTypeRef)g_hash_table_lookup (ctx->module->llvm_types, klass);
if (!ltype) {
ltype = create_llvm_type_for_type (ctx->module, klass);
g_hash_table_insert (ctx->module->llvm_types, klass, ltype);
}
return ltype;
}
default:
printf ("X: %d\n", t->type);
ctx->cfg->exception_message = g_strdup_printf ("type %s", mono_type_full_name (t));
ctx->cfg->disable_llvm = TRUE;
return NULL;
}
}
static gboolean
primitive_type_is_unsigned (MonoTypeEnum t)
{
switch (t) {
case MONO_TYPE_U1:
case MONO_TYPE_U2:
case MONO_TYPE_CHAR:
case MONO_TYPE_U4:
case MONO_TYPE_U8:
case MONO_TYPE_U:
return TRUE;
default:
return FALSE;
}
}
/*
* type_is_unsigned:
*
* Return whenever T is an unsigned int type.
*/
static gboolean
type_is_unsigned (EmitContext *ctx, MonoType *t)
{
t = mini_get_underlying_type (t);
if (m_type_is_byref (t))
return FALSE;
return primitive_type_is_unsigned (t->type);
}
/*
* type_to_llvm_arg_type:
*
* Same as type_to_llvm_type, but treat i8/i16 as i32.
*/
static LLVMTypeRef
type_to_llvm_arg_type (EmitContext *ctx, MonoType *t)
{
LLVMTypeRef ptype = type_to_llvm_type (ctx, t);
if (ctx->cfg->llvm_only)
return ptype;
/*
* This works on all abis except arm64/ios which passes multiple
* arguments in one stack slot.
*/
#ifndef TARGET_ARM64
if (ptype == LLVMInt8Type () || ptype == LLVMInt16Type ()) {
/*
* LLVM generates code which only sets the lower bits, while JITted
* code expects all the bits to be set.
*/
ptype = LLVMInt32Type ();
}
#endif
return ptype;
}
/*
* llvm_type_to_stack_type:
*
* Return the LLVM type which needs to be used when a value of type TYPE is pushed
* on the IL stack.
*/
static G_GNUC_UNUSED LLVMTypeRef
llvm_type_to_stack_type (MonoCompile *cfg, LLVMTypeRef type)
{
if (type == NULL)
return NULL;
if (type == LLVMInt8Type ())
return LLVMInt32Type ();
else if (type == LLVMInt16Type ())
return LLVMInt32Type ();
else if (!cfg->r4fp && type == LLVMFloatType ())
return LLVMDoubleType ();
else
return type;
}
/*
* regtype_to_llvm_type:
*
* Return the LLVM type corresponding to the regtype C used in instruction
* descriptions.
*/
static LLVMTypeRef
regtype_to_llvm_type (char c)
{
switch (c) {
case 'i':
return LLVMInt32Type ();
case 'l':
return LLVMInt64Type ();
case 'f':
return LLVMDoubleType ();
default:
return NULL;
}
}
/*
* op_to_llvm_type:
*
* Return the LLVM type corresponding to the unary/binary opcode OPCODE.
*/
static LLVMTypeRef
op_to_llvm_type (int opcode)
{
switch (opcode) {
case OP_ICONV_TO_I1:
case OP_LCONV_TO_I1:
return LLVMInt8Type ();
case OP_ICONV_TO_U1:
case OP_LCONV_TO_U1:
return LLVMInt8Type ();
case OP_ICONV_TO_I2:
case OP_LCONV_TO_I2:
return LLVMInt16Type ();
case OP_ICONV_TO_U2:
case OP_LCONV_TO_U2:
return LLVMInt16Type ();
case OP_ICONV_TO_I4:
case OP_LCONV_TO_I4:
return LLVMInt32Type ();
case OP_ICONV_TO_U4:
case OP_LCONV_TO_U4:
return LLVMInt32Type ();
case OP_ICONV_TO_I8:
return LLVMInt64Type ();
case OP_ICONV_TO_R4:
return LLVMFloatType ();
case OP_ICONV_TO_R8:
return LLVMDoubleType ();
case OP_ICONV_TO_U8:
return LLVMInt64Type ();
case OP_FCONV_TO_I4:
return LLVMInt32Type ();
case OP_FCONV_TO_I8:
return LLVMInt64Type ();
case OP_FCONV_TO_I1:
case OP_FCONV_TO_U1:
case OP_RCONV_TO_I1:
case OP_RCONV_TO_U1:
return LLVMInt8Type ();
case OP_FCONV_TO_I2:
case OP_FCONV_TO_U2:
case OP_RCONV_TO_I2:
case OP_RCONV_TO_U2:
return LLVMInt16Type ();
case OP_FCONV_TO_U4:
case OP_RCONV_TO_U4:
return LLVMInt32Type ();
case OP_FCONV_TO_U8:
case OP_RCONV_TO_U8:
return LLVMInt64Type ();
case OP_IADD_OVF:
case OP_IADD_OVF_UN:
case OP_ISUB_OVF:
case OP_ISUB_OVF_UN:
case OP_IMUL_OVF:
case OP_IMUL_OVF_UN:
return LLVMInt32Type ();
case OP_LADD_OVF:
case OP_LADD_OVF_UN:
case OP_LSUB_OVF:
case OP_LSUB_OVF_UN:
case OP_LMUL_OVF:
case OP_LMUL_OVF_UN:
return LLVMInt64Type ();
default:
printf ("%s\n", mono_inst_name (opcode));
g_assert_not_reached ();
return NULL;
}
}
#define CLAUSE_START(clause) ((clause)->try_offset)
#define CLAUSE_END(clause) (((clause))->try_offset + ((clause))->try_len)
/*
* load_store_to_llvm_type:
*
* Return the size/sign/zero extension corresponding to the load/store opcode
* OPCODE.
*/
static LLVMTypeRef
load_store_to_llvm_type (int opcode, int *size, gboolean *sext, gboolean *zext)
{
*sext = FALSE;
*zext = FALSE;
switch (opcode) {
case OP_LOADI1_MEMBASE:
case OP_STOREI1_MEMBASE_REG:
case OP_STOREI1_MEMBASE_IMM:
case OP_ATOMIC_LOAD_I1:
case OP_ATOMIC_STORE_I1:
*size = 1;
*sext = TRUE;
return LLVMInt8Type ();
case OP_LOADU1_MEMBASE:
case OP_LOADU1_MEM:
case OP_ATOMIC_LOAD_U1:
case OP_ATOMIC_STORE_U1:
*size = 1;
*zext = TRUE;
return LLVMInt8Type ();
case OP_LOADI2_MEMBASE:
case OP_STOREI2_MEMBASE_REG:
case OP_STOREI2_MEMBASE_IMM:
case OP_ATOMIC_LOAD_I2:
case OP_ATOMIC_STORE_I2:
*size = 2;
*sext = TRUE;
return LLVMInt16Type ();
case OP_LOADU2_MEMBASE:
case OP_LOADU2_MEM:
case OP_ATOMIC_LOAD_U2:
case OP_ATOMIC_STORE_U2:
*size = 2;
*zext = TRUE;
return LLVMInt16Type ();
case OP_LOADI4_MEMBASE:
case OP_LOADU4_MEMBASE:
case OP_LOADI4_MEM:
case OP_LOADU4_MEM:
case OP_STOREI4_MEMBASE_REG:
case OP_STOREI4_MEMBASE_IMM:
case OP_ATOMIC_LOAD_I4:
case OP_ATOMIC_STORE_I4:
case OP_ATOMIC_LOAD_U4:
case OP_ATOMIC_STORE_U4:
*size = 4;
return LLVMInt32Type ();
case OP_LOADI8_MEMBASE:
case OP_LOADI8_MEM:
case OP_STOREI8_MEMBASE_REG:
case OP_STOREI8_MEMBASE_IMM:
case OP_ATOMIC_LOAD_I8:
case OP_ATOMIC_STORE_I8:
case OP_ATOMIC_LOAD_U8:
case OP_ATOMIC_STORE_U8:
*size = 8;
return LLVMInt64Type ();
case OP_LOADR4_MEMBASE:
case OP_STORER4_MEMBASE_REG:
case OP_ATOMIC_LOAD_R4:
case OP_ATOMIC_STORE_R4:
*size = 4;
return LLVMFloatType ();
case OP_LOADR8_MEMBASE:
case OP_STORER8_MEMBASE_REG:
case OP_ATOMIC_LOAD_R8:
case OP_ATOMIC_STORE_R8:
*size = 8;
return LLVMDoubleType ();
case OP_LOAD_MEMBASE:
case OP_LOAD_MEM:
case OP_STORE_MEMBASE_REG:
case OP_STORE_MEMBASE_IMM:
*size = TARGET_SIZEOF_VOID_P;
return IntPtrType ();
default:
g_assert_not_reached ();
return NULL;
}
}
/*
* ovf_op_to_intrins:
*
* Return the LLVM intrinsics corresponding to the overflow opcode OPCODE.
*/
static IntrinsicId
ovf_op_to_intrins (int opcode)
{
switch (opcode) {
case OP_IADD_OVF:
return INTRINS_SADD_OVF_I32;
case OP_IADD_OVF_UN:
return INTRINS_UADD_OVF_I32;
case OP_ISUB_OVF:
return INTRINS_SSUB_OVF_I32;
case OP_ISUB_OVF_UN:
return INTRINS_USUB_OVF_I32;
case OP_IMUL_OVF:
return INTRINS_SMUL_OVF_I32;
case OP_IMUL_OVF_UN:
return INTRINS_UMUL_OVF_I32;
case OP_LADD_OVF:
return INTRINS_SADD_OVF_I64;
case OP_LADD_OVF_UN:
return INTRINS_UADD_OVF_I64;
case OP_LSUB_OVF:
return INTRINS_SSUB_OVF_I64;
case OP_LSUB_OVF_UN:
return INTRINS_USUB_OVF_I64;
case OP_LMUL_OVF:
return INTRINS_SMUL_OVF_I64;
case OP_LMUL_OVF_UN:
return INTRINS_UMUL_OVF_I64;
default:
g_assert_not_reached ();
return (IntrinsicId)0;
}
}
static IntrinsicId
simd_ins_to_intrins (int opcode)
{
switch (opcode) {
#if defined(TARGET_X86) || defined(TARGET_AMD64)
case OP_CVTPD2DQ:
return INTRINS_SSE_CVTPD2DQ;
case OP_CVTPS2DQ:
return INTRINS_SSE_CVTPS2DQ;
case OP_CVTPD2PS:
return INTRINS_SSE_CVTPD2PS;
case OP_CVTTPD2DQ:
return INTRINS_SSE_CVTTPD2DQ;
case OP_CVTTPS2DQ:
return INTRINS_SSE_CVTTPS2DQ;
case OP_SSE_SQRTSS:
return INTRINS_SSE_SQRT_SS;
case OP_SSE2_SQRTSD:
return INTRINS_SSE_SQRT_SD;
#endif
default:
g_assert_not_reached ();
return (IntrinsicId)0;
}
}
static LLVMTypeRef
simd_op_to_llvm_type (int opcode)
{
#if defined(TARGET_X86) || defined(TARGET_AMD64)
switch (opcode) {
case OP_EXTRACT_R8:
case OP_EXPAND_R8:
return sse_r8_t;
case OP_EXTRACT_I8:
case OP_EXPAND_I8:
return sse_i8_t;
case OP_EXTRACT_I4:
case OP_EXPAND_I4:
return sse_i4_t;
case OP_EXTRACT_I2:
case OP_EXTRACTX_U2:
case OP_EXPAND_I2:
return sse_i2_t;
case OP_EXTRACT_I1:
case OP_EXPAND_I1:
return sse_i1_t;
case OP_EXTRACT_R4:
case OP_EXPAND_R4:
return sse_r4_t;
case OP_CVTPD2DQ:
case OP_CVTPD2PS:
case OP_CVTTPD2DQ:
return sse_r8_t;
case OP_CVTPS2DQ:
case OP_CVTTPS2DQ:
return sse_r4_t;
case OP_SQRTPS:
case OP_RSQRTPS:
case OP_DUPPS_LOW:
case OP_DUPPS_HIGH:
return sse_r4_t;
case OP_SQRTPD:
case OP_DUPPD:
return sse_r8_t;
default:
g_assert_not_reached ();
return NULL;
}
#else
return NULL;
#endif
}
static void
set_cold_cconv (LLVMValueRef func)
{
/*
* xcode10 (watchOS) and ARM/ARM64 doesn't seem to support preserveall, it fails with:
* fatal error: error in backend: Unsupported calling convention
*/
#if !defined(TARGET_WATCHOS) && !defined(TARGET_ARM) && !defined(TARGET_ARM64)
LLVMSetFunctionCallConv (func, LLVMColdCallConv);
#endif
}
static void
set_call_cold_cconv (LLVMValueRef func)
{
#if !defined(TARGET_WATCHOS) && !defined(TARGET_ARM) && !defined(TARGET_ARM64)
LLVMSetInstructionCallConv (func, LLVMColdCallConv);
#endif
}
/*
* get_bb:
*
* Return the LLVM basic block corresponding to BB.
*/
static LLVMBasicBlockRef
get_bb (EmitContext *ctx, MonoBasicBlock *bb)
{
char bb_name_buf [128];
char *bb_name;
if (ctx->bblocks [bb->block_num].bblock == NULL) {
if (bb->flags & BB_EXCEPTION_HANDLER) {
int clause_index = (mono_get_block_region_notry (ctx->cfg, bb->region) >> 8) - 1;
sprintf (bb_name_buf, "EH_CLAUSE%d_BB%d", clause_index, bb->block_num);
bb_name = bb_name_buf;
} else if (bb->block_num < 256) {
if (!ctx->module->bb_names) {
ctx->module->bb_names_len = 256;
ctx->module->bb_names = g_new0 (char*, ctx->module->bb_names_len);
}
if (!ctx->module->bb_names [bb->block_num]) {
char *n;
n = g_strdup_printf ("BB%d", bb->block_num);
mono_memory_barrier ();
ctx->module->bb_names [bb->block_num] = n;
}
bb_name = ctx->module->bb_names [bb->block_num];
} else {
sprintf (bb_name_buf, "BB%d", bb->block_num);
bb_name = bb_name_buf;
}
ctx->bblocks [bb->block_num].bblock = LLVMAppendBasicBlock (ctx->lmethod, bb_name);
ctx->bblocks [bb->block_num].end_bblock = ctx->bblocks [bb->block_num].bblock;
}
return ctx->bblocks [bb->block_num].bblock;
}
/*
* get_end_bb:
*
* Return the last LLVM bblock corresponding to BB.
* This might not be equal to the bb returned by get_bb () since we need to generate
* multiple LLVM bblocks for a mono bblock to handle throwing exceptions.
*/
static LLVMBasicBlockRef
get_end_bb (EmitContext *ctx, MonoBasicBlock *bb)
{
get_bb (ctx, bb);
return ctx->bblocks [bb->block_num].end_bblock;
}
static LLVMBasicBlockRef
gen_bb (EmitContext *ctx, const char *prefix)
{
char bb_name [128];
sprintf (bb_name, "%s%d", prefix, ++ ctx->ex_index);
return LLVMAppendBasicBlock (ctx->lmethod, bb_name);
}
/*
* resolve_patch:
*
* Return the target of the patch identified by TYPE and TARGET.
*/
static gpointer
resolve_patch (MonoCompile *cfg, MonoJumpInfoType type, gconstpointer target)
{
MonoJumpInfo ji;
ERROR_DECL (error);
gpointer res;
memset (&ji, 0, sizeof (ji));
ji.type = type;
ji.data.target = target;
res = mono_resolve_patch_target (cfg->method, NULL, &ji, FALSE, error);
mono_error_assert_ok (error);
return res;
}
/*
* convert_full:
*
* Emit code to convert the LLVM value V to DTYPE.
*/
static LLVMValueRef
convert_full (EmitContext *ctx, LLVMValueRef v, LLVMTypeRef dtype, gboolean is_unsigned)
{
LLVMTypeRef stype = LLVMTypeOf (v);
if (stype != dtype) {
gboolean ext = FALSE;
/* Extend */
if (dtype == LLVMInt64Type () && (stype == LLVMInt32Type () || stype == LLVMInt16Type () || stype == LLVMInt8Type ()))
ext = TRUE;
else if (dtype == LLVMInt32Type () && (stype == LLVMInt16Type () || stype == LLVMInt8Type ()))
ext = TRUE;
else if (dtype == LLVMInt16Type () && (stype == LLVMInt8Type ()))
ext = TRUE;
if (ext)
return is_unsigned ? LLVMBuildZExt (ctx->builder, v, dtype, "") : LLVMBuildSExt (ctx->builder, v, dtype, "");
if (dtype == LLVMDoubleType () && stype == LLVMFloatType ())
return LLVMBuildFPExt (ctx->builder, v, dtype, "");
/* Trunc */
if (stype == LLVMInt64Type () && (dtype == LLVMInt32Type () || dtype == LLVMInt16Type () || dtype == LLVMInt8Type ()))
return LLVMBuildTrunc (ctx->builder, v, dtype, "");
if (stype == LLVMInt32Type () && (dtype == LLVMInt16Type () || dtype == LLVMInt8Type ()))
return LLVMBuildTrunc (ctx->builder, v, dtype, "");
if (stype == LLVMInt16Type () && dtype == LLVMInt8Type ())
return LLVMBuildTrunc (ctx->builder, v, dtype, "");
if (stype == LLVMDoubleType () && dtype == LLVMFloatType ())
return LLVMBuildFPTrunc (ctx->builder, v, dtype, "");
if (LLVMGetTypeKind (stype) == LLVMPointerTypeKind && LLVMGetTypeKind (dtype) == LLVMPointerTypeKind)
return LLVMBuildBitCast (ctx->builder, v, dtype, "");
if (LLVMGetTypeKind (dtype) == LLVMPointerTypeKind)
return LLVMBuildIntToPtr (ctx->builder, v, dtype, "");
if (LLVMGetTypeKind (stype) == LLVMPointerTypeKind)
return LLVMBuildPtrToInt (ctx->builder, v, dtype, "");
if (mono_arch_is_soft_float ()) {
if (stype == LLVMInt32Type () && dtype == LLVMFloatType ())
return LLVMBuildBitCast (ctx->builder, v, dtype, "");
if (stype == LLVMInt32Type () && dtype == LLVMDoubleType ())
return LLVMBuildBitCast (ctx->builder, LLVMBuildZExt (ctx->builder, v, LLVMInt64Type (), ""), dtype, "");
}
if (LLVMGetTypeKind (stype) == LLVMVectorTypeKind && LLVMGetTypeKind (dtype) == LLVMVectorTypeKind) {
if (mono_llvm_get_prim_size_bits (stype) == mono_llvm_get_prim_size_bits (dtype))
return LLVMBuildBitCast (ctx->builder, v, dtype, "");
}
mono_llvm_dump_value (v);
mono_llvm_dump_type (dtype);
printf ("\n");
g_assert_not_reached ();
return NULL;
} else {
return v;
}
}
static LLVMValueRef
convert (EmitContext *ctx, LLVMValueRef v, LLVMTypeRef dtype)
{
return convert_full (ctx, v, dtype, FALSE);
}
static void
emit_memset (EmitContext *ctx, LLVMBuilderRef builder, LLVMValueRef v, LLVMValueRef size, int alignment)
{
LLVMValueRef args [5];
int aindex = 0;
args [aindex ++] = v;
args [aindex ++] = LLVMConstInt (LLVMInt8Type (), 0, FALSE);
args [aindex ++] = size;
args [aindex ++] = LLVMConstInt (LLVMInt1Type (), 0, FALSE);
LLVMBuildCall (builder, get_intrins (ctx, INTRINS_MEMSET), args, aindex, "");
}
/*
* emit_volatile_load:
*
* If vreg is volatile, emit a load from its address.
*/
static LLVMValueRef
emit_volatile_load (EmitContext *ctx, int vreg)
{
MonoType *t;
LLVMValueRef v;
// On arm64, we pass the rgctx in a callee saved
// register on arm64 (x15), and llvm might keep the value in that register
// even through the register is marked as 'reserved' inside llvm.
v = mono_llvm_build_load (ctx->builder, ctx->addresses [vreg], "", TRUE);
t = ctx->vreg_cli_types [vreg];
if (t && !m_type_is_byref (t)) {
/*
* Might have to zero extend since llvm doesn't have
* unsigned types.
*/
if (t->type == MONO_TYPE_U1 || t->type == MONO_TYPE_U2 || t->type == MONO_TYPE_CHAR || t->type == MONO_TYPE_BOOLEAN)
v = LLVMBuildZExt (ctx->builder, v, LLVMInt32Type (), "");
else if (t->type == MONO_TYPE_I1 || t->type == MONO_TYPE_I2)
v = LLVMBuildSExt (ctx->builder, v, LLVMInt32Type (), "");
else if (t->type == MONO_TYPE_U8)
v = LLVMBuildZExt (ctx->builder, v, LLVMInt64Type (), "");
}
return v;
}
/*
* emit_volatile_store:
*
* If VREG is volatile, emit a store from its value to its address.
*/
static void
emit_volatile_store (EmitContext *ctx, int vreg)
{
MonoInst *var = get_vreg_to_inst (ctx->cfg, vreg);
if (var && var->flags & (MONO_INST_VOLATILE|MONO_INST_INDIRECT)) {
g_assert (ctx->addresses [vreg]);
#ifdef TARGET_WASM
/* Need volatile stores otherwise the compiler might move them */
mono_llvm_build_store (ctx->builder, convert (ctx, ctx->values [vreg], type_to_llvm_type (ctx, var->inst_vtype)), ctx->addresses [vreg], TRUE, LLVM_BARRIER_NONE);
#else
LLVMBuildStore (ctx->builder, convert (ctx, ctx->values [vreg], type_to_llvm_type (ctx, var->inst_vtype)), ctx->addresses [vreg]);
#endif
}
}
static LLVMTypeRef
sig_to_llvm_sig_no_cinfo (EmitContext *ctx, MonoMethodSignature *sig)
{
LLVMTypeRef ret_type;
LLVMTypeRef *param_types = NULL;
LLVMTypeRef res;
int i, pindex;
ret_type = type_to_llvm_type (ctx, sig->ret);
if (!ctx_ok (ctx))
return NULL;
param_types = g_new0 (LLVMTypeRef, (sig->param_count * 8) + 3);
pindex = 0;
if (sig->hasthis)
param_types [pindex ++] = ThisType ();
for (i = 0; i < sig->param_count; ++i)
param_types [pindex ++] = type_to_llvm_arg_type (ctx, sig->params [i]);
if (!ctx_ok (ctx)) {
g_free (param_types);
return NULL;
}
res = LLVMFunctionType (ret_type, param_types, pindex, FALSE);
g_free (param_types);
return res;
}
/*
* sig_to_llvm_sig_full:
*
* Return the LLVM signature corresponding to the mono signature SIG using the
* calling convention information in CINFO. Fill out the parameter mapping information in CINFO.
*/
static LLVMTypeRef
sig_to_llvm_sig_full (EmitContext *ctx, MonoMethodSignature *sig, LLVMCallInfo *cinfo)
{
LLVMTypeRef ret_type;
LLVMTypeRef *param_types = NULL;
LLVMTypeRef res;
int i, j, pindex, vret_arg_pindex = 0;
gboolean vretaddr = FALSE;
MonoType *rtype;
if (!cinfo)
return sig_to_llvm_sig_no_cinfo (ctx, sig);
ret_type = type_to_llvm_type (ctx, sig->ret);
if (!ctx_ok (ctx))
return NULL;
rtype = mini_get_underlying_type (sig->ret);
switch (cinfo->ret.storage) {
case LLVMArgVtypeInReg:
/* LLVM models this by returning an aggregate value */
if (cinfo->ret.pair_storage [0] == LLVMArgInIReg && cinfo->ret.pair_storage [1] == LLVMArgNone) {
LLVMTypeRef members [2];
members [0] = IntPtrType ();
ret_type = LLVMStructType (members, 1, FALSE);
} else if (cinfo->ret.pair_storage [0] == LLVMArgNone && cinfo->ret.pair_storage [1] == LLVMArgNone) {
/* Empty struct */
ret_type = LLVMVoidType ();
} else if (cinfo->ret.pair_storage [0] == LLVMArgInIReg && cinfo->ret.pair_storage [1] == LLVMArgInIReg) {
LLVMTypeRef members [2];
members [0] = IntPtrType ();
members [1] = IntPtrType ();
ret_type = LLVMStructType (members, 2, FALSE);
} else {
g_assert_not_reached ();
}
break;
case LLVMArgVtypeByVal:
/* Vtype returned normally by val */
break;
case LLVMArgVtypeAsScalar: {
int size = mono_class_value_size (mono_class_from_mono_type_internal (rtype), NULL);
/* LLVM models this by returning an int */
if (size < TARGET_SIZEOF_VOID_P) {
g_assert (cinfo->ret.nslots == 1);
ret_type = LLVMIntType (size * 8);
} else {
g_assert (cinfo->ret.nslots == 1 || cinfo->ret.nslots == 2);
ret_type = LLVMIntType (cinfo->ret.nslots * sizeof (target_mgreg_t) * 8);
}
break;
}
case LLVMArgAsIArgs:
ret_type = LLVMArrayType (IntPtrType (), cinfo->ret.nslots);
break;
case LLVMArgFpStruct: {
/* Vtype returned as a fp struct */
LLVMTypeRef members [16];
/* Have to create our own structure since we don't map fp structures to LLVM fp structures yet */
for (i = 0; i < cinfo->ret.nslots; ++i)
members [i] = cinfo->ret.esize == 8 ? LLVMDoubleType () : LLVMFloatType ();
ret_type = LLVMStructType (members, cinfo->ret.nslots, FALSE);
break;
}
case LLVMArgVtypeByRef:
/* Vtype returned using a hidden argument */
ret_type = LLVMVoidType ();
break;
case LLVMArgVtypeRetAddr:
case LLVMArgGsharedvtFixed:
case LLVMArgGsharedvtFixedVtype:
case LLVMArgGsharedvtVariable:
vretaddr = TRUE;
ret_type = LLVMVoidType ();
break;
case LLVMArgWasmVtypeAsScalar:
g_assert (cinfo->ret.esize);
ret_type = LLVMIntType (cinfo->ret.esize * 8);
break;
default:
break;
}
param_types = g_new0 (LLVMTypeRef, (sig->param_count * 8) + 3);
pindex = 0;
if (cinfo->ret.storage == LLVMArgVtypeByRef) {
/*
* Has to be the first argument because of the sret argument attribute
* FIXME: This might conflict with passing 'this' as the first argument, but
* this is only used on arm64 which has a dedicated struct return register.
*/
cinfo->vret_arg_pindex = pindex;
param_types [pindex] = type_to_llvm_arg_type (ctx, sig->ret);
if (!ctx_ok (ctx)) {
g_free (param_types);
return NULL;
}
param_types [pindex] = LLVMPointerType (param_types [pindex], 0);
pindex ++;
}
if (!ctx->llvm_only && cinfo->rgctx_arg) {
cinfo->rgctx_arg_pindex = pindex;
param_types [pindex] = ctx->module->ptr_type;
pindex ++;
}
if (cinfo->imt_arg) {
cinfo->imt_arg_pindex = pindex;
param_types [pindex] = ctx->module->ptr_type;
pindex ++;
}
if (vretaddr) {
/* Compute the index in the LLVM signature where the vret arg needs to be passed */
vret_arg_pindex = pindex;
if (cinfo->vret_arg_index == 1) {
/* Add the slots consumed by the first argument */
LLVMArgInfo *ainfo = &cinfo->args [0];
switch (ainfo->storage) {
case LLVMArgVtypeInReg:
for (j = 0; j < 2; ++j) {
if (ainfo->pair_storage [j] == LLVMArgInIReg)
vret_arg_pindex ++;
}
break;
default:
vret_arg_pindex ++;
}
}
cinfo->vret_arg_pindex = vret_arg_pindex;
}
if (vretaddr && vret_arg_pindex == pindex)
param_types [pindex ++] = IntPtrType ();
if (sig->hasthis) {
cinfo->this_arg_pindex = pindex;
param_types [pindex ++] = ThisType ();
cinfo->args [0].pindex = cinfo->this_arg_pindex;
}
if (vretaddr && vret_arg_pindex == pindex)
param_types [pindex ++] = IntPtrType ();
for (i = 0; i < sig->param_count; ++i) {
LLVMArgInfo *ainfo = &cinfo->args [i + sig->hasthis];
if (vretaddr && vret_arg_pindex == pindex)
param_types [pindex ++] = IntPtrType ();
ainfo->pindex = pindex;
switch (ainfo->storage) {
case LLVMArgVtypeInReg:
for (j = 0; j < 2; ++j) {
switch (ainfo->pair_storage [j]) {
case LLVMArgInIReg:
param_types [pindex ++] = LLVMIntType (TARGET_SIZEOF_VOID_P * 8);
break;
case LLVMArgNone:
break;
default:
g_assert_not_reached ();
}
}
break;
case LLVMArgVtypeByVal:
param_types [pindex] = type_to_llvm_arg_type (ctx, ainfo->type);
if (!ctx_ok (ctx))
break;
param_types [pindex] = LLVMPointerType (param_types [pindex], 0);
pindex ++;
break;
case LLVMArgAsIArgs:
if (ainfo->esize == 8)
param_types [pindex] = LLVMArrayType (LLVMInt64Type (), ainfo->nslots);
else
param_types [pindex] = LLVMArrayType (IntPtrType (), ainfo->nslots);
pindex ++;
break;
case LLVMArgVtypeAddr:
case LLVMArgVtypeByRef:
param_types [pindex] = type_to_llvm_arg_type (ctx, ainfo->type);
if (!ctx_ok (ctx))
break;
param_types [pindex] = LLVMPointerType (param_types [pindex], 0);
pindex ++;
break;
case LLVMArgAsFpArgs: {
int j;
/* Emit dummy fp arguments if needed so the rest is passed on the stack */
for (j = 0; j < ainfo->ndummy_fpargs; ++j)
param_types [pindex ++] = LLVMDoubleType ();
for (j = 0; j < ainfo->nslots; ++j)
param_types [pindex ++] = ainfo->esize == 8 ? LLVMDoubleType () : LLVMFloatType ();
break;
}
case LLVMArgVtypeAsScalar:
g_assert_not_reached ();
break;
case LLVMArgWasmVtypeAsScalar:
g_assert (ainfo->esize);
param_types [pindex ++] = LLVMIntType (ainfo->esize * 8);
break;
case LLVMArgGsharedvtFixed:
case LLVMArgGsharedvtFixedVtype:
param_types [pindex ++] = LLVMPointerType (type_to_llvm_arg_type (ctx, ainfo->type), 0);
break;
case LLVMArgGsharedvtVariable:
param_types [pindex ++] = LLVMPointerType (IntPtrType (), 0);
break;
default:
param_types [pindex ++] = type_to_llvm_arg_type (ctx, ainfo->type);
break;
}
}
if (!ctx_ok (ctx)) {
g_free (param_types);
return NULL;
}
if (vretaddr && vret_arg_pindex == pindex)
param_types [pindex ++] = IntPtrType ();
if (ctx->llvm_only && cinfo->rgctx_arg) {
/* Pass the rgctx as the last argument */
cinfo->rgctx_arg_pindex = pindex;
param_types [pindex] = ctx->module->ptr_type;
pindex ++;
} else if (ctx->llvm_only && cinfo->dummy_arg) {
/* Pass a dummy arg last */
cinfo->dummy_arg_pindex = pindex;
param_types [pindex] = ctx->module->ptr_type;
pindex ++;
}
res = LLVMFunctionType (ret_type, param_types, pindex, FALSE);
g_free (param_types);
return res;
}
static LLVMTypeRef
sig_to_llvm_sig (EmitContext *ctx, MonoMethodSignature *sig)
{
return sig_to_llvm_sig_full (ctx, sig, NULL);
}
/*
* LLVMFunctionType1:
*
* Create an LLVM function type from the arguments.
*/
static G_GNUC_UNUSED LLVMTypeRef
LLVMFunctionType0 (LLVMTypeRef ReturnType,
int IsVarArg)
{
return LLVMFunctionType (ReturnType, NULL, 0, IsVarArg);
}
/*
* LLVMFunctionType1:
*
* Create an LLVM function type from the arguments.
*/
static G_GNUC_UNUSED LLVMTypeRef
LLVMFunctionType1 (LLVMTypeRef ReturnType,
LLVMTypeRef ParamType1,
int IsVarArg)
{
LLVMTypeRef param_types [1];
param_types [0] = ParamType1;
return LLVMFunctionType (ReturnType, param_types, 1, IsVarArg);
}
/*
* LLVMFunctionType2:
*
* Create an LLVM function type from the arguments.
*/
static G_GNUC_UNUSED LLVMTypeRef
LLVMFunctionType2 (LLVMTypeRef ReturnType,
LLVMTypeRef ParamType1,
LLVMTypeRef ParamType2,
int IsVarArg)
{
LLVMTypeRef param_types [2];
param_types [0] = ParamType1;
param_types [1] = ParamType2;
return LLVMFunctionType (ReturnType, param_types, 2, IsVarArg);
}
/*
* LLVMFunctionType3:
*
* Create an LLVM function type from the arguments.
*/
static G_GNUC_UNUSED LLVMTypeRef
LLVMFunctionType3 (LLVMTypeRef ReturnType,
LLVMTypeRef ParamType1,
LLVMTypeRef ParamType2,
LLVMTypeRef ParamType3,
int IsVarArg)
{
LLVMTypeRef param_types [3];
param_types [0] = ParamType1;
param_types [1] = ParamType2;
param_types [2] = ParamType3;
return LLVMFunctionType (ReturnType, param_types, 3, IsVarArg);
}
static G_GNUC_UNUSED LLVMTypeRef
LLVMFunctionType4 (LLVMTypeRef ReturnType,
LLVMTypeRef ParamType1,
LLVMTypeRef ParamType2,
LLVMTypeRef ParamType3,
LLVMTypeRef ParamType4,
int IsVarArg)
{
LLVMTypeRef param_types [4];
param_types [0] = ParamType1;
param_types [1] = ParamType2;
param_types [2] = ParamType3;
param_types [3] = ParamType4;
return LLVMFunctionType (ReturnType, param_types, 4, IsVarArg);
}
static G_GNUC_UNUSED LLVMTypeRef
LLVMFunctionType5 (LLVMTypeRef ReturnType,
LLVMTypeRef ParamType1,
LLVMTypeRef ParamType2,
LLVMTypeRef ParamType3,
LLVMTypeRef ParamType4,
LLVMTypeRef ParamType5,
int IsVarArg)
{
LLVMTypeRef param_types [5];
param_types [0] = ParamType1;
param_types [1] = ParamType2;
param_types [2] = ParamType3;
param_types [3] = ParamType4;
param_types [4] = ParamType5;
return LLVMFunctionType (ReturnType, param_types, 5, IsVarArg);
}
/*
* create_builder:
*
* Create an LLVM builder and remember it so it can be freed later.
*/
static LLVMBuilderRef
create_builder (EmitContext *ctx)
{
LLVMBuilderRef builder = LLVMCreateBuilder ();
if (mono_use_fast_math)
mono_llvm_set_fast_math (builder);
ctx->builders = g_slist_prepend_mempool (ctx->cfg->mempool, ctx->builders, builder);
emit_default_dbg_loc (ctx, builder);
return builder;
}
static char*
get_aotconst_name (MonoJumpInfoType type, gconstpointer data, int got_offset)
{
char *name;
int len;
switch (type) {
case MONO_PATCH_INFO_JIT_ICALL_ID:
name = g_strdup_printf ("jit_icall_%s", mono_find_jit_icall_info ((MonoJitICallId)(gsize)data)->name);
break;
case MONO_PATCH_INFO_JIT_ICALL_ADDR_NOCALL:
name = g_strdup_printf ("jit_icall_addr_nocall_%s", mono_find_jit_icall_info ((MonoJitICallId)(gsize)data)->name);
break;
case MONO_PATCH_INFO_RGCTX_SLOT_INDEX: {
MonoJumpInfoRgctxEntry *entry = (MonoJumpInfoRgctxEntry*)data;
name = g_strdup_printf ("rgctx_slot_index_%s", mono_rgctx_info_type_to_str (entry->info_type));
break;
}
case MONO_PATCH_INFO_AOT_MODULE:
case MONO_PATCH_INFO_GC_SAFE_POINT_FLAG:
case MONO_PATCH_INFO_GC_CARD_TABLE_ADDR:
case MONO_PATCH_INFO_GC_NURSERY_START:
case MONO_PATCH_INFO_GC_NURSERY_BITS:
case MONO_PATCH_INFO_INTERRUPTION_REQUEST_FLAG:
name = g_strdup_printf ("%s", mono_ji_type_to_string (type));
len = strlen (name);
for (int i = 0; i < len; ++i)
name [i] = tolower (name [i]);
break;
default:
name = g_strdup_printf ("%s_%d", mono_ji_type_to_string (type), got_offset);
len = strlen (name);
for (int i = 0; i < len; ++i)
name [i] = tolower (name [i]);
break;
}
return name;
}
static int
compute_aot_got_offset (MonoLLVMModule *module, MonoJumpInfo *ji, LLVMTypeRef llvm_type)
{
guint32 got_offset = mono_aot_get_got_offset (ji);
LLVMTypeRef lookup_type = (LLVMTypeRef) g_hash_table_lookup (module->got_idx_to_type, GINT_TO_POINTER (got_offset));
if (!lookup_type) {
lookup_type = llvm_type;
} else if (llvm_type != lookup_type) {
lookup_type = module->ptr_type;
} else {
return got_offset;
}
g_hash_table_insert (module->got_idx_to_type, GINT_TO_POINTER (got_offset), lookup_type);
return got_offset;
}
/* Allocate a GOT slot for TYPE/DATA, and emit IR to load it */
static LLVMValueRef
get_aotconst_module (MonoLLVMModule *module, LLVMBuilderRef builder, MonoJumpInfoType type, gconstpointer data, LLVMTypeRef llvm_type,
guint32 *out_got_offset, MonoJumpInfo **out_ji)
{
guint32 got_offset;
LLVMValueRef load;
MonoJumpInfo tmp_ji;
tmp_ji.type = type;
tmp_ji.data.target = data;
MonoJumpInfo *ji = mono_aot_patch_info_dup (&tmp_ji);
if (out_ji)
*out_ji = ji;
got_offset = compute_aot_got_offset (module, ji, llvm_type);
module->max_got_offset = MAX (module->max_got_offset, got_offset);
if (out_got_offset)
*out_got_offset = got_offset;
if (module->static_link && type == MONO_PATCH_INFO_GC_SAFE_POINT_FLAG) {
if (!module->gc_safe_point_flag_var) {
const char *symbol = "mono_polling_required";
module->gc_safe_point_flag_var = LLVMAddGlobal (module->lmodule, llvm_type, symbol);
LLVMSetLinkage (module->gc_safe_point_flag_var, LLVMExternalLinkage);
}
return module->gc_safe_point_flag_var;
}
if (module->static_link && type == MONO_PATCH_INFO_INTERRUPTION_REQUEST_FLAG) {
if (!module->interrupt_flag_var) {
const char *symbol = "mono_thread_interruption_request_flag";
module->interrupt_flag_var = LLVMAddGlobal (module->lmodule, llvm_type, symbol);
LLVMSetLinkage (module->interrupt_flag_var, LLVMExternalLinkage);
}
return module->interrupt_flag_var;
}
LLVMValueRef const_var = g_hash_table_lookup (module->aotconst_vars, GINT_TO_POINTER (got_offset));
if (!const_var) {
LLVMTypeRef type = llvm_type;
// FIXME:
char *name = get_aotconst_name (ji->type, ji->data.target, got_offset);
char *symbol = g_strdup_printf ("aotconst_%s", name);
g_free (name);
LLVMValueRef v = LLVMAddGlobal (module->lmodule, type, symbol);
LLVMSetVisibility (v, LLVMHiddenVisibility);
LLVMSetLinkage (v, LLVMInternalLinkage);
LLVMSetInitializer (v, LLVMConstNull (type));
// FIXME:
LLVMSetAlignment (v, 8);
g_hash_table_insert (module->aotconst_vars, GINT_TO_POINTER (got_offset), v);
const_var = v;
}
load = LLVMBuildLoad (builder, const_var, "");
if (mono_aot_is_shared_got_offset (got_offset))
set_invariant_load_flag (load);
if (type == MONO_PATCH_INFO_LDSTR)
set_nonnull_load_flag (load);
load = LLVMBuildBitCast (builder, load, llvm_type, "");
return load;
}
static LLVMValueRef
get_aotconst (EmitContext *ctx, MonoJumpInfoType type, gconstpointer data, LLVMTypeRef llvm_type)
{
MonoCompile *cfg;
guint32 got_offset;
MonoJumpInfo *ji;
LLVMValueRef load;
cfg = ctx->cfg;
load = get_aotconst_module (ctx->module, ctx->builder, type, data, llvm_type, &got_offset, &ji);
ji->next = cfg->patch_info;
cfg->patch_info = ji;
/*
* If the got slot is shared, it means its initialized when the aot image is loaded, so we don't need to
* explicitly initialize it.
*/
if (!mono_aot_is_shared_got_offset (got_offset)) {
//mono_print_ji (ji);
//printf ("\n");
ctx->cfg->got_access_count ++;
}
return load;
}
static LLVMValueRef
get_dummy_aotconst (EmitContext *ctx, LLVMTypeRef llvm_type)
{
LLVMValueRef indexes [2];
LLVMValueRef got_entry_addr, load;
LLVMBuilderRef builder = ctx->builder;
indexes [0] = LLVMConstInt (LLVMInt32Type (), 0, FALSE);
indexes [1] = LLVMConstInt (LLVMInt32Type (), 0, FALSE);
got_entry_addr = LLVMBuildGEP (builder, ctx->module->dummy_got_var, indexes, 2, "");
load = LLVMBuildLoad (builder, got_entry_addr, "");
load = convert (ctx, load, llvm_type);
return load;
}
typedef struct {
MonoJumpInfo *ji;
MonoMethod *method;
LLVMValueRef load;
LLVMTypeRef type;
LLVMValueRef lmethod;
} CallSite;
static LLVMValueRef
get_callee_llvmonly (EmitContext *ctx, LLVMTypeRef llvm_sig, MonoJumpInfoType type, gconstpointer data)
{
LLVMValueRef callee;
char *callee_name = NULL;
if (ctx->module->static_link && ctx->module->assembly->image != mono_get_corlib ()) {
if (type == MONO_PATCH_INFO_JIT_ICALL_ID) {
MonoJitICallInfo * const info = mono_find_jit_icall_info ((MonoJitICallId)(gsize)data);
g_assert (info);
if (info->func != info->wrapper) {
type = MONO_PATCH_INFO_METHOD;
data = mono_icall_get_wrapper_method (info);
callee_name = mono_aot_get_mangled_method_name ((MonoMethod*)data);
}
} else if (type == MONO_PATCH_INFO_METHOD) {
MonoMethod *method = (MonoMethod*)data;
if (m_class_get_image (method->klass) != ctx->module->assembly->image && mono_aot_is_externally_callable (method))
callee_name = mono_aot_get_mangled_method_name (method);
}
}
if (!callee_name)
callee_name = mono_aot_get_direct_call_symbol (type, data);
if (callee_name) {
/* Directly callable */
// FIXME: Locking
callee = (LLVMValueRef)g_hash_table_lookup (ctx->module->direct_callables, callee_name);
if (!callee) {
callee = LLVMAddFunction (ctx->lmodule, callee_name, llvm_sig);
LLVMSetVisibility (callee, LLVMHiddenVisibility);
g_hash_table_insert (ctx->module->direct_callables, (char*)callee_name, callee);
} else {
/* LLVMTypeRef's are uniqued */
if (LLVMGetElementType (LLVMTypeOf (callee)) != llvm_sig)
return LLVMConstBitCast (callee, LLVMPointerType (llvm_sig, 0));
g_free (callee_name);
}
return callee;
}
/*
* Change references to icalls/pinvokes/jit icalls to their wrappers when in corlib, so
* they can be called directly.
*/
if (ctx->module->assembly->image == mono_get_corlib () && type == MONO_PATCH_INFO_JIT_ICALL_ID) {
MonoJitICallInfo * const info = mono_find_jit_icall_info ((MonoJitICallId)(gsize)data);
if (info->func != info->wrapper) {
type = MONO_PATCH_INFO_METHOD;
data = mono_icall_get_wrapper_method (info);
}
}
if (ctx->module->assembly->image == mono_get_corlib () && type == MONO_PATCH_INFO_METHOD) {
MonoMethod *method = (MonoMethod*)data;
if (m_method_is_icall (method) || m_method_is_pinvoke (method))
data = mono_marshal_get_native_wrapper (method, TRUE, TRUE);
}
/*
* Instead of emitting an indirect call through a got slot, emit a placeholder, and
* replace it with a direct call or an indirect call in mono_llvm_fixup_aot_module ()
* after all methods have been emitted.
*/
if (type == MONO_PATCH_INFO_METHOD) {
MonoMethod *method = (MonoMethod*)data;
if (m_class_get_image (method->klass)->assembly == ctx->module->assembly) {
MonoJumpInfo tmp_ji;
tmp_ji.type = type;
tmp_ji.data.target = method;
MonoJumpInfo *ji = mono_aot_patch_info_dup (&tmp_ji);
ji->next = ctx->cfg->patch_info;
ctx->cfg->patch_info = ji;
LLVMTypeRef llvm_type = LLVMPointerType (llvm_sig, 0);
ctx->cfg->got_access_count ++;
CallSite *info = g_new0 (CallSite, 1);
info->method = method;
info->ji = ji;
info->type = llvm_type;
/*
* Emit a dummy load to represent the callee, and either replace it with
* a reference to the llvm method for the callee, or from a load from the
* GOT.
*/
LLVMValueRef load = get_dummy_aotconst (ctx, llvm_type);
info->load = load;
info->lmethod = ctx->lmethod;
g_ptr_array_add (ctx->callsite_list, info);
return load;
}
}
/*
* All other calls are made through the GOT.
*/
callee = get_aotconst (ctx, type, data, LLVMPointerType (llvm_sig, 0));
return callee;
}
/*
* get_callee:
*
* Return an llvm value representing the callee given by the arguments.
*/
static LLVMValueRef
get_callee (EmitContext *ctx, LLVMTypeRef llvm_sig, MonoJumpInfoType type, gconstpointer data)
{
LLVMValueRef callee;
char *callee_name;
MonoJumpInfo *ji = NULL;
if (ctx->llvm_only)
return get_callee_llvmonly (ctx, llvm_sig, type, data);
callee_name = NULL;
/* Cross-assembly direct calls */
if (type == MONO_PATCH_INFO_METHOD) {
MonoMethod *cmethod = (MonoMethod*)data;
if (m_class_get_image (cmethod->klass) != ctx->module->assembly->image) {
MonoJumpInfo tmp_ji;
memset (&tmp_ji, 0, sizeof (MonoJumpInfo));
tmp_ji.type = type;
tmp_ji.data.target = data;
if (mono_aot_is_direct_callable (&tmp_ji)) {
/*
* This will add a reference to cmethod's image so it will
* be loaded when the current AOT image is loaded, so
* the GOT slots used by the init method code are initialized.
*/
tmp_ji.type = MONO_PATCH_INFO_IMAGE;
tmp_ji.data.image = m_class_get_image (cmethod->klass);
ji = mono_aot_patch_info_dup (&tmp_ji);
mono_aot_get_got_offset (ji);
callee_name = mono_aot_get_mangled_method_name (cmethod);
callee = (LLVMValueRef)g_hash_table_lookup (ctx->module->direct_callables, callee_name);
if (!callee) {
callee = LLVMAddFunction (ctx->lmodule, callee_name, llvm_sig);
LLVMSetLinkage (callee, LLVMExternalLinkage);
g_hash_table_insert (ctx->module->direct_callables, callee_name, callee);
} else {
/* LLVMTypeRef's are uniqued */
if (LLVMGetElementType (LLVMTypeOf (callee)) != llvm_sig)
callee = LLVMConstBitCast (callee, LLVMPointerType (llvm_sig, 0));
g_free (callee_name);
}
return callee;
}
}
}
callee_name = mono_aot_get_plt_symbol (type, data);
if (!callee_name)
return NULL;
if (ctx->cfg->compile_aot)
/* Add a patch so referenced wrappers can be compiled in full aot mode */
mono_add_patch_info (ctx->cfg, 0, type, data);
// FIXME: Locking
callee = (LLVMValueRef)g_hash_table_lookup (ctx->module->plt_entries, callee_name);
if (!callee) {
callee = LLVMAddFunction (ctx->lmodule, callee_name, llvm_sig);
LLVMSetVisibility (callee, LLVMHiddenVisibility);
g_hash_table_insert (ctx->module->plt_entries, (char*)callee_name, callee);
}
if (ctx->cfg->compile_aot) {
ji = g_new0 (MonoJumpInfo, 1);
ji->type = type;
ji->data.target = data;
g_hash_table_insert (ctx->module->plt_entries_ji, ji, callee);
}
return callee;
}
static LLVMValueRef
get_jit_callee (EmitContext *ctx, const char *name, LLVMTypeRef llvm_sig, MonoJumpInfoType type, gconstpointer data)
{
gpointer target;
// This won't be patched so compile the wrapper immediately
if (type == MONO_PATCH_INFO_JIT_ICALL_ID) {
MonoJitICallInfo * const info = mono_find_jit_icall_info ((MonoJitICallId)(gsize)data);
target = (gpointer)mono_icall_get_wrapper_full (info, TRUE);
} else {
target = resolve_patch (ctx->cfg, type, data);
}
LLVMValueRef tramp_var = LLVMAddGlobal (ctx->lmodule, LLVMPointerType (llvm_sig, 0), name);
LLVMSetInitializer (tramp_var, LLVMConstIntToPtr (LLVMConstInt (LLVMInt64Type (), (guint64)(size_t)target, FALSE), LLVMPointerType (llvm_sig, 0)));
LLVMSetLinkage (tramp_var, LLVMExternalLinkage);
LLVMValueRef callee = LLVMBuildLoad (ctx->builder, tramp_var, "");
return callee;
}
static int
get_handler_clause (MonoCompile *cfg, MonoBasicBlock *bb)
{
MonoMethodHeader *header = cfg->header;
MonoExceptionClause *clause;
int i;
/* Directly */
if (bb->region != -1 && MONO_BBLOCK_IS_IN_REGION (bb, MONO_REGION_TRY))
return (bb->region >> 8) - 1;
/* Indirectly */
for (i = 0; i < header->num_clauses; ++i) {
clause = &header->clauses [i];
if (MONO_OFFSET_IN_CLAUSE (clause, bb->real_offset) && clause->flags == MONO_EXCEPTION_CLAUSE_NONE)
return i;
}
return -1;
}
static MonoExceptionClause *
get_most_deep_clause (MonoCompile *cfg, EmitContext *ctx, MonoBasicBlock *bb)
{
if (bb == cfg->bb_init)
return NULL;
// Since they're sorted by nesting we just need
// the first one that the bb is a member of
for (int i = 0; i < cfg->header->num_clauses; i++) {
MonoExceptionClause *curr = &cfg->header->clauses [i];
if (MONO_OFFSET_IN_CLAUSE (curr, bb->real_offset))
return curr;
}
return NULL;
}
static void
set_metadata_flag (LLVMValueRef v, const char *flag_name)
{
LLVMValueRef md_arg;
int md_kind;
md_kind = LLVMGetMDKindID (flag_name, strlen (flag_name));
md_arg = LLVMMDString ("mono", 4);
LLVMSetMetadata (v, md_kind, LLVMMDNode (&md_arg, 1));
}
static void
set_nonnull_load_flag (LLVMValueRef v)
{
LLVMValueRef md_arg;
int md_kind;
const char *flag_name;
flag_name = "nonnull";
md_kind = LLVMGetMDKindID (flag_name, strlen (flag_name));
md_arg = LLVMMDString ("<index>", strlen ("<index>"));
LLVMSetMetadata (v, md_kind, LLVMMDNode (&md_arg, 1));
}
static void
set_nontemporal_flag (LLVMValueRef v)
{
LLVMValueRef md_arg;
int md_kind;
const char *flag_name;
// FIXME: Cache this
flag_name = "nontemporal";
md_kind = LLVMGetMDKindID (flag_name, strlen (flag_name));
md_arg = const_int32 (1);
LLVMSetMetadata (v, md_kind, LLVMMDNode (&md_arg, 1));
}
static void
set_invariant_load_flag (LLVMValueRef v)
{
LLVMValueRef md_arg;
int md_kind;
const char *flag_name;
// FIXME: Cache this
flag_name = "invariant.load";
md_kind = LLVMGetMDKindID (flag_name, strlen (flag_name));
md_arg = LLVMMDString ("<index>", strlen ("<index>"));
LLVMSetMetadata (v, md_kind, LLVMMDNode (&md_arg, 1));
}
/*
* emit_call:
*
* Emit an LLVM call or invoke instruction depending on whenever the call is inside
* a try region.
*/
static LLVMValueRef
emit_call (EmitContext *ctx, MonoBasicBlock *bb, LLVMBuilderRef *builder_ref, LLVMValueRef callee, LLVMValueRef *args, int pindex)
{
MonoCompile *cfg = ctx->cfg;
LLVMValueRef lcall = NULL;
LLVMBuilderRef builder = *builder_ref;
MonoExceptionClause *clause;
if (ctx->llvm_only) {
clause = bb ? get_most_deep_clause (cfg, ctx, bb) : NULL;
// FIXME: Use an invoke only for calls inside try-catch blocks
if (clause && (!cfg->deopt || ctx->has_catch)) {
/*
* Have to use an invoke instead of a call, branching to the
* handler bblock of the clause containing this bblock.
*/
intptr_t key = CLAUSE_END (clause);
LLVMBasicBlockRef lpad_bb = (LLVMBasicBlockRef)g_hash_table_lookup (ctx->exc_meta, (gconstpointer)key);
// FIXME: Find the one that has the lowest end bound for the right start address
// FIXME: Finally + nesting
if (lpad_bb) {
LLVMBasicBlockRef noex_bb = gen_bb (ctx, "CALL_NOEX_BB");
/* Use an invoke */
lcall = LLVMBuildInvoke (builder, callee, args, pindex, noex_bb, lpad_bb, "");
builder = ctx->builder = create_builder (ctx);
LLVMPositionBuilderAtEnd (ctx->builder, noex_bb);
ctx->bblocks [bb->block_num].end_bblock = noex_bb;
}
}
} else {
int clause_index = get_handler_clause (cfg, bb);
if (clause_index != -1) {
MonoMethodHeader *header = cfg->header;
MonoExceptionClause *ec = &header->clauses [clause_index];
MonoBasicBlock *tblock;
LLVMBasicBlockRef ex_bb, noex_bb;
/*
* Have to use an invoke instead of a call, branching to the
* handler bblock of the clause containing this bblock.
*/
g_assert (ec->flags == MONO_EXCEPTION_CLAUSE_NONE || ec->flags == MONO_EXCEPTION_CLAUSE_FINALLY || ec->flags == MONO_EXCEPTION_CLAUSE_FAULT);
tblock = cfg->cil_offset_to_bb [ec->handler_offset];
g_assert (tblock);
ctx->bblocks [tblock->block_num].invoke_target = TRUE;
ex_bb = get_bb (ctx, tblock);
noex_bb = gen_bb (ctx, "NOEX_BB");
/* Use an invoke */
lcall = LLVMBuildInvoke (builder, callee, args, pindex, noex_bb, ex_bb, "");
builder = ctx->builder = create_builder (ctx);
LLVMPositionBuilderAtEnd (ctx->builder, noex_bb);
ctx->bblocks [bb->block_num].end_bblock = noex_bb;
}
}
if (!lcall) {
lcall = LLVMBuildCall (builder, callee, args, pindex, "");
ctx->builder = builder;
}
if (builder_ref)
*builder_ref = ctx->builder;
return lcall;
}
static LLVMValueRef
emit_load (EmitContext *ctx, MonoBasicBlock *bb, LLVMBuilderRef *builder_ref, int size, LLVMValueRef addr, LLVMValueRef base, const char *name, gboolean is_faulting, gboolean is_volatile, BarrierKind barrier)
{
LLVMValueRef res;
/*
* We emit volatile loads for loads which can fault, because otherwise
* LLVM will generate invalid code when encountering a load from a
* NULL address.
*/
if (barrier != LLVM_BARRIER_NONE)
res = mono_llvm_build_atomic_load (*builder_ref, addr, name, is_volatile, size, barrier);
else
res = mono_llvm_build_load (*builder_ref, addr, name, is_volatile);
return res;
}
static void
emit_store_general (EmitContext *ctx, MonoBasicBlock *bb, LLVMBuilderRef *builder_ref, int size, LLVMValueRef value, LLVMValueRef addr, LLVMValueRef base, gboolean is_faulting, gboolean is_volatile, BarrierKind barrier)
{
if (barrier != LLVM_BARRIER_NONE)
mono_llvm_build_aligned_store (*builder_ref, value, addr, barrier, size);
else
mono_llvm_build_store (*builder_ref, value, addr, is_volatile, barrier);
}
static void
emit_store (EmitContext *ctx, MonoBasicBlock *bb, LLVMBuilderRef *builder_ref, int size, LLVMValueRef value, LLVMValueRef addr, LLVMValueRef base, gboolean is_faulting, gboolean is_volatile)
{
emit_store_general (ctx, bb, builder_ref, size, value, addr, base, is_faulting, is_volatile, LLVM_BARRIER_NONE);
}
/*
* emit_cond_system_exception:
*
* Emit code to throw the exception EXC_TYPE if the condition CMP is false.
* Might set the ctx exception.
*/
static void
emit_cond_system_exception (EmitContext *ctx, MonoBasicBlock *bb, const char *exc_type, LLVMValueRef cmp, gboolean force_explicit)
{
LLVMBasicBlockRef ex_bb, ex2_bb = NULL, noex_bb;
LLVMBuilderRef builder;
MonoClass *exc_class;
LLVMValueRef args [2];
LLVMValueRef callee;
gboolean no_pc = FALSE;
static MonoClass *exc_classes [MONO_EXC_INTRINS_NUM];
if (IS_TARGET_AMD64)
/* Some platforms don't require the pc argument */
no_pc = TRUE;
int exc_id = mini_exception_id_by_name (exc_type);
if (!exc_classes [exc_id])
exc_classes [exc_id] = mono_class_load_from_name (mono_get_corlib (), "System", exc_type);
exc_class = exc_classes [exc_id];
ex_bb = gen_bb (ctx, "EX_BB");
if (ctx->llvm_only)
ex2_bb = gen_bb (ctx, "EX2_BB");
noex_bb = gen_bb (ctx, "NOEX_BB");
LLVMValueRef branch = LLVMBuildCondBr (ctx->builder, cmp, ex_bb, noex_bb);
if (exc_id == MONO_EXC_NULL_REF && !ctx->cfg->disable_llvm_implicit_null_checks && !force_explicit) {
mono_llvm_set_implicit_branch (ctx->builder, branch);
}
/* Emit exception throwing code */
ctx->builder = builder = create_builder (ctx);
LLVMPositionBuilderAtEnd (builder, ex_bb);
if (ctx->cfg->llvm_only) {
LLVMBuildBr (builder, ex2_bb);
ctx->builder = builder = create_builder (ctx);
LLVMPositionBuilderAtEnd (ctx->builder, ex2_bb);
if (exc_id == MONO_EXC_NULL_REF) {
static LLVMTypeRef sig;
if (!sig)
sig = LLVMFunctionType0 (LLVMVoidType (), FALSE);
/* Can't cache this */
callee = get_callee (ctx, sig, MONO_PATCH_INFO_JIT_ICALL_ADDR, GUINT_TO_POINTER (MONO_JIT_ICALL_mini_llvmonly_throw_nullref_exception));
emit_call (ctx, bb, &builder, callee, NULL, 0);
} else {
static LLVMTypeRef sig;
if (!sig)
sig = LLVMFunctionType1 (LLVMVoidType (), LLVMInt32Type (), FALSE);
callee = get_callee (ctx, sig, MONO_PATCH_INFO_JIT_ICALL_ADDR, GUINT_TO_POINTER (MONO_JIT_ICALL_mini_llvmonly_throw_corlib_exception));
args [0] = LLVMConstInt (LLVMInt32Type (), m_class_get_type_token (exc_class) - MONO_TOKEN_TYPE_DEF, FALSE);
emit_call (ctx, bb, &builder, callee, args, 1);
}
LLVMBuildUnreachable (builder);
ctx->builder = builder = create_builder (ctx);
LLVMPositionBuilderAtEnd (ctx->builder, noex_bb);
ctx->bblocks [bb->block_num].end_bblock = noex_bb;
ctx->ex_index ++;
return;
}
callee = ctx->module->throw_corlib_exception;
if (!callee) {
LLVMTypeRef sig;
if (no_pc)
sig = LLVMFunctionType1 (LLVMVoidType (), LLVMInt32Type (), FALSE);
else
sig = LLVMFunctionType2 (LLVMVoidType (), LLVMInt32Type (), LLVMPointerType (LLVMInt8Type (), 0), FALSE);
const MonoJitICallId icall_id = MONO_JIT_ICALL_mono_llvm_throw_corlib_exception_abs_trampoline;
if (ctx->cfg->compile_aot) {
callee = get_callee (ctx, sig, MONO_PATCH_INFO_JIT_ICALL_ID, GUINT_TO_POINTER (icall_id));
} else {
/*
* Differences between the LLVM/non-LLVM throw corlib exception trampoline:
* - On x86, LLVM generated code doesn't push the arguments
* - The trampoline takes the throw address as an arguments, not a pc offset.
*/
callee = get_jit_callee (ctx, "llvm_throw_corlib_exception_trampoline", sig, MONO_PATCH_INFO_JIT_ICALL_ID, GUINT_TO_POINTER (icall_id));
/*
* Make sure that ex_bb starts with the invoke, so the block address points to it, and not to the load
* added by get_jit_callee ().
*/
ex2_bb = gen_bb (ctx, "EX2_BB");
LLVMBuildBr (builder, ex2_bb);
ex_bb = ex2_bb;
ctx->builder = builder = create_builder (ctx);
LLVMPositionBuilderAtEnd (ctx->builder, ex2_bb);
}
}
args [0] = LLVMConstInt (LLVMInt32Type (), m_class_get_type_token (exc_class) - MONO_TOKEN_TYPE_DEF, FALSE);
/*
* The LLVM mono branch contains changes so a block address can be passed as an
* argument to a call.
*/
if (no_pc) {
emit_call (ctx, bb, &builder, callee, args, 1);
} else {
args [1] = LLVMBlockAddress (ctx->lmethod, ex_bb);
emit_call (ctx, bb, &builder, callee, args, 2);
}
LLVMBuildUnreachable (builder);
ctx->builder = builder = create_builder (ctx);
LLVMPositionBuilderAtEnd (ctx->builder, noex_bb);
ctx->bblocks [bb->block_num].end_bblock = noex_bb;
ctx->ex_index ++;
return;
}
/*
* emit_args_to_vtype:
*
* Emit code to store the vtype in the arguments args to the address ADDRESS.
*/
static void
emit_args_to_vtype (EmitContext *ctx, LLVMBuilderRef builder, MonoType *t, LLVMValueRef address, LLVMArgInfo *ainfo, LLVMValueRef *args)
{
int j, size, nslots;
MonoClass *klass;
t = mini_get_underlying_type (t);
klass = mono_class_from_mono_type_internal (t);
size = mono_class_value_size (klass, NULL);
if (MONO_CLASS_IS_SIMD (ctx->cfg, klass))
address = LLVMBuildBitCast (ctx->builder, address, LLVMPointerType (LLVMInt8Type (), 0), "");
if (ainfo->storage == LLVMArgAsFpArgs)
nslots = ainfo->nslots;
else
nslots = 2;
for (j = 0; j < nslots; ++j) {
LLVMValueRef index [2], addr, daddr;
int part_size = size > TARGET_SIZEOF_VOID_P ? TARGET_SIZEOF_VOID_P : size;
LLVMTypeRef part_type;
while (part_size != 1 && part_size != 2 && part_size != 4 && part_size < 8)
part_size ++;
if (ainfo->pair_storage [j] == LLVMArgNone)
continue;
switch (ainfo->pair_storage [j]) {
case LLVMArgInIReg: {
part_type = LLVMIntType (part_size * 8);
if (MONO_CLASS_IS_SIMD (ctx->cfg, klass)) {
index [0] = LLVMConstInt (LLVMInt32Type (), j * TARGET_SIZEOF_VOID_P, FALSE);
addr = LLVMBuildGEP (builder, address, index, 1, "");
} else {
daddr = LLVMBuildBitCast (ctx->builder, address, LLVMPointerType (IntPtrType (), 0), "");
index [0] = LLVMConstInt (LLVMInt32Type (), j, FALSE);
addr = LLVMBuildGEP (builder, daddr, index, 1, "");
}
LLVMBuildStore (builder, convert (ctx, args [j], part_type), LLVMBuildBitCast (ctx->builder, addr, LLVMPointerType (part_type, 0), ""));
break;
}
case LLVMArgInFPReg: {
LLVMTypeRef arg_type;
if (ainfo->esize == 8)
arg_type = LLVMDoubleType ();
else
arg_type = LLVMFloatType ();
index [0] = LLVMConstInt (LLVMInt32Type (), j, FALSE);
daddr = LLVMBuildBitCast (ctx->builder, address, LLVMPointerType (arg_type, 0), "");
addr = LLVMBuildGEP (builder, daddr, index, 1, "");
LLVMBuildStore (builder, args [j], addr);
break;
}
case LLVMArgNone:
break;
default:
g_assert_not_reached ();
}
size -= TARGET_SIZEOF_VOID_P;
}
}
/*
* emit_vtype_to_args:
*
* Emit code to load a vtype at address ADDRESS into scalar arguments. Store the arguments
* into ARGS, and the number of arguments into NARGS.
*/
static void
emit_vtype_to_args (EmitContext *ctx, LLVMBuilderRef builder, MonoType *t, LLVMValueRef address, LLVMArgInfo *ainfo, LLVMValueRef *args, guint32 *nargs)
{
int pindex = 0;
int j, nslots;
LLVMTypeRef arg_type;
t = mini_get_underlying_type (t);
int32_t size = get_vtype_size_align (t).size;
if (MONO_CLASS_IS_SIMD (ctx->cfg, mono_class_from_mono_type_internal (t)))
address = LLVMBuildBitCast (ctx->builder, address, LLVMPointerType (LLVMInt8Type (), 0), "");
if (ainfo->storage == LLVMArgAsFpArgs)
nslots = ainfo->nslots;
else
nslots = 2;
for (j = 0; j < nslots; ++j) {
LLVMValueRef index [2], addr, daddr;
int partsize = size > TARGET_SIZEOF_VOID_P ? TARGET_SIZEOF_VOID_P : size;
if (ainfo->pair_storage [j] == LLVMArgNone)
continue;
switch (ainfo->pair_storage [j]) {
case LLVMArgInIReg:
if (MONO_CLASS_IS_SIMD (ctx->cfg, mono_class_from_mono_type_internal (t))) {
index [0] = LLVMConstInt (LLVMInt32Type (), j * TARGET_SIZEOF_VOID_P, FALSE);
addr = LLVMBuildGEP (builder, address, index, 1, "");
} else {
daddr = LLVMBuildBitCast (ctx->builder, address, LLVMPointerType (IntPtrType (), 0), "");
index [0] = LLVMConstInt (LLVMInt32Type (), j, FALSE);
addr = LLVMBuildGEP (builder, daddr, index, 1, "");
}
args [pindex ++] = convert (ctx, LLVMBuildLoad (builder, LLVMBuildBitCast (ctx->builder, addr, LLVMPointerType (LLVMIntType (partsize * 8), 0), ""), ""), IntPtrType ());
break;
case LLVMArgInFPReg:
if (ainfo->esize == 8)
arg_type = LLVMDoubleType ();
else
arg_type = LLVMFloatType ();
daddr = LLVMBuildBitCast (ctx->builder, address, LLVMPointerType (arg_type, 0), "");
index [0] = LLVMConstInt (LLVMInt32Type (), j, FALSE);
addr = LLVMBuildGEP (builder, daddr, index, 1, "");
args [pindex ++] = LLVMBuildLoad (builder, addr, "");
break;
case LLVMArgNone:
break;
default:
g_assert_not_reached ();
}
size -= TARGET_SIZEOF_VOID_P;
}
*nargs = pindex;
}
static LLVMValueRef
build_alloca_llvm_type_name (EmitContext *ctx, LLVMTypeRef t, int align, const char *name)
{
/*
* Have to place all alloca's at the end of the entry bb, since otherwise they would
* get executed every time control reaches them.
*/
LLVMPositionBuilder (ctx->alloca_builder, get_bb (ctx, ctx->cfg->bb_entry), ctx->last_alloca);
ctx->last_alloca = mono_llvm_build_alloca (ctx->alloca_builder, t, NULL, align, name);
return ctx->last_alloca;
}
static LLVMValueRef
build_alloca_llvm_type (EmitContext *ctx, LLVMTypeRef t, int align)
{
return build_alloca_llvm_type_name (ctx, t, align, "");
}
static LLVMValueRef
build_named_alloca (EmitContext *ctx, MonoType *t, char const *name)
{
MonoClass *k = mono_class_from_mono_type_internal (t);
int align;
g_assert (!mini_is_gsharedvt_variable_type (t));
if (MONO_CLASS_IS_SIMD (ctx->cfg, k))
align = mono_class_value_size (k, NULL);
else
align = mono_class_min_align (k);
/* Sometimes align is not a power of 2 */
while (mono_is_power_of_two (align) == -1)
align ++;
return build_alloca_llvm_type_name (ctx, type_to_llvm_type (ctx, t), align, name);
}
static LLVMValueRef
build_alloca (EmitContext *ctx, MonoType *t)
{
return build_named_alloca (ctx, t, "");
}
static LLVMValueRef
emit_gsharedvt_ldaddr (EmitContext *ctx, int vreg)
{
/*
* gsharedvt local.
* Compute the address of the local as gsharedvt_locals_var + gsharedvt_info_var->locals_offsets [idx].
*/
MonoCompile *cfg = ctx->cfg;
LLVMBuilderRef builder = ctx->builder;
LLVMValueRef offset, offset_var;
LLVMValueRef info_var = ctx->values [cfg->gsharedvt_info_var->dreg];
LLVMValueRef locals_var = ctx->values [cfg->gsharedvt_locals_var->dreg];
LLVMValueRef ptr;
char *name;
g_assert (info_var);
g_assert (locals_var);
int idx = cfg->gsharedvt_vreg_to_idx [vreg] - 1;
offset = LLVMConstInt (LLVMInt32Type (), MONO_STRUCT_OFFSET (MonoGSharedVtMethodRuntimeInfo, entries) + (idx * TARGET_SIZEOF_VOID_P), FALSE);
ptr = LLVMBuildAdd (builder, convert (ctx, info_var, IntPtrType ()), convert (ctx, offset, IntPtrType ()), "");
name = g_strdup_printf ("gsharedvt_local_%d_offset", vreg);
offset_var = LLVMBuildLoad (builder, convert (ctx, ptr, LLVMPointerType (LLVMInt32Type (), 0)), name);
return LLVMBuildAdd (builder, convert (ctx, locals_var, IntPtrType ()), convert (ctx, offset_var, IntPtrType ()), "");
}
/*
* Put the global into the 'llvm.used' array to prevent it from being optimized away.
*/
static void
mark_as_used (MonoLLVMModule *module, LLVMValueRef global)
{
if (!module->used)
module->used = g_ptr_array_sized_new (16);
g_ptr_array_add (module->used, global);
}
static void
emit_llvm_used (MonoLLVMModule *module)
{
LLVMModuleRef lmodule = module->lmodule;
LLVMTypeRef used_type;
LLVMValueRef used, *used_elem;
int i;
if (!module->used)
return;
used_type = LLVMArrayType (LLVMPointerType (LLVMInt8Type (), 0), module->used->len);
used = LLVMAddGlobal (lmodule, used_type, "llvm.used");
used_elem = g_new0 (LLVMValueRef, module->used->len);
for (i = 0; i < module->used->len; ++i)
used_elem [i] = LLVMConstBitCast ((LLVMValueRef)g_ptr_array_index (module->used, i), LLVMPointerType (LLVMInt8Type (), 0));
LLVMSetInitializer (used, LLVMConstArray (LLVMPointerType (LLVMInt8Type (), 0), used_elem, module->used->len));
LLVMSetLinkage (used, LLVMAppendingLinkage);
LLVMSetSection (used, "llvm.metadata");
}
/*
* emit_get_method:
*
* Emit a function mapping method indexes to their code
*/
static void
emit_get_method (MonoLLVMModule *module)
{
LLVMModuleRef lmodule = module->lmodule;
LLVMValueRef func, switch_ins, m;
LLVMBasicBlockRef entry_bb, fail_bb, bb, code_start_bb, code_end_bb, main_bb;
LLVMBasicBlockRef *bbs = NULL;
LLVMTypeRef rtype;
LLVMBuilderRef builder = LLVMCreateBuilder ();
LLVMValueRef table = NULL;
char *name;
int i;
gboolean emit_table = FALSE;
#ifdef TARGET_WASM
/*
* Emit a table of functions instead of a switch statement,
* its very efficient on wasm. This might be usable on
* other platforms too.
*/
emit_table = TRUE;
#endif
rtype = LLVMPointerType (LLVMInt8Type (), 0);
int table_len = module->max_method_idx + 1;
if (emit_table) {
LLVMTypeRef table_type;
LLVMValueRef *table_elems;
char *table_name;
table_type = LLVMArrayType (rtype, table_len);
table_name = g_strdup_printf ("%s_method_table", module->global_prefix);
table = LLVMAddGlobal (lmodule, table_type, table_name);
table_elems = g_new0 (LLVMValueRef, table_len);
for (i = 0; i < table_len; ++i) {
m = (LLVMValueRef)g_hash_table_lookup (module->idx_to_lmethod, GINT_TO_POINTER (i));
if (m && !g_hash_table_lookup (module->no_method_table_lmethods, m))
table_elems [i] = LLVMBuildBitCast (builder, m, rtype, "");
else
table_elems [i] = LLVMConstNull (rtype);
}
LLVMSetInitializer (table, LLVMConstArray (LLVMPointerType (LLVMInt8Type (), 0), table_elems, table_len));
}
/*
* Emit a switch statement. Emitting a table of function addresses is smaller/faster,
* but generating code seems safer.
*/
func = LLVMAddFunction (lmodule, module->get_method_symbol, LLVMFunctionType1 (rtype, LLVMInt32Type (), FALSE));
LLVMSetLinkage (func, LLVMExternalLinkage);
LLVMSetVisibility (func, LLVMHiddenVisibility);
mono_llvm_add_func_attr (func, LLVM_ATTR_NO_UNWIND);
module->get_method = func;
entry_bb = LLVMAppendBasicBlock (func, "ENTRY");
/*
* Return llvm_code_start/llvm_code_end when called with -1/-2.
* Hopefully, the toolchain doesn't reorder these functions. If it does,
* then we will have to find another solution.
*/
name = g_strdup_printf ("BB_CODE_START");
code_start_bb = LLVMAppendBasicBlock (func, name);
g_free (name);
LLVMPositionBuilderAtEnd (builder, code_start_bb);
LLVMBuildRet (builder, LLVMBuildBitCast (builder, module->code_start, rtype, ""));
name = g_strdup_printf ("BB_CODE_END");
code_end_bb = LLVMAppendBasicBlock (func, name);
g_free (name);
LLVMPositionBuilderAtEnd (builder, code_end_bb);
LLVMBuildRet (builder, LLVMBuildBitCast (builder, module->code_end, rtype, ""));
if (emit_table) {
/*
* Because table_len is computed using the method indexes available for us, it
* might not include methods which are not compiled because of AOT profiles.
* So table_len can be smaller than info->nmethods. Add a bounds check because
* of that.
* switch (index) {
* case -1: return code_start;
* case -2: return code_end;
* default: return index < table_len ? method_table [index] : 0;
*/
fail_bb = LLVMAppendBasicBlock (func, "FAIL");
LLVMPositionBuilderAtEnd (builder, fail_bb);
LLVMBuildRet (builder, LLVMBuildIntToPtr (builder, LLVMConstInt (LLVMInt32Type (), 0, FALSE), rtype, ""));
main_bb = LLVMAppendBasicBlock (func, "MAIN");
LLVMPositionBuilderAtEnd (builder, main_bb);
LLVMValueRef base = table;
LLVMValueRef indexes [2];
indexes [0] = LLVMConstInt (LLVMInt32Type (), 0, FALSE);
indexes [1] = LLVMGetParam (func, 0);
LLVMValueRef addr = LLVMBuildGEP (builder, base, indexes, 2, "");
LLVMValueRef res = mono_llvm_build_load (builder, addr, "", FALSE);
LLVMBuildRet (builder, res);
LLVMBasicBlockRef default_bb = LLVMAppendBasicBlock (func, "DEFAULT");
LLVMPositionBuilderAtEnd (builder, default_bb);
LLVMValueRef cmp = LLVMBuildICmp (builder, LLVMIntSGE, LLVMGetParam (func, 0), LLVMConstInt (LLVMInt32Type (), table_len, FALSE), "");
LLVMBuildCondBr (builder, cmp, fail_bb, main_bb);
LLVMPositionBuilderAtEnd (builder, entry_bb);
switch_ins = LLVMBuildSwitch (builder, LLVMGetParam (func, 0), default_bb, 0);
LLVMAddCase (switch_ins, LLVMConstInt (LLVMInt32Type (), -1, FALSE), code_start_bb);
LLVMAddCase (switch_ins, LLVMConstInt (LLVMInt32Type (), -2, FALSE), code_end_bb);
} else {
bbs = g_new0 (LLVMBasicBlockRef, module->max_method_idx + 1);
for (i = 0; i < module->max_method_idx + 1; ++i) {
name = g_strdup_printf ("BB_%d", i);
bb = LLVMAppendBasicBlock (func, name);
g_free (name);
bbs [i] = bb;
LLVMPositionBuilderAtEnd (builder, bb);
m = (LLVMValueRef)g_hash_table_lookup (module->idx_to_lmethod, GINT_TO_POINTER (i));
if (m && !g_hash_table_lookup (module->no_method_table_lmethods, m))
LLVMBuildRet (builder, LLVMBuildBitCast (builder, m, rtype, ""));
else
LLVMBuildRet (builder, LLVMConstNull (rtype));
}
fail_bb = LLVMAppendBasicBlock (func, "FAIL");
LLVMPositionBuilderAtEnd (builder, fail_bb);
LLVMBuildRet (builder, LLVMConstNull (rtype));
LLVMPositionBuilderAtEnd (builder, entry_bb);
switch_ins = LLVMBuildSwitch (builder, LLVMGetParam (func, 0), fail_bb, 0);
LLVMAddCase (switch_ins, LLVMConstInt (LLVMInt32Type (), -1, FALSE), code_start_bb);
LLVMAddCase (switch_ins, LLVMConstInt (LLVMInt32Type (), -2, FALSE), code_end_bb);
for (i = 0; i < module->max_method_idx + 1; ++i) {
LLVMAddCase (switch_ins, LLVMConstInt (LLVMInt32Type (), i, FALSE), bbs [i]);
}
}
mark_as_used (module, func);
LLVMDisposeBuilder (builder);
}
/*
* emit_get_unbox_tramp:
*
* Emit a function mapping method indexes to their unbox trampoline
*/
static void
emit_get_unbox_tramp (MonoLLVMModule *module)
{
LLVMModuleRef lmodule = module->lmodule;
LLVMValueRef func, switch_ins, m;
LLVMBasicBlockRef entry_bb, fail_bb, bb;
LLVMBasicBlockRef *bbs;
LLVMTypeRef rtype;
LLVMBuilderRef builder = LLVMCreateBuilder ();
char *name;
int i;
gboolean emit_table = FALSE;
/* Similar to emit_get_method () */
#ifndef TARGET_WATCHOS
emit_table = TRUE;
#endif
rtype = LLVMPointerType (LLVMInt8Type (), 0);
if (emit_table) {
// About 10% of methods have an unbox tramp, so emit a table of indexes for them
// that the runtime can search using a binary search
int len = 0;
for (i = 0; i < module->max_method_idx + 1; ++i) {
m = (LLVMValueRef)g_hash_table_lookup (module->idx_to_unbox_tramp, GINT_TO_POINTER (i));
if (m)
len ++;
}
LLVMTypeRef table_type, elemtype;
LLVMValueRef *table_elems;
LLVMValueRef table;
char *table_name;
int table_len;
int elemsize;
table_len = len;
elemsize = module->max_method_idx < 65000 ? 2 : 4;
// The index table
elemtype = elemsize == 2 ? LLVMInt16Type () : LLVMInt32Type ();
table_type = LLVMArrayType (elemtype, table_len);
table_name = g_strdup_printf ("%s_unbox_tramp_indexes", module->global_prefix);
table = LLVMAddGlobal (lmodule, table_type, table_name);
table_elems = g_new0 (LLVMValueRef, table_len);
int idx = 0;
for (i = 0; i < module->max_method_idx + 1; ++i) {
m = (LLVMValueRef)g_hash_table_lookup (module->idx_to_unbox_tramp, GINT_TO_POINTER (i));
if (m)
table_elems [idx ++] = LLVMConstInt (elemtype, i, FALSE);
}
LLVMSetInitializer (table, LLVMConstArray (elemtype, table_elems, table_len));
module->unbox_tramp_indexes = table;
// The trampoline table
elemtype = rtype;
table_type = LLVMArrayType (elemtype, table_len);
table_name = g_strdup_printf ("%s_unbox_trampolines", module->global_prefix);
table = LLVMAddGlobal (lmodule, table_type, table_name);
table_elems = g_new0 (LLVMValueRef, table_len);
idx = 0;
for (i = 0; i < module->max_method_idx + 1; ++i) {
m = (LLVMValueRef)g_hash_table_lookup (module->idx_to_unbox_tramp, GINT_TO_POINTER (i));
if (m)
table_elems [idx ++] = LLVMBuildBitCast (builder, m, rtype, "");
}
LLVMSetInitializer (table, LLVMConstArray (elemtype, table_elems, table_len));
module->unbox_trampolines = table;
module->unbox_tramp_num = table_len;
module->unbox_tramp_elemsize = elemsize;
return;
}
func = LLVMAddFunction (lmodule, module->get_unbox_tramp_symbol, LLVMFunctionType1 (rtype, LLVMInt32Type (), FALSE));
LLVMSetLinkage (func, LLVMExternalLinkage);
LLVMSetVisibility (func, LLVMHiddenVisibility);
mono_llvm_add_func_attr (func, LLVM_ATTR_NO_UNWIND);
module->get_unbox_tramp = func;
entry_bb = LLVMAppendBasicBlock (func, "ENTRY");
bbs = g_new0 (LLVMBasicBlockRef, module->max_method_idx + 1);
for (i = 0; i < module->max_method_idx + 1; ++i) {
m = (LLVMValueRef)g_hash_table_lookup (module->idx_to_unbox_tramp, GINT_TO_POINTER (i));
if (!m)
continue;
name = g_strdup_printf ("BB_%d", i);
bb = LLVMAppendBasicBlock (func, name);
g_free (name);
bbs [i] = bb;
LLVMPositionBuilderAtEnd (builder, bb);
LLVMBuildRet (builder, LLVMBuildBitCast (builder, m, rtype, ""));
}
fail_bb = LLVMAppendBasicBlock (func, "FAIL");
LLVMPositionBuilderAtEnd (builder, fail_bb);
LLVMBuildRet (builder, LLVMConstNull (rtype));
LLVMPositionBuilderAtEnd (builder, entry_bb);
switch_ins = LLVMBuildSwitch (builder, LLVMGetParam (func, 0), fail_bb, 0);
for (i = 0; i < module->max_method_idx + 1; ++i) {
m = (LLVMValueRef)g_hash_table_lookup (module->idx_to_unbox_tramp, GINT_TO_POINTER (i));
if (!m)
continue;
LLVMAddCase (switch_ins, LLVMConstInt (LLVMInt32Type (), i, FALSE), bbs [i]);
}
mark_as_used (module, func);
LLVMDisposeBuilder (builder);
}
/*
* emit_init_aotconst:
*
* Emit a function to initialize the aotconst_ variables. Called by the runtime.
*/
static void
emit_init_aotconst (MonoLLVMModule *module)
{
LLVMModuleRef lmodule = module->lmodule;
LLVMValueRef func;
LLVMBasicBlockRef entry_bb;
LLVMBuilderRef builder = LLVMCreateBuilder ();
func = LLVMAddFunction (lmodule, module->init_aotconst_symbol, LLVMFunctionType2 (LLVMVoidType (), LLVMInt32Type (), IntPtrType (), FALSE));
LLVMSetLinkage (func, LLVMExternalLinkage);
LLVMSetVisibility (func, LLVMHiddenVisibility);
mono_llvm_add_func_attr (func, LLVM_ATTR_NO_UNWIND);
module->init_aotconst_func = func;
entry_bb = LLVMAppendBasicBlock (func, "ENTRY");
LLVMPositionBuilderAtEnd (builder, entry_bb);
#ifdef TARGET_WASM
/* Emit a table of aotconst addresses instead of a switch statement to save space */
LLVMValueRef aotconsts;
LLVMTypeRef aotconst_addr_type = LLVMPointerType (module->ptr_type, 0);
int table_size = module->max_got_offset + 1;
LLVMTypeRef aotconst_arr_type = LLVMArrayType (aotconst_addr_type, table_size);
LLVMValueRef aotconst_dummy = LLVMAddGlobal (module->lmodule, module->ptr_type, "aotconst_dummy");
LLVMSetInitializer (aotconst_dummy, LLVMConstNull (module->ptr_type));
LLVMSetVisibility (aotconst_dummy, LLVMHiddenVisibility);
LLVMSetLinkage (aotconst_dummy, LLVMInternalLinkage);
aotconsts = LLVMAddGlobal (module->lmodule, aotconst_arr_type, "aotconsts");
LLVMValueRef *aotconst_init = g_new0 (LLVMValueRef, table_size);
for (int i = 0; i < table_size; ++i) {
LLVMValueRef aotconst = (LLVMValueRef)g_hash_table_lookup (module->aotconst_vars, GINT_TO_POINTER (i));
if (aotconst)
aotconst_init [i] = LLVMConstBitCast (aotconst, aotconst_addr_type);
else
aotconst_init [i] = LLVMConstBitCast (aotconst_dummy, aotconst_addr_type);
}
LLVMSetInitializer (aotconsts, LLVMConstArray (aotconst_addr_type, aotconst_init, table_size));
LLVMSetVisibility (aotconsts, LLVMHiddenVisibility);
LLVMSetLinkage (aotconsts, LLVMInternalLinkage);
LLVMBasicBlockRef exit_bb = LLVMAppendBasicBlock (func, "EXIT_BB");
LLVMBasicBlockRef main_bb = LLVMAppendBasicBlock (func, "BB");
LLVMValueRef cmp = LLVMBuildICmp (builder, LLVMIntSGE, LLVMGetParam (func, 0), LLVMConstInt (LLVMInt32Type (), table_size, FALSE), "");
LLVMBuildCondBr (builder, cmp, exit_bb, main_bb);
LLVMPositionBuilderAtEnd (builder, main_bb);
LLVMValueRef indexes [2];
indexes [0] = LLVMConstInt (LLVMInt32Type (), 0, FALSE);
indexes [1] = LLVMGetParam (func, 0);
LLVMValueRef aotconst_addr = LLVMBuildLoad (builder, LLVMBuildGEP (builder, aotconsts, indexes, 2, ""), "");
LLVMBuildStore (builder, LLVMBuildIntToPtr (builder, LLVMGetParam (func, 1), module->ptr_type, ""), aotconst_addr);
LLVMBuildBr (builder, exit_bb);
LLVMPositionBuilderAtEnd (builder, exit_bb);
LLVMBuildRetVoid (builder);
#else
LLVMValueRef switch_ins;
LLVMBasicBlockRef fail_bb, bb;
LLVMBasicBlockRef *bbs = NULL;
char *name;
bbs = g_new0 (LLVMBasicBlockRef, module->max_got_offset + 1);
for (int i = 0; i < module->max_got_offset + 1; ++i) {
name = g_strdup_printf ("BB_%d", i);
bb = LLVMAppendBasicBlock (func, name);
g_free (name);
bbs [i] = bb;
LLVMPositionBuilderAtEnd (builder, bb);
LLVMValueRef var = g_hash_table_lookup (module->aotconst_vars, GINT_TO_POINTER (i));
if (var) {
LLVMValueRef addr = LLVMBuildBitCast (builder, var, LLVMPointerType (IntPtrType (), 0), "");
LLVMBuildStore (builder, LLVMGetParam (func, 1), addr);
}
LLVMBuildRetVoid (builder);
}
fail_bb = LLVMAppendBasicBlock (func, "FAIL");
LLVMPositionBuilderAtEnd (builder, fail_bb);
LLVMBuildRetVoid (builder);
LLVMPositionBuilderAtEnd (builder, entry_bb);
switch_ins = LLVMBuildSwitch (builder, LLVMGetParam (func, 0), fail_bb, 0);
for (int i = 0; i < module->max_got_offset + 1; ++i)
LLVMAddCase (switch_ins, LLVMConstInt (LLVMInt32Type (), i, FALSE), bbs [i]);
#endif
LLVMDisposeBuilder (builder);
}
/* Add a function to mark the beginning of LLVM code */
static void
emit_llvm_code_start (MonoLLVMModule *module)
{
LLVMModuleRef lmodule = module->lmodule;
LLVMValueRef func;
LLVMBasicBlockRef entry_bb;
LLVMBuilderRef builder;
func = LLVMAddFunction (lmodule, "llvm_code_start", LLVMFunctionType (LLVMVoidType (), NULL, 0, FALSE));
LLVMSetLinkage (func, LLVMInternalLinkage);
mono_llvm_add_func_attr (func, LLVM_ATTR_NO_UNWIND);
module->code_start = func;
entry_bb = LLVMAppendBasicBlock (func, "ENTRY");
builder = LLVMCreateBuilder ();
LLVMPositionBuilderAtEnd (builder, entry_bb);
LLVMBuildRetVoid (builder);
LLVMDisposeBuilder (builder);
}
/*
* emit_init_func:
*
* Emit functions to initialize LLVM methods.
* These are wrappers around the mini_llvm_init_method () JIT icall.
* The wrappers handle adding the 'amodule' argument, loading the vtable from different locations, and they have
* a cold calling convention.
*/
static LLVMValueRef
emit_init_func (MonoLLVMModule *module, MonoAotInitSubtype subtype)
{
LLVMModuleRef lmodule = module->lmodule;
LLVMValueRef func, indexes [2], args [16], callee, info_var, index_var, inited_var, cmp;
LLVMBasicBlockRef entry_bb, inited_bb, notinited_bb;
LLVMBuilderRef builder;
LLVMTypeRef icall_sig;
const char *wrapper_name = mono_marshal_get_aot_init_wrapper_name (subtype);
LLVMTypeRef func_type = NULL;
LLVMTypeRef arg_type = module->ptr_type;
char *name = g_strdup_printf ("%s_%s", module->global_prefix, wrapper_name);
switch (subtype) {
case AOT_INIT_METHOD:
func_type = LLVMFunctionType1 (LLVMVoidType (), arg_type, FALSE);
break;
case AOT_INIT_METHOD_GSHARED_MRGCTX:
case AOT_INIT_METHOD_GSHARED_VTABLE:
func_type = LLVMFunctionType2 (LLVMVoidType (), arg_type, IntPtrType (), FALSE);
break;
case AOT_INIT_METHOD_GSHARED_THIS:
func_type = LLVMFunctionType2 (LLVMVoidType (), arg_type, ObjRefType (), FALSE);
break;
default:
g_assert_not_reached ();
}
func = LLVMAddFunction (lmodule, name, func_type);
info_var = LLVMGetParam (func, 0);
LLVMSetLinkage (func, LLVMInternalLinkage);
mono_llvm_add_func_attr (func, LLVM_ATTR_NO_INLINE);
set_cold_cconv (func);
entry_bb = LLVMAppendBasicBlock (func, "ENTRY");
builder = LLVMCreateBuilder ();
LLVMPositionBuilderAtEnd (builder, entry_bb);
/* Load method_index which is emitted at the start of the method info */
indexes [0] = const_int32 (0);
indexes [1] = const_int32 (0);
// FIXME: Make sure its aligned
index_var = LLVMBuildLoad (builder, LLVMBuildGEP (builder, LLVMBuildBitCast (builder, info_var, LLVMPointerType (LLVMInt32Type (), 0), ""), indexes, 1, ""), "method_index");
/* Check for is_inited here as well, since this can be called from JITted code which might not check it */
indexes [0] = const_int32 (0);
indexes [1] = index_var;
inited_var = LLVMBuildLoad (builder, LLVMBuildGEP (builder, module->inited_var, indexes, 2, ""), "is_inited");
cmp = LLVMBuildICmp (builder, LLVMIntEQ, inited_var, LLVMConstInt (LLVMTypeOf (inited_var), 0, FALSE), "");
inited_bb = LLVMAppendBasicBlock (func, "INITED");
notinited_bb = LLVMAppendBasicBlock (func, "NOT_INITED");
LLVMBuildCondBr (builder, cmp, notinited_bb, inited_bb);
LLVMPositionBuilderAtEnd (builder, notinited_bb);
LLVMValueRef amodule_var = get_aotconst_module (module, builder, MONO_PATCH_INFO_AOT_MODULE, NULL, LLVMPointerType (IntPtrType (), 0), NULL, NULL);
args [0] = LLVMBuildPtrToInt (builder, module->info_var, IntPtrType (), "");
args [1] = LLVMBuildPtrToInt (builder, amodule_var, IntPtrType (), "");
args [2] = info_var;
switch (subtype) {
case AOT_INIT_METHOD:
args [3] = LLVMConstNull (IntPtrType ());
break;
case AOT_INIT_METHOD_GSHARED_VTABLE:
args [3] = LLVMGetParam (func, 1);
break;
case AOT_INIT_METHOD_GSHARED_THIS:
/* Load this->vtable */
args [3] = LLVMBuildBitCast (builder, LLVMGetParam (func, 1), LLVMPointerType (IntPtrType (), 0), "");
indexes [0] = const_int32 (MONO_STRUCT_OFFSET (MonoObject, vtable) / SIZEOF_VOID_P);
args [3] = LLVMBuildLoad (builder, LLVMBuildGEP (builder, args [3], indexes, 1, ""), "vtable");
break;
case AOT_INIT_METHOD_GSHARED_MRGCTX:
/* Load mrgctx->vtable */
args [3] = LLVMBuildIntToPtr (builder, LLVMGetParam (func, 1), LLVMPointerType (IntPtrType (), 0), "");
indexes [0] = const_int32 (MONO_STRUCT_OFFSET (MonoMethodRuntimeGenericContext, class_vtable) / SIZEOF_VOID_P);
args [3] = LLVMBuildLoad (builder, LLVMBuildGEP (builder, args [3], indexes, 1, ""), "vtable");
break;
default:
g_assert_not_reached ();
break;
}
/* Call the mini_llvm_init_method JIT icall */
icall_sig = LLVMFunctionType4 (LLVMVoidType (), IntPtrType (), IntPtrType (), arg_type, IntPtrType (), FALSE);
callee = get_aotconst_module (module, builder, MONO_PATCH_INFO_JIT_ICALL_ID, GINT_TO_POINTER (MONO_JIT_ICALL_mini_llvm_init_method), LLVMPointerType (icall_sig, 0), NULL, NULL);
LLVMBuildCall (builder, callee, args, LLVMCountParamTypes (icall_sig), "");
/*
* Set the inited flag
* This is already done by the LLVM methods themselves, but its needed by JITted methods.
*/
indexes [0] = const_int32 (0);
indexes [1] = index_var;
LLVMBuildStore (builder, LLVMConstInt (LLVMInt8Type (), 1, FALSE), LLVMBuildGEP (builder, module->inited_var, indexes, 2, ""));
LLVMBuildBr (builder, inited_bb);
LLVMPositionBuilderAtEnd (builder, inited_bb);
LLVMBuildRetVoid (builder);
LLVMVerifyFunction (func, LLVMAbortProcessAction);
LLVMDisposeBuilder (builder);
g_free (name);
return func;
}
/* Emit a wrapper around the parameterless JIT icall ICALL_ID with a cold calling convention */
static LLVMValueRef
emit_icall_cold_wrapper (MonoLLVMModule *module, LLVMModuleRef lmodule, MonoJitICallId icall_id, gboolean aot)
{
LLVMValueRef func, callee;
LLVMBasicBlockRef entry_bb;
LLVMBuilderRef builder;
LLVMTypeRef sig;
char *name;
name = g_strdup_printf ("%s_icall_cold_wrapper_%d", module->global_prefix, icall_id);
func = LLVMAddFunction (lmodule, name, LLVMFunctionType (LLVMVoidType (), NULL, 0, FALSE));
sig = LLVMFunctionType (LLVMVoidType (), NULL, 0, FALSE);
LLVMSetLinkage (func, LLVMInternalLinkage);
mono_llvm_add_func_attr (func, LLVM_ATTR_NO_INLINE);
set_cold_cconv (func);
entry_bb = LLVMAppendBasicBlock (func, "ENTRY");
builder = LLVMCreateBuilder ();
LLVMPositionBuilderAtEnd (builder, entry_bb);
if (aot) {
callee = get_aotconst_module (module, builder, MONO_PATCH_INFO_JIT_ICALL_ID, GUINT_TO_POINTER (icall_id), LLVMPointerType (sig, 0), NULL, NULL);
} else {
MonoJitICallInfo * const info = mono_find_jit_icall_info (icall_id);
gpointer target = (gpointer)mono_icall_get_wrapper_full (info, TRUE);
LLVMValueRef tramp_var = LLVMAddGlobal (lmodule, LLVMPointerType (sig, 0), name);
LLVMSetInitializer (tramp_var, LLVMConstIntToPtr (LLVMConstInt (LLVMInt64Type (), (guint64)(size_t)target, FALSE), LLVMPointerType (sig, 0)));
LLVMSetLinkage (tramp_var, LLVMExternalLinkage);
callee = LLVMBuildLoad (builder, tramp_var, "");
}
LLVMBuildCall (builder, callee, NULL, 0, "");
LLVMBuildRetVoid (builder);
LLVMVerifyFunction(func, LLVMAbortProcessAction);
LLVMDisposeBuilder (builder);
return func;
}
/*
* Emit wrappers around the C icalls used to initialize llvm methods, to
* make the calling code smaller and to enable usage of the llvm
* cold calling convention.
*/
static void
emit_init_funcs (MonoLLVMModule *module)
{
for (int i = 0; i < AOT_INIT_METHOD_NUM; ++i)
module->init_methods [i] = emit_init_func (module, i);
}
static LLVMValueRef
get_init_func (MonoLLVMModule *module, MonoAotInitSubtype subtype)
{
return module->init_methods [subtype];
}
static void
emit_gc_safepoint_poll (MonoLLVMModule *module, LLVMModuleRef lmodule, MonoCompile *cfg)
{
gboolean is_aot = cfg == NULL || cfg->compile_aot;
LLVMValueRef func = mono_llvm_get_or_insert_gc_safepoint_poll (lmodule);
mono_llvm_add_func_attr (func, LLVM_ATTR_NO_UNWIND);
if (is_aot) {
#if TARGET_WIN32
if (module->static_link) {
LLVMSetLinkage (func, LLVMInternalLinkage);
/* Prevent it from being optimized away, leading to asserts inside 'opt' */
mark_as_used (module, func);
} else {
LLVMSetLinkage (func, LLVMWeakODRLinkage);
}
#else
LLVMSetLinkage (func, LLVMWeakODRLinkage);
#endif
} else {
mono_llvm_add_func_attr (func, LLVM_ATTR_OPTIMIZE_NONE); // no need to waste time here, the function is already optimized and will be inlined.
mono_llvm_add_func_attr (func, LLVM_ATTR_NO_INLINE); // optnone attribute requires noinline (but it will be inlined anyway)
if (!module->gc_poll_cold_wrapper_compiled) {
ERROR_DECL (error);
/* Compiling a method here is a bit ugly, but it works */
MonoMethod *wrapper = mono_marshal_get_llvm_func_wrapper (LLVM_FUNC_WRAPPER_GC_POLL);
module->gc_poll_cold_wrapper_compiled = mono_jit_compile_method (wrapper, error);
mono_error_assert_ok (error);
}
}
LLVMBasicBlockRef entry_bb = LLVMAppendBasicBlock (func, "gc.safepoint_poll.entry");
LLVMBasicBlockRef poll_bb = LLVMAppendBasicBlock (func, "gc.safepoint_poll.poll");
LLVMBasicBlockRef exit_bb = LLVMAppendBasicBlock (func, "gc.safepoint_poll.exit");
LLVMTypeRef ptr_type = LLVMPointerType (IntPtrType (), 0);
LLVMBuilderRef builder = LLVMCreateBuilder ();
/* entry: */
LLVMPositionBuilderAtEnd (builder, entry_bb);
LLVMValueRef poll_val_ptr;
if (is_aot) {
poll_val_ptr = get_aotconst_module (module, builder, MONO_PATCH_INFO_GC_SAFE_POINT_FLAG, NULL, ptr_type, NULL, NULL);
} else {
LLVMValueRef poll_val_int = LLVMConstInt (IntPtrType (), (guint64) &mono_polling_required, FALSE);
poll_val_ptr = LLVMBuildIntToPtr (builder, poll_val_int, ptr_type, "");
}
LLVMValueRef poll_val_ptr_load = LLVMBuildLoad (builder, poll_val_ptr, ""); // probably needs to be volatile
LLVMValueRef poll_val = LLVMBuildPtrToInt (builder, poll_val_ptr_load, IntPtrType (), "");
LLVMValueRef poll_val_zero = LLVMConstNull (LLVMTypeOf (poll_val));
LLVMValueRef cmp = LLVMBuildICmp (builder, LLVMIntEQ, poll_val, poll_val_zero, "");
mono_llvm_build_weighted_branch (builder, cmp, exit_bb, poll_bb, 1000 /* weight for exit_bb */, 1 /* weight for poll_bb */);
/* poll: */
LLVMPositionBuilderAtEnd (builder, poll_bb);
LLVMValueRef call;
if (is_aot) {
LLVMValueRef icall_wrapper = emit_icall_cold_wrapper (module, lmodule, MONO_JIT_ICALL_mono_threads_state_poll, TRUE);
module->gc_poll_cold_wrapper = icall_wrapper;
call = LLVMBuildCall (builder, icall_wrapper, NULL, 0, "");
} else {
// in JIT mode we have to emit @gc.safepoint_poll function for each method (module)
// this function calls gc_poll_cold_wrapper_compiled via a global variable.
// @gc.safepoint_poll will be inlined and can be deleted after -place-safepoints pass.
LLVMTypeRef poll_sig = LLVMFunctionType0 (LLVMVoidType (), FALSE);
LLVMTypeRef poll_sig_ptr = LLVMPointerType (poll_sig, 0);
gpointer target = resolve_patch (cfg, MONO_PATCH_INFO_ABS, module->gc_poll_cold_wrapper_compiled);
LLVMValueRef tramp_var = LLVMAddGlobal (lmodule, poll_sig_ptr, "mono_threads_state_poll");
LLVMValueRef target_val = LLVMConstInt (LLVMInt64Type (), (guint64) target, FALSE);
LLVMSetInitializer (tramp_var, LLVMConstIntToPtr (target_val, poll_sig_ptr));
LLVMSetLinkage (tramp_var, LLVMExternalLinkage);
LLVMValueRef callee = LLVMBuildLoad (builder, tramp_var, "");
call = LLVMBuildCall (builder, callee, NULL, 0, "");
}
set_call_cold_cconv (call);
LLVMBuildBr (builder, exit_bb);
/* exit: */
LLVMPositionBuilderAtEnd (builder, exit_bb);
LLVMBuildRetVoid (builder);
LLVMDisposeBuilder (builder);
}
static void
emit_llvm_code_end (MonoLLVMModule *module)
{
LLVMModuleRef lmodule = module->lmodule;
LLVMValueRef func;
LLVMBasicBlockRef entry_bb;
LLVMBuilderRef builder;
func = LLVMAddFunction (lmodule, "llvm_code_end", LLVMFunctionType (LLVMVoidType (), NULL, 0, FALSE));
LLVMSetLinkage (func, LLVMInternalLinkage);
mono_llvm_add_func_attr (func, LLVM_ATTR_NO_UNWIND);
module->code_end = func;
entry_bb = LLVMAppendBasicBlock (func, "ENTRY");
builder = LLVMCreateBuilder ();
LLVMPositionBuilderAtEnd (builder, entry_bb);
LLVMBuildRetVoid (builder);
LLVMDisposeBuilder (builder);
}
static void
emit_div_check (EmitContext *ctx, LLVMBuilderRef builder, MonoBasicBlock *bb, MonoInst *ins, LLVMValueRef lhs, LLVMValueRef rhs)
{
gboolean need_div_check = ctx->cfg->backend->need_div_check;
if (bb->region)
/* LLVM doesn't know that these can throw an exception since they are not called through an intrinsic */
need_div_check = TRUE;
if (!need_div_check)
return;
switch (ins->opcode) {
case OP_IDIV:
case OP_LDIV:
case OP_IREM:
case OP_LREM:
case OP_IDIV_UN:
case OP_LDIV_UN:
case OP_IREM_UN:
case OP_LREM_UN:
case OP_IDIV_IMM:
case OP_LDIV_IMM:
case OP_IREM_IMM:
case OP_LREM_IMM:
case OP_IDIV_UN_IMM:
case OP_LDIV_UN_IMM:
case OP_IREM_UN_IMM:
case OP_LREM_UN_IMM: {
LLVMValueRef cmp;
gboolean is_signed = (ins->opcode == OP_IDIV || ins->opcode == OP_LDIV || ins->opcode == OP_IREM || ins->opcode == OP_LREM ||
ins->opcode == OP_IDIV_IMM || ins->opcode == OP_LDIV_IMM || ins->opcode == OP_IREM_IMM || ins->opcode == OP_LREM_IMM);
cmp = LLVMBuildICmp (builder, LLVMIntEQ, rhs, LLVMConstInt (LLVMTypeOf (rhs), 0, FALSE), "");
emit_cond_system_exception (ctx, bb, "DivideByZeroException", cmp, FALSE);
if (!ctx_ok (ctx))
break;
builder = ctx->builder;
/* b == -1 && a == 0x80000000 */
if (is_signed) {
LLVMValueRef c = (LLVMTypeOf (lhs) == LLVMInt32Type ()) ? LLVMConstInt (LLVMTypeOf (lhs), 0x80000000, FALSE) : LLVMConstInt (LLVMTypeOf (lhs), 0x8000000000000000LL, FALSE);
LLVMValueRef cond1 = LLVMBuildICmp (builder, LLVMIntEQ, rhs, LLVMConstInt (LLVMTypeOf (rhs), -1, FALSE), "");
LLVMValueRef cond2 = LLVMBuildICmp (builder, LLVMIntEQ, lhs, c, "");
cmp = LLVMBuildICmp (builder, LLVMIntEQ, LLVMBuildAnd (builder, cond1, cond2, ""), LLVMConstInt (LLVMInt1Type (), 1, FALSE), "");
emit_cond_system_exception (ctx, bb, "OverflowException", cmp, FALSE);
if (!ctx_ok (ctx))
break;
builder = ctx->builder;
}
break;
}
default:
break;
}
}
/*
* emit_method_init:
*
* Emit code to initialize the GOT slots used by the method.
*/
static void
emit_method_init (EmitContext *ctx)
{
LLVMValueRef indexes [16], args [16];
LLVMValueRef inited_var, cmp, call;
LLVMBasicBlockRef inited_bb, notinited_bb;
LLVMBuilderRef builder = ctx->builder;
MonoCompile *cfg = ctx->cfg;
MonoAotInitSubtype subtype;
ctx->module->max_inited_idx = MAX (ctx->module->max_inited_idx, cfg->method_index);
indexes [0] = const_int32 (0);
indexes [1] = const_int32 (cfg->method_index);
inited_var = LLVMBuildLoad (builder, LLVMBuildGEP (builder, ctx->module->inited_var, indexes, 2, ""), "is_inited");
args [0] = inited_var;
args [1] = LLVMConstInt (LLVMInt8Type (), 1, FALSE);
inited_var = LLVMBuildCall (ctx->builder, get_intrins (ctx, INTRINS_EXPECT_I8), args, 2, "");
cmp = LLVMBuildICmp (builder, LLVMIntEQ, inited_var, LLVMConstInt (LLVMTypeOf (inited_var), 0, FALSE), "");
inited_bb = ctx->inited_bb;
notinited_bb = gen_bb (ctx, "NOTINITED_BB");
ctx->cfg->llvmonly_init_cond = LLVMBuildCondBr (ctx->builder, cmp, notinited_bb, inited_bb);
builder = ctx->builder = create_builder (ctx);
LLVMPositionBuilderAtEnd (ctx->builder, notinited_bb);
LLVMTypeRef type = LLVMArrayType (LLVMInt8Type (), 0);
char *symbol = g_strdup_printf ("info_dummy_%s", cfg->llvm_method_name);
LLVMValueRef info_var = LLVMAddGlobal (ctx->lmodule, type, symbol);
g_free (symbol);
cfg->llvm_dummy_info_var = info_var;
int nargs = 0;
args [nargs ++] = convert (ctx, info_var, ctx->module->ptr_type);
switch (cfg->rgctx_access) {
case MONO_RGCTX_ACCESS_MRGCTX:
if (ctx->rgctx_arg) {
args [nargs ++] = convert (ctx, ctx->rgctx_arg, IntPtrType ());
subtype = AOT_INIT_METHOD_GSHARED_MRGCTX;
} else {
g_assert (ctx->this_arg);
args [nargs ++] = convert (ctx, ctx->this_arg, ObjRefType ());
subtype = AOT_INIT_METHOD_GSHARED_THIS;
}
break;
case MONO_RGCTX_ACCESS_VTABLE:
args [nargs ++] = convert (ctx, ctx->rgctx_arg, IntPtrType ());
subtype = AOT_INIT_METHOD_GSHARED_VTABLE;
break;
case MONO_RGCTX_ACCESS_THIS:
args [nargs ++] = convert (ctx, ctx->this_arg, ObjRefType ());
subtype = AOT_INIT_METHOD_GSHARED_THIS;
break;
case MONO_RGCTX_ACCESS_NONE:
subtype = AOT_INIT_METHOD;
break;
default:
g_assert_not_reached ();
}
call = LLVMBuildCall (builder, ctx->module->init_methods [subtype], args, nargs, "");
/*
* This enables llvm to keep arguments in their original registers/
* scratch registers, since the call will not clobber them.
*/
set_call_cold_cconv (call);
// Set the inited flag
indexes [0] = const_int32 (0);
indexes [1] = const_int32 (cfg->method_index);
LLVMBuildStore (builder, LLVMConstInt (LLVMInt8Type (), 1, FALSE), LLVMBuildGEP (builder, ctx->module->inited_var, indexes, 2, ""));
LLVMBuildBr (builder, inited_bb);
ctx->bblocks [cfg->bb_entry->block_num].end_bblock = inited_bb;
builder = ctx->builder = create_builder (ctx);
LLVMPositionBuilderAtEnd (ctx->builder, inited_bb);
}
static void
emit_unbox_tramp (EmitContext *ctx, const char *method_name, LLVMTypeRef method_type, LLVMValueRef method, int method_index)
{
/*
* Emit unbox trampoline using a tailcall
*/
LLVMValueRef tramp, call, *args;
LLVMBuilderRef builder;
LLVMBasicBlockRef lbb;
LLVMCallInfo *linfo;
char *tramp_name;
int i, nargs;
tramp_name = g_strdup_printf ("ut_%s", method_name);
tramp = LLVMAddFunction (ctx->module->lmodule, tramp_name, method_type);
LLVMSetLinkage (tramp, LLVMInternalLinkage);
mono_llvm_add_func_attr (tramp, LLVM_ATTR_OPTIMIZE_FOR_SIZE);
//mono_llvm_add_func_attr (tramp, LLVM_ATTR_NO_UNWIND);
linfo = ctx->linfo;
// FIXME: Reduce code duplication with mono_llvm_compile_method () etc.
if (!ctx->llvm_only && ctx->rgctx_arg_pindex != -1)
mono_llvm_add_param_attr (LLVMGetParam (tramp, ctx->rgctx_arg_pindex), LLVM_ATTR_IN_REG);
if (ctx->cfg->vret_addr) {
LLVMSetValueName (LLVMGetParam (tramp, linfo->vret_arg_pindex), "vret");
if (linfo->ret.storage == LLVMArgVtypeByRef) {
mono_llvm_add_param_attr (LLVMGetParam (tramp, linfo->vret_arg_pindex), LLVM_ATTR_STRUCT_RET);
mono_llvm_add_param_attr (LLVMGetParam (tramp, linfo->vret_arg_pindex), LLVM_ATTR_NO_ALIAS);
}
}
lbb = LLVMAppendBasicBlock (tramp, "");
builder = LLVMCreateBuilder ();
LLVMPositionBuilderAtEnd (builder, lbb);
nargs = LLVMCountParamTypes (method_type);
args = g_new0 (LLVMValueRef, nargs);
for (i = 0; i < nargs; ++i) {
args [i] = LLVMGetParam (tramp, i);
if (i == ctx->this_arg_pindex) {
LLVMTypeRef arg_type = LLVMTypeOf (args [i]);
args [i] = LLVMBuildPtrToInt (builder, args [i], IntPtrType (), "");
args [i] = LLVMBuildAdd (builder, args [i], LLVMConstInt (IntPtrType (), MONO_ABI_SIZEOF (MonoObject), FALSE), "");
args [i] = LLVMBuildIntToPtr (builder, args [i], arg_type, "");
}
}
call = LLVMBuildCall (builder, method, args, nargs, "");
if (!ctx->llvm_only && ctx->rgctx_arg_pindex != -1)
mono_llvm_add_instr_attr (call, 1 + ctx->rgctx_arg_pindex, LLVM_ATTR_IN_REG);
if (linfo->ret.storage == LLVMArgVtypeByRef)
mono_llvm_add_instr_attr (call, 1 + linfo->vret_arg_pindex, LLVM_ATTR_STRUCT_RET);
// FIXME: This causes assertions in clang
//mono_llvm_set_must_tailcall (call);
if (LLVMGetReturnType (method_type) == LLVMVoidType ())
LLVMBuildRetVoid (builder);
else
LLVMBuildRet (builder, call);
g_hash_table_insert (ctx->module->idx_to_unbox_tramp, GINT_TO_POINTER (method_index), tramp);
LLVMDisposeBuilder (builder);
}
#ifdef TARGET_WASM
static void
emit_gc_pin (EmitContext *ctx, LLVMBuilderRef builder, int vreg)
{
LLVMValueRef index0 = LLVMConstInt (LLVMInt32Type (), 0, FALSE);
LLVMValueRef index1 = LLVMConstInt (LLVMInt32Type (), ctx->gc_var_indexes [vreg] - 1, FALSE);
LLVMValueRef indexes [] = { index0, index1 };
LLVMValueRef addr = LLVMBuildGEP (builder, ctx->gc_pin_area, indexes, 2, "");
mono_llvm_build_store (builder, convert (ctx, ctx->values [vreg], IntPtrType ()), addr, TRUE, LLVM_BARRIER_NONE);
}
#endif
/*
* emit_entry_bb:
*
* Emit code to load/convert arguments.
*/
static void
emit_entry_bb (EmitContext *ctx, LLVMBuilderRef builder)
{
int i, j, pindex;
MonoCompile *cfg = ctx->cfg;
MonoMethodSignature *sig = ctx->sig;
LLVMCallInfo *linfo = ctx->linfo;
MonoBasicBlock *bb;
char **names;
LLVMBuilderRef old_builder = ctx->builder;
ctx->builder = builder;
ctx->alloca_builder = create_builder (ctx);
#ifdef TARGET_WASM
/*
* For GC stack scanning to work, allocate an area on the stack and store
* every ref vreg into it after its written. Because the stack is scanned
* conservatively, the objects will be pinned, so the vregs can directly
* reference the objects, there is no need to load them from the stack
* on every access.
*/
ctx->gc_var_indexes = g_new0 (int, cfg->next_vreg);
int ngc_vars = 0;
for (i = 0; i < cfg->next_vreg; ++i) {
if (vreg_is_ref (cfg, i)) {
ctx->gc_var_indexes [i] = ngc_vars + 1;
ngc_vars ++;
}
}
// FIXME: Count only live vregs
ctx->gc_pin_area = build_alloca_llvm_type_name (ctx, LLVMArrayType (IntPtrType (), ngc_vars), 0, "gc_pin");
#endif
/*
* Handle indirect/volatile variables by allocating memory for them
* using 'alloca', and storing their address in a temporary.
*/
for (i = 0; i < cfg->num_varinfo; ++i) {
MonoInst *var = cfg->varinfo [i];
if ((var->opcode == OP_GSHAREDVT_LOCAL || var->opcode == OP_GSHAREDVT_ARG_REGOFFSET))
continue;
if (var->flags & (MONO_INST_VOLATILE|MONO_INST_INDIRECT) || (mini_type_is_vtype (var->inst_vtype) && !MONO_CLASS_IS_SIMD (ctx->cfg, var->klass))) {
if (!ctx_ok (ctx))
return;
/* Could be already created by an OP_VPHI */
if (!ctx->addresses [var->dreg]) {
if (var->flags & MONO_INST_LMF) {
// FIXME: Allocate a smaller struct in the deopt case
int size = cfg->deopt ? MONO_ABI_SIZEOF (MonoLMFExt) : MONO_ABI_SIZEOF (MonoLMF);
ctx->addresses [var->dreg] = build_alloca_llvm_type_name (ctx, LLVMArrayType (LLVMInt8Type (), size), sizeof (target_mgreg_t), "lmf");
} else {
char *name = g_strdup_printf ("vreg_loc_%d", var->dreg);
ctx->addresses [var->dreg] = build_named_alloca (ctx, var->inst_vtype, name);
g_free (name);
}
}
ctx->vreg_cli_types [var->dreg] = var->inst_vtype;
}
}
names = g_new (char *, sig->param_count);
mono_method_get_param_names (cfg->method, (const char **) names);
for (i = 0; i < sig->param_count; ++i) {
LLVMArgInfo *ainfo = &linfo->args [i + sig->hasthis];
int reg = cfg->args [i + sig->hasthis]->dreg;
char *name;
pindex = ainfo->pindex;
LLVMValueRef arg = LLVMGetParam (ctx->lmethod, pindex);
switch (ainfo->storage) {
case LLVMArgVtypeInReg:
case LLVMArgAsFpArgs: {
LLVMValueRef args [8];
int j;
pindex += ainfo->ndummy_fpargs;
/* The argument is received as a set of int/fp arguments, store them into the real argument */
memset (args, 0, sizeof (args));
if (ainfo->storage == LLVMArgVtypeInReg) {
args [0] = LLVMGetParam (ctx->lmethod, pindex);
if (ainfo->pair_storage [1] != LLVMArgNone)
args [1] = LLVMGetParam (ctx->lmethod, pindex + 1);
} else {
g_assert (ainfo->nslots <= 8);
for (j = 0; j < ainfo->nslots; ++j)
args [j] = LLVMGetParam (ctx->lmethod, pindex + j);
}
ctx->addresses [reg] = build_alloca (ctx, ainfo->type);
emit_args_to_vtype (ctx, builder, ainfo->type, ctx->addresses [reg], ainfo, args);
break;
}
case LLVMArgVtypeByVal: {
ctx->addresses [reg] = LLVMGetParam (ctx->lmethod, pindex);
break;
}
case LLVMArgVtypeAddr:
case LLVMArgVtypeByRef: {
/* The argument is passed by ref */
ctx->addresses [reg] = LLVMGetParam (ctx->lmethod, pindex);
break;
}
case LLVMArgAsIArgs: {
LLVMValueRef arg = LLVMGetParam (ctx->lmethod, pindex);
int size;
MonoType *t = mini_get_underlying_type (ainfo->type);
/* The argument is received as an array of ints, store it into the real argument */
ctx->addresses [reg] = build_alloca (ctx, t);
size = mono_class_value_size (mono_class_from_mono_type_internal (t), NULL);
if (size == 0) {
} else if (size < TARGET_SIZEOF_VOID_P) {
/* The upper bits of the registers might not be valid */
LLVMValueRef val = LLVMBuildExtractValue (builder, arg, 0, "");
LLVMValueRef dest = convert (ctx, ctx->addresses [reg], LLVMPointerType (LLVMIntType (size * 8), 0));
LLVMBuildStore (ctx->builder, LLVMBuildTrunc (builder, val, LLVMIntType (size * 8), ""), dest);
} else {
LLVMBuildStore (ctx->builder, arg, convert (ctx, ctx->addresses [reg], LLVMPointerType (LLVMTypeOf (arg), 0)));
}
break;
}
case LLVMArgVtypeAsScalar:
g_assert_not_reached ();
break;
case LLVMArgWasmVtypeAsScalar: {
MonoType *t = mini_get_underlying_type (ainfo->type);
/* The argument is received as a scalar */
ctx->addresses [reg] = build_alloca (ctx, t);
LLVMValueRef dest = convert (ctx, ctx->addresses [reg], LLVMPointerType (LLVMIntType (ainfo->esize * 8), 0));
LLVMBuildStore (ctx->builder, arg, dest);
break;
}
case LLVMArgGsharedvtFixed: {
/* These are non-gsharedvt arguments passed by ref, the rest of the IR treats them as scalars */
LLVMValueRef arg = LLVMGetParam (ctx->lmethod, pindex);
if (names [i])
name = g_strdup_printf ("arg_%s", names [i]);
else
name = g_strdup_printf ("arg_%d", i);
ctx->values [reg] = LLVMBuildLoad (builder, convert (ctx, arg, LLVMPointerType (type_to_llvm_type (ctx, ainfo->type), 0)), name);
break;
}
case LLVMArgGsharedvtFixedVtype: {
LLVMValueRef arg = LLVMGetParam (ctx->lmethod, pindex);
if (names [i])
name = g_strdup_printf ("vtype_arg_%s", names [i]);
else
name = g_strdup_printf ("vtype_arg_%d", i);
/* Non-gsharedvt vtype argument passed by ref, the rest of the IR treats it as a vtype */
g_assert (ctx->addresses [reg]);
LLVMSetValueName (ctx->addresses [reg], name);
LLVMBuildStore (builder, LLVMBuildLoad (builder, convert (ctx, arg, LLVMPointerType (type_to_llvm_type (ctx, ainfo->type), 0)), ""), ctx->addresses [reg]);
break;
}
case LLVMArgGsharedvtVariable:
/* The IR treats these as variables with addresses */
if (!ctx->addresses [reg])
ctx->addresses [reg] = LLVMGetParam (ctx->lmethod, pindex);
break;
default: {
LLVMTypeRef t;
/* Needed to avoid phi argument mismatch errors since operations on pointers produce i32/i64 */
if (m_type_is_byref (ainfo->type))
t = IntPtrType ();
else
t = type_to_llvm_type (ctx, ainfo->type);
ctx->values [reg] = convert_full (ctx, ctx->values [reg], llvm_type_to_stack_type (cfg, t), type_is_unsigned (ctx, ainfo->type));
break;
}
}
switch (ainfo->storage) {
case LLVMArgVtypeInReg:
case LLVMArgVtypeByVal:
case LLVMArgAsIArgs:
// FIXME: Enabling this fails on windows
case LLVMArgVtypeAddr:
case LLVMArgVtypeByRef:
{
if (MONO_CLASS_IS_SIMD (ctx->cfg, mono_class_from_mono_type_internal (ainfo->type)))
/* Treat these as normal values */
ctx->values [reg] = LLVMBuildLoad (builder, ctx->addresses [reg], "simd_vtype");
break;
}
default:
break;
}
}
g_free (names);
if (sig->hasthis) {
/* Handle this arguments as inputs to phi nodes */
int reg = cfg->args [0]->dreg;
if (ctx->vreg_types [reg])
ctx->values [reg] = convert (ctx, ctx->values [reg], ctx->vreg_types [reg]);
}
if (cfg->vret_addr)
emit_volatile_store (ctx, cfg->vret_addr->dreg);
if (sig->hasthis)
emit_volatile_store (ctx, cfg->args [0]->dreg);
for (i = 0; i < sig->param_count; ++i)
if (!mini_type_is_vtype (sig->params [i]))
emit_volatile_store (ctx, cfg->args [i + sig->hasthis]->dreg);
if (sig->hasthis && !cfg->rgctx_var && cfg->gshared && !cfg->llvm_only) {
LLVMValueRef this_alloc;
/*
* The exception handling code needs the location where the this argument was
* stored for gshared methods. We create a separate alloca to hold it, and mark it
* with the "mono.this" custom metadata to tell llvm that it needs to save its
* location into the LSDA.
*/
this_alloc = mono_llvm_build_alloca (builder, ThisType (), LLVMConstInt (LLVMInt32Type (), 1, FALSE), 0, "");
/* This volatile store will keep the alloca alive */
mono_llvm_build_store (builder, ctx->values [cfg->args [0]->dreg], this_alloc, TRUE, LLVM_BARRIER_NONE);
set_metadata_flag (this_alloc, "mono.this");
}
if (cfg->rgctx_var) {
if (!(cfg->rgctx_var->flags & MONO_INST_VOLATILE)) {
/* FIXME: This could be volatile even in llvmonly mode if used inside a clause etc. */
g_assert (!ctx->addresses [cfg->rgctx_var->dreg]);
ctx->values [cfg->rgctx_var->dreg] = ctx->rgctx_arg;
} else {
LLVMValueRef rgctx_alloc, store;
/*
* We handle the rgctx arg similarly to the this pointer.
*/
g_assert (ctx->addresses [cfg->rgctx_var->dreg]);
rgctx_alloc = ctx->addresses [cfg->rgctx_var->dreg];
/* This volatile store will keep the alloca alive */
store = mono_llvm_build_store (builder, convert (ctx, ctx->rgctx_arg, IntPtrType ()), rgctx_alloc, TRUE, LLVM_BARRIER_NONE);
(void)store; /* unused */
set_metadata_flag (rgctx_alloc, "mono.this");
}
}
#ifdef TARGET_WASM
/*
* Store ref arguments to the pin area.
* FIXME: This might not be needed, since the caller already does it ?
*/
for (i = 0; i < cfg->num_varinfo; ++i) {
MonoInst *var = cfg->varinfo [i];
if (var->opcode == OP_ARG && vreg_is_ref (cfg, var->dreg) && ctx->values [var->dreg])
emit_gc_pin (ctx, builder, var->dreg);
}
#endif
if (cfg->deopt) {
LLVMValueRef addr, index [2];
MonoMethodHeader *header = cfg->header;
int nfields = (sig->ret->type != MONO_TYPE_VOID ? 1 : 0) + sig->hasthis + sig->param_count + header->num_locals + 2;
LLVMTypeRef *types = g_alloca (nfields * sizeof (LLVMTypeRef));
int findex = 0;
/* method */
types [findex ++] = IntPtrType ();
/* il_offset */
types [findex ++] = LLVMInt32Type ();
int data_start = findex;
/* data */
if (sig->ret->type != MONO_TYPE_VOID)
types [findex ++] = IntPtrType ();
if (sig->hasthis)
types [findex ++] = IntPtrType ();
for (int i = 0; i < sig->param_count; ++i)
types [findex ++] = LLVMPointerType (type_to_llvm_type (ctx, sig->params [i]), 0);
for (int i = 0; i < header->num_locals; ++i)
types [findex ++] = LLVMPointerType (type_to_llvm_type (ctx, header->locals [i]), 0);
g_assert (findex == nfields);
char *name = g_strdup_printf ("%s_il_state", ctx->method_name);
LLVMTypeRef il_state_type = LLVMStructCreateNamed (ctx->module->context, name);
LLVMStructSetBody (il_state_type, types, nfields, FALSE);
g_free (name);
ctx->il_state = build_alloca_llvm_type_name (ctx, il_state_type, 0, "il_state");
g_assert (cfg->il_state_var);
ctx->addresses [cfg->il_state_var->dreg] = ctx->il_state;
/* Set il_state->il_offset = -1 */
index [0] = LLVMConstInt (LLVMInt32Type (), 0, FALSE);
index [1] = LLVMConstInt (LLVMInt32Type (), 1, FALSE);
addr = LLVMBuildGEP (builder, ctx->il_state, index, 2, "");
LLVMBuildStore (ctx->builder, LLVMConstInt (types [1], -1, FALSE), addr);
/*
* Set il_state->data [i] to either the address of the arg/local, or NULL.
* Because of mono_liveness_handle_exception_clauses (), all locals used/reachable from
* clauses are supposed to be volatile, so they have an address.
*/
findex = data_start;
if (sig->ret->type != MONO_TYPE_VOID) {
LLVMTypeRef ret_type = type_to_llvm_type (ctx, sig->ret);
ctx->il_state_ret = build_alloca_llvm_type_name (ctx, ret_type, 0, "il_state_ret");
index [0] = LLVMConstInt (LLVMInt32Type (), 0, FALSE);
index [1] = LLVMConstInt (LLVMInt32Type (), findex, FALSE);
addr = LLVMBuildGEP (builder, ctx->il_state, index, 2, "");
LLVMBuildStore (ctx->builder, ctx->il_state_ret, convert (ctx, addr, LLVMPointerType (LLVMTypeOf (ctx->il_state_ret), 0)));
findex ++;
}
for (int i = 0; i < sig->hasthis + sig->param_count; ++i) {
LLVMValueRef var_addr = ctx->addresses [cfg->args [i]->dreg];
index [0] = LLVMConstInt (LLVMInt32Type (), 0, FALSE);
index [1] = LLVMConstInt (LLVMInt32Type (), findex, FALSE);
addr = LLVMBuildGEP (builder, ctx->il_state, index, 2, "");
if (var_addr)
LLVMBuildStore (ctx->builder, var_addr, convert (ctx, addr, LLVMPointerType (LLVMTypeOf (var_addr), 0)));
else
LLVMBuildStore (ctx->builder, LLVMConstNull (types [findex]), addr);
findex ++;
}
for (int i = 0; i < header->num_locals; ++i) {
LLVMValueRef var_addr = ctx->addresses [cfg->locals [i]->dreg];
index [0] = LLVMConstInt (LLVMInt32Type (), 0, FALSE);
index [1] = LLVMConstInt (LLVMInt32Type (), findex, FALSE);
addr = LLVMBuildGEP (builder, ctx->il_state, index, 2, "");
if (var_addr)
LLVMBuildStore (ctx->builder, LLVMBuildBitCast (builder, var_addr, types [findex], ""), addr);
else
LLVMBuildStore (ctx->builder, LLVMConstNull (types [findex]), addr);
findex ++;
}
}
/* Initialize the method if needed */
if (cfg->compile_aot) {
/* Emit a location for the initialization code */
ctx->init_bb = gen_bb (ctx, "INIT_BB");
ctx->inited_bb = gen_bb (ctx, "INITED_BB");
LLVMBuildBr (ctx->builder, ctx->init_bb);
builder = ctx->builder = create_builder (ctx);
LLVMPositionBuilderAtEnd (ctx->builder, ctx->inited_bb);
ctx->bblocks [cfg->bb_entry->block_num].end_bblock = ctx->inited_bb;
}
/* Compute nesting between clauses */
ctx->nested_in = (GSList**)mono_mempool_alloc0 (cfg->mempool, sizeof (GSList*) * cfg->header->num_clauses);
for (i = 0; i < cfg->header->num_clauses; ++i) {
for (j = 0; j < cfg->header->num_clauses; ++j) {
MonoExceptionClause *clause1 = &cfg->header->clauses [i];
MonoExceptionClause *clause2 = &cfg->header->clauses [j];
if (i != j && clause1->try_offset >= clause2->try_offset && clause1->handler_offset <= clause2->handler_offset)
ctx->nested_in [i] = g_slist_prepend_mempool (cfg->mempool, ctx->nested_in [i], GINT_TO_POINTER (j));
}
}
/*
* For finally clauses, create an indicator variable telling OP_ENDFINALLY whenever
* it needs to continue normally, or return back to the exception handling system.
*/
for (bb = cfg->bb_entry; bb; bb = bb->next_bb) {
char name [128];
if (!(bb->region != -1 && (bb->flags & BB_EXCEPTION_HANDLER)))
continue;
if (bb->in_scount == 0) {
LLVMValueRef val;
sprintf (name, "finally_ind_bb%d", bb->block_num);
val = LLVMBuildAlloca (builder, LLVMInt32Type (), name);
LLVMBuildStore (builder, LLVMConstInt (LLVMInt32Type (), 0, FALSE), val);
ctx->bblocks [bb->block_num].finally_ind = val;
} else {
/* Create a variable to hold the exception var */
if (!ctx->ex_var)
ctx->ex_var = LLVMBuildAlloca (builder, ObjRefType (), "exvar");
}
}
ctx->builder = old_builder;
}
static gboolean
needs_extra_arg (EmitContext *ctx, MonoMethod *method)
{
WrapperInfo *info = NULL;
/*
* When targeting wasm, the caller and callee signature has to match exactly. This means
* that every method which can be called indirectly need an extra arg since the caller
* will call it through an ftnptr and will pass an extra arg.
*/
if (!ctx->cfg->llvm_only || !ctx->emit_dummy_arg)
return FALSE;
if (method->wrapper_type)
info = mono_marshal_get_wrapper_info (method);
switch (method->wrapper_type) {
case MONO_WRAPPER_OTHER:
if (info->subtype == WRAPPER_SUBTYPE_GSHAREDVT_IN_SIG || info->subtype == WRAPPER_SUBTYPE_GSHAREDVT_OUT_SIG)
/* Already have an explicit extra arg */
return FALSE;
break;
case MONO_WRAPPER_MANAGED_TO_NATIVE:
if (strstr (method->name, "icall_wrapper"))
/* These are JIT icall wrappers which are only called from JITted code directly */
return FALSE;
/* Normal icalls can be virtual methods which need an extra arg */
break;
case MONO_WRAPPER_RUNTIME_INVOKE:
case MONO_WRAPPER_ALLOC:
case MONO_WRAPPER_CASTCLASS:
case MONO_WRAPPER_WRITE_BARRIER:
case MONO_WRAPPER_NATIVE_TO_MANAGED:
return FALSE;
case MONO_WRAPPER_STELEMREF:
if (info->subtype != WRAPPER_SUBTYPE_VIRTUAL_STELEMREF)
return FALSE;
break;
case MONO_WRAPPER_MANAGED_TO_MANAGED:
if (info->subtype == WRAPPER_SUBTYPE_STRING_CTOR)
return FALSE;
break;
default:
break;
}
if (method->string_ctor)
return FALSE;
/* These are called from gsharedvt code with an indirect call which doesn't pass an extra arg */
if (method->klass == mono_get_string_class () && (strstr (method->name, "memcpy") || strstr (method->name, "bzero")))
return FALSE;
return TRUE;
}
static inline gboolean
is_supported_callconv (EmitContext *ctx, MonoCallInst *call)
{
#if defined(TARGET_WIN32) && defined(TARGET_AMD64)
gboolean result = (call->signature->call_convention == MONO_CALL_DEFAULT) ||
(call->signature->call_convention == MONO_CALL_C) ||
(call->signature->call_convention == MONO_CALL_STDCALL);
#else
gboolean result = (call->signature->call_convention == MONO_CALL_DEFAULT) || ((call->signature->call_convention == MONO_CALL_C) && ctx->llvm_only);
#endif
return result;
}
static void
process_call (EmitContext *ctx, MonoBasicBlock *bb, LLVMBuilderRef *builder_ref, MonoInst *ins)
{
MonoCompile *cfg = ctx->cfg;
LLVMValueRef *values = ctx->values;
LLVMValueRef *addresses = ctx->addresses;
MonoCallInst *call = (MonoCallInst*)ins;
MonoMethodSignature *sig = call->signature;
LLVMValueRef callee = NULL, lcall;
LLVMValueRef *args;
LLVMCallInfo *cinfo;
GSList *l;
int i, len, nargs;
gboolean vretaddr;
LLVMTypeRef llvm_sig;
gpointer target;
gboolean is_virtual, calli;
LLVMBuilderRef builder = *builder_ref;
/* If both imt and rgctx arg are required, only pass the imt arg, the rgctx trampoline will pass the rgctx */
if (call->imt_arg_reg)
call->rgctx_arg_reg = 0;
if (!is_supported_callconv (ctx, call)) {
set_failure (ctx, "non-default callconv");
return;
}
cinfo = call->cinfo;
g_assert (cinfo);
if (call->rgctx_arg_reg)
cinfo->rgctx_arg = TRUE;
if (call->imt_arg_reg)
cinfo->imt_arg = TRUE;
if (!call->rgctx_arg_reg && call->method && needs_extra_arg (ctx, call->method))
cinfo->dummy_arg = TRUE;
vretaddr = (cinfo->ret.storage == LLVMArgVtypeRetAddr || cinfo->ret.storage == LLVMArgVtypeByRef || cinfo->ret.storage == LLVMArgGsharedvtFixed || cinfo->ret.storage == LLVMArgGsharedvtVariable || cinfo->ret.storage == LLVMArgGsharedvtFixedVtype);
llvm_sig = sig_to_llvm_sig_full (ctx, sig, cinfo);
if (!ctx_ok (ctx))
return;
int const opcode = ins->opcode;
is_virtual = opcode == OP_VOIDCALL_MEMBASE || opcode == OP_CALL_MEMBASE
|| opcode == OP_VCALL_MEMBASE || opcode == OP_LCALL_MEMBASE
|| opcode == OP_FCALL_MEMBASE || opcode == OP_RCALL_MEMBASE
|| opcode == OP_TAILCALL_MEMBASE;
calli = !call->fptr_is_patch && (opcode == OP_VOIDCALL_REG || opcode == OP_CALL_REG
|| opcode == OP_VCALL_REG || opcode == OP_LCALL_REG || opcode == OP_FCALL_REG
|| opcode == OP_RCALL_REG || opcode == OP_TAILCALL_REG);
/* FIXME: Avoid creating duplicate methods */
if (ins->flags & MONO_INST_HAS_METHOD) {
if (is_virtual) {
callee = NULL;
} else {
if (cfg->compile_aot) {
callee = get_callee (ctx, llvm_sig, MONO_PATCH_INFO_METHOD, call->method);
if (!callee) {
set_failure (ctx, "can't encode patch");
return;
}
} else if (cfg->method == call->method) {
callee = ctx->lmethod;
} else {
ERROR_DECL (error);
static int tramp_index;
char *name;
name = g_strdup_printf ("[tramp_%d] %s", tramp_index, mono_method_full_name (call->method, TRUE));
tramp_index ++;
/*
* Use our trampoline infrastructure for lazy compilation instead of llvm's.
* Make all calls through a global. The address of the global will be saved in
* MonoJitDomainInfo.llvm_jit_callees and updated when the method it refers to is
* compiled.
*/
LLVMValueRef tramp_var = (LLVMValueRef)g_hash_table_lookup (ctx->jit_callees, call->method);
if (!tramp_var) {
target =
mono_create_jit_trampoline (call->method, error);
if (!is_ok (error)) {
set_failure (ctx, mono_error_get_message (error));
mono_error_cleanup (error);
return;
}
tramp_var = LLVMAddGlobal (ctx->lmodule, LLVMPointerType (llvm_sig, 0), name);
LLVMSetInitializer (tramp_var, LLVMConstIntToPtr (LLVMConstInt (LLVMInt64Type (), (guint64)(size_t)target, FALSE), LLVMPointerType (llvm_sig, 0)));
LLVMSetLinkage (tramp_var, LLVMExternalLinkage);
g_hash_table_insert (ctx->jit_callees, call->method, tramp_var);
}
callee = LLVMBuildLoad (builder, tramp_var, "");
}
}
if (!cfg->llvm_only && call->method && strstr (m_class_get_name (call->method->klass), "AsyncVoidMethodBuilder")) {
/* LLVM miscompiles async methods */
set_failure (ctx, "#13734");
return;
}
} else if (calli) {
} else {
const MonoJitICallId jit_icall_id = call->jit_icall_id;
if (jit_icall_id) {
if (cfg->compile_aot) {
callee = get_callee (ctx, llvm_sig, MONO_PATCH_INFO_JIT_ICALL_ID, GUINT_TO_POINTER (jit_icall_id));
if (!callee) {
set_failure (ctx, "can't encode patch");
return;
}
} else {
callee = get_jit_callee (ctx, "", llvm_sig, MONO_PATCH_INFO_JIT_ICALL_ID, GUINT_TO_POINTER (jit_icall_id));
}
} else {
if (cfg->compile_aot) {
callee = NULL;
if (cfg->abs_patches) {
MonoJumpInfo *abs_ji = (MonoJumpInfo*)g_hash_table_lookup (cfg->abs_patches, call->fptr);
if (abs_ji) {
callee = get_callee (ctx, llvm_sig, abs_ji->type, abs_ji->data.target);
if (!callee) {
set_failure (ctx, "can't encode patch");
return;
}
}
}
if (!callee) {
set_failure (ctx, "aot");
return;
}
} else {
if (cfg->abs_patches) {
MonoJumpInfo *abs_ji = (MonoJumpInfo*)g_hash_table_lookup (cfg->abs_patches, call->fptr);
if (abs_ji) {
ERROR_DECL (error);
target = mono_resolve_patch_target (cfg->method, NULL, abs_ji, FALSE, error);
mono_error_assert_ok (error);
callee = get_jit_callee (ctx, "", llvm_sig, abs_ji->type, abs_ji->data.target);
} else {
g_assert_not_reached ();
}
} else {
g_assert_not_reached ();
}
}
}
}
if (is_virtual) {
int size = TARGET_SIZEOF_VOID_P;
LLVMValueRef index;
g_assert (ins->inst_offset % size == 0);
index = LLVMConstInt (LLVMInt32Type (), ins->inst_offset / size, FALSE);
callee = convert (ctx, LLVMBuildLoad (builder, LLVMBuildGEP (builder, convert (ctx, values [ins->inst_basereg], LLVMPointerType (LLVMPointerType (IntPtrType (), 0), 0)), &index, 1, ""), ""), LLVMPointerType (llvm_sig, 0));
} else if (calli) {
callee = convert (ctx, values [ins->sreg1], LLVMPointerType (llvm_sig, 0));
} else {
if (ins->flags & MONO_INST_HAS_METHOD) {
}
}
/*
* Collect and convert arguments
*/
nargs = (sig->param_count * 16) + sig->hasthis + vretaddr + call->rgctx_reg + call->imt_arg_reg + call->cinfo->dummy_arg + 1;
len = sizeof (LLVMValueRef) * nargs;
args = g_newa (LLVMValueRef, nargs);
memset (args, 0, len);
l = call->out_ireg_args;
if (call->rgctx_arg_reg) {
g_assert (values [call->rgctx_arg_reg]);
g_assert (cinfo->rgctx_arg_pindex < nargs);
/*
* On ARM, the imt/rgctx argument is passed in a caller save register, but some of our trampolines etc. clobber it, leading to
* problems is LLVM moves the arg assignment earlier. To work around this, save the argument into a stack slot and load
* it using a volatile load.
*/
#ifdef TARGET_ARM
if (!ctx->imt_rgctx_loc)
ctx->imt_rgctx_loc = build_alloca_llvm_type (ctx, ctx->module->ptr_type, TARGET_SIZEOF_VOID_P);
LLVMBuildStore (builder, convert (ctx, ctx->values [call->rgctx_arg_reg], ctx->module->ptr_type), ctx->imt_rgctx_loc);
args [cinfo->rgctx_arg_pindex] = mono_llvm_build_load (builder, ctx->imt_rgctx_loc, "", TRUE);
#else
args [cinfo->rgctx_arg_pindex] = convert (ctx, values [call->rgctx_arg_reg], ctx->module->ptr_type);
#endif
}
if (call->imt_arg_reg) {
g_assert (!ctx->llvm_only);
g_assert (values [call->imt_arg_reg]);
g_assert (cinfo->imt_arg_pindex < nargs);
#ifdef TARGET_ARM
if (!ctx->imt_rgctx_loc)
ctx->imt_rgctx_loc = build_alloca_llvm_type (ctx, ctx->module->ptr_type, TARGET_SIZEOF_VOID_P);
LLVMBuildStore (builder, convert (ctx, ctx->values [call->imt_arg_reg], ctx->module->ptr_type), ctx->imt_rgctx_loc);
args [cinfo->imt_arg_pindex] = mono_llvm_build_load (builder, ctx->imt_rgctx_loc, "", TRUE);
#else
args [cinfo->imt_arg_pindex] = convert (ctx, values [call->imt_arg_reg], ctx->module->ptr_type);
#endif
}
switch (cinfo->ret.storage) {
case LLVMArgGsharedvtVariable: {
MonoInst *var = get_vreg_to_inst (cfg, call->inst.dreg);
if (var && var->opcode == OP_GSHAREDVT_LOCAL) {
args [cinfo->vret_arg_pindex] = convert (ctx, emit_gsharedvt_ldaddr (ctx, var->dreg), IntPtrType ());
} else {
g_assert (addresses [call->inst.dreg]);
args [cinfo->vret_arg_pindex] = convert (ctx, addresses [call->inst.dreg], IntPtrType ());
}
break;
}
default:
if (vretaddr) {
if (!addresses [call->inst.dreg])
addresses [call->inst.dreg] = build_alloca (ctx, sig->ret);
g_assert (cinfo->vret_arg_pindex < nargs);
if (cinfo->ret.storage == LLVMArgVtypeByRef)
args [cinfo->vret_arg_pindex] = addresses [call->inst.dreg];
else
args [cinfo->vret_arg_pindex] = LLVMBuildPtrToInt (builder, addresses [call->inst.dreg], IntPtrType (), "");
}
break;
}
/*
* Sometimes the same method is called with two different signatures (i.e. with and without 'this'), so
* use the real callee for argument type conversion.
*/
LLVMTypeRef callee_type = LLVMGetElementType (LLVMTypeOf (callee));
LLVMTypeRef *param_types = (LLVMTypeRef*)g_alloca (sizeof (LLVMTypeRef) * LLVMCountParamTypes (callee_type));
LLVMGetParamTypes (callee_type, param_types);
for (i = 0; i < sig->param_count + sig->hasthis; ++i) {
guint32 regpair;
int reg, pindex;
LLVMArgInfo *ainfo = &call->cinfo->args [i];
pindex = ainfo->pindex;
regpair = (guint32)(gssize)(l->data);
reg = regpair & 0xffffff;
args [pindex] = values [reg];
switch (ainfo->storage) {
case LLVMArgVtypeInReg:
case LLVMArgAsFpArgs: {
guint32 nargs;
int j;
for (j = 0; j < ainfo->ndummy_fpargs; ++j)
args [pindex + j] = LLVMConstNull (LLVMDoubleType ());
pindex += ainfo->ndummy_fpargs;
g_assert (addresses [reg]);
emit_vtype_to_args (ctx, builder, ainfo->type, addresses [reg], ainfo, args + pindex, &nargs);
pindex += nargs;
// FIXME: alignment
// FIXME: Get rid of the VMOVE
break;
}
case LLVMArgVtypeByVal:
g_assert (addresses [reg]);
args [pindex] = addresses [reg];
break;
case LLVMArgVtypeAddr :
case LLVMArgVtypeByRef: {
g_assert (addresses [reg]);
args [pindex] = convert (ctx, addresses [reg], LLVMPointerType (type_to_llvm_arg_type (ctx, ainfo->type), 0));
break;
}
case LLVMArgAsIArgs:
g_assert (addresses [reg]);
if (ainfo->esize == 8)
args [pindex] = LLVMBuildLoad (ctx->builder, convert (ctx, addresses [reg], LLVMPointerType (LLVMArrayType (LLVMInt64Type (), ainfo->nslots), 0)), "");
else
args [pindex] = LLVMBuildLoad (ctx->builder, convert (ctx, addresses [reg], LLVMPointerType (LLVMArrayType (IntPtrType (), ainfo->nslots), 0)), "");
break;
case LLVMArgVtypeAsScalar:
g_assert_not_reached ();
break;
case LLVMArgWasmVtypeAsScalar:
g_assert (addresses [reg]);
args [pindex] = LLVMBuildLoad (ctx->builder, convert (ctx, addresses [reg], LLVMPointerType (LLVMIntType (ainfo->esize * 8), 0)), "");
break;
case LLVMArgGsharedvtFixed:
case LLVMArgGsharedvtFixedVtype:
g_assert (addresses [reg]);
args [pindex] = convert (ctx, addresses [reg], LLVMPointerType (type_to_llvm_arg_type (ctx, ainfo->type), 0));
break;
case LLVMArgGsharedvtVariable:
g_assert (addresses [reg]);
args [pindex] = convert (ctx, addresses [reg], LLVMPointerType (IntPtrType (), 0));
break;
default:
g_assert (args [pindex]);
if (i == 0 && sig->hasthis)
args [pindex] = convert (ctx, args [pindex], param_types [pindex]);
else
args [pindex] = convert (ctx, args [pindex], type_to_llvm_arg_type (ctx, ainfo->type));
break;
}
g_assert (pindex <= nargs);
l = l->next;
}
if (call->cinfo->dummy_arg) {
g_assert (call->cinfo->dummy_arg_pindex < nargs);
args [call->cinfo->dummy_arg_pindex] = LLVMConstNull (ctx->module->ptr_type);
}
// FIXME: Align call sites
/*
* Emit the call
*/
lcall = emit_call (ctx, bb, &builder, callee, args, LLVMCountParamTypes (llvm_sig));
mono_llvm_nonnull_state_update (ctx, lcall, call->method, args, LLVMCountParamTypes (llvm_sig));
// If we just allocated an object, it's not null.
if (call->method && call->method->wrapper_type == MONO_WRAPPER_ALLOC) {
mono_llvm_set_call_nonnull_ret (lcall);
}
if (ins->opcode != OP_TAILCALL && ins->opcode != OP_TAILCALL_MEMBASE && LLVMGetInstructionOpcode (lcall) == LLVMCall)
mono_llvm_set_call_notailcall (lcall);
// Add original method name we are currently emitting as a custom string metadata (the only way to leave comments in LLVM IR)
if (mono_debug_enabled () && call && call->method)
mono_llvm_add_string_metadata (lcall, "managed_name", mono_method_full_name (call->method, TRUE));
// As per the LLVM docs, a function has a noalias return value if and only if
// it is an allocation function. This is an allocation function.
if (call->method && call->method->wrapper_type == MONO_WRAPPER_ALLOC) {
mono_llvm_set_call_noalias_ret (lcall);
// All objects are expected to be 8-byte aligned (SGEN_ALLOC_ALIGN)
mono_llvm_set_alignment_ret (lcall, 8);
}
/*
* Modify cconv and parameter attributes to pass rgctx/imt correctly.
*/
#if defined(MONO_ARCH_IMT_REG) && defined(MONO_ARCH_RGCTX_REG)
g_assert (MONO_ARCH_IMT_REG == MONO_ARCH_RGCTX_REG);
#endif
/* The two can't be used together, so use only one LLVM calling conv to pass them */
g_assert (!(call->rgctx_arg_reg && call->imt_arg_reg));
if (!sig->pinvoke && !cfg->llvm_only)
LLVMSetInstructionCallConv (lcall, LLVMMono1CallConv);
if (cinfo->ret.storage == LLVMArgVtypeByRef)
mono_llvm_add_instr_attr (lcall, 1 + cinfo->vret_arg_pindex, LLVM_ATTR_STRUCT_RET);
if (!ctx->llvm_only && call->rgctx_arg_reg)
mono_llvm_add_instr_attr (lcall, 1 + cinfo->rgctx_arg_pindex, LLVM_ATTR_IN_REG);
if (call->imt_arg_reg)
mono_llvm_add_instr_attr (lcall, 1 + cinfo->imt_arg_pindex, LLVM_ATTR_IN_REG);
/* Add byval attributes if needed */
for (i = 0; i < sig->param_count; ++i) {
LLVMArgInfo *ainfo = &call->cinfo->args [i + sig->hasthis];
if (ainfo && ainfo->storage == LLVMArgVtypeByVal)
mono_llvm_add_instr_attr (lcall, 1 + ainfo->pindex, LLVM_ATTR_BY_VAL);
#ifdef TARGET_WASM
if (ainfo && ainfo->storage == LLVMArgVtypeByRef)
/* This causes llvm to make a copy of the value which is what we need */
mono_llvm_add_instr_byval_attr (lcall, 1 + ainfo->pindex, LLVMGetElementType (param_types [ainfo->pindex]));
#endif
}
gboolean is_simd = MONO_CLASS_IS_SIMD (ctx->cfg, mono_class_from_mono_type_internal (sig->ret));
gboolean should_promote_to_value = FALSE;
const char *load_name = NULL;
/*
* Convert the result. Non-SIMD value types are manipulated via an
* indirection. SIMD value types are represented directly as LLVM vector
* values, and must have a corresponding LLVM value definition in
* `values`.
*/
switch (cinfo->ret.storage) {
case LLVMArgAsIArgs:
case LLVMArgFpStruct:
if (!addresses [call->inst.dreg])
addresses [call->inst.dreg] = build_alloca (ctx, sig->ret);
LLVMBuildStore (builder, lcall, convert_full (ctx, addresses [call->inst.dreg], LLVMPointerType (LLVMTypeOf (lcall), 0), FALSE));
break;
case LLVMArgVtypeByVal:
/*
* Only used by amd64 and x86. Only ever used when passing
* arguments; never used for return values.
*/
g_assert_not_reached ();
break;
case LLVMArgVtypeInReg: {
if (LLVMTypeOf (lcall) == LLVMVoidType ())
/* Empty struct */
break;
if (!addresses [ins->dreg])
addresses [ins->dreg] = build_alloca (ctx, sig->ret);
LLVMValueRef regs [2] = { 0 };
regs [0] = LLVMBuildExtractValue (builder, lcall, 0, "");
if (cinfo->ret.pair_storage [1] != LLVMArgNone)
regs [1] = LLVMBuildExtractValue (builder, lcall, 1, "");
emit_args_to_vtype (ctx, builder, sig->ret, addresses [ins->dreg], &cinfo->ret, regs);
load_name = "process_call_vtype_in_reg";
should_promote_to_value = is_simd;
break;
}
case LLVMArgVtypeAsScalar:
if (!addresses [call->inst.dreg])
addresses [call->inst.dreg] = build_alloca (ctx, sig->ret);
LLVMBuildStore (builder, lcall, convert_full (ctx, addresses [call->inst.dreg], LLVMPointerType (LLVMTypeOf (lcall), 0), FALSE));
load_name = "process_call_vtype_as_scalar";
should_promote_to_value = is_simd;
break;
case LLVMArgVtypeRetAddr:
case LLVMArgVtypeByRef:
load_name = "process_call_vtype_ret_addr";
should_promote_to_value = is_simd;
break;
case LLVMArgGsharedvtVariable:
break;
case LLVMArgGsharedvtFixed:
case LLVMArgGsharedvtFixedVtype:
values [ins->dreg] = LLVMBuildLoad (builder, convert_full (ctx, addresses [call->inst.dreg], LLVMPointerType (type_to_llvm_type (ctx, sig->ret), 0), FALSE), "");
break;
case LLVMArgWasmVtypeAsScalar:
if (!addresses [call->inst.dreg])
addresses [call->inst.dreg] = build_alloca (ctx, sig->ret);
LLVMBuildStore (builder, lcall, convert_full (ctx, addresses [call->inst.dreg], LLVMPointerType (LLVMTypeOf (lcall), 0), FALSE));
break;
default:
if (sig->ret->type != MONO_TYPE_VOID)
/* If the method returns an unsigned value, need to zext it */
values [ins->dreg] = convert_full (ctx, lcall, llvm_type_to_stack_type (cfg, type_to_llvm_type (ctx, sig->ret)), type_is_unsigned (ctx, sig->ret));
break;
}
if (should_promote_to_value) {
g_assert (addresses [call->inst.dreg]);
LLVMTypeRef addr_type = LLVMPointerType (type_to_llvm_type (ctx, sig->ret), 0);
LLVMValueRef addr = convert_full (ctx, addresses [call->inst.dreg], addr_type, FALSE);
values [ins->dreg] = LLVMBuildLoad (builder, addr, load_name);
}
*builder_ref = ctx->builder;
}
static void
emit_llvmonly_throw (EmitContext *ctx, MonoBasicBlock *bb, gboolean rethrow, LLVMValueRef exc)
{
MonoJitICallId icall_id = rethrow ? MONO_JIT_ICALL_mini_llvmonly_rethrow_exception : MONO_JIT_ICALL_mini_llvmonly_throw_exception;
LLVMValueRef callee = rethrow ? ctx->module->rethrow : ctx->module->throw_icall;
LLVMTypeRef exc_type = type_to_llvm_type (ctx, m_class_get_byval_arg (mono_get_exception_class ()));
if (!callee) {
LLVMTypeRef fun_sig = LLVMFunctionType1 (LLVMVoidType (), exc_type, FALSE);
g_assert (ctx->cfg->compile_aot);
callee = get_callee (ctx, fun_sig, MONO_PATCH_INFO_JIT_ICALL_ADDR, GUINT_TO_POINTER (icall_id));
}
LLVMValueRef args [2];
args [0] = convert (ctx, exc, exc_type);
emit_call (ctx, bb, &ctx->builder, callee, args, 1);
LLVMBuildUnreachable (ctx->builder);
ctx->builder = create_builder (ctx);
}
static void
emit_throw (EmitContext *ctx, MonoBasicBlock *bb, gboolean rethrow, LLVMValueRef exc)
{
MonoMethodSignature *throw_sig;
LLVMValueRef * const pcallee = rethrow ? &ctx->module->rethrow : &ctx->module->throw_icall;
LLVMValueRef callee = *pcallee;
char const * const icall_name = rethrow ? "mono_arch_rethrow_exception" : "mono_arch_throw_exception";
#ifndef TARGET_X86
const
#endif
MonoJitICallId icall_id = rethrow ? MONO_JIT_ICALL_mono_arch_rethrow_exception : MONO_JIT_ICALL_mono_arch_throw_exception;
if (!callee) {
throw_sig = mono_metadata_signature_alloc (mono_get_corlib (), 1);
throw_sig->ret = m_class_get_byval_arg (mono_get_void_class ());
throw_sig->params [0] = m_class_get_byval_arg (mono_get_object_class ());
if (ctx->cfg->compile_aot) {
callee = get_callee (ctx, sig_to_llvm_sig (ctx, throw_sig), MONO_PATCH_INFO_JIT_ICALL_ID, GUINT_TO_POINTER (icall_id));
} else {
#ifdef TARGET_X86
/*
* LLVM doesn't push the exception argument, so we need a different
* trampoline.
*/
icall_id = rethrow ? MONO_JIT_ICALL_mono_llvm_rethrow_exception_trampoline : MONO_JIT_ICALL_mono_llvm_throw_exception_trampoline;
#endif
callee = get_jit_callee (ctx, icall_name, sig_to_llvm_sig (ctx, throw_sig), MONO_PATCH_INFO_JIT_ICALL_ID, GUINT_TO_POINTER (icall_id));
}
mono_memory_barrier ();
}
LLVMValueRef arg;
arg = convert (ctx, exc, type_to_llvm_type (ctx, m_class_get_byval_arg (mono_get_object_class ())));
emit_call (ctx, bb, &ctx->builder, callee, &arg, 1);
}
static void
emit_resume_eh (EmitContext *ctx, MonoBasicBlock *bb)
{
const MonoJitICallId icall_id = MONO_JIT_ICALL_mini_llvmonly_resume_exception;
LLVMValueRef callee;
LLVMTypeRef fun_sig = LLVMFunctionType0 (LLVMVoidType (), FALSE);
g_assert (ctx->cfg->compile_aot);
callee = get_callee (ctx, fun_sig, MONO_PATCH_INFO_JIT_ICALL_ID, GUINT_TO_POINTER (icall_id));
emit_call (ctx, bb, &ctx->builder, callee, NULL, 0);
LLVMBuildUnreachable (ctx->builder);
ctx->builder = create_builder (ctx);
}
static LLVMValueRef
mono_llvm_emit_clear_exception_call (EmitContext *ctx, LLVMBuilderRef builder)
{
const MonoJitICallId icall_id = MONO_JIT_ICALL_mini_llvmonly_clear_exception;
LLVMTypeRef call_sig = LLVMFunctionType (LLVMVoidType (), NULL, 0, FALSE);
LLVMValueRef callee = NULL;
if (!callee) {
callee = get_callee (ctx, call_sig, MONO_PATCH_INFO_JIT_ICALL_ID, GUINT_TO_POINTER (icall_id));
}
g_assert (builder && callee);
return LLVMBuildCall (builder, callee, NULL, 0, "");
}
static LLVMValueRef
mono_llvm_emit_load_exception_call (EmitContext *ctx, LLVMBuilderRef builder)
{
const MonoJitICallId icall_id = MONO_JIT_ICALL_mini_llvmonly_load_exception;
LLVMTypeRef call_sig = LLVMFunctionType (ObjRefType (), NULL, 0, FALSE);
LLVMValueRef callee = NULL;
g_assert (ctx->cfg->compile_aot);
if (!callee) {
callee = get_callee (ctx, call_sig, MONO_PATCH_INFO_JIT_ICALL_ID, GUINT_TO_POINTER (icall_id));
}
g_assert (builder && callee);
return LLVMBuildCall (builder, callee, NULL, 0, "load_exception");
}
static LLVMValueRef
mono_llvm_emit_match_exception_call (EmitContext *ctx, LLVMBuilderRef builder, gint32 region_start, gint32 region_end)
{
const char *icall_name = "mini_llvmonly_match_exception";
const MonoJitICallId icall_id = MONO_JIT_ICALL_mini_llvmonly_match_exception;
ctx->builder = builder;
LLVMValueRef args[5];
const int num_args = G_N_ELEMENTS (args);
args [0] = convert (ctx, get_aotconst (ctx, MONO_PATCH_INFO_AOT_JIT_INFO, GINT_TO_POINTER (ctx->cfg->method_index), LLVMPointerType (IntPtrType (), 0)), IntPtrType ());
args [1] = LLVMConstInt (LLVMInt32Type (), region_start, 0);
args [2] = LLVMConstInt (LLVMInt32Type (), region_end, 0);
if (ctx->cfg->rgctx_var) {
if (ctx->cfg->llvm_only) {
args [3] = convert (ctx, ctx->rgctx_arg, IntPtrType ());
} else {
LLVMValueRef rgctx_alloc = ctx->addresses [ctx->cfg->rgctx_var->dreg];
g_assert (rgctx_alloc);
args [3] = LLVMBuildLoad (builder, convert (ctx, rgctx_alloc, LLVMPointerType (IntPtrType (), 0)), "");
}
} else {
args [3] = LLVMConstInt (IntPtrType (), 0, 0);
}
if (ctx->this_arg)
args [4] = convert (ctx, ctx->this_arg, IntPtrType ());
else
args [4] = LLVMConstInt (IntPtrType (), 0, 0);
LLVMTypeRef match_sig = LLVMFunctionType5 (LLVMInt32Type (), IntPtrType (), LLVMInt32Type (), LLVMInt32Type (), IntPtrType (), IntPtrType (), FALSE);
LLVMValueRef callee;
g_assert (ctx->cfg->compile_aot);
ctx->builder = builder;
// get_callee expects ctx->builder to be the emitting builder
callee = get_callee (ctx, match_sig, MONO_PATCH_INFO_JIT_ICALL_ID, GUINT_TO_POINTER (icall_id));
g_assert (builder && callee);
g_assert (ctx->ex_var);
return LLVMBuildCall (builder, callee, args, num_args, icall_name);
}
// FIXME: This won't work because the code-finding makes this
// not a constant.
/*#define MONO_PERSONALITY_DEBUG*/
#ifdef MONO_PERSONALITY_DEBUG
static const gboolean use_mono_personality_debug = TRUE;
static const char *default_personality_name = "mono_debug_personality";
#else
static const gboolean use_mono_personality_debug = FALSE;
static const char *default_personality_name = "__gxx_personality_v0";
#endif
static const char*
get_personality_name (void)
{
return mono_opt_wasm_exceptions ? "__gxx_wasm_personality_v0" : default_personality_name;
}
static LLVMTypeRef
default_cpp_lpad_exc_signature (void)
{
static LLVMTypeRef sig;
if (!sig) {
LLVMTypeRef signature [2];
signature [0] = LLVMPointerType (LLVMInt8Type (), 0);
signature [1] = LLVMInt32Type ();
sig = LLVMStructType (signature, 2, FALSE);
}
return sig;
}
static LLVMValueRef
get_mono_personality (EmitContext *ctx)
{
LLVMValueRef personality = NULL;
LLVMTypeRef personality_type = LLVMFunctionType (LLVMInt32Type (), NULL, 0, TRUE);
const char *name = get_personality_name ();
g_assert (ctx->cfg->compile_aot);
if (!use_mono_personality_debug) {
personality = LLVMGetNamedFunction (ctx->lmodule, name);
} else {
personality = get_callee (ctx, personality_type, MONO_PATCH_INFO_JIT_ICALL_ID, GUINT_TO_POINTER (MONO_JIT_ICALL_mono_debug_personality));
}
g_assert (personality);
return personality;
}
static LLVMBasicBlockRef
emit_llvmonly_landing_pad (EmitContext *ctx, int group_index, int group_size)
{
MonoCompile *cfg = ctx->cfg;
MonoExceptionClause *group_start = cfg->header->clauses + group_index;
LLVMValueRef catchpad = NULL;
LLVMBuilderRef builder = create_builder (ctx);
ctx->builder = builder;
char *bb_name = g_strdup_printf ("LPAD%d_BB", group_index);
LLVMBasicBlockRef lpad_bb = gen_bb (ctx, bb_name);
g_free (bb_name);
LLVMPositionBuilderAtEnd (builder, lpad_bb);
if (mono_opt_wasm_exceptions) {
/* WASM EH uses catchpad instructions */
LLVMValueRef lpad = LLVMBuildCatchSwitch (builder, NULL, NULL, 1, "");
bb_name = g_strdup_printf ("CATCHPAD%d_BB", group_index);
LLVMBasicBlockRef catch_bb = gen_bb (ctx, bb_name);
g_free (bb_name);
LLVMAddHandler (lpad, catch_bb);
LLVMPositionBuilderAtEnd (builder, catch_bb);
LLVMValueRef catchpad_args [1];
catchpad_args [0] = LLVMConstNull (LLVMPointerType (LLVMInt8Type (), 0));
catchpad = LLVMBuildCatchPad (builder, lpad, catchpad_args, 1, "");
} else {
MonoBasicBlock *handler_bb = cfg->cil_offset_to_bb [CLAUSE_START (group_start)];
g_assert (handler_bb);
// <resultval> = landingpad <somety> personality <type> <pers_fn> <clause>+
LLVMValueRef personality = get_mono_personality (ctx);
g_assert (personality);
LLVMValueRef landing_pad = LLVMBuildLandingPad (builder, default_cpp_lpad_exc_signature (), personality, 0, "");
g_assert (landing_pad);
LLVMValueRef cast = LLVMBuildBitCast (builder, ctx->module->sentinel_exception, LLVMPointerType (LLVMInt8Type (), 0), "int8TypeInfo");
LLVMAddClause (landing_pad, cast);
}
if (ctx->cfg->deopt) {
/*
* Call mini_llvmonly_resume_exception_il_state (lmf, il_state)
*
* The call will execute the catch clause and the rest of the method and store the return
* value into ctx->il_state_ret.
*/
if (!ctx->has_catch) {
/* Unused */
LLVMBuildUnreachable (builder);
return lpad_bb;
}
if (mono_opt_wasm_exceptions) {
bb_name = g_strdup_printf ("CATCH_CONT%d_BB", group_index);
LLVMBasicBlockRef catch_cont_bb = gen_bb (ctx, bb_name);
g_free (bb_name);
LLVMBuildCatchRet (builder, catchpad, catch_cont_bb);
LLVMPositionBuilderAtEnd (builder, catch_cont_bb);
}
const MonoJitICallId icall_id = MONO_JIT_ICALL_mini_llvmonly_resume_exception_il_state;
LLVMValueRef callee;
LLVMValueRef args [2];
LLVMTypeRef fun_sig = LLVMFunctionType2 (LLVMVoidType (), IntPtrType (), IntPtrType (), FALSE);
callee = get_callee (ctx, fun_sig, MONO_PATCH_INFO_JIT_ICALL_ID, GUINT_TO_POINTER (icall_id));
g_assert (ctx->cfg->lmf_var);
g_assert (ctx->addresses [ctx->cfg->lmf_var->dreg]);
args [0] = LLVMBuildPtrToInt (ctx->builder, ctx->addresses [ctx->cfg->lmf_var->dreg], IntPtrType (), "");
args [1] = LLVMBuildPtrToInt (ctx->builder, ctx->il_state, IntPtrType (), "");
emit_call (ctx, NULL, &ctx->builder, callee, args, 2);
/* Return the value set in ctx->il_state_ret */
LLVMTypeRef ret_type = LLVMGetReturnType (LLVMGetElementType (LLVMTypeOf (ctx->lmethod)));
LLVMBuilderRef builder = ctx->builder;
LLVMValueRef addr, retval, gep, indexes [2];
switch (ctx->linfo->ret.storage) {
case LLVMArgNone:
LLVMBuildRetVoid (builder);
break;
case LLVMArgNormal:
case LLVMArgWasmVtypeAsScalar:
case LLVMArgVtypeInReg: {
if (ctx->sig->ret->type == MONO_TYPE_VOID) {
LLVMBuildRetVoid (builder);
break;
}
addr = ctx->il_state_ret;
g_assert (addr);
addr = convert (ctx, ctx->il_state_ret, LLVMPointerType (ret_type, 0));
indexes [0] = LLVMConstInt (LLVMInt32Type (), 0, FALSE);
indexes [1] = LLVMConstInt (LLVMInt32Type (), 0, FALSE);
gep = LLVMBuildGEP (builder, addr, indexes, 1, "");
LLVMBuildRet (builder, LLVMBuildLoad (builder, gep, ""));
break;
}
case LLVMArgVtypeRetAddr: {
LLVMValueRef ret_addr;
g_assert (cfg->vret_addr);
ret_addr = ctx->values [cfg->vret_addr->dreg];
addr = ctx->il_state_ret;
g_assert (addr);
/* The ret value is in il_state_ret, copy it to the memory pointed to by the vret arg */
ret_type = type_to_llvm_type (ctx, ctx->sig->ret);
indexes [0] = LLVMConstInt (LLVMInt32Type (), 0, FALSE);
indexes [1] = LLVMConstInt (LLVMInt32Type (), 0, FALSE);
gep = LLVMBuildGEP (builder, addr, indexes, 1, "");
retval = convert (ctx, LLVMBuildLoad (builder, gep, ""), ret_type);
LLVMBuildStore (builder, retval, convert (ctx, ret_addr, LLVMPointerType (ret_type, 0)));
LLVMBuildRetVoid (builder);
break;
}
default:
g_assert_not_reached ();
break;
}
return lpad_bb;
}
/* Non interp based EH doesn't work */
g_assert_not_reached ();
return lpad_bb;
}
static LLVMValueRef
create_const_vector (LLVMTypeRef t, const int *vals, int count)
{
g_assert (count <= MAX_VECTOR_ELEMS);
LLVMValueRef llvm_vals [MAX_VECTOR_ELEMS];
for (int i = 0; i < count; i++)
llvm_vals [i] = LLVMConstInt (t, vals [i], FALSE);
return LLVMConstVector (llvm_vals, count);
}
static LLVMValueRef
create_const_vector_i32 (const int *mask, int count)
{
return create_const_vector (LLVMInt32Type (), mask, count);
}
static LLVMValueRef
create_const_vector_4_i32 (int v0, int v1, int v2, int v3)
{
LLVMValueRef mask [4];
mask [0] = LLVMConstInt (LLVMInt32Type (), v0, FALSE);
mask [1] = LLVMConstInt (LLVMInt32Type (), v1, FALSE);
mask [2] = LLVMConstInt (LLVMInt32Type (), v2, FALSE);
mask [3] = LLVMConstInt (LLVMInt32Type (), v3, FALSE);
return LLVMConstVector (mask, 4);
}
static LLVMValueRef
create_const_vector_2_i32 (int v0, int v1)
{
LLVMValueRef mask [2];
mask [0] = LLVMConstInt (LLVMInt32Type (), v0, FALSE);
mask [1] = LLVMConstInt (LLVMInt32Type (), v1, FALSE);
return LLVMConstVector (mask, 2);
}
static LLVMValueRef
broadcast_element (EmitContext *ctx, LLVMValueRef elem, int count)
{
LLVMTypeRef t = LLVMTypeOf (elem);
LLVMTypeRef init_vec_t = LLVMVectorType (t, 1);
LLVMValueRef undef = LLVMGetUndef (init_vec_t);
LLVMValueRef vec = LLVMBuildInsertElement (ctx->builder, undef, elem, const_int32 (0), "");
LLVMValueRef select_zero = LLVMConstNull (LLVMVectorType (LLVMInt32Type (), count));
return LLVMBuildShuffleVector (ctx->builder, vec, undef, select_zero, "broadcast");
}
static LLVMValueRef
broadcast_constant (int const_val, LLVMTypeRef elem_t, int count)
{
int vals [MAX_VECTOR_ELEMS];
for (int i = 0; i < count; ++i)
vals [i] = const_val;
return create_const_vector (elem_t, vals, count);
}
static LLVMValueRef
create_shift_vector (EmitContext *ctx, LLVMValueRef type_donor, LLVMValueRef shiftamt)
{
LLVMTypeRef t = LLVMTypeOf (type_donor);
unsigned int elems = LLVMGetVectorSize (t);
LLVMTypeRef elem_t = LLVMGetElementType (t);
shiftamt = convert_full (ctx, shiftamt, elem_t, TRUE);
shiftamt = broadcast_element (ctx, shiftamt, elems);
return shiftamt;
}
static LLVMTypeRef
to_integral_vector_type (LLVMTypeRef t)
{
unsigned int elems = LLVMGetVectorSize (t);
LLVMTypeRef elem_t = LLVMGetElementType (t);
unsigned int bits = mono_llvm_get_prim_size_bits (elem_t);
return LLVMVectorType (LLVMIntType (bits), elems);
}
static LLVMValueRef
bitcast_to_integral (EmitContext *ctx, LLVMValueRef vec)
{
LLVMTypeRef src_t = LLVMTypeOf (vec);
LLVMTypeRef dst_t = to_integral_vector_type (src_t);
if (dst_t != src_t)
return LLVMBuildBitCast (ctx->builder, vec, dst_t, "bc2i");
return vec;
}
static LLVMValueRef
extract_high_elements (EmitContext *ctx, LLVMValueRef src_vec)
{
LLVMTypeRef src_t = LLVMTypeOf (src_vec);
unsigned int src_elems = LLVMGetVectorSize (src_t);
unsigned int dst_elems = src_elems / 2;
int mask [MAX_VECTOR_ELEMS] = { 0 };
for (int i = 0; i < dst_elems; ++i)
mask [i] = dst_elems + i;
return LLVMBuildShuffleVector (ctx->builder, src_vec, LLVMGetUndef (src_t), create_const_vector_i32 (mask, dst_elems), "extract_high");
}
static LLVMValueRef
keep_lowest_element (EmitContext *ctx, LLVMTypeRef dst_t, LLVMValueRef vec)
{
LLVMTypeRef t = LLVMTypeOf (vec);
g_assert (LLVMGetElementType (dst_t) == LLVMGetElementType (t));
unsigned int elems = LLVMGetVectorSize (dst_t);
unsigned int src_elems = LLVMGetVectorSize (t);
int mask [MAX_VECTOR_ELEMS] = { 0 };
mask [0] = 0;
for (unsigned int i = 1; i < elems; ++i)
mask [i] = src_elems;
return LLVMBuildShuffleVector (ctx->builder, vec, LLVMConstNull (t), create_const_vector_i32 (mask, elems), "keep_lowest");
}
static LLVMValueRef
concatenate_vectors (EmitContext *ctx, LLVMValueRef xs, LLVMValueRef ys)
{
LLVMTypeRef t = LLVMTypeOf (xs);
unsigned int elems = LLVMGetVectorSize (t) * 2;
int mask [MAX_VECTOR_ELEMS] = { 0 };
for (int i = 0; i < elems; ++i)
mask [i] = i;
return LLVMBuildShuffleVector (ctx->builder, xs, ys, create_const_vector_i32 (mask, elems), "concat_vecs");
}
static LLVMValueRef
scalar_from_vector (EmitContext *ctx, LLVMValueRef xs)
{
return LLVMBuildExtractElement (ctx->builder, xs, const_int32 (0), "v2s");
}
static LLVMValueRef
vector_from_scalar (EmitContext *ctx, LLVMTypeRef type, LLVMValueRef x)
{
return LLVMBuildInsertElement (ctx->builder, LLVMConstNull (type), x, const_int32 (0), "s2v");
}
typedef struct {
EmitContext *ctx;
MonoBasicBlock *bb;
LLVMBasicBlockRef continuation;
LLVMValueRef phi;
LLVMValueRef switch_ins;
LLVMBasicBlockRef tmp_block;
LLVMBasicBlockRef default_case;
LLVMTypeRef switch_index_type;
const char *name;
int max_cases;
int i;
} ImmediateUnrollCtx;
static ImmediateUnrollCtx
immediate_unroll_begin (
EmitContext *ctx, MonoBasicBlock *bb, int max_cases,
LLVMValueRef switch_index, LLVMTypeRef return_type, const char *name)
{
LLVMBasicBlockRef default_case = gen_bb (ctx, name);
LLVMBasicBlockRef continuation = gen_bb (ctx, name);
LLVMValueRef switch_ins = LLVMBuildSwitch (ctx->builder, switch_index, default_case, max_cases);
LLVMPositionBuilderAtEnd (ctx->builder, continuation);
LLVMValueRef phi = LLVMBuildPhi (ctx->builder, return_type, name);
ImmediateUnrollCtx ictx = { 0 };
ictx.ctx = ctx;
ictx.bb = bb;
ictx.continuation = continuation;
ictx.phi = phi;
ictx.switch_ins = switch_ins;
ictx.default_case = default_case;
ictx.switch_index_type = LLVMTypeOf (switch_index);
ictx.name = name;
ictx.max_cases = max_cases;
return ictx;
}
static gboolean
immediate_unroll_next (ImmediateUnrollCtx *ictx, int *i)
{
if (ictx->i >= ictx->max_cases)
return FALSE;
ictx->tmp_block = gen_bb (ictx->ctx, ictx->name);
LLVMPositionBuilderAtEnd (ictx->ctx->builder, ictx->tmp_block);
*i = ictx->i;
++ictx->i;
return TRUE;
}
static void
immediate_unroll_commit (ImmediateUnrollCtx *ictx, int switch_const, LLVMValueRef value)
{
LLVMBuildBr (ictx->ctx->builder, ictx->continuation);
LLVMAddCase (ictx->switch_ins, LLVMConstInt (ictx->switch_index_type, switch_const, FALSE), ictx->tmp_block);
LLVMAddIncoming (ictx->phi, &value, &ictx->tmp_block, 1);
}
static void
immediate_unroll_default (ImmediateUnrollCtx *ictx)
{
LLVMPositionBuilderAtEnd (ictx->ctx->builder, ictx->default_case);
}
static void
immediate_unroll_commit_default (ImmediateUnrollCtx *ictx, LLVMValueRef value)
{
LLVMBuildBr (ictx->ctx->builder, ictx->continuation);
LLVMAddIncoming (ictx->phi, &value, &ictx->default_case, 1);
}
static void
immediate_unroll_unreachable_default (ImmediateUnrollCtx *ictx)
{
immediate_unroll_default (ictx);
LLVMBuildUnreachable (ictx->ctx->builder);
}
static LLVMValueRef
immediate_unroll_end (ImmediateUnrollCtx *ictx, LLVMBasicBlockRef *continuation)
{
EmitContext *ctx = ictx->ctx;
LLVMBuilderRef builder = ctx->builder;
LLVMPositionBuilderAtEnd (builder, ictx->continuation);
*continuation = ictx->continuation;
ctx->bblocks [ictx->bb->block_num].end_bblock = ictx->continuation;
return ictx->phi;
}
typedef struct {
EmitContext *ctx;
LLVMTypeRef intermediate_type;
LLVMTypeRef return_type;
gboolean needs_fake_scalar_op;
llvm_ovr_tag_t ovr_tag;
} ScalarOpFromVectorOpCtx;
static inline gboolean
check_needs_fake_scalar_op (MonoTypeEnum type)
{
#if defined(TARGET_ARM64)
switch (type) {
case MONO_TYPE_U1:
case MONO_TYPE_I1:
case MONO_TYPE_U2:
case MONO_TYPE_I2:
return TRUE;
}
#endif
return FALSE;
}
static ScalarOpFromVectorOpCtx
scalar_op_from_vector_op (EmitContext *ctx, LLVMTypeRef return_type, MonoInst *ins)
{
ScalarOpFromVectorOpCtx ret = { 0 };
ret.ctx = ctx;
ret.intermediate_type = return_type;
ret.return_type = return_type;
ret.needs_fake_scalar_op = check_needs_fake_scalar_op (inst_c1_type (ins));
ret.ovr_tag = ovr_tag_from_llvm_type (return_type);
if (!ret.needs_fake_scalar_op) {
ret.ovr_tag = ovr_tag_force_scalar (ret.ovr_tag);
ret.intermediate_type = ovr_tag_to_llvm_type (ret.ovr_tag);
}
return ret;
}
static void
scalar_op_from_vector_op_process_args (ScalarOpFromVectorOpCtx *sctx, LLVMValueRef *args, int num_args)
{
if (!sctx->needs_fake_scalar_op)
for (int i = 0; i < num_args; ++i)
args [i] = scalar_from_vector (sctx->ctx, args [i]);
}
static LLVMValueRef
scalar_op_from_vector_op_process_result (ScalarOpFromVectorOpCtx *sctx, LLVMValueRef result)
{
if (sctx->needs_fake_scalar_op)
return keep_lowest_element (sctx->ctx, LLVMTypeOf (result), result);
return vector_from_scalar (sctx->ctx, sctx->return_type, result);
}
static void
emit_llvmonly_handler_start (EmitContext *ctx, MonoBasicBlock *bb, LLVMBasicBlockRef cbb)
{
int clause_index = MONO_REGION_CLAUSE_INDEX (bb->region);
MonoExceptionClause *clause = &ctx->cfg->header->clauses [clause_index];
// Make exception available to catch blocks
if (!(clause->flags & MONO_EXCEPTION_CLAUSE_FINALLY || clause->flags & MONO_EXCEPTION_CLAUSE_FAULT)) {
LLVMValueRef mono_exc = mono_llvm_emit_load_exception_call (ctx, ctx->builder);
g_assert (ctx->ex_var);
LLVMBuildStore (ctx->builder, LLVMBuildBitCast (ctx->builder, mono_exc, ObjRefType (), ""), ctx->ex_var);
if (bb->in_scount == 1) {
MonoInst *exvar = bb->in_stack [0];
g_assert (!ctx->values [exvar->dreg]);
g_assert (ctx->ex_var);
ctx->values [exvar->dreg] = LLVMBuildLoad (ctx->builder, ctx->ex_var, "save_exception");
emit_volatile_store (ctx, exvar->dreg);
}
mono_llvm_emit_clear_exception_call (ctx, ctx->builder);
}
#ifdef TARGET_WASM
if (ctx->cfg->lmf_var && !ctx->cfg->deopt) {
LLVMValueRef callee;
LLVMValueRef args [1];
LLVMTypeRef sig = LLVMFunctionType1 (LLVMVoidType (), ctx->module->ptr_type, FALSE);
/*
* There might be an LMF on the stack inserted to enable stack walking, see
* method_needs_stack_walk (). If an exception is thrown, the LMF popping code
* is not executed, so do it here.
*/
g_assert (ctx->addresses [ctx->cfg->lmf_var->dreg]);
callee = get_callee (ctx, sig, MONO_PATCH_INFO_JIT_ICALL_ADDR, GUINT_TO_POINTER (MONO_JIT_ICALL_mini_llvmonly_pop_lmf));
args [0] = convert (ctx, ctx->addresses [ctx->cfg->lmf_var->dreg], ctx->module->ptr_type);
emit_call (ctx, bb, &ctx->builder, callee, args, 1);
}
#endif
LLVMBuilderRef handler_builder = create_builder (ctx);
LLVMBasicBlockRef target_bb = ctx->bblocks [bb->block_num].call_handler_target_bb;
LLVMPositionBuilderAtEnd (handler_builder, target_bb);
// Make the handler code end with a jump to cbb
LLVMBuildBr (handler_builder, cbb);
}
static void
emit_handler_start (EmitContext *ctx, MonoBasicBlock *bb, LLVMBuilderRef builder)
{
MonoCompile *cfg = ctx->cfg;
LLVMValueRef *values = ctx->values;
LLVMModuleRef lmodule = ctx->lmodule;
BBInfo *bblocks = ctx->bblocks;
LLVMTypeRef i8ptr;
LLVMValueRef personality;
LLVMValueRef landing_pad;
LLVMBasicBlockRef target_bb;
MonoInst *exvar;
static int ti_generator;
char ti_name [128];
LLVMValueRef type_info;
int clause_index;
GSList *l;
// <resultval> = landingpad <somety> personality <type> <pers_fn> <clause>+
if (cfg->compile_aot) {
/* Use a dummy personality function */
personality = LLVMGetNamedFunction (lmodule, "mono_personality");
g_assert (personality);
} else {
/* Can't cache this as each method is in its own llvm module */
LLVMTypeRef personality_type = LLVMFunctionType (LLVMInt32Type (), NULL, 0, TRUE);
personality = LLVMAddFunction (ctx->lmodule, "mono_personality", personality_type);
mono_llvm_add_func_attr (personality, LLVM_ATTR_NO_UNWIND);
LLVMBasicBlockRef entry_bb = LLVMAppendBasicBlock (personality, "ENTRY");
LLVMBuilderRef builder2 = LLVMCreateBuilder ();
LLVMPositionBuilderAtEnd (builder2, entry_bb);
LLVMBuildRet (builder2, LLVMConstInt (LLVMInt32Type (), 0, FALSE));
LLVMDisposeBuilder (builder2);
}
i8ptr = LLVMPointerType (LLVMInt8Type (), 0);
clause_index = (mono_get_block_region_notry (cfg, bb->region) >> 8) - 1;
/*
* Create the type info
*/
sprintf (ti_name, "type_info_%d", ti_generator);
ti_generator ++;
if (cfg->compile_aot) {
/* decode_eh_frame () in aot-runtime.c will decode this */
type_info = LLVMAddGlobal (lmodule, LLVMInt32Type (), ti_name);
LLVMSetInitializer (type_info, LLVMConstInt (LLVMInt32Type (), clause_index, FALSE));
/*
* These symbols are not really used, the clause_index is embedded into the EH tables generated by DwarfMonoException in LLVM.
*/
LLVMSetLinkage (type_info, LLVMInternalLinkage);
} else {
type_info = LLVMAddGlobal (lmodule, LLVMInt32Type (), ti_name);
LLVMSetInitializer (type_info, LLVMConstInt (LLVMInt32Type (), clause_index, FALSE));
}
{
LLVMTypeRef members [2], ret_type;
members [0] = i8ptr;
members [1] = LLVMInt32Type ();
ret_type = LLVMStructType (members, 2, FALSE);
landing_pad = LLVMBuildLandingPad (builder, ret_type, personality, 1, "");
LLVMAddClause (landing_pad, type_info);
/* Store the exception into the exvar */
if (ctx->ex_var)
LLVMBuildStore (builder, convert (ctx, LLVMBuildExtractValue (builder, landing_pad, 0, "ex_obj"), ObjRefType ()), ctx->ex_var);
}
/*
* LLVM throw sites are associated with a one landing pad, and LLVM generated
* code expects control to be transferred to this landing pad even in the
* presence of nested clauses. The landing pad needs to branch to the landing
* pads belonging to nested clauses based on the selector value returned by
* the landing pad instruction, which is passed to the landing pad in a
* register by the EH code.
*/
target_bb = bblocks [bb->block_num].call_handler_target_bb;
g_assert (target_bb);
/*
* Branch to the correct landing pad
*/
LLVMValueRef ex_selector = LLVMBuildExtractValue (builder, landing_pad, 1, "ex_selector");
LLVMValueRef switch_ins = LLVMBuildSwitch (builder, ex_selector, target_bb, 0);
for (l = ctx->nested_in [clause_index]; l; l = l->next) {
int nesting_clause_index = GPOINTER_TO_INT (l->data);
MonoBasicBlock *handler_bb;
handler_bb = (MonoBasicBlock*)g_hash_table_lookup (ctx->clause_to_handler, GINT_TO_POINTER (nesting_clause_index));
g_assert (handler_bb);
g_assert (ctx->bblocks [handler_bb->block_num].call_handler_target_bb);
LLVMAddCase (switch_ins, LLVMConstInt (LLVMInt32Type (), nesting_clause_index, FALSE), ctx->bblocks [handler_bb->block_num].call_handler_target_bb);
}
/* Start a new bblock which CALL_HANDLER can branch to */
ctx->builder = builder = create_builder (ctx);
LLVMPositionBuilderAtEnd (ctx->builder, target_bb);
ctx->bblocks [bb->block_num].end_bblock = target_bb;
/* Store the exception into the IL level exvar */
if (bb->in_scount == 1) {
g_assert (bb->in_scount == 1);
exvar = bb->in_stack [0];
// FIXME: This is shared with filter clauses ?
g_assert (!values [exvar->dreg]);
g_assert (ctx->ex_var);
values [exvar->dreg] = LLVMBuildLoad (builder, ctx->ex_var, "");
emit_volatile_store (ctx, exvar->dreg);
}
/* Make normal branches to the start of the clause branch to the new bblock */
bblocks [bb->block_num].bblock = target_bb;
}
static LLVMValueRef
get_double_const (MonoCompile *cfg, double val)
{
//#ifdef TARGET_WASM
#if 0
//Wasm requires us to canonicalize NaNs.
if (mono_isnan (val))
*(gint64 *)&val = 0x7FF8000000000000ll;
#endif
return LLVMConstReal (LLVMDoubleType (), val);
}
static LLVMValueRef
get_float_const (MonoCompile *cfg, float val)
{
//#ifdef TARGET_WASM
#if 0
if (mono_isnan (val))
*(int *)&val = 0x7FC00000;
#endif
if (cfg->r4fp)
return LLVMConstReal (LLVMFloatType (), val);
else
return LLVMConstFPExt (LLVMConstReal (LLVMFloatType (), val), LLVMDoubleType ());
}
static LLVMValueRef
call_overloaded_intrins (EmitContext *ctx, int id, llvm_ovr_tag_t ovr_tag, LLVMValueRef *args, const char *name)
{
int key = key_from_id_and_tag (id, ovr_tag);
LLVMValueRef intrins = get_intrins (ctx, key);
int nargs = LLVMCountParamTypes (LLVMGetElementType (LLVMTypeOf (intrins)));
for (int i = 0; i < nargs; ++i) {
LLVMTypeRef t1 = LLVMTypeOf (args [i]);
LLVMTypeRef t2 = LLVMTypeOf (LLVMGetParam (intrins, i));
if (t1 != t2)
args [i] = convert (ctx, args [i], t2);
}
return LLVMBuildCall (ctx->builder, intrins, args, nargs, name);
}
static LLVMValueRef
call_intrins (EmitContext *ctx, int id, LLVMValueRef *args, const char *name)
{
return call_overloaded_intrins (ctx, id, 0, args, name);
}
static void
process_bb (EmitContext *ctx, MonoBasicBlock *bb)
{
MonoCompile *cfg = ctx->cfg;
MonoMethodSignature *sig = ctx->sig;
LLVMValueRef method = ctx->lmethod;
LLVMValueRef *values = ctx->values;
LLVMValueRef *addresses = ctx->addresses;
LLVMCallInfo *linfo = ctx->linfo;
BBInfo *bblocks = ctx->bblocks;
MonoInst *ins;
LLVMBasicBlockRef cbb;
LLVMBuilderRef builder;
gboolean has_terminator;
LLVMValueRef v;
LLVMValueRef lhs, rhs, arg3;
int nins = 0;
cbb = get_end_bb (ctx, bb);
builder = create_builder (ctx);
ctx->builder = builder;
LLVMPositionBuilderAtEnd (builder, cbb);
if (!ctx_ok (ctx))
return;
if (cfg->interp_entry_only && bb != cfg->bb_init && bb != cfg->bb_entry && bb != cfg->bb_exit) {
/* The interp entry code is in bb_entry, skip the rest as we might not be able to compile it */
LLVMBuildUnreachable (builder);
return;
}
if (bb->flags & BB_EXCEPTION_HANDLER) {
if (!ctx->llvm_only && !bblocks [bb->block_num].invoke_target) {
set_failure (ctx, "handler without invokes");
return;
}
if (ctx->llvm_only)
emit_llvmonly_handler_start (ctx, bb, cbb);
else
emit_handler_start (ctx, bb, builder);
if (!ctx_ok (ctx))
return;
builder = ctx->builder;
}
/* Handle PHI nodes first */
/* They should be grouped at the start of the bb */
for (ins = bb->code; ins; ins = ins->next) {
emit_dbg_loc (ctx, builder, ins->cil_code);
if (ins->opcode == OP_NOP)
continue;
if (!MONO_IS_PHI (ins))
break;
if (cfg->interp_entry_only)
break;
int i;
gboolean empty = TRUE;
/* Check that all input bblocks really branch to us */
for (i = 0; i < bb->in_count; ++i) {
if (bb->in_bb [i]->last_ins && bb->in_bb [i]->last_ins->opcode == OP_NOT_REACHED)
ins->inst_phi_args [i + 1] = -1;
else
empty = FALSE;
}
if (empty) {
/* LLVM doesn't like phi instructions with zero operands */
ctx->is_dead [ins->dreg] = TRUE;
continue;
}
/* Created earlier, insert it now */
LLVMInsertIntoBuilder (builder, values [ins->dreg]);
for (i = 0; i < ins->inst_phi_args [0]; i++) {
int sreg1 = ins->inst_phi_args [i + 1];
int count, j;
/*
* Count the number of times the incoming bblock branches to us,
* since llvm requires a separate entry for each.
*/
if (bb->in_bb [i]->last_ins && bb->in_bb [i]->last_ins->opcode == OP_SWITCH) {
MonoInst *switch_ins = bb->in_bb [i]->last_ins;
count = 0;
for (j = 0; j < GPOINTER_TO_UINT (switch_ins->klass); ++j) {
if (switch_ins->inst_many_bb [j] == bb)
count ++;
}
} else {
count = 1;
}
/* Remember for later */
for (j = 0; j < count; ++j) {
PhiNode *node = (PhiNode*)mono_mempool_alloc0 (ctx->mempool, sizeof (PhiNode));
node->bb = bb;
node->phi = ins;
node->in_bb = bb->in_bb [i];
node->sreg = sreg1;
bblocks [bb->in_bb [i]->block_num].phi_nodes = g_slist_prepend_mempool (ctx->mempool, bblocks [bb->in_bb [i]->block_num].phi_nodes, node);
}
}
}
// Add volatile stores for PHI nodes
// These need to be emitted after the PHI nodes
for (ins = bb->code; ins; ins = ins->next) {
const char *spec = LLVM_INS_INFO (ins->opcode);
if (ins->opcode == OP_NOP)
continue;
if (!MONO_IS_PHI (ins))
break;
if (spec [MONO_INST_DEST] != 'v')
emit_volatile_store (ctx, ins->dreg);
}
has_terminator = FALSE;
for (ins = bb->code; ins; ins = ins->next) {
const char *spec = LLVM_INS_INFO (ins->opcode);
char *dname = NULL;
char dname_buf [128];
emit_dbg_loc (ctx, builder, ins->cil_code);
nins ++;
if (nins > 1000) {
/*
* Some steps in llc are non-linear in the size of basic blocks, see #5714.
* Start a new bblock.
* Prevent the bblocks to be merged by doing a volatile load + cond branch
* from localloc-ed memory.
*/
if (!cfg->llvm_only)
;//set_failure (ctx, "basic block too long");
if (!ctx->long_bb_break_var) {
ctx->long_bb_break_var = build_alloca_llvm_type_name (ctx, LLVMInt32Type (), 0, "long_bb_break");
mono_llvm_build_store (ctx->alloca_builder, LLVMConstInt (LLVMInt32Type (), 0, FALSE), ctx->long_bb_break_var, TRUE, LLVM_BARRIER_NONE);
}
cbb = gen_bb (ctx, "CONT_LONG_BB");
LLVMBasicBlockRef dummy_bb = gen_bb (ctx, "CONT_LONG_BB_DUMMY");
LLVMValueRef load = mono_llvm_build_load (builder, ctx->long_bb_break_var, "", TRUE);
/*
* The long_bb_break_var is initialized to 0 in the prolog, so this branch will always go to 'cbb'
* but llvm doesn't know that, so the branch is not going to be eliminated.
*/
LLVMValueRef cmp = LLVMBuildICmp (builder, LLVMIntEQ, load, LLVMConstInt (LLVMInt32Type (), 0, FALSE), "");
LLVMBuildCondBr (builder, cmp, cbb, dummy_bb);
/* Emit a dummy false bblock which does nothing but contains a volatile store so it cannot be eliminated */
ctx->builder = builder = create_builder (ctx);
LLVMPositionBuilderAtEnd (builder, dummy_bb);
mono_llvm_build_store (builder, LLVMConstInt (LLVMInt32Type (), 1, FALSE), ctx->long_bb_break_var, TRUE, LLVM_BARRIER_NONE);
LLVMBuildBr (builder, cbb);
ctx->builder = builder = create_builder (ctx);
LLVMPositionBuilderAtEnd (builder, cbb);
ctx->bblocks [bb->block_num].end_bblock = cbb;
nins = 0;
emit_dbg_loc (ctx, builder, ins->cil_code);
}
if (has_terminator)
/* There could be instructions after a terminator, skip them */
break;
if (spec [MONO_INST_DEST] != ' ' && !MONO_IS_STORE_MEMBASE (ins)) {
sprintf (dname_buf, "t%d", ins->dreg);
dname = dname_buf;
}
if (spec [MONO_INST_SRC1] != ' ' && spec [MONO_INST_SRC1] != 'v') {
MonoInst *var = get_vreg_to_inst (cfg, ins->sreg1);
if (var && var->flags & (MONO_INST_VOLATILE|MONO_INST_INDIRECT) && var->opcode != OP_GSHAREDVT_ARG_REGOFFSET) {
lhs = emit_volatile_load (ctx, ins->sreg1);
} else {
/* It is ok for SETRET to have an uninitialized argument */
if (!values [ins->sreg1] && ins->opcode != OP_SETRET) {
set_failure (ctx, "sreg1");
return;
}
lhs = values [ins->sreg1];
}
} else {
lhs = NULL;
}
if (spec [MONO_INST_SRC2] != ' ' && spec [MONO_INST_SRC2] != 'v') {
MonoInst *var = get_vreg_to_inst (cfg, ins->sreg2);
if (var && var->flags & (MONO_INST_VOLATILE|MONO_INST_INDIRECT)) {
rhs = emit_volatile_load (ctx, ins->sreg2);
} else {
if (!values [ins->sreg2]) {
set_failure (ctx, "sreg2");
return;
}
rhs = values [ins->sreg2];
}
} else {
rhs = NULL;
}
if (spec [MONO_INST_SRC3] != ' ' && spec [MONO_INST_SRC3] != 'v') {
MonoInst *var = get_vreg_to_inst (cfg, ins->sreg3);
if (var && var->flags & (MONO_INST_VOLATILE|MONO_INST_INDIRECT)) {
arg3 = emit_volatile_load (ctx, ins->sreg3);
} else {
if (!values [ins->sreg3]) {
set_failure (ctx, "sreg3");
return;
}
arg3 = values [ins->sreg3];
}
} else {
arg3 = NULL;
}
//mono_print_ins (ins);
gboolean skip_volatile_store = FALSE;
switch (ins->opcode) {
case OP_NOP:
case OP_NOT_NULL:
case OP_LIVERANGE_START:
case OP_LIVERANGE_END:
break;
case OP_ICONST:
values [ins->dreg] = LLVMConstInt (LLVMInt32Type (), ins->inst_c0, FALSE);
break;
case OP_I8CONST:
#if TARGET_SIZEOF_VOID_P == 4
values [ins->dreg] = LLVMConstInt (LLVMInt64Type (), GET_LONG_IMM (ins), FALSE);
#else
values [ins->dreg] = LLVMConstInt (LLVMInt64Type (), (gint64)ins->inst_c0, FALSE);
#endif
break;
case OP_R8CONST:
values [ins->dreg] = get_double_const (cfg, *(double*)ins->inst_p0);
break;
case OP_R4CONST:
values [ins->dreg] = get_float_const (cfg, *(float*)ins->inst_p0);
break;
case OP_DUMMY_ICONST:
values [ins->dreg] = LLVMConstInt (LLVMInt32Type (), 0, FALSE);
break;
case OP_DUMMY_I8CONST:
values [ins->dreg] = LLVMConstInt (LLVMInt64Type (), 0, FALSE);
break;
case OP_DUMMY_R8CONST:
values [ins->dreg] = LLVMConstReal (LLVMDoubleType (), 0.0f);
break;
case OP_BR: {
LLVMBasicBlockRef target_bb = get_bb (ctx, ins->inst_target_bb);
LLVMBuildBr (builder, target_bb);
has_terminator = TRUE;
break;
}
case OP_SWITCH: {
int i;
LLVMValueRef v;
char bb_name [128];
LLVMBasicBlockRef new_bb;
LLVMBuilderRef new_builder;
// The default branch is already handled
// FIXME: Handle it here
/* Start new bblock */
sprintf (bb_name, "SWITCH_DEFAULT_BB%d", ctx->default_index ++);
new_bb = LLVMAppendBasicBlock (ctx->lmethod, bb_name);
lhs = convert (ctx, lhs, LLVMInt32Type ());
v = LLVMBuildSwitch (builder, lhs, new_bb, GPOINTER_TO_UINT (ins->klass));
for (i = 0; i < GPOINTER_TO_UINT (ins->klass); ++i) {
MonoBasicBlock *target_bb = ins->inst_many_bb [i];
LLVMAddCase (v, LLVMConstInt (LLVMInt32Type (), i, FALSE), get_bb (ctx, target_bb));
}
new_builder = create_builder (ctx);
LLVMPositionBuilderAtEnd (new_builder, new_bb);
LLVMBuildUnreachable (new_builder);
has_terminator = TRUE;
g_assert (!ins->next);
break;
}
case OP_SETRET:
switch (linfo->ret.storage) {
case LLVMArgNormal:
case LLVMArgVtypeInReg:
case LLVMArgVtypeAsScalar:
case LLVMArgWasmVtypeAsScalar: {
LLVMTypeRef ret_type = LLVMGetReturnType (LLVMGetElementType (LLVMTypeOf (method)));
LLVMValueRef retval = LLVMGetUndef (ret_type);
gboolean src_in_reg = FALSE;
gboolean is_simd = MONO_CLASS_IS_SIMD (ctx->cfg, mono_class_from_mono_type_internal (sig->ret));
switch (linfo->ret.storage) {
case LLVMArgNormal: src_in_reg = TRUE; break;
case LLVMArgVtypeInReg: case LLVMArgVtypeAsScalar: src_in_reg = is_simd; break;
}
if (src_in_reg && (!lhs || ctx->is_dead [ins->sreg1])) {
/*
* The method did not set its return value, probably because it
* ends with a throw.
*/
LLVMBuildRet (builder, retval);
break;
}
switch (linfo->ret.storage) {
case LLVMArgNormal:
retval = convert (ctx, lhs, type_to_llvm_type (ctx, sig->ret));
break;
case LLVMArgVtypeInReg:
if (is_simd) {
/* The return type is an LLVM aggregate type, so a bare bitcast cannot be used to do this conversion. */
int width = mono_type_size (sig->ret, NULL);
int elems = width / TARGET_SIZEOF_VOID_P;
/* The return value might not be set if there is a throw */
LLVMValueRef val = LLVMBuildBitCast (builder, lhs, LLVMVectorType (IntPtrType (), elems), "");
for (int i = 0; i < elems; ++i) {
LLVMValueRef element = LLVMBuildExtractElement (builder, val, const_int32 (i), "");
retval = LLVMBuildInsertValue (builder, retval, element, i, "setret_simd_vtype_in_reg");
}
} else {
LLVMValueRef addr = LLVMBuildBitCast (builder, addresses [ins->sreg1], LLVMPointerType (ret_type, 0), "");
for (int i = 0; i < 2; ++i) {
if (linfo->ret.pair_storage [i] == LLVMArgInIReg) {
LLVMValueRef indexes [2], part_addr;
indexes [0] = LLVMConstInt (LLVMInt32Type (), 0, FALSE);
indexes [1] = LLVMConstInt (LLVMInt32Type (), i, FALSE);
part_addr = LLVMBuildGEP (builder, addr, indexes, 2, "");
retval = LLVMBuildInsertValue (builder, retval, LLVMBuildLoad (builder, part_addr, ""), i, "");
} else {
g_assert (linfo->ret.pair_storage [i] == LLVMArgNone);
}
}
}
break;
case LLVMArgVtypeAsScalar:
if (is_simd) {
retval = LLVMBuildBitCast (builder, values [ins->sreg1], ret_type, "setret_simd_vtype_as_scalar");
} else {
g_assert (addresses [ins->sreg1]);
retval = LLVMBuildLoad (builder, LLVMBuildBitCast (builder, addresses [ins->sreg1], LLVMPointerType (ret_type, 0), ""), "");
}
break;
case LLVMArgWasmVtypeAsScalar:
g_assert (addresses [ins->sreg1]);
retval = LLVMBuildLoad (builder, LLVMBuildBitCast (builder, addresses [ins->sreg1], LLVMPointerType (ret_type, 0), ""), "");
break;
}
LLVMBuildRet (builder, retval);
break;
}
case LLVMArgVtypeByRef: {
LLVMBuildRetVoid (builder);
break;
}
case LLVMArgGsharedvtFixed: {
LLVMTypeRef ret_type = type_to_llvm_type (ctx, sig->ret);
/* The return value is in lhs, need to store to the vret argument */
/* sreg1 might not be set */
if (lhs) {
g_assert (cfg->vret_addr);
g_assert (values [cfg->vret_addr->dreg]);
LLVMBuildStore (builder, convert (ctx, lhs, ret_type), convert (ctx, values [cfg->vret_addr->dreg], LLVMPointerType (ret_type, 0)));
}
LLVMBuildRetVoid (builder);
break;
}
case LLVMArgGsharedvtFixedVtype: {
/* Already set */
LLVMBuildRetVoid (builder);
break;
}
case LLVMArgGsharedvtVariable: {
/* Already set */
LLVMBuildRetVoid (builder);
break;
}
case LLVMArgVtypeRetAddr: {
LLVMBuildRetVoid (builder);
break;
}
case LLVMArgAsIArgs:
case LLVMArgFpStruct: {
LLVMTypeRef ret_type = LLVMGetReturnType (LLVMGetElementType (LLVMTypeOf (method)));
LLVMValueRef retval;
g_assert (addresses [ins->sreg1]);
retval = LLVMBuildLoad (builder, convert (ctx, addresses [ins->sreg1], LLVMPointerType (ret_type, 0)), "");
LLVMBuildRet (builder, retval);
break;
}
case LLVMArgNone:
LLVMBuildRetVoid (builder);
break;
default:
g_assert_not_reached ();
break;
}
has_terminator = TRUE;
break;
case OP_ICOMPARE:
case OP_FCOMPARE:
case OP_RCOMPARE:
case OP_LCOMPARE:
case OP_COMPARE:
case OP_ICOMPARE_IMM:
case OP_LCOMPARE_IMM:
case OP_COMPARE_IMM: {
CompRelation rel;
LLVMValueRef cmp, args [16];
gboolean likely = (ins->flags & MONO_INST_LIKELY) != 0;
gboolean unlikely = FALSE;
if (MONO_IS_COND_BRANCH_OP (ins->next)) {
if (ins->next->inst_false_bb->out_of_line)
likely = TRUE;
else if (ins->next->inst_true_bb->out_of_line)
unlikely = TRUE;
}
if (ins->next->opcode == OP_NOP)
break;
if (ins->next->opcode == OP_BR)
/* The comparison result is not needed */
continue;
rel = mono_opcode_to_cond (ins->next->opcode);
if (ins->opcode == OP_ICOMPARE_IMM) {
lhs = convert (ctx, lhs, LLVMInt32Type ());
rhs = LLVMConstInt (LLVMInt32Type (), ins->inst_imm, FALSE);
}
if (ins->opcode == OP_LCOMPARE_IMM) {
lhs = convert (ctx, lhs, LLVMInt64Type ());
rhs = LLVMConstInt (LLVMInt64Type (), GET_LONG_IMM (ins), FALSE);
}
if (ins->opcode == OP_LCOMPARE) {
lhs = convert (ctx, lhs, LLVMInt64Type ());
rhs = convert (ctx, rhs, LLVMInt64Type ());
}
if (ins->opcode == OP_ICOMPARE) {
lhs = convert (ctx, lhs, LLVMInt32Type ());
rhs = convert (ctx, rhs, LLVMInt32Type ());
}
if (lhs && rhs) {
if (LLVMGetTypeKind (LLVMTypeOf (lhs)) == LLVMPointerTypeKind)
rhs = convert (ctx, rhs, LLVMTypeOf (lhs));
else if (LLVMGetTypeKind (LLVMTypeOf (rhs)) == LLVMPointerTypeKind)
lhs = convert (ctx, lhs, LLVMTypeOf (rhs));
}
/* We use COMPARE+SETcc/Bcc, llvm uses SETcc+br cond */
if (ins->opcode == OP_FCOMPARE) {
cmp = LLVMBuildFCmp (builder, fpcond_to_llvm_cond [rel], convert (ctx, lhs, LLVMDoubleType ()), convert (ctx, rhs, LLVMDoubleType ()), "");
} else if (ins->opcode == OP_RCOMPARE) {
cmp = LLVMBuildFCmp (builder, fpcond_to_llvm_cond [rel], convert (ctx, lhs, LLVMFloatType ()), convert (ctx, rhs, LLVMFloatType ()), "");
} else if (ins->opcode == OP_COMPARE_IMM) {
LLVMIntPredicate llvm_pred = cond_to_llvm_cond [rel];
if (LLVMGetTypeKind (LLVMTypeOf (lhs)) == LLVMPointerTypeKind && ins->inst_imm == 0) {
// We are emitting a NULL check for a pointer
gboolean nonnull = mono_llvm_is_nonnull (lhs);
if (nonnull && llvm_pred == LLVMIntEQ)
cmp = LLVMConstInt (LLVMInt1Type (), FALSE, FALSE);
else if (nonnull && llvm_pred == LLVMIntNE)
cmp = LLVMConstInt (LLVMInt1Type (), TRUE, FALSE);
else
cmp = LLVMBuildICmp (builder, llvm_pred, lhs, LLVMConstNull (LLVMTypeOf (lhs)), "");
} else {
cmp = LLVMBuildICmp (builder, llvm_pred, convert (ctx, lhs, IntPtrType ()), LLVMConstInt (IntPtrType (), ins->inst_imm, FALSE), "");
}
} else if (ins->opcode == OP_LCOMPARE_IMM) {
cmp = LLVMBuildICmp (builder, cond_to_llvm_cond [rel], lhs, rhs, "");
}
else if (ins->opcode == OP_COMPARE) {
if (LLVMGetTypeKind (LLVMTypeOf (lhs)) == LLVMPointerTypeKind && LLVMTypeOf (lhs) == LLVMTypeOf (rhs))
cmp = LLVMBuildICmp (builder, cond_to_llvm_cond [rel], lhs, rhs, "");
else
cmp = LLVMBuildICmp (builder, cond_to_llvm_cond [rel], convert (ctx, lhs, IntPtrType ()), convert (ctx, rhs, IntPtrType ()), "");
} else
cmp = LLVMBuildICmp (builder, cond_to_llvm_cond [rel], lhs, rhs, "");
if (likely || unlikely) {
args [0] = cmp;
args [1] = LLVMConstInt (LLVMInt1Type (), likely ? 1 : 0, FALSE);
cmp = call_intrins (ctx, INTRINS_EXPECT_I1, args, "");
}
if (MONO_IS_COND_BRANCH_OP (ins->next)) {
if (ins->next->inst_true_bb == ins->next->inst_false_bb) {
/*
* If the target bb contains PHI instructions, LLVM requires
* two PHI entries for this bblock, while we only generate one.
* So convert this to an unconditional bblock. (bxc #171).
*/
LLVMBuildBr (builder, get_bb (ctx, ins->next->inst_true_bb));
} else {
LLVMBuildCondBr (builder, cmp, get_bb (ctx, ins->next->inst_true_bb), get_bb (ctx, ins->next->inst_false_bb));
}
has_terminator = TRUE;
} else if (MONO_IS_SETCC (ins->next)) {
sprintf (dname_buf, "t%d", ins->next->dreg);
dname = dname_buf;
values [ins->next->dreg] = LLVMBuildZExt (builder, cmp, LLVMInt32Type (), dname);
/* Add stores for volatile variables */
emit_volatile_store (ctx, ins->next->dreg);
} else if (MONO_IS_COND_EXC (ins->next)) {
gboolean force_explicit_branch = FALSE;
if (bb->region != -1) {
/* Don't tag null check branches in exception-handling
* regions with `make.implicit`.
*/
force_explicit_branch = TRUE;
}
emit_cond_system_exception (ctx, bb, (const char*)ins->next->inst_p1, cmp, force_explicit_branch);
if (!ctx_ok (ctx))
break;
builder = ctx->builder;
} else {
set_failure (ctx, "next");
break;
}
ins = ins->next;
break;
}
case OP_FCEQ:
case OP_FCNEQ:
case OP_FCLT:
case OP_FCLT_UN:
case OP_FCGT:
case OP_FCGT_UN:
case OP_FCGE:
case OP_FCLE: {
CompRelation rel;
LLVMValueRef cmp;
rel = mono_opcode_to_cond (ins->opcode);
cmp = LLVMBuildFCmp (builder, fpcond_to_llvm_cond [rel], convert (ctx, lhs, LLVMDoubleType ()), convert (ctx, rhs, LLVMDoubleType ()), "");
values [ins->dreg] = LLVMBuildZExt (builder, cmp, LLVMInt32Type (), dname);
break;
}
case OP_RCEQ:
case OP_RCNEQ:
case OP_RCLT:
case OP_RCLT_UN:
case OP_RCGT:
case OP_RCGT_UN: {
CompRelation rel;
LLVMValueRef cmp;
rel = mono_opcode_to_cond (ins->opcode);
cmp = LLVMBuildFCmp (builder, fpcond_to_llvm_cond [rel], convert (ctx, lhs, LLVMFloatType ()), convert (ctx, rhs, LLVMFloatType ()), "");
values [ins->dreg] = LLVMBuildZExt (builder, cmp, LLVMInt32Type (), dname);
break;
}
case OP_PHI:
case OP_FPHI:
case OP_VPHI:
case OP_XPHI: {
// Handled above
skip_volatile_store = TRUE;
break;
}
case OP_MOVE:
case OP_LMOVE:
case OP_XMOVE:
case OP_SETFRET:
g_assert (lhs);
values [ins->dreg] = lhs;
break;
case OP_FMOVE:
case OP_RMOVE: {
MonoInst *var = get_vreg_to_inst (cfg, ins->dreg);
g_assert (lhs);
values [ins->dreg] = lhs;
if (var && m_class_get_byval_arg (var->klass)->type == MONO_TYPE_R4) {
/*
* This is added by the spilling pass in case of the JIT,
* but we have to do it ourselves.
*/
values [ins->dreg] = convert (ctx, values [ins->dreg], LLVMFloatType ());
}
break;
}
case OP_MOVE_F_TO_I4: {
values [ins->dreg] = LLVMBuildBitCast (builder, LLVMBuildFPTrunc (builder, lhs, LLVMFloatType (), ""), LLVMInt32Type (), "");
break;
}
case OP_MOVE_I4_TO_F: {
values [ins->dreg] = LLVMBuildFPExt (builder, LLVMBuildBitCast (builder, lhs, LLVMFloatType (), ""), LLVMDoubleType (), "");
break;
}
case OP_MOVE_F_TO_I8: {
values [ins->dreg] = LLVMBuildBitCast (builder, lhs, LLVMInt64Type (), "");
break;
}
case OP_MOVE_I8_TO_F: {
values [ins->dreg] = LLVMBuildBitCast (builder, lhs, LLVMDoubleType (), "");
break;
}
case OP_IADD:
case OP_ISUB:
case OP_IAND:
case OP_IMUL:
case OP_IDIV:
case OP_IDIV_UN:
case OP_IREM:
case OP_IREM_UN:
case OP_IOR:
case OP_IXOR:
case OP_ISHL:
case OP_ISHR:
case OP_ISHR_UN:
case OP_FADD:
case OP_FSUB:
case OP_FMUL:
case OP_FDIV:
case OP_LADD:
case OP_LSUB:
case OP_LMUL:
case OP_LDIV:
case OP_LDIV_UN:
case OP_LREM:
case OP_LREM_UN:
case OP_LAND:
case OP_LOR:
case OP_LXOR:
case OP_LSHL:
case OP_LSHR:
case OP_LSHR_UN:
lhs = convert (ctx, lhs, regtype_to_llvm_type (spec [MONO_INST_DEST]));
rhs = convert (ctx, rhs, regtype_to_llvm_type (spec [MONO_INST_DEST]));
emit_div_check (ctx, builder, bb, ins, lhs, rhs);
if (!ctx_ok (ctx))
break;
builder = ctx->builder;
switch (ins->opcode) {
case OP_IADD:
case OP_LADD:
values [ins->dreg] = LLVMBuildAdd (builder, lhs, rhs, dname);
break;
case OP_ISUB:
case OP_LSUB:
values [ins->dreg] = LLVMBuildSub (builder, lhs, rhs, dname);
break;
case OP_IMUL:
case OP_LMUL:
values [ins->dreg] = LLVMBuildMul (builder, lhs, rhs, dname);
break;
case OP_IREM:
case OP_LREM:
values [ins->dreg] = LLVMBuildSRem (builder, lhs, rhs, dname);
break;
case OP_IREM_UN:
case OP_LREM_UN:
values [ins->dreg] = LLVMBuildURem (builder, lhs, rhs, dname);
break;
case OP_IDIV:
case OP_LDIV:
values [ins->dreg] = LLVMBuildSDiv (builder, lhs, rhs, dname);
break;
case OP_IDIV_UN:
case OP_LDIV_UN:
values [ins->dreg] = LLVMBuildUDiv (builder, lhs, rhs, dname);
break;
case OP_FDIV:
case OP_RDIV:
values [ins->dreg] = LLVMBuildFDiv (builder, lhs, rhs, dname);
break;
case OP_IAND:
case OP_LAND:
values [ins->dreg] = LLVMBuildAnd (builder, lhs, rhs, dname);
break;
case OP_IOR:
case OP_LOR:
values [ins->dreg] = LLVMBuildOr (builder, lhs, rhs, dname);
break;
case OP_IXOR:
case OP_LXOR:
values [ins->dreg] = LLVMBuildXor (builder, lhs, rhs, dname);
break;
case OP_ISHL:
case OP_LSHL:
values [ins->dreg] = LLVMBuildShl (builder, lhs, rhs, dname);
break;
case OP_ISHR:
case OP_LSHR:
values [ins->dreg] = LLVMBuildAShr (builder, lhs, rhs, dname);
break;
case OP_ISHR_UN:
case OP_LSHR_UN:
values [ins->dreg] = LLVMBuildLShr (builder, lhs, rhs, dname);
break;
case OP_FADD:
values [ins->dreg] = LLVMBuildFAdd (builder, lhs, rhs, dname);
break;
case OP_FSUB:
values [ins->dreg] = LLVMBuildFSub (builder, lhs, rhs, dname);
break;
case OP_FMUL:
values [ins->dreg] = LLVMBuildFMul (builder, lhs, rhs, dname);
break;
default:
g_assert_not_reached ();
}
break;
case OP_RADD:
case OP_RSUB:
case OP_RMUL:
case OP_RDIV: {
lhs = convert (ctx, lhs, LLVMFloatType ());
rhs = convert (ctx, rhs, LLVMFloatType ());
switch (ins->opcode) {
case OP_RADD:
values [ins->dreg] = LLVMBuildFAdd (builder, lhs, rhs, dname);
break;
case OP_RSUB:
values [ins->dreg] = LLVMBuildFSub (builder, lhs, rhs, dname);
break;
case OP_RMUL:
values [ins->dreg] = LLVMBuildFMul (builder, lhs, rhs, dname);
break;
case OP_RDIV:
values [ins->dreg] = LLVMBuildFDiv (builder, lhs, rhs, dname);
break;
default:
g_assert_not_reached ();
break;
}
break;
}
case OP_IADD_IMM:
case OP_ISUB_IMM:
case OP_IMUL_IMM:
case OP_IREM_IMM:
case OP_IREM_UN_IMM:
case OP_IDIV_IMM:
case OP_IDIV_UN_IMM:
case OP_IAND_IMM:
case OP_IOR_IMM:
case OP_IXOR_IMM:
case OP_ISHL_IMM:
case OP_ISHR_IMM:
case OP_ISHR_UN_IMM:
case OP_LADD_IMM:
case OP_LSUB_IMM:
case OP_LMUL_IMM:
case OP_LREM_IMM:
case OP_LAND_IMM:
case OP_LOR_IMM:
case OP_LXOR_IMM:
case OP_LSHL_IMM:
case OP_LSHR_IMM:
case OP_LSHR_UN_IMM:
case OP_ADD_IMM:
case OP_AND_IMM:
case OP_MUL_IMM:
case OP_SHL_IMM:
case OP_SHR_IMM:
case OP_SHR_UN_IMM: {
LLVMValueRef imm;
if (spec [MONO_INST_SRC1] == 'l') {
imm = LLVMConstInt (LLVMInt64Type (), GET_LONG_IMM (ins), FALSE);
} else {
imm = LLVMConstInt (LLVMInt32Type (), ins->inst_imm, FALSE);
}
emit_div_check (ctx, builder, bb, ins, lhs, imm);
if (!ctx_ok (ctx))
break;
builder = ctx->builder;
#if TARGET_SIZEOF_VOID_P == 4
if (ins->opcode == OP_LSHL_IMM || ins->opcode == OP_LSHR_IMM || ins->opcode == OP_LSHR_UN_IMM)
imm = LLVMConstInt (LLVMInt32Type (), ins->inst_imm, FALSE);
#endif
if (LLVMGetTypeKind (LLVMTypeOf (lhs)) == LLVMPointerTypeKind)
lhs = convert (ctx, lhs, IntPtrType ());
imm = convert (ctx, imm, LLVMTypeOf (lhs));
switch (ins->opcode) {
case OP_IADD_IMM:
case OP_LADD_IMM:
case OP_ADD_IMM:
values [ins->dreg] = LLVMBuildAdd (builder, lhs, imm, dname);
break;
case OP_ISUB_IMM:
case OP_LSUB_IMM:
values [ins->dreg] = LLVMBuildSub (builder, lhs, imm, dname);
break;
case OP_IMUL_IMM:
case OP_MUL_IMM:
case OP_LMUL_IMM:
values [ins->dreg] = LLVMBuildMul (builder, lhs, imm, dname);
break;
case OP_IDIV_IMM:
case OP_LDIV_IMM:
values [ins->dreg] = LLVMBuildSDiv (builder, lhs, imm, dname);
break;
case OP_IDIV_UN_IMM:
case OP_LDIV_UN_IMM:
values [ins->dreg] = LLVMBuildUDiv (builder, lhs, imm, dname);
break;
case OP_IREM_IMM:
case OP_LREM_IMM:
values [ins->dreg] = LLVMBuildSRem (builder, lhs, imm, dname);
break;
case OP_IREM_UN_IMM:
values [ins->dreg] = LLVMBuildURem (builder, lhs, imm, dname);
break;
case OP_IAND_IMM:
case OP_LAND_IMM:
case OP_AND_IMM:
values [ins->dreg] = LLVMBuildAnd (builder, lhs, imm, dname);
break;
case OP_IOR_IMM:
case OP_LOR_IMM:
values [ins->dreg] = LLVMBuildOr (builder, lhs, imm, dname);
break;
case OP_IXOR_IMM:
case OP_LXOR_IMM:
values [ins->dreg] = LLVMBuildXor (builder, lhs, imm, dname);
break;
case OP_ISHL_IMM:
case OP_LSHL_IMM:
values [ins->dreg] = LLVMBuildShl (builder, lhs, imm, dname);
break;
case OP_SHL_IMM:
if (TARGET_SIZEOF_VOID_P == 8) {
/* The IL is not regular */
lhs = convert (ctx, lhs, LLVMInt64Type ());
imm = convert (ctx, imm, LLVMInt64Type ());
}
values [ins->dreg] = LLVMBuildShl (builder, lhs, imm, dname);
break;
case OP_ISHR_IMM:
case OP_LSHR_IMM:
case OP_SHR_IMM:
values [ins->dreg] = LLVMBuildAShr (builder, lhs, imm, dname);
break;
case OP_ISHR_UN_IMM:
/* This is used to implement conv.u4, so the lhs could be an i8 */
lhs = convert (ctx, lhs, LLVMInt32Type ());
imm = convert (ctx, imm, LLVMInt32Type ());
values [ins->dreg] = LLVMBuildLShr (builder, lhs, imm, dname);
break;
case OP_LSHR_UN_IMM:
case OP_SHR_UN_IMM:
values [ins->dreg] = LLVMBuildLShr (builder, lhs, imm, dname);
break;
default:
g_assert_not_reached ();
}
break;
}
case OP_INEG:
values [ins->dreg] = LLVMBuildSub (builder, LLVMConstInt (LLVMInt32Type (), 0, FALSE), convert (ctx, lhs, LLVMInt32Type ()), dname);
break;
case OP_LNEG:
if (LLVMTypeOf (lhs) != LLVMInt64Type ())
lhs = convert (ctx, lhs, LLVMInt64Type ());
values [ins->dreg] = LLVMBuildSub (builder, LLVMConstInt (LLVMInt64Type (), 0, FALSE), lhs, dname);
break;
case OP_FNEG:
lhs = convert (ctx, lhs, LLVMDoubleType ());
values [ins->dreg] = LLVMBuildFNeg (builder, lhs, dname);
break;
case OP_RNEG:
lhs = convert (ctx, lhs, LLVMFloatType ());
values [ins->dreg] = LLVMBuildFNeg (builder, lhs, dname);
break;
case OP_INOT: {
guint32 v = 0xffffffff;
values [ins->dreg] = LLVMBuildXor (builder, LLVMConstInt (LLVMInt32Type (), v, FALSE), convert (ctx, lhs, LLVMInt32Type ()), dname);
break;
}
case OP_LNOT: {
if (LLVMTypeOf (lhs) != LLVMInt64Type ())
lhs = convert (ctx, lhs, LLVMInt64Type ());
guint64 v = 0xffffffffffffffffLL;
values [ins->dreg] = LLVMBuildXor (builder, LLVMConstInt (LLVMInt64Type (), v, FALSE), lhs, dname);
break;
}
#if defined(TARGET_X86) || defined(TARGET_AMD64)
case OP_X86_LEA: {
LLVMValueRef v1, v2;
rhs = LLVMBuildSExt (builder, convert (ctx, rhs, LLVMInt32Type ()), LLVMInt64Type (), "");
v1 = LLVMBuildMul (builder, convert (ctx, rhs, IntPtrType ()), LLVMConstInt (IntPtrType (), ((unsigned long long)1 << ins->backend.shift_amount), FALSE), "");
v2 = LLVMBuildAdd (builder, convert (ctx, lhs, IntPtrType ()), v1, "");
values [ins->dreg] = LLVMBuildAdd (builder, v2, LLVMConstInt (IntPtrType (), ins->inst_imm, FALSE), dname);
break;
}
case OP_X86_BSF32:
case OP_X86_BSF64: {
LLVMValueRef args [] = {
lhs,
LLVMConstInt (LLVMInt1Type (), 1, TRUE),
};
int op = ins->opcode == OP_X86_BSF32 ? INTRINS_CTTZ_I32 : INTRINS_CTTZ_I64;
values [ins->dreg] = call_intrins (ctx, op, args, dname);
break;
}
case OP_X86_BSR32:
case OP_X86_BSR64: {
LLVMValueRef args [] = {
lhs,
LLVMConstInt (LLVMInt1Type (), 1, TRUE),
};
int op = ins->opcode == OP_X86_BSR32 ? INTRINS_CTLZ_I32 : INTRINS_CTLZ_I64;
LLVMValueRef width = ins->opcode == OP_X86_BSR32 ? const_int32 (31) : const_int64 (63);
LLVMValueRef tz = call_intrins (ctx, op, args, "");
values [ins->dreg] = LLVMBuildXor (builder, tz, width, dname);
break;
}
#endif
case OP_ICONV_TO_I1:
case OP_ICONV_TO_I2:
case OP_ICONV_TO_I4:
case OP_ICONV_TO_U1:
case OP_ICONV_TO_U2:
case OP_ICONV_TO_U4:
case OP_LCONV_TO_I1:
case OP_LCONV_TO_I2:
case OP_LCONV_TO_U1:
case OP_LCONV_TO_U2:
case OP_LCONV_TO_U4: {
gboolean sign;
sign = (ins->opcode == OP_ICONV_TO_I1) || (ins->opcode == OP_ICONV_TO_I2) || (ins->opcode == OP_ICONV_TO_I4) || (ins->opcode == OP_LCONV_TO_I1) || (ins->opcode == OP_LCONV_TO_I2);
/* Have to do two casts since our vregs have type int */
v = LLVMBuildTrunc (builder, lhs, op_to_llvm_type (ins->opcode), "");
if (sign)
values [ins->dreg] = LLVMBuildSExt (builder, v, LLVMInt32Type (), dname);
else
values [ins->dreg] = LLVMBuildZExt (builder, v, LLVMInt32Type (), dname);
break;
}
case OP_ICONV_TO_I8:
values [ins->dreg] = LLVMBuildSExt (builder, lhs, LLVMInt64Type (), dname);
break;
case OP_ICONV_TO_U8:
values [ins->dreg] = LLVMBuildZExt (builder, lhs, LLVMInt64Type (), dname);
break;
case OP_FCONV_TO_I4:
case OP_RCONV_TO_I4:
values [ins->dreg] = LLVMBuildFPToSI (builder, lhs, LLVMInt32Type (), dname);
break;
case OP_FCONV_TO_I1:
case OP_RCONV_TO_I1:
values [ins->dreg] = LLVMBuildSExt (builder, LLVMBuildFPToSI (builder, lhs, LLVMInt8Type (), dname), LLVMInt32Type (), "");
break;
case OP_FCONV_TO_U1:
case OP_RCONV_TO_U1:
values [ins->dreg] = LLVMBuildZExt (builder, LLVMBuildTrunc (builder, LLVMBuildFPToUI (builder, lhs, IntPtrType (), dname), LLVMInt8Type (), ""), LLVMInt32Type (), "");
break;
case OP_FCONV_TO_I2:
case OP_RCONV_TO_I2:
values [ins->dreg] = LLVMBuildSExt (builder, LLVMBuildFPToSI (builder, lhs, LLVMInt16Type (), dname), LLVMInt32Type (), "");
break;
case OP_FCONV_TO_U2:
case OP_RCONV_TO_U2:
values [ins->dreg] = LLVMBuildZExt (builder, LLVMBuildFPToUI (builder, lhs, LLVMInt16Type (), dname), LLVMInt32Type (), "");
break;
case OP_FCONV_TO_U4:
case OP_RCONV_TO_U4:
values [ins->dreg] = LLVMBuildFPToUI (builder, lhs, LLVMInt32Type (), dname);
break;
case OP_FCONV_TO_U8:
case OP_RCONV_TO_U8:
values [ins->dreg] = LLVMBuildFPToUI (builder, lhs, LLVMInt64Type (), dname);
break;
case OP_FCONV_TO_I8:
case OP_RCONV_TO_I8:
values [ins->dreg] = LLVMBuildFPToSI (builder, lhs, LLVMInt64Type (), dname);
break;
case OP_ICONV_TO_R8:
case OP_LCONV_TO_R8:
values [ins->dreg] = LLVMBuildSIToFP (builder, lhs, LLVMDoubleType (), dname);
break;
case OP_ICONV_TO_R_UN:
case OP_LCONV_TO_R_UN:
values [ins->dreg] = LLVMBuildUIToFP (builder, lhs, LLVMDoubleType (), dname);
break;
#if TARGET_SIZEOF_VOID_P == 4
case OP_LCONV_TO_U:
#endif
case OP_LCONV_TO_I4:
values [ins->dreg] = LLVMBuildTrunc (builder, lhs, LLVMInt32Type (), dname);
break;
case OP_ICONV_TO_R4:
case OP_LCONV_TO_R4:
v = LLVMBuildSIToFP (builder, lhs, LLVMFloatType (), "");
if (cfg->r4fp)
values [ins->dreg] = v;
else
values [ins->dreg] = LLVMBuildFPExt (builder, v, LLVMDoubleType (), dname);
break;
case OP_FCONV_TO_R4:
v = LLVMBuildFPTrunc (builder, lhs, LLVMFloatType (), "");
if (cfg->r4fp)
values [ins->dreg] = v;
else
values [ins->dreg] = LLVMBuildFPExt (builder, v, LLVMDoubleType (), dname);
break;
case OP_RCONV_TO_R8:
values [ins->dreg] = LLVMBuildFPExt (builder, lhs, LLVMDoubleType (), dname);
break;
case OP_RCONV_TO_R4:
values [ins->dreg] = lhs;
break;
case OP_SEXT_I4:
values [ins->dreg] = LLVMBuildSExt (builder, convert (ctx, lhs, LLVMInt32Type ()), LLVMInt64Type (), dname);
break;
case OP_ZEXT_I4:
values [ins->dreg] = LLVMBuildZExt (builder, convert (ctx, lhs, LLVMInt32Type ()), LLVMInt64Type (), dname);
break;
case OP_TRUNC_I4:
values [ins->dreg] = LLVMBuildTrunc (builder, lhs, LLVMInt32Type (), dname);
break;
case OP_LOCALLOC_IMM: {
LLVMValueRef v;
guint32 size = ins->inst_imm;
size = (size + (MONO_ARCH_FRAME_ALIGNMENT - 1)) & ~ (MONO_ARCH_FRAME_ALIGNMENT - 1);
v = mono_llvm_build_alloca (builder, LLVMInt8Type (), LLVMConstInt (LLVMInt32Type (), size, FALSE), MONO_ARCH_FRAME_ALIGNMENT, "");
if (ins->flags & MONO_INST_INIT)
emit_memset (ctx, builder, v, const_int32 (size), MONO_ARCH_FRAME_ALIGNMENT);
values [ins->dreg] = v;
break;
}
case OP_LOCALLOC: {
LLVMValueRef v, size;
size = LLVMBuildAnd (builder, LLVMBuildAdd (builder, convert (ctx, lhs, LLVMInt32Type ()), LLVMConstInt (LLVMInt32Type (), MONO_ARCH_FRAME_ALIGNMENT - 1, FALSE), ""), LLVMConstInt (LLVMInt32Type (), ~ (MONO_ARCH_FRAME_ALIGNMENT - 1), FALSE), "");
v = mono_llvm_build_alloca (builder, LLVMInt8Type (), size, MONO_ARCH_FRAME_ALIGNMENT, "");
if (ins->flags & MONO_INST_INIT)
emit_memset (ctx, builder, v, size, MONO_ARCH_FRAME_ALIGNMENT);
values [ins->dreg] = v;
break;
}
case OP_LOADI1_MEMBASE:
case OP_LOADU1_MEMBASE:
case OP_LOADI2_MEMBASE:
case OP_LOADU2_MEMBASE:
case OP_LOADI4_MEMBASE:
case OP_LOADU4_MEMBASE:
case OP_LOADI8_MEMBASE:
case OP_LOADR4_MEMBASE:
case OP_LOADR8_MEMBASE:
case OP_LOAD_MEMBASE:
case OP_LOADI8_MEM:
case OP_LOADU1_MEM:
case OP_LOADU2_MEM:
case OP_LOADI4_MEM:
case OP_LOADU4_MEM:
case OP_LOAD_MEM: {
int size = 8;
LLVMValueRef base, index, addr;
LLVMTypeRef t;
gboolean sext = FALSE, zext = FALSE;
gboolean is_faulting = (ins->flags & MONO_INST_FAULT) != 0;
gboolean is_volatile = (ins->flags & MONO_INST_VOLATILE) != 0;
gboolean is_unaligned = (ins->flags & MONO_INST_UNALIGNED) != 0;
t = load_store_to_llvm_type (ins->opcode, &size, &sext, &zext);
if (sext || zext)
dname = (char*)"";
if ((ins->opcode == OP_LOADI8_MEM) || (ins->opcode == OP_LOAD_MEM) || (ins->opcode == OP_LOADI4_MEM) || (ins->opcode == OP_LOADU4_MEM) || (ins->opcode == OP_LOADU1_MEM) || (ins->opcode == OP_LOADU2_MEM)) {
addr = LLVMConstInt (IntPtrType (), ins->inst_imm, FALSE);
base = addr;
} else {
/* _MEMBASE */
base = lhs;
if (ins->inst_offset == 0) {
LLVMValueRef gep_base, gep_offset;
if (mono_llvm_can_be_gep (base, &gep_base, &gep_offset)) {
addr = LLVMBuildGEP (builder, convert (ctx, gep_base, LLVMPointerType (LLVMInt8Type (), 0)), &gep_offset, 1, "");
} else {
addr = base;
}
} else if (ins->inst_offset % size != 0) {
/* Unaligned load */
index = LLVMConstInt (LLVMInt32Type (), ins->inst_offset, FALSE);
addr = LLVMBuildGEP (builder, convert (ctx, base, LLVMPointerType (LLVMInt8Type (), 0)), &index, 1, "");
} else {
index = LLVMConstInt (LLVMInt32Type (), ins->inst_offset / size, FALSE);
addr = LLVMBuildGEP (builder, convert (ctx, base, LLVMPointerType (t, 0)), &index, 1, "");
}
}
addr = convert (ctx, addr, LLVMPointerType (t, 0));
if (is_unaligned)
values [ins->dreg] = mono_llvm_build_aligned_load (builder, addr, dname, is_volatile, 1);
else
values [ins->dreg] = emit_load (ctx, bb, &builder, size, addr, base, dname, is_faulting, is_volatile, LLVM_BARRIER_NONE);
if (!(is_faulting || is_volatile) && (ins->flags & MONO_INST_INVARIANT_LOAD)) {
/*
* These will signal LLVM that these loads do not alias any stores, and
* they can't fail, allowing them to be hoisted out of loops.
*/
set_invariant_load_flag (values [ins->dreg]);
}
if (sext)
values [ins->dreg] = LLVMBuildSExt (builder, values [ins->dreg], LLVMInt32Type (), dname);
else if (zext)
values [ins->dreg] = LLVMBuildZExt (builder, values [ins->dreg], LLVMInt32Type (), dname);
else if (!cfg->r4fp && ins->opcode == OP_LOADR4_MEMBASE)
values [ins->dreg] = LLVMBuildFPExt (builder, values [ins->dreg], LLVMDoubleType (), dname);
break;
}
case OP_STOREI1_MEMBASE_REG:
case OP_STOREI2_MEMBASE_REG:
case OP_STOREI4_MEMBASE_REG:
case OP_STOREI8_MEMBASE_REG:
case OP_STORER4_MEMBASE_REG:
case OP_STORER8_MEMBASE_REG:
case OP_STORE_MEMBASE_REG: {
int size = 8;
LLVMValueRef index, addr, base;
LLVMTypeRef t;
gboolean sext = FALSE, zext = FALSE;
gboolean is_faulting = (ins->flags & MONO_INST_FAULT) != 0;
gboolean is_volatile = (ins->flags & MONO_INST_VOLATILE) != 0;
gboolean is_unaligned = (ins->flags & MONO_INST_UNALIGNED) != 0;
if (!values [ins->inst_destbasereg]) {
set_failure (ctx, "inst_destbasereg");
break;
}
t = load_store_to_llvm_type (ins->opcode, &size, &sext, &zext);
base = values [ins->inst_destbasereg];
LLVMValueRef gep_base, gep_offset;
if (ins->inst_offset == 0 && mono_llvm_can_be_gep (base, &gep_base, &gep_offset)) {
addr = LLVMBuildGEP (builder, convert (ctx, gep_base, LLVMPointerType (LLVMInt8Type (), 0)), &gep_offset, 1, "");
} else if (ins->inst_offset % size != 0) {
/* Unaligned store */
index = LLVMConstInt (LLVMInt32Type (), ins->inst_offset, FALSE);
addr = LLVMBuildGEP (builder, convert (ctx, base, LLVMPointerType (LLVMInt8Type (), 0)), &index, 1, "");
} else {
index = LLVMConstInt (LLVMInt32Type (), ins->inst_offset / size, FALSE);
addr = LLVMBuildGEP (builder, convert (ctx, base, LLVMPointerType (t, 0)), &index, 1, "");
}
if (is_volatile && LLVMGetInstructionOpcode (base) == LLVMAlloca && !(ins->flags & MONO_INST_VOLATILE))
/* Storing to an alloca cannot fail */
is_volatile = FALSE;
LLVMValueRef srcval = convert (ctx, values [ins->sreg1], t);
LLVMValueRef ptrdst = convert (ctx, addr, LLVMPointerType (t, 0));
if (is_unaligned)
mono_llvm_build_aligned_store (builder, srcval, ptrdst, is_volatile, 1);
else
emit_store (ctx, bb, &builder, size, srcval, ptrdst, base, is_faulting, is_volatile);
break;
}
case OP_STOREI1_MEMBASE_IMM:
case OP_STOREI2_MEMBASE_IMM:
case OP_STOREI4_MEMBASE_IMM:
case OP_STOREI8_MEMBASE_IMM:
case OP_STORE_MEMBASE_IMM: {
int size = 8;
LLVMValueRef index, addr, base;
LLVMTypeRef t;
gboolean sext = FALSE, zext = FALSE;
gboolean is_faulting = (ins->flags & MONO_INST_FAULT) != 0;
gboolean is_volatile = (ins->flags & MONO_INST_VOLATILE) != 0;
gboolean is_unaligned = (ins->flags & MONO_INST_UNALIGNED) != 0;
t = load_store_to_llvm_type (ins->opcode, &size, &sext, &zext);
base = values [ins->inst_destbasereg];
LLVMValueRef gep_base, gep_offset;
if (ins->inst_offset == 0 && mono_llvm_can_be_gep (base, &gep_base, &gep_offset)) {
addr = LLVMBuildGEP (builder, convert (ctx, gep_base, LLVMPointerType (LLVMInt8Type (), 0)), &gep_offset, 1, "");
} else if (ins->inst_offset % size != 0) {
/* Unaligned store */
index = LLVMConstInt (LLVMInt32Type (), ins->inst_offset, FALSE);
addr = LLVMBuildGEP (builder, convert (ctx, base, LLVMPointerType (LLVMInt8Type (), 0)), &index, 1, "");
} else {
index = LLVMConstInt (LLVMInt32Type (), ins->inst_offset / size, FALSE);
addr = LLVMBuildGEP (builder, convert (ctx, base, LLVMPointerType (t, 0)), &index, 1, "");
}
LLVMValueRef srcval = convert (ctx, LLVMConstInt (IntPtrType (), ins->inst_imm, FALSE), t);
LLVMValueRef ptrdst = convert (ctx, addr, LLVMPointerType (t, 0));
if (is_unaligned)
mono_llvm_build_aligned_store (builder, srcval, ptrdst, is_volatile, 1);
else
emit_store (ctx, bb, &builder, size, srcval, ptrdst, base, is_faulting, is_volatile);
break;
}
case OP_CHECK_THIS:
emit_load (ctx, bb, &builder, TARGET_SIZEOF_VOID_P, convert (ctx, lhs, LLVMPointerType (IntPtrType (), 0)), lhs, "", TRUE, FALSE, LLVM_BARRIER_NONE);
break;
case OP_OUTARG_VTRETADDR:
break;
case OP_VOIDCALL:
case OP_CALL:
case OP_LCALL:
case OP_FCALL:
case OP_RCALL:
case OP_VCALL:
case OP_VOIDCALL_MEMBASE:
case OP_CALL_MEMBASE:
case OP_LCALL_MEMBASE:
case OP_FCALL_MEMBASE:
case OP_RCALL_MEMBASE:
case OP_VCALL_MEMBASE:
case OP_VOIDCALL_REG:
case OP_CALL_REG:
case OP_LCALL_REG:
case OP_FCALL_REG:
case OP_RCALL_REG:
case OP_VCALL_REG: {
process_call (ctx, bb, &builder, ins);
break;
}
case OP_AOTCONST: {
MonoJumpInfoType ji_type = ins->inst_c1;
gpointer ji_data = ins->inst_p0;
if (ji_type == MONO_PATCH_INFO_ICALL_ADDR) {
char *symbol = mono_aot_get_direct_call_symbol (MONO_PATCH_INFO_ICALL_ADDR_CALL, ji_data);
if (symbol) {
/*
* Avoid emitting a got entry for these since the method is directly called, and it might not be
* resolvable at runtime using dlsym ().
*/
g_free (symbol);
values [ins->dreg] = LLVMConstInt (IntPtrType (), 0, FALSE);
break;
}
}
values [ins->dreg] = get_aotconst (ctx, ji_type, ji_data, LLVMPointerType (IntPtrType (), 0));
break;
}
case OP_MEMMOVE: {
int argn = 0;
LLVMValueRef args [5];
args [argn++] = convert (ctx, values [ins->sreg1], LLVMPointerType (LLVMInt8Type (), 0));
args [argn++] = convert (ctx, values [ins->sreg2], LLVMPointerType (LLVMInt8Type (), 0));
args [argn++] = convert (ctx, values [ins->sreg3], LLVMInt64Type ());
args [argn++] = LLVMConstInt (LLVMInt1Type (), 0, FALSE); // is_volatile
call_intrins (ctx, INTRINS_MEMMOVE, args, "");
break;
}
case OP_NOT_REACHED:
LLVMBuildUnreachable (builder);
has_terminator = TRUE;
g_assert (bb->block_num < cfg->max_block_num);
ctx->unreachable [bb->block_num] = TRUE;
/* Might have instructions after this */
while (ins->next) {
MonoInst *next = ins->next;
/*
* FIXME: If later code uses the regs defined by these instructions,
* compilation will fail.
*/
const char *spec = INS_INFO (next->opcode);
if (spec [MONO_INST_DEST] == 'i' && !MONO_IS_STORE_MEMBASE (next))
ctx->values [next->dreg] = LLVMConstNull (LLVMInt32Type ());
MONO_DELETE_INS (bb, next);
}
break;
case OP_LDADDR: {
MonoInst *var = ins->inst_i0;
MonoClass *klass = var->klass;
if (var->opcode == OP_VTARG_ADDR && !MONO_CLASS_IS_SIMD(cfg, klass)) {
/* The variable contains the vtype address */
values [ins->dreg] = values [var->dreg];
} else if (var->opcode == OP_GSHAREDVT_LOCAL) {
values [ins->dreg] = emit_gsharedvt_ldaddr (ctx, var->dreg);
} else {
values [ins->dreg] = addresses [var->dreg];
}
break;
}
case OP_SIN: {
LLVMValueRef args [1];
args [0] = convert (ctx, lhs, LLVMDoubleType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_SIN, args, dname);
break;
}
case OP_SINF: {
LLVMValueRef args [1];
args [0] = convert (ctx, lhs, LLVMFloatType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_SINF, args, dname);
break;
}
case OP_EXP: {
LLVMValueRef args [1];
args [0] = convert (ctx, lhs, LLVMDoubleType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_EXP, args, dname);
break;
}
case OP_EXPF: {
LLVMValueRef args [1];
args [0] = convert (ctx, lhs, LLVMFloatType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_EXPF, args, dname);
break;
}
case OP_LOG2: {
LLVMValueRef args [1];
args [0] = convert (ctx, lhs, LLVMDoubleType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_LOG2, args, dname);
break;
}
case OP_LOG2F: {
LLVMValueRef args [1];
args [0] = convert (ctx, lhs, LLVMFloatType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_LOG2F, args, dname);
break;
}
case OP_LOG10: {
LLVMValueRef args [1];
args [0] = convert (ctx, lhs, LLVMDoubleType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_LOG10, args, dname);
break;
}
case OP_LOG10F: {
LLVMValueRef args [1];
args [0] = convert (ctx, lhs, LLVMFloatType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_LOG10F, args, dname);
break;
}
case OP_LOG: {
LLVMValueRef args [1];
args [0] = convert (ctx, lhs, LLVMDoubleType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_LOG, args, dname);
break;
}
case OP_TRUNC: {
LLVMValueRef args [1];
args [0] = convert (ctx, lhs, LLVMDoubleType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_TRUNC, args, dname);
break;
}
case OP_TRUNCF: {
LLVMValueRef args [1];
args [0] = convert (ctx, lhs, LLVMFloatType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_TRUNCF, args, dname);
break;
}
case OP_COS: {
LLVMValueRef args [1];
args [0] = convert (ctx, lhs, LLVMDoubleType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_COS, args, dname);
break;
}
case OP_COSF: {
LLVMValueRef args [1];
args [0] = convert (ctx, lhs, LLVMFloatType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_COSF, args, dname);
break;
}
case OP_SQRT: {
LLVMValueRef args [1];
args [0] = convert (ctx, lhs, LLVMDoubleType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_SQRT, args, dname);
break;
}
case OP_SQRTF: {
LLVMValueRef args [1];
args [0] = convert (ctx, lhs, LLVMFloatType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_SQRTF, args, dname);
break;
}
case OP_FLOOR: {
LLVMValueRef args [1];
args [0] = convert (ctx, lhs, LLVMDoubleType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_FLOOR, args, dname);
break;
}
case OP_FLOORF: {
LLVMValueRef args [1];
args [0] = convert (ctx, lhs, LLVMFloatType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_FLOORF, args, dname);
break;
}
case OP_CEIL: {
LLVMValueRef args [1];
args [0] = convert (ctx, lhs, LLVMDoubleType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_CEIL, args, dname);
break;
}
case OP_CEILF: {
LLVMValueRef args [1];
args [0] = convert (ctx, lhs, LLVMFloatType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_CEILF, args, dname);
break;
}
case OP_FMA: {
LLVMValueRef args [3];
args [0] = convert (ctx, values [ins->sreg1], LLVMDoubleType ());
args [1] = convert (ctx, values [ins->sreg2], LLVMDoubleType ());
args [2] = convert (ctx, values [ins->sreg3], LLVMDoubleType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_FMA, args, dname);
break;
}
case OP_FMAF: {
LLVMValueRef args [3];
args [0] = convert (ctx, values [ins->sreg1], LLVMFloatType ());
args [1] = convert (ctx, values [ins->sreg2], LLVMFloatType ());
args [2] = convert (ctx, values [ins->sreg3], LLVMFloatType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_FMAF, args, dname);
break;
}
case OP_ABS: {
LLVMValueRef args [1];
args [0] = convert (ctx, lhs, LLVMDoubleType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_FABS, args, dname);
break;
}
case OP_ABSF: {
LLVMValueRef args [1];
#ifdef TARGET_AMD64
args [0] = convert (ctx, lhs, LLVMFloatType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_ABSF, args, dname);
#else
/* llvm.fabs not supported on all platforms */
args [0] = convert (ctx, lhs, LLVMDoubleType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_FABS, args, dname);
values [ins->dreg] = convert (ctx, values [ins->dreg], LLVMFloatType ());
#endif
break;
}
case OP_RPOW: {
LLVMValueRef args [2];
args [0] = convert (ctx, lhs, LLVMFloatType ());
args [1] = convert (ctx, rhs, LLVMFloatType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_POWF, args, dname);
break;
}
case OP_FPOW: {
LLVMValueRef args [2];
args [0] = convert (ctx, lhs, LLVMDoubleType ());
args [1] = convert (ctx, rhs, LLVMDoubleType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_POW, args, dname);
break;
}
case OP_FCOPYSIGN: {
LLVMValueRef args [2];
args [0] = convert (ctx, lhs, LLVMDoubleType ());
args [1] = convert (ctx, rhs, LLVMDoubleType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_COPYSIGN, args, dname);
break;
}
case OP_RCOPYSIGN: {
LLVMValueRef args [2];
args [0] = convert (ctx, lhs, LLVMFloatType ());
args [1] = convert (ctx, rhs, LLVMFloatType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_COPYSIGNF, args, dname);
break;
}
case OP_IMIN:
case OP_LMIN:
case OP_IMAX:
case OP_LMAX:
case OP_IMIN_UN:
case OP_LMIN_UN:
case OP_IMAX_UN:
case OP_LMAX_UN:
case OP_FMIN:
case OP_FMAX:
case OP_RMIN:
case OP_RMAX: {
LLVMValueRef v;
lhs = convert (ctx, lhs, regtype_to_llvm_type (spec [MONO_INST_DEST]));
rhs = convert (ctx, rhs, regtype_to_llvm_type (spec [MONO_INST_DEST]));
switch (ins->opcode) {
case OP_IMIN:
case OP_LMIN:
v = LLVMBuildICmp (builder, LLVMIntSLE, lhs, rhs, "");
break;
case OP_IMAX:
case OP_LMAX:
v = LLVMBuildICmp (builder, LLVMIntSGE, lhs, rhs, "");
break;
case OP_IMIN_UN:
case OP_LMIN_UN:
v = LLVMBuildICmp (builder, LLVMIntULE, lhs, rhs, "");
break;
case OP_IMAX_UN:
case OP_LMAX_UN:
v = LLVMBuildICmp (builder, LLVMIntUGE, lhs, rhs, "");
break;
case OP_FMAX:
case OP_RMAX:
v = LLVMBuildFCmp (builder, LLVMRealUGE, lhs, rhs, "");
break;
case OP_FMIN:
case OP_RMIN:
v = LLVMBuildFCmp (builder, LLVMRealULE, lhs, rhs, "");
break;
default:
g_assert_not_reached ();
break;
}
values [ins->dreg] = LLVMBuildSelect (builder, v, lhs, rhs, dname);
break;
}
/*
* See the ARM64 comment in mono/utils/atomic.h for an explanation of why this
* hack is necessary (for now).
*/
#ifdef TARGET_ARM64
#define ARM64_ATOMIC_FENCE_FIX mono_llvm_build_fence (builder, LLVM_BARRIER_SEQ)
#else
#define ARM64_ATOMIC_FENCE_FIX
#endif
case OP_ATOMIC_EXCHANGE_I4:
case OP_ATOMIC_EXCHANGE_I8: {
LLVMValueRef args [2];
LLVMTypeRef t;
if (ins->opcode == OP_ATOMIC_EXCHANGE_I4)
t = LLVMInt32Type ();
else
t = LLVMInt64Type ();
g_assert (ins->inst_offset == 0);
args [0] = convert (ctx, lhs, LLVMPointerType (t, 0));
args [1] = convert (ctx, rhs, t);
ARM64_ATOMIC_FENCE_FIX;
values [ins->dreg] = mono_llvm_build_atomic_rmw (builder, LLVM_ATOMICRMW_OP_XCHG, args [0], args [1]);
ARM64_ATOMIC_FENCE_FIX;
break;
}
case OP_ATOMIC_ADD_I4:
case OP_ATOMIC_ADD_I8:
case OP_ATOMIC_AND_I4:
case OP_ATOMIC_AND_I8:
case OP_ATOMIC_OR_I4:
case OP_ATOMIC_OR_I8: {
LLVMValueRef args [2];
LLVMTypeRef t;
if (ins->type == STACK_I4)
t = LLVMInt32Type ();
else
t = LLVMInt64Type ();
g_assert (ins->inst_offset == 0);
args [0] = convert (ctx, lhs, LLVMPointerType (t, 0));
args [1] = convert (ctx, rhs, t);
ARM64_ATOMIC_FENCE_FIX;
if (ins->opcode == OP_ATOMIC_ADD_I4 || ins->opcode == OP_ATOMIC_ADD_I8)
// Interlocked.Add returns new value (that's why we emit additional Add here)
// see https://github.com/dotnet/runtime/pull/33102
values [ins->dreg] = LLVMBuildAdd (builder, mono_llvm_build_atomic_rmw (builder, LLVM_ATOMICRMW_OP_ADD, args [0], args [1]), args [1], dname);
else if (ins->opcode == OP_ATOMIC_AND_I4 || ins->opcode == OP_ATOMIC_AND_I8)
values [ins->dreg] = mono_llvm_build_atomic_rmw (builder, LLVM_ATOMICRMW_OP_AND, args [0], args [1]);
else if (ins->opcode == OP_ATOMIC_OR_I4 || ins->opcode == OP_ATOMIC_OR_I8)
values [ins->dreg] = mono_llvm_build_atomic_rmw (builder, LLVM_ATOMICRMW_OP_OR, args [0], args [1]);
else
g_assert_not_reached ();
ARM64_ATOMIC_FENCE_FIX;
break;
}
case OP_ATOMIC_CAS_I4:
case OP_ATOMIC_CAS_I8: {
LLVMValueRef args [3], val;
LLVMTypeRef t;
if (ins->opcode == OP_ATOMIC_CAS_I4)
t = LLVMInt32Type ();
else
t = LLVMInt64Type ();
args [0] = convert (ctx, lhs, LLVMPointerType (t, 0));
/* comparand */
args [1] = convert (ctx, values [ins->sreg3], t);
/* new value */
args [2] = convert (ctx, values [ins->sreg2], t);
ARM64_ATOMIC_FENCE_FIX;
val = mono_llvm_build_cmpxchg (builder, args [0], args [1], args [2]);
ARM64_ATOMIC_FENCE_FIX;
/* cmpxchg returns a pair */
values [ins->dreg] = LLVMBuildExtractValue (builder, val, 0, "");
break;
}
case OP_MEMORY_BARRIER: {
mono_llvm_build_fence (builder, (BarrierKind) ins->backend.memory_barrier_kind);
break;
}
case OP_ATOMIC_LOAD_I1:
case OP_ATOMIC_LOAD_I2:
case OP_ATOMIC_LOAD_I4:
case OP_ATOMIC_LOAD_I8:
case OP_ATOMIC_LOAD_U1:
case OP_ATOMIC_LOAD_U2:
case OP_ATOMIC_LOAD_U4:
case OP_ATOMIC_LOAD_U8:
case OP_ATOMIC_LOAD_R4:
case OP_ATOMIC_LOAD_R8: {
int size;
gboolean sext, zext;
LLVMTypeRef t;
gboolean is_faulting = (ins->flags & MONO_INST_FAULT) != 0;
gboolean is_volatile = (ins->flags & MONO_INST_VOLATILE) != 0;
BarrierKind barrier = (BarrierKind) ins->backend.memory_barrier_kind;
LLVMValueRef index, addr;
t = load_store_to_llvm_type (ins->opcode, &size, &sext, &zext);
if (sext || zext)
dname = (char *)"";
if (ins->inst_offset != 0) {
index = LLVMConstInt (LLVMInt32Type (), ins->inst_offset / size, FALSE);
addr = LLVMBuildGEP (builder, convert (ctx, lhs, LLVMPointerType (t, 0)), &index, 1, "");
} else {
addr = lhs;
}
addr = convert (ctx, addr, LLVMPointerType (t, 0));
ARM64_ATOMIC_FENCE_FIX;
values [ins->dreg] = emit_load (ctx, bb, &builder, size, addr, lhs, dname, is_faulting, is_volatile, barrier);
ARM64_ATOMIC_FENCE_FIX;
if (sext)
values [ins->dreg] = LLVMBuildSExt (builder, values [ins->dreg], LLVMInt32Type (), dname);
else if (zext)
values [ins->dreg] = LLVMBuildZExt (builder, values [ins->dreg], LLVMInt32Type (), dname);
break;
}
case OP_ATOMIC_STORE_I1:
case OP_ATOMIC_STORE_I2:
case OP_ATOMIC_STORE_I4:
case OP_ATOMIC_STORE_I8:
case OP_ATOMIC_STORE_U1:
case OP_ATOMIC_STORE_U2:
case OP_ATOMIC_STORE_U4:
case OP_ATOMIC_STORE_U8:
case OP_ATOMIC_STORE_R4:
case OP_ATOMIC_STORE_R8: {
int size;
gboolean sext, zext;
LLVMTypeRef t;
gboolean is_faulting = (ins->flags & MONO_INST_FAULT) != 0;
gboolean is_volatile = (ins->flags & MONO_INST_VOLATILE) != 0;
BarrierKind barrier = (BarrierKind) ins->backend.memory_barrier_kind;
LLVMValueRef index, addr, value, base;
if (!values [ins->inst_destbasereg]) {
set_failure (ctx, "inst_destbasereg");
break;
}
t = load_store_to_llvm_type (ins->opcode, &size, &sext, &zext);
base = values [ins->inst_destbasereg];
index = LLVMConstInt (LLVMInt32Type (), ins->inst_offset / size, FALSE);
addr = LLVMBuildGEP (builder, convert (ctx, base, LLVMPointerType (t, 0)), &index, 1, "");
value = convert (ctx, values [ins->sreg1], t);
ARM64_ATOMIC_FENCE_FIX;
emit_store_general (ctx, bb, &builder, size, value, addr, base, is_faulting, is_volatile, barrier);
ARM64_ATOMIC_FENCE_FIX;
break;
}
case OP_RELAXED_NOP: {
#if defined(TARGET_AMD64) || defined(TARGET_X86)
call_intrins (ctx, INTRINS_SSE_PAUSE, NULL, "");
break;
#else
break;
#endif
}
case OP_TLS_GET: {
#if (defined(TARGET_AMD64) || defined(TARGET_X86)) && defined(__linux__)
#ifdef TARGET_AMD64
// 257 == FS segment register
LLVMTypeRef ptrtype = LLVMPointerType (IntPtrType (), 257);
#else
// 256 == GS segment register
LLVMTypeRef ptrtype = LLVMPointerType (IntPtrType (), 256);
#endif
// FIXME: XEN
values [ins->dreg] = LLVMBuildLoad (builder, LLVMBuildIntToPtr (builder, LLVMConstInt (IntPtrType (), ins->inst_offset, TRUE), ptrtype, ""), "");
#elif defined(TARGET_AMD64) && defined(TARGET_OSX)
/* See mono_amd64_emit_tls_get () */
int offset = mono_amd64_get_tls_gs_offset () + (ins->inst_offset * 8);
// 256 == GS segment register
LLVMTypeRef ptrtype = LLVMPointerType (IntPtrType (), 256);
values [ins->dreg] = LLVMBuildLoad (builder, LLVMBuildIntToPtr (builder, LLVMConstInt (IntPtrType (), offset, TRUE), ptrtype, ""), "");
#else
set_failure (ctx, "opcode tls-get");
break;
#endif
break;
}
case OP_GC_SAFE_POINT: {
LLVMValueRef val, cmp, callee, call;
LLVMBasicBlockRef poll_bb, cont_bb;
LLVMValueRef args [2];
static LLVMTypeRef sig;
const char *icall_name = "mono_threads_state_poll";
/*
* Create the cold wrapper around the icall, along with a managed method for it so
* unwinding works.
*/
if (!cfg->compile_aot && !ctx->module->gc_poll_cold_wrapper_compiled) {
ERROR_DECL (error);
/* Compiling a method here is a bit ugly, but it works */
MonoMethod *wrapper = mono_marshal_get_llvm_func_wrapper (LLVM_FUNC_WRAPPER_GC_POLL);
ctx->module->gc_poll_cold_wrapper_compiled = mono_jit_compile_method (wrapper, error);
mono_error_assert_ok (error);
}
if (!sig)
sig = LLVMFunctionType0 (LLVMVoidType (), FALSE);
/*
* if (!*sreg1)
* mono_threads_state_poll ();
*/
val = mono_llvm_build_load (builder, convert (ctx, lhs, LLVMPointerType (IntPtrType (), 0)), "", TRUE);
cmp = LLVMBuildICmp (builder, LLVMIntEQ, val, LLVMConstNull (LLVMTypeOf (val)), "");
poll_bb = gen_bb (ctx, "POLL_BB");
cont_bb = gen_bb (ctx, "CONT_BB");
args [0] = cmp;
args [1] = LLVMConstInt (LLVMInt1Type (), 1, FALSE);
cmp = call_intrins (ctx, INTRINS_EXPECT_I1, args, "");
mono_llvm_build_weighted_branch (builder, cmp, cont_bb, poll_bb, 1000, 1);
ctx->builder = builder = create_builder (ctx);
LLVMPositionBuilderAtEnd (builder, poll_bb);
if (ctx->cfg->compile_aot) {
callee = get_callee (ctx, sig, MONO_PATCH_INFO_JIT_ICALL_ID, GUINT_TO_POINTER (MONO_JIT_ICALL_mono_threads_state_poll));
call = LLVMBuildCall (builder, callee, NULL, 0, "");
} else {
callee = get_jit_callee (ctx, icall_name, sig, MONO_PATCH_INFO_ABS, ctx->module->gc_poll_cold_wrapper_compiled);
call = LLVMBuildCall (builder, callee, NULL, 0, "");
set_call_cold_cconv (call);
}
LLVMBuildBr (builder, cont_bb);
ctx->builder = builder = create_builder (ctx);
LLVMPositionBuilderAtEnd (builder, cont_bb);
ctx->bblocks [bb->block_num].end_bblock = cont_bb;
break;
}
/*
* Overflow opcodes.
*/
case OP_IADD_OVF:
case OP_IADD_OVF_UN:
case OP_ISUB_OVF:
case OP_ISUB_OVF_UN:
case OP_IMUL_OVF:
case OP_IMUL_OVF_UN:
case OP_LADD_OVF:
case OP_LADD_OVF_UN:
case OP_LSUB_OVF:
case OP_LSUB_OVF_UN:
case OP_LMUL_OVF:
case OP_LMUL_OVF_UN: {
LLVMValueRef args [2], val, ovf;
IntrinsicId intrins;
args [0] = convert (ctx, lhs, op_to_llvm_type (ins->opcode));
args [1] = convert (ctx, rhs, op_to_llvm_type (ins->opcode));
intrins = ovf_op_to_intrins (ins->opcode);
val = call_intrins (ctx, intrins, args, "");
values [ins->dreg] = LLVMBuildExtractValue (builder, val, 0, dname);
ovf = LLVMBuildExtractValue (builder, val, 1, "");
emit_cond_system_exception (ctx, bb, ins->inst_exc_name, ovf, FALSE);
if (!ctx_ok (ctx))
break;
builder = ctx->builder;
break;
}
/*
* Valuetypes.
* We currently model them using arrays. Promotion to local vregs is
* disabled for them in mono_handle_global_vregs () in the LLVM case,
* so we always have an entry in cfg->varinfo for them.
* FIXME: Is this needed ?
*/
case OP_VZERO: {
MonoClass *klass = ins->klass;
if (!klass) {
// FIXME:
set_failure (ctx, "!klass");
break;
}
if (!addresses [ins->dreg])
addresses [ins->dreg] = build_named_alloca (ctx, m_class_get_byval_arg (klass), "vzero");
LLVMValueRef ptr = LLVMBuildBitCast (builder, addresses [ins->dreg], LLVMPointerType (LLVMInt8Type (), 0), "");
emit_memset (ctx, builder, ptr, const_int32 (mono_class_value_size (klass, NULL)), 0);
break;
}
case OP_DUMMY_VZERO:
break;
case OP_STOREV_MEMBASE:
case OP_LOADV_MEMBASE:
case OP_VMOVE: {
MonoClass *klass = ins->klass;
LLVMValueRef src = NULL, dst, args [5];
gboolean done = FALSE;
gboolean is_volatile = FALSE;
if (!klass) {
// FIXME:
set_failure (ctx, "!klass");
break;
}
if (mini_is_gsharedvt_klass (klass)) {
// FIXME:
set_failure (ctx, "gsharedvt");
break;
}
switch (ins->opcode) {
case OP_STOREV_MEMBASE:
if (cfg->gen_write_barriers && m_class_has_references (klass) && ins->inst_destbasereg != cfg->frame_reg &&
LLVMGetInstructionOpcode (values [ins->inst_destbasereg]) != LLVMAlloca) {
/* Decomposed earlier */
g_assert_not_reached ();
break;
}
if (!addresses [ins->sreg1]) {
/* SIMD */
g_assert (values [ins->sreg1]);
dst = convert (ctx, LLVMBuildAdd (builder, convert (ctx, values [ins->inst_destbasereg], IntPtrType ()), LLVMConstInt (IntPtrType (), ins->inst_offset, FALSE), ""), LLVMPointerType (type_to_llvm_type (ctx, m_class_get_byval_arg (klass)), 0));
LLVMBuildStore (builder, values [ins->sreg1], dst);
done = TRUE;
} else {
src = LLVMBuildBitCast (builder, addresses [ins->sreg1], LLVMPointerType (LLVMInt8Type (), 0), "");
dst = convert (ctx, LLVMBuildAdd (builder, convert (ctx, values [ins->inst_destbasereg], IntPtrType ()), LLVMConstInt (IntPtrType (), ins->inst_offset, FALSE), ""), LLVMPointerType (LLVMInt8Type (), 0));
}
break;
case OP_LOADV_MEMBASE:
if (!addresses [ins->dreg])
addresses [ins->dreg] = build_alloca (ctx, m_class_get_byval_arg (klass));
src = convert (ctx, LLVMBuildAdd (builder, convert (ctx, values [ins->inst_basereg], IntPtrType ()), LLVMConstInt (IntPtrType (), ins->inst_offset, FALSE), ""), LLVMPointerType (LLVMInt8Type (), 0));
dst = LLVMBuildBitCast (builder, addresses [ins->dreg], LLVMPointerType (LLVMInt8Type (), 0), "");
break;
case OP_VMOVE:
if (!addresses [ins->sreg1])
addresses [ins->sreg1] = build_alloca (ctx, m_class_get_byval_arg (klass));
if (!addresses [ins->dreg])
addresses [ins->dreg] = build_alloca (ctx, m_class_get_byval_arg (klass));
src = LLVMBuildBitCast (builder, addresses [ins->sreg1], LLVMPointerType (LLVMInt8Type (), 0), "");
dst = LLVMBuildBitCast (builder, addresses [ins->dreg], LLVMPointerType (LLVMInt8Type (), 0), "");
break;
default:
g_assert_not_reached ();
}
if (!ctx_ok (ctx))
break;
if (done)
break;
#ifdef TARGET_WASM
is_volatile = m_class_has_references (klass);
#endif
int aindex = 0;
args [aindex ++] = dst;
args [aindex ++] = src;
args [aindex ++] = LLVMConstInt (LLVMInt32Type (), mono_class_value_size (klass, NULL), FALSE);
args [aindex ++] = LLVMConstInt (LLVMInt1Type (), is_volatile ? 1 : 0, FALSE);
call_intrins (ctx, INTRINS_MEMCPY, args, "");
break;
}
case OP_LLVM_OUTARG_VT: {
LLVMArgInfo *ainfo = (LLVMArgInfo*)ins->inst_p0;
MonoType *t = mini_get_underlying_type (ins->inst_vtype);
if (ainfo->storage == LLVMArgGsharedvtVariable) {
MonoInst *var = get_vreg_to_inst (cfg, ins->sreg1);
if (var && var->opcode == OP_GSHAREDVT_LOCAL) {
addresses [ins->dreg] = convert (ctx, emit_gsharedvt_ldaddr (ctx, var->dreg), LLVMPointerType (IntPtrType (), 0));
} else {
g_assert (addresses [ins->sreg1]);
addresses [ins->dreg] = addresses [ins->sreg1];
}
} else if (ainfo->storage == LLVMArgGsharedvtFixed) {
if (!addresses [ins->sreg1]) {
addresses [ins->sreg1] = build_alloca (ctx, t);
g_assert (values [ins->sreg1]);
}
LLVMBuildStore (builder, convert (ctx, values [ins->sreg1], LLVMGetElementType (LLVMTypeOf (addresses [ins->sreg1]))), addresses [ins->sreg1]);
addresses [ins->dreg] = addresses [ins->sreg1];
} else {
if (!addresses [ins->sreg1]) {
addresses [ins->sreg1] = build_named_alloca (ctx, t, "llvm_outarg_vt");
g_assert (values [ins->sreg1]);
LLVMBuildStore (builder, convert (ctx, values [ins->sreg1], type_to_llvm_type (ctx, t)), addresses [ins->sreg1]);
addresses [ins->dreg] = addresses [ins->sreg1];
} else if (ainfo->storage == LLVMArgVtypeAddr || values [ins->sreg1] == addresses [ins->sreg1]) {
/* LLVMArgVtypeByRef/LLVMArgVtypeAddr, have to make a copy */
addresses [ins->dreg] = build_alloca (ctx, t);
LLVMValueRef v = LLVMBuildLoad (builder, addresses [ins->sreg1], "llvm_outarg_vt_copy");
LLVMBuildStore (builder, convert (ctx, v, type_to_llvm_type (ctx, t)), addresses [ins->dreg]);
} else {
if (values [ins->sreg1]) {
LLVMTypeRef src_t = LLVMTypeOf (values [ins->sreg1]);
LLVMValueRef dst = convert (ctx, addresses [ins->sreg1], LLVMPointerType (src_t, 0));
LLVMBuildStore (builder, values [ins->sreg1], dst);
}
addresses [ins->dreg] = addresses [ins->sreg1];
}
}
break;
}
case OP_OBJC_GET_SELECTOR: {
const char *name = (const char*)ins->inst_p0;
LLVMValueRef var;
if (!ctx->module->objc_selector_to_var) {
ctx->module->objc_selector_to_var = g_hash_table_new_full (g_str_hash, g_str_equal, g_free, NULL);
LLVMValueRef info_var = LLVMAddGlobal (ctx->lmodule, LLVMArrayType (LLVMInt8Type (), 8), "@OBJC_IMAGE_INFO");
int32_t objc_imageinfo [] = { 0, 16 };
LLVMSetInitializer (info_var, mono_llvm_create_constant_data_array ((uint8_t *) &objc_imageinfo, 8));
LLVMSetLinkage (info_var, LLVMPrivateLinkage);
LLVMSetExternallyInitialized (info_var, TRUE);
LLVMSetSection (info_var, "__DATA, __objc_imageinfo,regular,no_dead_strip");
LLVMSetAlignment (info_var, sizeof (target_mgreg_t));
mark_as_used (ctx->module, info_var);
}
var = (LLVMValueRef)g_hash_table_lookup (ctx->module->objc_selector_to_var, name);
if (!var) {
LLVMValueRef indexes [16];
LLVMValueRef name_var = LLVMAddGlobal (ctx->lmodule, LLVMArrayType (LLVMInt8Type (), strlen (name) + 1), "@OBJC_METH_VAR_NAME_");
LLVMSetInitializer (name_var, mono_llvm_create_constant_data_array ((const uint8_t*)name, strlen (name) + 1));
LLVMSetLinkage (name_var, LLVMPrivateLinkage);
LLVMSetSection (name_var, "__TEXT,__objc_methname,cstring_literals");
mark_as_used (ctx->module, name_var);
LLVMValueRef ref_var = LLVMAddGlobal (ctx->lmodule, LLVMPointerType (LLVMInt8Type (), 0), "@OBJC_SELECTOR_REFERENCES_");
indexes [0] = LLVMConstInt (LLVMInt32Type (), 0, 0);
indexes [1] = LLVMConstInt (LLVMInt32Type (), 0, 0);
LLVMSetInitializer (ref_var, LLVMConstGEP (name_var, indexes, 2));
LLVMSetLinkage (ref_var, LLVMPrivateLinkage);
LLVMSetExternallyInitialized (ref_var, TRUE);
LLVMSetSection (ref_var, "__DATA, __objc_selrefs, literal_pointers, no_dead_strip");
LLVMSetAlignment (ref_var, sizeof (target_mgreg_t));
mark_as_used (ctx->module, ref_var);
g_hash_table_insert (ctx->module->objc_selector_to_var, g_strdup (name), ref_var);
var = ref_var;
}
values [ins->dreg] = LLVMBuildLoad (builder, var, "");
break;
}
#if defined(TARGET_X86) || defined(TARGET_AMD64) || defined(TARGET_ARM64) || defined(TARGET_WASM)
case OP_EXTRACTX_U2:
case OP_XEXTRACT_I1:
case OP_XEXTRACT_I2:
case OP_XEXTRACT_I4:
case OP_XEXTRACT_I8:
case OP_XEXTRACT_R4:
case OP_XEXTRACT_R8:
case OP_EXTRACT_I1:
case OP_EXTRACT_I2:
case OP_EXTRACT_I4:
case OP_EXTRACT_I8:
case OP_EXTRACT_R4:
case OP_EXTRACT_R8: {
MonoTypeEnum mono_elt_t = inst_c1_type (ins);
LLVMTypeRef elt_t = primitive_type_to_llvm_type (mono_elt_t);
gboolean sext = FALSE;
gboolean zext = FALSE;
switch (mono_elt_t) {
case MONO_TYPE_I1: case MONO_TYPE_I2: sext = TRUE; break;
case MONO_TYPE_U1: case MONO_TYPE_U2: zext = TRUE; break;
}
LLVMValueRef element_ix = NULL;
switch (ins->opcode) {
case OP_XEXTRACT_I1:
case OP_XEXTRACT_I2:
case OP_XEXTRACT_I4:
case OP_XEXTRACT_R4:
case OP_XEXTRACT_R8:
case OP_XEXTRACT_I8:
element_ix = rhs;
break;
default:
element_ix = const_int32 (ins->inst_c0);
}
LLVMTypeRef lhs_t = LLVMTypeOf (lhs);
int vec_width = mono_llvm_get_prim_size_bits (lhs_t);
int elem_width = mono_llvm_get_prim_size_bits (elt_t);
int elements = vec_width / elem_width;
element_ix = LLVMBuildAnd (builder, element_ix, const_int32 (elements - 1), "extract");
LLVMTypeRef ret_t = LLVMVectorType (elt_t, elements);
LLVMValueRef src = LLVMBuildBitCast (builder, lhs, ret_t, "extract");
LLVMValueRef result = LLVMBuildExtractElement (builder, src, element_ix, "extract");
if (zext)
result = LLVMBuildZExt (builder, result, i4_t, "extract_zext");
else if (sext)
result = LLVMBuildSExt (builder, result, i4_t, "extract_sext");
values [ins->dreg] = result;
break;
}
case OP_XINSERT_I1:
case OP_XINSERT_I2:
case OP_XINSERT_I4:
case OP_XINSERT_I8:
case OP_XINSERT_R4:
case OP_XINSERT_R8: {
MonoTypeEnum primty = inst_c1_type (ins);
LLVMTypeRef ret_t = simd_class_to_llvm_type (ctx, ins->klass);
LLVMTypeRef elem_t = LLVMGetElementType (ret_t);
int elements = LLVMGetVectorSize (ret_t);
LLVMValueRef element_ix = LLVMBuildAnd (builder, arg3, const_int32 (elements - 1), "xinsert");
LLVMValueRef vec = convert (ctx, lhs, ret_t);
LLVMValueRef val = convert_full (ctx, rhs, elem_t, primitive_type_is_unsigned (primty));
LLVMValueRef result = LLVMBuildInsertElement (builder, vec, val, element_ix, "xinsert");
values [ins->dreg] = result;
break;
}
case OP_EXPAND_I1:
case OP_EXPAND_I2:
case OP_EXPAND_I4:
case OP_EXPAND_I8:
case OP_EXPAND_R4:
case OP_EXPAND_R8: {
LLVMTypeRef t;
LLVMValueRef mask [MAX_VECTOR_ELEMS], v;
int i;
t = simd_class_to_llvm_type (ctx, ins->klass);
for (i = 0; i < MAX_VECTOR_ELEMS; ++i)
mask [i] = LLVMConstInt (LLVMInt32Type (), 0, FALSE);
v = convert (ctx, values [ins->sreg1], LLVMGetElementType (t));
values [ins->dreg] = LLVMBuildInsertElement (builder, LLVMConstNull (t), v, LLVMConstInt (LLVMInt32Type (), 0, FALSE), "");
values [ins->dreg] = LLVMBuildShuffleVector (builder, values [ins->dreg], LLVMGetUndef (t), LLVMConstVector (mask, LLVMGetVectorSize (t)), "");
break;
}
case OP_XZERO: {
values [ins->dreg] = LLVMConstNull (type_to_llvm_type (ctx, m_class_get_byval_arg (ins->klass)));
break;
}
case OP_XONES: {
values [ins->dreg] = LLVMConstAllOnes (type_to_llvm_type (ctx, m_class_get_byval_arg (ins->klass)));
break;
}
case OP_LOADX_MEMBASE: {
LLVMTypeRef t = type_to_llvm_type (ctx, m_class_get_byval_arg (ins->klass));
LLVMValueRef src;
src = convert (ctx, LLVMBuildAdd (builder, convert (ctx, values [ins->inst_basereg], IntPtrType ()), LLVMConstInt (IntPtrType (), ins->inst_offset, FALSE), ""), LLVMPointerType (t, 0));
values [ins->dreg] = mono_llvm_build_aligned_load (builder, src, "", FALSE, 1);
break;
}
case OP_STOREX_MEMBASE: {
LLVMTypeRef t = LLVMTypeOf (values [ins->sreg1]);
LLVMValueRef dest;
dest = convert (ctx, LLVMBuildAdd (builder, convert (ctx, values [ins->inst_destbasereg], IntPtrType ()), LLVMConstInt (IntPtrType (), ins->inst_offset, FALSE), ""), LLVMPointerType (t, 0));
mono_llvm_build_aligned_store (builder, values [ins->sreg1], dest, FALSE, 1);
break;
}
case OP_XBINOP:
case OP_XBINOP_SCALAR:
case OP_XBINOP_BYSCALAR: {
gboolean scalar = ins->opcode == OP_XBINOP_SCALAR;
gboolean byscalar = ins->opcode == OP_XBINOP_BYSCALAR;
LLVMValueRef result = NULL;
LLVMValueRef args [] = { lhs, rhs };
if (scalar)
for (int i = 0; i < 2; ++i)
args [i] = scalar_from_vector (ctx, args [i]);
if (byscalar) {
LLVMTypeRef t = LLVMTypeOf (args [0]);
unsigned int elems = LLVMGetVectorSize (t);
args [1] = broadcast_element (ctx, scalar_from_vector (ctx, args [1]), elems);
}
LLVMValueRef l = args [0];
LLVMValueRef r = args [1];
switch (ins->inst_c0) {
case OP_IADD:
result = LLVMBuildAdd (builder, l, r, "");
break;
case OP_ISUB:
result = LLVMBuildSub (builder, l, r, "");
break;
case OP_IMUL:
result = LLVMBuildMul (builder, l, r, "");
break;
case OP_IAND:
result = LLVMBuildAnd (builder, l, r, "");
break;
case OP_IOR:
result = LLVMBuildOr (builder, l, r, "");
break;
case OP_IXOR:
result = LLVMBuildXor (builder, l, r, "");
break;
case OP_FADD:
result = LLVMBuildFAdd (builder, l, r, "");
break;
case OP_FSUB:
result = LLVMBuildFSub (builder, l, r, "");
break;
case OP_FMUL:
result = LLVMBuildFMul (builder, l, r, "");
break;
case OP_FDIV:
result = LLVMBuildFDiv (builder, l, r, "");
break;
case OP_FMAX:
case OP_FMIN: {
#if defined(TARGET_X86) || defined(TARGET_AMD64)
LLVMValueRef args [] = { l, r };
LLVMTypeRef t = LLVMTypeOf (l);
LLVMTypeRef elem_t = LLVMGetElementType (t);
unsigned int elems = LLVMGetVectorSize (t);
unsigned int elem_bits = mono_llvm_get_prim_size_bits (elem_t);
unsigned int v_size = elems * elem_bits;
if (v_size == 128) {
gboolean is_r4 = ins->inst_c1 == MONO_TYPE_R4;
int iid = -1;
if (ins->inst_c0 == OP_FMAX) {
if (elems == 1)
iid = is_r4 ? INTRINS_SSE_MAXSS : INTRINS_SSE_MAXSD;
else
iid = is_r4 ? INTRINS_SSE_MAXPS : INTRINS_SSE_MAXPD;
} else {
if (elems == 1)
iid = is_r4 ? INTRINS_SSE_MINSS : INTRINS_SSE_MINSD;
else
iid = is_r4 ? INTRINS_SSE_MINPS : INTRINS_SSE_MINPD;
}
result = call_intrins (ctx, iid, args, dname);
} else {
LLVMRealPredicate op = ins->inst_c0 == OP_FMAX ? LLVMRealUGE : LLVMRealULE;
LLVMValueRef cmp = LLVMBuildFCmp (builder, op, l, r, "");
result = LLVMBuildSelect (builder, cmp, l, r, "");
}
#elif defined(TARGET_ARM64)
LLVMValueRef args [] = { l, r };
IntrinsicId iid = ins->inst_c0 == OP_FMAX ? INTRINS_AARCH64_ADV_SIMD_FMAX : INTRINS_AARCH64_ADV_SIMD_FMIN;
llvm_ovr_tag_t ovr_tag = ovr_tag_from_mono_vector_class (ins->klass);
result = call_overloaded_intrins (ctx, iid, ovr_tag, args, "");
#else
NOT_IMPLEMENTED;
#endif
break;
}
case OP_IMAX:
case OP_IMIN: {
gboolean is_unsigned = ins->inst_c1 == MONO_TYPE_U1 || ins->inst_c1 == MONO_TYPE_U2 || ins->inst_c1 == MONO_TYPE_U4 || ins->inst_c1 == MONO_TYPE_U8;
LLVMIntPredicate op;
switch (ins->inst_c0) {
case OP_IMAX:
op = is_unsigned ? LLVMIntUGT : LLVMIntSGT;
break;
case OP_IMIN:
op = is_unsigned ? LLVMIntULT : LLVMIntSLT;
break;
default:
g_assert_not_reached ();
}
#if defined(TARGET_ARM64)
if ((ins->inst_c1 == MONO_TYPE_U8) || (ins->inst_c1 == MONO_TYPE_I8)) {
LLVMValueRef cmp = LLVMBuildICmp (builder, op, l, r, "");
result = LLVMBuildSelect (builder, cmp, l, r, "");
} else {
IntrinsicId iid;
switch (ins->inst_c0) {
case OP_IMAX:
iid = is_unsigned ? INTRINS_AARCH64_ADV_SIMD_UMAX : INTRINS_AARCH64_ADV_SIMD_SMAX;
break;
case OP_IMIN:
iid = is_unsigned ? INTRINS_AARCH64_ADV_SIMD_UMIN : INTRINS_AARCH64_ADV_SIMD_SMIN;
break;
default:
g_assert_not_reached ();
}
LLVMValueRef args [] = { l, r };
llvm_ovr_tag_t ovr_tag = ovr_tag_from_mono_vector_class (ins->klass);
result = call_overloaded_intrins (ctx, iid, ovr_tag, args, "");
}
#else
LLVMValueRef cmp = LLVMBuildICmp (builder, op, l, r, "");
result = LLVMBuildSelect (builder, cmp, l, r, "");
#endif
break;
}
default:
g_assert_not_reached ();
}
if (scalar)
result = vector_from_scalar (ctx, LLVMTypeOf (lhs), result);
values [ins->dreg] = result;
break;
}
case OP_XBINOP_FORCEINT: {
LLVMTypeRef t = LLVMTypeOf (lhs);
LLVMTypeRef elem_t = LLVMGetElementType (t);
unsigned int elems = LLVMGetVectorSize (t);
unsigned int elem_bits = mono_llvm_get_prim_size_bits (elem_t);
LLVMTypeRef intermediate_elem_t = LLVMIntType (elem_bits);
LLVMTypeRef intermediate_t = LLVMVectorType (intermediate_elem_t, elems);
LLVMValueRef lhs_int = convert (ctx, lhs, intermediate_t);
LLVMValueRef rhs_int = convert (ctx, rhs, intermediate_t);
LLVMValueRef result = NULL;
switch (ins->inst_c0) {
case XBINOP_FORCEINT_AND:
result = LLVMBuildAnd (builder, lhs_int, rhs_int, "");
break;
case XBINOP_FORCEINT_OR:
result = LLVMBuildOr (builder, lhs_int, rhs_int, "");
break;
case XBINOP_FORCEINT_ORNOT:
result = LLVMBuildNot (builder, rhs_int, "");
result = LLVMBuildOr (builder, result, lhs_int, "");
break;
case XBINOP_FORCEINT_XOR:
result = LLVMBuildXor (builder, lhs_int, rhs_int, "");
break;
}
values [ins->dreg] = LLVMBuildBitCast (builder, result, t, "");
break;
}
case OP_CREATE_SCALAR:
case OP_CREATE_SCALAR_UNSAFE: {
MonoTypeEnum primty = inst_c1_type (ins);
LLVMTypeRef type = simd_class_to_llvm_type (ctx, ins->klass);
// use undef vector (most likely empty but may contain garbage values) for OP_CREATE_SCALAR_UNSAFE
// and zero one for OP_CREATE_SCALAR
LLVMValueRef vector = (ins->opcode == OP_CREATE_SCALAR) ? LLVMConstNull (type) : LLVMGetUndef (type);
LLVMValueRef val = convert_full (ctx, lhs, primitive_type_to_llvm_type (primty), primitive_type_is_unsigned (primty));
values [ins->dreg] = LLVMBuildInsertElement (builder, vector, val, const_int32 (0), "");
break;
}
case OP_INSERT_I1:
values [ins->dreg] = LLVMBuildInsertElement (builder, values [ins->sreg1], convert (ctx, values [ins->sreg2], LLVMInt8Type ()), LLVMConstInt (LLVMInt32Type (), ins->inst_c0, FALSE), dname);
break;
case OP_INSERT_I2:
values [ins->dreg] = LLVMBuildInsertElement (builder, values [ins->sreg1], convert (ctx, values [ins->sreg2], LLVMInt16Type ()), LLVMConstInt (LLVMInt32Type (), ins->inst_c0, FALSE), dname);
break;
case OP_INSERT_I4:
values [ins->dreg] = LLVMBuildInsertElement (builder, values [ins->sreg1], convert (ctx, values [ins->sreg2], LLVMInt32Type ()), LLVMConstInt (LLVMInt32Type (), ins->inst_c0, FALSE), dname);
break;
case OP_INSERT_I8:
values [ins->dreg] = LLVMBuildInsertElement (builder, values [ins->sreg1], convert (ctx, values [ins->sreg2], LLVMInt64Type ()), LLVMConstInt (LLVMInt32Type (), ins->inst_c0, FALSE), dname);
break;
case OP_INSERT_R4:
values [ins->dreg] = LLVMBuildInsertElement (builder, values [ins->sreg1], convert (ctx, values [ins->sreg2], LLVMFloatType ()), LLVMConstInt (LLVMInt32Type (), ins->inst_c0, FALSE), dname);
break;
case OP_INSERT_R8:
values [ins->dreg] = LLVMBuildInsertElement (builder, values [ins->sreg1], convert (ctx, values [ins->sreg2], LLVMDoubleType ()), LLVMConstInt (LLVMInt32Type (), ins->inst_c0, FALSE), dname);
break;
case OP_XCAST: {
LLVMTypeRef t = simd_class_to_llvm_type (ctx, ins->klass);
values [ins->dreg] = LLVMBuildBitCast (builder, lhs, t, "");
break;
}
case OP_XCONCAT: {
values [ins->dreg] = concatenate_vectors (ctx, lhs, rhs);
break;
}
case OP_XINSERT_LOWER:
case OP_XINSERT_UPPER: {
const char *oname = ins->opcode == OP_XINSERT_LOWER ? "xinsert_lower" : "xinsert_upper";
int ix = ins->opcode == OP_XINSERT_LOWER ? 0 : 1;
LLVMTypeRef src_t = LLVMTypeOf (lhs);
unsigned int width = mono_llvm_get_prim_size_bits (src_t);
LLVMTypeRef int_t = LLVMIntType (width / 2);
LLVMTypeRef intvec_t = LLVMVectorType (int_t, 2);
LLVMValueRef insval = LLVMBuildBitCast (builder, rhs, int_t, oname);
LLVMValueRef val = LLVMBuildBitCast (builder, lhs, intvec_t, oname);
val = LLVMBuildInsertElement (builder, val, insval, const_int32 (ix), oname);
val = LLVMBuildBitCast (builder, val, src_t, oname);
values [ins->dreg] = val;
break;
}
case OP_XLOWER:
case OP_XUPPER: {
const char *oname = ins->opcode == OP_XLOWER ? "xlower" : "xupper";
LLVMTypeRef src_t = LLVMTypeOf (lhs);
unsigned int elems = LLVMGetVectorSize (src_t);
g_assert (elems >= 2 && elems <= MAX_VECTOR_ELEMS);
unsigned int ret_elems = elems / 2;
int startix = ins->opcode == OP_XLOWER ? 0 : ret_elems;
LLVMValueRef val = LLVMBuildShuffleVector (builder, lhs, LLVMGetUndef (src_t), create_const_vector_i32 (&mask_0_incr_1 [startix], ret_elems), oname);
values [ins->dreg] = val;
break;
}
case OP_XWIDEN:
case OP_XWIDEN_UNSAFE: {
const char *oname = ins->opcode == OP_XWIDEN ? "xwiden" : "xwiden_unsafe";
LLVMTypeRef src_t = LLVMTypeOf (lhs);
unsigned int elems = LLVMGetVectorSize (src_t);
g_assert (elems <= MAX_VECTOR_ELEMS / 2);
unsigned int ret_elems = elems * 2;
LLVMValueRef upper = ins->opcode == OP_XWIDEN ? LLVMConstNull (src_t) : LLVMGetUndef (src_t);
LLVMValueRef val = LLVMBuildShuffleVector (builder, lhs, upper, create_const_vector_i32 (mask_0_incr_1, ret_elems), oname);
values [ins->dreg] = val;
break;
}
#endif // defined(TARGET_X86) || defined(TARGET_AMD64) || defined(TARGET_ARM64) || defined(TARGET_WASM)
#if defined(TARGET_X86) || defined(TARGET_AMD64) || defined(TARGET_WASM)
case OP_PADDB:
case OP_PADDW:
case OP_PADDD:
case OP_PADDQ:
values [ins->dreg] = LLVMBuildAdd (builder, lhs, rhs, "");
break;
case OP_ADDPD:
case OP_ADDPS:
values [ins->dreg] = LLVMBuildFAdd (builder, lhs, rhs, "");
break;
case OP_PSUBB:
case OP_PSUBW:
case OP_PSUBD:
case OP_PSUBQ:
values [ins->dreg] = LLVMBuildSub (builder, lhs, rhs, "");
break;
case OP_SUBPD:
case OP_SUBPS:
values [ins->dreg] = LLVMBuildFSub (builder, lhs, rhs, "");
break;
case OP_MULPD:
case OP_MULPS:
values [ins->dreg] = LLVMBuildFMul (builder, lhs, rhs, "");
break;
case OP_DIVPD:
case OP_DIVPS:
values [ins->dreg] = LLVMBuildFDiv (builder, lhs, rhs, "");
break;
case OP_PAND:
values [ins->dreg] = LLVMBuildAnd (builder, lhs, rhs, "");
break;
case OP_POR:
values [ins->dreg] = LLVMBuildOr (builder, lhs, rhs, "");
break;
case OP_PXOR:
values [ins->dreg] = LLVMBuildXor (builder, lhs, rhs, "");
break;
case OP_PMULW:
case OP_PMULD:
values [ins->dreg] = LLVMBuildMul (builder, lhs, rhs, "");
break;
case OP_ANDPS:
case OP_ANDNPS:
case OP_ORPS:
case OP_XORPS:
case OP_ANDPD:
case OP_ANDNPD:
case OP_ORPD:
case OP_XORPD: {
LLVMTypeRef t, rt;
LLVMValueRef v = NULL;
switch (ins->opcode) {
case OP_ANDPS:
case OP_ANDNPS:
case OP_ORPS:
case OP_XORPS:
t = LLVMVectorType (LLVMInt32Type (), 4);
rt = LLVMVectorType (LLVMFloatType (), 4);
break;
case OP_ANDPD:
case OP_ANDNPD:
case OP_ORPD:
case OP_XORPD:
t = LLVMVectorType (LLVMInt64Type (), 2);
rt = LLVMVectorType (LLVMDoubleType (), 2);
break;
default:
t = LLVMInt32Type ();
rt = LLVMInt32Type ();
g_assert_not_reached ();
}
lhs = LLVMBuildBitCast (builder, lhs, t, "");
rhs = LLVMBuildBitCast (builder, rhs, t, "");
switch (ins->opcode) {
case OP_ANDPS:
case OP_ANDPD:
v = LLVMBuildAnd (builder, lhs, rhs, "");
break;
case OP_ORPS:
case OP_ORPD:
v = LLVMBuildOr (builder, lhs, rhs, "");
break;
case OP_XORPS:
case OP_XORPD:
v = LLVMBuildXor (builder, lhs, rhs, "");
break;
case OP_ANDNPS:
case OP_ANDNPD:
v = LLVMBuildAnd (builder, rhs, LLVMBuildNot (builder, lhs, ""), "");
break;
}
values [ins->dreg] = LLVMBuildBitCast (builder, v, rt, "");
break;
}
case OP_PMIND_UN:
case OP_PMINW_UN:
case OP_PMINB_UN: {
LLVMValueRef cmp = LLVMBuildICmp (builder, LLVMIntULT, lhs, rhs, "");
values [ins->dreg] = LLVMBuildSelect (builder, cmp, lhs, rhs, "");
break;
}
case OP_PMAXD_UN:
case OP_PMAXW_UN:
case OP_PMAXB_UN: {
LLVMValueRef cmp = LLVMBuildICmp (builder, LLVMIntUGT, lhs, rhs, "");
values [ins->dreg] = LLVMBuildSelect (builder, cmp, lhs, rhs, "");
break;
}
case OP_PMINW: {
LLVMValueRef cmp = LLVMBuildICmp (builder, LLVMIntSLT, lhs, rhs, "");
values [ins->dreg] = LLVMBuildSelect (builder, cmp, lhs, rhs, "");
break;
}
case OP_PMAXW: {
LLVMValueRef cmp = LLVMBuildICmp (builder, LLVMIntSGT, lhs, rhs, "");
values [ins->dreg] = LLVMBuildSelect (builder, cmp, lhs, rhs, "");
break;
}
case OP_PAVGB_UN:
case OP_PAVGW_UN: {
LLVMValueRef ones_vec;
LLVMValueRef ones [MAX_VECTOR_ELEMS];
int vector_size = LLVMGetVectorSize (LLVMTypeOf (lhs));
LLVMTypeRef ext_elem_type = vector_size == 16 ? LLVMInt16Type () : LLVMInt32Type ();
for (int i = 0; i < MAX_VECTOR_ELEMS; ++i)
ones [i] = LLVMConstInt (ext_elem_type, 1, FALSE);
ones_vec = LLVMConstVector (ones, vector_size);
LLVMValueRef val;
LLVMTypeRef ext_type = LLVMVectorType (ext_elem_type, vector_size);
/* Have to increase the vector element size to prevent overflows */
/* res = trunc ((zext (lhs) + zext (rhs) + 1) >> 1) */
val = LLVMBuildAdd (builder, LLVMBuildZExt (builder, lhs, ext_type, ""), LLVMBuildZExt (builder, rhs, ext_type, ""), "");
val = LLVMBuildAdd (builder, val, ones_vec, "");
val = LLVMBuildLShr (builder, val, ones_vec, "");
values [ins->dreg] = LLVMBuildTrunc (builder, val, LLVMTypeOf (lhs), "");
break;
}
case OP_PCMPEQB:
case OP_PCMPEQW:
case OP_PCMPEQD:
case OP_PCMPEQQ:
case OP_PCMPGTB: {
LLVMValueRef pcmp;
LLVMTypeRef retType;
LLVMIntPredicate cmpOp;
if (ins->opcode == OP_PCMPGTB)
cmpOp = LLVMIntSGT;
else
cmpOp = LLVMIntEQ;
if (LLVMTypeOf (lhs) == LLVMTypeOf (rhs)) {
pcmp = LLVMBuildICmp (builder, cmpOp, lhs, rhs, "");
retType = LLVMTypeOf (lhs);
} else {
LLVMTypeRef flatType = LLVMVectorType (LLVMInt8Type (), 16);
LLVMValueRef flatRHS = convert (ctx, rhs, flatType);
LLVMValueRef flatLHS = convert (ctx, lhs, flatType);
pcmp = LLVMBuildICmp (builder, cmpOp, flatLHS, flatRHS, "");
retType = flatType;
}
values [ins->dreg] = LLVMBuildSExt (builder, pcmp, retType, "");
break;
}
case OP_CVTDQ2PS: {
LLVMValueRef i4 = LLVMBuildBitCast (builder, lhs, sse_i4_t, "");
values [ins->dreg] = LLVMBuildSIToFP (builder, i4, sse_r4_t, dname);
break;
}
case OP_CVTDQ2PD: {
LLVMValueRef indexes [16];
indexes [0] = LLVMConstInt (LLVMInt32Type (), 0, FALSE);
indexes [1] = LLVMConstInt (LLVMInt32Type (), 1, FALSE);
LLVMValueRef mask = LLVMConstVector (indexes, 2);
LLVMValueRef shuffle = LLVMBuildShuffleVector (builder, lhs, LLVMConstNull (LLVMTypeOf (lhs)), mask, "");
values [ins->dreg] = LLVMBuildSIToFP (builder, shuffle, LLVMVectorType (LLVMDoubleType (), 2), dname);
break;
}
case OP_SSE2_CVTSS2SD: {
LLVMValueRef rhs_elem = LLVMBuildExtractElement (builder, rhs, const_int32 (0), "");
LLVMValueRef fpext = LLVMBuildFPExt (builder, rhs_elem, LLVMDoubleType (), dname);
values [ins->dreg] = LLVMBuildInsertElement (builder, lhs, fpext, const_int32 (0), "");
break;
}
case OP_CVTPS2PD: {
LLVMValueRef indexes [16];
indexes [0] = LLVMConstInt (LLVMInt32Type (), 0, FALSE);
indexes [1] = LLVMConstInt (LLVMInt32Type (), 1, FALSE);
LLVMValueRef mask = LLVMConstVector (indexes, 2);
LLVMValueRef shuffle = LLVMBuildShuffleVector (builder, lhs, LLVMConstNull (LLVMTypeOf (lhs)), mask, "");
values [ins->dreg] = LLVMBuildFPExt (builder, shuffle, LLVMVectorType (LLVMDoubleType (), 2), dname);
break;
}
case OP_CVTTPS2DQ:
values [ins->dreg] = LLVMBuildFPToSI (builder, lhs, LLVMVectorType (LLVMInt32Type (), 4), dname);
break;
case OP_CVTPD2DQ:
case OP_CVTPS2DQ:
case OP_CVTPD2PS:
case OP_CVTTPD2DQ: {
LLVMValueRef v;
v = convert (ctx, values [ins->sreg1], simd_op_to_llvm_type (ins->opcode));
values [ins->dreg] = call_intrins (ctx, simd_ins_to_intrins (ins->opcode), &v, dname);
break;
}
case OP_COMPPS:
case OP_COMPPD: {
LLVMRealPredicate op;
switch (ins->inst_c0) {
case SIMD_COMP_EQ:
op = LLVMRealOEQ;
break;
case SIMD_COMP_LT:
op = LLVMRealOLT;
break;
case SIMD_COMP_LE:
op = LLVMRealOLE;
break;
case SIMD_COMP_UNORD:
op = LLVMRealUNO;
break;
case SIMD_COMP_NEQ:
op = LLVMRealUNE;
break;
case SIMD_COMP_NLT:
op = LLVMRealUGE;
break;
case SIMD_COMP_NLE:
op = LLVMRealUGT;
break;
case SIMD_COMP_ORD:
op = LLVMRealORD;
break;
default:
g_assert_not_reached ();
}
LLVMValueRef cmp = LLVMBuildFCmp (builder, op, lhs, rhs, "");
if (ins->opcode == OP_COMPPD)
values [ins->dreg] = LLVMBuildBitCast (builder, LLVMBuildSExt (builder, cmp, LLVMVectorType (LLVMInt64Type (), 2), ""), LLVMTypeOf (lhs), "");
else
values [ins->dreg] = LLVMBuildBitCast (builder, LLVMBuildSExt (builder, cmp, LLVMVectorType (LLVMInt32Type (), 4), ""), LLVMTypeOf (lhs), "");
break;
}
case OP_ICONV_TO_X:
/* This is only used for implementing shifts by non-immediate */
values [ins->dreg] = lhs;
break;
case OP_SHUFPS:
case OP_SHUFPD:
case OP_PSHUFLED:
case OP_PSHUFLEW_LOW:
case OP_PSHUFLEW_HIGH: {
int mask [16];
LLVMValueRef v1 = NULL, v2 = NULL, mask_values [16];
int i, mask_size = 0;
int imask = ins->inst_c0;
/* Convert the x86 shuffle mask to LLVM's */
switch (ins->opcode) {
case OP_SHUFPS:
mask_size = 4;
mask [0] = ((imask >> 0) & 3);
mask [1] = ((imask >> 2) & 3);
mask [2] = ((imask >> 4) & 3) + 4;
mask [3] = ((imask >> 6) & 3) + 4;
v1 = values [ins->sreg1];
v2 = values [ins->sreg2];
break;
case OP_SHUFPD:
mask_size = 2;
mask [0] = ((imask >> 0) & 1);
mask [1] = ((imask >> 1) & 1) + 2;
v1 = values [ins->sreg1];
v2 = values [ins->sreg2];
break;
case OP_PSHUFLEW_LOW:
mask_size = 8;
mask [0] = ((imask >> 0) & 3);
mask [1] = ((imask >> 2) & 3);
mask [2] = ((imask >> 4) & 3);
mask [3] = ((imask >> 6) & 3);
mask [4] = 4 + 0;
mask [5] = 4 + 1;
mask [6] = 4 + 2;
mask [7] = 4 + 3;
v1 = values [ins->sreg1];
v2 = LLVMGetUndef (LLVMTypeOf (v1));
break;
case OP_PSHUFLEW_HIGH:
mask_size = 8;
mask [0] = 0;
mask [1] = 1;
mask [2] = 2;
mask [3] = 3;
mask [4] = 4 + ((imask >> 0) & 3);
mask [5] = 4 + ((imask >> 2) & 3);
mask [6] = 4 + ((imask >> 4) & 3);
mask [7] = 4 + ((imask >> 6) & 3);
v1 = values [ins->sreg1];
v2 = LLVMGetUndef (LLVMTypeOf (v1));
break;
case OP_PSHUFLED:
mask_size = 4;
mask [0] = ((imask >> 0) & 3);
mask [1] = ((imask >> 2) & 3);
mask [2] = ((imask >> 4) & 3);
mask [3] = ((imask >> 6) & 3);
v1 = values [ins->sreg1];
v2 = LLVMGetUndef (LLVMTypeOf (v1));
break;
default:
g_assert_not_reached ();
}
for (i = 0; i < mask_size; ++i)
mask_values [i] = LLVMConstInt (LLVMInt32Type (), mask [i], FALSE);
values [ins->dreg] =
LLVMBuildShuffleVector (builder, v1, v2,
LLVMConstVector (mask_values, mask_size), dname);
break;
}
case OP_UNPACK_LOWB:
case OP_UNPACK_LOWW:
case OP_UNPACK_LOWD:
case OP_UNPACK_LOWQ:
case OP_UNPACK_LOWPS:
case OP_UNPACK_LOWPD:
case OP_UNPACK_HIGHB:
case OP_UNPACK_HIGHW:
case OP_UNPACK_HIGHD:
case OP_UNPACK_HIGHQ:
case OP_UNPACK_HIGHPS:
case OP_UNPACK_HIGHPD: {
int mask [16];
LLVMValueRef mask_values [16];
int i, mask_size = 0;
gboolean low = FALSE;
switch (ins->opcode) {
case OP_UNPACK_LOWB:
mask_size = 16;
low = TRUE;
break;
case OP_UNPACK_LOWW:
mask_size = 8;
low = TRUE;
break;
case OP_UNPACK_LOWD:
case OP_UNPACK_LOWPS:
mask_size = 4;
low = TRUE;
break;
case OP_UNPACK_LOWQ:
case OP_UNPACK_LOWPD:
mask_size = 2;
low = TRUE;
break;
case OP_UNPACK_HIGHB:
mask_size = 16;
break;
case OP_UNPACK_HIGHW:
mask_size = 8;
break;
case OP_UNPACK_HIGHD:
case OP_UNPACK_HIGHPS:
mask_size = 4;
break;
case OP_UNPACK_HIGHQ:
case OP_UNPACK_HIGHPD:
mask_size = 2;
break;
default:
g_assert_not_reached ();
}
if (low) {
for (i = 0; i < (mask_size / 2); ++i) {
mask [(i * 2)] = i;
mask [(i * 2) + 1] = mask_size + i;
}
} else {
for (i = 0; i < (mask_size / 2); ++i) {
mask [(i * 2)] = (mask_size / 2) + i;
mask [(i * 2) + 1] = mask_size + (mask_size / 2) + i;
}
}
for (i = 0; i < mask_size; ++i)
mask_values [i] = LLVMConstInt (LLVMInt32Type (), mask [i], FALSE);
values [ins->dreg] =
LLVMBuildShuffleVector (builder, values [ins->sreg1], values [ins->sreg2],
LLVMConstVector (mask_values, mask_size), dname);
break;
}
case OP_DUPPD: {
LLVMTypeRef t = simd_op_to_llvm_type (ins->opcode);
LLVMValueRef v, val;
v = LLVMBuildExtractElement (builder, lhs, LLVMConstInt (LLVMInt32Type (), 0, FALSE), "");
val = LLVMConstNull (t);
val = LLVMBuildInsertElement (builder, val, v, LLVMConstInt (LLVMInt32Type (), 0, FALSE), "");
val = LLVMBuildInsertElement (builder, val, v, LLVMConstInt (LLVMInt32Type (), 1, FALSE), dname);
values [ins->dreg] = val;
break;
}
case OP_DUPPS_LOW:
case OP_DUPPS_HIGH: {
LLVMTypeRef t = simd_op_to_llvm_type (ins->opcode);
LLVMValueRef v1, v2, val;
if (ins->opcode == OP_DUPPS_LOW) {
v1 = LLVMBuildExtractElement (builder, lhs, LLVMConstInt (LLVMInt32Type (), 0, FALSE), "");
v2 = LLVMBuildExtractElement (builder, lhs, LLVMConstInt (LLVMInt32Type (), 2, FALSE), "");
} else {
v1 = LLVMBuildExtractElement (builder, lhs, LLVMConstInt (LLVMInt32Type (), 1, FALSE), "");
v2 = LLVMBuildExtractElement (builder, lhs, LLVMConstInt (LLVMInt32Type (), 3, FALSE), "");
}
val = LLVMConstNull (t);
val = LLVMBuildInsertElement (builder, val, v1, LLVMConstInt (LLVMInt32Type (), 0, FALSE), "");
val = LLVMBuildInsertElement (builder, val, v1, LLVMConstInt (LLVMInt32Type (), 1, FALSE), "");
val = LLVMBuildInsertElement (builder, val, v2, LLVMConstInt (LLVMInt32Type (), 2, FALSE), "");
val = LLVMBuildInsertElement (builder, val, v2, LLVMConstInt (LLVMInt32Type (), 3, FALSE), "");
values [ins->dreg] = val;
break;
}
case OP_FCONV_TO_R8_X: {
values [ins->dreg] = LLVMBuildInsertElement (builder, LLVMConstNull (sse_r8_t), lhs, LLVMConstInt (LLVMInt32Type (), 0, FALSE), "");
break;
}
case OP_FCONV_TO_R4_X: {
values [ins->dreg] = LLVMBuildInsertElement (builder, LLVMConstNull (sse_r4_t), lhs, LLVMConstInt (LLVMInt32Type (), 0, FALSE), "");
break;
}
#if defined(TARGET_X86) || defined(TARGET_AMD64)
case OP_SSE_MOVMSK: {
LLVMValueRef args [1];
if (ins->inst_c1 == MONO_TYPE_R4) {
args [0] = lhs;
values [ins->dreg] = call_intrins (ctx, INTRINS_SSE_MOVMSK_PS, args, dname);
} else if (ins->inst_c1 == MONO_TYPE_R8) {
args [0] = lhs;
values [ins->dreg] = call_intrins (ctx, INTRINS_SSE_MOVMSK_PD, args, dname);
} else {
args [0] = convert (ctx, lhs, sse_i1_t);
values [ins->dreg] = call_intrins (ctx, INTRINS_SSE_PMOVMSKB, args, dname);
}
break;
}
case OP_SSE_MOVS:
case OP_SSE_MOVS2: {
if (ins->inst_c1 == MONO_TYPE_R4)
values [ins->dreg] = LLVMBuildShuffleVector (builder, rhs, lhs, create_const_vector_4_i32 (0, 5, 6, 7), "");
else if (ins->inst_c1 == MONO_TYPE_R8)
values [ins->dreg] = LLVMBuildShuffleVector (builder, rhs, lhs, create_const_vector_2_i32 (0, 3), "");
else if (ins->inst_c1 == MONO_TYPE_I8 || ins->inst_c1 == MONO_TYPE_U8)
values [ins->dreg] = LLVMBuildInsertElement (builder, lhs,
LLVMConstInt (LLVMInt64Type (), 0, FALSE),
LLVMConstInt (LLVMInt32Type (), 1, FALSE), "");
else
g_assert_not_reached (); // will be needed for other types later
break;
}
case OP_SSE_MOVEHL: {
if (ins->inst_c1 == MONO_TYPE_R4)
values [ins->dreg] = LLVMBuildShuffleVector (builder, lhs, rhs, create_const_vector_4_i32 (6, 7, 2, 3), "");
else
g_assert_not_reached ();
break;
}
case OP_SSE_MOVELH: {
if (ins->inst_c1 == MONO_TYPE_R4)
values [ins->dreg] = LLVMBuildShuffleVector (builder, lhs, rhs, create_const_vector_4_i32 (0, 1, 4, 5), "");
else
g_assert_not_reached ();
break;
}
case OP_SSE_UNPACKLO: {
if (ins->inst_c1 == MONO_TYPE_R8 || ins->inst_c1 == MONO_TYPE_I8 || ins->inst_c1 == MONO_TYPE_U8) {
values [ins->dreg] = LLVMBuildShuffleVector (builder, lhs, rhs, create_const_vector_2_i32 (0, 2), "");
} else if (ins->inst_c1 == MONO_TYPE_R4 || ins->inst_c1 == MONO_TYPE_I4 || ins->inst_c1 == MONO_TYPE_U4) {
values [ins->dreg] = LLVMBuildShuffleVector (builder, lhs, rhs, create_const_vector_4_i32 (0, 4, 1, 5), "");
} else if (ins->inst_c1 == MONO_TYPE_I2 || ins->inst_c1 == MONO_TYPE_U2) {
const int mask_values [] = { 0, 8, 1, 9, 2, 10, 3, 11 };
LLVMValueRef shuffled = LLVMBuildShuffleVector (builder,
convert (ctx, lhs, sse_i2_t),
convert (ctx, rhs, sse_i2_t),
create_const_vector_i32 (mask_values, 8), "");
values [ins->dreg] = convert (ctx, shuffled, type_to_sse_type (ins->inst_c1));
} else if (ins->inst_c1 == MONO_TYPE_I1 || ins->inst_c1 == MONO_TYPE_U1) {
const int mask_values [] = { 0, 16, 1, 17, 2, 18, 3, 19, 4, 20, 5, 21, 6, 22, 7, 23 };
LLVMValueRef shuffled = LLVMBuildShuffleVector (builder,
convert (ctx, lhs, sse_i1_t),
convert (ctx, rhs, sse_i1_t),
create_const_vector_i32 (mask_values, 16), "");
values [ins->dreg] = convert (ctx, shuffled, type_to_sse_type (ins->inst_c1));
} else {
g_assert_not_reached ();
}
break;
}
case OP_SSE_UNPACKHI: {
if (ins->inst_c1 == MONO_TYPE_R8 || ins->inst_c1 == MONO_TYPE_I8 || ins->inst_c1 == MONO_TYPE_U8) {
values [ins->dreg] = LLVMBuildShuffleVector (builder, lhs, rhs, create_const_vector_2_i32 (1, 3), "");
} else if (ins->inst_c1 == MONO_TYPE_R4 || ins->inst_c1 == MONO_TYPE_I4 || ins->inst_c1 == MONO_TYPE_U4) {
values [ins->dreg] = LLVMBuildShuffleVector (builder, lhs, rhs, create_const_vector_4_i32 (2, 6, 3, 7), "");
} else if (ins->inst_c1 == MONO_TYPE_I2 || ins->inst_c1 == MONO_TYPE_U2) {
const int mask_values [] = { 4, 12, 5, 13, 6, 14, 7, 15 };
LLVMValueRef shuffled = LLVMBuildShuffleVector (builder,
convert (ctx, lhs, sse_i2_t),
convert (ctx, rhs, sse_i2_t),
create_const_vector_i32 (mask_values, 8), "");
values [ins->dreg] = convert (ctx, shuffled, type_to_sse_type (ins->inst_c1));
} else if (ins->inst_c1 == MONO_TYPE_I1 || ins->inst_c1 == MONO_TYPE_U1) {
const int mask_values [] = { 8, 24, 9, 25, 10, 26, 11, 27, 12, 28, 13, 29, 14, 30, 15, 31 };
LLVMValueRef shuffled = LLVMBuildShuffleVector (builder,
convert (ctx, lhs, sse_i1_t),
convert (ctx, rhs, sse_i1_t),
create_const_vector_i32 (mask_values, 16), "");
values [ins->dreg] = convert (ctx, shuffled, type_to_sse_type (ins->inst_c1));
} else {
g_assert_not_reached ();
}
break;
}
case OP_SSE_LOADU: {
LLVMValueRef dst_ptr = convert (ctx, lhs, LLVMPointerType (primitive_type_to_llvm_type (inst_c1_type (ins)), 0));
LLVMValueRef dst_vec = LLVMBuildBitCast (builder, dst_ptr, LLVMPointerType (type_to_sse_type (ins->inst_c1), 0), "");
values [ins->dreg] = mono_llvm_build_aligned_load (builder, dst_vec, "", FALSE, ins->inst_c0); // inst_c0 is alignment
break;
}
case OP_SSE_MOVSS: {
LLVMValueRef addr = convert (ctx, lhs, LLVMPointerType (LLVMFloatType (), 0));
LLVMValueRef val = mono_llvm_build_load (builder, addr, "", FALSE);
values [ins->dreg] = LLVMBuildInsertElement (builder, LLVMConstNull (type_to_sse_type (ins->inst_c1)), val, LLVMConstInt (LLVMInt32Type (), 0, FALSE), "");
break;
}
case OP_SSE_MOVSS_STORE: {
LLVMValueRef addr = convert (ctx, lhs, LLVMPointerType (LLVMFloatType (), 0));
LLVMValueRef val = LLVMBuildExtractElement (builder, rhs, LLVMConstInt (LLVMInt32Type (), 0, FALSE), "");
mono_llvm_build_store (builder, val, addr, FALSE, LLVM_BARRIER_NONE);
break;
}
case OP_SSE2_MOVD:
case OP_SSE2_MOVQ:
case OP_SSE2_MOVUPD: {
LLVMTypeRef rty = NULL;
switch (ins->opcode) {
case OP_SSE2_MOVD: rty = sse_i4_t; break;
case OP_SSE2_MOVQ: rty = sse_i8_t; break;
case OP_SSE2_MOVUPD: rty = sse_r8_t; break;
}
LLVMTypeRef srcty = LLVMGetElementType (rty);
LLVMValueRef zero = LLVMConstNull (rty);
LLVMValueRef addr = convert (ctx, lhs, LLVMPointerType (srcty, 0));
LLVMValueRef val = mono_llvm_build_aligned_load (builder, addr, "", FALSE, 1);
values [ins->dreg] = LLVMBuildInsertElement (builder, zero, val, const_int32 (0), dname);
break;
}
case OP_SSE_MOVLPS_LOAD:
case OP_SSE_MOVHPS_LOAD: {
LLVMTypeRef t = LLVMFloatType ();
int size = 4;
gboolean high = ins->opcode == OP_SSE_MOVHPS_LOAD;
/* Load two floats from rhs and store them in the low/high part of lhs */
LLVMValueRef addr = rhs;
LLVMValueRef addr1 = convert (ctx, addr, LLVMPointerType (t, 0));
LLVMValueRef addr2 = convert (ctx, LLVMBuildAdd (builder, convert (ctx, addr, IntPtrType ()), convert (ctx, LLVMConstInt (LLVMInt32Type (), size, FALSE), IntPtrType ()), ""), LLVMPointerType (t, 0));
LLVMValueRef val1 = mono_llvm_build_load (builder, addr1, "", FALSE);
LLVMValueRef val2 = mono_llvm_build_load (builder, addr2, "", FALSE);
int index1, index2;
index1 = high ? 2: 0;
index2 = high ? 3 : 1;
values [ins->dreg] = LLVMBuildInsertElement (builder, LLVMBuildInsertElement (builder, lhs, val1, LLVMConstInt (LLVMInt32Type (), index1, FALSE), ""), val2, LLVMConstInt (LLVMInt32Type (), index2, FALSE), "");
break;
}
case OP_SSE2_MOVLPD_LOAD:
case OP_SSE2_MOVHPD_LOAD: {
LLVMTypeRef t = LLVMDoubleType ();
LLVMValueRef addr = convert (ctx, rhs, LLVMPointerType (t, 0));
LLVMValueRef val = mono_llvm_build_load (builder, addr, "", FALSE);
int index = ins->opcode == OP_SSE2_MOVHPD_LOAD ? 1 : 0;
values [ins->dreg] = LLVMBuildInsertElement (builder, lhs, val, const_int32 (index), "");
break;
}
case OP_SSE_MOVLPS_STORE:
case OP_SSE_MOVHPS_STORE: {
/* Store two floats from the low/hight part of rhs into lhs */
LLVMValueRef addr = lhs;
LLVMValueRef addr1 = convert (ctx, addr, LLVMPointerType (LLVMFloatType (), 0));
LLVMValueRef addr2 = convert (ctx, LLVMBuildAdd (builder, convert (ctx, addr, IntPtrType ()), convert (ctx, LLVMConstInt (LLVMInt32Type (), 4, FALSE), IntPtrType ()), ""), LLVMPointerType (LLVMFloatType (), 0));
int index1 = ins->opcode == OP_SSE_MOVLPS_STORE ? 0 : 2;
int index2 = ins->opcode == OP_SSE_MOVLPS_STORE ? 1 : 3;
LLVMValueRef val1 = LLVMBuildExtractElement (builder, rhs, LLVMConstInt (LLVMInt32Type (), index1, FALSE), "");
LLVMValueRef val2 = LLVMBuildExtractElement (builder, rhs, LLVMConstInt (LLVMInt32Type (), index2, FALSE), "");
mono_llvm_build_store (builder, val1, addr1, FALSE, LLVM_BARRIER_NONE);
mono_llvm_build_store (builder, val2, addr2, FALSE, LLVM_BARRIER_NONE);
break;
}
case OP_SSE2_MOVLPD_STORE:
case OP_SSE2_MOVHPD_STORE: {
LLVMTypeRef t = LLVMDoubleType ();
LLVMValueRef addr = convert (ctx, lhs, LLVMPointerType (t, 0));
int index = ins->opcode == OP_SSE2_MOVHPD_STORE ? 1 : 0;
LLVMValueRef val = LLVMBuildExtractElement (builder, rhs, const_int32 (index), "");
mono_llvm_build_store (builder, val, addr, FALSE, LLVM_BARRIER_NONE);
break;
}
case OP_SSE_STORE: {
LLVMValueRef dst_vec = convert (ctx, lhs, LLVMPointerType (LLVMTypeOf (rhs), 0));
mono_llvm_build_aligned_store (builder, rhs, dst_vec, FALSE, ins->inst_c0);
break;
}
case OP_SSE_STORES: {
LLVMValueRef first_elem = LLVMBuildExtractElement (builder, rhs, LLVMConstInt (LLVMInt32Type (), 0, FALSE), "");
LLVMValueRef dst = convert (ctx, lhs, LLVMPointerType (LLVMTypeOf (first_elem), 0));
mono_llvm_build_aligned_store (builder, first_elem, dst, FALSE, 1);
break;
}
case OP_SSE_MOVNTPS: {
LLVMValueRef addr = convert (ctx, lhs, LLVMPointerType (LLVMTypeOf (rhs), 0));
LLVMValueRef store = mono_llvm_build_aligned_store (builder, rhs, addr, FALSE, ins->inst_c0);
set_nontemporal_flag (store);
break;
}
case OP_SSE_PREFETCHT0: {
LLVMValueRef addr = convert (ctx, lhs, LLVMPointerType (LLVMInt8Type (), 0));
LLVMValueRef args [] = { addr, const_int32 (0), const_int32 (3), const_int32 (1) };
call_intrins (ctx, INTRINS_PREFETCH, args, "");
break;
}
case OP_SSE_PREFETCHT1: {
LLVMValueRef addr = convert (ctx, lhs, LLVMPointerType (LLVMInt8Type (), 0));
LLVMValueRef args [] = { addr, const_int32 (0), const_int32 (2), const_int32 (1) };
call_intrins (ctx, INTRINS_PREFETCH, args, "");
break;
}
case OP_SSE_PREFETCHT2: {
LLVMValueRef addr = convert (ctx, lhs, LLVMPointerType (LLVMInt8Type (), 0));
LLVMValueRef args [] = { addr, const_int32 (0), const_int32 (1), const_int32 (1) };
call_intrins (ctx, INTRINS_PREFETCH, args, "");
break;
}
case OP_SSE_PREFETCHNTA: {
LLVMValueRef addr = convert (ctx, lhs, LLVMPointerType (LLVMInt8Type (), 0));
LLVMValueRef args [] = { addr, const_int32 (0), const_int32 (0), const_int32 (1) };
call_intrins (ctx, INTRINS_PREFETCH, args, "");
break;
}
case OP_SSE_OR: {
LLVMValueRef vec_lhs_i64 = convert (ctx, lhs, sse_i8_t);
LLVMValueRef vec_rhs_i64 = convert (ctx, rhs, sse_i8_t);
LLVMValueRef vec_and = LLVMBuildOr (builder, vec_lhs_i64, vec_rhs_i64, "");
values [ins->dreg] = LLVMBuildBitCast (builder, vec_and, type_to_sse_type (ins->inst_c1), "");
break;
}
case OP_SSE_XOR: {
LLVMValueRef vec_lhs_i64 = convert (ctx, lhs, sse_i8_t);
LLVMValueRef vec_rhs_i64 = convert (ctx, rhs, sse_i8_t);
LLVMValueRef vec_and = LLVMBuildXor (builder, vec_lhs_i64, vec_rhs_i64, "");
values [ins->dreg] = LLVMBuildBitCast (builder, vec_and, type_to_sse_type (ins->inst_c1), "");
break;
}
case OP_SSE_AND: {
LLVMValueRef vec_lhs_i64 = convert (ctx, lhs, sse_i8_t);
LLVMValueRef vec_rhs_i64 = convert (ctx, rhs, sse_i8_t);
LLVMValueRef vec_and = LLVMBuildAnd (builder, vec_lhs_i64, vec_rhs_i64, "");
values [ins->dreg] = LLVMBuildBitCast (builder, vec_and, type_to_sse_type (ins->inst_c1), "");
break;
}
case OP_SSE_ANDN: {
LLVMValueRef minus_one [2];
minus_one [0] = LLVMConstInt (LLVMInt64Type (), -1, FALSE);
minus_one [1] = LLVMConstInt (LLVMInt64Type (), -1, FALSE);
LLVMValueRef vec_lhs_i64 = convert (ctx, lhs, sse_i8_t);
LLVMValueRef vec_xor = LLVMBuildXor (builder, vec_lhs_i64, LLVMConstVector (minus_one, 2), "");
LLVMValueRef vec_rhs_i64 = convert (ctx, rhs, sse_i8_t);
LLVMValueRef vec_and = LLVMBuildAnd (builder, vec_rhs_i64, vec_xor, "");
values [ins->dreg] = LLVMBuildBitCast (builder, vec_and, type_to_sse_type (ins->inst_c1), "");
break;
}
case OP_SSE_ADDSS:
case OP_SSE_SUBSS:
case OP_SSE_DIVSS:
case OP_SSE_MULSS:
case OP_SSE2_ADDSD:
case OP_SSE2_SUBSD:
case OP_SSE2_DIVSD:
case OP_SSE2_MULSD: {
LLVMValueRef v1 = LLVMBuildExtractElement (builder, lhs, LLVMConstInt (LLVMInt32Type (), 0, FALSE), "");
LLVMValueRef v2 = LLVMBuildExtractElement (builder, rhs, LLVMConstInt (LLVMInt32Type (), 0, FALSE), "");
LLVMValueRef v = NULL;
switch (ins->opcode) {
case OP_SSE_ADDSS:
case OP_SSE2_ADDSD:
v = LLVMBuildFAdd (builder, v1, v2, "");
break;
case OP_SSE_SUBSS:
case OP_SSE2_SUBSD:
v = LLVMBuildFSub (builder, v1, v2, "");
break;
case OP_SSE_DIVSS:
case OP_SSE2_DIVSD:
v = LLVMBuildFDiv (builder, v1, v2, "");
break;
case OP_SSE_MULSS:
case OP_SSE2_MULSD:
v = LLVMBuildFMul (builder, v1, v2, "");
break;
default:
g_assert_not_reached ();
}
values [ins->dreg] = LLVMBuildInsertElement (builder, lhs, v, LLVMConstInt (LLVMInt32Type (), 0, FALSE), "");
break;
}
case OP_SSE_CMPSS:
case OP_SSE2_CMPSD: {
int imm = -1;
gboolean swap = FALSE;
switch (ins->inst_c0) {
case CMP_EQ: imm = SSE_eq_ord_nosignal; break;
case CMP_GT: imm = SSE_lt_ord_signal; swap = TRUE; break;
case CMP_GE: imm = SSE_le_ord_signal; swap = TRUE; break;
case CMP_LT: imm = SSE_lt_ord_signal; break;
case CMP_LE: imm = SSE_le_ord_signal; break;
case CMP_GT_UN: imm = SSE_nle_unord_signal; break;
case CMP_GE_UN: imm = SSE_nlt_unord_signal; break;
case CMP_LT_UN: imm = SSE_nle_unord_signal; swap = TRUE; break;
case CMP_LE_UN: imm = SSE_nlt_unord_signal; swap = TRUE; break;
case CMP_NE: imm = SSE_neq_unord_nosignal; break;
case CMP_ORD: imm = SSE_ord_nosignal; break;
case CMP_UNORD: imm = SSE_unord_nosignal; break;
default: g_assert_not_reached (); break;
}
LLVMValueRef cmp = LLVMConstInt (LLVMInt8Type (), imm, FALSE);
LLVMValueRef args [] = { lhs, rhs, cmp };
if (swap) {
args [0] = rhs;
args [1] = lhs;
}
IntrinsicId id = (IntrinsicId) 0;
switch (ins->opcode) {
case OP_SSE_CMPSS: id = INTRINS_SSE_CMPSS; break;
case OP_SSE2_CMPSD: id = INTRINS_SSE_CMPSD; break;
default: g_assert_not_reached (); break;
}
int elements = LLVMGetVectorSize (LLVMTypeOf (lhs));
int mask_values [MAX_VECTOR_ELEMS] = { 0 };
for (int i = 1; i < elements; ++i) {
mask_values [i] = elements + i;
}
LLVMValueRef result = call_intrins (ctx, id, args, "");
result = LLVMBuildShuffleVector (builder, result, lhs, create_const_vector_i32 (mask_values, elements), "");
values [ins->dreg] = result;
break;
}
case OP_SSE_COMISS: {
LLVMValueRef args [] = { lhs, rhs };
IntrinsicId id = (IntrinsicId)0;
switch (ins->inst_c0) {
case CMP_EQ: id = INTRINS_SSE_COMIEQ_SS; break;
case CMP_GT: id = INTRINS_SSE_COMIGT_SS; break;
case CMP_GE: id = INTRINS_SSE_COMIGE_SS; break;
case CMP_LT: id = INTRINS_SSE_COMILT_SS; break;
case CMP_LE: id = INTRINS_SSE_COMILE_SS; break;
case CMP_NE: id = INTRINS_SSE_COMINEQ_SS; break;
default: g_assert_not_reached (); break;
}
values [ins->dreg] = call_intrins (ctx, id, args, "");
break;
}
case OP_SSE_UCOMISS: {
LLVMValueRef args [] = { lhs, rhs };
IntrinsicId id = (IntrinsicId)0;
switch (ins->inst_c0) {
case CMP_EQ: id = INTRINS_SSE_UCOMIEQ_SS; break;
case CMP_GT: id = INTRINS_SSE_UCOMIGT_SS; break;
case CMP_GE: id = INTRINS_SSE_UCOMIGE_SS; break;
case CMP_LT: id = INTRINS_SSE_UCOMILT_SS; break;
case CMP_LE: id = INTRINS_SSE_UCOMILE_SS; break;
case CMP_NE: id = INTRINS_SSE_UCOMINEQ_SS; break;
default: g_assert_not_reached (); break;
}
values [ins->dreg] = call_intrins (ctx, id, args, "");
break;
}
case OP_SSE2_COMISD: {
LLVMValueRef args [] = { lhs, rhs };
IntrinsicId id = (IntrinsicId)0;
switch (ins->inst_c0) {
case CMP_EQ: id = INTRINS_SSE_COMIEQ_SD; break;
case CMP_GT: id = INTRINS_SSE_COMIGT_SD; break;
case CMP_GE: id = INTRINS_SSE_COMIGE_SD; break;
case CMP_LT: id = INTRINS_SSE_COMILT_SD; break;
case CMP_LE: id = INTRINS_SSE_COMILE_SD; break;
case CMP_NE: id = INTRINS_SSE_COMINEQ_SD; break;
default: g_assert_not_reached (); break;
}
values [ins->dreg] = call_intrins (ctx, id, args, "");
break;
}
case OP_SSE2_UCOMISD: {
LLVMValueRef args [] = { lhs, rhs };
IntrinsicId id = (IntrinsicId)0;
switch (ins->inst_c0) {
case CMP_EQ: id = INTRINS_SSE_UCOMIEQ_SD; break;
case CMP_GT: id = INTRINS_SSE_UCOMIGT_SD; break;
case CMP_GE: id = INTRINS_SSE_UCOMIGE_SD; break;
case CMP_LT: id = INTRINS_SSE_UCOMILT_SD; break;
case CMP_LE: id = INTRINS_SSE_UCOMILE_SD; break;
case CMP_NE: id = INTRINS_SSE_UCOMINEQ_SD; break;
default: g_assert_not_reached (); break;
}
values [ins->dreg] = call_intrins (ctx, id, args, "");
break;
}
case OP_SSE_CVTSI2SS:
case OP_SSE_CVTSI2SS64:
case OP_SSE2_CVTSI2SD:
case OP_SSE2_CVTSI2SD64: {
LLVMTypeRef ty = LLVMFloatType ();
switch (ins->opcode) {
case OP_SSE2_CVTSI2SD:
case OP_SSE2_CVTSI2SD64:
ty = LLVMDoubleType ();
break;
}
LLVMValueRef fp = LLVMBuildSIToFP (builder, rhs, ty, "");
values [ins->dreg] = LLVMBuildInsertElement (builder, lhs, fp, const_int32 (0), dname);
break;
}
case OP_SSE2_PMULUDQ: {
LLVMValueRef i32_max = LLVMConstInt (LLVMInt64Type (), UINT32_MAX, FALSE);
LLVMValueRef maskvals [] = { i32_max, i32_max };
LLVMValueRef mask = LLVMConstVector (maskvals, 2);
LLVMValueRef l = LLVMBuildAnd (builder, convert (ctx, lhs, sse_i8_t), mask, "");
LLVMValueRef r = LLVMBuildAnd (builder, convert (ctx, rhs, sse_i8_t), mask, "");
values [ins->dreg] = LLVMBuildNUWMul (builder, l, r, dname);
break;
}
case OP_SSE_SQRTSS:
case OP_SSE2_SQRTSD: {
LLVMValueRef upper = values [ins->sreg1];
LLVMValueRef lower = values [ins->sreg2];
LLVMValueRef scalar = LLVMBuildExtractElement (builder, lower, const_int32 (0), "");
LLVMValueRef result = call_intrins (ctx, simd_ins_to_intrins (ins->opcode), &scalar, dname);
values [ins->dreg] = LLVMBuildInsertElement (builder, upper, result, const_int32 (0), "");
break;
}
case OP_SSE_RCPSS:
case OP_SSE_RSQRTSS: {
IntrinsicId id = (IntrinsicId)0;
switch (ins->opcode) {
case OP_SSE_RCPSS: id = INTRINS_SSE_RCP_SS; break;
case OP_SSE_RSQRTSS: id = INTRINS_SSE_RSQRT_SS; break;
default: g_assert_not_reached (); break;
};
LLVMValueRef result = call_intrins (ctx, id, &rhs, dname);
const int mask[] = { 0, 5, 6, 7 };
LLVMValueRef shufmask = create_const_vector_i32 (mask, 4);
values [ins->dreg] = LLVMBuildShuffleVector (builder, result, lhs, shufmask, "");
break;
}
case OP_XOP: {
IntrinsicId id = (IntrinsicId)ins->inst_c0;
call_intrins (ctx, id, NULL, "");
break;
}
case OP_XOP_X_I:
case OP_XOP_X_X:
case OP_XOP_I4_X:
case OP_XOP_I8_X:
case OP_XOP_X_X_X:
case OP_XOP_X_X_I4:
case OP_XOP_X_X_I8: {
IntrinsicId id = (IntrinsicId)ins->inst_c0;
LLVMValueRef args [] = { lhs, rhs };
values [ins->dreg] = call_intrins (ctx, id, args, "");
break;
}
case OP_XOP_I4_X_X: {
gboolean to_i8_t = FALSE;
gboolean ret_bool = FALSE;
IntrinsicId id = (IntrinsicId)ins->inst_c0;
switch (ins->inst_c0) {
case INTRINS_SSE_TESTC: to_i8_t = TRUE; ret_bool = TRUE; break;
case INTRINS_SSE_TESTZ: to_i8_t = TRUE; ret_bool = TRUE; break;
case INTRINS_SSE_TESTNZ: to_i8_t = TRUE; ret_bool = TRUE; break;
default: g_assert_not_reached (); break;
}
LLVMValueRef args [] = { lhs, rhs };
if (to_i8_t) {
args [0] = convert (ctx, args [0], sse_i8_t);
args [1] = convert (ctx, args [1], sse_i8_t);
}
LLVMValueRef call = call_intrins (ctx, id, args, "");
if (ret_bool) {
// if return type is bool (it's still i32) we need to normalize it to 1/0
LLVMValueRef cmp_zero = LLVMBuildICmp (builder, LLVMIntNE, call, LLVMConstInt (LLVMInt32Type (), 0, FALSE), "");
values [ins->dreg] = LLVMBuildZExt (builder, cmp_zero, LLVMInt8Type (), "");
} else {
values [ins->dreg] = call;
}
break;
}
case OP_SSE2_MASKMOVDQU: {
LLVMTypeRef i8ptr = LLVMPointerType (LLVMInt8Type (), 0);
LLVMValueRef dstaddr = convert (ctx, values [ins->sreg3], i8ptr);
LLVMValueRef src = convert (ctx, lhs, sse_i1_t);
LLVMValueRef mask = convert (ctx, rhs, sse_i1_t);
LLVMValueRef args[] = { src, mask, dstaddr };
call_intrins (ctx, INTRINS_SSE_MASKMOVDQU, args, "");
break;
}
case OP_PADDB_SAT:
case OP_PADDW_SAT:
case OP_PSUBB_SAT:
case OP_PSUBW_SAT:
case OP_PADDB_SAT_UN:
case OP_PADDW_SAT_UN:
case OP_PSUBB_SAT_UN:
case OP_PSUBW_SAT_UN:
case OP_SSE2_ADDS:
case OP_SSE2_SUBS: {
IntrinsicId id = (IntrinsicId)0;
int type = 0;
gboolean is_add = TRUE;
switch (ins->opcode) {
case OP_PADDB_SAT: type = MONO_TYPE_I1; break;
case OP_PADDW_SAT: type = MONO_TYPE_I2; break;
case OP_PSUBB_SAT: type = MONO_TYPE_I1; is_add = FALSE; break;
case OP_PSUBW_SAT: type = MONO_TYPE_I2; is_add = FALSE; break;
case OP_PADDB_SAT_UN: type = MONO_TYPE_U1; break;
case OP_PADDW_SAT_UN: type = MONO_TYPE_U2; break;
case OP_PSUBB_SAT_UN: type = MONO_TYPE_U1; is_add = FALSE; break;
case OP_PSUBW_SAT_UN: type = MONO_TYPE_U2; is_add = FALSE; break;
case OP_SSE2_ADDS: type = ins->inst_c1; break;
case OP_SSE2_SUBS: type = ins->inst_c1; is_add = FALSE; break;
default: g_assert_not_reached ();
}
if (is_add) {
switch (type) {
case MONO_TYPE_I1: id = INTRINS_SSE_SADD_SATI8; break;
case MONO_TYPE_U1: id = INTRINS_SSE_UADD_SATI8; break;
case MONO_TYPE_I2: id = INTRINS_SSE_SADD_SATI16; break;
case MONO_TYPE_U2: id = INTRINS_SSE_UADD_SATI16; break;
default: g_assert_not_reached (); break;
}
} else {
switch (type) {
case MONO_TYPE_I1: id = INTRINS_SSE_SSUB_SATI8; break;
case MONO_TYPE_U1: id = INTRINS_SSE_USUB_SATI8; break;
case MONO_TYPE_I2: id = INTRINS_SSE_SSUB_SATI16; break;
case MONO_TYPE_U2: id = INTRINS_SSE_USUB_SATI16; break;
default: g_assert_not_reached (); break;
}
}
LLVMTypeRef vecty = type_to_sse_type (type);
LLVMValueRef args [] = { convert (ctx, lhs, vecty), convert (ctx, rhs, vecty) };
LLVMValueRef result = call_intrins (ctx, id, args, dname);
values [ins->dreg] = convert (ctx, result, vecty);
break;
}
case OP_SSE2_PACKUS: {
LLVMValueRef args [2];
args [0] = convert (ctx, lhs, sse_i2_t);
args [1] = convert (ctx, rhs, sse_i2_t);
values [ins->dreg] = convert (ctx,
call_intrins (ctx, INTRINS_SSE_PACKUSWB, args, dname),
type_to_sse_type (ins->inst_c1));
break;
}
case OP_SSE2_SRLI: {
LLVMValueRef args [] = { lhs, rhs };
values [ins->dreg] = convert (ctx,
call_intrins (ctx, INTRINS_SSE_PSRLI_W, args, dname),
type_to_sse_type (ins->inst_c1));
break;
}
case OP_SSE2_PSLLDQ:
case OP_SSE2_PSRLDQ: {
LLVMBasicBlockRef bbs [16 + 1];
LLVMValueRef switch_ins;
LLVMValueRef value = lhs;
LLVMValueRef index = rhs;
LLVMValueRef phi_values [16 + 1];
LLVMTypeRef t = sse_i1_t;
int nelems = 16;
int i;
gboolean shift_right = (ins->opcode == OP_SSE2_PSRLDQ);
value = convert (ctx, value, t);
// No corresponding LLVM intrinsics
// FIXME: Optimize const count
for (i = 0; i < nelems; ++i)
bbs [i] = gen_bb (ctx, "PSLLDQ_CASE_BB");
bbs [nelems] = gen_bb (ctx, "PSLLDQ_DEF_BB");
cbb = gen_bb (ctx, "PSLLDQ_COND_BB");
switch_ins = LLVMBuildSwitch (builder, index, bbs [nelems], 0);
for (i = 0; i < nelems; ++i) {
LLVMAddCase (switch_ins, LLVMConstInt (LLVMInt32Type (), i, FALSE), bbs [i]);
LLVMPositionBuilderAtEnd (builder, bbs [i]);
int mask_values [16];
// Implement shift using a shuffle
if (shift_right) {
for (int j = 0; j < nelems - i; ++j)
mask_values [j] = i + j;
for (int j = nelems -i ; j < nelems; ++j)
mask_values [j] = nelems;
} else {
for (int j = 0; j < i; ++j)
mask_values [j] = nelems;
for (int j = 0; j < nelems - i; ++j)
mask_values [j + i] = j;
}
phi_values [i] = LLVMBuildShuffleVector (builder, value, LLVMGetUndef (t), create_const_vector_i32 (mask_values, nelems), "");
LLVMBuildBr (builder, cbb);
}
/* Default case */
LLVMPositionBuilderAtEnd (builder, bbs [nelems]);
phi_values [nelems] = LLVMConstNull (t);
LLVMBuildBr (builder, cbb);
LLVMPositionBuilderAtEnd (builder, cbb);
values [ins->dreg] = LLVMBuildPhi (builder, LLVMTypeOf (phi_values [0]), "");
LLVMAddIncoming (values [ins->dreg], phi_values, bbs, nelems + 1);
values [ins->dreg] = convert (ctx, values [ins->dreg], type_to_sse_type (ins->inst_c1));
ctx->bblocks [bb->block_num].end_bblock = cbb;
break;
}
case OP_SSE2_PSRAW_IMM:
case OP_SSE2_PSRAD_IMM:
case OP_SSE2_PSRLW_IMM:
case OP_SSE2_PSRLD_IMM:
case OP_SSE2_PSRLQ_IMM: {
LLVMValueRef value = lhs;
LLVMValueRef index = rhs;
IntrinsicId id;
// FIXME: Optimize const index case
/* Use the non-immediate version */
switch (ins->opcode) {
case OP_SSE2_PSRAW_IMM: id = INTRINS_SSE_PSRA_W; break;
case OP_SSE2_PSRAD_IMM: id = INTRINS_SSE_PSRA_D; break;
case OP_SSE2_PSRLW_IMM: id = INTRINS_SSE_PSRL_W; break;
case OP_SSE2_PSRLD_IMM: id = INTRINS_SSE_PSRL_D; break;
case OP_SSE2_PSRLQ_IMM: id = INTRINS_SSE_PSRL_Q; break;
default: g_assert_not_reached (); break;
}
LLVMTypeRef t = LLVMTypeOf (value);
LLVMValueRef index_vect = LLVMBuildInsertElement (builder, LLVMConstNull (t), convert (ctx, index, LLVMGetElementType (t)), const_int32 (0), "");
LLVMValueRef args [] = { value, index_vect };
values [ins->dreg] = call_intrins (ctx, id, args, "");
break;
}
case OP_SSE_SHUFPS:
case OP_SSE2_SHUFPD:
case OP_SSE2_PSHUFD:
case OP_SSE2_PSHUFHW:
case OP_SSE2_PSHUFLW: {
LLVMTypeRef ret_t = LLVMTypeOf (lhs);
LLVMValueRef l = lhs;
LLVMValueRef r = rhs;
LLVMValueRef ctl = arg3;
const char *oname = "";
int ncases = 0;
switch (ins->opcode) {
case OP_SSE_SHUFPS: ncases = 256; break;
case OP_SSE2_SHUFPD: ncases = 4; break;
case OP_SSE2_PSHUFD: case OP_SSE2_PSHUFHW: case OP_SSE2_PSHUFLW: ncases = 256; r = lhs; ctl = rhs; break;
}
switch (ins->opcode) {
case OP_SSE_SHUFPS: oname = "sse_shufps"; break;
case OP_SSE2_SHUFPD: oname = "sse2_shufpd"; break;
case OP_SSE2_PSHUFD: oname = "sse2_pshufd"; break;
case OP_SSE2_PSHUFHW: oname = "sse2_pshufhw"; break;
case OP_SSE2_PSHUFLW: oname = "sse2_pshuflw"; break;
}
ctl = LLVMBuildAnd (builder, ctl, const_int32 (ncases - 1), "");
ImmediateUnrollCtx ictx = immediate_unroll_begin (ctx, bb, ncases, ctl, ret_t, oname);
int mask_values [8];
int mask_len = 0;
int i = 0;
while (immediate_unroll_next (&ictx, &i)) {
switch (ins->opcode) {
case OP_SSE_SHUFPS:
mask_len = 4;
mask_values [0] = ((i >> 0) & 0x3) + 0; // take two elements from lhs
mask_values [1] = ((i >> 2) & 0x3) + 0;
mask_values [2] = ((i >> 4) & 0x3) + 4; // and two from rhs
mask_values [3] = ((i >> 6) & 0x3) + 4;
break;
case OP_SSE2_SHUFPD:
mask_len = 2;
mask_values [0] = ((i >> 0) & 0x1) + 0;
mask_values [1] = ((i >> 1) & 0x1) + 2;
break;
case OP_SSE2_PSHUFD:
/*
* Each 2 bits in mask selects 1 dword from the the source and copies it to the
* destination.
*/
mask_len = 4;
for (int j = 0; j < 4; ++j) {
int windex = (i >> (j * 2)) & 0x3;
mask_values [j] = windex;
}
break;
case OP_SSE2_PSHUFHW:
/*
* Each 2 bits in mask selects 1 word from the high quadword of the source and copies it to the
* high quadword of the destination.
*/
mask_len = 8;
/* The low quadword stays the same */
for (int j = 0; j < 4; ++j)
mask_values [j] = j;
for (int j = 0; j < 4; ++j) {
int windex = (i >> (j * 2)) & 0x3;
mask_values [j + 4] = 4 + windex;
}
break;
case OP_SSE2_PSHUFLW:
mask_len = 8;
/* The high quadword stays the same */
for (int j = 0; j < 4; ++j)
mask_values [j + 4] = j + 4;
for (int j = 0; j < 4; ++j) {
int windex = (i >> (j * 2)) & 0x3;
mask_values [j] = windex;
}
break;
}
LLVMValueRef mask = create_const_vector_i32 (mask_values, mask_len);
LLVMValueRef result = LLVMBuildShuffleVector (builder, l, r, mask, oname);
immediate_unroll_commit (&ictx, i, result);
}
immediate_unroll_default (&ictx);
immediate_unroll_commit_default (&ictx, LLVMGetUndef (ret_t));
values [ins->dreg] = immediate_unroll_end (&ictx, &cbb);
break;
}
case OP_SSE3_MOVDDUP: {
int mask [] = { 0, 0 };
values [ins->dreg] = LLVMBuildShuffleVector (builder, lhs,
LLVMGetUndef (LLVMTypeOf (lhs)),
create_const_vector_i32 (mask, 2), "");
break;
}
case OP_SSE3_MOVDDUP_MEM: {
LLVMValueRef undef = LLVMGetUndef (v128_r8_t);
LLVMValueRef addr = convert (ctx, lhs, LLVMPointerType (r8_t, 0));
LLVMValueRef elem = mono_llvm_build_aligned_load (builder, addr, "sse3_movddup_mem", FALSE, 1);
LLVMValueRef val = LLVMBuildInsertElement (builder, undef, elem, const_int32 (0), "sse3_movddup_mem");
values [ins->dreg] = LLVMBuildShuffleVector (builder, val, undef, LLVMConstNull (LLVMVectorType (i4_t, 2)), "sse3_movddup_mem");
break;
}
case OP_SSE3_MOVSHDUP: {
int mask [] = { 1, 1, 3, 3 };
values [ins->dreg] = LLVMBuildShuffleVector (builder, lhs, LLVMConstNull (LLVMTypeOf (lhs)), create_const_vector_i32 (mask, 4), "");
break;
}
case OP_SSE3_MOVSLDUP: {
int mask [] = { 0, 0, 2, 2 };
values [ins->dreg] = LLVMBuildShuffleVector (builder, lhs, LLVMConstNull (LLVMTypeOf (lhs)), create_const_vector_i32 (mask, 4), "");
break;
}
case OP_SSSE3_SHUFFLE: {
LLVMValueRef args [] = { lhs, rhs };
values [ins->dreg] = call_intrins (ctx, INTRINS_SSE_PSHUFB, args, dname);
break;
}
case OP_SSSE3_ABS: {
// %sub = sub <16 x i8> zeroinitializer, %arg
// %cmp = icmp sgt <16 x i8> %arg, zeroinitializer
// %abs = select <16 x i1> %cmp, <16 x i8> %arg, <16 x i8> %sub
LLVMTypeRef typ = type_to_sse_type (ins->inst_c1);
LLVMValueRef sub = LLVMBuildSub(builder, LLVMConstNull(typ), lhs, "");
LLVMValueRef cmp = LLVMBuildICmp(builder, LLVMIntSGT, lhs, LLVMConstNull(typ), "");
LLVMValueRef abs = LLVMBuildSelect (builder, cmp, lhs, sub, "");
values [ins->dreg] = convert (ctx, abs, typ);
break;
}
case OP_SSSE3_ALIGNR: {
LLVMTypeRef ret_t = simd_class_to_llvm_type (ctx, ins->klass);
LLVMValueRef zero = LLVMConstNull (v128_i1_t);
LLVMValueRef hivec = convert (ctx, lhs, v128_i1_t);
LLVMValueRef lovec = convert (ctx, rhs, v128_i1_t);
LLVMValueRef rshift_amount = convert (ctx, arg3, i1_t);
ImmediateUnrollCtx ictx = immediate_unroll_begin (ctx, bb, 32, rshift_amount, v128_i1_t, "ssse3_alignr");
LLVMValueRef mask_values [16]; // 128-bit vector, 8-bit elements, 16 total elements
int i = 0;
while (immediate_unroll_next (&ictx, &i)) {
LLVMValueRef hi = NULL;
LLVMValueRef lo = NULL;
if (i <= 16) {
for (int j = 0; j < 16; j++)
mask_values [j] = const_int32 (i + j);
lo = lovec;
hi = hivec;
} else {
for (int j = 0; j < 16; j++)
mask_values [j] = const_int32 (i + j - 16);
lo = hivec;
hi = zero;
}
LLVMValueRef shuffled = LLVMBuildShuffleVector (builder, lo, hi, LLVMConstVector (mask_values, 16), "ssse3_alignr");
immediate_unroll_commit (&ictx, i, shuffled);
}
immediate_unroll_default (&ictx);
immediate_unroll_commit_default (&ictx, zero);
LLVMValueRef result = immediate_unroll_end (&ictx, &cbb);
values [ins->dreg] = convert (ctx, result, ret_t);
break;
}
case OP_SSE41_ROUNDP: {
LLVMValueRef args [] = { lhs, LLVMConstInt (LLVMInt32Type (), ins->inst_c0, FALSE) };
values [ins->dreg] = call_intrins (ctx, ins->inst_c1 == MONO_TYPE_R4 ? INTRINS_SSE_ROUNDPS : INTRINS_SSE_ROUNDPD, args, dname);
break;
}
case OP_SSE41_ROUNDS: {
LLVMValueRef args [3];
args [0] = lhs;
args [1] = rhs;
args [2] = LLVMConstInt (LLVMInt32Type (), ins->inst_c0, FALSE);
values [ins->dreg] = call_intrins (ctx, ins->inst_c1 == MONO_TYPE_R4 ? INTRINS_SSE_ROUNDSS : INTRINS_SSE_ROUNDSD, args, dname);
break;
}
case OP_SSE41_DPPS:
case OP_SSE41_DPPD: {
/* Bits 0, 1, 4, 5 are meaningful for the control mask
* in dppd; all bits are meaningful for dpps.
*/
LLVMTypeRef ret_t = NULL;
LLVMValueRef mask = NULL;
int mask_bits = 0;
int high_shift = 0;
int low_mask = 0;
IntrinsicId iid = (IntrinsicId) 0;
const char *oname = "";
switch (ins->opcode) {
case OP_SSE41_DPPS:
ret_t = v128_r4_t;
mask = const_int8 (0xff); // 0b11111111
mask_bits = 8;
high_shift = 4;
low_mask = 0xf;
iid = INTRINS_SSE_DPPS;
oname = "sse41_dpps";
break;
case OP_SSE41_DPPD:
ret_t = v128_r8_t;
mask = const_int8 (0x33); // 0b00110011
mask_bits = 4;
high_shift = 2;
low_mask = 0x3;
iid = INTRINS_SSE_DPPD;
oname = "sse41_dppd";
break;
}
LLVMValueRef args [] = { lhs, rhs, NULL };
LLVMValueRef index = LLVMBuildAnd (builder, convert (ctx, arg3, i1_t), mask, oname);
ImmediateUnrollCtx ictx = immediate_unroll_begin (ctx, bb, 1 << mask_bits, index, ret_t, oname);
int i = 0;
while (immediate_unroll_next (&ictx, &i)) {
int imm = ((i >> high_shift) << 4) | (i & low_mask);
args [2] = const_int8 (imm);
LLVMValueRef result = call_intrins (ctx, iid, args, dname);
immediate_unroll_commit (&ictx, imm, result);
}
immediate_unroll_default (&ictx);
immediate_unroll_commit_default (&ictx, LLVMGetUndef (ret_t));
values [ins->dreg] = immediate_unroll_end (&ictx, &cbb);
break;
}
case OP_SSE41_MPSADBW: {
LLVMValueRef args [] = {
convert (ctx, lhs, sse_i1_t),
convert (ctx, rhs, sse_i1_t),
NULL,
};
LLVMValueRef ctl = convert (ctx, arg3, i1_t);
// Only 3 bits (bits 0-2) are used by mpsadbw and llvm.x86.sse41.mpsadbw
int used_bits = 0x7;
ctl = LLVMBuildAnd (builder, ctl, const_int8 (used_bits), "sse41_mpsadbw");
ImmediateUnrollCtx ictx = immediate_unroll_begin (ctx, bb, used_bits + 1, ctl, v128_i2_t, "sse41_mpsadbw");
int i = 0;
while (immediate_unroll_next (&ictx, &i)) {
args [2] = const_int8 (i);
LLVMValueRef result = call_intrins (ctx, INTRINS_SSE_MPSADBW, args, "sse41_mpsadbw");
immediate_unroll_commit (&ictx, i, result);
}
immediate_unroll_unreachable_default (&ictx);
values [ins->dreg] = immediate_unroll_end (&ictx, &cbb);
break;
}
case OP_SSE41_INSERTPS: {
LLVMValueRef ctl = convert (ctx, arg3, i1_t);
LLVMValueRef args [] = { lhs, rhs, NULL };
ImmediateUnrollCtx ictx = immediate_unroll_begin (ctx, bb, 256, ctl, v128_r4_t, "sse41_insertps");
int i = 0;
while (immediate_unroll_next (&ictx, &i)) {
args [2] = const_int8 (i);
LLVMValueRef result = call_intrins (ctx, INTRINS_SSE_INSERTPS, args, dname);
immediate_unroll_commit (&ictx, i, result);
}
immediate_unroll_unreachable_default (&ictx);
values [ins->dreg] = immediate_unroll_end (&ictx, &cbb);
break;
}
case OP_SSE41_BLEND: {
LLVMTypeRef ret_t = LLVMTypeOf (lhs);
int nelem = LLVMGetVectorSize (ret_t);
g_assert (nelem >= 2 && nelem <= 8); // I2, U2, R4, R8
int unique_ctl_patterns = 1 << nelem;
int ctlmask = unique_ctl_patterns - 1;
LLVMValueRef ctl = convert (ctx, arg3, i1_t);
ctl = LLVMBuildAnd (builder, ctl, const_int8 (ctlmask), "sse41_blend");
ImmediateUnrollCtx ictx = immediate_unroll_begin (ctx, bb, unique_ctl_patterns, ctl, ret_t, "sse41_blend");
int i = 0;
int mask_values [MAX_VECTOR_ELEMS] = { 0 };
while (immediate_unroll_next (&ictx, &i)) {
for (int lane = 0; lane < nelem; ++lane) {
// n-bit in inst_c0 (control byte) is set to 1
gboolean bit_set = (i & (1 << lane)) >> lane;
mask_values [lane] = lane + (bit_set ? nelem : 0);
}
LLVMValueRef mask = create_const_vector_i32 (mask_values, nelem);
LLVMValueRef result = LLVMBuildShuffleVector (builder, lhs, rhs, mask, "sse41_blend");
immediate_unroll_commit (&ictx, i, result);
}
immediate_unroll_default (&ictx);
immediate_unroll_commit_default (&ictx, LLVMGetUndef (ret_t));
values [ins->dreg] = immediate_unroll_end (&ictx, &cbb);
break;
}
case OP_SSE41_BLENDV: {
LLVMValueRef args [] = { lhs, rhs, values [ins->sreg3] };
if (ins->inst_c1 == MONO_TYPE_R4) {
values [ins->dreg] = call_intrins (ctx, INTRINS_SSE_BLENDVPS, args, dname);
} else if (ins->inst_c1 == MONO_TYPE_R8) {
values [ins->dreg] = call_intrins (ctx, INTRINS_SSE_BLENDVPD, args, dname);
} else {
// for other non-fp type just convert to <16 x i8> and pass to @llvm.x86.sse41.pblendvb
args [0] = LLVMBuildBitCast (ctx->builder, args [0], sse_i1_t, "");
args [1] = LLVMBuildBitCast (ctx->builder, args [1], sse_i1_t, "");
args [2] = LLVMBuildBitCast (ctx->builder, args [2], sse_i1_t, "");
values [ins->dreg] = call_intrins (ctx, INTRINS_SSE_PBLENDVB, args, dname);
}
break;
}
case OP_SSE_CVTII: {
gboolean is_signed = (ins->inst_c1 == MONO_TYPE_I1) ||
(ins->inst_c1 == MONO_TYPE_I2) || (ins->inst_c1 == MONO_TYPE_I4);
LLVMTypeRef vec_type;
if ((ins->inst_c1 == MONO_TYPE_I1) || (ins->inst_c1 == MONO_TYPE_U1))
vec_type = sse_i1_t;
else if ((ins->inst_c1 == MONO_TYPE_I2) || (ins->inst_c1 == MONO_TYPE_U2))
vec_type = sse_i2_t;
else
vec_type = sse_i4_t;
LLVMValueRef value;
if (LLVMGetTypeKind (LLVMTypeOf (lhs)) != LLVMVectorTypeKind) {
LLVMValueRef bitcasted = LLVMBuildBitCast (ctx->builder, lhs, LLVMPointerType (vec_type, 0), "");
value = mono_llvm_build_aligned_load (builder, bitcasted, "", FALSE, 1);
} else {
value = LLVMBuildBitCast (ctx->builder, lhs, vec_type, "");
}
LLVMValueRef mask_vec;
LLVMTypeRef dst_type;
if (ins->inst_c0 == MONO_TYPE_I2) {
mask_vec = create_const_vector_i32 (mask_0_incr_1, 8);
dst_type = sse_i2_t;
} else if (ins->inst_c0 == MONO_TYPE_I4) {
mask_vec = create_const_vector_i32 (mask_0_incr_1, 4);
dst_type = sse_i4_t;
} else {
g_assert (ins->inst_c0 == MONO_TYPE_I8);
mask_vec = create_const_vector_i32 (mask_0_incr_1, 2);
dst_type = sse_i8_t;
}
LLVMValueRef shuffled = LLVMBuildShuffleVector (builder, value,
LLVMGetUndef (vec_type), mask_vec, "");
if (is_signed)
values [ins->dreg] = LLVMBuildSExt (ctx->builder, shuffled, dst_type, "");
else
values [ins->dreg] = LLVMBuildZExt (ctx->builder, shuffled, dst_type, "");
break;
}
case OP_SSE41_LOADANT: {
LLVMValueRef dst_ptr = convert (ctx, lhs, LLVMPointerType (primitive_type_to_llvm_type (inst_c1_type (ins)), 0));
LLVMValueRef dst_vec = LLVMBuildBitCast (builder, dst_ptr, LLVMPointerType (type_to_sse_type (ins->inst_c1), 0), "");
LLVMValueRef load = mono_llvm_build_aligned_load (builder, dst_vec, "", FALSE, 16);
set_nontemporal_flag (load);
values [ins->dreg] = load;
break;
}
case OP_SSE41_MUL: {
const int shift_vals [] = { 32, 32 };
const LLVMValueRef args [] = {
convert (ctx, lhs, sse_i8_t),
convert (ctx, rhs, sse_i8_t),
};
LLVMValueRef mul_args [2] = { 0 };
LLVMValueRef shift_vec = create_const_vector (LLVMInt64Type (), shift_vals, 2);
for (int i = 0; i < 2; ++i) {
LLVMValueRef padded = LLVMBuildShl (builder, args [i], shift_vec, "");
mul_args[i] = mono_llvm_build_exact_ashr (builder, padded, shift_vec);
}
values [ins->dreg] = LLVMBuildNSWMul (builder, mul_args [0], mul_args [1], dname);
break;
}
case OP_SSE41_MULLO: {
values [ins->dreg] = LLVMBuildMul (ctx->builder, lhs, rhs, "");
break;
}
case OP_SSE42_CRC32:
case OP_SSE42_CRC64: {
LLVMValueRef args [2];
args [0] = lhs;
args [1] = convert (ctx, rhs, primitive_type_to_llvm_type (ins->inst_c0));
IntrinsicId id;
switch (ins->inst_c0) {
case MONO_TYPE_U1: id = INTRINS_SSE_CRC32_32_8; break;
case MONO_TYPE_U2: id = INTRINS_SSE_CRC32_32_16; break;
case MONO_TYPE_U4: id = INTRINS_SSE_CRC32_32_32; break;
case MONO_TYPE_U8: id = INTRINS_SSE_CRC32_64_64; break;
default: g_assert_not_reached (); break;
}
values [ins->dreg] = call_intrins (ctx, id, args, "");
break;
}
case OP_PCLMULQDQ: {
LLVMValueRef args [] = { lhs, rhs, NULL };
LLVMValueRef ctl = convert (ctx, arg3, i1_t);
// Only bits 0 and 4 of the immediate operand are used by PCLMULQDQ.
ctl = LLVMBuildAnd (builder, ctl, const_int8 (0x11), "pclmulqdq");
ImmediateUnrollCtx ictx = immediate_unroll_begin (ctx, bb, 1 << 2, ctl, v128_i8_t, "pclmulqdq");
int i = 0;
while (immediate_unroll_next (&ictx, &i)) {
int imm = ((i & 0x2) << 3) | (i & 0x1);
args [2] = const_int8 (imm);
LLVMValueRef result = call_intrins (ctx, INTRINS_PCLMULQDQ, args, "pclmulqdq");
immediate_unroll_commit (&ictx, imm, result);
}
immediate_unroll_unreachable_default (&ictx);
values [ins->dreg] = immediate_unroll_end (&ictx, &cbb);
break;
}
case OP_AES_KEYGENASSIST: {
LLVMValueRef roundconstant = convert (ctx, rhs, i1_t);
LLVMValueRef args [] = { convert (ctx, lhs, v128_i8_t), NULL };
ImmediateUnrollCtx ictx = immediate_unroll_begin (ctx, bb, 256, roundconstant, v128_i8_t, "aes_keygenassist");
int i = 0;
while (immediate_unroll_next (&ictx, &i)) {
args [1] = const_int8 (i);
LLVMValueRef result = call_intrins (ctx, INTRINS_AESNI_AESKEYGENASSIST, args, "aes_keygenassist");
immediate_unroll_commit (&ictx, i, result);
}
immediate_unroll_unreachable_default (&ictx);
LLVMValueRef result = immediate_unroll_end (&ictx, &cbb);
values [ins->dreg] = convert (ctx, result, v128_i1_t);
break;
}
#endif
case OP_XCOMPARE_FP: {
LLVMRealPredicate pred = fpcond_to_llvm_cond [ins->inst_c0];
LLVMValueRef cmp = LLVMBuildFCmp (builder, pred, lhs, rhs, "");
int nelems = LLVMGetVectorSize (LLVMTypeOf (cmp));
g_assert (LLVMTypeOf (lhs) == LLVMTypeOf (rhs));
if (ins->inst_c1 == MONO_TYPE_R8)
values [ins->dreg] = LLVMBuildBitCast (builder, LLVMBuildSExt (builder, cmp, LLVMVectorType (LLVMInt64Type (), nelems), ""), LLVMTypeOf (lhs), "");
else
values [ins->dreg] = LLVMBuildBitCast (builder, LLVMBuildSExt (builder, cmp, LLVMVectorType (LLVMInt32Type (), nelems), ""), LLVMTypeOf (lhs), "");
break;
}
case OP_XCOMPARE: {
LLVMIntPredicate pred = cond_to_llvm_cond [ins->inst_c0];
LLVMValueRef cmp = LLVMBuildICmp (builder, pred, lhs, rhs, "");
g_assert (LLVMTypeOf (lhs) == LLVMTypeOf (rhs));
values [ins->dreg] = LLVMBuildSExt (builder, cmp, LLVMTypeOf (lhs), "");
break;
}
case OP_POPCNT32:
values [ins->dreg] = call_intrins (ctx, INTRINS_CTPOP_I32, &lhs, "");
break;
case OP_POPCNT64:
values [ins->dreg] = call_intrins (ctx, INTRINS_CTPOP_I64, &lhs, "");
break;
case OP_CTTZ32:
case OP_CTTZ64: {
LLVMValueRef args [2];
args [0] = lhs;
args [1] = LLVMConstInt (LLVMInt1Type (), 0, FALSE);
values [ins->dreg] = call_intrins (ctx, ins->opcode == OP_CTTZ32 ? INTRINS_CTTZ_I32 : INTRINS_CTTZ_I64, args, "");
break;
}
case OP_BMI1_BEXTR32:
case OP_BMI1_BEXTR64: {
LLVMValueRef args [2];
args [0] = lhs;
args [1] = convert (ctx, rhs, ins->opcode == OP_BMI1_BEXTR32 ? i4_t : i8_t); // cast ushort to u32/u64
values [ins->dreg] = call_intrins (ctx, ins->opcode == OP_BMI1_BEXTR32 ? INTRINS_BEXTR_I32 : INTRINS_BEXTR_I64, args, "");
break;
}
case OP_BZHI32:
case OP_BZHI64: {
LLVMValueRef args [2];
args [0] = lhs;
args [1] = rhs;
values [ins->dreg] = call_intrins (ctx, ins->opcode == OP_BZHI32 ? INTRINS_BZHI_I32 : INTRINS_BZHI_I64, args, "");
break;
}
case OP_MULX_H32:
case OP_MULX_H64:
case OP_MULX_HL32:
case OP_MULX_HL64: {
gboolean is_64 = ins->opcode == OP_MULX_H64 || ins->opcode == OP_MULX_HL64;
gboolean only_high = ins->opcode == OP_MULX_H32 || ins->opcode == OP_MULX_H64;
LLVMValueRef lx = LLVMBuildZExt (ctx->builder, lhs, LLVMInt128Type (), "");
LLVMValueRef rx = LLVMBuildZExt (ctx->builder, rhs, LLVMInt128Type (), "");
LLVMValueRef mulx = LLVMBuildMul (ctx->builder, lx, rx, "");
if (!only_high) {
LLVMValueRef addr = convert (ctx, arg3, LLVMPointerType (is_64 ? i8_t : i4_t, 0));
LLVMValueRef lowx = LLVMBuildTrunc (ctx->builder, mulx, is_64 ? LLVMInt64Type () : LLVMInt32Type (), "");
LLVMBuildStore (ctx->builder, lowx, addr);
}
LLVMValueRef shift = LLVMConstInt (LLVMInt128Type (), is_64 ? 64 : 32, FALSE);
LLVMValueRef highx = LLVMBuildLShr (ctx->builder, mulx, shift, "");
values [ins->dreg] = LLVMBuildTrunc (ctx->builder, highx, is_64 ? LLVMInt64Type () : LLVMInt32Type (), "");
break;
}
case OP_PEXT32:
case OP_PEXT64: {
LLVMValueRef args [2];
args [0] = lhs;
args [1] = rhs;
values [ins->dreg] = call_intrins (ctx, ins->opcode == OP_PEXT32 ? INTRINS_PEXT_I32 : INTRINS_PEXT_I64, args, "");
break;
}
case OP_PDEP32:
case OP_PDEP64: {
LLVMValueRef args [2];
args [0] = lhs;
args [1] = rhs;
values [ins->dreg] = call_intrins (ctx, ins->opcode == OP_PDEP32 ? INTRINS_PDEP_I32 : INTRINS_PDEP_I64, args, "");
break;
}
#endif /* defined(TARGET_X86) || defined(TARGET_AMD64) */
// Shared between ARM64 and X86
#if defined(TARGET_ARM64) || defined(TARGET_X86) || defined(TARGET_AMD64)
case OP_LZCNT32:
case OP_LZCNT64: {
IntrinsicId iid = ins->opcode == OP_LZCNT32 ? INTRINS_CTLZ_I32 : INTRINS_CTLZ_I64;
LLVMValueRef args [] = { lhs, const_int1 (FALSE) };
values [ins->dreg] = call_intrins (ctx, iid, args, "");
break;
}
#endif
#if defined(TARGET_ARM64) || defined(TARGET_X86) || defined(TARGET_AMD64) || defined(TARGET_WASM)
case OP_XEQUAL: {
LLVMTypeRef t;
LLVMValueRef cmp, mask [MAX_VECTOR_ELEMS], shuffle;
int nelems;
#if defined(TARGET_WASM)
/* The wasm code generator doesn't understand the shuffle/and code sequence below */
LLVMValueRef val;
if (LLVMIsNull (lhs) || LLVMIsNull (rhs)) {
val = LLVMIsNull (lhs) ? rhs : lhs;
nelems = LLVMGetVectorSize (LLVMTypeOf (lhs));
IntrinsicId intrins = (IntrinsicId)0;
switch (nelems) {
case 16:
intrins = INTRINS_WASM_ANYTRUE_V16;
break;
case 8:
intrins = INTRINS_WASM_ANYTRUE_V8;
break;
case 4:
intrins = INTRINS_WASM_ANYTRUE_V4;
break;
case 2:
intrins = INTRINS_WASM_ANYTRUE_V2;
break;
default:
g_assert_not_reached ();
}
/* res = !wasm.anytrue (val) */
values [ins->dreg] = call_intrins (ctx, intrins, &val, "");
values [ins->dreg] = LLVMBuildZExt (builder, LLVMBuildICmp (builder, LLVMIntEQ, values [ins->dreg], LLVMConstInt (LLVMInt32Type (), 0, FALSE), ""), LLVMInt32Type (), dname);
break;
}
#endif
LLVMTypeRef srcelemt = LLVMGetElementType (LLVMTypeOf (lhs));
//%c = icmp sgt <16 x i8> %a0, %a1
if (srcelemt == LLVMDoubleType () || srcelemt == LLVMFloatType ())
cmp = LLVMBuildFCmp (builder, LLVMRealOEQ, lhs, rhs, "");
else
cmp = LLVMBuildICmp (builder, LLVMIntEQ, lhs, rhs, "");
nelems = LLVMGetVectorSize (LLVMTypeOf (cmp));
LLVMTypeRef elemt;
if (srcelemt == LLVMDoubleType ())
elemt = LLVMInt64Type ();
else if (srcelemt == LLVMFloatType ())
elemt = LLVMInt32Type ();
else
elemt = srcelemt;
t = LLVMVectorType (elemt, nelems);
cmp = LLVMBuildSExt (builder, cmp, t, "");
// cmp is a <nelems x elemt> vector, each element is either 0xff... or 0
int half = nelems / 2;
while (half >= 1) {
// AND the top and bottom halfes into the bottom half
for (int i = 0; i < half; ++i)
mask [i] = LLVMConstInt (LLVMInt32Type (), half + i, FALSE);
for (int i = half; i < nelems; ++i)
mask [i] = LLVMConstInt (LLVMInt32Type (), 0, FALSE);
shuffle = LLVMBuildShuffleVector (builder, cmp, LLVMGetUndef (t), LLVMConstVector (mask, LLVMGetVectorSize (t)), "");
cmp = LLVMBuildAnd (builder, cmp, shuffle, "");
half = half / 2;
}
// Extract [0]
LLVMValueRef first_elem = LLVMBuildExtractElement (builder, cmp, LLVMConstInt (LLVMInt32Type (), 0, FALSE), "");
// convert to 0/1
LLVMValueRef cmp_zero = LLVMBuildICmp (builder, LLVMIntNE, first_elem, LLVMConstInt (elemt, 0, FALSE), "");
values [ins->dreg] = LLVMBuildZExt (builder, cmp_zero, LLVMInt8Type (), "");
break;
}
#endif
#if defined(TARGET_ARM64)
case OP_XOP_I4_I4:
case OP_XOP_I8_I8: {
IntrinsicId id = (IntrinsicId)ins->inst_c0;
values [ins->dreg] = call_intrins (ctx, id, &lhs, "");
break;
}
case OP_XOP_X_X_X:
case OP_XOP_I4_I4_I4:
case OP_XOP_I4_I4_I8: {
IntrinsicId id = (IntrinsicId)ins->inst_c0;
gboolean zext_last = FALSE, bitcast_result = FALSE, getElement = FALSE;
int element_idx = -1;
switch (id) {
case INTRINS_AARCH64_PMULL64:
getElement = TRUE;
bitcast_result = TRUE;
element_idx = ins->inst_c1;
break;
case INTRINS_AARCH64_CRC32B:
case INTRINS_AARCH64_CRC32H:
case INTRINS_AARCH64_CRC32W:
case INTRINS_AARCH64_CRC32CB:
case INTRINS_AARCH64_CRC32CH:
case INTRINS_AARCH64_CRC32CW:
zext_last = TRUE;
break;
default:
break;
}
LLVMValueRef arg1 = rhs;
if (zext_last)
arg1 = LLVMBuildZExt (ctx->builder, arg1, LLVMInt32Type (), "");
LLVMValueRef args [] = { lhs, arg1 };
if (getElement) {
args [0] = LLVMBuildExtractElement (ctx->builder, args [0], const_int32 (element_idx), "");
args [1] = LLVMBuildExtractElement (ctx->builder, args [1], const_int32 (element_idx), "");
}
values [ins->dreg] = call_intrins (ctx, id, args, "");
if (bitcast_result)
values [ins->dreg] = convert (ctx, values [ins->dreg], LLVMVectorType (LLVMInt64Type (), 2));
break;
}
case OP_XOP_X_X_X_X: {
IntrinsicId id = (IntrinsicId)ins->inst_c0;
gboolean getLowerElement = FALSE;
int arg_idx = -1;
switch (id) {
case INTRINS_AARCH64_SHA1C:
case INTRINS_AARCH64_SHA1M:
case INTRINS_AARCH64_SHA1P:
getLowerElement = TRUE;
arg_idx = 1;
break;
default:
break;
}
LLVMValueRef args [] = { lhs, rhs, arg3 };
if (getLowerElement)
args [arg_idx] = LLVMBuildExtractElement (ctx->builder, args [arg_idx], const_int32 (0), "");
values [ins->dreg] = call_intrins (ctx, id, args, "");
break;
}
case OP_XOP_X_X: {
IntrinsicId id = (IntrinsicId)ins->inst_c0;
LLVMTypeRef ret_t = simd_class_to_llvm_type (ctx, ins->klass);
gboolean getLowerElement = FALSE;
switch (id) {
case INTRINS_AARCH64_SHA1H: getLowerElement = TRUE; break;
default: break;
}
LLVMValueRef arg0 = lhs;
if (getLowerElement)
arg0 = LLVMBuildExtractElement (ctx->builder, arg0, const_int32 (0), "");
LLVMValueRef result = call_intrins (ctx, id, &arg0, "");
if (getLowerElement)
result = vector_from_scalar (ctx, ret_t, result);
values [ins->dreg] = result;
break;
}
case OP_XCOMPARE_FP_SCALAR:
case OP_XCOMPARE_FP: {
g_assert (LLVMTypeOf (lhs) == LLVMTypeOf (rhs));
gboolean scalar = ins->opcode == OP_XCOMPARE_FP_SCALAR;
LLVMRealPredicate pred = fpcond_to_llvm_cond [ins->inst_c0];
LLVMTypeRef ret_t = LLVMTypeOf (lhs);
LLVMTypeRef reti_t = to_integral_vector_type (ret_t);
LLVMValueRef args [] = { lhs, rhs };
if (scalar)
for (int i = 0; i < 2; ++i)
args [i] = scalar_from_vector (ctx, args [i]);
LLVMValueRef result = LLVMBuildFCmp (builder, pred, args [0], args [1], "xcompare_fp");
if (scalar)
result = vector_from_scalar (ctx, LLVMVectorType (LLVMIntType (1), LLVMGetVectorSize (reti_t)), result);
result = LLVMBuildSExt (builder, result, reti_t, "");
result = LLVMBuildBitCast (builder, result, ret_t, "");
values [ins->dreg] = result;
break;
}
case OP_XCOMPARE_SCALAR:
case OP_XCOMPARE: {
g_assert (LLVMTypeOf (lhs) == LLVMTypeOf (rhs));
gboolean scalar = ins->opcode == OP_XCOMPARE_SCALAR;
LLVMIntPredicate pred = cond_to_llvm_cond [ins->inst_c0];
LLVMTypeRef ret_t = LLVMTypeOf (lhs);
LLVMValueRef args [] = { lhs, rhs };
if (scalar)
for (int i = 0; i < 2; ++i)
args [i] = scalar_from_vector (ctx, args [i]);
LLVMValueRef result = LLVMBuildICmp (builder, pred, args [0], args [1], "xcompare");
if (scalar)
result = vector_from_scalar (ctx, LLVMVectorType (LLVMIntType (1), LLVMGetVectorSize (ret_t)), result);
values [ins->dreg] = LLVMBuildSExt (builder, result, ret_t, "");
break;
}
case OP_ARM64_EXT: {
LLVMTypeRef ret_t = LLVMTypeOf (lhs);
unsigned int elems = LLVMGetVectorSize (ret_t);
g_assert (elems <= ARM64_MAX_VECTOR_ELEMS);
LLVMValueRef index = arg3;
LLVMValueRef default_value = lhs;
ImmediateUnrollCtx ictx = immediate_unroll_begin (ctx, bb, elems, index, ret_t, "arm64_ext");
int i = 0;
while (immediate_unroll_next (&ictx, &i)) {
LLVMValueRef mask = create_const_vector_i32 (&mask_0_incr_1 [i], elems);
LLVMValueRef result = LLVMBuildShuffleVector (builder, lhs, rhs, mask, "arm64_ext");
immediate_unroll_commit (&ictx, i, result);
}
immediate_unroll_default (&ictx);
immediate_unroll_commit_default (&ictx, default_value);
values [ins->dreg] = immediate_unroll_end (&ictx, &cbb);
break;
}
case OP_ARM64_MVN: {
LLVMTypeRef ret_t = LLVMTypeOf (lhs);
LLVMValueRef result = bitcast_to_integral (ctx, lhs);
result = LLVMBuildNot (builder, result, "arm64_mvn");
result = convert (ctx, result, ret_t);
values [ins->dreg] = result;
break;
}
case OP_ARM64_BIC: {
LLVMTypeRef ret_t = LLVMTypeOf (lhs);
LLVMValueRef result = bitcast_to_integral (ctx, lhs);
LLVMValueRef mask = bitcast_to_integral (ctx, rhs);
mask = LLVMBuildNot (builder, mask, "");
result = LLVMBuildAnd (builder, mask, result, "arm64_bic");
result = convert (ctx, result, ret_t);
values [ins->dreg] = result;
break;
}
case OP_ARM64_BSL: {
LLVMTypeRef ret_t = LLVMTypeOf (rhs);
LLVMValueRef select = bitcast_to_integral (ctx, lhs);
LLVMValueRef left = bitcast_to_integral (ctx, rhs);
LLVMValueRef right = bitcast_to_integral (ctx, arg3);
LLVMValueRef result1 = LLVMBuildAnd (builder, select, left, "arm64_bsl");
LLVMValueRef result2 = LLVMBuildAnd (builder, LLVMBuildNot (builder, select, ""), right, "");
LLVMValueRef result = LLVMBuildOr (builder, result1, result2, "");
result = convert (ctx, result, ret_t);
values [ins->dreg] = result;
break;
}
case OP_ARM64_CMTST: {
LLVMTypeRef ret_t = simd_class_to_llvm_type (ctx, ins->klass);
LLVMValueRef l = bitcast_to_integral (ctx, lhs);
LLVMValueRef r = bitcast_to_integral (ctx, rhs);
LLVMValueRef result = LLVMBuildAnd (builder, l, r, "arm64_cmtst");
LLVMTypeRef t = LLVMTypeOf (l);
result = LLVMBuildICmp (builder, LLVMIntNE, result, LLVMConstNull (t), "");
result = LLVMBuildSExt (builder, result, t, "");
result = convert (ctx, result, ret_t);
values [ins->dreg] = result;
break;
}
case OP_ARM64_FCVTL:
case OP_ARM64_FCVTL2: {
LLVMTypeRef ret_t = simd_class_to_llvm_type (ctx, ins->klass);
gboolean high = ins->opcode == OP_ARM64_FCVTL2;
LLVMValueRef result = lhs;
if (high)
result = extract_high_elements (ctx, result);
result = LLVMBuildFPExt (builder, result, ret_t, "arm64_fcvtl");
values [ins->dreg] = result;
break;
}
case OP_ARM64_FCVTXN:
case OP_ARM64_FCVTXN2:
case OP_ARM64_FCVTN:
case OP_ARM64_FCVTN2: {
gboolean high = FALSE;
int iid = 0;
switch (ins->opcode) {
case OP_ARM64_FCVTXN2: high = TRUE; case OP_ARM64_FCVTXN: iid = INTRINS_AARCH64_ADV_SIMD_FCVTXN; break;
case OP_ARM64_FCVTN2: high = TRUE; break;
}
LLVMValueRef result = lhs;
if (high)
result = rhs;
if (iid)
result = call_intrins (ctx, iid, &result, "");
else
result = LLVMBuildFPTrunc (builder, result, v64_r4_t, "");
if (high)
result = concatenate_vectors (ctx, lhs, result);
values [ins->dreg] = result;
break;
}
case OP_ARM64_UCVTF:
case OP_ARM64_SCVTF:
case OP_ARM64_UCVTF_SCALAR:
case OP_ARM64_SCVTF_SCALAR: {
LLVMTypeRef ret_t = simd_class_to_llvm_type (ctx, ins->klass);
gboolean scalar = FALSE;
gboolean is_unsigned = FALSE;
switch (ins->opcode) {
case OP_ARM64_UCVTF_SCALAR: scalar = TRUE; case OP_ARM64_UCVTF: is_unsigned = TRUE; break;
case OP_ARM64_SCVTF_SCALAR: scalar = TRUE; break;
}
LLVMValueRef result = lhs;
LLVMTypeRef cvt_t = ret_t;
if (scalar) {
result = scalar_from_vector (ctx, result);
cvt_t = LLVMGetElementType (ret_t);
}
if (is_unsigned)
result = LLVMBuildUIToFP (builder, result, cvt_t, "arm64_ucvtf");
else
result = LLVMBuildSIToFP (builder, result, cvt_t, "arm64_scvtf");
if (scalar)
result = vector_from_scalar (ctx, ret_t, result);
values [ins->dreg] = result;
break;
}
case OP_ARM64_FCVTZS:
case OP_ARM64_FCVTZS_SCALAR:
case OP_ARM64_FCVTZU:
case OP_ARM64_FCVTZU_SCALAR: {
LLVMTypeRef ret_t = simd_class_to_llvm_type (ctx, ins->klass);
gboolean scalar = FALSE;
gboolean is_unsigned = FALSE;
switch (ins->opcode) {
case OP_ARM64_FCVTZU_SCALAR: scalar = TRUE; case OP_ARM64_FCVTZU: is_unsigned = TRUE; break;
case OP_ARM64_FCVTZS_SCALAR: scalar = TRUE; break;
}
LLVMValueRef result = lhs;
LLVMTypeRef cvt_t = ret_t;
if (scalar) {
result = scalar_from_vector (ctx, result);
cvt_t = LLVMGetElementType (ret_t);
}
if (is_unsigned)
result = LLVMBuildFPToUI (builder, result, cvt_t, "arm64_fcvtzu");
else
result = LLVMBuildFPToSI (builder, result, cvt_t, "arm64_fcvtzs");
if (scalar)
result = vector_from_scalar (ctx, ret_t, result);
values [ins->dreg] = result;
break;
}
case OP_ARM64_SELECT_SCALAR: {
LLVMValueRef result = LLVMBuildExtractElement (builder, lhs, rhs, "");
LLVMTypeRef elem_t = LLVMTypeOf (result);
unsigned int elem_bits = mono_llvm_get_prim_size_bits (elem_t);
LLVMTypeRef t = LLVMVectorType (elem_t, 64 / elem_bits);
result = vector_from_scalar (ctx, t, result);
values [ins->dreg] = result;
break;
}
case OP_ARM64_SELECT_QUAD: {
LLVMTypeRef src_type = simd_class_to_llvm_type (ctx, ins->data.op [1].klass);
LLVMTypeRef ret_type = simd_class_to_llvm_type (ctx, ins->klass);
unsigned int src_type_bits = mono_llvm_get_prim_size_bits (src_type);
unsigned int ret_type_bits = mono_llvm_get_prim_size_bits (ret_type);
unsigned int src_intermediate_elems = src_type_bits / 32;
unsigned int ret_intermediate_elems = ret_type_bits / 32;
LLVMTypeRef intermediate_type = LLVMVectorType (i4_t, src_intermediate_elems);
LLVMValueRef result = LLVMBuildBitCast (builder, lhs, intermediate_type, "arm64_select_quad");
result = LLVMBuildExtractElement (builder, result, rhs, "arm64_select_quad");
result = broadcast_element (ctx, result, ret_intermediate_elems);
result = LLVMBuildBitCast (builder, result, ret_type, "arm64_select_quad");
values [ins->dreg] = result;
break;
}
case OP_LSCNT32:
case OP_LSCNT64: {
// %shr = ashr i32 %x, 31
// %xor = xor i32 %shr, %x
// %mul = shl i32 %xor, 1
// %add = or i32 %mul, 1
// %0 = tail call i32 @llvm.ctlz.i32(i32 %add, i1 false)
LLVMValueRef shr = LLVMBuildAShr (builder, lhs, ins->opcode == OP_LSCNT32 ?
LLVMConstInt (LLVMInt32Type (), 31, FALSE) :
LLVMConstInt (LLVMInt64Type (), 63, FALSE), "");
LLVMValueRef one = ins->opcode == OP_LSCNT32 ?
LLVMConstInt (LLVMInt32Type (), 1, FALSE) :
LLVMConstInt (LLVMInt64Type (), 1, FALSE);
LLVMValueRef xor = LLVMBuildXor (builder, shr, lhs, "");
LLVMValueRef mul = LLVMBuildShl (builder, xor, one, "");
LLVMValueRef add = LLVMBuildOr (builder, mul, one, "");
LLVMValueRef args [2];
args [0] = add;
args [1] = LLVMConstInt (LLVMInt1Type (), 0, FALSE);
values [ins->dreg] = LLVMBuildCall (builder, get_intrins (ctx, ins->opcode == OP_LSCNT32 ? INTRINS_CTLZ_I32 : INTRINS_CTLZ_I64), args, 2, "");
break;
}
case OP_ARM64_SQRDMLAH:
case OP_ARM64_SQRDMLAH_BYSCALAR:
case OP_ARM64_SQRDMLAH_SCALAR:
case OP_ARM64_SQRDMLSH:
case OP_ARM64_SQRDMLSH_BYSCALAR:
case OP_ARM64_SQRDMLSH_SCALAR: {
gboolean byscalar = FALSE;
gboolean scalar = FALSE;
gboolean subtract = FALSE;
switch (ins->opcode) {
case OP_ARM64_SQRDMLAH_BYSCALAR: byscalar = TRUE; break;
case OP_ARM64_SQRDMLAH_SCALAR: scalar = TRUE; break;
case OP_ARM64_SQRDMLSH: subtract = TRUE; break;
case OP_ARM64_SQRDMLSH_BYSCALAR: subtract = TRUE; byscalar = TRUE; break;
case OP_ARM64_SQRDMLSH_SCALAR: subtract = TRUE; scalar = TRUE; break;
}
int acc_iid = subtract ? INTRINS_AARCH64_ADV_SIMD_SQSUB : INTRINS_AARCH64_ADV_SIMD_SQADD;
LLVMTypeRef ret_t = simd_class_to_llvm_type (ctx, ins->klass);
llvm_ovr_tag_t ovr_tag = ovr_tag_from_llvm_type (ret_t);
ScalarOpFromVectorOpCtx sctx = scalar_op_from_vector_op (ctx, ret_t, ins);
LLVMValueRef args [] = { lhs, rhs, arg3 };
if (byscalar) {
unsigned int elems = LLVMGetVectorSize (ret_t);
args [2] = broadcast_element (ctx, scalar_from_vector (ctx, args [2]), elems);
}
if (scalar) {
ovr_tag = sctx.ovr_tag;
scalar_op_from_vector_op_process_args (&sctx, args, 3);
}
LLVMValueRef result = call_overloaded_intrins (ctx, INTRINS_AARCH64_ADV_SIMD_SQRDMULH, ovr_tag, &args [1], "arm64_sqrdmlxh");
args [1] = result;
result = call_overloaded_intrins (ctx, acc_iid, ovr_tag, &args [0], "arm64_sqrdmlxh");
if (scalar)
result = scalar_op_from_vector_op_process_result (&sctx, result);
values [ins->dreg] = result;
break;
}
case OP_ARM64_SMULH:
case OP_ARM64_UMULH: {
LLVMValueRef op1, op2;
if (ins->opcode == OP_ARM64_SMULH) {
op1 = LLVMBuildSExt (builder, lhs, LLVMInt128Type (), "");
op2 = LLVMBuildSExt (builder, rhs, LLVMInt128Type (), "");
} else {
op1 = LLVMBuildZExt (builder, lhs, LLVMInt128Type (), "");
op2 = LLVMBuildZExt (builder, rhs, LLVMInt128Type (), "");
}
LLVMValueRef mul = LLVMBuildMul (builder, op1, op2, "");
LLVMValueRef hi64 = LLVMBuildLShr (builder, mul,
LLVMConstInt (LLVMInt128Type (), 64, FALSE), "");
values [ins->dreg] = LLVMBuildTrunc (builder, hi64, LLVMInt64Type (), "");
break;
}
case OP_ARM64_XNARROW_SCALAR: {
// Unfortunately, @llvm.aarch64.neon.scalar.sqxtun isn't available for i8 or i16.
LLVMTypeRef ret_t = simd_class_to_llvm_type (ctx, ins->klass);
llvm_ovr_tag_t ovr_tag = ovr_tag_from_llvm_type (ret_t);
LLVMTypeRef elem_t = LLVMGetElementType (ret_t);
LLVMValueRef result = NULL;
int iid = ins->inst_c0;
int scalar_iid = 0;
switch (iid) {
case INTRINS_AARCH64_ADV_SIMD_SQXTUN: scalar_iid = INTRINS_AARCH64_ADV_SIMD_SCALAR_SQXTUN; break;
case INTRINS_AARCH64_ADV_SIMD_SQXTN: scalar_iid = INTRINS_AARCH64_ADV_SIMD_SCALAR_SQXTN; break;
case INTRINS_AARCH64_ADV_SIMD_UQXTN: scalar_iid = INTRINS_AARCH64_ADV_SIMD_SCALAR_UQXTN; break;
default: g_assert_not_reached ();
}
if (elem_t == i4_t) {
LLVMValueRef arg = scalar_from_vector (ctx, lhs);
result = call_intrins (ctx, scalar_iid, &arg, "arm64_xnarrow_scalar");
result = vector_from_scalar (ctx, ret_t, result);
} else {
LLVMTypeRef arg_t = LLVMTypeOf (lhs);
LLVMTypeRef argelem_t = LLVMGetElementType (arg_t);
unsigned int argelems = LLVMGetVectorSize (arg_t);
LLVMValueRef arg = keep_lowest_element (ctx, LLVMVectorType (argelem_t, argelems * 2), lhs);
result = call_overloaded_intrins (ctx, iid, ovr_tag, &arg, "arm64_xnarrow_scalar");
result = keep_lowest_element (ctx, LLVMTypeOf (result), result);
}
values [ins->dreg] = result;
break;
}
case OP_ARM64_SQXTUN2:
case OP_ARM64_UQXTN2:
case OP_ARM64_SQXTN2:
case OP_ARM64_XTN:
case OP_ARM64_XTN2: {
llvm_ovr_tag_t ovr_tag = ovr_tag_from_mono_vector_class (ins->klass);
gboolean high = FALSE;
int iid = 0;
switch (ins->opcode) {
case OP_ARM64_SQXTUN2: high = TRUE; iid = INTRINS_AARCH64_ADV_SIMD_SQXTUN; break;
case OP_ARM64_UQXTN2: high = TRUE; iid = INTRINS_AARCH64_ADV_SIMD_UQXTN; break;
case OP_ARM64_SQXTN2: high = TRUE; iid = INTRINS_AARCH64_ADV_SIMD_SQXTN; break;
case OP_ARM64_XTN2: high = TRUE; break;
}
LLVMValueRef result = lhs;
if (high) {
result = rhs;
ovr_tag = ovr_tag_smaller_vector (ovr_tag);
}
LLVMTypeRef t = LLVMTypeOf (result);
LLVMTypeRef elem_t = LLVMGetElementType (t);
unsigned int elems = LLVMGetVectorSize (t);
unsigned int elem_bits = mono_llvm_get_prim_size_bits (elem_t);
LLVMTypeRef result_t = LLVMVectorType (LLVMIntType (elem_bits / 2), elems);
if (iid != 0)
result = call_overloaded_intrins (ctx, iid, ovr_tag, &result, "");
else
result = LLVMBuildTrunc (builder, result, result_t, "arm64_xtn");
if (high)
result = concatenate_vectors (ctx, lhs, result);
values [ins->dreg] = result;
break;
}
case OP_ARM64_CLZ: {
llvm_ovr_tag_t ovr_tag = ovr_tag_from_mono_vector_class (ins->klass);
LLVMValueRef args [] = { lhs, const_int1 (0) };
LLVMValueRef result = call_overloaded_intrins (ctx, INTRINS_AARCH64_ADV_SIMD_CLZ, ovr_tag, args, "");
values [ins->dreg] = result;
break;
}
case OP_ARM64_FMSUB:
case OP_ARM64_FMSUB_BYSCALAR:
case OP_ARM64_FMSUB_SCALAR:
case OP_ARM64_FNMSUB_SCALAR:
case OP_ARM64_FMADD:
case OP_ARM64_FMADD_BYSCALAR:
case OP_ARM64_FMADD_SCALAR:
case OP_ARM64_FNMADD_SCALAR: {
llvm_ovr_tag_t ovr_tag = ovr_tag_from_mono_vector_class (ins->klass);
gboolean scalar = FALSE;
gboolean negate = FALSE;
gboolean subtract = FALSE;
gboolean byscalar = FALSE;
switch (ins->opcode) {
case OP_ARM64_FMSUB: subtract = TRUE; break;
case OP_ARM64_FMSUB_BYSCALAR: subtract = TRUE; byscalar = TRUE; break;
case OP_ARM64_FMSUB_SCALAR: subtract = TRUE; scalar = TRUE; break;
case OP_ARM64_FNMSUB_SCALAR: subtract = TRUE; scalar = TRUE; negate = TRUE; break;
case OP_ARM64_FMADD: break;
case OP_ARM64_FMADD_BYSCALAR: byscalar = TRUE; break;
case OP_ARM64_FMADD_SCALAR: scalar = TRUE; break;
case OP_ARM64_FNMADD_SCALAR: scalar = TRUE; negate = TRUE; break;
}
// llvm.fma argument order: mulop1, mulop2, addend
LLVMValueRef args [] = { rhs, arg3, lhs };
if (byscalar) {
unsigned int elems = LLVMGetVectorSize (LLVMTypeOf (args [0]));
args [1] = broadcast_element (ctx, scalar_from_vector (ctx, args [1]), elems);
}
if (scalar) {
ovr_tag = ovr_tag_force_scalar (ovr_tag);
for (int i = 0; i < 3; ++i)
args [i] = scalar_from_vector (ctx, args [i]);
}
if (subtract)
args [0] = LLVMBuildFNeg (builder, args [0], "arm64_fma_sub");
if (negate) {
args [0] = LLVMBuildFNeg (builder, args [0], "arm64_fma_negate");
args [2] = LLVMBuildFNeg (builder, args [2], "arm64_fma_negate");
}
LLVMValueRef result = call_overloaded_intrins (ctx, INTRINS_AARCH64_ADV_SIMD_FMA, ovr_tag, args, "arm64_fma");
if (scalar)
result = vector_from_scalar (ctx, LLVMTypeOf (lhs), result);
values [ins->dreg] = result;
break;
}
case OP_ARM64_SQDMULL:
case OP_ARM64_SQDMULL_BYSCALAR:
case OP_ARM64_SQDMULL2:
case OP_ARM64_SQDMULL2_BYSCALAR:
case OP_ARM64_SQDMLAL:
case OP_ARM64_SQDMLAL_BYSCALAR:
case OP_ARM64_SQDMLAL2:
case OP_ARM64_SQDMLAL2_BYSCALAR:
case OP_ARM64_SQDMLSL:
case OP_ARM64_SQDMLSL_BYSCALAR:
case OP_ARM64_SQDMLSL2:
case OP_ARM64_SQDMLSL2_BYSCALAR: {
llvm_ovr_tag_t ovr_tag = ovr_tag_from_mono_vector_class (ins->klass);
gboolean scalar = FALSE;
gboolean add = FALSE;
gboolean subtract = FALSE;
gboolean high = FALSE;
switch (ins->opcode) {
case OP_ARM64_SQDMULL_BYSCALAR: scalar = TRUE; case OP_ARM64_SQDMULL: break;
case OP_ARM64_SQDMULL2_BYSCALAR: scalar = TRUE; case OP_ARM64_SQDMULL2: high = TRUE; break;
case OP_ARM64_SQDMLAL_BYSCALAR: scalar = TRUE; case OP_ARM64_SQDMLAL: add = TRUE; break;
case OP_ARM64_SQDMLAL2_BYSCALAR: scalar = TRUE; case OP_ARM64_SQDMLAL2: high = TRUE; add = TRUE; break;
case OP_ARM64_SQDMLSL_BYSCALAR: scalar = TRUE; case OP_ARM64_SQDMLSL: subtract = TRUE; break;
case OP_ARM64_SQDMLSL2_BYSCALAR: scalar = TRUE; case OP_ARM64_SQDMLSL2: high = TRUE; subtract = TRUE; break;
}
int iid = 0;
if (add)
iid = INTRINS_AARCH64_ADV_SIMD_SQADD;
else if (subtract)
iid = INTRINS_AARCH64_ADV_SIMD_SQSUB;
LLVMValueRef mul1 = lhs;
LLVMValueRef mul2 = rhs;
if (iid != 0) {
mul1 = rhs;
mul2 = arg3;
}
if (scalar) {
LLVMTypeRef t = LLVMTypeOf (mul1);
unsigned int elems = LLVMGetVectorSize (t);
mul2 = broadcast_element (ctx, scalar_from_vector (ctx, mul2), elems);
}
LLVMValueRef args [] = { mul1, mul2 };
if (high)
for (int i = 0; i < 2; ++i)
args [i] = extract_high_elements (ctx, args [i]);
LLVMValueRef result = call_overloaded_intrins (ctx, INTRINS_AARCH64_ADV_SIMD_SQDMULL, ovr_tag, args, "");
LLVMValueRef args2 [] = { lhs, result };
if (iid != 0)
result = call_overloaded_intrins (ctx, iid, ovr_tag, args2, "");
values [ins->dreg] = result;
break;
}
case OP_ARM64_SQDMULL_SCALAR:
case OP_ARM64_SQDMLAL_SCALAR:
case OP_ARM64_SQDMLSL_SCALAR: {
/*
* define dso_local i32 @__vqdmlslh_lane_s16(i32, i16, <4 x i16>, i32) local_unnamed_addr #0 {
* %5 = insertelement <4 x i16> undef, i16 %1, i64 0
* %6 = shufflevector <4 x i16> %2, <4 x i16> undef, <4 x i32> <i32 3, i32 undef, i32 undef, i32 undef>
* %7 = tail call <4 x i32> @llvm.aarch64.neon.sqdmull.v4i32(<4 x i16> %5, <4 x i16> %6)
* %8 = extractelement <4 x i32> %7, i64 0
* %9 = tail call i32 @llvm.aarch64.neon.sqsub.i32(i32 %0, i32 %8)
* ret i32 %9
* }
*
* define dso_local i64 @__vqdmlals_s32(i64, i32, i32) local_unnamed_addr #0 {
* %4 = tail call i64 @llvm.aarch64.neon.sqdmulls.scalar(i32 %1, i32 %2) #2
* %5 = tail call i64 @llvm.aarch64.neon.sqadd.i64(i64 %0, i64 %4) #2
* ret i64 %5
* }
*/
int mulid = INTRINS_AARCH64_ADV_SIMD_SQDMULL;
int iid = 0;
gboolean scalar_mul_result = FALSE;
gboolean scalar_acc_result = FALSE;
switch (ins->opcode) {
case OP_ARM64_SQDMLAL_SCALAR: iid = INTRINS_AARCH64_ADV_SIMD_SQADD; break;
case OP_ARM64_SQDMLSL_SCALAR: iid = INTRINS_AARCH64_ADV_SIMD_SQSUB; break;
}
LLVMTypeRef ret_t = simd_class_to_llvm_type (ctx, ins->klass);
LLVMValueRef mularg = lhs;
LLVMValueRef selected_scalar = rhs;
if (iid != 0) {
mularg = rhs;
selected_scalar = arg3;
}
llvm_ovr_tag_t multag = ovr_tag_smaller_elements (ovr_tag_from_llvm_type (ret_t));
llvm_ovr_tag_t iidtag = ovr_tag_force_scalar (ovr_tag_from_llvm_type (ret_t));
LLVMTypeRef mularg_t = ovr_tag_to_llvm_type (multag);
if (multag & INTRIN_int32) {
/* The (i32, i32) -> i64 variant of aarch64_neon_sqdmull has
* a unique, non-overloaded name.
*/
mulid = INTRINS_AARCH64_ADV_SIMD_SQDMULL_SCALAR;
multag = 0;
iidtag = INTRIN_int64 | INTRIN_scalar;
scalar_mul_result = TRUE;
scalar_acc_result = TRUE;
} else if (multag & INTRIN_int16) {
/* We were passed a (<4 x i16>, <4 x i16>) but the
* widening multiplication intrinsic will yield a <4 x i32>.
*/
multag = INTRIN_int32 | INTRIN_vector128;
} else
g_assert_not_reached ();
if (scalar_mul_result) {
mularg = scalar_from_vector (ctx, mularg);
selected_scalar = scalar_from_vector (ctx, selected_scalar);
} else {
mularg = keep_lowest_element (ctx, mularg_t, mularg);
selected_scalar = keep_lowest_element (ctx, mularg_t, selected_scalar);
}
LLVMValueRef mulargs [] = { mularg, selected_scalar };
LLVMValueRef result = call_overloaded_intrins (ctx, mulid, multag, mulargs, "arm64_sqdmull_scalar");
if (iid != 0) {
LLVMValueRef acc = scalar_from_vector (ctx, lhs);
if (!scalar_mul_result)
result = scalar_from_vector (ctx, result);
LLVMValueRef subargs [] = { acc, result };
result = call_overloaded_intrins (ctx, iid, iidtag, subargs, "arm64_sqdmlxl_scalar");
scalar_acc_result = TRUE;
}
if (scalar_acc_result)
result = vector_from_scalar (ctx, ret_t, result);
else
result = keep_lowest_element (ctx, ret_t, result);
values [ins->dreg] = result;
break;
}
case OP_ARM64_FMUL_SEL: {
LLVMValueRef mul2 = LLVMBuildExtractElement (builder, rhs, arg3, "");
LLVMValueRef mul1 = scalar_from_vector (ctx, lhs);
LLVMValueRef result = LLVMBuildFMul (builder, mul1, mul2, "arm64_fmul_sel");
result = vector_from_scalar (ctx, LLVMTypeOf (lhs), result);
values [ins->dreg] = result;
break;
}
case OP_ARM64_MLA:
case OP_ARM64_MLA_SCALAR:
case OP_ARM64_MLS:
case OP_ARM64_MLS_SCALAR: {
gboolean scalar = FALSE;
gboolean add = FALSE;
switch (ins->opcode) {
case OP_ARM64_MLA_SCALAR: scalar = TRUE; case OP_ARM64_MLA: add = TRUE; break;
case OP_ARM64_MLS_SCALAR: scalar = TRUE; case OP_ARM64_MLS: break;
}
LLVMTypeRef mul_t = LLVMTypeOf (rhs);
unsigned int elems = LLVMGetVectorSize (mul_t);
LLVMValueRef mul2 = arg3;
if (scalar)
mul2 = broadcast_element (ctx, scalar_from_vector (ctx, mul2), elems);
LLVMValueRef result = LLVMBuildMul (builder, rhs, mul2, "");
if (add)
result = LLVMBuildAdd (builder, lhs, result, "");
else
result = LLVMBuildSub (builder, lhs, result, "");
values [ins->dreg] = result;
break;
}
case OP_ARM64_SMULL:
case OP_ARM64_SMULL_SCALAR:
case OP_ARM64_SMULL2:
case OP_ARM64_SMULL2_SCALAR:
case OP_ARM64_UMULL:
case OP_ARM64_UMULL_SCALAR:
case OP_ARM64_UMULL2:
case OP_ARM64_UMULL2_SCALAR:
case OP_ARM64_SMLAL:
case OP_ARM64_SMLAL_SCALAR:
case OP_ARM64_SMLAL2:
case OP_ARM64_SMLAL2_SCALAR:
case OP_ARM64_UMLAL:
case OP_ARM64_UMLAL_SCALAR:
case OP_ARM64_UMLAL2:
case OP_ARM64_UMLAL2_SCALAR:
case OP_ARM64_SMLSL:
case OP_ARM64_SMLSL_SCALAR:
case OP_ARM64_SMLSL2:
case OP_ARM64_SMLSL2_SCALAR:
case OP_ARM64_UMLSL:
case OP_ARM64_UMLSL_SCALAR:
case OP_ARM64_UMLSL2:
case OP_ARM64_UMLSL2_SCALAR: {
llvm_ovr_tag_t ovr_tag = ovr_tag_from_mono_vector_class (ins->klass);
gboolean is_unsigned = FALSE;
gboolean high = FALSE;
gboolean add = FALSE;
gboolean subtract = FALSE;
gboolean scalar = FALSE;
int opcode = ins->opcode;
switch (opcode) {
case OP_ARM64_SMULL_SCALAR: scalar = TRUE; opcode = OP_ARM64_SMULL; break;
case OP_ARM64_UMULL_SCALAR: scalar = TRUE; opcode = OP_ARM64_UMULL; break;
case OP_ARM64_SMLAL_SCALAR: scalar = TRUE; opcode = OP_ARM64_SMLAL; break;
case OP_ARM64_UMLAL_SCALAR: scalar = TRUE; opcode = OP_ARM64_UMLAL; break;
case OP_ARM64_SMLSL_SCALAR: scalar = TRUE; opcode = OP_ARM64_SMLSL; break;
case OP_ARM64_UMLSL_SCALAR: scalar = TRUE; opcode = OP_ARM64_UMLSL; break;
case OP_ARM64_SMULL2_SCALAR: scalar = TRUE; opcode = OP_ARM64_SMULL2; break;
case OP_ARM64_UMULL2_SCALAR: scalar = TRUE; opcode = OP_ARM64_UMULL2; break;
case OP_ARM64_SMLAL2_SCALAR: scalar = TRUE; opcode = OP_ARM64_SMLAL2; break;
case OP_ARM64_UMLAL2_SCALAR: scalar = TRUE; opcode = OP_ARM64_UMLAL2; break;
case OP_ARM64_SMLSL2_SCALAR: scalar = TRUE; opcode = OP_ARM64_SMLSL2; break;
case OP_ARM64_UMLSL2_SCALAR: scalar = TRUE; opcode = OP_ARM64_UMLSL2; break;
}
switch (opcode) {
case OP_ARM64_SMULL2: high = TRUE; case OP_ARM64_SMULL: break;
case OP_ARM64_UMULL2: high = TRUE; case OP_ARM64_UMULL: is_unsigned = TRUE; break;
case OP_ARM64_SMLAL2: high = TRUE; case OP_ARM64_SMLAL: add = TRUE; break;
case OP_ARM64_UMLAL2: high = TRUE; case OP_ARM64_UMLAL: add = TRUE; is_unsigned = TRUE; break;
case OP_ARM64_SMLSL2: high = TRUE; case OP_ARM64_SMLSL: subtract = TRUE; break;
case OP_ARM64_UMLSL2: high = TRUE; case OP_ARM64_UMLSL: subtract = TRUE; is_unsigned = TRUE; break;
}
int iid = is_unsigned ? INTRINS_AARCH64_ADV_SIMD_UMULL : INTRINS_AARCH64_ADV_SIMD_SMULL;
LLVMValueRef intrin_args [] = { lhs, rhs };
if (add || subtract) {
intrin_args [0] = rhs;
intrin_args [1] = arg3;
}
if (scalar) {
LLVMValueRef sarg = intrin_args [1];
LLVMTypeRef t = LLVMTypeOf (intrin_args [0]);
unsigned int elems = LLVMGetVectorSize (t);
sarg = broadcast_element (ctx, scalar_from_vector (ctx, sarg), elems);
intrin_args [1] = sarg;
}
if (high)
for (int i = 0; i < 2; ++i)
intrin_args [i] = extract_high_elements (ctx, intrin_args [i]);
LLVMValueRef result = call_overloaded_intrins (ctx, iid, ovr_tag, intrin_args, "");
if (add)
result = LLVMBuildAdd (builder, lhs, result, "");
if (subtract)
result = LLVMBuildSub (builder, lhs, result, "");
values [ins->dreg] = result;
break;
}
case OP_ARM64_XNEG:
case OP_ARM64_XNEG_SCALAR: {
gboolean scalar = ins->opcode == OP_ARM64_XNEG_SCALAR;
gboolean is_float = FALSE;
switch (inst_c1_type (ins)) {
case MONO_TYPE_R4: case MONO_TYPE_R8: is_float = TRUE;
}
LLVMValueRef result = lhs;
if (scalar)
result = scalar_from_vector (ctx, result);
if (is_float)
result = LLVMBuildFNeg (builder, result, "arm64_xneg");
else
result = LLVMBuildNeg (builder, result, "arm64_xneg");
if (scalar)
result = vector_from_scalar (ctx, LLVMTypeOf (lhs), result);
values [ins->dreg] = result;
break;
}
case OP_ARM64_PMULL:
case OP_ARM64_PMULL2: {
gboolean high = ins->opcode == OP_ARM64_PMULL2;
LLVMValueRef args [] = { lhs, rhs };
if (high)
for (int i = 0; i < 2; ++i)
args [i] = extract_high_elements (ctx, args [i]);
LLVMValueRef result = call_intrins (ctx, INTRINS_AARCH64_ADV_SIMD_PMULL, args, "arm64_pmull");
values [ins->dreg] = result;
break;
}
case OP_ARM64_REVN: {
LLVMTypeRef t = LLVMTypeOf (lhs);
LLVMTypeRef elem_t = LLVMGetElementType (t);
unsigned int group_bits = mono_llvm_get_prim_size_bits (elem_t);
unsigned int vec_bits = mono_llvm_get_prim_size_bits (t);
unsigned int tmp_bits = ins->inst_c0;
unsigned int tmp_elements = vec_bits / tmp_bits;
const int cycle8 [] = { 7, 6, 5, 4, 3, 2, 1, 0, 15, 14, 13, 12, 11, 10, 9, 8 };
const int cycle4 [] = { 3, 2, 1, 0, 7, 6, 5, 4, 11, 10, 9, 8, 15, 14, 13, 12 };
const int cycle2 [] = { 1, 0, 3, 2, 5, 4, 7, 6, 9, 8, 11, 10, 13, 12, 15, 14 };
const int *cycle = NULL;
switch (group_bits / tmp_bits) {
case 2: cycle = cycle2; break;
case 4: cycle = cycle4; break;
case 8: cycle = cycle8; break;
default: g_assert_not_reached ();
}
g_assert (tmp_elements <= ARM64_MAX_VECTOR_ELEMS);
LLVMTypeRef tmp_t = LLVMVectorType (LLVMIntType (tmp_bits), tmp_elements);
LLVMValueRef tmp = LLVMBuildBitCast (builder, lhs, tmp_t, "arm64_revn");
LLVMValueRef result = LLVMBuildShuffleVector (builder, tmp, LLVMGetUndef (tmp_t), create_const_vector_i32 (cycle, tmp_elements), "");
result = LLVMBuildBitCast (builder, result, t, "");
values [ins->dreg] = result;
break;
}
case OP_ARM64_SHL:
case OP_ARM64_SSHR:
case OP_ARM64_SSRA:
case OP_ARM64_USHR:
case OP_ARM64_USRA: {
gboolean right = FALSE;
gboolean add = FALSE;
gboolean arith = FALSE;
switch (ins->opcode) {
case OP_ARM64_USHR: right = TRUE; break;
case OP_ARM64_USRA: right = TRUE; add = TRUE; break;
case OP_ARM64_SSHR: arith = TRUE; break;
case OP_ARM64_SSRA: arith = TRUE; add = TRUE; break;
}
LLVMValueRef shiftarg = lhs;
LLVMValueRef shift = rhs;
if (add) {
shiftarg = rhs;
shift = arg3;
}
shift = create_shift_vector (ctx, shiftarg, shift);
LLVMValueRef result = NULL;
if (right)
result = LLVMBuildLShr (builder, shiftarg, shift, "");
else if (arith)
result = LLVMBuildAShr (builder, shiftarg, shift, "");
else
result = LLVMBuildShl (builder, shiftarg, shift, "");
if (add)
result = LLVMBuildAdd (builder, lhs, result, "arm64_usra");
values [ins->dreg] = result;
break;
}
case OP_ARM64_SHRN:
case OP_ARM64_SHRN2: {
LLVMValueRef shiftarg = lhs;
LLVMValueRef shift = rhs;
gboolean high = ins->opcode == OP_ARM64_SHRN2;
if (high) {
shiftarg = rhs;
shift = arg3;
}
LLVMTypeRef arg_t = LLVMTypeOf (shiftarg);
LLVMTypeRef elem_t = LLVMGetElementType (arg_t);
unsigned int elems = LLVMGetVectorSize (arg_t);
unsigned int bits = mono_llvm_get_prim_size_bits (elem_t);
LLVMTypeRef trunc_t = LLVMVectorType (LLVMIntType (bits / 2), elems);
shift = create_shift_vector (ctx, shiftarg, shift);
LLVMValueRef result = LLVMBuildLShr (builder, shiftarg, shift, "shrn");
result = LLVMBuildTrunc (builder, result, trunc_t, "");
if (high) {
result = concatenate_vectors (ctx, lhs, result);
}
values [ins->dreg] = result;
break;
}
case OP_ARM64_SRSHR:
case OP_ARM64_SRSRA:
case OP_ARM64_URSHR:
case OP_ARM64_URSRA: {
llvm_ovr_tag_t ovr_tag = ovr_tag_from_mono_vector_class (ins->klass);
LLVMValueRef shiftarg = lhs;
LLVMValueRef shift = rhs;
gboolean right = FALSE;
gboolean add = FALSE;
switch (ins->opcode) {
case OP_ARM64_URSRA: add = TRUE; case OP_ARM64_URSHR: right = TRUE; break;
case OP_ARM64_SRSRA: add = TRUE; case OP_ARM64_SRSHR: right = TRUE; break;
}
int iid = 0;
switch (ins->opcode) {
case OP_ARM64_URSRA: case OP_ARM64_URSHR: iid = INTRINS_AARCH64_ADV_SIMD_URSHL; break;
case OP_ARM64_SRSRA: case OP_ARM64_SRSHR: iid = INTRINS_AARCH64_ADV_SIMD_SRSHL; break;
}
if (add) {
shiftarg = rhs;
shift = arg3;
}
if (right)
shift = LLVMBuildNeg (builder, shift, "");
shift = create_shift_vector (ctx, shiftarg, shift);
LLVMValueRef args [] = { shiftarg, shift };
LLVMValueRef result = call_overloaded_intrins (ctx, iid, ovr_tag, args, "");
if (add)
result = LLVMBuildAdd (builder, result, lhs, "");
values [ins->dreg] = result;
break;
}
case OP_ARM64_XNSHIFT_SCALAR:
case OP_ARM64_XNSHIFT:
case OP_ARM64_XNSHIFT2: {
LLVMTypeRef intrin_result_t = simd_class_to_llvm_type (ctx, ins->klass);
llvm_ovr_tag_t ovr_tag = ovr_tag_from_llvm_type (intrin_result_t);
LLVMValueRef shift_arg = lhs;
LLVMValueRef shift_amount = rhs;
gboolean high = FALSE;
gboolean scalar = FALSE;
int iid = ins->inst_c0;
switch (ins->opcode) {
case OP_ARM64_XNSHIFT_SCALAR: scalar = TRUE; break;
case OP_ARM64_XNSHIFT2: high = TRUE; break;
}
if (high) {
shift_arg = rhs;
shift_amount = arg3;
ovr_tag = ovr_tag_smaller_vector (ovr_tag);
intrin_result_t = ovr_tag_to_llvm_type (ovr_tag);
}
LLVMTypeRef shift_arg_t = LLVMTypeOf (shift_arg);
LLVMTypeRef shift_arg_elem_t = LLVMGetElementType (shift_arg_t);
unsigned int element_bits = mono_llvm_get_prim_size_bits (shift_arg_elem_t);
int range_min = 1;
int range_max = element_bits / 2;
if (scalar) {
unsigned int elems = LLVMGetVectorSize (shift_arg_t);
LLVMValueRef lo = scalar_from_vector (ctx, shift_arg);
shift_arg = vector_from_scalar (ctx, LLVMVectorType (shift_arg_elem_t, elems * 2), lo);
}
int max_index = range_max - range_min + 1;
ImmediateUnrollCtx ictx = immediate_unroll_begin (ctx, bb, max_index, shift_amount, intrin_result_t, "arm64_xnshift");
int i = 0;
while (immediate_unroll_next (&ictx, &i)) {
int shift_const = i + range_min;
LLVMValueRef intrin_args [] = { shift_arg, const_int32 (shift_const) };
LLVMValueRef result = call_overloaded_intrins (ctx, iid, ovr_tag, intrin_args, "");
immediate_unroll_commit (&ictx, shift_const, result);
}
{
immediate_unroll_default (&ictx);
LLVMValueRef intrin_args [] = { shift_arg, const_int32 (range_max) };
LLVMValueRef result = call_overloaded_intrins (ctx, iid, ovr_tag, intrin_args, "");
immediate_unroll_commit_default (&ictx, result);
}
LLVMValueRef result = immediate_unroll_end (&ictx, &cbb);
if (high)
result = concatenate_vectors (ctx, lhs, result);
if (scalar)
result = keep_lowest_element (ctx, LLVMTypeOf (result), result);
values [ins->dreg] = result;
break;
}
case OP_ARM64_SQSHLU:
case OP_ARM64_SQSHLU_SCALAR: {
gboolean scalar = ins->opcode == OP_ARM64_SQSHLU_SCALAR;
LLVMTypeRef intrin_result_t = simd_class_to_llvm_type (ctx, ins->klass);
LLVMTypeRef elem_t = LLVMGetElementType (intrin_result_t);
unsigned int element_bits = mono_llvm_get_prim_size_bits (elem_t);
llvm_ovr_tag_t ovr_tag = ovr_tag_from_llvm_type (intrin_result_t);
int max_index = element_bits;
ScalarOpFromVectorOpCtx sctx = scalar_op_from_vector_op (ctx, intrin_result_t, ins);
intrin_result_t = scalar ? sctx.intermediate_type : intrin_result_t;
ovr_tag = scalar ? sctx.ovr_tag : ovr_tag;
ImmediateUnrollCtx ictx = immediate_unroll_begin (ctx, bb, max_index, rhs, intrin_result_t, "arm64_sqshlu");
int i = 0;
while (immediate_unroll_next (&ictx, &i)) {
int shift_const = i;
LLVMValueRef args [2] = { lhs, create_shift_vector (ctx, lhs, const_int32 (shift_const)) };
if (scalar)
scalar_op_from_vector_op_process_args (&sctx, args, 2);
LLVMValueRef result = call_overloaded_intrins (ctx, INTRINS_AARCH64_ADV_SIMD_SQSHLU, ovr_tag, args, "");
immediate_unroll_commit (&ictx, shift_const, result);
}
{
immediate_unroll_default (&ictx);
LLVMValueRef srcarg = lhs;
if (scalar)
scalar_op_from_vector_op_process_args (&sctx, &srcarg, 1);
immediate_unroll_commit_default (&ictx, srcarg);
}
LLVMValueRef result = immediate_unroll_end (&ictx, &cbb);
if (scalar)
result = scalar_op_from_vector_op_process_result (&sctx, result);
values [ins->dreg] = result;
break;
}
case OP_ARM64_SSHLL:
case OP_ARM64_SSHLL2:
case OP_ARM64_USHLL:
case OP_ARM64_USHLL2: {
LLVMTypeRef ret_t = simd_class_to_llvm_type (ctx, ins->klass);
gboolean high = FALSE;
gboolean is_unsigned = FALSE;
switch (ins->opcode) {
case OP_ARM64_SSHLL2: high = TRUE; break;
case OP_ARM64_USHLL2: high = TRUE; case OP_ARM64_USHLL: is_unsigned = TRUE; break;
}
LLVMValueRef result = lhs;
if (high)
result = extract_high_elements (ctx, result);
if (is_unsigned)
result = LLVMBuildZExt (builder, result, ret_t, "arm64_ushll");
else
result = LLVMBuildSExt (builder, result, ret_t, "arm64_ushll");
result = LLVMBuildShl (builder, result, create_shift_vector (ctx, result, rhs), "");
values [ins->dreg] = result;
break;
}
case OP_ARM64_SLI:
case OP_ARM64_SRI: {
LLVMTypeRef intrin_result_t = simd_class_to_llvm_type (ctx, ins->klass);
llvm_ovr_tag_t ovr_tag = ovr_tag_from_llvm_type (intrin_result_t);
unsigned int element_bits = mono_llvm_get_prim_size_bits (LLVMGetElementType (intrin_result_t));
int range_min = 0;
int range_max = element_bits - 1;
if (ins->opcode == OP_ARM64_SRI) {
++range_min;
++range_max;
}
int iid = ins->opcode == OP_ARM64_SRI ? INTRINS_AARCH64_ADV_SIMD_SRI : INTRINS_AARCH64_ADV_SIMD_SLI;
int max_index = range_max - range_min + 1;
ImmediateUnrollCtx ictx = immediate_unroll_begin (ctx, bb, max_index, arg3, intrin_result_t, "arm64_ext");
LLVMValueRef intrin_args [3] = { lhs, rhs, arg3 };
int i = 0;
while (immediate_unroll_next (&ictx, &i)) {
int shift_const = i + range_min;
intrin_args [2] = const_int32 (shift_const);
LLVMValueRef result = call_overloaded_intrins (ctx, iid, ovr_tag, intrin_args, "");
immediate_unroll_commit (&ictx, shift_const, result);
}
immediate_unroll_default (&ictx);
immediate_unroll_commit_default (&ictx, lhs);
LLVMValueRef result = immediate_unroll_end (&ictx, &cbb);
values [ins->dreg] = result;
break;
}
case OP_ARM64_SQRT_SCALAR: {
int iid = ins->inst_c0 == MONO_TYPE_R8 ? INTRINS_SQRT : INTRINS_SQRTF;
LLVMTypeRef t = LLVMTypeOf (lhs);
LLVMValueRef scalar = LLVMBuildExtractElement (builder, lhs, const_int32 (0), "");
LLVMValueRef result = call_intrins (ctx, iid, &scalar, "arm64_sqrt_scalar");
values [ins->dreg] = LLVMBuildInsertElement (builder, LLVMGetUndef (t), result, const_int32 (0), "");
break;
}
case OP_ARM64_STP:
case OP_ARM64_STP_SCALAR:
case OP_ARM64_STNP:
case OP_ARM64_STNP_SCALAR: {
gboolean nontemporal = FALSE;
gboolean scalar = FALSE;
switch (ins->opcode) {
case OP_ARM64_STNP: nontemporal = TRUE; break;
case OP_ARM64_STNP_SCALAR: nontemporal = TRUE; scalar = TRUE; break;
case OP_ARM64_STP_SCALAR: scalar = TRUE; break;
}
LLVMTypeRef rhs_t = LLVMTypeOf (rhs);
LLVMValueRef val = NULL;
LLVMTypeRef dst_t = LLVMPointerType (rhs_t, 0);
if (scalar)
val = LLVMBuildShuffleVector (builder, rhs, arg3, create_const_vector_2_i32 (0, 2), "");
else {
unsigned int rhs_elems = LLVMGetVectorSize (rhs_t);
LLVMTypeRef rhs_elt_t = LLVMGetElementType (rhs_t);
dst_t = LLVMPointerType (LLVMVectorType (rhs_elt_t, rhs_elems * 2), 0);
val = concatenate_vectors (ctx, rhs, arg3);
}
LLVMValueRef address = convert (ctx, lhs, dst_t);
LLVMValueRef store = mono_llvm_build_store (builder, val, address, FALSE, LLVM_BARRIER_NONE);
if (nontemporal)
set_nontemporal_flag (store);
break;
}
case OP_ARM64_LD1_INSERT: {
LLVMTypeRef ret_t = simd_class_to_llvm_type (ctx, ins->klass);
LLVMTypeRef elem_t = LLVMGetElementType (ret_t);
LLVMValueRef address = convert (ctx, arg3, LLVMPointerType (elem_t, 0));
unsigned int alignment = mono_llvm_get_prim_size_bits (ret_t) / 8;
LLVMValueRef result = mono_llvm_build_aligned_load (builder, address, "arm64_ld1_insert", FALSE, alignment);
result = LLVMBuildInsertElement (builder, lhs, result, rhs, "arm64_ld1_insert");
values [ins->dreg] = result;
break;
}
case OP_ARM64_LD1R:
case OP_ARM64_LD1: {
gboolean replicate = ins->opcode == OP_ARM64_LD1R;
LLVMTypeRef ret_t = simd_class_to_llvm_type (ctx, ins->klass);
unsigned int alignment = mono_llvm_get_prim_size_bits (ret_t) / 8;
LLVMValueRef address = lhs;
LLVMTypeRef address_t = LLVMPointerType (ret_t, 0);
if (replicate) {
LLVMTypeRef elem_t = LLVMGetElementType (ret_t);
address_t = LLVMPointerType (elem_t, 0);
}
address = convert (ctx, address, address_t);
LLVMValueRef result = mono_llvm_build_aligned_load (builder, address, "arm64_ld1", FALSE, alignment);
if (replicate) {
unsigned int elems = LLVMGetVectorSize (ret_t);
result = broadcast_element (ctx, result, elems);
}
values [ins->dreg] = result;
break;
}
case OP_ARM64_LDNP:
case OP_ARM64_LDNP_SCALAR:
case OP_ARM64_LDP:
case OP_ARM64_LDP_SCALAR: {
const char *oname = NULL;
gboolean nontemporal = FALSE;
gboolean scalar = FALSE;
switch (ins->opcode) {
case OP_ARM64_LDNP: oname = "arm64_ldnp"; nontemporal = TRUE; break;
case OP_ARM64_LDNP_SCALAR: oname = "arm64_ldnp_scalar"; nontemporal = TRUE; scalar = TRUE; break;
case OP_ARM64_LDP: oname = "arm64_ldp"; break;
case OP_ARM64_LDP_SCALAR: oname = "arm64_ldp_scalar"; scalar = TRUE; break;
}
if (!addresses [ins->dreg])
addresses [ins->dreg] = build_named_alloca (ctx, m_class_get_byval_arg (ins->klass), oname);
LLVMTypeRef ret_t = simd_valuetuple_to_llvm_type (ctx, ins->klass);
LLVMTypeRef vec_t = LLVMGetElementType (ret_t);
LLVMValueRef ix = const_int32 (1);
LLVMTypeRef src_t = LLVMPointerType (scalar ? LLVMGetElementType (vec_t) : vec_t, 0);
LLVMValueRef src0 = convert (ctx, lhs, src_t);
LLVMValueRef src1 = LLVMBuildGEP (builder, src0, &ix, 1, oname);
LLVMValueRef vals [] = { src0, src1 };
for (int i = 0; i < 2; ++i) {
vals [i] = LLVMBuildLoad (builder, vals [i], oname);
if (nontemporal)
set_nontemporal_flag (vals [i]);
}
unsigned int vec_sz = mono_llvm_get_prim_size_bits (vec_t);
if (scalar) {
g_assert (vec_sz == 64);
LLVMValueRef undef = LLVMGetUndef (vec_t);
for (int i = 0; i < 2; ++i)
vals [i] = LLVMBuildInsertElement (builder, undef, vals [i], const_int32 (0), oname);
}
LLVMValueRef val = LLVMGetUndef (ret_t);
for (int i = 0; i < 2; ++i)
val = LLVMBuildInsertValue (builder, val, vals [i], i, oname);
LLVMTypeRef retptr_t = LLVMPointerType (ret_t, 0);
LLVMValueRef dst = convert (ctx, addresses [ins->dreg], retptr_t);
LLVMBuildStore (builder, val, dst);
values [ins->dreg] = vec_sz == 64 ? val : NULL;
break;
}
case OP_ARM64_ST1: {
LLVMTypeRef t = LLVMTypeOf (rhs);
LLVMValueRef address = convert (ctx, lhs, LLVMPointerType (t, 0));
unsigned int alignment = mono_llvm_get_prim_size_bits (t) / 8;
mono_llvm_build_aligned_store (builder, rhs, address, FALSE, alignment);
break;
}
case OP_ARM64_ST1_SCALAR: {
LLVMTypeRef t = LLVMGetElementType (LLVMTypeOf (rhs));
LLVMValueRef val = LLVMBuildExtractElement (builder, rhs, arg3, "arm64_st1_scalar");
LLVMValueRef address = convert (ctx, lhs, LLVMPointerType (t, 0));
unsigned int alignment = mono_llvm_get_prim_size_bits (t) / 8;
mono_llvm_build_aligned_store (builder, val, address, FALSE, alignment);
break;
}
case OP_ARM64_ADDHN:
case OP_ARM64_ADDHN2:
case OP_ARM64_SUBHN:
case OP_ARM64_SUBHN2:
case OP_ARM64_RADDHN:
case OP_ARM64_RADDHN2:
case OP_ARM64_RSUBHN:
case OP_ARM64_RSUBHN2: {
LLVMValueRef args [2] = { lhs, rhs };
gboolean high = FALSE;
gboolean subtract = FALSE;
int iid = 0;
switch (ins->opcode) {
case OP_ARM64_ADDHN2: high = TRUE; case OP_ARM64_ADDHN: break;
case OP_ARM64_SUBHN2: high = TRUE; case OP_ARM64_SUBHN: subtract = TRUE; break;
case OP_ARM64_RSUBHN2: high = TRUE; case OP_ARM64_RSUBHN: iid = INTRINS_AARCH64_ADV_SIMD_RSUBHN; break;
case OP_ARM64_RADDHN2: high = TRUE; case OP_ARM64_RADDHN: iid = INTRINS_AARCH64_ADV_SIMD_RADDHN; break;
}
llvm_ovr_tag_t ovr_tag = ovr_tag_from_mono_vector_class (ins->klass);
if (high) {
args [0] = rhs;
args [1] = arg3;
ovr_tag = ovr_tag_smaller_vector (ovr_tag);
}
LLVMValueRef result = NULL;
if (iid != 0)
result = call_overloaded_intrins (ctx, iid, ovr_tag, args, "");
else {
LLVMTypeRef t = LLVMTypeOf (args [0]);
LLVMTypeRef elt_t = LLVMGetElementType (t);
unsigned int elems = LLVMGetVectorSize (t);
unsigned int elem_bits = mono_llvm_get_prim_size_bits (elt_t);
if (subtract)
result = LLVMBuildSub (builder, args [0], args [1], "");
else
result = LLVMBuildAdd (builder, args [0], args [1], "");
result = LLVMBuildLShr (builder, result, broadcast_constant (elem_bits / 2, elt_t, elems), "");
result = LLVMBuildTrunc (builder, result, LLVMVectorType (LLVMIntType (elem_bits / 2), elems), "");
}
if (high)
result = concatenate_vectors (ctx, lhs, result);
values [ins->dreg] = result;
break;
}
case OP_ARM64_SADD:
case OP_ARM64_UADD:
case OP_ARM64_SADD2:
case OP_ARM64_UADD2:
case OP_ARM64_SSUB:
case OP_ARM64_USUB:
case OP_ARM64_SSUB2:
case OP_ARM64_USUB2: {
LLVMTypeRef ret_t = simd_class_to_llvm_type (ctx, ins->klass);
gboolean is_unsigned = FALSE;
gboolean high = FALSE;
gboolean subtract = FALSE;
switch (ins->opcode) {
case OP_ARM64_SADD2: high = TRUE; case OP_ARM64_SADD: break;
case OP_ARM64_UADD2: high = TRUE; case OP_ARM64_UADD: is_unsigned = TRUE; break;
case OP_ARM64_SSUB2: high = TRUE; case OP_ARM64_SSUB: subtract = TRUE; break;
case OP_ARM64_USUB2: high = TRUE; case OP_ARM64_USUB: subtract = TRUE; is_unsigned = TRUE; break;
}
LLVMValueRef args [] = { lhs, rhs };
for (int i = 0; i < 2; ++i) {
LLVMValueRef arg = args [i];
LLVMTypeRef arg_t = LLVMTypeOf (arg);
if (high && arg_t != ret_t)
arg = extract_high_elements (ctx, arg);
if (is_unsigned)
arg = LLVMBuildZExt (builder, arg, ret_t, "");
else
arg = LLVMBuildSExt (builder, arg, ret_t, "");
args [i] = arg;
}
LLVMValueRef result = NULL;
if (subtract)
result = LLVMBuildSub (builder, args [0], args [1], "arm64_sub");
else
result = LLVMBuildAdd (builder, args [0], args [1], "arm64_add");
values [ins->dreg] = result;
break;
}
case OP_ARM64_SABAL:
case OP_ARM64_SABAL2:
case OP_ARM64_UABAL:
case OP_ARM64_UABAL2:
case OP_ARM64_SABDL:
case OP_ARM64_SABDL2:
case OP_ARM64_UABDL:
case OP_ARM64_UABDL2:
case OP_ARM64_SABA:
case OP_ARM64_UABA:
case OP_ARM64_SABD:
case OP_ARM64_UABD: {
LLVMTypeRef ret_t = simd_class_to_llvm_type (ctx, ins->klass);
gboolean is_unsigned = FALSE;
gboolean high = FALSE;
gboolean add = FALSE;
gboolean widen = FALSE;
switch (ins->opcode) {
case OP_ARM64_SABAL2: high = TRUE; case OP_ARM64_SABAL: widen = TRUE; add = TRUE; break;
case OP_ARM64_UABAL2: high = TRUE; case OP_ARM64_UABAL: widen = TRUE; add = TRUE; is_unsigned = TRUE; break;
case OP_ARM64_SABDL2: high = TRUE; case OP_ARM64_SABDL: widen = TRUE; break;
case OP_ARM64_UABDL2: high = TRUE; case OP_ARM64_UABDL: widen = TRUE; is_unsigned = TRUE; break;
case OP_ARM64_SABA: add = TRUE; break;
case OP_ARM64_UABA: add = TRUE; is_unsigned = TRUE; break;
case OP_ARM64_UABD: is_unsigned = TRUE; break;
}
LLVMValueRef args [] = { lhs, rhs };
if (add) {
args [0] = rhs;
args [1] = arg3;
}
if (high)
for (int i = 0; i < 2; ++i)
args [i] = extract_high_elements (ctx, args [i]);
int iid = is_unsigned ? INTRINS_AARCH64_ADV_SIMD_UABD : INTRINS_AARCH64_ADV_SIMD_SABD;
llvm_ovr_tag_t ovr_tag = ovr_tag_from_llvm_type (LLVMTypeOf (args [0]));
LLVMValueRef result = call_overloaded_intrins (ctx, iid, ovr_tag, args, "");
if (widen)
result = LLVMBuildZExt (builder, result, ret_t, "");
if (add)
result = LLVMBuildAdd (builder, result, lhs, "");
values [ins->dreg] = result;
break;
}
case OP_ARM64_XHORIZ: {
gboolean truncate = FALSE;
LLVMTypeRef arg_t = LLVMTypeOf (lhs);
LLVMTypeRef elem_t = LLVMGetElementType (arg_t);
LLVMTypeRef ret_t = simd_class_to_llvm_type (ctx, ins->klass);
llvm_ovr_tag_t ovr_tag = ovr_tag_from_llvm_type (arg_t);
if (elem_t == i1_t || elem_t == i2_t)
truncate = TRUE;
LLVMValueRef result = call_overloaded_intrins (ctx, ins->inst_c0, ovr_tag, &lhs, "");
if (truncate) {
// @llvm.aarch64.neon.saddv.i32.v8i16 ought to return an i16, but doesn't in LLVM 9.
result = LLVMBuildTrunc (builder, result, elem_t, "");
}
result = vector_from_scalar (ctx, ret_t, result);
values [ins->dreg] = result;
break;
}
case OP_ARM64_SADDLV:
case OP_ARM64_UADDLV: {
LLVMTypeRef arg_t = LLVMTypeOf (lhs);
LLVMTypeRef elem_t = LLVMGetElementType (arg_t);
LLVMTypeRef ret_t = simd_class_to_llvm_type (ctx, ins->klass);
llvm_ovr_tag_t ovr_tag = ovr_tag_from_llvm_type (arg_t);
gboolean truncate = elem_t == i1_t;
int iid = ins->opcode == OP_ARM64_UADDLV ? INTRINS_AARCH64_ADV_SIMD_UADDLV : INTRINS_AARCH64_ADV_SIMD_SADDLV;
LLVMValueRef result = call_overloaded_intrins (ctx, iid, ovr_tag, &lhs, "");
if (truncate) {
// @llvm.aarch64.neon.saddlv.i32.v16i8 ought to return an i16, but doesn't in LLVM 9.
result = LLVMBuildTrunc (builder, result, i2_t, "");
}
result = vector_from_scalar (ctx, ret_t, result);
values [ins->dreg] = result;
break;
}
case OP_ARM64_UADALP:
case OP_ARM64_SADALP: {
llvm_ovr_tag_t ovr_tag = ovr_tag_from_mono_vector_class (ins->klass);
int iid = ins->opcode == OP_ARM64_UADALP ? INTRINS_AARCH64_ADV_SIMD_UADDLP : INTRINS_AARCH64_ADV_SIMD_SADDLP;
LLVMValueRef result = call_overloaded_intrins (ctx, iid, ovr_tag, &rhs, "");
result = LLVMBuildAdd (builder, result, lhs, "");
values [ins->dreg] = result;
break;
}
case OP_ARM64_ADDP_SCALAR: {
llvm_ovr_tag_t ovr_tag = INTRIN_vector128 | INTRIN_int64;
LLVMValueRef result = call_overloaded_intrins (ctx, INTRINS_AARCH64_ADV_SIMD_UADDV, ovr_tag, &lhs, "arm64_addp_scalar");
result = LLVMBuildInsertElement (builder, LLVMConstNull (v64_i8_t), result, const_int32 (0), "");
values [ins->dreg] = result;
break;
}
case OP_ARM64_FADDP_SCALAR: {
LLVMTypeRef ret_t = simd_class_to_llvm_type (ctx, ins->klass);
LLVMValueRef hi = LLVMBuildExtractElement (builder, lhs, const_int32 (0), "");
LLVMValueRef lo = LLVMBuildExtractElement (builder, lhs, const_int32 (1), "");
LLVMValueRef result = LLVMBuildFAdd (builder, hi, lo, "arm64_faddp_scalar");
result = LLVMBuildInsertElement (builder, LLVMConstNull (ret_t), result, const_int32 (0), "");
values [ins->dreg] = result;
break;
}
case OP_ARM64_SXTL:
case OP_ARM64_SXTL2:
case OP_ARM64_UXTL:
case OP_ARM64_UXTL2: {
gboolean high = FALSE;
gboolean is_unsigned = FALSE;
switch (ins->opcode) {
case OP_ARM64_SXTL2: high = TRUE; break;
case OP_ARM64_UXTL2: high = TRUE; case OP_ARM64_UXTL: is_unsigned = TRUE; break;
}
LLVMTypeRef t = LLVMTypeOf (lhs);
unsigned int elem_bits = LLVMGetIntTypeWidth (LLVMGetElementType (t));
unsigned int src_elems = LLVMGetVectorSize (t);
unsigned int dst_elems = src_elems;
LLVMValueRef arg = lhs;
if (high) {
arg = extract_high_elements (ctx, lhs);
dst_elems = LLVMGetVectorSize (LLVMTypeOf (arg));
}
LLVMTypeRef result_t = LLVMVectorType (LLVMIntType (elem_bits * 2), dst_elems);
LLVMValueRef result = NULL;
if (is_unsigned)
result = LLVMBuildZExt (builder, arg, result_t, "arm64_uxtl");
else
result = LLVMBuildSExt (builder, arg, result_t, "arm64_sxtl");
values [ins->dreg] = result;
break;
}
case OP_ARM64_TRN1:
case OP_ARM64_TRN2: {
gboolean high = ins->opcode == OP_ARM64_TRN2;
LLVMTypeRef t = LLVMTypeOf (lhs);
unsigned int src_elems = LLVMGetVectorSize (t);
int mask [MAX_VECTOR_ELEMS] = { 0 };
int laneix = high ? 1 : 0;
for (unsigned int i = 0; i < src_elems; i += 2) {
mask [i] = laneix;
mask [i + 1] = laneix + src_elems;
laneix += 2;
}
values [ins->dreg] = LLVMBuildShuffleVector (builder, lhs, rhs, create_const_vector_i32 (mask, src_elems), "arm64_uzp");
break;
}
case OP_ARM64_UZP1:
case OP_ARM64_UZP2: {
gboolean high = ins->opcode == OP_ARM64_UZP2;
LLVMTypeRef t = LLVMTypeOf (lhs);
unsigned int src_elems = LLVMGetVectorSize (t);
int mask [MAX_VECTOR_ELEMS] = { 0 };
int laneix = high ? 1 : 0;
for (unsigned int i = 0; i < src_elems; ++i) {
mask [i] = laneix;
laneix += 2;
}
values [ins->dreg] = LLVMBuildShuffleVector (builder, lhs, rhs, create_const_vector_i32 (mask, src_elems), "arm64_uzp");
break;
}
case OP_ARM64_ZIP1:
case OP_ARM64_ZIP2: {
gboolean high = ins->opcode == OP_ARM64_ZIP2;
LLVMTypeRef t = LLVMTypeOf (lhs);
unsigned int src_elems = LLVMGetVectorSize (t);
int mask [MAX_VECTOR_ELEMS] = { 0 };
int laneix = high ? src_elems / 2 : 0;
for (unsigned int i = 0; i < src_elems; i += 2) {
mask [i] = laneix;
mask [i + 1] = laneix + src_elems;
++laneix;
}
values [ins->dreg] = LLVMBuildShuffleVector (builder, lhs, rhs, create_const_vector_i32 (mask, src_elems), "arm64_zip");
break;
}
case OP_ARM64_ABSCOMPARE: {
IntrinsicId iid = (IntrinsicId) ins->inst_c0;
gboolean scalar = ins->inst_c1;
LLVMTypeRef ret_t = simd_class_to_llvm_type (ctx, ins->klass);
LLVMTypeRef elem_t = LLVMGetElementType (ret_t);
llvm_ovr_tag_t ovr_tag = ovr_tag_from_mono_vector_class (ins->klass);
ovr_tag = ovr_tag_corresponding_integer (ovr_tag);
LLVMValueRef args [] = { lhs, rhs };
LLVMTypeRef result_t = ret_t;
if (scalar) {
ovr_tag = ovr_tag_force_scalar (ovr_tag);
result_t = elem_t;
for (int i = 0; i < 2; ++i)
args [i] = scalar_from_vector (ctx, args [i]);
}
LLVMValueRef result = call_overloaded_intrins (ctx, iid, ovr_tag, args, "");
result = LLVMBuildBitCast (builder, result, result_t, "");
if (scalar)
result = vector_from_scalar (ctx, ret_t, result);
values [ins->dreg] = result;
break;
}
case OP_XOP_OVR_X_X: {
IntrinsicId iid = (IntrinsicId) ins->inst_c0;
llvm_ovr_tag_t ovr_tag = ovr_tag_from_mono_vector_class (ins->klass);
values [ins->dreg] = call_overloaded_intrins (ctx, iid, ovr_tag, &lhs, "");
break;
}
case OP_XOP_OVR_X_X_X: {
IntrinsicId iid = (IntrinsicId) ins->inst_c0;
llvm_ovr_tag_t ovr_tag = ovr_tag_from_mono_vector_class (ins->klass);
LLVMValueRef args [] = { lhs, rhs };
values [ins->dreg] = call_overloaded_intrins (ctx, iid, ovr_tag, args, "");
break;
}
case OP_XOP_OVR_X_X_X_X: {
IntrinsicId iid = (IntrinsicId) ins->inst_c0;
llvm_ovr_tag_t ovr_tag = ovr_tag_from_mono_vector_class (ins->klass);
LLVMValueRef args [] = { lhs, rhs, arg3 };
values [ins->dreg] = call_overloaded_intrins (ctx, iid, ovr_tag, args, "");
break;
}
case OP_XOP_OVR_BYSCALAR_X_X_X: {
IntrinsicId iid = (IntrinsicId) ins->inst_c0;
llvm_ovr_tag_t ovr_tag = ovr_tag_from_mono_vector_class (ins->klass);
LLVMTypeRef t = LLVMTypeOf (lhs);
unsigned int elems = LLVMGetVectorSize (t);
LLVMValueRef arg2 = broadcast_element (ctx, scalar_from_vector (ctx, rhs), elems);
LLVMValueRef args [] = { lhs, arg2 };
values [ins->dreg] = call_overloaded_intrins (ctx, iid, ovr_tag, args, "");
break;
}
case OP_XOP_OVR_SCALAR_X_X:
case OP_XOP_OVR_SCALAR_X_X_X:
case OP_XOP_OVR_SCALAR_X_X_X_X: {
int num_args = 0;
IntrinsicId iid = (IntrinsicId) ins->inst_c0;
LLVMTypeRef ret_t = simd_class_to_llvm_type (ctx, ins->klass);
switch (ins->opcode) {
case OP_XOP_OVR_SCALAR_X_X: num_args = 1; break;
case OP_XOP_OVR_SCALAR_X_X_X: num_args = 2; break;
case OP_XOP_OVR_SCALAR_X_X_X_X: num_args = 3; break;
}
/* LLVM 9 NEON intrinsic functions have scalar overloads. Unfortunately
* only overloads for 32 and 64-bit integers and floating point types are
* supported. 8 and 16-bit integers are unsupported, and will fail during
* instruction selection. This is worked around by using a vector
* operation and then explicitly clearing the upper bits of the register.
*/
ScalarOpFromVectorOpCtx sctx = scalar_op_from_vector_op (ctx, ret_t, ins);
LLVMValueRef args [3] = { lhs, rhs, arg3 };
scalar_op_from_vector_op_process_args (&sctx, args, num_args);
LLVMValueRef result = call_overloaded_intrins (ctx, iid, sctx.ovr_tag, args, "");
result = scalar_op_from_vector_op_process_result (&sctx, result);
values [ins->dreg] = result;
break;
}
#endif
case OP_DUMMY_USE:
break;
/*
* EXCEPTION HANDLING
*/
case OP_IMPLICIT_EXCEPTION:
/* This marks a place where an implicit exception can happen */
if (bb->region != -1)
set_failure (ctx, "implicit-exception");
break;
case OP_THROW:
case OP_RETHROW: {
gboolean rethrow = (ins->opcode == OP_RETHROW);
if (ctx->llvm_only) {
emit_llvmonly_throw (ctx, bb, rethrow, lhs);
has_terminator = TRUE;
ctx->unreachable [bb->block_num] = TRUE;
} else {
emit_throw (ctx, bb, rethrow, lhs);
builder = ctx->builder;
}
break;
}
case OP_CALL_HANDLER: {
/*
* We don't 'call' handlers, but instead simply branch to them.
* The code generated by ENDFINALLY will branch back to us.
*/
LLVMBasicBlockRef noex_bb;
GSList *bb_list;
BBInfo *info = &bblocks [ins->inst_target_bb->block_num];
bb_list = info->call_handler_return_bbs;
/*
* Set the indicator variable for the finally clause.
*/
lhs = info->finally_ind;
g_assert (lhs);
LLVMBuildStore (builder, LLVMConstInt (LLVMInt32Type (), g_slist_length (bb_list) + 1, FALSE), lhs);
/* Branch to the finally clause */
LLVMBuildBr (builder, info->call_handler_target_bb);
noex_bb = gen_bb (ctx, "CALL_HANDLER_CONT_BB");
info->call_handler_return_bbs = g_slist_append_mempool (cfg->mempool, info->call_handler_return_bbs, noex_bb);
builder = ctx->builder = create_builder (ctx);
LLVMPositionBuilderAtEnd (ctx->builder, noex_bb);
bblocks [bb->block_num].end_bblock = noex_bb;
break;
}
case OP_START_HANDLER: {
break;
}
case OP_ENDFINALLY: {
LLVMBasicBlockRef resume_bb;
MonoBasicBlock *handler_bb;
LLVMValueRef val, switch_ins, callee;
GSList *bb_list;
BBInfo *info;
gboolean is_fault = MONO_REGION_FLAGS (bb->region) == MONO_EXCEPTION_CLAUSE_FAULT;
/*
* Fault clauses are like finally clauses, but they are only called if an exception is thrown.
*/
if (!is_fault) {
handler_bb = (MonoBasicBlock*)g_hash_table_lookup (ctx->region_to_handler, GUINT_TO_POINTER (mono_get_block_region_notry (cfg, bb->region)));
g_assert (handler_bb);
info = &bblocks [handler_bb->block_num];
lhs = info->finally_ind;
g_assert (lhs);
bb_list = info->call_handler_return_bbs;
resume_bb = gen_bb (ctx, "ENDFINALLY_RESUME_BB");
/* Load the finally variable */
val = LLVMBuildLoad (builder, lhs, "");
/* Reset the variable */
LLVMBuildStore (builder, LLVMConstInt (LLVMInt32Type (), 0, FALSE), lhs);
/* Branch to either resume_bb, or to the bblocks in bb_list */
switch_ins = LLVMBuildSwitch (builder, val, resume_bb, g_slist_length (bb_list));
/*
* The other targets are added at the end to handle OP_CALL_HANDLER
* opcodes processed later.
*/
info->endfinally_switch_ins_list = g_slist_append_mempool (cfg->mempool, info->endfinally_switch_ins_list, switch_ins);
builder = ctx->builder = create_builder (ctx);
LLVMPositionBuilderAtEnd (ctx->builder, resume_bb);
}
if (ctx->llvm_only) {
if (!cfg->deopt) {
emit_resume_eh (ctx, bb);
} else {
/* Not needed */
LLVMBuildUnreachable (builder);
}
} else {
LLVMTypeRef icall_sig = LLVMFunctionType (LLVMVoidType (), NULL, 0, FALSE);
if (ctx->cfg->compile_aot) {
callee = get_callee (ctx, icall_sig, MONO_PATCH_INFO_JIT_ICALL_ID, GUINT_TO_POINTER (MONO_JIT_ICALL_mono_llvm_resume_unwind_trampoline));
} else {
callee = get_jit_callee (ctx, "llvm_resume_unwind_trampoline", icall_sig, MONO_PATCH_INFO_JIT_ICALL_ID, GUINT_TO_POINTER (MONO_JIT_ICALL_mono_llvm_resume_unwind_trampoline));
}
LLVMBuildCall (builder, callee, NULL, 0, "");
LLVMBuildUnreachable (builder);
}
has_terminator = TRUE;
break;
}
case OP_ENDFILTER: {
g_assert (cfg->llvm_only && cfg->deopt);
LLVMBuildUnreachable (builder);
has_terminator = TRUE;
break;
}
case OP_IL_SEQ_POINT:
break;
default: {
char reason [128];
sprintf (reason, "opcode %s", mono_inst_name (ins->opcode));
set_failure (ctx, reason);
break;
}
}
if (!ctx_ok (ctx))
break;
/* Convert the value to the type required by phi nodes */
if (spec [MONO_INST_DEST] != ' ' && !MONO_IS_STORE_MEMBASE (ins) && ctx->vreg_types [ins->dreg]) {
if (ctx->is_vphi [ins->dreg])
/* vtypes */
values [ins->dreg] = addresses [ins->dreg];
else
values [ins->dreg] = convert (ctx, values [ins->dreg], ctx->vreg_types [ins->dreg]);
}
/* Add stores for volatile/ref variables */
if (spec [MONO_INST_DEST] != ' ' && spec [MONO_INST_DEST] != 'v' && !MONO_IS_STORE_MEMBASE (ins)) {
if (!skip_volatile_store)
emit_volatile_store (ctx, ins->dreg);
#ifdef TARGET_WASM
if (vreg_is_ref (cfg, ins->dreg) && ctx->values [ins->dreg])
emit_gc_pin (ctx, builder, ins->dreg);
#endif
}
}
if (!ctx_ok (ctx))
return;
if (!has_terminator && bb->next_bb && (bb == cfg->bb_entry || bb->in_count > 0)) {
LLVMBuildBr (builder, get_bb (ctx, bb->next_bb));
}
if (bb == cfg->bb_exit && sig->ret->type == MONO_TYPE_VOID) {
emit_dbg_loc (ctx, builder, cfg->header->code + cfg->header->code_size - 1);
LLVMBuildRetVoid (builder);
}
if (bb == cfg->bb_entry)
ctx->last_alloca = LLVMGetLastInstruction (get_bb (ctx, cfg->bb_entry));
}
/*
* mono_llvm_check_method_supported:
*
* Do some quick checks to decide whenever cfg->method can be compiled by LLVM, to avoid
* compiling a method twice.
*/
void
mono_llvm_check_method_supported (MonoCompile *cfg)
{
int i, j;
#ifdef TARGET_WASM
if (mono_method_signature_internal (cfg->method)->call_convention == MONO_CALL_VARARG) {
cfg->exception_message = g_strdup ("vararg callconv");
cfg->disable_llvm = TRUE;
return;
}
#endif
if (cfg->llvm_only)
return;
if (cfg->method->save_lmf) {
cfg->exception_message = g_strdup ("lmf");
cfg->disable_llvm = TRUE;
}
if (cfg->disable_llvm)
return;
/*
* Nested clauses where one of the clauses is a finally clause is
* not supported, because LLVM can't figure out the control flow,
* probably because we resume exception handling by calling our
* own function instead of using the 'resume' llvm instruction.
*/
for (i = 0; i < cfg->header->num_clauses; ++i) {
for (j = 0; j < cfg->header->num_clauses; ++j) {
MonoExceptionClause *clause1 = &cfg->header->clauses [i];
MonoExceptionClause *clause2 = &cfg->header->clauses [j];
// FIXME: Nested try clauses fail in some cases too, i.e. #37273
if (i != j && clause1->try_offset >= clause2->try_offset && clause1->handler_offset <= clause2->handler_offset) {
//(clause1->flags == MONO_EXCEPTION_CLAUSE_FINALLY || clause2->flags == MONO_EXCEPTION_CLAUSE_FINALLY)) {
cfg->exception_message = g_strdup ("nested clauses");
cfg->disable_llvm = TRUE;
break;
}
}
}
if (cfg->disable_llvm)
return;
/* FIXME: */
if (cfg->method->dynamic) {
cfg->exception_message = g_strdup ("dynamic.");
cfg->disable_llvm = TRUE;
}
if (cfg->disable_llvm)
return;
}
static LLVMCallInfo*
get_llvm_call_info (MonoCompile *cfg, MonoMethodSignature *sig)
{
LLVMCallInfo *linfo;
int i;
if (cfg->gsharedvt && cfg->llvm_only && mini_is_gsharedvt_variable_signature (sig)) {
int i, n, pindex;
/*
* Gsharedvt methods have the following calling convention:
* - all arguments are passed by ref, even non generic ones
* - the return value is returned by ref too, using a vret
* argument passed after 'this'.
*/
n = sig->param_count + sig->hasthis;
linfo = (LLVMCallInfo*)mono_mempool_alloc0 (cfg->mempool, sizeof (LLVMCallInfo) + (sizeof (LLVMArgInfo) * n));
pindex = 0;
if (sig->hasthis)
linfo->args [pindex ++].storage = LLVMArgNormal;
if (sig->ret->type != MONO_TYPE_VOID) {
if (mini_is_gsharedvt_variable_type (sig->ret))
linfo->ret.storage = LLVMArgGsharedvtVariable;
else if (mini_type_is_vtype (sig->ret))
linfo->ret.storage = LLVMArgGsharedvtFixedVtype;
else
linfo->ret.storage = LLVMArgGsharedvtFixed;
linfo->vret_arg_index = pindex;
} else {
linfo->ret.storage = LLVMArgNone;
}
for (i = 0; i < sig->param_count; ++i) {
if (m_type_is_byref (sig->params [i]))
linfo->args [pindex].storage = LLVMArgNormal;
else if (mini_is_gsharedvt_variable_type (sig->params [i]))
linfo->args [pindex].storage = LLVMArgGsharedvtVariable;
else if (mini_type_is_vtype (sig->params [i]))
linfo->args [pindex].storage = LLVMArgGsharedvtFixedVtype;
else
linfo->args [pindex].storage = LLVMArgGsharedvtFixed;
linfo->args [pindex].type = sig->params [i];
pindex ++;
}
return linfo;
}
linfo = mono_arch_get_llvm_call_info (cfg, sig);
linfo->dummy_arg_pindex = -1;
for (i = 0; i < sig->param_count; ++i)
linfo->args [i + sig->hasthis].type = sig->params [i];
return linfo;
}
static void
emit_method_inner (EmitContext *ctx);
static void
free_ctx (EmitContext *ctx)
{
GSList *l;
g_free (ctx->values);
g_free (ctx->addresses);
g_free (ctx->vreg_types);
g_free (ctx->is_vphi);
g_free (ctx->vreg_cli_types);
g_free (ctx->is_dead);
g_free (ctx->unreachable);
g_free (ctx->gc_var_indexes);
g_ptr_array_free (ctx->phi_values, TRUE);
g_free (ctx->bblocks);
g_hash_table_destroy (ctx->region_to_handler);
g_hash_table_destroy (ctx->clause_to_handler);
g_hash_table_destroy (ctx->jit_callees);
g_ptr_array_free (ctx->callsite_list, TRUE);
g_free (ctx->method_name);
g_ptr_array_free (ctx->bblock_list, TRUE);
for (l = ctx->builders; l; l = l->next) {
LLVMBuilderRef builder = (LLVMBuilderRef)l->data;
LLVMDisposeBuilder (builder);
}
g_free (ctx);
}
static gboolean
is_linkonce_method (MonoMethod *method)
{
#ifdef TARGET_WASM
/*
* Under wasm, linkonce works, so use it instead of the dedup pass for wrappers at least.
* FIXME: Use for everything, i.e. can_dedup ().
* FIXME: Fails System.Core tests
* -> amodule->sorted_methods contains duplicates, screwing up jit tables.
*/
// FIXME: This works, but the aot data for the methods is still kept, so size still increases
#if 0
if (method->wrapper_type == MONO_WRAPPER_OTHER) {
WrapperInfo *info = mono_marshal_get_wrapper_info (method);
if (info->subtype == WRAPPER_SUBTYPE_GSHAREDVT_IN_SIG || info->subtype == WRAPPER_SUBTYPE_GSHAREDVT_OUT_SIG)
return TRUE;
}
#endif
#endif
return FALSE;
}
/*
* mono_llvm_emit_method:
*
* Emit LLVM IL from the mono IL, and compile it to native code using LLVM.
*/
void
mono_llvm_emit_method (MonoCompile *cfg)
{
EmitContext *ctx;
char *method_name;
gboolean is_linkonce = FALSE;
int i;
if (cfg->skip)
return;
/* The code below might acquire the loader lock, so use it for global locking */
mono_loader_lock ();
ctx = g_new0 (EmitContext, 1);
ctx->cfg = cfg;
ctx->mempool = cfg->mempool;
/*
* This maps vregs to the LLVM instruction defining them
*/
ctx->values = g_new0 (LLVMValueRef, cfg->next_vreg);
/*
* This maps vregs for volatile variables to the LLVM instruction defining their
* address.
*/
ctx->addresses = g_new0 (LLVMValueRef, cfg->next_vreg);
ctx->vreg_types = g_new0 (LLVMTypeRef, cfg->next_vreg);
ctx->is_vphi = g_new0 (gboolean, cfg->next_vreg);
ctx->vreg_cli_types = g_new0 (MonoType*, cfg->next_vreg);
ctx->phi_values = g_ptr_array_sized_new (256);
/*
* This signals whenever the vreg was defined by a phi node with no input vars
* (i.e. all its input bblocks end with NOT_REACHABLE).
*/
ctx->is_dead = g_new0 (gboolean, cfg->next_vreg);
/* Whenever the bblock is unreachable */
ctx->unreachable = g_new0 (gboolean, cfg->max_block_num);
ctx->bblock_list = g_ptr_array_sized_new (256);
ctx->region_to_handler = g_hash_table_new (NULL, NULL);
ctx->clause_to_handler = g_hash_table_new (NULL, NULL);
ctx->callsite_list = g_ptr_array_new ();
ctx->jit_callees = g_hash_table_new (NULL, NULL);
if (cfg->compile_aot) {
ctx->module = &aot_module;
/*
* Allow the linker to discard duplicate copies of wrappers, generic instances etc. by using the 'linkonce'
* linkage for them. This requires the following:
* - the method needs to have a unique mangled name
* - llvmonly mode, since the code in aot-runtime.c would initialize got slots in the wrong aot image etc.
*/
if (ctx->module->llvm_only && ctx->module->static_link && is_linkonce_method (cfg->method))
is_linkonce = TRUE;
if (is_linkonce || mono_aot_is_externally_callable (cfg->method))
method_name = mono_aot_get_mangled_method_name (cfg->method);
else
method_name = mono_aot_get_method_name (cfg);
cfg->llvm_method_name = g_strdup (method_name);
} else {
ctx->module = init_jit_module ();
method_name = mono_method_full_name (cfg->method, TRUE);
}
ctx->method_name = method_name;
ctx->is_linkonce = is_linkonce;
if (cfg->compile_aot) {
ctx->lmodule = ctx->module->lmodule;
} else {
ctx->lmodule = LLVMModuleCreateWithName (g_strdup_printf ("jit-module-%s", cfg->method->name));
}
ctx->llvm_only = ctx->module->llvm_only;
#ifdef TARGET_WASM
ctx->emit_dummy_arg = TRUE;
#endif
emit_method_inner (ctx);
if (!ctx_ok (ctx)) {
if (ctx->lmethod) {
/* Need to add unused phi nodes as they can be referenced by other values */
LLVMBasicBlockRef phi_bb = LLVMAppendBasicBlock (ctx->lmethod, "PHI_BB");
LLVMBuilderRef builder;
builder = create_builder (ctx);
LLVMPositionBuilderAtEnd (builder, phi_bb);
for (i = 0; i < ctx->phi_values->len; ++i) {
LLVMValueRef v = (LLVMValueRef)g_ptr_array_index (ctx->phi_values, i);
if (LLVMGetInstructionParent (v) == NULL)
LLVMInsertIntoBuilder (builder, v);
}
if (ctx->module->llvm_only && ctx->module->static_link && cfg->interp) {
/* The caller will retry compilation */
LLVMDeleteFunction (ctx->lmethod);
} else if (ctx->module->llvm_only && ctx->module->static_link) {
// Keep a stub for the function since it might be called directly
int nbbs = LLVMCountBasicBlocks (ctx->lmethod);
LLVMBasicBlockRef *bblocks = g_new0 (LLVMBasicBlockRef, nbbs);
LLVMGetBasicBlocks (ctx->lmethod, bblocks);
for (int i = 0; i < nbbs; ++i)
LLVMRemoveBasicBlockFromParent (bblocks [i]);
LLVMBasicBlockRef entry_bb = LLVMAppendBasicBlock (ctx->lmethod, "ENTRY");
builder = create_builder (ctx);
LLVMPositionBuilderAtEnd (builder, entry_bb);
ctx->builder = builder;
LLVMTypeRef sig = LLVMFunctionType0 (LLVMVoidType (), FALSE);
LLVMValueRef callee = get_callee (ctx, sig, MONO_PATCH_INFO_JIT_ICALL_ADDR, GUINT_TO_POINTER (MONO_JIT_ICALL_mini_llvmonly_throw_nullref_exception));
LLVMBuildCall (builder, callee, NULL, 0, "");
LLVMBuildUnreachable (builder);
/* Clean references to instructions inside the method */
for (int i = 0; i < ctx->callsite_list->len; ++i) {
CallSite *callsite = (CallSite*)g_ptr_array_index (ctx->callsite_list, i);
if (callsite->lmethod == ctx->lmethod)
callsite->load = NULL;
}
} else {
LLVMDeleteFunction (ctx->lmethod);
}
}
}
free_ctx (ctx);
mono_loader_unlock ();
}
static void
emit_method_inner (EmitContext *ctx)
{
MonoCompile *cfg = ctx->cfg;
MonoMethodSignature *sig;
MonoBasicBlock *bb;
LLVMTypeRef method_type;
LLVMValueRef method = NULL;
LLVMValueRef *values = ctx->values;
int i, max_block_num, bb_index;
gboolean llvmonly_fail = FALSE;
LLVMCallInfo *linfo;
LLVMModuleRef lmodule = ctx->lmodule;
BBInfo *bblocks;
GPtrArray *bblock_list = ctx->bblock_list;
MonoMethodHeader *header;
MonoExceptionClause *clause;
char **names;
LLVMBuilderRef entry_builder = NULL;
LLVMBasicBlockRef entry_bb = NULL;
if (cfg->gsharedvt && !cfg->llvm_only) {
set_failure (ctx, "gsharedvt");
return;
}
#if 0
{
static int count = 0;
count ++;
char *llvm_count_str = g_getenv ("LLVM_COUNT");
if (llvm_count_str) {
int lcount = atoi (llvm_count_str);
g_free (llvm_count_str);
if (count == lcount) {
printf ("LAST: %s\n", mono_method_full_name (cfg->method, TRUE));
fflush (stdout);
}
if (count > lcount) {
set_failure (ctx, "count");
return;
}
}
}
#endif
// If we come upon one of the init_method wrappers, we need to find
// the method that we have already emitted and tell LLVM that this
// managed method info for the wrapper is associated with this method
// we constructed ourselves from LLVM IR.
//
// This is necessary to unwind through the init_method, in the case that
// it has to run a static cctor that throws an exception
if (cfg->method->wrapper_type == MONO_WRAPPER_OTHER) {
WrapperInfo *info = mono_marshal_get_wrapper_info (cfg->method);
if (info->subtype == WRAPPER_SUBTYPE_AOT_INIT) {
method = get_init_func (ctx->module, info->d.aot_init.subtype);
ctx->lmethod = method;
ctx->module->max_method_idx = MAX (ctx->module->max_method_idx, cfg->method_index);
const char *init_name = mono_marshal_get_aot_init_wrapper_name (info->d.aot_init.subtype);
ctx->method_name = g_strdup_printf ("%s_%s", ctx->module->global_prefix, init_name);
ctx->cfg->asm_symbol = g_strdup (ctx->method_name);
if (!cfg->llvm_only && ctx->module->external_symbols) {
LLVMSetLinkage (method, LLVMExternalLinkage);
LLVMSetVisibility (method, LLVMHiddenVisibility);
}
/* Not looked up at runtime */
g_hash_table_insert (ctx->module->no_method_table_lmethods, method, method);
goto after_codegen;
} else if (info->subtype == WRAPPER_SUBTYPE_LLVM_FUNC) {
g_assert (info->d.llvm_func.subtype == LLVM_FUNC_WRAPPER_GC_POLL);
if (cfg->compile_aot) {
method = ctx->module->gc_poll_cold_wrapper;
g_assert (method);
} else {
method = emit_icall_cold_wrapper (ctx->module, lmodule, MONO_JIT_ICALL_mono_threads_state_poll, FALSE);
}
ctx->lmethod = method;
ctx->module->max_method_idx = MAX (ctx->module->max_method_idx, cfg->method_index);
ctx->method_name = g_strdup (LLVMGetValueName (method)); //g_strdup_printf ("%s_%s", ctx->module->global_prefix, LLVMGetValueName (method));
ctx->cfg->asm_symbol = g_strdup (ctx->method_name);
if (!cfg->llvm_only && ctx->module->external_symbols) {
LLVMSetLinkage (method, LLVMExternalLinkage);
LLVMSetVisibility (method, LLVMHiddenVisibility);
}
goto after_codegen;
}
}
sig = mono_method_signature_internal (cfg->method);
ctx->sig = sig;
linfo = get_llvm_call_info (cfg, sig);
ctx->linfo = linfo;
if (!ctx_ok (ctx))
return;
if (cfg->rgctx_var)
linfo->rgctx_arg = TRUE;
else if (needs_extra_arg (ctx, cfg->method))
linfo->dummy_arg = TRUE;
ctx->method_type = method_type = sig_to_llvm_sig_full (ctx, sig, linfo);
if (!ctx_ok (ctx))
return;
method = LLVMAddFunction (lmodule, ctx->method_name, method_type);
ctx->lmethod = method;
if (cfg->llvm_only && cfg->header->num_clauses && mono_opt_wasm_exceptions) {
LLVMValueRef personality = get_mono_personality (ctx);
g_assert (personality);
LLVMSetPersonalityFn (method, personality);
LLVMAddTargetDependentFunctionAttr (method, "target-features", "+exception-handling");
}
if (!cfg->llvm_only)
LLVMSetFunctionCallConv (method, LLVMMono1CallConv);
/* if the method doesn't contain
* (1) a call (so it's a leaf method)
* (2) and no loops
* we can skip the GC safepoint on method entry. */
gboolean requires_safepoint;
requires_safepoint = cfg->has_calls;
if (!requires_safepoint) {
for (bb = cfg->bb_entry->next_bb; bb; bb = bb->next_bb) {
if (bb->loop_body_start || (bb->flags & BB_EXCEPTION_HANDLER)) {
requires_safepoint = TRUE;
}
}
}
if (cfg->method->wrapper_type) {
if (cfg->method->wrapper_type == MONO_WRAPPER_ALLOC || cfg->method->wrapper_type == MONO_WRAPPER_WRITE_BARRIER) {
requires_safepoint = FALSE;
} else {
WrapperInfo *info = mono_marshal_get_wrapper_info (cfg->method);
switch (info->subtype) {
case WRAPPER_SUBTYPE_GSHAREDVT_IN:
case WRAPPER_SUBTYPE_GSHAREDVT_OUT:
case WRAPPER_SUBTYPE_GSHAREDVT_IN_SIG:
case WRAPPER_SUBTYPE_GSHAREDVT_OUT_SIG:
/* Arguments are not used after the call */
requires_safepoint = FALSE;
break;
}
}
}
ctx->has_safepoints = requires_safepoint;
if (!cfg->llvm_only && mono_threads_are_safepoints_enabled () && requires_safepoint) {
if (!cfg->compile_aot) {
LLVMSetGC (method, "coreclr");
emit_gc_safepoint_poll (ctx->module, ctx->lmodule, cfg);
} else {
LLVMSetGC (method, "coreclr");
}
}
LLVMSetLinkage (method, LLVMPrivateLinkage);
mono_llvm_add_func_attr (method, LLVM_ATTR_UW_TABLE);
if (cfg->disable_omit_fp)
mono_llvm_add_func_attr_nv (method, "frame-pointer", "all");
if (cfg->compile_aot) {
if (mono_aot_is_externally_callable (cfg->method)) {
LLVMSetLinkage (method, LLVMExternalLinkage);
} else {
LLVMSetLinkage (method, LLVMInternalLinkage);
//all methods have internal visibility when doing llvm_only
if (!cfg->llvm_only && ctx->module->external_symbols) {
LLVMSetLinkage (method, LLVMExternalLinkage);
LLVMSetVisibility (method, LLVMHiddenVisibility);
}
}
if (ctx->is_linkonce) {
LLVMSetLinkage (method, LLVMLinkOnceAnyLinkage);
LLVMSetVisibility (method, LLVMDefaultVisibility);
}
} else {
LLVMSetLinkage (method, LLVMExternalLinkage);
}
if (cfg->method->save_lmf && !cfg->llvm_only) {
set_failure (ctx, "lmf");
return;
}
if (sig->pinvoke && cfg->method->wrapper_type != MONO_WRAPPER_RUNTIME_INVOKE && !cfg->llvm_only) {
set_failure (ctx, "pinvoke signature");
return;
}
#ifdef TARGET_WASM
if (ctx->module->interp && cfg->header->code_size > 100000 && !cfg->interp_entry_only) {
/* Large methods slow down llvm too much */
set_failure (ctx, "il code too large.");
return;
}
#endif
header = cfg->header;
for (i = 0; i < header->num_clauses; ++i) {
clause = &header->clauses [i];
if (clause->flags != MONO_EXCEPTION_CLAUSE_FINALLY && clause->flags != MONO_EXCEPTION_CLAUSE_FAULT && clause->flags != MONO_EXCEPTION_CLAUSE_NONE) {
if (cfg->llvm_only) {
if (!cfg->deopt && !cfg->interp_entry_only)
llvmonly_fail = TRUE;
} else {
set_failure (ctx, "non-finally/catch/fault clause.");
return;
}
}
}
if (header->num_clauses || (cfg->method->iflags & METHOD_IMPL_ATTRIBUTE_NOINLINING) || cfg->no_inline)
/* We can't handle inlined methods with clauses */
mono_llvm_add_func_attr (method, LLVM_ATTR_NO_INLINE);
for (int i = 0; i < cfg->header->num_clauses; i++) {
MonoExceptionClause *clause = &cfg->header->clauses [i];
if (clause->flags == MONO_EXCEPTION_CLAUSE_NONE || clause->flags == MONO_EXCEPTION_CLAUSE_FILTER)
ctx->has_catch = TRUE;
}
if (linfo->rgctx_arg) {
ctx->rgctx_arg = LLVMGetParam (method, linfo->rgctx_arg_pindex);
ctx->rgctx_arg_pindex = linfo->rgctx_arg_pindex;
/*
* We mark the rgctx parameter with the inreg attribute, which is mapped to
* MONO_ARCH_RGCTX_REG in the Mono calling convention in llvm, i.e.
* CC_X86_64_Mono in X86CallingConv.td.
*/
if (!ctx->llvm_only)
mono_llvm_add_param_attr (ctx->rgctx_arg, LLVM_ATTR_IN_REG);
LLVMSetValueName (ctx->rgctx_arg, "rgctx");
} else {
ctx->rgctx_arg_pindex = -1;
}
if (cfg->vret_addr) {
values [cfg->vret_addr->dreg] = LLVMGetParam (method, linfo->vret_arg_pindex);
LLVMSetValueName (values [cfg->vret_addr->dreg], "vret");
if (linfo->ret.storage == LLVMArgVtypeByRef) {
mono_llvm_add_param_attr (LLVMGetParam (method, linfo->vret_arg_pindex), LLVM_ATTR_STRUCT_RET);
mono_llvm_add_param_attr (LLVMGetParam (method, linfo->vret_arg_pindex), LLVM_ATTR_NO_ALIAS);
}
}
if (sig->hasthis) {
ctx->this_arg_pindex = linfo->this_arg_pindex;
ctx->this_arg = LLVMGetParam (method, linfo->this_arg_pindex);
values [cfg->args [0]->dreg] = ctx->this_arg;
LLVMSetValueName (values [cfg->args [0]->dreg], "this");
}
if (linfo->dummy_arg)
LLVMSetValueName (LLVMGetParam (method, linfo->dummy_arg_pindex), "dummy_arg");
names = g_new (char *, sig->param_count);
mono_method_get_param_names (cfg->method, (const char **) names);
/* Set parameter names/attributes */
for (i = 0; i < sig->param_count; ++i) {
LLVMArgInfo *ainfo = &linfo->args [i + sig->hasthis];
char *name;
int pindex = ainfo->pindex + ainfo->ndummy_fpargs;
int j;
for (j = 0; j < ainfo->ndummy_fpargs; ++j) {
name = g_strdup_printf ("dummy_%d_%d", i, j);
LLVMSetValueName (LLVMGetParam (method, ainfo->pindex + j), name);
g_free (name);
}
if (ainfo->storage == LLVMArgVtypeInReg && ainfo->pair_storage [0] == LLVMArgNone && ainfo->pair_storage [1] == LLVMArgNone)
continue;
values [cfg->args [i + sig->hasthis]->dreg] = LLVMGetParam (method, pindex);
if (ainfo->storage == LLVMArgGsharedvtFixed || ainfo->storage == LLVMArgGsharedvtFixedVtype) {
if (names [i] && names [i][0] != '\0')
name = g_strdup_printf ("p_arg_%s", names [i]);
else
name = g_strdup_printf ("p_arg_%d", i);
} else {
if (names [i] && names [i][0] != '\0')
name = g_strdup_printf ("arg_%s", names [i]);
else
name = g_strdup_printf ("arg_%d", i);
}
LLVMSetValueName (LLVMGetParam (method, pindex), name);
g_free (name);
if (ainfo->storage == LLVMArgVtypeByVal)
mono_llvm_add_param_attr (LLVMGetParam (method, pindex), LLVM_ATTR_BY_VAL);
if (ainfo->storage == LLVMArgVtypeByRef || ainfo->storage == LLVMArgVtypeAddr) {
/* For OP_LDADDR */
cfg->args [i + sig->hasthis]->opcode = OP_VTARG_ADDR;
}
#ifdef TARGET_WASM
if (ainfo->storage == LLVMArgVtypeByRef) {
/* This causes llvm to make a copy of the value which is what we need */
mono_llvm_add_param_byval_attr (LLVMGetParam (method, pindex), LLVMGetElementType (LLVMTypeOf (LLVMGetParam (method, pindex))));
}
#endif
}
g_free (names);
if (ctx->module->emit_dwarf && cfg->compile_aot && mono_debug_enabled ()) {
ctx->minfo = mono_debug_lookup_method (cfg->method);
ctx->dbg_md = emit_dbg_subprogram (ctx, cfg, method, ctx->method_name);
}
max_block_num = 0;
for (bb = cfg->bb_entry; bb; bb = bb->next_bb)
max_block_num = MAX (max_block_num, bb->block_num);
ctx->bblocks = bblocks = g_new0 (BBInfo, max_block_num + 1);
/* Add branches between non-consecutive bblocks */
for (bb = cfg->bb_entry; bb; bb = bb->next_bb) {
if (bb->last_ins && MONO_IS_COND_BRANCH_OP (bb->last_ins) &&
bb->next_bb != bb->last_ins->inst_false_bb) {
MonoInst *inst = (MonoInst*)mono_mempool_alloc0 (cfg->mempool, sizeof (MonoInst));
inst->opcode = OP_BR;
inst->inst_target_bb = bb->last_ins->inst_false_bb;
mono_bblock_add_inst (bb, inst);
}
}
/*
* Make a first pass over the code to precreate PHI nodes/set INDIRECT flags.
*/
for (bb = cfg->bb_entry; bb; bb = bb->next_bb) {
MonoInst *ins;
LLVMBuilderRef builder;
char *dname;
char dname_buf[128];
builder = create_builder (ctx);
for (ins = bb->code; ins; ins = ins->next) {
switch (ins->opcode) {
case OP_PHI:
case OP_FPHI:
case OP_VPHI:
case OP_XPHI: {
LLVMTypeRef phi_type = llvm_type_to_stack_type (cfg, type_to_llvm_type (ctx, m_class_get_byval_arg (ins->klass)));
if (!ctx_ok (ctx))
return;
if (cfg->interp_entry_only)
break;
if (ins->opcode == OP_VPHI) {
/* Treat valuetype PHI nodes as operating on the address itself */
g_assert (ins->klass);
phi_type = LLVMPointerType (type_to_llvm_type (ctx, m_class_get_byval_arg (ins->klass)), 0);
}
/*
* Have to precreate these, as they can be referenced by
* earlier instructions.
*/
sprintf (dname_buf, "t%d", ins->dreg);
dname = dname_buf;
values [ins->dreg] = LLVMBuildPhi (builder, phi_type, dname);
if (ins->opcode == OP_VPHI)
ctx->addresses [ins->dreg] = values [ins->dreg];
g_ptr_array_add (ctx->phi_values, values [ins->dreg]);
/*
* Set the expected type of the incoming arguments since these have
* to have the same type.
*/
for (i = 0; i < ins->inst_phi_args [0]; i++) {
int sreg1 = ins->inst_phi_args [i + 1];
if (sreg1 != -1) {
if (ins->opcode == OP_VPHI)
ctx->is_vphi [sreg1] = TRUE;
ctx->vreg_types [sreg1] = phi_type;
}
}
break;
}
case OP_LDADDR:
((MonoInst*)ins->inst_p0)->flags |= MONO_INST_INDIRECT;
break;
default:
break;
}
}
}
/*
* Create an ordering for bblocks, use the depth first order first, then
* put the exception handling bblocks last.
*/
for (bb_index = 0; bb_index < cfg->num_bblocks; ++bb_index) {
bb = cfg->bblocks [bb_index];
if (!(bb->region != -1 && !MONO_BBLOCK_IS_IN_REGION (bb, MONO_REGION_TRY))) {
g_ptr_array_add (bblock_list, bb);
bblocks [bb->block_num].added = TRUE;
}
}
for (bb = cfg->bb_entry; bb; bb = bb->next_bb) {
if (!bblocks [bb->block_num].added)
g_ptr_array_add (bblock_list, bb);
}
/*
* Second pass: generate code.
*/
// Emit entry point
entry_builder = create_builder (ctx);
entry_bb = get_bb (ctx, cfg->bb_entry);
LLVMPositionBuilderAtEnd (entry_builder, entry_bb);
emit_entry_bb (ctx, entry_builder);
if (llvmonly_fail)
/*
* In llvmonly mode, we want to emit an llvm method for every method even if it fails to compile,
* so direct calls can be made from outside the assembly.
*/
goto after_codegen_1;
for (bb = cfg->bb_entry; bb; bb = bb->next_bb) {
int clause_index;
char name [128];
if (ctx->cfg->interp_entry_only || !(bb->region != -1 && (bb->flags & BB_EXCEPTION_HANDLER)))
continue;
if (ctx->cfg->deopt && MONO_REGION_FLAGS (bb->region) == MONO_EXCEPTION_CLAUSE_FILTER)
continue;
clause_index = MONO_REGION_CLAUSE_INDEX (bb->region);
g_hash_table_insert (ctx->region_to_handler, GUINT_TO_POINTER (mono_get_block_region_notry (cfg, bb->region)), bb);
g_hash_table_insert (ctx->clause_to_handler, GINT_TO_POINTER (clause_index), bb);
/*
* Create a new bblock which CALL_HANDLER/landing pads can branch to, because branching to the
* LLVM bblock containing a landing pad causes problems for the
* LLVM optimizer passes.
*/
sprintf (name, "BB%d_CALL_HANDLER_TARGET", bb->block_num);
ctx->bblocks [bb->block_num].call_handler_target_bb = LLVMAppendBasicBlock (ctx->lmethod, name);
}
// Make landing pads first
ctx->exc_meta = g_hash_table_new_full (NULL, NULL, NULL, NULL);
if (ctx->llvm_only && !ctx->cfg->interp_entry_only) {
size_t group_index = 0;
while (group_index < cfg->header->num_clauses) {
if (cfg->clause_is_dead [group_index]) {
group_index ++;
continue;
}
int count = 0;
size_t cursor = group_index;
while (cursor < cfg->header->num_clauses &&
CLAUSE_START (&cfg->header->clauses [cursor]) == CLAUSE_START (&cfg->header->clauses [group_index]) &&
CLAUSE_END (&cfg->header->clauses [cursor]) == CLAUSE_END (&cfg->header->clauses [group_index])) {
count++;
cursor++;
}
LLVMBasicBlockRef lpad_bb = emit_llvmonly_landing_pad (ctx, group_index, count);
intptr_t key = CLAUSE_END (&cfg->header->clauses [group_index]);
g_hash_table_insert (ctx->exc_meta, (gpointer)key, lpad_bb);
group_index = cursor;
}
}
for (bb_index = 0; bb_index < bblock_list->len; ++bb_index) {
bb = (MonoBasicBlock*)g_ptr_array_index (bblock_list, bb_index);
// Prune unreachable mono BBs.
if (!(bb == cfg->bb_entry || bb->in_count > 0))
continue;
process_bb (ctx, bb);
if (!ctx_ok (ctx))
return;
}
g_hash_table_destroy (ctx->exc_meta);
mono_memory_barrier ();
/* Add incoming phi values */
for (bb = cfg->bb_entry; bb; bb = bb->next_bb) {
GSList *l, *ins_list;
ins_list = bblocks [bb->block_num].phi_nodes;
for (l = ins_list; l; l = l->next) {
PhiNode *node = (PhiNode*)l->data;
MonoInst *phi = node->phi;
int sreg1 = node->sreg;
LLVMBasicBlockRef in_bb;
if (sreg1 == -1)
continue;
in_bb = get_end_bb (ctx, node->in_bb);
if (ctx->unreachable [node->in_bb->block_num])
continue;
if (phi->opcode == OP_VPHI) {
g_assert (LLVMTypeOf (ctx->addresses [sreg1]) == LLVMTypeOf (values [phi->dreg]));
LLVMAddIncoming (values [phi->dreg], &ctx->addresses [sreg1], &in_bb, 1);
} else {
if (!values [sreg1]) {
/* Can happen with values in EH clauses */
set_failure (ctx, "incoming phi sreg1");
return;
}
if (LLVMTypeOf (values [sreg1]) != LLVMTypeOf (values [phi->dreg])) {
set_failure (ctx, "incoming phi arg type mismatch");
return;
}
g_assert (LLVMTypeOf (values [sreg1]) == LLVMTypeOf (values [phi->dreg]));
LLVMAddIncoming (values [phi->dreg], &values [sreg1], &in_bb, 1);
}
}
}
/* Nullify empty phi instructions */
for (bb = cfg->bb_entry; bb; bb = bb->next_bb) {
GSList *l, *ins_list;
ins_list = bblocks [bb->block_num].phi_nodes;
for (l = ins_list; l; l = l->next) {
PhiNode *node = (PhiNode*)l->data;
MonoInst *phi = node->phi;
LLVMValueRef phi_ins = values [phi->dreg];
if (!phi_ins)
/* Already removed */
continue;
if (LLVMCountIncoming (phi_ins) == 0) {
mono_llvm_replace_uses_of (phi_ins, LLVMConstNull (LLVMTypeOf (phi_ins)));
LLVMInstructionEraseFromParent (phi_ins);
values [phi->dreg] = NULL;
}
}
}
/* Create the SWITCH statements for ENDFINALLY instructions */
for (bb = cfg->bb_entry; bb; bb = bb->next_bb) {
BBInfo *info = &bblocks [bb->block_num];
GSList *l;
for (l = info->endfinally_switch_ins_list; l; l = l->next) {
LLVMValueRef switch_ins = (LLVMValueRef)l->data;
GSList *bb_list = info->call_handler_return_bbs;
GSList *bb_list_iter;
i = 0;
for (bb_list_iter = bb_list; bb_list_iter; bb_list_iter = g_slist_next (bb_list_iter)) {
LLVMAddCase (switch_ins, LLVMConstInt (LLVMInt32Type (), i + 1, FALSE), (LLVMBasicBlockRef)bb_list_iter->data);
i ++;
}
}
}
ctx->module->max_method_idx = MAX (ctx->module->max_method_idx, cfg->method_index);
after_codegen_1:
if (llvmonly_fail) {
/*
* FIXME: Maybe fallback to interpreter
*/
static LLVMTypeRef sig;
ctx->builder = create_builder (ctx);
LLVMPositionBuilderAtEnd (ctx->builder, ctx->inited_bb);
char *name = mono_method_get_full_name (cfg->method);
int len = strlen (name);
LLVMTypeRef type = LLVMArrayType (LLVMInt8Type (), len + 1);
LLVMValueRef name_var = LLVMAddGlobal (ctx->lmodule, type, "missing_method_name");
LLVMSetVisibility (name_var, LLVMHiddenVisibility);
LLVMSetLinkage (name_var, LLVMInternalLinkage);
LLVMSetInitializer (name_var, mono_llvm_create_constant_data_array ((guint8*)name, len + 1));
mono_llvm_set_is_constant (name_var);
g_free (name);
if (!sig)
sig = LLVMFunctionType1 (LLVMVoidType (), ctx->module->ptr_type, FALSE);
LLVMValueRef callee = get_callee (ctx, sig, MONO_PATCH_INFO_JIT_ICALL_ADDR, GUINT_TO_POINTER (MONO_JIT_ICALL_mini_llvmonly_throw_aot_failed_exception));
LLVMValueRef args [] = { convert (ctx, name_var, ctx->module->ptr_type) };
LLVMBuildCall (ctx->builder, callee, args, 1, "");
LLVMBuildUnreachable (ctx->builder);
}
/* Initialize the method if needed */
if (cfg->compile_aot) {
// FIXME: Add more shared got entries
ctx->builder = create_builder (ctx);
LLVMPositionBuilderAtEnd (ctx->builder, ctx->init_bb);
// FIXME: beforefieldinit
/*
* NATIVE_TO_MANAGED methods might be called on a thread not attached to the runtime, so they are initialized when loaded
* in load_method ().
*/
gboolean needs_init = ctx->cfg->got_access_count > 0;
MonoMethod *cctor = NULL;
if (!needs_init && (cctor = mono_class_get_cctor (cfg->method->klass))) {
/* Needs init to run the cctor */
if (cfg->method->flags & METHOD_ATTRIBUTE_STATIC)
needs_init = TRUE;
if (cctor == cfg->method)
needs_init = FALSE;
// If we are a constructor, we need to init so the static
// constructor gets called.
if (!strcmp (cfg->method->name, ".ctor"))
needs_init = TRUE;
}
if (cfg->method->wrapper_type == MONO_WRAPPER_NATIVE_TO_MANAGED)
needs_init = FALSE;
if (needs_init)
emit_method_init (ctx);
else
LLVMBuildBr (ctx->builder, ctx->inited_bb);
// Was observing LLVM moving field accesses into the caller's method
// body before the init call (the inlined one), leading to NULL derefs
// after the init_method returns (GOT is filled out though)
if (needs_init)
mono_llvm_add_func_attr (method, LLVM_ATTR_NO_INLINE);
}
if (mini_get_debug_options ()->llvm_disable_inlining)
mono_llvm_add_func_attr (method, LLVM_ATTR_NO_INLINE);
after_codegen:
if (cfg->compile_aot)
g_ptr_array_add (ctx->module->cfgs, cfg);
if (cfg->llvm_only) {
/*
* Add the contents of ctx->callsite_list to module->callsite_list.
* We can't do this earlier, as it contains llvm instructions which can be
* freed if compilation fails.
* FIXME: Get rid of this when all methods can be llvm compiled.
*/
for (int i = 0; i < ctx->callsite_list->len; ++i)
g_ptr_array_add (ctx->module->callsite_list, g_ptr_array_index (ctx->callsite_list, i));
}
if (cfg->verbose_level > 1) {
g_print ("\n*** Unoptimized LLVM IR for %s ***\n", mono_method_full_name (cfg->method, TRUE));
if (cfg->compile_aot) {
mono_llvm_dump_value (method);
} else {
mono_llvm_dump_module (ctx->lmodule);
}
g_print ("***\n\n");
}
if (cfg->compile_aot && !cfg->llvm_only)
mark_as_used (ctx->module, method);
if (!cfg->llvm_only) {
LLVMValueRef md_args [16];
LLVMValueRef md_node;
int method_index;
if (cfg->compile_aot)
method_index = mono_aot_get_method_index (cfg->orig_method);
else
method_index = 1;
md_args [0] = LLVMMDString (ctx->method_name, strlen (ctx->method_name));
md_args [1] = LLVMConstInt (LLVMInt32Type (), method_index, FALSE);
md_node = LLVMMDNode (md_args, 2);
LLVMAddNamedMetadataOperand (lmodule, "mono.function_indexes", md_node);
//LLVMSetMetadata (method, md_kind, LLVMMDNode (&md_arg, 1));
}
if (cfg->compile_aot) {
/* Don't generate native code, keep the LLVM IR */
if (cfg->verbose_level) {
char *name = mono_method_get_full_name (cfg->method);
printf ("%s emitted as %s\n", name, ctx->method_name);
g_free (name);
}
#if 0
int err = LLVMVerifyFunction (ctx->lmethod, LLVMPrintMessageAction);
if (err != 0)
LLVMDumpValue (ctx->lmethod);
g_assert (err == 0);
#endif
} else {
//LLVMVerifyFunction (method, 0);
llvm_jit_finalize_method (ctx);
}
if (ctx->module->method_to_lmethod)
g_hash_table_insert (ctx->module->method_to_lmethod, cfg->method, ctx->lmethod);
if (ctx->module->idx_to_lmethod)
g_hash_table_insert (ctx->module->idx_to_lmethod, GINT_TO_POINTER (cfg->method_index), ctx->lmethod);
if (ctx->llvm_only && m_class_is_valuetype (cfg->orig_method->klass) && !(cfg->orig_method->flags & METHOD_ATTRIBUTE_STATIC))
emit_unbox_tramp (ctx, ctx->method_name, ctx->method_type, ctx->lmethod, cfg->method_index);
}
/*
* mono_llvm_create_vars:
*
* Same as mono_arch_create_vars () for LLVM.
*/
void
mono_llvm_create_vars (MonoCompile *cfg)
{
MonoMethodSignature *sig;
sig = mono_method_signature_internal (cfg->method);
if (cfg->gsharedvt && cfg->llvm_only) {
gboolean vretaddr = FALSE;
if (mini_is_gsharedvt_variable_signature (sig) && sig->ret->type != MONO_TYPE_VOID) {
vretaddr = TRUE;
} else {
MonoMethodSignature *sig = mono_method_signature_internal (cfg->method);
LLVMCallInfo *linfo;
linfo = get_llvm_call_info (cfg, sig);
vretaddr = (linfo->ret.storage == LLVMArgVtypeRetAddr || linfo->ret.storage == LLVMArgVtypeByRef || linfo->ret.storage == LLVMArgGsharedvtFixed || linfo->ret.storage == LLVMArgGsharedvtVariable || linfo->ret.storage == LLVMArgGsharedvtFixedVtype);
}
if (vretaddr) {
/*
* Creating vret_addr forces CEE_SETRET to store the result into it,
* so we don't have to generate any code in our OP_SETRET case.
*/
cfg->vret_addr = mono_compile_create_var (cfg, m_class_get_byval_arg (mono_get_intptr_class ()), OP_ARG);
if (G_UNLIKELY (cfg->verbose_level > 1)) {
printf ("vret_addr = ");
mono_print_ins (cfg->vret_addr);
}
}
} else {
mono_arch_create_vars (cfg);
}
cfg->lmf_ir = TRUE;
}
/*
* mono_llvm_emit_call:
*
* Same as mono_arch_emit_call () for LLVM.
*/
void
mono_llvm_emit_call (MonoCompile *cfg, MonoCallInst *call)
{
MonoInst *in;
MonoMethodSignature *sig;
int i, n;
LLVMArgInfo *ainfo;
sig = call->signature;
n = sig->param_count + sig->hasthis;
if (sig->call_convention == MONO_CALL_VARARG) {
cfg->exception_message = g_strdup ("varargs");
cfg->disable_llvm = TRUE;
return;
}
call->cinfo = get_llvm_call_info (cfg, sig);
if (cfg->disable_llvm)
return;
for (i = 0; i < n; ++i) {
MonoInst *ins;
ainfo = call->cinfo->args + i;
in = call->args [i];
/* Simply remember the arguments */
switch (ainfo->storage) {
case LLVMArgNormal: {
MonoType *t = (sig->hasthis && i == 0) ? m_class_get_byval_arg (mono_get_intptr_class ()) : ainfo->type;
int opcode;
opcode = mono_type_to_regmove (cfg, t);
if (opcode == OP_FMOVE) {
MONO_INST_NEW (cfg, ins, OP_FMOVE);
ins->dreg = mono_alloc_freg (cfg);
} else if (opcode == OP_LMOVE) {
MONO_INST_NEW (cfg, ins, OP_LMOVE);
ins->dreg = mono_alloc_lreg (cfg);
} else if (opcode == OP_RMOVE) {
MONO_INST_NEW (cfg, ins, OP_RMOVE);
ins->dreg = mono_alloc_freg (cfg);
} else {
MONO_INST_NEW (cfg, ins, OP_MOVE);
ins->dreg = mono_alloc_ireg (cfg);
}
ins->sreg1 = in->dreg;
break;
}
case LLVMArgVtypeByVal:
case LLVMArgVtypeByRef:
case LLVMArgVtypeInReg:
case LLVMArgVtypeAddr:
case LLVMArgVtypeAsScalar:
case LLVMArgAsIArgs:
case LLVMArgAsFpArgs:
case LLVMArgGsharedvtVariable:
case LLVMArgGsharedvtFixed:
case LLVMArgGsharedvtFixedVtype:
case LLVMArgWasmVtypeAsScalar:
MONO_INST_NEW (cfg, ins, OP_LLVM_OUTARG_VT);
ins->dreg = mono_alloc_ireg (cfg);
ins->sreg1 = in->dreg;
ins->inst_p0 = mono_mempool_alloc0 (cfg->mempool, sizeof (LLVMArgInfo));
memcpy (ins->inst_p0, ainfo, sizeof (LLVMArgInfo));
ins->inst_vtype = ainfo->type;
ins->klass = mono_class_from_mono_type_internal (ainfo->type);
break;
default:
cfg->exception_message = g_strdup ("ainfo->storage");
cfg->disable_llvm = TRUE;
return;
}
if (!cfg->disable_llvm) {
MONO_ADD_INS (cfg->cbb, ins);
mono_call_inst_add_outarg_reg (cfg, call, ins->dreg, 0, FALSE);
}
}
}
static inline void
add_func (LLVMModuleRef module, const char *name, LLVMTypeRef ret_type, LLVMTypeRef *param_types, int nparams)
{
LLVMAddFunction (module, name, LLVMFunctionType (ret_type, param_types, nparams, FALSE));
}
static LLVMValueRef
add_intrins (LLVMModuleRef module, IntrinsicId id, LLVMTypeRef *params, int nparams)
{
return mono_llvm_register_overloaded_intrinsic (module, id, params, nparams);
}
static LLVMValueRef
add_intrins1 (LLVMModuleRef module, IntrinsicId id, LLVMTypeRef param1)
{
return mono_llvm_register_overloaded_intrinsic (module, id, ¶m1, 1);
}
static LLVMValueRef
add_intrins2 (LLVMModuleRef module, IntrinsicId id, LLVMTypeRef param1, LLVMTypeRef param2)
{
LLVMTypeRef params [] = { param1, param2 };
return mono_llvm_register_overloaded_intrinsic (module, id, params, 2);
}
static LLVMValueRef
add_intrins3 (LLVMModuleRef module, IntrinsicId id, LLVMTypeRef param1, LLVMTypeRef param2, LLVMTypeRef param3)
{
LLVMTypeRef params [] = { param1, param2, param3 };
return mono_llvm_register_overloaded_intrinsic (module, id, params, 3);
}
static void
add_intrinsic (LLVMModuleRef module, int id)
{
/* Register simple intrinsics */
LLVMValueRef intrins = mono_llvm_register_intrinsic (module, (IntrinsicId)id);
if (intrins) {
g_hash_table_insert (intrins_id_to_intrins, GINT_TO_POINTER (id), intrins);
return;
}
if (intrin_arm64_ovr [id] != 0) {
llvm_ovr_tag_t spec = intrin_arm64_ovr [id];
for (int vw = 0; vw < INTRIN_vectorwidths; ++vw) {
for (int ew = 0; ew < INTRIN_elementwidths; ++ew) {
llvm_ovr_tag_t vec_bit = INTRIN_vector128 >> ((INTRIN_vectorwidths - 1) - vw);
llvm_ovr_tag_t elem_bit = INTRIN_int8 << ew;
llvm_ovr_tag_t test = vec_bit | elem_bit;
if ((spec & test) == test) {
uint8_t kind = intrin_kind [id];
LLVMTypeRef distinguishing_type = intrin_types [vw][ew];
if (kind == INTRIN_kind_ftoi && (elem_bit & (INTRIN_int32 | INTRIN_int64))) {
/*
* @llvm.aarch64.neon.fcvtas.v4i32.v4f32
* @llvm.aarch64.neon.fcvtas.v2i64.v2f64
*/
intrins = add_intrins2 (module, id, distinguishing_type, intrin_types [vw][ew + 2]);
} else if (kind == INTRIN_kind_widen) {
/*
* @llvm.aarch64.neon.saddlp.v2i64.v4i32
* @llvm.aarch64.neon.saddlp.v4i16.v8i8
*/
intrins = add_intrins2 (module, id, distinguishing_type, intrin_types [vw][ew - 1]);
} else if (kind == INTRIN_kind_widen_across) {
/*
* @llvm.aarch64.neon.saddlv.i64.v4i32
* @llvm.aarch64.neon.saddlv.i32.v8i16
* @llvm.aarch64.neon.saddlv.i32.v16i8
* i8/i16 return types for NEON intrinsics will make isel fail as of LLVM 9.
*/
int associated_prim = MAX(ew + 1, 2);
LLVMTypeRef associated_scalar_type = intrin_types [0][associated_prim];
intrins = add_intrins2 (module, id, associated_scalar_type, distinguishing_type);
} else if (kind == INTRIN_kind_across) {
/*
* @llvm.aarch64.neon.uaddv.i64.v4i64
* @llvm.aarch64.neon.uaddv.i32.v4i32
* @llvm.aarch64.neon.uaddv.i32.v8i16
* @llvm.aarch64.neon.uaddv.i32.v16i8
* i8/i16 return types for NEON intrinsics will make isel fail as of LLVM 9.
*/
int associated_prim = MAX(ew, 2);
LLVMTypeRef associated_scalar_type = intrin_types [0][associated_prim];
intrins = add_intrins2 (module, id, associated_scalar_type, distinguishing_type);
} else if (kind == INTRIN_kind_arm64_dot_prod) {
/*
* @llvm.aarch64.neon.sdot.v2i32.v8i8
* @llvm.aarch64.neon.sdot.v4i32.v16i8
*/
LLVMTypeRef associated_type = intrin_types [vw][0];
intrins = add_intrins2 (module, id, distinguishing_type, associated_type);
} else
intrins = add_intrins1 (module, id, distinguishing_type);
int key = key_from_id_and_tag (id, test);
g_hash_table_insert (intrins_id_to_intrins, GINT_TO_POINTER (key), intrins);
}
}
}
return;
}
/* Register overloaded intrinsics */
switch (id) {
#define INTRINS(intrin_name, llvm_id, arch)
#define INTRINS_OVR(intrin_name, llvm_id, arch, llvm_type) case INTRINS_ ## intrin_name: intrins = add_intrins1(module, id, llvm_type); break;
#define INTRINS_OVR_2_ARG(intrin_name, llvm_id, arch, llvm_type1, llvm_type2) case INTRINS_ ## intrin_name: intrins = add_intrins2(module, id, llvm_type1, llvm_type2); break;
#define INTRINS_OVR_3_ARG(intrin_name, llvm_id, arch, llvm_type1, llvm_type2, llvm_type3) case INTRINS_ ## intrin_name: intrins = add_intrins3(module, id, llvm_type1, llvm_type2, llvm_type3); break;
#define INTRINS_OVR_TAG(...)
#define INTRINS_OVR_TAG_KIND(...)
#include "llvm-intrinsics.h"
default:
g_assert_not_reached ();
break;
}
g_assert (intrins);
g_hash_table_insert (intrins_id_to_intrins, GINT_TO_POINTER (id), intrins);
}
static LLVMValueRef
get_intrins_from_module (LLVMModuleRef lmodule, int id)
{
LLVMValueRef res;
res = (LLVMValueRef)g_hash_table_lookup (intrins_id_to_intrins, GINT_TO_POINTER (id));
g_assert (res);
return res;
}
static LLVMValueRef
get_intrins (EmitContext *ctx, int id)
{
return get_intrins_from_module (ctx->lmodule, id);
}
static void
add_intrinsics (LLVMModuleRef module)
{
int i;
/* Emit declarations of instrinsics */
/*
* It would be nicer to emit only the intrinsics actually used, but LLVM's Module
* type doesn't seem to do any locking.
*/
for (i = 0; i < INTRINS_NUM; ++i)
add_intrinsic (module, i);
/* EH intrinsics */
add_func (module, "mono_personality", LLVMVoidType (), NULL, 0);
add_func (module, "llvm_resume_unwind_trampoline", LLVMVoidType (), NULL, 0);
}
static void
add_types (MonoLLVMModule *module)
{
module->ptr_type = LLVMPointerType (TARGET_SIZEOF_VOID_P == 8 ? LLVMInt64Type () : LLVMInt32Type (), 0);
}
void
mono_llvm_init (gboolean enable_jit)
{
intrin_types [0][0] = i1_t = LLVMInt8Type ();
intrin_types [0][1] = i2_t = LLVMInt16Type ();
intrin_types [0][2] = i4_t = LLVMInt32Type ();
intrin_types [0][3] = i8_t = LLVMInt64Type ();
intrin_types [0][4] = r4_t = LLVMFloatType ();
intrin_types [0][5] = r8_t = LLVMDoubleType ();
intrin_types [1][0] = v64_i1_t = LLVMVectorType (LLVMInt8Type (), 8);
intrin_types [1][1] = v64_i2_t = LLVMVectorType (LLVMInt16Type (), 4);
intrin_types [1][2] = v64_i4_t = LLVMVectorType (LLVMInt32Type (), 2);
intrin_types [1][3] = v64_i8_t = LLVMVectorType (LLVMInt64Type (), 1);
intrin_types [1][4] = v64_r4_t = LLVMVectorType (LLVMFloatType (), 2);
intrin_types [1][5] = v64_r8_t = LLVMVectorType (LLVMDoubleType (), 1);
intrin_types [2][0] = v128_i1_t = sse_i1_t = type_to_sse_type (MONO_TYPE_I1);
intrin_types [2][1] = v128_i2_t = sse_i2_t = type_to_sse_type (MONO_TYPE_I2);
intrin_types [2][2] = v128_i4_t = sse_i4_t = type_to_sse_type (MONO_TYPE_I4);
intrin_types [2][3] = v128_i8_t = sse_i8_t = type_to_sse_type (MONO_TYPE_I8);
intrin_types [2][4] = v128_r4_t = sse_r4_t = type_to_sse_type (MONO_TYPE_R4);
intrin_types [2][5] = v128_r8_t = sse_r8_t = type_to_sse_type (MONO_TYPE_R8);
intrins_id_to_intrins = g_hash_table_new (NULL, NULL);
void_func_t = LLVMFunctionType0 (LLVMVoidType (), FALSE);
if (enable_jit)
mono_llvm_jit_init ();
}
void
mono_llvm_free_mem_manager (MonoJitMemoryManager *mem_manager)
{
MonoLLVMModule *module = (MonoLLVMModule*)mem_manager->llvm_module;
int i;
if (!module)
return;
g_hash_table_destroy (module->llvm_types);
mono_llvm_dispose_ee (module->mono_ee);
if (module->bb_names) {
for (i = 0; i < module->bb_names_len; ++i)
g_free (module->bb_names [i]);
g_free (module->bb_names);
}
//LLVMDisposeModule (module->module);
g_free (module);
mem_manager->llvm_module = NULL;
}
void
mono_llvm_create_aot_module (MonoAssembly *assembly, const char *global_prefix, int initial_got_size, LLVMModuleFlags flags)
{
MonoLLVMModule *module = &aot_module;
gboolean emit_dwarf = (flags & LLVM_MODULE_FLAG_DWARF) ? 1 : 0;
#ifdef TARGET_WIN32_MSVC
gboolean emit_codeview = (flags & LLVM_MODULE_FLAG_CODEVIEW) ? 1 : 0;
#endif
gboolean static_link = (flags & LLVM_MODULE_FLAG_STATIC) ? 1 : 0;
gboolean llvm_only = (flags & LLVM_MODULE_FLAG_LLVM_ONLY) ? 1 : 0;
gboolean interp = (flags & LLVM_MODULE_FLAG_INTERP) ? 1 : 0;
/* Delete previous module */
g_hash_table_destroy (module->plt_entries);
if (module->lmodule)
LLVMDisposeModule (module->lmodule);
memset (module, 0, sizeof (aot_module));
module->lmodule = LLVMModuleCreateWithName ("aot");
module->assembly = assembly;
module->global_prefix = g_strdup (global_prefix);
module->eh_frame_symbol = g_strdup_printf ("%s_eh_frame", global_prefix);
module->get_method_symbol = g_strdup_printf ("%s_get_method", global_prefix);
module->get_unbox_tramp_symbol = g_strdup_printf ("%s_get_unbox_tramp", global_prefix);
module->init_aotconst_symbol = g_strdup_printf ("%s_init_aotconst", global_prefix);
module->external_symbols = TRUE;
module->emit_dwarf = emit_dwarf;
module->static_link = static_link;
module->llvm_only = llvm_only;
module->interp = interp;
/* The first few entries are reserved */
module->max_got_offset = initial_got_size;
module->context = LLVMGetGlobalContext ();
module->cfgs = g_ptr_array_new ();
module->aotconst_vars = g_hash_table_new (NULL, NULL);
module->llvm_types = g_hash_table_new (NULL, NULL);
module->plt_entries = g_hash_table_new (g_str_hash, g_str_equal);
module->plt_entries_ji = g_hash_table_new (NULL, NULL);
module->direct_callables = g_hash_table_new (g_str_hash, g_str_equal);
module->idx_to_lmethod = g_hash_table_new (NULL, NULL);
module->method_to_lmethod = g_hash_table_new (NULL, NULL);
module->method_to_call_info = g_hash_table_new (NULL, NULL);
module->idx_to_unbox_tramp = g_hash_table_new (NULL, NULL);
module->no_method_table_lmethods = g_hash_table_new (NULL, NULL);
module->callsite_list = g_ptr_array_new ();
if (llvm_only)
/* clang ignores our debug info because it has an invalid version */
module->emit_dwarf = FALSE;
add_intrinsics (module->lmodule);
add_types (module);
#ifdef MONO_ARCH_LLVM_TARGET_LAYOUT
LLVMSetDataLayout (module->lmodule, MONO_ARCH_LLVM_TARGET_LAYOUT);
#else
g_assert_not_reached ();
#endif
#ifdef MONO_ARCH_LLVM_TARGET_TRIPLE
LLVMSetTarget (module->lmodule, MONO_ARCH_LLVM_TARGET_TRIPLE);
#endif
if (module->emit_dwarf) {
char *dir, *build_info, *s, *cu_name;
module->di_builder = mono_llvm_create_di_builder (module->lmodule);
// FIXME:
dir = g_strdup (".");
build_info = mono_get_runtime_build_info ();
s = g_strdup_printf ("Mono AOT Compiler %s (LLVM)", build_info);
cu_name = g_path_get_basename (assembly->image->name);
module->cu = mono_llvm_di_create_compile_unit (module->di_builder, cu_name, dir, s);
g_free (dir);
g_free (build_info);
g_free (s);
}
#ifdef TARGET_WIN32_MSVC
if (emit_codeview) {
LLVMValueRef codeview_option_args[3];
codeview_option_args[0] = LLVMConstInt (LLVMInt32Type (), 2, FALSE);
codeview_option_args[1] = LLVMMDString ("CodeView", 8);
codeview_option_args[2] = LLVMConstInt (LLVMInt32Type (), 1, FALSE);
LLVMAddNamedMetadataOperand (module->lmodule, "llvm.module.flags", LLVMMDNode (codeview_option_args, G_N_ELEMENTS (codeview_option_args)));
}
if (!static_link) {
const char linker_options[] = "Linker Options";
const char *default_dynamic_lib_names[] = { "/DEFAULTLIB:msvcrt",
"/DEFAULTLIB:ucrt.lib",
"/DEFAULTLIB:vcruntime.lib" };
LLVMValueRef default_lib_args[G_N_ELEMENTS (default_dynamic_lib_names)];
LLVMValueRef default_lib_nodes[G_N_ELEMENTS(default_dynamic_lib_names)];
const char *default_lib_name = NULL;
for (int i = 0; i < G_N_ELEMENTS (default_dynamic_lib_names); ++i) {
const char *default_lib_name = default_dynamic_lib_names[i];
default_lib_args[i] = LLVMMDString (default_lib_name, strlen (default_lib_name));
default_lib_nodes[i] = LLVMMDNode (default_lib_args + i, 1);
}
LLVMAddNamedMetadataOperand (module->lmodule, "llvm.linker.options", LLVMMDNode (default_lib_args, G_N_ELEMENTS (default_lib_args)));
}
#endif
{
LLVMTypeRef got_type = LLVMArrayType (module->ptr_type, 16);
module->dummy_got_var = LLVMAddGlobal (module->lmodule, got_type, "dummy_got");
module->got_idx_to_type = g_hash_table_new (NULL, NULL);
LLVMSetInitializer (module->dummy_got_var, LLVMConstNull (got_type));
LLVMSetVisibility (module->dummy_got_var, LLVMHiddenVisibility);
LLVMSetLinkage (module->dummy_got_var, LLVMInternalLinkage);
}
/* Add initialization array */
LLVMTypeRef inited_type = LLVMArrayType (LLVMInt8Type (), 0);
module->inited_var = LLVMAddGlobal (aot_module.lmodule, inited_type, "mono_inited_tmp");
LLVMSetInitializer (module->inited_var, LLVMConstNull (inited_type));
create_aot_info_var (module);
emit_gc_safepoint_poll (module, module->lmodule, NULL);
emit_llvm_code_start (module);
// Needs idx_to_lmethod
emit_init_funcs (module);
/* Add a dummy personality function */
if (!use_mono_personality_debug) {
LLVMValueRef personality = LLVMAddFunction (module->lmodule, get_personality_name (), LLVMFunctionType (LLVMInt32Type (), NULL, 0, TRUE));
LLVMSetLinkage (personality, LLVMExternalLinkage);
//EMCC chockes if the personality function is referenced in the 'used' array
#ifndef TARGET_WASM
mark_as_used (module, personality);
#endif
}
/* Add a reference to the c++ exception we throw/catch */
{
LLVMTypeRef exc = LLVMPointerType (LLVMInt8Type (), 0);
module->sentinel_exception = LLVMAddGlobal (module->lmodule, exc, "_ZTIPi");
LLVMSetLinkage (module->sentinel_exception, LLVMExternalLinkage);
mono_llvm_set_is_constant (module->sentinel_exception);
}
}
void
mono_llvm_fixup_aot_module (void)
{
MonoLLVMModule *module = &aot_module;
MonoMethod *method;
/*
* Replace GOT entries for directly callable methods with the methods themselves.
* It would be easier to implement this by predefining all methods before compiling
* their bodies, but that couldn't handle the case when a method fails to compile
* with llvm.
*/
GHashTable *specializable = g_hash_table_new (NULL, NULL);
GHashTable *patches_to_null = g_hash_table_new (mono_patch_info_hash, mono_patch_info_equal);
for (int sindex = 0; sindex < module->callsite_list->len; ++sindex) {
CallSite *site = (CallSite*)g_ptr_array_index (module->callsite_list, sindex);
method = site->method;
LLVMValueRef lmethod = (LLVMValueRef)g_hash_table_lookup (module->method_to_lmethod, method);
LLVMValueRef placeholder = (LLVMValueRef)site->load;
LLVMValueRef load;
if (placeholder == NULL)
/* Method failed LLVM compilation */
continue;
gboolean can_direct_call = FALSE;
/* Replace sharable instances with their shared version */
if (!lmethod && method->is_inflated) {
if (mono_method_is_generic_sharable_full (method, FALSE, TRUE, FALSE)) {
ERROR_DECL (error);
MonoMethod *shared = mini_get_shared_method_full (method, SHARE_MODE_NONE, error);
if (is_ok (error)) {
lmethod = (LLVMValueRef)g_hash_table_lookup (module->method_to_lmethod, shared);
if (lmethod)
method = shared;
}
}
}
if (lmethod && !m_method_is_synchronized (method)) {
can_direct_call = TRUE;
} else if (m_method_is_wrapper (method) && !method->is_inflated) {
WrapperInfo *info = mono_marshal_get_wrapper_info (method);
/* This is a call from the synchronized wrapper to the real method */
if (info->subtype == WRAPPER_SUBTYPE_SYNCHRONIZED_INNER) {
method = info->d.synchronized.method;
lmethod = (LLVMValueRef)g_hash_table_lookup (module->method_to_lmethod, method);
if (lmethod)
can_direct_call = TRUE;
}
}
if (can_direct_call) {
mono_llvm_replace_uses_of (placeholder, lmethod);
if (mono_aot_can_specialize (method))
g_hash_table_insert (specializable, lmethod, method);
g_hash_table_insert (patches_to_null, site->ji, site->ji);
} else {
// FIXME:
LLVMBuilderRef builder = LLVMCreateBuilder ();
LLVMPositionBuilderBefore (builder, placeholder);
load = get_aotconst_module (module, builder, site->ji->type, site->ji->data.target, site->type, NULL, NULL);
LLVMReplaceAllUsesWith (placeholder, load);
}
g_free (site);
}
mono_llvm_propagate_nonnull_final (specializable, module);
g_hash_table_destroy (specializable);
for (int i = 0; i < module->cfgs->len; ++i) {
/*
* Nullify the patches pointing to direct calls. This is needed to
* avoid allocating extra got slots, which is a perf problem and it
* makes module->max_got_offset invalid.
* It would be better to just store the patch_info in CallSite, but
* cfg->patch_info is copied in aot-compiler.c.
*/
MonoCompile *cfg = (MonoCompile *)g_ptr_array_index (module->cfgs, i);
for (MonoJumpInfo *patch_info = cfg->patch_info; patch_info; patch_info = patch_info->next) {
if (patch_info->type == MONO_PATCH_INFO_METHOD) {
if (g_hash_table_lookup (patches_to_null, patch_info)) {
patch_info->type = MONO_PATCH_INFO_NONE;
/* Nullify the call to init_method () if possible */
g_assert (cfg->got_access_count);
cfg->got_access_count --;
if (cfg->got_access_count == 0) {
LLVMValueRef br = (LLVMValueRef)cfg->llvmonly_init_cond;
if (br)
LLVMSetSuccessor (br, 0, LLVMGetSuccessor (br, 1));
}
}
}
}
}
g_hash_table_destroy (patches_to_null);
}
static LLVMValueRef
llvm_array_from_uints (LLVMTypeRef el_type, guint32 *values, int nvalues)
{
int i;
LLVMValueRef res, *vals;
vals = g_new0 (LLVMValueRef, nvalues);
for (i = 0; i < nvalues; ++i)
vals [i] = LLVMConstInt (LLVMInt32Type (), values [i], FALSE);
res = LLVMConstArray (LLVMInt32Type (), vals, nvalues);
g_free (vals);
return res;
}
static LLVMValueRef
llvm_array_from_bytes (guint8 *values, int nvalues)
{
int i;
LLVMValueRef res, *vals;
vals = g_new0 (LLVMValueRef, nvalues);
for (i = 0; i < nvalues; ++i)
vals [i] = LLVMConstInt (LLVMInt8Type (), values [i], FALSE);
res = LLVMConstArray (LLVMInt8Type (), vals, nvalues);
g_free (vals);
return res;
}
/*
* mono_llvm_emit_aot_file_info:
*
* Emit the MonoAotFileInfo structure.
* Same as emit_aot_file_info () in aot-compiler.c.
*/
void
mono_llvm_emit_aot_file_info (MonoAotFileInfo *info, gboolean has_jitted_code)
{
MonoLLVMModule *module = &aot_module;
/* Save these for later */
memcpy (&module->aot_info, info, sizeof (MonoAotFileInfo));
module->has_jitted_code = has_jitted_code;
}
/*
* mono_llvm_emit_aot_data:
*
* Emit the binary data DATA pointed to by symbol SYMBOL.
* Return the LLVM variable for the data.
*/
gpointer
mono_llvm_emit_aot_data_aligned (const char *symbol, guint8 *data, int data_len, int align)
{
MonoLLVMModule *module = &aot_module;
LLVMTypeRef type;
LLVMValueRef d;
type = LLVMArrayType (LLVMInt8Type (), data_len);
d = LLVMAddGlobal (module->lmodule, type, symbol);
LLVMSetVisibility (d, LLVMHiddenVisibility);
LLVMSetLinkage (d, LLVMInternalLinkage);
LLVMSetInitializer (d, mono_llvm_create_constant_data_array (data, data_len));
if (align != 1)
LLVMSetAlignment (d, align);
mono_llvm_set_is_constant (d);
return d;
}
gpointer
mono_llvm_emit_aot_data (const char *symbol, guint8 *data, int data_len)
{
return mono_llvm_emit_aot_data_aligned (symbol, data, data_len, 8);
}
/* Add a reference to a global defined in JITted code */
static LLVMValueRef
AddJitGlobal (MonoLLVMModule *module, LLVMTypeRef type, const char *name)
{
char *s;
LLVMValueRef v;
s = g_strdup_printf ("%s%s", module->global_prefix, name);
v = LLVMAddGlobal (module->lmodule, LLVMInt8Type (), s);
LLVMSetVisibility (v, LLVMHiddenVisibility);
g_free (s);
return v;
}
#define FILE_INFO_NUM_HEADER_FIELDS 2
#define FILE_INFO_NUM_SCALAR_FIELDS 23
#define FILE_INFO_NUM_ARRAY_FIELDS 5
#define FILE_INFO_NUM_AOTID_FIELDS 1
#define FILE_INFO_NFIELDS (FILE_INFO_NUM_HEADER_FIELDS + MONO_AOT_FILE_INFO_NUM_SYMBOLS + FILE_INFO_NUM_SCALAR_FIELDS + FILE_INFO_NUM_ARRAY_FIELDS + FILE_INFO_NUM_AOTID_FIELDS)
static void
create_aot_info_var (MonoLLVMModule *module)
{
LLVMTypeRef file_info_type;
LLVMTypeRef *eltypes;
LLVMValueRef info_var;
int i, nfields, tindex;
LLVMModuleRef lmodule = module->lmodule;
/* Create an LLVM type to represent MonoAotFileInfo */
nfields = FILE_INFO_NFIELDS;
eltypes = g_new (LLVMTypeRef, nfields);
tindex = 0;
eltypes [tindex ++] = LLVMInt32Type ();
eltypes [tindex ++] = LLVMInt32Type ();
/* Symbols */
for (i = 0; i < MONO_AOT_FILE_INFO_NUM_SYMBOLS; ++i)
eltypes [tindex ++] = LLVMPointerType (LLVMInt8Type (), 0);
/* Scalars */
for (i = 0; i < FILE_INFO_NUM_SCALAR_FIELDS; ++i)
eltypes [tindex ++] = LLVMInt32Type ();
/* Arrays */
eltypes [tindex ++] = LLVMArrayType (LLVMInt32Type (), MONO_AOT_TABLE_NUM);
for (i = 0; i < FILE_INFO_NUM_ARRAY_FIELDS - 1; ++i)
eltypes [tindex ++] = LLVMArrayType (LLVMInt32Type (), MONO_AOT_TRAMP_NUM);
eltypes [tindex ++] = LLVMArrayType (LLVMInt8Type (), 16);
g_assert (tindex == nfields);
file_info_type = LLVMStructCreateNamed (module->context, "MonoAotFileInfo");
LLVMStructSetBody (file_info_type, eltypes, nfields, FALSE);
info_var = LLVMAddGlobal (lmodule, file_info_type, "mono_aot_file_info");
module->info_var = info_var;
module->info_var_eltypes = eltypes;
}
static void
emit_aot_file_info (MonoLLVMModule *module)
{
LLVMTypeRef *eltypes, eltype;
LLVMValueRef info_var;
LLVMValueRef *fields;
int i, nfields, tindex;
MonoAotFileInfo *info;
LLVMModuleRef lmodule = module->lmodule;
info = &module->aot_info;
info_var = module->info_var;
eltypes = module->info_var_eltypes;
nfields = FILE_INFO_NFIELDS;
if (module->static_link) {
LLVMSetVisibility (info_var, LLVMHiddenVisibility);
LLVMSetLinkage (info_var, LLVMInternalLinkage);
}
#ifdef TARGET_WIN32
if (!module->static_link) {
LLVMSetDLLStorageClass (info_var, LLVMDLLExportStorageClass);
}
#endif
fields = g_new (LLVMValueRef, nfields);
tindex = 0;
fields [tindex ++] = LLVMConstInt (LLVMInt32Type (), info->version, FALSE);
fields [tindex ++] = LLVMConstInt (LLVMInt32Type (), info->dummy, FALSE);
/* Symbols */
/*
* We use LLVMGetNamedGlobal () for symbol which are defined in LLVM code, and LLVMAddGlobal ()
* for symbols defined in the .s file emitted by the aot compiler.
*/
eltype = eltypes [tindex];
if (module->llvm_only)
fields [tindex ++] = LLVMConstNull (eltype);
else
fields [tindex ++] = AddJitGlobal (module, eltype, "jit_got");
/* llc defines this directly */
if (!module->llvm_only) {
fields [tindex ++] = LLVMAddGlobal (lmodule, eltype, module->eh_frame_symbol);
fields [tindex ++] = LLVMConstNull (eltype);
fields [tindex ++] = LLVMConstNull (eltype);
} else {
fields [tindex ++] = LLVMConstNull (eltype);
fields [tindex ++] = module->get_method;
fields [tindex ++] = module->get_unbox_tramp ? module->get_unbox_tramp : LLVMConstNull (eltype);
}
fields [tindex ++] = module->init_aotconst_func;
if (module->has_jitted_code) {
fields [tindex ++] = AddJitGlobal (module, eltype, "jit_code_start");
fields [tindex ++] = AddJitGlobal (module, eltype, "jit_code_end");
} else {
fields [tindex ++] = LLVMConstNull (eltype);
fields [tindex ++] = LLVMConstNull (eltype);
}
if (!module->llvm_only)
fields [tindex ++] = AddJitGlobal (module, eltype, "method_addresses");
else
fields [tindex ++] = LLVMConstNull (eltype);
if (module->llvm_only && module->unbox_tramp_indexes) {
fields [tindex ++] = module->unbox_tramp_indexes;
fields [tindex ++] = module->unbox_trampolines;
} else {
fields [tindex ++] = LLVMConstNull (eltype);
fields [tindex ++] = LLVMConstNull (eltype);
}
if (info->flags & MONO_AOT_FILE_FLAG_SEPARATE_DATA) {
for (i = 0; i < MONO_AOT_TABLE_NUM; ++i)
fields [tindex ++] = LLVMConstNull (eltype);
} else {
fields [tindex ++] = LLVMGetNamedGlobal (lmodule, "blob");
fields [tindex ++] = LLVMGetNamedGlobal (lmodule, "class_name_table");
fields [tindex ++] = LLVMGetNamedGlobal (lmodule, "class_info_offsets");
fields [tindex ++] = LLVMGetNamedGlobal (lmodule, "method_info_offsets");
fields [tindex ++] = LLVMGetNamedGlobal (lmodule, "ex_info_offsets");
fields [tindex ++] = LLVMGetNamedGlobal (lmodule, "extra_method_info_offsets");
fields [tindex ++] = LLVMGetNamedGlobal (lmodule, "extra_method_table");
fields [tindex ++] = LLVMGetNamedGlobal (lmodule, "got_info_offsets");
fields [tindex ++] = LLVMGetNamedGlobal (lmodule, "llvm_got_info_offsets");
fields [tindex ++] = LLVMGetNamedGlobal (lmodule, "image_table");
fields [tindex ++] = LLVMGetNamedGlobal (lmodule, "weak_field_indexes");
fields [tindex ++] = LLVMGetNamedGlobal (lmodule, "method_flags_table");
}
/* Not needed (mem_end) */
fields [tindex ++] = LLVMConstNull (eltype);
fields [tindex ++] = LLVMGetNamedGlobal (lmodule, "assembly_guid");
fields [tindex ++] = LLVMGetNamedGlobal (lmodule, "runtime_version");
if (info->trampoline_size [0]) {
fields [tindex ++] = AddJitGlobal (module, eltype, "specific_trampolines");
fields [tindex ++] = AddJitGlobal (module, eltype, "static_rgctx_trampolines");
fields [tindex ++] = AddJitGlobal (module, eltype, "imt_trampolines");
fields [tindex ++] = AddJitGlobal (module, eltype, "gsharedvt_arg_trampolines");
fields [tindex ++] = AddJitGlobal (module, eltype, "ftnptr_arg_trampolines");
fields [tindex ++] = AddJitGlobal (module, eltype, "unbox_arbitrary_trampolines");
} else {
fields [tindex ++] = LLVMConstNull (eltype);
fields [tindex ++] = LLVMConstNull (eltype);
fields [tindex ++] = LLVMConstNull (eltype);
fields [tindex ++] = LLVMConstNull (eltype);
fields [tindex ++] = LLVMConstNull (eltype);
fields [tindex ++] = LLVMConstNull (eltype);
}
if (module->static_link && !module->llvm_only)
fields [tindex ++] = AddJitGlobal (module, eltype, "globals");
else
fields [tindex ++] = LLVMConstNull (eltype);
fields [tindex ++] = LLVMGetNamedGlobal (lmodule, "assembly_name");
if (!module->llvm_only) {
fields [tindex ++] = AddJitGlobal (module, eltype, "plt");
fields [tindex ++] = AddJitGlobal (module, eltype, "plt_end");
fields [tindex ++] = AddJitGlobal (module, eltype, "unwind_info");
fields [tindex ++] = AddJitGlobal (module, eltype, "unbox_trampolines");
fields [tindex ++] = AddJitGlobal (module, eltype, "unbox_trampolines_end");
fields [tindex ++] = AddJitGlobal (module, eltype, "unbox_trampoline_addresses");
} else {
fields [tindex ++] = LLVMConstNull (eltype);
fields [tindex ++] = LLVMConstNull (eltype);
fields [tindex ++] = LLVMConstNull (eltype);
fields [tindex ++] = LLVMConstNull (eltype);
fields [tindex ++] = LLVMConstNull (eltype);
fields [tindex ++] = LLVMConstNull (eltype);
}
for (i = 0; i < MONO_AOT_FILE_INFO_NUM_SYMBOLS; ++i) {
g_assert (fields [FILE_INFO_NUM_HEADER_FIELDS + i]);
fields [FILE_INFO_NUM_HEADER_FIELDS + i] = LLVMConstBitCast (fields [FILE_INFO_NUM_HEADER_FIELDS + i], eltype);
}
/* Scalars */
fields [tindex ++] = LLVMConstInt (LLVMInt32Type (), info->plt_got_offset_base, FALSE);
fields [tindex ++] = LLVMConstInt (LLVMInt32Type (), info->plt_got_info_offset_base, FALSE);
fields [tindex ++] = LLVMConstInt (LLVMInt32Type (), info->got_size, FALSE);
fields [tindex ++] = LLVMConstInt (LLVMInt32Type (), info->llvm_got_size, FALSE);
fields [tindex ++] = LLVMConstInt (LLVMInt32Type (), info->plt_size, FALSE);
fields [tindex ++] = LLVMConstInt (LLVMInt32Type (), info->nmethods, FALSE);
fields [tindex ++] = LLVMConstInt (LLVMInt32Type (), info->nextra_methods, FALSE);
fields [tindex ++] = LLVMConstInt (LLVMInt32Type (), info->flags, FALSE);
fields [tindex ++] = LLVMConstInt (LLVMInt32Type (), info->opts, FALSE);
fields [tindex ++] = LLVMConstInt (LLVMInt32Type (), info->simd_opts, FALSE);
fields [tindex ++] = LLVMConstInt (LLVMInt32Type (), info->gc_name_index, FALSE);
fields [tindex ++] = LLVMConstInt (LLVMInt32Type (), info->num_rgctx_fetch_trampolines, FALSE);
fields [tindex ++] = LLVMConstInt (LLVMInt32Type (), info->double_align, FALSE);
fields [tindex ++] = LLVMConstInt (LLVMInt32Type (), info->long_align, FALSE);
fields [tindex ++] = LLVMConstInt (LLVMInt32Type (), info->generic_tramp_num, FALSE);
fields [tindex ++] = LLVMConstInt (LLVMInt32Type (), info->card_table_shift_bits, FALSE);
fields [tindex ++] = LLVMConstInt (LLVMInt32Type (), info->card_table_mask, FALSE);
fields [tindex ++] = LLVMConstInt (LLVMInt32Type (), info->tramp_page_size, FALSE);
fields [tindex ++] = LLVMConstInt (LLVMInt32Type (), info->call_table_entry_size, FALSE);
fields [tindex ++] = LLVMConstInt (LLVMInt32Type (), info->nshared_got_entries, FALSE);
fields [tindex ++] = LLVMConstInt (LLVMInt32Type (), info->datafile_size, FALSE);
fields [tindex ++] = LLVMConstInt (LLVMInt32Type (), module->unbox_tramp_num, FALSE);
fields [tindex ++] = LLVMConstInt (LLVMInt32Type (), module->unbox_tramp_elemsize, FALSE);
/* Arrays */
fields [tindex ++] = llvm_array_from_uints (LLVMInt32Type (), info->table_offsets, MONO_AOT_TABLE_NUM);
fields [tindex ++] = llvm_array_from_uints (LLVMInt32Type (), info->num_trampolines, MONO_AOT_TRAMP_NUM);
fields [tindex ++] = llvm_array_from_uints (LLVMInt32Type (), info->trampoline_got_offset_base, MONO_AOT_TRAMP_NUM);
fields [tindex ++] = llvm_array_from_uints (LLVMInt32Type (), info->trampoline_size, MONO_AOT_TRAMP_NUM);
fields [tindex ++] = llvm_array_from_uints (LLVMInt32Type (), info->tramp_page_code_offsets, MONO_AOT_TRAMP_NUM);
fields [tindex ++] = llvm_array_from_bytes (info->aotid, 16);
g_assert (tindex == nfields);
LLVMSetInitializer (info_var, LLVMConstNamedStruct (LLVMGetElementType (LLVMTypeOf (info_var)), fields, nfields));
if (module->static_link) {
char *s, *p;
LLVMValueRef var;
s = g_strdup_printf ("mono_aot_module_%s_info", module->assembly->aname.name);
/* Get rid of characters which cannot occur in symbols */
p = s;
for (p = s; *p; ++p) {
if (!(isalnum (*p) || *p == '_'))
*p = '_';
}
var = LLVMAddGlobal (module->lmodule, LLVMPointerType (LLVMInt8Type (), 0), s);
g_free (s);
LLVMSetInitializer (var, LLVMConstBitCast (LLVMGetNamedGlobal (module->lmodule, "mono_aot_file_info"), LLVMPointerType (LLVMInt8Type (), 0)));
LLVMSetLinkage (var, LLVMExternalLinkage);
}
}
typedef struct {
LLVMValueRef lmethod;
int argument;
} NonnullPropWorkItem;
static void
mono_llvm_nonnull_state_update (EmitContext *ctx, LLVMValueRef lcall, MonoMethod *call_method, LLVMValueRef *args, int num_params)
{
if (mono_aot_can_specialize (call_method)) {
int num_passed = LLVMGetNumArgOperands (lcall);
g_assert (num_params <= num_passed);
g_assert (ctx->module->method_to_call_info);
GArray *call_site_union = (GArray *) g_hash_table_lookup (ctx->module->method_to_call_info, call_method);
if (!call_site_union) {
call_site_union = g_array_sized_new (FALSE, TRUE, sizeof (gint32), num_params);
int zero = 0;
for (int i = 0; i < num_params; i++)
g_array_insert_val (call_site_union, i, zero);
}
for (int i = 0; i < num_params; i++) {
if (mono_llvm_is_nonnull (args [i])) {
g_assert (i < LLVMGetNumArgOperands (lcall));
mono_llvm_set_call_nonnull_arg (lcall, i);
} else {
gint32 *nullable_count = &g_array_index (call_site_union, gint32, i);
*nullable_count = *nullable_count + 1;
}
}
g_hash_table_insert (ctx->module->method_to_call_info, call_method, call_site_union);
}
}
static void
mono_llvm_propagate_nonnull_final (GHashTable *all_specializable, MonoLLVMModule *module)
{
// When we first traverse the mini IL, we mark the things that are
// nonnull (the roots). Then, for all of the methods that can be specialized, we
// see if their call sites have nonnull attributes.
// If so, we mark the function's param. This param has uses to propagate
// the attribute to. This propagation can trigger a need to mark more attributes
// non-null, and so on and so forth.
GSList *queue = NULL;
GHashTableIter iter;
LLVMValueRef lmethod;
MonoMethod *method;
g_hash_table_iter_init (&iter, all_specializable);
while (g_hash_table_iter_next (&iter, (void**)&lmethod, (void**)&method)) {
GArray *call_site_union = (GArray *) g_hash_table_lookup (module->method_to_call_info, method);
// Basic sanity checking
if (call_site_union)
g_assert (call_site_union->len == LLVMCountParams (lmethod));
// Add root to work queue
for (int i = 0; call_site_union && i < call_site_union->len; i++) {
if (g_array_index (call_site_union, gint32, i) == 0) {
NonnullPropWorkItem *item = g_malloc (sizeof (NonnullPropWorkItem));
item->lmethod = lmethod;
item->argument = i;
queue = g_slist_prepend (queue, item);
}
}
}
// This is essentially reference counting, and we are propagating
// the refcount decrement here. We have less work to do than we may otherwise
// because we are only working with a set of subgraphs of specializable functions.
//
// We rely on being able to see all of the references in the graph.
// This is ensured by the function mono_aot_can_specialize. Everything in
// all_specializable is a function that can be specialized, and is the resulting
// node in the graph after all of the subsitutions are done.
//
// Anything disrupting the direct calls made with self-init will break this optimization.
while (queue) {
// Update the queue state.
// Our only other per-iteration responsibility is now to free current
NonnullPropWorkItem *current = (NonnullPropWorkItem *) queue->data;
queue = queue->next;
g_assert (current->argument < LLVMCountParams (current->lmethod));
// Does the actual leaf-node work here
// Mark the function argument as nonnull for LLVM
mono_llvm_set_func_nonnull_arg (current->lmethod, current->argument);
// The rest of this is for propagating forward nullability changes
// to calls that use the argument that is now nullable.
// Get the actual LLVM value of the argument, so we can see which call instructions
// used that argument
LLVMValueRef caller_argument = LLVMGetParam (current->lmethod, current->argument);
// Iterate over the calls using the newly-non-nullable argument
GSList *calls = mono_llvm_calls_using (caller_argument);
for (GSList *cursor = calls; cursor != NULL; cursor = cursor->next) {
LLVMValueRef lcall = (LLVMValueRef) cursor->data;
LLVMValueRef callee_lmethod = LLVMGetCalledValue (lcall);
// If this wasn't a direct call for which mono_aot_can_specialize is true,
// this lookup won't find a MonoMethod.
MonoMethod *callee_method = (MonoMethod *) g_hash_table_lookup (all_specializable, callee_lmethod);
if (!callee_method)
continue;
// Decrement number of nullable refs at that func's arg offset
GArray *call_site_union = (GArray *) g_hash_table_lookup (module->method_to_call_info, callee_method);
// It has module-local callers and is specializable, should have seen this call site
// and inited this
g_assert (call_site_union);
// The function *definition* parameter arity should always be consistent
int max_params = LLVMCountParams (callee_lmethod);
if (call_site_union->len != max_params) {
mono_llvm_dump_value (callee_lmethod);
g_assert_not_reached ();
}
// Get the values that correspond to the parameters passed to the call
// that used our argument
LLVMValueRef *operands = mono_llvm_call_args (lcall);
for (int call_argument = 0; call_argument < max_params; call_argument++) {
// Every time we used the newly-non-nullable argument, decrement the nullable
// refcount for that function.
if (caller_argument == operands [call_argument]) {
gint32 *nullable_count = &g_array_index (call_site_union, gint32, call_argument);
g_assert (*nullable_count > 0);
*nullable_count = *nullable_count - 1;
// If we caused that callee's parameter to become newly nullable, add to work queue
if (*nullable_count == 0) {
NonnullPropWorkItem *item = g_malloc (sizeof (NonnullPropWorkItem));
item->lmethod = callee_lmethod;
item->argument = call_argument;
queue = g_slist_prepend (queue, item);
}
}
}
g_free (operands);
// Update nullability refcount information for the callee now
g_hash_table_insert (module->method_to_call_info, callee_method, call_site_union);
}
g_slist_free (calls);
g_free (current);
}
}
/*
* Emit the aot module into the LLVM bitcode file FILENAME.
*/
void
mono_llvm_emit_aot_module (const char *filename, const char *cu_name)
{
LLVMTypeRef inited_type;
LLVMValueRef real_inited;
MonoLLVMModule *module = &aot_module;
emit_llvm_code_end (module);
/*
* Create the real init_var and replace all uses of the dummy variable with
* the real one.
*/
inited_type = LLVMArrayType (LLVMInt8Type (), module->max_inited_idx + 1);
real_inited = LLVMAddGlobal (module->lmodule, inited_type, "mono_inited");
LLVMSetInitializer (real_inited, LLVMConstNull (inited_type));
LLVMSetLinkage (real_inited, LLVMInternalLinkage);
mono_llvm_replace_uses_of (module->inited_var, real_inited);
LLVMDeleteGlobal (module->inited_var);
/* Replace the dummy info_ variables with the real ones */
for (int i = 0; i < module->cfgs->len; ++i) {
MonoCompile *cfg = (MonoCompile *)g_ptr_array_index (module->cfgs, i);
// FIXME: Eliminate unused vars
// FIXME: Speed this up
if (cfg->llvm_dummy_info_var) {
if (cfg->llvm_info_var) {
mono_llvm_replace_uses_of (cfg->llvm_dummy_info_var, cfg->llvm_info_var);
LLVMDeleteGlobal (cfg->llvm_dummy_info_var);
} else {
// FIXME: How can this happen ?
LLVMSetInitializer (cfg->llvm_dummy_info_var, mono_llvm_create_constant_data_array (NULL, 0));
}
}
}
if (module->llvm_only) {
emit_get_method (&aot_module);
emit_get_unbox_tramp (&aot_module);
}
emit_init_aotconst (module);
emit_llvm_used (&aot_module);
emit_dbg_info (&aot_module, filename, cu_name);
emit_aot_file_info (&aot_module);
/* Replace PLT entries for directly callable methods with the methods themselves */
{
GHashTableIter iter;
MonoJumpInfo *ji;
LLVMValueRef callee;
GHashTable *specializable = g_hash_table_new (NULL, NULL);
g_hash_table_iter_init (&iter, module->plt_entries_ji);
while (g_hash_table_iter_next (&iter, (void**)&ji, (void**)&callee)) {
if (mono_aot_is_direct_callable (ji)) {
LLVMValueRef lmethod;
lmethod = (LLVMValueRef)g_hash_table_lookup (module->method_to_lmethod, ji->data.method);
/* The types might not match because the caller might pass an rgctx */
if (lmethod && LLVMTypeOf (callee) == LLVMTypeOf (lmethod)) {
mono_llvm_replace_uses_of (callee, lmethod);
if (mono_aot_can_specialize (ji->data.method))
g_hash_table_insert (specializable, lmethod, ji->data.method);
mono_aot_mark_unused_llvm_plt_entry (ji);
}
}
}
mono_llvm_propagate_nonnull_final (specializable, module);
g_hash_table_destroy (specializable);
}
#if 0
{
char *verifier_err;
if (LLVMVerifyModule (module->lmodule, LLVMReturnStatusAction, &verifier_err)) {
printf ("%s\n", verifier_err);
g_assert_not_reached ();
}
}
#endif
/* Note: You can still dump an invalid bitcode file by running `llvm-dis`
* in a debugger, set a breakpoint on `LLVMVerifyModule` and fake its
* result to 0 (indicating success). */
LLVMWriteBitcodeToFile (module->lmodule, filename);
}
static LLVMValueRef
md_string (const char *s)
{
return LLVMMDString (s, strlen (s));
}
/* Debugging support */
static void
emit_dbg_info (MonoLLVMModule *module, const char *filename, const char *cu_name)
{
LLVMModuleRef lmodule = module->lmodule;
LLVMValueRef args [16], ver;
/*
* This can only be enabled when LLVM code is emitted into a separate object
* file, since the AOT compiler also emits dwarf info,
* and the abbrev indexes will not be correct since llvm has added its own
* abbrevs.
*/
if (!module->emit_dwarf)
return;
mono_llvm_di_builder_finalize (module->di_builder);
args [0] = LLVMConstInt (LLVMInt32Type (), 2, FALSE);
args [1] = LLVMMDString ("Dwarf Version", strlen ("Dwarf Version"));
args [2] = LLVMConstInt (LLVMInt32Type (), 2, FALSE);
ver = LLVMMDNode (args, 3);
LLVMAddNamedMetadataOperand (lmodule, "llvm.module.flags", ver);
args [0] = LLVMConstInt (LLVMInt32Type (), 2, FALSE);
args [1] = LLVMMDString ("Debug Info Version", strlen ("Debug Info Version"));
args [2] = LLVMConstInt (LLVMInt64Type (), 3, FALSE);
ver = LLVMMDNode (args, 3);
LLVMAddNamedMetadataOperand (lmodule, "llvm.module.flags", ver);
}
static LLVMValueRef
emit_dbg_subprogram (EmitContext *ctx, MonoCompile *cfg, LLVMValueRef method, const char *name)
{
MonoLLVMModule *module = ctx->module;
MonoDebugMethodInfo *minfo = ctx->minfo;
char *source_file, *dir, *filename;
MonoSymSeqPoint *sym_seq_points;
int n_seq_points;
if (!minfo)
return NULL;
mono_debug_get_seq_points (minfo, &source_file, NULL, NULL, &sym_seq_points, &n_seq_points);
if (!source_file)
source_file = g_strdup ("<unknown>");
dir = g_path_get_dirname (source_file);
filename = g_path_get_basename (source_file);
g_free (source_file);
return (LLVMValueRef)mono_llvm_di_create_function (module->di_builder, module->cu, method, cfg->method->name, name, dir, filename, n_seq_points ? sym_seq_points [0].line : 1);
}
static void
emit_dbg_loc (EmitContext *ctx, LLVMBuilderRef builder, const unsigned char *cil_code)
{
MonoCompile *cfg = ctx->cfg;
if (ctx->minfo && cil_code && cil_code >= cfg->header->code && cil_code < cfg->header->code + cfg->header->code_size) {
MonoDebugSourceLocation *loc;
LLVMValueRef loc_md;
loc = mono_debug_method_lookup_location (ctx->minfo, cil_code - cfg->header->code);
if (loc) {
loc_md = (LLVMValueRef)mono_llvm_di_create_location (ctx->module->di_builder, ctx->dbg_md, loc->row, loc->column);
mono_llvm_di_set_location (builder, loc_md);
mono_debug_free_source_location (loc);
}
}
}
static void
emit_default_dbg_loc (EmitContext *ctx, LLVMBuilderRef builder)
{
if (ctx->minfo) {
LLVMValueRef loc_md;
loc_md = (LLVMValueRef)mono_llvm_di_create_location (ctx->module->di_builder, ctx->dbg_md, 0, 0);
mono_llvm_di_set_location (builder, loc_md);
}
}
/*
DESIGN:
- Emit LLVM IR from the mono IR using the LLVM C API.
- The original arch specific code remains, so we can fall back to it if we run
into something we can't handle.
*/
/*
A partial list of issues:
- Handling of opcodes which can throw exceptions.
In the mono JIT, these are implemented using code like this:
method:
<compare>
throw_pos:
b<cond> ex_label
<rest of code>
ex_label:
push throw_pos - method
call <exception trampoline>
The problematic part is push throw_pos - method, which cannot be represented
in the LLVM IR, since it does not support label values.
-> this can be implemented in AOT mode using inline asm + labels, but cannot
be implemented in JIT mode ?
-> a possible but slower implementation would use the normal exception
throwing code but it would need to control the placement of the throw code
(it needs to be exactly after the compare+branch).
-> perhaps add a PC offset intrinsics ?
- efficient implementation of .ovf opcodes.
These are currently implemented as:
<ins which sets the condition codes>
b<cond> ex_label
Some overflow opcodes are now supported by LLVM SVN.
- exception handling, unwinding.
- SSA is disabled for methods with exception handlers
- How to obtain unwind info for LLVM compiled methods ?
-> this is now solved by converting the unwind info generated by LLVM
into our format.
- LLVM uses the c++ exception handling framework, while we use our home grown
code, and couldn't use the c++ one:
- its not supported under VC++, other exotic platforms.
- it might be impossible to support filter clauses with it.
- trampolines.
The trampolines need a predictable call sequence, since they need to disasm
the calling code to obtain register numbers / offsets.
LLVM currently generates this code in non-JIT mode:
mov -0x98(%rax),%eax
callq *%rax
Here, the vtable pointer is lost.
-> solution: use one vtable trampoline per class.
- passing/receiving the IMT pointer/RGCTX.
-> solution: pass them as normal arguments ?
- argument passing.
LLVM does not allow the specification of argument registers etc. This means
that all calls are made according to the platform ABI.
- passing/receiving vtypes.
Vtypes passed/received in registers are handled by the front end by using
a signature with scalar arguments, and loading the parts of the vtype into those
arguments.
Vtypes passed on the stack are handled using the 'byval' attribute.
- ldaddr.
Supported though alloca, we need to emit the load/store code.
- types.
The mono JIT uses pointer sized iregs/double fregs, while LLVM uses precisely
typed registers, so we have to keep track of the precise LLVM type of each vreg.
This is made easier because the IR is already in SSA form.
An additional problem is that our IR is not consistent with types, i.e. i32/i64
types are frequently used incorrectly.
*/
/*
AOT SUPPORT:
Emit LLVM bytecode into a .bc file, compile it using llc into a .s file, then link
it with the file containing the methods emitted by the JIT and the AOT data
structures.
*/
/* FIXME: Normalize some aspects of the mono IR to allow easier translation, like:
* - each bblock should end with a branch
* - setting the return value, making cfg->ret non-volatile
* - avoid some transformations in the JIT which make it harder for us to generate
* code.
* - use pointer types to help optimizations.
*/
#else /* DISABLE_JIT */
void
mono_llvm_cleanup (void)
{
}
void
mono_llvm_free_mem_manager (MonoJitMemoryManager *mem_manager)
{
}
void
mono_llvm_init (gboolean enable_jit)
{
}
#endif /* DISABLE_JIT */
#if !defined(DISABLE_JIT) && !defined(MONO_CROSS_COMPILE)
/* LLVM JIT support */
/*
* decode_llvm_eh_info:
*
* Decode the EH table emitted by llvm in jit mode, and store
* the result into cfg.
*/
static void
decode_llvm_eh_info (EmitContext *ctx, gpointer eh_frame)
{
MonoCompile *cfg = ctx->cfg;
guint8 *cie, *fde;
int fde_len;
MonoLLVMFDEInfo info;
MonoJitExceptionInfo *ei;
guint8 *p = (guint8*)eh_frame;
int version, fde_count, fde_offset;
guint32 ei_len, i, nested_len;
gpointer *type_info;
gint32 *table;
guint8 *unw_info;
/*
* Decode the one element EH table emitted by the MonoException class
* in llvm.
*/
/* Similar to decode_llvm_mono_eh_frame () in aot-runtime.c */
version = *p;
g_assert (version == 3);
p ++;
p ++;
p = (guint8 *)ALIGN_PTR_TO (p, 4);
fde_count = *(guint32*)p;
p += 4;
table = (gint32*)p;
g_assert (fde_count <= 2);
/* The first entry is the real method */
g_assert (table [0] == 1);
fde_offset = table [1];
table += fde_count * 2;
/* Extra entry */
cfg->code_len = table [0];
fde_len = table [1] - fde_offset;
table += 2;
fde = (guint8*)eh_frame + fde_offset;
cie = (guint8*)table;
/* Compute lengths */
mono_unwind_decode_llvm_mono_fde (fde, fde_len, cie, cfg->native_code, &info, NULL, NULL, NULL);
ei = (MonoJitExceptionInfo *)g_malloc0 (info.ex_info_len * sizeof (MonoJitExceptionInfo));
type_info = (gpointer *)g_malloc0 (info.ex_info_len * sizeof (gpointer));
unw_info = (guint8*)g_malloc0 (info.unw_info_len);
mono_unwind_decode_llvm_mono_fde (fde, fde_len, cie, cfg->native_code, &info, ei, type_info, unw_info);
cfg->encoded_unwind_ops = unw_info;
cfg->encoded_unwind_ops_len = info.unw_info_len;
if (cfg->verbose_level > 1)
mono_print_unwind_info (cfg->encoded_unwind_ops, cfg->encoded_unwind_ops_len);
if (info.this_reg != -1) {
cfg->llvm_this_reg = info.this_reg;
cfg->llvm_this_offset = info.this_offset;
}
ei_len = info.ex_info_len;
// Nested clauses are currently disabled
nested_len = 0;
cfg->llvm_ex_info = (MonoJitExceptionInfo*)mono_mempool_alloc0 (cfg->mempool, (ei_len + nested_len) * sizeof (MonoJitExceptionInfo));
cfg->llvm_ex_info_len = ei_len + nested_len;
memcpy (cfg->llvm_ex_info, ei, ei_len * sizeof (MonoJitExceptionInfo));
/* Fill the rest of the information from the type info */
for (i = 0; i < ei_len; ++i) {
gint32 clause_index = *(gint32*)type_info [i];
MonoExceptionClause *clause = &cfg->header->clauses [clause_index];
cfg->llvm_ex_info [i].flags = clause->flags;
cfg->llvm_ex_info [i].data.catch_class = clause->data.catch_class;
cfg->llvm_ex_info [i].clause_index = clause_index;
}
}
static MonoLLVMModule*
init_jit_module (void)
{
MonoJitMemoryManager *jit_mm;
MonoLLVMModule *module;
// FIXME:
jit_mm = get_default_jit_mm ();
if (jit_mm->llvm_module)
return (MonoLLVMModule*)jit_mm->llvm_module;
mono_loader_lock ();
if (jit_mm->llvm_module) {
mono_loader_unlock ();
return (MonoLLVMModule*)jit_mm->llvm_module;
}
module = g_new0 (MonoLLVMModule, 1);
module->context = LLVMGetGlobalContext ();
module->mono_ee = (MonoEERef*)mono_llvm_create_ee (&module->ee);
// This contains just the intrinsics
module->lmodule = LLVMModuleCreateWithName ("jit-global-module");
add_intrinsics (module->lmodule);
add_types (module);
module->llvm_types = g_hash_table_new (NULL, NULL);
mono_memory_barrier ();
jit_mm->llvm_module = module;
mono_loader_unlock ();
return (MonoLLVMModule*)jit_mm->llvm_module;
}
static void
llvm_jit_finalize_method (EmitContext *ctx)
{
MonoCompile *cfg = ctx->cfg;
int nvars = g_hash_table_size (ctx->jit_callees);
LLVMValueRef *callee_vars = g_new0 (LLVMValueRef, nvars);
gpointer *callee_addrs = g_new0 (gpointer, nvars);
GHashTableIter iter;
LLVMValueRef var;
MonoMethod *callee;
gpointer eh_frame;
int i;
/*
* Compute the addresses of the LLVM globals pointing to the
* methods called by the current method. Pass it to the trampoline
* code so it can update them after their corresponding method was
* compiled.
*/
g_hash_table_iter_init (&iter, ctx->jit_callees);
i = 0;
while (g_hash_table_iter_next (&iter, NULL, (void**)&var))
callee_vars [i ++] = var;
mono_llvm_optimize_method (ctx->lmethod);
if (cfg->verbose_level > 1) {
g_print ("\n*** Optimized LLVM IR for %s ***\n", mono_method_full_name (cfg->method, TRUE));
if (cfg->compile_aot) {
mono_llvm_dump_value (ctx->lmethod);
} else {
mono_llvm_dump_module (ctx->lmodule);
}
g_print ("***\n\n");
}
mono_codeman_enable_write ();
cfg->native_code = (guint8*)mono_llvm_compile_method (ctx->module->mono_ee, cfg, ctx->lmethod, nvars, callee_vars, callee_addrs, &eh_frame);
mono_llvm_remove_gc_safepoint_poll (ctx->lmodule);
mono_codeman_disable_write ();
decode_llvm_eh_info (ctx, eh_frame);
// FIXME:
MonoJitMemoryManager *jit_mm = get_default_jit_mm ();
jit_mm_lock (jit_mm);
if (!jit_mm->llvm_jit_callees)
jit_mm->llvm_jit_callees = g_hash_table_new (NULL, NULL);
g_hash_table_iter_init (&iter, ctx->jit_callees);
i = 0;
while (g_hash_table_iter_next (&iter, (void**)&callee, (void**)&var)) {
GSList *addrs = (GSList*)g_hash_table_lookup (jit_mm->llvm_jit_callees, callee);
addrs = g_slist_prepend (addrs, callee_addrs [i]);
g_hash_table_insert (jit_mm->llvm_jit_callees, callee, addrs);
i ++;
}
jit_mm_unlock (jit_mm);
}
#else
static MonoLLVMModule*
init_jit_module (void)
{
g_assert_not_reached ();
}
static void
llvm_jit_finalize_method (EmitContext *ctx)
{
g_assert_not_reached ();
}
#endif
static MonoCPUFeatures cpu_features;
MonoCPUFeatures mono_llvm_get_cpu_features (void)
{
static const CpuFeatureAliasFlag flags_map [] = {
#if defined(TARGET_X86) || defined(TARGET_AMD64)
{ "sse", MONO_CPU_X86_SSE },
{ "sse2", MONO_CPU_X86_SSE2 },
{ "pclmul", MONO_CPU_X86_PCLMUL },
{ "aes", MONO_CPU_X86_AES },
{ "sse2", MONO_CPU_X86_SSE2 },
{ "sse3", MONO_CPU_X86_SSE3 },
{ "ssse3", MONO_CPU_X86_SSSE3 },
{ "sse4.1", MONO_CPU_X86_SSE41 },
{ "sse4.2", MONO_CPU_X86_SSE42 },
{ "popcnt", MONO_CPU_X86_POPCNT },
{ "avx", MONO_CPU_X86_AVX },
{ "avx2", MONO_CPU_X86_AVX2 },
{ "fma", MONO_CPU_X86_FMA },
{ "lzcnt", MONO_CPU_X86_LZCNT },
{ "bmi", MONO_CPU_X86_BMI1 },
{ "bmi2", MONO_CPU_X86_BMI2 },
#endif
#if defined(TARGET_ARM64)
{ "crc", MONO_CPU_ARM64_CRC },
{ "crypto", MONO_CPU_ARM64_CRYPTO },
{ "neon", MONO_CPU_ARM64_NEON },
{ "rdm", MONO_CPU_ARM64_RDM },
{ "dotprod", MONO_CPU_ARM64_DP },
#endif
#if defined(TARGET_WASM)
{ "simd", MONO_CPU_WASM_SIMD },
#endif
// flags_map cannot be zero length in MSVC, so add useless dummy entry for arm32
#if defined(TARGET_ARM) && defined(HOST_WIN32)
{ "inited", MONO_CPU_INITED},
#endif
};
if (!cpu_features)
cpu_features = MONO_CPU_INITED | (MonoCPUFeatures)mono_llvm_check_cpu_features (flags_map, G_N_ELEMENTS (flags_map));
return cpu_features;
}
|
/**
* \file
* llvm "Backend" for the mono JIT
*
* Copyright 2009-2011 Novell Inc (http://www.novell.com)
* Copyright 2011 Xamarin Inc (http://www.xamarin.com)
* Licensed under the MIT license. See LICENSE file in the project root for full license information.
*/
#include "config.h"
#include <mono/metadata/debug-helpers.h>
#include <mono/metadata/debug-internals.h>
#include <mono/metadata/mempool-internals.h>
#include <mono/metadata/environment.h>
#include <mono/metadata/object-internals.h>
#include <mono/metadata/abi-details.h>
#include <mono/metadata/tokentype.h>
#include <mono/utils/mono-tls.h>
#include <mono/utils/mono-dl.h>
#include <mono/utils/mono-time.h>
#include <mono/utils/freebsd-dwarf.h>
#include <mono/utils/options.h>
#ifndef __STDC_LIMIT_MACROS
#define __STDC_LIMIT_MACROS
#endif
#ifndef __STDC_CONSTANT_MACROS
#define __STDC_CONSTANT_MACROS
#endif
#include "llvm-c/BitWriter.h"
#include "llvm-c/Analysis.h"
#include "mini-llvm-cpp.h"
#include "llvm-jit.h"
#include "aot-compiler.h"
#include "mini-llvm.h"
#include "mini-runtime.h"
#include <mono/utils/mono-math.h>
#ifndef DISABLE_JIT
#if defined(TARGET_AMD64) && defined(TARGET_WIN32) && defined(HOST_WIN32) && defined(_MSC_VER)
#define TARGET_X86_64_WIN32_MSVC
#endif
#if defined(TARGET_X86_64_WIN32_MSVC)
#define TARGET_WIN32_MSVC
#endif
#if LLVM_API_VERSION < 900
#error "The version of the mono llvm repository is too old."
#endif
/*
* Information associated by mono with LLVM modules.
*/
typedef struct {
LLVMModuleRef lmodule;
LLVMValueRef throw_icall, rethrow, throw_corlib_exception;
GHashTable *llvm_types;
LLVMValueRef dummy_got_var;
const char *get_method_symbol;
const char *get_unbox_tramp_symbol;
const char *init_aotconst_symbol;
GHashTable *plt_entries;
GHashTable *plt_entries_ji;
GHashTable *method_to_lmethod;
GHashTable *method_to_call_info;
GHashTable *lvalue_to_lcalls;
GHashTable *direct_callables;
/* Maps got slot index -> LLVMValueRef */
GHashTable *aotconst_vars;
char **bb_names;
int bb_names_len;
GPtrArray *used;
LLVMTypeRef ptr_type;
GPtrArray *subprogram_mds;
MonoEERef *mono_ee;
LLVMExecutionEngineRef ee;
gboolean external_symbols;
gboolean emit_dwarf;
int max_got_offset;
LLVMValueRef personality;
gpointer gc_poll_cold_wrapper_compiled;
/* For AOT */
MonoAssembly *assembly;
char *global_prefix;
MonoAotFileInfo aot_info;
const char *eh_frame_symbol;
LLVMValueRef get_method, get_unbox_tramp, init_aotconst_func;
LLVMValueRef init_methods [AOT_INIT_METHOD_NUM];
LLVMValueRef code_start, code_end;
LLVMValueRef inited_var;
LLVMValueRef unbox_tramp_indexes;
LLVMValueRef unbox_trampolines;
LLVMValueRef gc_poll_cold_wrapper;
LLVMValueRef info_var;
LLVMTypeRef *info_var_eltypes;
int max_inited_idx, max_method_idx;
gboolean has_jitted_code;
gboolean static_link;
gboolean llvm_only;
gboolean interp;
GHashTable *idx_to_lmethod;
GHashTable *idx_to_unbox_tramp;
GPtrArray *callsite_list;
LLVMContextRef context;
LLVMValueRef sentinel_exception;
LLVMValueRef gc_safe_point_flag_var;
LLVMValueRef interrupt_flag_var;
void *di_builder, *cu;
GHashTable *objc_selector_to_var;
GPtrArray *cfgs;
int unbox_tramp_num, unbox_tramp_elemsize;
GHashTable *got_idx_to_type;
GHashTable *no_method_table_lmethods;
} MonoLLVMModule;
/*
* Information associated by the backend with mono basic blocks.
*/
typedef struct {
LLVMBasicBlockRef bblock, end_bblock;
LLVMValueRef finally_ind;
gboolean added, invoke_target;
/*
* If this bblock is the start of a finally clause, this is a list of bblocks it
* needs to branch to in ENDFINALLY.
*/
GSList *call_handler_return_bbs;
/*
* If this bblock is the start of a finally clause, this is the bblock that
* CALL_HANDLER needs to branch to.
*/
LLVMBasicBlockRef call_handler_target_bb;
/* The list of switch statements generated by ENDFINALLY instructions */
GSList *endfinally_switch_ins_list;
GSList *phi_nodes;
} BBInfo;
/*
* Structure containing emit state
*/
typedef struct {
MonoMemPool *mempool;
/* Maps method names to the corresponding LLVMValueRef */
GHashTable *emitted_method_decls;
MonoCompile *cfg;
LLVMValueRef lmethod;
MonoLLVMModule *module;
LLVMModuleRef lmodule;
BBInfo *bblocks;
int sindex, default_index, ex_index;
LLVMBuilderRef builder;
LLVMValueRef *values, *addresses;
MonoType **vreg_cli_types;
LLVMCallInfo *linfo;
MonoMethodSignature *sig;
GSList *builders;
GHashTable *region_to_handler;
GHashTable *clause_to_handler;
LLVMBuilderRef alloca_builder;
LLVMValueRef last_alloca;
LLVMValueRef rgctx_arg;
LLVMValueRef this_arg;
LLVMTypeRef *vreg_types;
gboolean *is_vphi;
LLVMTypeRef method_type;
LLVMBasicBlockRef init_bb, inited_bb;
gboolean *is_dead;
gboolean *unreachable;
gboolean llvm_only;
gboolean has_got_access;
gboolean is_linkonce;
gboolean emit_dummy_arg;
gboolean has_safepoints;
gboolean has_catch;
int this_arg_pindex, rgctx_arg_pindex;
LLVMValueRef imt_rgctx_loc;
GHashTable *llvm_types;
LLVMValueRef dbg_md;
MonoDebugMethodInfo *minfo;
/* For every clause, the clauses it is nested in */
GSList **nested_in;
LLVMValueRef ex_var;
GHashTable *exc_meta;
GPtrArray *callsite_list;
GPtrArray *phi_values;
GPtrArray *bblock_list;
char *method_name;
GHashTable *jit_callees;
LLVMValueRef long_bb_break_var;
int *gc_var_indexes;
LLVMValueRef gc_pin_area;
LLVMValueRef il_state;
LLVMValueRef il_state_ret;
} EmitContext;
typedef struct {
MonoBasicBlock *bb;
MonoInst *phi;
MonoBasicBlock *in_bb;
int sreg;
} PhiNode;
/*
* Instruction metadata
* This is the same as ins_info, but LREG != IREG.
*/
#ifdef MINI_OP
#undef MINI_OP
#endif
#ifdef MINI_OP3
#undef MINI_OP3
#endif
#define MINI_OP(a,b,dest,src1,src2) dest, src1, src2, ' ',
#define MINI_OP3(a,b,dest,src1,src2,src3) dest, src1, src2, src3,
#define NONE ' '
#define IREG 'i'
#define FREG 'f'
#define VREG 'v'
#define XREG 'x'
#define LREG 'l'
/* keep in sync with the enum in mini.h */
const char
mini_llvm_ins_info[] = {
#include "mini-ops.h"
};
#undef MINI_OP
#undef MINI_OP3
#if TARGET_SIZEOF_VOID_P == 4
#define GET_LONG_IMM(ins) ((ins)->inst_l)
#else
#define GET_LONG_IMM(ins) ((ins)->inst_imm)
#endif
#define LLVM_INS_INFO(opcode) (&mini_llvm_ins_info [((opcode) - OP_START - 1) * 4])
#if 0
#define TRACE_FAILURE(msg) do { printf ("%s\n", msg); } while (0)
#else
#define TRACE_FAILURE(msg)
#endif
#ifdef TARGET_X86
#define IS_TARGET_X86 1
#else
#define IS_TARGET_X86 0
#endif
#ifdef TARGET_AMD64
#define IS_TARGET_AMD64 1
#else
#define IS_TARGET_AMD64 0
#endif
#define ctx_ok(ctx) (!(ctx)->cfg->disable_llvm)
enum {
MAX_VECTOR_ELEMS = 32, // 2 vectors * 128 bits per vector / 8 bits per element
ARM64_MAX_VECTOR_ELEMS = 16,
};
const int mask_0_incr_1 [] = {
0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16,
17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31,
};
static LLVMIntPredicate cond_to_llvm_cond [] = {
LLVMIntEQ,
LLVMIntNE,
LLVMIntSLE,
LLVMIntSGE,
LLVMIntSLT,
LLVMIntSGT,
LLVMIntULE,
LLVMIntUGE,
LLVMIntULT,
LLVMIntUGT,
};
static LLVMRealPredicate fpcond_to_llvm_cond [] = {
LLVMRealOEQ,
LLVMRealUNE,
LLVMRealOLE,
LLVMRealOGE,
LLVMRealOLT,
LLVMRealOGT,
LLVMRealULE,
LLVMRealUGE,
LLVMRealULT,
LLVMRealUGT,
LLVMRealORD,
LLVMRealUNO
};
/* See Table 3-1 ("Comparison Predicate for CMPPD and CMPPS Instructions") in
* Vol. 2A of the Intel SDM.
*/
enum {
SSE_eq_ord_nosignal = 0,
SSE_lt_ord_signal = 1,
SSE_le_ord_signal = 2,
SSE_unord_nosignal = 3,
SSE_neq_unord_nosignal = 4,
SSE_nlt_unord_signal = 5,
SSE_nle_unord_signal = 6,
SSE_ord_nosignal = 7,
};
static MonoLLVMModule aot_module;
static GHashTable *intrins_id_to_intrins;
static LLVMTypeRef i1_t, i2_t, i4_t, i8_t, r4_t, r8_t;
static LLVMTypeRef sse_i1_t, sse_i2_t, sse_i4_t, sse_i8_t, sse_r4_t, sse_r8_t;
static LLVMTypeRef v64_i1_t, v64_i2_t, v64_i4_t, v64_i8_t, v64_r4_t, v64_r8_t;
static LLVMTypeRef v128_i1_t, v128_i2_t, v128_i4_t, v128_i8_t, v128_r4_t, v128_r8_t;
static LLVMTypeRef void_func_t;
static MonoLLVMModule *init_jit_module (void);
static void emit_dbg_loc (EmitContext *ctx, LLVMBuilderRef builder, const unsigned char *cil_code);
static void emit_default_dbg_loc (EmitContext *ctx, LLVMBuilderRef builder);
static LLVMValueRef emit_dbg_subprogram (EmitContext *ctx, MonoCompile *cfg, LLVMValueRef method, const char *name);
static void emit_dbg_info (MonoLLVMModule *module, const char *filename, const char *cu_name);
static void emit_cond_system_exception (EmitContext *ctx, MonoBasicBlock *bb, const char *exc_type, LLVMValueRef cmp, gboolean force_explicit);
static LLVMValueRef get_intrins (EmitContext *ctx, int id);
static LLVMValueRef get_intrins_from_module (LLVMModuleRef lmodule, int id);
static void llvm_jit_finalize_method (EmitContext *ctx);
static void mono_llvm_nonnull_state_update (EmitContext *ctx, LLVMValueRef lcall, MonoMethod *call_method, LLVMValueRef *args, int num_params);
static void mono_llvm_propagate_nonnull_final (GHashTable *all_specializable, MonoLLVMModule *module);
static void create_aot_info_var (MonoLLVMModule *module);
static void set_invariant_load_flag (LLVMValueRef v);
static void set_nonnull_load_flag (LLVMValueRef v);
enum {
INTRIN_scalar = 1 << 0,
INTRIN_vector64 = 1 << 1,
INTRIN_vector128 = 1 << 2,
INTRIN_vectorwidths = 3,
INTRIN_vectormask = 0x7,
INTRIN_int8 = 1 << 3,
INTRIN_int16 = 1 << 4,
INTRIN_int32 = 1 << 5,
INTRIN_int64 = 1 << 6,
INTRIN_float32 = 1 << 7,
INTRIN_float64 = 1 << 8,
INTRIN_elementwidths = 6,
};
typedef uint16_t llvm_ovr_tag_t;
static LLVMTypeRef intrin_types [INTRIN_vectorwidths][INTRIN_elementwidths];
static const llvm_ovr_tag_t intrin_arm64_ovr [] = {
#define INTRINS(sym, ...) 0,
#define INTRINS_OVR(sym, ...) 0,
#define INTRINS_OVR_2_ARG(sym, ...) 0,
#define INTRINS_OVR_3_ARG(sym, ...) 0,
#define INTRINS_OVR_TAG(sym, _, arch, spec) spec,
#define INTRINS_OVR_TAG_KIND(sym, _, kind, arch, spec) spec,
#include "llvm-intrinsics.h"
};
enum {
INTRIN_kind_ftoi = 1,
INTRIN_kind_widen,
INTRIN_kind_widen_across,
INTRIN_kind_across,
INTRIN_kind_arm64_dot_prod,
};
static const uint8_t intrin_kind [] = {
#define INTRINS(sym, ...) 0,
#define INTRINS_OVR(sym, ...) 0,
#define INTRINS_OVR_2_ARG(sym, ...) 0,
#define INTRINS_OVR_3_ARG(sym, ...) 0,
#define INTRINS_OVR_TAG(sym, _, arch, spec) 0,
#define INTRINS_OVR_TAG_KIND(sym, _, arch, kind, spec) kind,
#include "llvm-intrinsics.h"
};
static inline llvm_ovr_tag_t
ovr_tag_force_scalar (llvm_ovr_tag_t tag)
{
return (tag & ~INTRIN_vectormask) | INTRIN_scalar;
}
static inline llvm_ovr_tag_t
ovr_tag_smaller_vector (llvm_ovr_tag_t tag)
{
return (tag & ~INTRIN_vectormask) | ((tag & INTRIN_vectormask) >> 1);
}
static inline llvm_ovr_tag_t
ovr_tag_smaller_elements (llvm_ovr_tag_t tag)
{
return ((tag & ~INTRIN_vectormask) >> 1) | (tag & INTRIN_vectormask);
}
static inline llvm_ovr_tag_t
ovr_tag_corresponding_integer (llvm_ovr_tag_t tag)
{
return ((tag & ~INTRIN_vectormask) >> 2) | (tag & INTRIN_vectormask);
}
static LLVMTypeRef
ovr_tag_to_llvm_type (llvm_ovr_tag_t tag)
{
int vw = 0;
int ew = 0;
if (tag & INTRIN_vector64) vw = 1;
else if (tag & INTRIN_vector128) vw = 2;
if (tag & INTRIN_int16) ew = 1;
else if (tag & INTRIN_int32) ew = 2;
else if (tag & INTRIN_int64) ew = 3;
else if (tag & INTRIN_float32) ew = 4;
else if (tag & INTRIN_float64) ew = 5;
return intrin_types [vw][ew];
}
static int
key_from_id_and_tag (int id, llvm_ovr_tag_t ovr_tag)
{
return (((int) ovr_tag) << 23) | id;
}
static llvm_ovr_tag_t
ovr_tag_from_mono_vector_class (MonoClass *klass) {
int size = mono_class_value_size (klass, NULL);
llvm_ovr_tag_t ret = 0;
switch (size) {
case 8: ret |= INTRIN_vector64; break;
case 16: ret |= INTRIN_vector128; break;
}
MonoType *etype = mono_class_get_context (klass)->class_inst->type_argv [0];
switch (etype->type) {
case MONO_TYPE_I1: case MONO_TYPE_U1: ret |= INTRIN_int8; break;
case MONO_TYPE_I2: case MONO_TYPE_U2: ret |= INTRIN_int16; break;
case MONO_TYPE_I4: case MONO_TYPE_U4: ret |= INTRIN_int32; break;
case MONO_TYPE_I8: case MONO_TYPE_U8: ret |= INTRIN_int64; break;
case MONO_TYPE_R4: ret |= INTRIN_float32; break;
case MONO_TYPE_R8: ret |= INTRIN_float64; break;
}
return ret;
}
static llvm_ovr_tag_t
ovr_tag_from_llvm_type (LLVMTypeRef type)
{
llvm_ovr_tag_t ret = 0;
LLVMTypeKind kind = LLVMGetTypeKind (type);
LLVMTypeRef elem_t = NULL;
switch (kind) {
case LLVMVectorTypeKind: {
elem_t = LLVMGetElementType (type);
unsigned int bits = mono_llvm_get_prim_size_bits (type);
switch (bits) {
case 64: ret |= INTRIN_vector64; break;
case 128: ret |= INTRIN_vector128; break;
default: g_assert_not_reached ();
}
break;
}
default:
g_assert_not_reached ();
}
if (elem_t == i1_t) ret |= INTRIN_int8;
if (elem_t == i2_t) ret |= INTRIN_int16;
if (elem_t == i4_t) ret |= INTRIN_int32;
if (elem_t == i8_t) ret |= INTRIN_int64;
if (elem_t == r4_t) ret |= INTRIN_float32;
if (elem_t == r8_t) ret |= INTRIN_float64;
return ret;
}
static inline void
set_failure (EmitContext *ctx, const char *message)
{
TRACE_FAILURE (reason);
ctx->cfg->exception_message = g_strdup (message);
ctx->cfg->disable_llvm = TRUE;
}
static LLVMValueRef
const_int1 (int v)
{
return LLVMConstInt (LLVMInt1Type (), v ? 1 : 0, FALSE);
}
static LLVMValueRef
const_int8 (int v)
{
return LLVMConstInt (LLVMInt8Type (), v, FALSE);
}
static LLVMValueRef
const_int32 (int v)
{
return LLVMConstInt (LLVMInt32Type (), v, FALSE);
}
static LLVMValueRef
const_int64 (int64_t v)
{
return LLVMConstInt (LLVMInt64Type (), v, FALSE);
}
/*
* IntPtrType:
*
* The LLVM type with width == TARGET_SIZEOF_VOID_P
*/
static LLVMTypeRef
IntPtrType (void)
{
return TARGET_SIZEOF_VOID_P == 8 ? LLVMInt64Type () : LLVMInt32Type ();
}
static LLVMTypeRef
ObjRefType (void)
{
return TARGET_SIZEOF_VOID_P == 8 ? LLVMPointerType (LLVMInt64Type (), 0) : LLVMPointerType (LLVMInt32Type (), 0);
}
static LLVMTypeRef
ThisType (void)
{
return TARGET_SIZEOF_VOID_P == 8 ? LLVMPointerType (LLVMInt64Type (), 0) : LLVMPointerType (LLVMInt32Type (), 0);
}
typedef struct {
int32_t size;
uint32_t align;
} MonoSizeAlign;
/*
* get_vtype_size:
*
* Return the size of the LLVM representation of the vtype T.
*/
static MonoSizeAlign
get_vtype_size_align (MonoType *t)
{
uint32_t align = 0;
int32_t size = mono_class_value_size (mono_class_from_mono_type_internal (t), &align);
/* LLVMArgAsIArgs depends on this since it stores whole words */
while (size < 2 * TARGET_SIZEOF_VOID_P && mono_is_power_of_two (size) == -1)
size ++;
MonoSizeAlign ret = { size, align };
return ret;
}
/*
* simd_class_to_llvm_type:
*
* Return the LLVM type corresponding to the Mono.SIMD class KLASS
*/
static LLVMTypeRef
simd_class_to_llvm_type (EmitContext *ctx, MonoClass *klass)
{
const char *klass_name = m_class_get_name (klass);
if (!strcmp (klass_name, "Vector2d")) {
return LLVMVectorType (LLVMDoubleType (), 2);
} else if (!strcmp (klass_name, "Vector2l")) {
return LLVMVectorType (LLVMInt64Type (), 2);
} else if (!strcmp (klass_name, "Vector2ul")) {
return LLVMVectorType (LLVMInt64Type (), 2);
} else if (!strcmp (klass_name, "Vector4i")) {
return LLVMVectorType (LLVMInt32Type (), 4);
} else if (!strcmp (klass_name, "Vector4ui")) {
return LLVMVectorType (LLVMInt32Type (), 4);
} else if (!strcmp (klass_name, "Vector4f")) {
return LLVMVectorType (LLVMFloatType (), 4);
} else if (!strcmp (klass_name, "Vector8s")) {
return LLVMVectorType (LLVMInt16Type (), 8);
} else if (!strcmp (klass_name, "Vector8us")) {
return LLVMVectorType (LLVMInt16Type (), 8);
} else if (!strcmp (klass_name, "Vector16sb")) {
return LLVMVectorType (LLVMInt8Type (), 16);
} else if (!strcmp (klass_name, "Vector16b")) {
return LLVMVectorType (LLVMInt8Type (), 16);
} else if (!strcmp (klass_name, "Vector2")) {
/* System.Numerics */
return LLVMVectorType (LLVMFloatType (), 4);
} else if (!strcmp (klass_name, "Vector3")) {
return LLVMVectorType (LLVMFloatType (), 4);
} else if (!strcmp (klass_name, "Vector4")) {
return LLVMVectorType (LLVMFloatType (), 4);
} else if (!strcmp (klass_name, "Vector`1") || !strcmp (klass_name, "Vector64`1") || !strcmp (klass_name, "Vector128`1") || !strcmp (klass_name, "Vector256`1")) {
MonoType *etype = mono_class_get_generic_class (klass)->context.class_inst->type_argv [0];
int size = mono_class_value_size (klass, NULL);
switch (etype->type) {
case MONO_TYPE_I1:
case MONO_TYPE_U1:
return LLVMVectorType (LLVMInt8Type (), size);
case MONO_TYPE_I2:
case MONO_TYPE_U2:
return LLVMVectorType (LLVMInt16Type (), size / 2);
case MONO_TYPE_I4:
case MONO_TYPE_U4:
return LLVMVectorType (LLVMInt32Type (), size / 4);
case MONO_TYPE_I8:
case MONO_TYPE_U8:
return LLVMVectorType (LLVMInt64Type (), size / 8);
case MONO_TYPE_I:
case MONO_TYPE_U:
#if TARGET_SIZEOF_VOID_P == 8
return LLVMVectorType (LLVMInt64Type (), size / 8);
#else
return LLVMVectorType (LLVMInt32Type (), size / 4);
#endif
case MONO_TYPE_R4:
return LLVMVectorType (LLVMFloatType (), size / 4);
case MONO_TYPE_R8:
return LLVMVectorType (LLVMDoubleType (), size / 8);
default:
g_assert_not_reached ();
return NULL;
}
} else {
printf ("%s\n", klass_name);
NOT_IMPLEMENTED;
return NULL;
}
}
static LLVMTypeRef
simd_valuetuple_to_llvm_type (EmitContext *ctx, MonoClass *klass)
{
const char *klass_name = m_class_get_name (klass);
if (!strcmp (klass_name, "ValueTuple`2")) {
MonoType *etype = mono_class_get_generic_class (klass)->context.class_inst->type_argv [0];
if (etype->type != MONO_TYPE_GENERICINST)
g_assert_not_reached ();
MonoClass *eklass = etype->data.generic_class->cached_class;
LLVMTypeRef ltype = simd_class_to_llvm_type (ctx, eklass);
return LLVMArrayType (ltype, 2);
}
g_assert_not_reached ();
}
/* Return the 128 bit SIMD type corresponding to the mono type TYPE */
static inline G_GNUC_UNUSED LLVMTypeRef
type_to_sse_type (int type)
{
switch (type) {
case MONO_TYPE_I1:
case MONO_TYPE_U1:
return LLVMVectorType (LLVMInt8Type (), 16);
case MONO_TYPE_U2:
case MONO_TYPE_I2:
return LLVMVectorType (LLVMInt16Type (), 8);
case MONO_TYPE_U4:
case MONO_TYPE_I4:
return LLVMVectorType (LLVMInt32Type (), 4);
case MONO_TYPE_U8:
case MONO_TYPE_I8:
return LLVMVectorType (LLVMInt64Type (), 2);
case MONO_TYPE_I:
case MONO_TYPE_U:
#if TARGET_SIZEOF_VOID_P == 8
return LLVMVectorType (LLVMInt64Type (), 2);
#else
return LLVMVectorType (LLVMInt32Type (), 4);
#endif
case MONO_TYPE_R8:
return LLVMVectorType (LLVMDoubleType (), 2);
case MONO_TYPE_R4:
return LLVMVectorType (LLVMFloatType (), 4);
default:
g_assert_not_reached ();
return NULL;
}
}
static LLVMTypeRef
create_llvm_type_for_type (MonoLLVMModule *module, MonoClass *klass)
{
int i, size, nfields, esize;
LLVMTypeRef *eltypes;
char *name;
MonoType *t;
LLVMTypeRef ltype;
t = m_class_get_byval_arg (klass);
if (mini_type_is_hfa (t, &nfields, &esize)) {
/*
* This is needed on arm64 where HFAs are returned in
* registers.
*/
/* SIMD types have size 16 in mono_class_value_size () */
if (m_class_is_simd_type (klass))
nfields = 16/ esize;
size = nfields;
eltypes = g_new (LLVMTypeRef, size);
for (i = 0; i < size; ++i)
eltypes [i] = esize == 4 ? LLVMFloatType () : LLVMDoubleType ();
} else {
MonoSizeAlign size_align = get_vtype_size_align (t);
eltypes = g_new (LLVMTypeRef, size_align.size);
size = 0;
uint32_t bytes = 0;
uint32_t chunk = size_align.align < TARGET_SIZEOF_VOID_P ? size_align.align : TARGET_SIZEOF_VOID_P;
for (; chunk > 0; chunk = chunk >> 1) {
for (; (bytes + chunk) <= size_align.size; bytes += chunk) {
eltypes [size] = LLVMIntType (chunk * 8);
++size;
}
}
}
name = mono_type_full_name (m_class_get_byval_arg (klass));
ltype = LLVMStructCreateNamed (module->context, name);
LLVMStructSetBody (ltype, eltypes, size, FALSE);
g_free (eltypes);
g_free (name);
return ltype;
}
static LLVMTypeRef
primitive_type_to_llvm_type (MonoTypeEnum type)
{
switch (type) {
case MONO_TYPE_I1:
case MONO_TYPE_U1:
return LLVMInt8Type ();
case MONO_TYPE_I2:
case MONO_TYPE_U2:
return LLVMInt16Type ();
case MONO_TYPE_I4:
case MONO_TYPE_U4:
return LLVMInt32Type ();
case MONO_TYPE_I8:
case MONO_TYPE_U8:
return LLVMInt64Type ();
case MONO_TYPE_R4:
return LLVMFloatType ();
case MONO_TYPE_R8:
return LLVMDoubleType ();
case MONO_TYPE_I:
case MONO_TYPE_U:
return IntPtrType ();
default:
return NULL;
}
}
static MonoTypeEnum
inst_c1_type (const MonoInst *ins)
{
return (MonoTypeEnum)ins->inst_c1;
}
/*
* type_to_llvm_type:
*
* Return the LLVM type corresponding to T.
*/
static LLVMTypeRef
type_to_llvm_type (EmitContext *ctx, MonoType *t)
{
if (m_type_is_byref (t))
return ThisType ();
t = mini_get_underlying_type (t);
LLVMTypeRef prim_llvm_type = primitive_type_to_llvm_type (t->type);
if (prim_llvm_type != NULL)
return prim_llvm_type;
switch (t->type) {
case MONO_TYPE_VOID:
return LLVMVoidType ();
case MONO_TYPE_OBJECT:
return ObjRefType ();
case MONO_TYPE_PTR:
case MONO_TYPE_FNPTR: {
MonoClass *klass = mono_class_from_mono_type_internal (t);
MonoClass *ptr_klass = m_class_get_element_class (klass);
MonoType *ptr_type = m_class_get_byval_arg (ptr_klass);
/* Handle primitive pointers */
switch (ptr_type->type) {
case MONO_TYPE_I1:
case MONO_TYPE_I2:
case MONO_TYPE_I4:
case MONO_TYPE_U1:
case MONO_TYPE_U2:
case MONO_TYPE_U4:
return LLVMPointerType (type_to_llvm_type (ctx, ptr_type), 0);
}
return ObjRefType ();
}
case MONO_TYPE_VAR:
case MONO_TYPE_MVAR:
/* Because of generic sharing */
return ObjRefType ();
case MONO_TYPE_GENERICINST:
if (!mono_type_generic_inst_is_valuetype (t))
return ObjRefType ();
/* Fall through */
case MONO_TYPE_VALUETYPE:
case MONO_TYPE_TYPEDBYREF: {
MonoClass *klass;
LLVMTypeRef ltype;
klass = mono_class_from_mono_type_internal (t);
if (MONO_CLASS_IS_SIMD (ctx->cfg, klass))
return simd_class_to_llvm_type (ctx, klass);
if (m_class_is_enumtype (klass))
return type_to_llvm_type (ctx, mono_class_enum_basetype_internal (klass));
ltype = (LLVMTypeRef)g_hash_table_lookup (ctx->module->llvm_types, klass);
if (!ltype) {
ltype = create_llvm_type_for_type (ctx->module, klass);
g_hash_table_insert (ctx->module->llvm_types, klass, ltype);
}
return ltype;
}
default:
printf ("X: %d\n", t->type);
ctx->cfg->exception_message = g_strdup_printf ("type %s", mono_type_full_name (t));
ctx->cfg->disable_llvm = TRUE;
return NULL;
}
}
static gboolean
primitive_type_is_unsigned (MonoTypeEnum t)
{
switch (t) {
case MONO_TYPE_U1:
case MONO_TYPE_U2:
case MONO_TYPE_CHAR:
case MONO_TYPE_U4:
case MONO_TYPE_U8:
case MONO_TYPE_U:
return TRUE;
default:
return FALSE;
}
}
/*
* type_is_unsigned:
*
* Return whenever T is an unsigned int type.
*/
static gboolean
type_is_unsigned (EmitContext *ctx, MonoType *t)
{
t = mini_get_underlying_type (t);
if (m_type_is_byref (t))
return FALSE;
return primitive_type_is_unsigned (t->type);
}
/*
* type_to_llvm_arg_type:
*
* Same as type_to_llvm_type, but treat i8/i16 as i32.
*/
static LLVMTypeRef
type_to_llvm_arg_type (EmitContext *ctx, MonoType *t)
{
LLVMTypeRef ptype = type_to_llvm_type (ctx, t);
if (ctx->cfg->llvm_only)
return ptype;
/*
* This works on all abis except arm64/ios which passes multiple
* arguments in one stack slot.
*/
#ifndef TARGET_ARM64
if (ptype == LLVMInt8Type () || ptype == LLVMInt16Type ()) {
/*
* LLVM generates code which only sets the lower bits, while JITted
* code expects all the bits to be set.
*/
ptype = LLVMInt32Type ();
}
#endif
return ptype;
}
/*
* llvm_type_to_stack_type:
*
* Return the LLVM type which needs to be used when a value of type TYPE is pushed
* on the IL stack.
*/
static G_GNUC_UNUSED LLVMTypeRef
llvm_type_to_stack_type (MonoCompile *cfg, LLVMTypeRef type)
{
if (type == NULL)
return NULL;
if (type == LLVMInt8Type ())
return LLVMInt32Type ();
else if (type == LLVMInt16Type ())
return LLVMInt32Type ();
else if (!cfg->r4fp && type == LLVMFloatType ())
return LLVMDoubleType ();
else
return type;
}
/*
* regtype_to_llvm_type:
*
* Return the LLVM type corresponding to the regtype C used in instruction
* descriptions.
*/
static LLVMTypeRef
regtype_to_llvm_type (char c)
{
switch (c) {
case 'i':
return LLVMInt32Type ();
case 'l':
return LLVMInt64Type ();
case 'f':
return LLVMDoubleType ();
default:
return NULL;
}
}
/*
* op_to_llvm_type:
*
* Return the LLVM type corresponding to the unary/binary opcode OPCODE.
*/
static LLVMTypeRef
op_to_llvm_type (int opcode)
{
switch (opcode) {
case OP_ICONV_TO_I1:
case OP_LCONV_TO_I1:
return LLVMInt8Type ();
case OP_ICONV_TO_U1:
case OP_LCONV_TO_U1:
return LLVMInt8Type ();
case OP_ICONV_TO_I2:
case OP_LCONV_TO_I2:
return LLVMInt16Type ();
case OP_ICONV_TO_U2:
case OP_LCONV_TO_U2:
return LLVMInt16Type ();
case OP_ICONV_TO_I4:
case OP_LCONV_TO_I4:
return LLVMInt32Type ();
case OP_ICONV_TO_U4:
case OP_LCONV_TO_U4:
return LLVMInt32Type ();
case OP_ICONV_TO_I8:
return LLVMInt64Type ();
case OP_ICONV_TO_R4:
return LLVMFloatType ();
case OP_ICONV_TO_R8:
return LLVMDoubleType ();
case OP_ICONV_TO_U8:
return LLVMInt64Type ();
case OP_FCONV_TO_I4:
return LLVMInt32Type ();
case OP_FCONV_TO_I8:
return LLVMInt64Type ();
case OP_FCONV_TO_I1:
case OP_FCONV_TO_U1:
case OP_RCONV_TO_I1:
case OP_RCONV_TO_U1:
return LLVMInt8Type ();
case OP_FCONV_TO_I2:
case OP_FCONV_TO_U2:
case OP_RCONV_TO_I2:
case OP_RCONV_TO_U2:
return LLVMInt16Type ();
case OP_FCONV_TO_U4:
case OP_RCONV_TO_U4:
return LLVMInt32Type ();
case OP_FCONV_TO_U8:
case OP_RCONV_TO_U8:
return LLVMInt64Type ();
case OP_IADD_OVF:
case OP_IADD_OVF_UN:
case OP_ISUB_OVF:
case OP_ISUB_OVF_UN:
case OP_IMUL_OVF:
case OP_IMUL_OVF_UN:
return LLVMInt32Type ();
case OP_LADD_OVF:
case OP_LADD_OVF_UN:
case OP_LSUB_OVF:
case OP_LSUB_OVF_UN:
case OP_LMUL_OVF:
case OP_LMUL_OVF_UN:
return LLVMInt64Type ();
default:
printf ("%s\n", mono_inst_name (opcode));
g_assert_not_reached ();
return NULL;
}
}
#define CLAUSE_START(clause) ((clause)->try_offset)
#define CLAUSE_END(clause) (((clause))->try_offset + ((clause))->try_len)
/*
* load_store_to_llvm_type:
*
* Return the size/sign/zero extension corresponding to the load/store opcode
* OPCODE.
*/
static LLVMTypeRef
load_store_to_llvm_type (int opcode, int *size, gboolean *sext, gboolean *zext)
{
*sext = FALSE;
*zext = FALSE;
switch (opcode) {
case OP_LOADI1_MEMBASE:
case OP_STOREI1_MEMBASE_REG:
case OP_STOREI1_MEMBASE_IMM:
case OP_ATOMIC_LOAD_I1:
case OP_ATOMIC_STORE_I1:
*size = 1;
*sext = TRUE;
return LLVMInt8Type ();
case OP_LOADU1_MEMBASE:
case OP_LOADU1_MEM:
case OP_ATOMIC_LOAD_U1:
case OP_ATOMIC_STORE_U1:
*size = 1;
*zext = TRUE;
return LLVMInt8Type ();
case OP_LOADI2_MEMBASE:
case OP_STOREI2_MEMBASE_REG:
case OP_STOREI2_MEMBASE_IMM:
case OP_ATOMIC_LOAD_I2:
case OP_ATOMIC_STORE_I2:
*size = 2;
*sext = TRUE;
return LLVMInt16Type ();
case OP_LOADU2_MEMBASE:
case OP_LOADU2_MEM:
case OP_ATOMIC_LOAD_U2:
case OP_ATOMIC_STORE_U2:
*size = 2;
*zext = TRUE;
return LLVMInt16Type ();
case OP_LOADI4_MEMBASE:
case OP_LOADU4_MEMBASE:
case OP_LOADI4_MEM:
case OP_LOADU4_MEM:
case OP_STOREI4_MEMBASE_REG:
case OP_STOREI4_MEMBASE_IMM:
case OP_ATOMIC_LOAD_I4:
case OP_ATOMIC_STORE_I4:
case OP_ATOMIC_LOAD_U4:
case OP_ATOMIC_STORE_U4:
*size = 4;
return LLVMInt32Type ();
case OP_LOADI8_MEMBASE:
case OP_LOADI8_MEM:
case OP_STOREI8_MEMBASE_REG:
case OP_STOREI8_MEMBASE_IMM:
case OP_ATOMIC_LOAD_I8:
case OP_ATOMIC_STORE_I8:
case OP_ATOMIC_LOAD_U8:
case OP_ATOMIC_STORE_U8:
*size = 8;
return LLVMInt64Type ();
case OP_LOADR4_MEMBASE:
case OP_STORER4_MEMBASE_REG:
case OP_ATOMIC_LOAD_R4:
case OP_ATOMIC_STORE_R4:
*size = 4;
return LLVMFloatType ();
case OP_LOADR8_MEMBASE:
case OP_STORER8_MEMBASE_REG:
case OP_ATOMIC_LOAD_R8:
case OP_ATOMIC_STORE_R8:
*size = 8;
return LLVMDoubleType ();
case OP_LOAD_MEMBASE:
case OP_LOAD_MEM:
case OP_STORE_MEMBASE_REG:
case OP_STORE_MEMBASE_IMM:
*size = TARGET_SIZEOF_VOID_P;
return IntPtrType ();
default:
g_assert_not_reached ();
return NULL;
}
}
/*
* ovf_op_to_intrins:
*
* Return the LLVM intrinsics corresponding to the overflow opcode OPCODE.
*/
static IntrinsicId
ovf_op_to_intrins (int opcode)
{
switch (opcode) {
case OP_IADD_OVF:
return INTRINS_SADD_OVF_I32;
case OP_IADD_OVF_UN:
return INTRINS_UADD_OVF_I32;
case OP_ISUB_OVF:
return INTRINS_SSUB_OVF_I32;
case OP_ISUB_OVF_UN:
return INTRINS_USUB_OVF_I32;
case OP_IMUL_OVF:
return INTRINS_SMUL_OVF_I32;
case OP_IMUL_OVF_UN:
return INTRINS_UMUL_OVF_I32;
case OP_LADD_OVF:
return INTRINS_SADD_OVF_I64;
case OP_LADD_OVF_UN:
return INTRINS_UADD_OVF_I64;
case OP_LSUB_OVF:
return INTRINS_SSUB_OVF_I64;
case OP_LSUB_OVF_UN:
return INTRINS_USUB_OVF_I64;
case OP_LMUL_OVF:
return INTRINS_SMUL_OVF_I64;
case OP_LMUL_OVF_UN:
return INTRINS_UMUL_OVF_I64;
default:
g_assert_not_reached ();
return (IntrinsicId)0;
}
}
static IntrinsicId
simd_ins_to_intrins (int opcode)
{
switch (opcode) {
#if defined(TARGET_X86) || defined(TARGET_AMD64)
case OP_CVTPD2DQ:
return INTRINS_SSE_CVTPD2DQ;
case OP_CVTPS2DQ:
return INTRINS_SSE_CVTPS2DQ;
case OP_CVTPD2PS:
return INTRINS_SSE_CVTPD2PS;
case OP_CVTTPD2DQ:
return INTRINS_SSE_CVTTPD2DQ;
case OP_CVTTPS2DQ:
return INTRINS_SSE_CVTTPS2DQ;
case OP_SSE_SQRTSS:
return INTRINS_SSE_SQRT_SS;
case OP_SSE2_SQRTSD:
return INTRINS_SSE_SQRT_SD;
#endif
default:
g_assert_not_reached ();
return (IntrinsicId)0;
}
}
static LLVMTypeRef
simd_op_to_llvm_type (int opcode)
{
#if defined(TARGET_X86) || defined(TARGET_AMD64)
switch (opcode) {
case OP_EXTRACT_R8:
case OP_EXPAND_R8:
return sse_r8_t;
case OP_EXTRACT_I8:
case OP_EXPAND_I8:
return sse_i8_t;
case OP_EXTRACT_I4:
case OP_EXPAND_I4:
return sse_i4_t;
case OP_EXTRACT_I2:
case OP_EXTRACTX_U2:
case OP_EXPAND_I2:
return sse_i2_t;
case OP_EXTRACT_I1:
case OP_EXPAND_I1:
return sse_i1_t;
case OP_EXTRACT_R4:
case OP_EXPAND_R4:
return sse_r4_t;
case OP_CVTPD2DQ:
case OP_CVTPD2PS:
case OP_CVTTPD2DQ:
return sse_r8_t;
case OP_CVTPS2DQ:
case OP_CVTTPS2DQ:
return sse_r4_t;
case OP_SQRTPS:
case OP_RSQRTPS:
case OP_DUPPS_LOW:
case OP_DUPPS_HIGH:
return sse_r4_t;
case OP_SQRTPD:
case OP_DUPPD:
return sse_r8_t;
default:
g_assert_not_reached ();
return NULL;
}
#else
return NULL;
#endif
}
static void
set_cold_cconv (LLVMValueRef func)
{
/*
* xcode10 (watchOS) and ARM/ARM64 doesn't seem to support preserveall, it fails with:
* fatal error: error in backend: Unsupported calling convention
*/
#if !defined(TARGET_WATCHOS) && !defined(TARGET_ARM) && !defined(TARGET_ARM64)
LLVMSetFunctionCallConv (func, LLVMColdCallConv);
#endif
}
static void
set_call_cold_cconv (LLVMValueRef func)
{
#if !defined(TARGET_WATCHOS) && !defined(TARGET_ARM) && !defined(TARGET_ARM64)
LLVMSetInstructionCallConv (func, LLVMColdCallConv);
#endif
}
/*
* get_bb:
*
* Return the LLVM basic block corresponding to BB.
*/
static LLVMBasicBlockRef
get_bb (EmitContext *ctx, MonoBasicBlock *bb)
{
char bb_name_buf [128];
char *bb_name;
if (ctx->bblocks [bb->block_num].bblock == NULL) {
if (bb->flags & BB_EXCEPTION_HANDLER) {
int clause_index = (mono_get_block_region_notry (ctx->cfg, bb->region) >> 8) - 1;
sprintf (bb_name_buf, "EH_CLAUSE%d_BB%d", clause_index, bb->block_num);
bb_name = bb_name_buf;
} else if (bb->block_num < 256) {
if (!ctx->module->bb_names) {
ctx->module->bb_names_len = 256;
ctx->module->bb_names = g_new0 (char*, ctx->module->bb_names_len);
}
if (!ctx->module->bb_names [bb->block_num]) {
char *n;
n = g_strdup_printf ("BB%d", bb->block_num);
mono_memory_barrier ();
ctx->module->bb_names [bb->block_num] = n;
}
bb_name = ctx->module->bb_names [bb->block_num];
} else {
sprintf (bb_name_buf, "BB%d", bb->block_num);
bb_name = bb_name_buf;
}
ctx->bblocks [bb->block_num].bblock = LLVMAppendBasicBlock (ctx->lmethod, bb_name);
ctx->bblocks [bb->block_num].end_bblock = ctx->bblocks [bb->block_num].bblock;
}
return ctx->bblocks [bb->block_num].bblock;
}
/*
* get_end_bb:
*
* Return the last LLVM bblock corresponding to BB.
* This might not be equal to the bb returned by get_bb () since we need to generate
* multiple LLVM bblocks for a mono bblock to handle throwing exceptions.
*/
static LLVMBasicBlockRef
get_end_bb (EmitContext *ctx, MonoBasicBlock *bb)
{
get_bb (ctx, bb);
return ctx->bblocks [bb->block_num].end_bblock;
}
static LLVMBasicBlockRef
gen_bb (EmitContext *ctx, const char *prefix)
{
char bb_name [128];
sprintf (bb_name, "%s%d", prefix, ++ ctx->ex_index);
return LLVMAppendBasicBlock (ctx->lmethod, bb_name);
}
/*
* resolve_patch:
*
* Return the target of the patch identified by TYPE and TARGET.
*/
static gpointer
resolve_patch (MonoCompile *cfg, MonoJumpInfoType type, gconstpointer target)
{
MonoJumpInfo ji;
ERROR_DECL (error);
gpointer res;
memset (&ji, 0, sizeof (ji));
ji.type = type;
ji.data.target = target;
res = mono_resolve_patch_target (cfg->method, NULL, &ji, FALSE, error);
mono_error_assert_ok (error);
return res;
}
/*
* convert_full:
*
* Emit code to convert the LLVM value V to DTYPE.
*/
static LLVMValueRef
convert_full (EmitContext *ctx, LLVMValueRef v, LLVMTypeRef dtype, gboolean is_unsigned)
{
LLVMTypeRef stype = LLVMTypeOf (v);
if (stype != dtype) {
gboolean ext = FALSE;
/* Extend */
if (dtype == LLVMInt64Type () && (stype == LLVMInt32Type () || stype == LLVMInt16Type () || stype == LLVMInt8Type ()))
ext = TRUE;
else if (dtype == LLVMInt32Type () && (stype == LLVMInt16Type () || stype == LLVMInt8Type ()))
ext = TRUE;
else if (dtype == LLVMInt16Type () && (stype == LLVMInt8Type ()))
ext = TRUE;
if (ext)
return is_unsigned ? LLVMBuildZExt (ctx->builder, v, dtype, "") : LLVMBuildSExt (ctx->builder, v, dtype, "");
if (dtype == LLVMDoubleType () && stype == LLVMFloatType ())
return LLVMBuildFPExt (ctx->builder, v, dtype, "");
/* Trunc */
if (stype == LLVMInt64Type () && (dtype == LLVMInt32Type () || dtype == LLVMInt16Type () || dtype == LLVMInt8Type ()))
return LLVMBuildTrunc (ctx->builder, v, dtype, "");
if (stype == LLVMInt32Type () && (dtype == LLVMInt16Type () || dtype == LLVMInt8Type ()))
return LLVMBuildTrunc (ctx->builder, v, dtype, "");
if (stype == LLVMInt16Type () && dtype == LLVMInt8Type ())
return LLVMBuildTrunc (ctx->builder, v, dtype, "");
if (stype == LLVMDoubleType () && dtype == LLVMFloatType ())
return LLVMBuildFPTrunc (ctx->builder, v, dtype, "");
if (LLVMGetTypeKind (stype) == LLVMPointerTypeKind && LLVMGetTypeKind (dtype) == LLVMPointerTypeKind)
return LLVMBuildBitCast (ctx->builder, v, dtype, "");
if (LLVMGetTypeKind (dtype) == LLVMPointerTypeKind)
return LLVMBuildIntToPtr (ctx->builder, v, dtype, "");
if (LLVMGetTypeKind (stype) == LLVMPointerTypeKind)
return LLVMBuildPtrToInt (ctx->builder, v, dtype, "");
if (mono_arch_is_soft_float ()) {
if (stype == LLVMInt32Type () && dtype == LLVMFloatType ())
return LLVMBuildBitCast (ctx->builder, v, dtype, "");
if (stype == LLVMInt32Type () && dtype == LLVMDoubleType ())
return LLVMBuildBitCast (ctx->builder, LLVMBuildZExt (ctx->builder, v, LLVMInt64Type (), ""), dtype, "");
}
if (LLVMGetTypeKind (stype) == LLVMVectorTypeKind && LLVMGetTypeKind (dtype) == LLVMVectorTypeKind) {
if (mono_llvm_get_prim_size_bits (stype) == mono_llvm_get_prim_size_bits (dtype))
return LLVMBuildBitCast (ctx->builder, v, dtype, "");
}
mono_llvm_dump_value (v);
mono_llvm_dump_type (dtype);
printf ("\n");
g_assert_not_reached ();
return NULL;
} else {
return v;
}
}
static LLVMValueRef
convert (EmitContext *ctx, LLVMValueRef v, LLVMTypeRef dtype)
{
return convert_full (ctx, v, dtype, FALSE);
}
static void
emit_memset (EmitContext *ctx, LLVMBuilderRef builder, LLVMValueRef v, LLVMValueRef size, int alignment)
{
LLVMValueRef args [5];
int aindex = 0;
args [aindex ++] = v;
args [aindex ++] = LLVMConstInt (LLVMInt8Type (), 0, FALSE);
args [aindex ++] = size;
args [aindex ++] = LLVMConstInt (LLVMInt1Type (), 0, FALSE);
LLVMBuildCall (builder, get_intrins (ctx, INTRINS_MEMSET), args, aindex, "");
}
/*
* emit_volatile_load:
*
* If vreg is volatile, emit a load from its address.
*/
static LLVMValueRef
emit_volatile_load (EmitContext *ctx, int vreg)
{
MonoType *t;
LLVMValueRef v;
// On arm64, we pass the rgctx in a callee saved
// register on arm64 (x15), and llvm might keep the value in that register
// even through the register is marked as 'reserved' inside llvm.
v = mono_llvm_build_load (ctx->builder, ctx->addresses [vreg], "", TRUE);
t = ctx->vreg_cli_types [vreg];
if (t && !m_type_is_byref (t)) {
/*
* Might have to zero extend since llvm doesn't have
* unsigned types.
*/
if (t->type == MONO_TYPE_U1 || t->type == MONO_TYPE_U2 || t->type == MONO_TYPE_CHAR || t->type == MONO_TYPE_BOOLEAN)
v = LLVMBuildZExt (ctx->builder, v, LLVMInt32Type (), "");
else if (t->type == MONO_TYPE_I1 || t->type == MONO_TYPE_I2)
v = LLVMBuildSExt (ctx->builder, v, LLVMInt32Type (), "");
else if (t->type == MONO_TYPE_U8)
v = LLVMBuildZExt (ctx->builder, v, LLVMInt64Type (), "");
}
return v;
}
/*
* emit_volatile_store:
*
* If VREG is volatile, emit a store from its value to its address.
*/
static void
emit_volatile_store (EmitContext *ctx, int vreg)
{
MonoInst *var = get_vreg_to_inst (ctx->cfg, vreg);
if (var && var->flags & (MONO_INST_VOLATILE|MONO_INST_INDIRECT)) {
g_assert (ctx->addresses [vreg]);
#ifdef TARGET_WASM
/* Need volatile stores otherwise the compiler might move them */
mono_llvm_build_store (ctx->builder, convert (ctx, ctx->values [vreg], type_to_llvm_type (ctx, var->inst_vtype)), ctx->addresses [vreg], TRUE, LLVM_BARRIER_NONE);
#else
LLVMBuildStore (ctx->builder, convert (ctx, ctx->values [vreg], type_to_llvm_type (ctx, var->inst_vtype)), ctx->addresses [vreg]);
#endif
}
}
static LLVMTypeRef
sig_to_llvm_sig_no_cinfo (EmitContext *ctx, MonoMethodSignature *sig)
{
LLVMTypeRef ret_type;
LLVMTypeRef *param_types = NULL;
LLVMTypeRef res;
int i, pindex;
ret_type = type_to_llvm_type (ctx, sig->ret);
if (!ctx_ok (ctx))
return NULL;
param_types = g_new0 (LLVMTypeRef, (sig->param_count * 8) + 3);
pindex = 0;
if (sig->hasthis)
param_types [pindex ++] = ThisType ();
for (i = 0; i < sig->param_count; ++i)
param_types [pindex ++] = type_to_llvm_arg_type (ctx, sig->params [i]);
if (!ctx_ok (ctx)) {
g_free (param_types);
return NULL;
}
res = LLVMFunctionType (ret_type, param_types, pindex, FALSE);
g_free (param_types);
return res;
}
/*
* sig_to_llvm_sig_full:
*
* Return the LLVM signature corresponding to the mono signature SIG using the
* calling convention information in CINFO. Fill out the parameter mapping information in CINFO.
*/
static LLVMTypeRef
sig_to_llvm_sig_full (EmitContext *ctx, MonoMethodSignature *sig, LLVMCallInfo *cinfo)
{
LLVMTypeRef ret_type;
LLVMTypeRef *param_types = NULL;
LLVMTypeRef res;
int i, j, pindex, vret_arg_pindex = 0;
gboolean vretaddr = FALSE;
MonoType *rtype;
if (!cinfo)
return sig_to_llvm_sig_no_cinfo (ctx, sig);
ret_type = type_to_llvm_type (ctx, sig->ret);
if (!ctx_ok (ctx))
return NULL;
rtype = mini_get_underlying_type (sig->ret);
switch (cinfo->ret.storage) {
case LLVMArgVtypeInReg:
/* LLVM models this by returning an aggregate value */
if (cinfo->ret.pair_storage [0] == LLVMArgInIReg && cinfo->ret.pair_storage [1] == LLVMArgNone) {
LLVMTypeRef members [2];
members [0] = IntPtrType ();
ret_type = LLVMStructType (members, 1, FALSE);
} else if (cinfo->ret.pair_storage [0] == LLVMArgNone && cinfo->ret.pair_storage [1] == LLVMArgNone) {
/* Empty struct */
ret_type = LLVMVoidType ();
} else if (cinfo->ret.pair_storage [0] == LLVMArgInIReg && cinfo->ret.pair_storage [1] == LLVMArgInIReg) {
LLVMTypeRef members [2];
members [0] = IntPtrType ();
members [1] = IntPtrType ();
ret_type = LLVMStructType (members, 2, FALSE);
} else {
g_assert_not_reached ();
}
break;
case LLVMArgVtypeByVal:
/* Vtype returned normally by val */
break;
case LLVMArgVtypeAsScalar: {
int size = mono_class_value_size (mono_class_from_mono_type_internal (rtype), NULL);
/* LLVM models this by returning an int */
if (size < TARGET_SIZEOF_VOID_P) {
g_assert (cinfo->ret.nslots == 1);
ret_type = LLVMIntType (size * 8);
} else {
g_assert (cinfo->ret.nslots == 1 || cinfo->ret.nslots == 2);
ret_type = LLVMIntType (cinfo->ret.nslots * sizeof (target_mgreg_t) * 8);
}
break;
}
case LLVMArgAsIArgs:
ret_type = LLVMArrayType (IntPtrType (), cinfo->ret.nslots);
break;
case LLVMArgFpStruct: {
/* Vtype returned as a fp struct */
LLVMTypeRef members [16];
/* Have to create our own structure since we don't map fp structures to LLVM fp structures yet */
for (i = 0; i < cinfo->ret.nslots; ++i)
members [i] = cinfo->ret.esize == 8 ? LLVMDoubleType () : LLVMFloatType ();
ret_type = LLVMStructType (members, cinfo->ret.nslots, FALSE);
break;
}
case LLVMArgVtypeByRef:
/* Vtype returned using a hidden argument */
ret_type = LLVMVoidType ();
break;
case LLVMArgVtypeRetAddr:
case LLVMArgGsharedvtFixed:
case LLVMArgGsharedvtFixedVtype:
case LLVMArgGsharedvtVariable:
vretaddr = TRUE;
ret_type = LLVMVoidType ();
break;
case LLVMArgWasmVtypeAsScalar:
g_assert (cinfo->ret.esize);
ret_type = LLVMIntType (cinfo->ret.esize * 8);
break;
default:
break;
}
param_types = g_new0 (LLVMTypeRef, (sig->param_count * 8) + 3);
pindex = 0;
if (cinfo->ret.storage == LLVMArgVtypeByRef) {
/*
* Has to be the first argument because of the sret argument attribute
* FIXME: This might conflict with passing 'this' as the first argument, but
* this is only used on arm64 which has a dedicated struct return register.
*/
cinfo->vret_arg_pindex = pindex;
param_types [pindex] = type_to_llvm_arg_type (ctx, sig->ret);
if (!ctx_ok (ctx)) {
g_free (param_types);
return NULL;
}
param_types [pindex] = LLVMPointerType (param_types [pindex], 0);
pindex ++;
}
if (!ctx->llvm_only && cinfo->rgctx_arg) {
cinfo->rgctx_arg_pindex = pindex;
param_types [pindex] = ctx->module->ptr_type;
pindex ++;
}
if (cinfo->imt_arg) {
cinfo->imt_arg_pindex = pindex;
param_types [pindex] = ctx->module->ptr_type;
pindex ++;
}
if (vretaddr) {
/* Compute the index in the LLVM signature where the vret arg needs to be passed */
vret_arg_pindex = pindex;
if (cinfo->vret_arg_index == 1) {
/* Add the slots consumed by the first argument */
LLVMArgInfo *ainfo = &cinfo->args [0];
switch (ainfo->storage) {
case LLVMArgVtypeInReg:
for (j = 0; j < 2; ++j) {
if (ainfo->pair_storage [j] == LLVMArgInIReg)
vret_arg_pindex ++;
}
break;
default:
vret_arg_pindex ++;
}
}
cinfo->vret_arg_pindex = vret_arg_pindex;
}
if (vretaddr && vret_arg_pindex == pindex)
param_types [pindex ++] = IntPtrType ();
if (sig->hasthis) {
cinfo->this_arg_pindex = pindex;
param_types [pindex ++] = ThisType ();
cinfo->args [0].pindex = cinfo->this_arg_pindex;
}
if (vretaddr && vret_arg_pindex == pindex)
param_types [pindex ++] = IntPtrType ();
for (i = 0; i < sig->param_count; ++i) {
LLVMArgInfo *ainfo = &cinfo->args [i + sig->hasthis];
if (vretaddr && vret_arg_pindex == pindex)
param_types [pindex ++] = IntPtrType ();
ainfo->pindex = pindex;
switch (ainfo->storage) {
case LLVMArgVtypeInReg:
for (j = 0; j < 2; ++j) {
switch (ainfo->pair_storage [j]) {
case LLVMArgInIReg:
param_types [pindex ++] = LLVMIntType (TARGET_SIZEOF_VOID_P * 8);
break;
case LLVMArgNone:
break;
default:
g_assert_not_reached ();
}
}
break;
case LLVMArgVtypeByVal:
param_types [pindex] = type_to_llvm_arg_type (ctx, ainfo->type);
if (!ctx_ok (ctx))
break;
param_types [pindex] = LLVMPointerType (param_types [pindex], 0);
pindex ++;
break;
case LLVMArgAsIArgs:
if (ainfo->esize == 8)
param_types [pindex] = LLVMArrayType (LLVMInt64Type (), ainfo->nslots);
else
param_types [pindex] = LLVMArrayType (IntPtrType (), ainfo->nslots);
pindex ++;
break;
case LLVMArgVtypeAddr:
case LLVMArgVtypeByRef:
param_types [pindex] = type_to_llvm_arg_type (ctx, ainfo->type);
if (!ctx_ok (ctx))
break;
param_types [pindex] = LLVMPointerType (param_types [pindex], 0);
pindex ++;
break;
case LLVMArgAsFpArgs: {
int j;
/* Emit dummy fp arguments if needed so the rest is passed on the stack */
for (j = 0; j < ainfo->ndummy_fpargs; ++j)
param_types [pindex ++] = LLVMDoubleType ();
for (j = 0; j < ainfo->nslots; ++j)
param_types [pindex ++] = ainfo->esize == 8 ? LLVMDoubleType () : LLVMFloatType ();
break;
}
case LLVMArgVtypeAsScalar:
g_assert_not_reached ();
break;
case LLVMArgWasmVtypeAsScalar:
g_assert (ainfo->esize);
param_types [pindex ++] = LLVMIntType (ainfo->esize * 8);
break;
case LLVMArgGsharedvtFixed:
case LLVMArgGsharedvtFixedVtype:
param_types [pindex ++] = LLVMPointerType (type_to_llvm_arg_type (ctx, ainfo->type), 0);
break;
case LLVMArgGsharedvtVariable:
param_types [pindex ++] = LLVMPointerType (IntPtrType (), 0);
break;
default:
param_types [pindex ++] = type_to_llvm_arg_type (ctx, ainfo->type);
break;
}
}
if (!ctx_ok (ctx)) {
g_free (param_types);
return NULL;
}
if (vretaddr && vret_arg_pindex == pindex)
param_types [pindex ++] = IntPtrType ();
if (ctx->llvm_only && cinfo->rgctx_arg) {
/* Pass the rgctx as the last argument */
cinfo->rgctx_arg_pindex = pindex;
param_types [pindex] = ctx->module->ptr_type;
pindex ++;
} else if (ctx->llvm_only && cinfo->dummy_arg) {
/* Pass a dummy arg last */
cinfo->dummy_arg_pindex = pindex;
param_types [pindex] = ctx->module->ptr_type;
pindex ++;
}
res = LLVMFunctionType (ret_type, param_types, pindex, FALSE);
g_free (param_types);
return res;
}
static LLVMTypeRef
sig_to_llvm_sig (EmitContext *ctx, MonoMethodSignature *sig)
{
return sig_to_llvm_sig_full (ctx, sig, NULL);
}
/*
* LLVMFunctionType1:
*
* Create an LLVM function type from the arguments.
*/
static G_GNUC_UNUSED LLVMTypeRef
LLVMFunctionType0 (LLVMTypeRef ReturnType,
int IsVarArg)
{
return LLVMFunctionType (ReturnType, NULL, 0, IsVarArg);
}
/*
* LLVMFunctionType1:
*
* Create an LLVM function type from the arguments.
*/
static G_GNUC_UNUSED LLVMTypeRef
LLVMFunctionType1 (LLVMTypeRef ReturnType,
LLVMTypeRef ParamType1,
int IsVarArg)
{
LLVMTypeRef param_types [1];
param_types [0] = ParamType1;
return LLVMFunctionType (ReturnType, param_types, 1, IsVarArg);
}
/*
* LLVMFunctionType2:
*
* Create an LLVM function type from the arguments.
*/
static G_GNUC_UNUSED LLVMTypeRef
LLVMFunctionType2 (LLVMTypeRef ReturnType,
LLVMTypeRef ParamType1,
LLVMTypeRef ParamType2,
int IsVarArg)
{
LLVMTypeRef param_types [2];
param_types [0] = ParamType1;
param_types [1] = ParamType2;
return LLVMFunctionType (ReturnType, param_types, 2, IsVarArg);
}
/*
* LLVMFunctionType3:
*
* Create an LLVM function type from the arguments.
*/
static G_GNUC_UNUSED LLVMTypeRef
LLVMFunctionType3 (LLVMTypeRef ReturnType,
LLVMTypeRef ParamType1,
LLVMTypeRef ParamType2,
LLVMTypeRef ParamType3,
int IsVarArg)
{
LLVMTypeRef param_types [3];
param_types [0] = ParamType1;
param_types [1] = ParamType2;
param_types [2] = ParamType3;
return LLVMFunctionType (ReturnType, param_types, 3, IsVarArg);
}
static G_GNUC_UNUSED LLVMTypeRef
LLVMFunctionType4 (LLVMTypeRef ReturnType,
LLVMTypeRef ParamType1,
LLVMTypeRef ParamType2,
LLVMTypeRef ParamType3,
LLVMTypeRef ParamType4,
int IsVarArg)
{
LLVMTypeRef param_types [4];
param_types [0] = ParamType1;
param_types [1] = ParamType2;
param_types [2] = ParamType3;
param_types [3] = ParamType4;
return LLVMFunctionType (ReturnType, param_types, 4, IsVarArg);
}
static G_GNUC_UNUSED LLVMTypeRef
LLVMFunctionType5 (LLVMTypeRef ReturnType,
LLVMTypeRef ParamType1,
LLVMTypeRef ParamType2,
LLVMTypeRef ParamType3,
LLVMTypeRef ParamType4,
LLVMTypeRef ParamType5,
int IsVarArg)
{
LLVMTypeRef param_types [5];
param_types [0] = ParamType1;
param_types [1] = ParamType2;
param_types [2] = ParamType3;
param_types [3] = ParamType4;
param_types [4] = ParamType5;
return LLVMFunctionType (ReturnType, param_types, 5, IsVarArg);
}
/*
* create_builder:
*
* Create an LLVM builder and remember it so it can be freed later.
*/
static LLVMBuilderRef
create_builder (EmitContext *ctx)
{
LLVMBuilderRef builder = LLVMCreateBuilder ();
if (mono_use_fast_math)
mono_llvm_set_fast_math (builder);
ctx->builders = g_slist_prepend_mempool (ctx->cfg->mempool, ctx->builders, builder);
emit_default_dbg_loc (ctx, builder);
return builder;
}
static char*
get_aotconst_name (MonoJumpInfoType type, gconstpointer data, int got_offset)
{
char *name;
int len;
switch (type) {
case MONO_PATCH_INFO_JIT_ICALL_ID:
name = g_strdup_printf ("jit_icall_%s", mono_find_jit_icall_info ((MonoJitICallId)(gsize)data)->name);
break;
case MONO_PATCH_INFO_JIT_ICALL_ADDR_NOCALL:
name = g_strdup_printf ("jit_icall_addr_nocall_%s", mono_find_jit_icall_info ((MonoJitICallId)(gsize)data)->name);
break;
case MONO_PATCH_INFO_RGCTX_SLOT_INDEX: {
MonoJumpInfoRgctxEntry *entry = (MonoJumpInfoRgctxEntry*)data;
name = g_strdup_printf ("rgctx_slot_index_%s", mono_rgctx_info_type_to_str (entry->info_type));
break;
}
case MONO_PATCH_INFO_AOT_MODULE:
case MONO_PATCH_INFO_GC_SAFE_POINT_FLAG:
case MONO_PATCH_INFO_GC_CARD_TABLE_ADDR:
case MONO_PATCH_INFO_GC_NURSERY_START:
case MONO_PATCH_INFO_GC_NURSERY_BITS:
case MONO_PATCH_INFO_INTERRUPTION_REQUEST_FLAG:
name = g_strdup_printf ("%s", mono_ji_type_to_string (type));
len = strlen (name);
for (int i = 0; i < len; ++i)
name [i] = tolower (name [i]);
break;
default:
name = g_strdup_printf ("%s_%d", mono_ji_type_to_string (type), got_offset);
len = strlen (name);
for (int i = 0; i < len; ++i)
name [i] = tolower (name [i]);
break;
}
return name;
}
static int
compute_aot_got_offset (MonoLLVMModule *module, MonoJumpInfo *ji, LLVMTypeRef llvm_type)
{
guint32 got_offset = mono_aot_get_got_offset (ji);
LLVMTypeRef lookup_type = (LLVMTypeRef) g_hash_table_lookup (module->got_idx_to_type, GINT_TO_POINTER (got_offset));
if (!lookup_type) {
lookup_type = llvm_type;
} else if (llvm_type != lookup_type) {
lookup_type = module->ptr_type;
} else {
return got_offset;
}
g_hash_table_insert (module->got_idx_to_type, GINT_TO_POINTER (got_offset), lookup_type);
return got_offset;
}
/* Allocate a GOT slot for TYPE/DATA, and emit IR to load it */
static LLVMValueRef
get_aotconst_module (MonoLLVMModule *module, LLVMBuilderRef builder, MonoJumpInfoType type, gconstpointer data, LLVMTypeRef llvm_type,
guint32 *out_got_offset, MonoJumpInfo **out_ji)
{
guint32 got_offset;
LLVMValueRef load;
MonoJumpInfo tmp_ji;
tmp_ji.type = type;
tmp_ji.data.target = data;
MonoJumpInfo *ji = mono_aot_patch_info_dup (&tmp_ji);
if (out_ji)
*out_ji = ji;
got_offset = compute_aot_got_offset (module, ji, llvm_type);
module->max_got_offset = MAX (module->max_got_offset, got_offset);
if (out_got_offset)
*out_got_offset = got_offset;
if (module->static_link && type == MONO_PATCH_INFO_GC_SAFE_POINT_FLAG) {
if (!module->gc_safe_point_flag_var) {
const char *symbol = "mono_polling_required";
module->gc_safe_point_flag_var = LLVMAddGlobal (module->lmodule, llvm_type, symbol);
LLVMSetLinkage (module->gc_safe_point_flag_var, LLVMExternalLinkage);
}
return module->gc_safe_point_flag_var;
}
if (module->static_link && type == MONO_PATCH_INFO_INTERRUPTION_REQUEST_FLAG) {
if (!module->interrupt_flag_var) {
const char *symbol = "mono_thread_interruption_request_flag";
module->interrupt_flag_var = LLVMAddGlobal (module->lmodule, llvm_type, symbol);
LLVMSetLinkage (module->interrupt_flag_var, LLVMExternalLinkage);
}
return module->interrupt_flag_var;
}
LLVMValueRef const_var = g_hash_table_lookup (module->aotconst_vars, GINT_TO_POINTER (got_offset));
if (!const_var) {
LLVMTypeRef type = llvm_type;
// FIXME:
char *name = get_aotconst_name (ji->type, ji->data.target, got_offset);
char *symbol = g_strdup_printf ("aotconst_%s", name);
g_free (name);
LLVMValueRef v = LLVMAddGlobal (module->lmodule, type, symbol);
LLVMSetVisibility (v, LLVMHiddenVisibility);
LLVMSetLinkage (v, LLVMInternalLinkage);
LLVMSetInitializer (v, LLVMConstNull (type));
// FIXME:
LLVMSetAlignment (v, 8);
g_hash_table_insert (module->aotconst_vars, GINT_TO_POINTER (got_offset), v);
const_var = v;
}
load = LLVMBuildLoad (builder, const_var, "");
if (mono_aot_is_shared_got_offset (got_offset))
set_invariant_load_flag (load);
if (type == MONO_PATCH_INFO_LDSTR)
set_nonnull_load_flag (load);
load = LLVMBuildBitCast (builder, load, llvm_type, "");
return load;
}
static LLVMValueRef
get_aotconst (EmitContext *ctx, MonoJumpInfoType type, gconstpointer data, LLVMTypeRef llvm_type)
{
MonoCompile *cfg;
guint32 got_offset;
MonoJumpInfo *ji;
LLVMValueRef load;
cfg = ctx->cfg;
load = get_aotconst_module (ctx->module, ctx->builder, type, data, llvm_type, &got_offset, &ji);
ji->next = cfg->patch_info;
cfg->patch_info = ji;
/*
* If the got slot is shared, it means its initialized when the aot image is loaded, so we don't need to
* explicitly initialize it.
*/
if (!mono_aot_is_shared_got_offset (got_offset)) {
//mono_print_ji (ji);
//printf ("\n");
ctx->cfg->got_access_count ++;
}
return load;
}
static LLVMValueRef
get_dummy_aotconst (EmitContext *ctx, LLVMTypeRef llvm_type)
{
LLVMValueRef indexes [2];
LLVMValueRef got_entry_addr, load;
LLVMBuilderRef builder = ctx->builder;
indexes [0] = LLVMConstInt (LLVMInt32Type (), 0, FALSE);
indexes [1] = LLVMConstInt (LLVMInt32Type (), 0, FALSE);
got_entry_addr = LLVMBuildGEP (builder, ctx->module->dummy_got_var, indexes, 2, "");
load = LLVMBuildLoad (builder, got_entry_addr, "");
load = convert (ctx, load, llvm_type);
return load;
}
typedef struct {
MonoJumpInfo *ji;
MonoMethod *method;
LLVMValueRef load;
LLVMTypeRef type;
LLVMValueRef lmethod;
} CallSite;
static LLVMValueRef
get_callee_llvmonly (EmitContext *ctx, LLVMTypeRef llvm_sig, MonoJumpInfoType type, gconstpointer data)
{
LLVMValueRef callee;
char *callee_name = NULL;
if (ctx->module->static_link && ctx->module->assembly->image != mono_get_corlib ()) {
if (type == MONO_PATCH_INFO_JIT_ICALL_ID) {
MonoJitICallInfo * const info = mono_find_jit_icall_info ((MonoJitICallId)(gsize)data);
g_assert (info);
if (info->func != info->wrapper) {
type = MONO_PATCH_INFO_METHOD;
data = mono_icall_get_wrapper_method (info);
callee_name = mono_aot_get_mangled_method_name ((MonoMethod*)data);
}
} else if (type == MONO_PATCH_INFO_METHOD) {
MonoMethod *method = (MonoMethod*)data;
if (m_class_get_image (method->klass) != ctx->module->assembly->image && mono_aot_is_externally_callable (method))
callee_name = mono_aot_get_mangled_method_name (method);
}
}
if (!callee_name)
callee_name = mono_aot_get_direct_call_symbol (type, data);
if (callee_name) {
/* Directly callable */
// FIXME: Locking
callee = (LLVMValueRef)g_hash_table_lookup (ctx->module->direct_callables, callee_name);
if (!callee) {
callee = LLVMAddFunction (ctx->lmodule, callee_name, llvm_sig);
LLVMSetVisibility (callee, LLVMHiddenVisibility);
g_hash_table_insert (ctx->module->direct_callables, (char*)callee_name, callee);
} else {
/* LLVMTypeRef's are uniqued */
if (LLVMGetElementType (LLVMTypeOf (callee)) != llvm_sig)
return LLVMConstBitCast (callee, LLVMPointerType (llvm_sig, 0));
g_free (callee_name);
}
return callee;
}
/*
* Change references to icalls/pinvokes/jit icalls to their wrappers when in corlib, so
* they can be called directly.
*/
if (ctx->module->assembly->image == mono_get_corlib () && type == MONO_PATCH_INFO_JIT_ICALL_ID) {
MonoJitICallInfo * const info = mono_find_jit_icall_info ((MonoJitICallId)(gsize)data);
if (info->func != info->wrapper) {
type = MONO_PATCH_INFO_METHOD;
data = mono_icall_get_wrapper_method (info);
}
}
if (ctx->module->assembly->image == mono_get_corlib () && type == MONO_PATCH_INFO_METHOD) {
MonoMethod *method = (MonoMethod*)data;
if (m_method_is_icall (method) || m_method_is_pinvoke (method))
data = mono_marshal_get_native_wrapper (method, TRUE, TRUE);
}
/*
* Instead of emitting an indirect call through a got slot, emit a placeholder, and
* replace it with a direct call or an indirect call in mono_llvm_fixup_aot_module ()
* after all methods have been emitted.
*/
if (type == MONO_PATCH_INFO_METHOD) {
MonoMethod *method = (MonoMethod*)data;
if (m_class_get_image (method->klass)->assembly == ctx->module->assembly) {
MonoJumpInfo tmp_ji;
tmp_ji.type = type;
tmp_ji.data.target = method;
MonoJumpInfo *ji = mono_aot_patch_info_dup (&tmp_ji);
ji->next = ctx->cfg->patch_info;
ctx->cfg->patch_info = ji;
LLVMTypeRef llvm_type = LLVMPointerType (llvm_sig, 0);
ctx->cfg->got_access_count ++;
CallSite *info = g_new0 (CallSite, 1);
info->method = method;
info->ji = ji;
info->type = llvm_type;
/*
* Emit a dummy load to represent the callee, and either replace it with
* a reference to the llvm method for the callee, or from a load from the
* GOT.
*/
LLVMValueRef load = get_dummy_aotconst (ctx, llvm_type);
info->load = load;
info->lmethod = ctx->lmethod;
g_ptr_array_add (ctx->callsite_list, info);
return load;
}
}
/*
* All other calls are made through the GOT.
*/
callee = get_aotconst (ctx, type, data, LLVMPointerType (llvm_sig, 0));
return callee;
}
/*
* get_callee:
*
* Return an llvm value representing the callee given by the arguments.
*/
static LLVMValueRef
get_callee (EmitContext *ctx, LLVMTypeRef llvm_sig, MonoJumpInfoType type, gconstpointer data)
{
LLVMValueRef callee;
char *callee_name;
MonoJumpInfo *ji = NULL;
if (ctx->llvm_only)
return get_callee_llvmonly (ctx, llvm_sig, type, data);
callee_name = NULL;
/* Cross-assembly direct calls */
if (type == MONO_PATCH_INFO_METHOD) {
MonoMethod *cmethod = (MonoMethod*)data;
if (m_class_get_image (cmethod->klass) != ctx->module->assembly->image) {
MonoJumpInfo tmp_ji;
memset (&tmp_ji, 0, sizeof (MonoJumpInfo));
tmp_ji.type = type;
tmp_ji.data.target = data;
if (mono_aot_is_direct_callable (&tmp_ji)) {
/*
* This will add a reference to cmethod's image so it will
* be loaded when the current AOT image is loaded, so
* the GOT slots used by the init method code are initialized.
*/
tmp_ji.type = MONO_PATCH_INFO_IMAGE;
tmp_ji.data.image = m_class_get_image (cmethod->klass);
ji = mono_aot_patch_info_dup (&tmp_ji);
mono_aot_get_got_offset (ji);
callee_name = mono_aot_get_mangled_method_name (cmethod);
callee = (LLVMValueRef)g_hash_table_lookup (ctx->module->direct_callables, callee_name);
if (!callee) {
callee = LLVMAddFunction (ctx->lmodule, callee_name, llvm_sig);
LLVMSetLinkage (callee, LLVMExternalLinkage);
g_hash_table_insert (ctx->module->direct_callables, callee_name, callee);
} else {
/* LLVMTypeRef's are uniqued */
if (LLVMGetElementType (LLVMTypeOf (callee)) != llvm_sig)
callee = LLVMConstBitCast (callee, LLVMPointerType (llvm_sig, 0));
g_free (callee_name);
}
return callee;
}
}
}
callee_name = mono_aot_get_plt_symbol (type, data);
if (!callee_name)
return NULL;
if (ctx->cfg->compile_aot)
/* Add a patch so referenced wrappers can be compiled in full aot mode */
mono_add_patch_info (ctx->cfg, 0, type, data);
// FIXME: Locking
callee = (LLVMValueRef)g_hash_table_lookup (ctx->module->plt_entries, callee_name);
if (!callee) {
callee = LLVMAddFunction (ctx->lmodule, callee_name, llvm_sig);
LLVMSetVisibility (callee, LLVMHiddenVisibility);
g_hash_table_insert (ctx->module->plt_entries, (char*)callee_name, callee);
}
if (ctx->cfg->compile_aot) {
ji = g_new0 (MonoJumpInfo, 1);
ji->type = type;
ji->data.target = data;
g_hash_table_insert (ctx->module->plt_entries_ji, ji, callee);
}
return callee;
}
static LLVMValueRef
get_jit_callee (EmitContext *ctx, const char *name, LLVMTypeRef llvm_sig, MonoJumpInfoType type, gconstpointer data)
{
gpointer target;
// This won't be patched so compile the wrapper immediately
if (type == MONO_PATCH_INFO_JIT_ICALL_ID) {
MonoJitICallInfo * const info = mono_find_jit_icall_info ((MonoJitICallId)(gsize)data);
target = (gpointer)mono_icall_get_wrapper_full (info, TRUE);
} else {
target = resolve_patch (ctx->cfg, type, data);
}
LLVMValueRef tramp_var = LLVMAddGlobal (ctx->lmodule, LLVMPointerType (llvm_sig, 0), name);
LLVMSetInitializer (tramp_var, LLVMConstIntToPtr (LLVMConstInt (LLVMInt64Type (), (guint64)(size_t)target, FALSE), LLVMPointerType (llvm_sig, 0)));
LLVMSetLinkage (tramp_var, LLVMExternalLinkage);
LLVMValueRef callee = LLVMBuildLoad (ctx->builder, tramp_var, "");
return callee;
}
static int
get_handler_clause (MonoCompile *cfg, MonoBasicBlock *bb)
{
MonoMethodHeader *header = cfg->header;
MonoExceptionClause *clause;
int i;
/* Directly */
if (bb->region != -1 && MONO_BBLOCK_IS_IN_REGION (bb, MONO_REGION_TRY))
return (bb->region >> 8) - 1;
/* Indirectly */
for (i = 0; i < header->num_clauses; ++i) {
clause = &header->clauses [i];
if (MONO_OFFSET_IN_CLAUSE (clause, bb->real_offset) && clause->flags == MONO_EXCEPTION_CLAUSE_NONE)
return i;
}
return -1;
}
static MonoExceptionClause *
get_most_deep_clause (MonoCompile *cfg, EmitContext *ctx, MonoBasicBlock *bb)
{
if (bb == cfg->bb_init)
return NULL;
// Since they're sorted by nesting we just need
// the first one that the bb is a member of
for (int i = 0; i < cfg->header->num_clauses; i++) {
MonoExceptionClause *curr = &cfg->header->clauses [i];
if (MONO_OFFSET_IN_CLAUSE (curr, bb->real_offset))
return curr;
}
return NULL;
}
static void
set_metadata_flag (LLVMValueRef v, const char *flag_name)
{
LLVMValueRef md_arg;
int md_kind;
md_kind = LLVMGetMDKindID (flag_name, strlen (flag_name));
md_arg = LLVMMDString ("mono", 4);
LLVMSetMetadata (v, md_kind, LLVMMDNode (&md_arg, 1));
}
static void
set_nonnull_load_flag (LLVMValueRef v)
{
LLVMValueRef md_arg;
int md_kind;
const char *flag_name;
flag_name = "nonnull";
md_kind = LLVMGetMDKindID (flag_name, strlen (flag_name));
md_arg = LLVMMDString ("<index>", strlen ("<index>"));
LLVMSetMetadata (v, md_kind, LLVMMDNode (&md_arg, 1));
}
static void
set_nontemporal_flag (LLVMValueRef v)
{
LLVMValueRef md_arg;
int md_kind;
const char *flag_name;
// FIXME: Cache this
flag_name = "nontemporal";
md_kind = LLVMGetMDKindID (flag_name, strlen (flag_name));
md_arg = const_int32 (1);
LLVMSetMetadata (v, md_kind, LLVMMDNode (&md_arg, 1));
}
static void
set_invariant_load_flag (LLVMValueRef v)
{
LLVMValueRef md_arg;
int md_kind;
const char *flag_name;
// FIXME: Cache this
flag_name = "invariant.load";
md_kind = LLVMGetMDKindID (flag_name, strlen (flag_name));
md_arg = LLVMMDString ("<index>", strlen ("<index>"));
LLVMSetMetadata (v, md_kind, LLVMMDNode (&md_arg, 1));
}
/*
* emit_call:
*
* Emit an LLVM call or invoke instruction depending on whenever the call is inside
* a try region.
*/
static LLVMValueRef
emit_call (EmitContext *ctx, MonoBasicBlock *bb, LLVMBuilderRef *builder_ref, LLVMValueRef callee, LLVMValueRef *args, int pindex)
{
MonoCompile *cfg = ctx->cfg;
LLVMValueRef lcall = NULL;
LLVMBuilderRef builder = *builder_ref;
MonoExceptionClause *clause;
if (ctx->llvm_only) {
clause = bb ? get_most_deep_clause (cfg, ctx, bb) : NULL;
// FIXME: Use an invoke only for calls inside try-catch blocks
if (clause && (!cfg->deopt || ctx->has_catch)) {
/*
* Have to use an invoke instead of a call, branching to the
* handler bblock of the clause containing this bblock.
*/
intptr_t key = CLAUSE_END (clause);
LLVMBasicBlockRef lpad_bb = (LLVMBasicBlockRef)g_hash_table_lookup (ctx->exc_meta, (gconstpointer)key);
// FIXME: Find the one that has the lowest end bound for the right start address
// FIXME: Finally + nesting
if (lpad_bb) {
LLVMBasicBlockRef noex_bb = gen_bb (ctx, "CALL_NOEX_BB");
/* Use an invoke */
lcall = LLVMBuildInvoke (builder, callee, args, pindex, noex_bb, lpad_bb, "");
builder = ctx->builder = create_builder (ctx);
LLVMPositionBuilderAtEnd (ctx->builder, noex_bb);
ctx->bblocks [bb->block_num].end_bblock = noex_bb;
}
}
} else {
int clause_index = get_handler_clause (cfg, bb);
if (clause_index != -1) {
MonoMethodHeader *header = cfg->header;
MonoExceptionClause *ec = &header->clauses [clause_index];
MonoBasicBlock *tblock;
LLVMBasicBlockRef ex_bb, noex_bb;
/*
* Have to use an invoke instead of a call, branching to the
* handler bblock of the clause containing this bblock.
*/
g_assert (ec->flags == MONO_EXCEPTION_CLAUSE_NONE || ec->flags == MONO_EXCEPTION_CLAUSE_FINALLY || ec->flags == MONO_EXCEPTION_CLAUSE_FAULT);
tblock = cfg->cil_offset_to_bb [ec->handler_offset];
g_assert (tblock);
ctx->bblocks [tblock->block_num].invoke_target = TRUE;
ex_bb = get_bb (ctx, tblock);
noex_bb = gen_bb (ctx, "NOEX_BB");
/* Use an invoke */
lcall = LLVMBuildInvoke (builder, callee, args, pindex, noex_bb, ex_bb, "");
builder = ctx->builder = create_builder (ctx);
LLVMPositionBuilderAtEnd (ctx->builder, noex_bb);
ctx->bblocks [bb->block_num].end_bblock = noex_bb;
}
}
if (!lcall) {
lcall = LLVMBuildCall (builder, callee, args, pindex, "");
ctx->builder = builder;
}
if (builder_ref)
*builder_ref = ctx->builder;
return lcall;
}
static LLVMValueRef
emit_load (EmitContext *ctx, MonoBasicBlock *bb, LLVMBuilderRef *builder_ref, int size, LLVMValueRef addr, LLVMValueRef base, const char *name, gboolean is_faulting, gboolean is_volatile, BarrierKind barrier)
{
LLVMValueRef res;
/*
* We emit volatile loads for loads which can fault, because otherwise
* LLVM will generate invalid code when encountering a load from a
* NULL address.
*/
if (barrier != LLVM_BARRIER_NONE)
res = mono_llvm_build_atomic_load (*builder_ref, addr, name, is_volatile, size, barrier);
else
res = mono_llvm_build_load (*builder_ref, addr, name, is_volatile);
return res;
}
static void
emit_store_general (EmitContext *ctx, MonoBasicBlock *bb, LLVMBuilderRef *builder_ref, int size, LLVMValueRef value, LLVMValueRef addr, LLVMValueRef base, gboolean is_faulting, gboolean is_volatile, BarrierKind barrier)
{
if (barrier != LLVM_BARRIER_NONE)
mono_llvm_build_aligned_store (*builder_ref, value, addr, barrier, size);
else
mono_llvm_build_store (*builder_ref, value, addr, is_volatile, barrier);
}
static void
emit_store (EmitContext *ctx, MonoBasicBlock *bb, LLVMBuilderRef *builder_ref, int size, LLVMValueRef value, LLVMValueRef addr, LLVMValueRef base, gboolean is_faulting, gboolean is_volatile)
{
emit_store_general (ctx, bb, builder_ref, size, value, addr, base, is_faulting, is_volatile, LLVM_BARRIER_NONE);
}
/*
* emit_cond_system_exception:
*
* Emit code to throw the exception EXC_TYPE if the condition CMP is false.
* Might set the ctx exception.
*/
static void
emit_cond_system_exception (EmitContext *ctx, MonoBasicBlock *bb, const char *exc_type, LLVMValueRef cmp, gboolean force_explicit)
{
LLVMBasicBlockRef ex_bb, ex2_bb = NULL, noex_bb;
LLVMBuilderRef builder;
MonoClass *exc_class;
LLVMValueRef args [2];
LLVMValueRef callee;
gboolean no_pc = FALSE;
static MonoClass *exc_classes [MONO_EXC_INTRINS_NUM];
if (IS_TARGET_AMD64)
/* Some platforms don't require the pc argument */
no_pc = TRUE;
int exc_id = mini_exception_id_by_name (exc_type);
if (!exc_classes [exc_id])
exc_classes [exc_id] = mono_class_load_from_name (mono_get_corlib (), "System", exc_type);
exc_class = exc_classes [exc_id];
ex_bb = gen_bb (ctx, "EX_BB");
if (ctx->llvm_only)
ex2_bb = gen_bb (ctx, "EX2_BB");
noex_bb = gen_bb (ctx, "NOEX_BB");
LLVMValueRef branch = LLVMBuildCondBr (ctx->builder, cmp, ex_bb, noex_bb);
if (exc_id == MONO_EXC_NULL_REF && !ctx->cfg->disable_llvm_implicit_null_checks && !force_explicit) {
mono_llvm_set_implicit_branch (ctx->builder, branch);
}
/* Emit exception throwing code */
ctx->builder = builder = create_builder (ctx);
LLVMPositionBuilderAtEnd (builder, ex_bb);
if (ctx->cfg->llvm_only) {
LLVMBuildBr (builder, ex2_bb);
ctx->builder = builder = create_builder (ctx);
LLVMPositionBuilderAtEnd (ctx->builder, ex2_bb);
if (exc_id == MONO_EXC_NULL_REF) {
static LLVMTypeRef sig;
if (!sig)
sig = LLVMFunctionType0 (LLVMVoidType (), FALSE);
/* Can't cache this */
callee = get_callee (ctx, sig, MONO_PATCH_INFO_JIT_ICALL_ADDR, GUINT_TO_POINTER (MONO_JIT_ICALL_mini_llvmonly_throw_nullref_exception));
emit_call (ctx, bb, &builder, callee, NULL, 0);
} else {
static LLVMTypeRef sig;
if (!sig)
sig = LLVMFunctionType1 (LLVMVoidType (), LLVMInt32Type (), FALSE);
callee = get_callee (ctx, sig, MONO_PATCH_INFO_JIT_ICALL_ADDR, GUINT_TO_POINTER (MONO_JIT_ICALL_mini_llvmonly_throw_corlib_exception));
args [0] = LLVMConstInt (LLVMInt32Type (), m_class_get_type_token (exc_class) - MONO_TOKEN_TYPE_DEF, FALSE);
emit_call (ctx, bb, &builder, callee, args, 1);
}
LLVMBuildUnreachable (builder);
ctx->builder = builder = create_builder (ctx);
LLVMPositionBuilderAtEnd (ctx->builder, noex_bb);
ctx->bblocks [bb->block_num].end_bblock = noex_bb;
ctx->ex_index ++;
return;
}
callee = ctx->module->throw_corlib_exception;
if (!callee) {
LLVMTypeRef sig;
if (no_pc)
sig = LLVMFunctionType1 (LLVMVoidType (), LLVMInt32Type (), FALSE);
else
sig = LLVMFunctionType2 (LLVMVoidType (), LLVMInt32Type (), LLVMPointerType (LLVMInt8Type (), 0), FALSE);
const MonoJitICallId icall_id = MONO_JIT_ICALL_mono_llvm_throw_corlib_exception_abs_trampoline;
if (ctx->cfg->compile_aot) {
callee = get_callee (ctx, sig, MONO_PATCH_INFO_JIT_ICALL_ID, GUINT_TO_POINTER (icall_id));
} else {
/*
* Differences between the LLVM/non-LLVM throw corlib exception trampoline:
* - On x86, LLVM generated code doesn't push the arguments
* - The trampoline takes the throw address as an arguments, not a pc offset.
*/
callee = get_jit_callee (ctx, "llvm_throw_corlib_exception_trampoline", sig, MONO_PATCH_INFO_JIT_ICALL_ID, GUINT_TO_POINTER (icall_id));
/*
* Make sure that ex_bb starts with the invoke, so the block address points to it, and not to the load
* added by get_jit_callee ().
*/
ex2_bb = gen_bb (ctx, "EX2_BB");
LLVMBuildBr (builder, ex2_bb);
ex_bb = ex2_bb;
ctx->builder = builder = create_builder (ctx);
LLVMPositionBuilderAtEnd (ctx->builder, ex2_bb);
}
}
args [0] = LLVMConstInt (LLVMInt32Type (), m_class_get_type_token (exc_class) - MONO_TOKEN_TYPE_DEF, FALSE);
/*
* The LLVM mono branch contains changes so a block address can be passed as an
* argument to a call.
*/
if (no_pc) {
emit_call (ctx, bb, &builder, callee, args, 1);
} else {
args [1] = LLVMBlockAddress (ctx->lmethod, ex_bb);
emit_call (ctx, bb, &builder, callee, args, 2);
}
LLVMBuildUnreachable (builder);
ctx->builder = builder = create_builder (ctx);
LLVMPositionBuilderAtEnd (ctx->builder, noex_bb);
ctx->bblocks [bb->block_num].end_bblock = noex_bb;
ctx->ex_index ++;
return;
}
/*
* emit_args_to_vtype:
*
* Emit code to store the vtype in the arguments args to the address ADDRESS.
*/
static void
emit_args_to_vtype (EmitContext *ctx, LLVMBuilderRef builder, MonoType *t, LLVMValueRef address, LLVMArgInfo *ainfo, LLVMValueRef *args)
{
int j, size, nslots;
MonoClass *klass;
t = mini_get_underlying_type (t);
klass = mono_class_from_mono_type_internal (t);
size = mono_class_value_size (klass, NULL);
if (MONO_CLASS_IS_SIMD (ctx->cfg, klass))
address = LLVMBuildBitCast (ctx->builder, address, LLVMPointerType (LLVMInt8Type (), 0), "");
if (ainfo->storage == LLVMArgAsFpArgs)
nslots = ainfo->nslots;
else
nslots = 2;
for (j = 0; j < nslots; ++j) {
LLVMValueRef index [2], addr, daddr;
int part_size = size > TARGET_SIZEOF_VOID_P ? TARGET_SIZEOF_VOID_P : size;
LLVMTypeRef part_type;
while (part_size != 1 && part_size != 2 && part_size != 4 && part_size < 8)
part_size ++;
if (ainfo->pair_storage [j] == LLVMArgNone)
continue;
switch (ainfo->pair_storage [j]) {
case LLVMArgInIReg: {
part_type = LLVMIntType (part_size * 8);
if (MONO_CLASS_IS_SIMD (ctx->cfg, klass)) {
index [0] = LLVMConstInt (LLVMInt32Type (), j * TARGET_SIZEOF_VOID_P, FALSE);
addr = LLVMBuildGEP (builder, address, index, 1, "");
} else {
daddr = LLVMBuildBitCast (ctx->builder, address, LLVMPointerType (IntPtrType (), 0), "");
index [0] = LLVMConstInt (LLVMInt32Type (), j, FALSE);
addr = LLVMBuildGEP (builder, daddr, index, 1, "");
}
LLVMBuildStore (builder, convert (ctx, args [j], part_type), LLVMBuildBitCast (ctx->builder, addr, LLVMPointerType (part_type, 0), ""));
break;
}
case LLVMArgInFPReg: {
LLVMTypeRef arg_type;
if (ainfo->esize == 8)
arg_type = LLVMDoubleType ();
else
arg_type = LLVMFloatType ();
index [0] = LLVMConstInt (LLVMInt32Type (), j, FALSE);
daddr = LLVMBuildBitCast (ctx->builder, address, LLVMPointerType (arg_type, 0), "");
addr = LLVMBuildGEP (builder, daddr, index, 1, "");
LLVMBuildStore (builder, args [j], addr);
break;
}
case LLVMArgNone:
break;
default:
g_assert_not_reached ();
}
size -= TARGET_SIZEOF_VOID_P;
}
}
/*
* emit_vtype_to_args:
*
* Emit code to load a vtype at address ADDRESS into scalar arguments. Store the arguments
* into ARGS, and the number of arguments into NARGS.
*/
static void
emit_vtype_to_args (EmitContext *ctx, LLVMBuilderRef builder, MonoType *t, LLVMValueRef address, LLVMArgInfo *ainfo, LLVMValueRef *args, guint32 *nargs)
{
int pindex = 0;
int j, nslots;
LLVMTypeRef arg_type;
t = mini_get_underlying_type (t);
int32_t size = get_vtype_size_align (t).size;
if (MONO_CLASS_IS_SIMD (ctx->cfg, mono_class_from_mono_type_internal (t)))
address = LLVMBuildBitCast (ctx->builder, address, LLVMPointerType (LLVMInt8Type (), 0), "");
if (ainfo->storage == LLVMArgAsFpArgs)
nslots = ainfo->nslots;
else
nslots = 2;
for (j = 0; j < nslots; ++j) {
LLVMValueRef index [2], addr, daddr;
int partsize = size > TARGET_SIZEOF_VOID_P ? TARGET_SIZEOF_VOID_P : size;
if (ainfo->pair_storage [j] == LLVMArgNone)
continue;
switch (ainfo->pair_storage [j]) {
case LLVMArgInIReg:
if (MONO_CLASS_IS_SIMD (ctx->cfg, mono_class_from_mono_type_internal (t))) {
index [0] = LLVMConstInt (LLVMInt32Type (), j * TARGET_SIZEOF_VOID_P, FALSE);
addr = LLVMBuildGEP (builder, address, index, 1, "");
} else {
daddr = LLVMBuildBitCast (ctx->builder, address, LLVMPointerType (IntPtrType (), 0), "");
index [0] = LLVMConstInt (LLVMInt32Type (), j, FALSE);
addr = LLVMBuildGEP (builder, daddr, index, 1, "");
}
args [pindex ++] = convert (ctx, LLVMBuildLoad (builder, LLVMBuildBitCast (ctx->builder, addr, LLVMPointerType (LLVMIntType (partsize * 8), 0), ""), ""), IntPtrType ());
break;
case LLVMArgInFPReg:
if (ainfo->esize == 8)
arg_type = LLVMDoubleType ();
else
arg_type = LLVMFloatType ();
daddr = LLVMBuildBitCast (ctx->builder, address, LLVMPointerType (arg_type, 0), "");
index [0] = LLVMConstInt (LLVMInt32Type (), j, FALSE);
addr = LLVMBuildGEP (builder, daddr, index, 1, "");
args [pindex ++] = LLVMBuildLoad (builder, addr, "");
break;
case LLVMArgNone:
break;
default:
g_assert_not_reached ();
}
size -= TARGET_SIZEOF_VOID_P;
}
*nargs = pindex;
}
static LLVMValueRef
build_alloca_llvm_type_name (EmitContext *ctx, LLVMTypeRef t, int align, const char *name)
{
/*
* Have to place all alloca's at the end of the entry bb, since otherwise they would
* get executed every time control reaches them.
*/
LLVMPositionBuilder (ctx->alloca_builder, get_bb (ctx, ctx->cfg->bb_entry), ctx->last_alloca);
ctx->last_alloca = mono_llvm_build_alloca (ctx->alloca_builder, t, NULL, align, name);
return ctx->last_alloca;
}
static LLVMValueRef
build_alloca_llvm_type (EmitContext *ctx, LLVMTypeRef t, int align)
{
return build_alloca_llvm_type_name (ctx, t, align, "");
}
static LLVMValueRef
build_named_alloca (EmitContext *ctx, MonoType *t, char const *name)
{
MonoClass *k = mono_class_from_mono_type_internal (t);
int align;
g_assert (!mini_is_gsharedvt_variable_type (t));
if (MONO_CLASS_IS_SIMD (ctx->cfg, k))
align = mono_class_value_size (k, NULL);
else
align = mono_class_min_align (k);
/* Sometimes align is not a power of 2 */
while (mono_is_power_of_two (align) == -1)
align ++;
return build_alloca_llvm_type_name (ctx, type_to_llvm_type (ctx, t), align, name);
}
static LLVMValueRef
build_alloca (EmitContext *ctx, MonoType *t)
{
return build_named_alloca (ctx, t, "");
}
static LLVMValueRef
emit_gsharedvt_ldaddr (EmitContext *ctx, int vreg)
{
/*
* gsharedvt local.
* Compute the address of the local as gsharedvt_locals_var + gsharedvt_info_var->locals_offsets [idx].
*/
MonoCompile *cfg = ctx->cfg;
LLVMBuilderRef builder = ctx->builder;
LLVMValueRef offset, offset_var;
LLVMValueRef info_var = ctx->values [cfg->gsharedvt_info_var->dreg];
LLVMValueRef locals_var = ctx->values [cfg->gsharedvt_locals_var->dreg];
LLVMValueRef ptr;
char *name;
g_assert (info_var);
g_assert (locals_var);
int idx = cfg->gsharedvt_vreg_to_idx [vreg] - 1;
offset = LLVMConstInt (LLVMInt32Type (), MONO_STRUCT_OFFSET (MonoGSharedVtMethodRuntimeInfo, entries) + (idx * TARGET_SIZEOF_VOID_P), FALSE);
ptr = LLVMBuildAdd (builder, convert (ctx, info_var, IntPtrType ()), convert (ctx, offset, IntPtrType ()), "");
name = g_strdup_printf ("gsharedvt_local_%d_offset", vreg);
offset_var = LLVMBuildLoad (builder, convert (ctx, ptr, LLVMPointerType (LLVMInt32Type (), 0)), name);
return LLVMBuildAdd (builder, convert (ctx, locals_var, IntPtrType ()), convert (ctx, offset_var, IntPtrType ()), "");
}
/*
* Put the global into the 'llvm.used' array to prevent it from being optimized away.
*/
static void
mark_as_used (MonoLLVMModule *module, LLVMValueRef global)
{
if (!module->used)
module->used = g_ptr_array_sized_new (16);
g_ptr_array_add (module->used, global);
}
static void
emit_llvm_used (MonoLLVMModule *module)
{
LLVMModuleRef lmodule = module->lmodule;
LLVMTypeRef used_type;
LLVMValueRef used, *used_elem;
int i;
if (!module->used)
return;
used_type = LLVMArrayType (LLVMPointerType (LLVMInt8Type (), 0), module->used->len);
used = LLVMAddGlobal (lmodule, used_type, "llvm.used");
used_elem = g_new0 (LLVMValueRef, module->used->len);
for (i = 0; i < module->used->len; ++i)
used_elem [i] = LLVMConstBitCast ((LLVMValueRef)g_ptr_array_index (module->used, i), LLVMPointerType (LLVMInt8Type (), 0));
LLVMSetInitializer (used, LLVMConstArray (LLVMPointerType (LLVMInt8Type (), 0), used_elem, module->used->len));
LLVMSetLinkage (used, LLVMAppendingLinkage);
LLVMSetSection (used, "llvm.metadata");
}
/*
* emit_get_method:
*
* Emit a function mapping method indexes to their code
*/
static void
emit_get_method (MonoLLVMModule *module)
{
LLVMModuleRef lmodule = module->lmodule;
LLVMValueRef func, switch_ins, m;
LLVMBasicBlockRef entry_bb, fail_bb, bb, code_start_bb, code_end_bb, main_bb;
LLVMBasicBlockRef *bbs = NULL;
LLVMTypeRef rtype;
LLVMBuilderRef builder = LLVMCreateBuilder ();
LLVMValueRef table = NULL;
char *name;
int i;
gboolean emit_table = FALSE;
#ifdef TARGET_WASM
/*
* Emit a table of functions instead of a switch statement,
* its very efficient on wasm. This might be usable on
* other platforms too.
*/
emit_table = TRUE;
#endif
rtype = LLVMPointerType (LLVMInt8Type (), 0);
int table_len = module->max_method_idx + 1;
if (emit_table) {
LLVMTypeRef table_type;
LLVMValueRef *table_elems;
char *table_name;
table_type = LLVMArrayType (rtype, table_len);
table_name = g_strdup_printf ("%s_method_table", module->global_prefix);
table = LLVMAddGlobal (lmodule, table_type, table_name);
table_elems = g_new0 (LLVMValueRef, table_len);
for (i = 0; i < table_len; ++i) {
m = (LLVMValueRef)g_hash_table_lookup (module->idx_to_lmethod, GINT_TO_POINTER (i));
if (m && !g_hash_table_lookup (module->no_method_table_lmethods, m))
table_elems [i] = LLVMBuildBitCast (builder, m, rtype, "");
else
table_elems [i] = LLVMConstNull (rtype);
}
LLVMSetInitializer (table, LLVMConstArray (LLVMPointerType (LLVMInt8Type (), 0), table_elems, table_len));
}
/*
* Emit a switch statement. Emitting a table of function addresses is smaller/faster,
* but generating code seems safer.
*/
func = LLVMAddFunction (lmodule, module->get_method_symbol, LLVMFunctionType1 (rtype, LLVMInt32Type (), FALSE));
LLVMSetLinkage (func, LLVMExternalLinkage);
LLVMSetVisibility (func, LLVMHiddenVisibility);
mono_llvm_add_func_attr (func, LLVM_ATTR_NO_UNWIND);
module->get_method = func;
entry_bb = LLVMAppendBasicBlock (func, "ENTRY");
/*
* Return llvm_code_start/llvm_code_end when called with -1/-2.
* Hopefully, the toolchain doesn't reorder these functions. If it does,
* then we will have to find another solution.
*/
name = g_strdup_printf ("BB_CODE_START");
code_start_bb = LLVMAppendBasicBlock (func, name);
g_free (name);
LLVMPositionBuilderAtEnd (builder, code_start_bb);
LLVMBuildRet (builder, LLVMBuildBitCast (builder, module->code_start, rtype, ""));
name = g_strdup_printf ("BB_CODE_END");
code_end_bb = LLVMAppendBasicBlock (func, name);
g_free (name);
LLVMPositionBuilderAtEnd (builder, code_end_bb);
LLVMBuildRet (builder, LLVMBuildBitCast (builder, module->code_end, rtype, ""));
if (emit_table) {
/*
* Because table_len is computed using the method indexes available for us, it
* might not include methods which are not compiled because of AOT profiles.
* So table_len can be smaller than info->nmethods. Add a bounds check because
* of that.
* switch (index) {
* case -1: return code_start;
* case -2: return code_end;
* default: return index < table_len ? method_table [index] : 0;
*/
fail_bb = LLVMAppendBasicBlock (func, "FAIL");
LLVMPositionBuilderAtEnd (builder, fail_bb);
LLVMBuildRet (builder, LLVMBuildIntToPtr (builder, LLVMConstInt (LLVMInt32Type (), 0, FALSE), rtype, ""));
main_bb = LLVMAppendBasicBlock (func, "MAIN");
LLVMPositionBuilderAtEnd (builder, main_bb);
LLVMValueRef base = table;
LLVMValueRef indexes [2];
indexes [0] = LLVMConstInt (LLVMInt32Type (), 0, FALSE);
indexes [1] = LLVMGetParam (func, 0);
LLVMValueRef addr = LLVMBuildGEP (builder, base, indexes, 2, "");
LLVMValueRef res = mono_llvm_build_load (builder, addr, "", FALSE);
LLVMBuildRet (builder, res);
LLVMBasicBlockRef default_bb = LLVMAppendBasicBlock (func, "DEFAULT");
LLVMPositionBuilderAtEnd (builder, default_bb);
LLVMValueRef cmp = LLVMBuildICmp (builder, LLVMIntSGE, LLVMGetParam (func, 0), LLVMConstInt (LLVMInt32Type (), table_len, FALSE), "");
LLVMBuildCondBr (builder, cmp, fail_bb, main_bb);
LLVMPositionBuilderAtEnd (builder, entry_bb);
switch_ins = LLVMBuildSwitch (builder, LLVMGetParam (func, 0), default_bb, 0);
LLVMAddCase (switch_ins, LLVMConstInt (LLVMInt32Type (), -1, FALSE), code_start_bb);
LLVMAddCase (switch_ins, LLVMConstInt (LLVMInt32Type (), -2, FALSE), code_end_bb);
} else {
bbs = g_new0 (LLVMBasicBlockRef, module->max_method_idx + 1);
for (i = 0; i < module->max_method_idx + 1; ++i) {
name = g_strdup_printf ("BB_%d", i);
bb = LLVMAppendBasicBlock (func, name);
g_free (name);
bbs [i] = bb;
LLVMPositionBuilderAtEnd (builder, bb);
m = (LLVMValueRef)g_hash_table_lookup (module->idx_to_lmethod, GINT_TO_POINTER (i));
if (m && !g_hash_table_lookup (module->no_method_table_lmethods, m))
LLVMBuildRet (builder, LLVMBuildBitCast (builder, m, rtype, ""));
else
LLVMBuildRet (builder, LLVMConstNull (rtype));
}
fail_bb = LLVMAppendBasicBlock (func, "FAIL");
LLVMPositionBuilderAtEnd (builder, fail_bb);
LLVMBuildRet (builder, LLVMConstNull (rtype));
LLVMPositionBuilderAtEnd (builder, entry_bb);
switch_ins = LLVMBuildSwitch (builder, LLVMGetParam (func, 0), fail_bb, 0);
LLVMAddCase (switch_ins, LLVMConstInt (LLVMInt32Type (), -1, FALSE), code_start_bb);
LLVMAddCase (switch_ins, LLVMConstInt (LLVMInt32Type (), -2, FALSE), code_end_bb);
for (i = 0; i < module->max_method_idx + 1; ++i) {
LLVMAddCase (switch_ins, LLVMConstInt (LLVMInt32Type (), i, FALSE), bbs [i]);
}
}
mark_as_used (module, func);
LLVMDisposeBuilder (builder);
}
/*
* emit_get_unbox_tramp:
*
* Emit a function mapping method indexes to their unbox trampoline
*/
static void
emit_get_unbox_tramp (MonoLLVMModule *module)
{
LLVMModuleRef lmodule = module->lmodule;
LLVMValueRef func, switch_ins, m;
LLVMBasicBlockRef entry_bb, fail_bb, bb;
LLVMBasicBlockRef *bbs;
LLVMTypeRef rtype;
LLVMBuilderRef builder = LLVMCreateBuilder ();
char *name;
int i;
gboolean emit_table = FALSE;
/* Similar to emit_get_method () */
#ifndef TARGET_WATCHOS
emit_table = TRUE;
#endif
rtype = LLVMPointerType (LLVMInt8Type (), 0);
if (emit_table) {
// About 10% of methods have an unbox tramp, so emit a table of indexes for them
// that the runtime can search using a binary search
int len = 0;
for (i = 0; i < module->max_method_idx + 1; ++i) {
m = (LLVMValueRef)g_hash_table_lookup (module->idx_to_unbox_tramp, GINT_TO_POINTER (i));
if (m)
len ++;
}
LLVMTypeRef table_type, elemtype;
LLVMValueRef *table_elems;
LLVMValueRef table;
char *table_name;
int table_len;
int elemsize;
table_len = len;
elemsize = module->max_method_idx < 65000 ? 2 : 4;
// The index table
elemtype = elemsize == 2 ? LLVMInt16Type () : LLVMInt32Type ();
table_type = LLVMArrayType (elemtype, table_len);
table_name = g_strdup_printf ("%s_unbox_tramp_indexes", module->global_prefix);
table = LLVMAddGlobal (lmodule, table_type, table_name);
table_elems = g_new0 (LLVMValueRef, table_len);
int idx = 0;
for (i = 0; i < module->max_method_idx + 1; ++i) {
m = (LLVMValueRef)g_hash_table_lookup (module->idx_to_unbox_tramp, GINT_TO_POINTER (i));
if (m)
table_elems [idx ++] = LLVMConstInt (elemtype, i, FALSE);
}
LLVMSetInitializer (table, LLVMConstArray (elemtype, table_elems, table_len));
module->unbox_tramp_indexes = table;
// The trampoline table
elemtype = rtype;
table_type = LLVMArrayType (elemtype, table_len);
table_name = g_strdup_printf ("%s_unbox_trampolines", module->global_prefix);
table = LLVMAddGlobal (lmodule, table_type, table_name);
table_elems = g_new0 (LLVMValueRef, table_len);
idx = 0;
for (i = 0; i < module->max_method_idx + 1; ++i) {
m = (LLVMValueRef)g_hash_table_lookup (module->idx_to_unbox_tramp, GINT_TO_POINTER (i));
if (m)
table_elems [idx ++] = LLVMBuildBitCast (builder, m, rtype, "");
}
LLVMSetInitializer (table, LLVMConstArray (elemtype, table_elems, table_len));
module->unbox_trampolines = table;
module->unbox_tramp_num = table_len;
module->unbox_tramp_elemsize = elemsize;
return;
}
func = LLVMAddFunction (lmodule, module->get_unbox_tramp_symbol, LLVMFunctionType1 (rtype, LLVMInt32Type (), FALSE));
LLVMSetLinkage (func, LLVMExternalLinkage);
LLVMSetVisibility (func, LLVMHiddenVisibility);
mono_llvm_add_func_attr (func, LLVM_ATTR_NO_UNWIND);
module->get_unbox_tramp = func;
entry_bb = LLVMAppendBasicBlock (func, "ENTRY");
bbs = g_new0 (LLVMBasicBlockRef, module->max_method_idx + 1);
for (i = 0; i < module->max_method_idx + 1; ++i) {
m = (LLVMValueRef)g_hash_table_lookup (module->idx_to_unbox_tramp, GINT_TO_POINTER (i));
if (!m)
continue;
name = g_strdup_printf ("BB_%d", i);
bb = LLVMAppendBasicBlock (func, name);
g_free (name);
bbs [i] = bb;
LLVMPositionBuilderAtEnd (builder, bb);
LLVMBuildRet (builder, LLVMBuildBitCast (builder, m, rtype, ""));
}
fail_bb = LLVMAppendBasicBlock (func, "FAIL");
LLVMPositionBuilderAtEnd (builder, fail_bb);
LLVMBuildRet (builder, LLVMConstNull (rtype));
LLVMPositionBuilderAtEnd (builder, entry_bb);
switch_ins = LLVMBuildSwitch (builder, LLVMGetParam (func, 0), fail_bb, 0);
for (i = 0; i < module->max_method_idx + 1; ++i) {
m = (LLVMValueRef)g_hash_table_lookup (module->idx_to_unbox_tramp, GINT_TO_POINTER (i));
if (!m)
continue;
LLVMAddCase (switch_ins, LLVMConstInt (LLVMInt32Type (), i, FALSE), bbs [i]);
}
mark_as_used (module, func);
LLVMDisposeBuilder (builder);
}
/*
* emit_init_aotconst:
*
* Emit a function to initialize the aotconst_ variables. Called by the runtime.
*/
static void
emit_init_aotconst (MonoLLVMModule *module)
{
LLVMModuleRef lmodule = module->lmodule;
LLVMValueRef func;
LLVMBasicBlockRef entry_bb;
LLVMBuilderRef builder = LLVMCreateBuilder ();
func = LLVMAddFunction (lmodule, module->init_aotconst_symbol, LLVMFunctionType2 (LLVMVoidType (), LLVMInt32Type (), IntPtrType (), FALSE));
LLVMSetLinkage (func, LLVMExternalLinkage);
LLVMSetVisibility (func, LLVMHiddenVisibility);
mono_llvm_add_func_attr (func, LLVM_ATTR_NO_UNWIND);
module->init_aotconst_func = func;
entry_bb = LLVMAppendBasicBlock (func, "ENTRY");
LLVMPositionBuilderAtEnd (builder, entry_bb);
#ifdef TARGET_WASM
/* Emit a table of aotconst addresses instead of a switch statement to save space */
LLVMValueRef aotconsts;
LLVMTypeRef aotconst_addr_type = LLVMPointerType (module->ptr_type, 0);
int table_size = module->max_got_offset + 1;
LLVMTypeRef aotconst_arr_type = LLVMArrayType (aotconst_addr_type, table_size);
LLVMValueRef aotconst_dummy = LLVMAddGlobal (module->lmodule, module->ptr_type, "aotconst_dummy");
LLVMSetInitializer (aotconst_dummy, LLVMConstNull (module->ptr_type));
LLVMSetVisibility (aotconst_dummy, LLVMHiddenVisibility);
LLVMSetLinkage (aotconst_dummy, LLVMInternalLinkage);
aotconsts = LLVMAddGlobal (module->lmodule, aotconst_arr_type, "aotconsts");
LLVMValueRef *aotconst_init = g_new0 (LLVMValueRef, table_size);
for (int i = 0; i < table_size; ++i) {
LLVMValueRef aotconst = (LLVMValueRef)g_hash_table_lookup (module->aotconst_vars, GINT_TO_POINTER (i));
if (aotconst)
aotconst_init [i] = LLVMConstBitCast (aotconst, aotconst_addr_type);
else
aotconst_init [i] = LLVMConstBitCast (aotconst_dummy, aotconst_addr_type);
}
LLVMSetInitializer (aotconsts, LLVMConstArray (aotconst_addr_type, aotconst_init, table_size));
LLVMSetVisibility (aotconsts, LLVMHiddenVisibility);
LLVMSetLinkage (aotconsts, LLVMInternalLinkage);
LLVMBasicBlockRef exit_bb = LLVMAppendBasicBlock (func, "EXIT_BB");
LLVMBasicBlockRef main_bb = LLVMAppendBasicBlock (func, "BB");
LLVMValueRef cmp = LLVMBuildICmp (builder, LLVMIntSGE, LLVMGetParam (func, 0), LLVMConstInt (LLVMInt32Type (), table_size, FALSE), "");
LLVMBuildCondBr (builder, cmp, exit_bb, main_bb);
LLVMPositionBuilderAtEnd (builder, main_bb);
LLVMValueRef indexes [2];
indexes [0] = LLVMConstInt (LLVMInt32Type (), 0, FALSE);
indexes [1] = LLVMGetParam (func, 0);
LLVMValueRef aotconst_addr = LLVMBuildLoad (builder, LLVMBuildGEP (builder, aotconsts, indexes, 2, ""), "");
LLVMBuildStore (builder, LLVMBuildIntToPtr (builder, LLVMGetParam (func, 1), module->ptr_type, ""), aotconst_addr);
LLVMBuildBr (builder, exit_bb);
LLVMPositionBuilderAtEnd (builder, exit_bb);
LLVMBuildRetVoid (builder);
#else
LLVMValueRef switch_ins;
LLVMBasicBlockRef fail_bb, bb;
LLVMBasicBlockRef *bbs = NULL;
char *name;
bbs = g_new0 (LLVMBasicBlockRef, module->max_got_offset + 1);
for (int i = 0; i < module->max_got_offset + 1; ++i) {
name = g_strdup_printf ("BB_%d", i);
bb = LLVMAppendBasicBlock (func, name);
g_free (name);
bbs [i] = bb;
LLVMPositionBuilderAtEnd (builder, bb);
LLVMValueRef var = g_hash_table_lookup (module->aotconst_vars, GINT_TO_POINTER (i));
if (var) {
LLVMValueRef addr = LLVMBuildBitCast (builder, var, LLVMPointerType (IntPtrType (), 0), "");
LLVMBuildStore (builder, LLVMGetParam (func, 1), addr);
}
LLVMBuildRetVoid (builder);
}
fail_bb = LLVMAppendBasicBlock (func, "FAIL");
LLVMPositionBuilderAtEnd (builder, fail_bb);
LLVMBuildRetVoid (builder);
LLVMPositionBuilderAtEnd (builder, entry_bb);
switch_ins = LLVMBuildSwitch (builder, LLVMGetParam (func, 0), fail_bb, 0);
for (int i = 0; i < module->max_got_offset + 1; ++i)
LLVMAddCase (switch_ins, LLVMConstInt (LLVMInt32Type (), i, FALSE), bbs [i]);
#endif
LLVMDisposeBuilder (builder);
}
/* Add a function to mark the beginning of LLVM code */
static void
emit_llvm_code_start (MonoLLVMModule *module)
{
LLVMModuleRef lmodule = module->lmodule;
LLVMValueRef func;
LLVMBasicBlockRef entry_bb;
LLVMBuilderRef builder;
func = LLVMAddFunction (lmodule, "llvm_code_start", LLVMFunctionType (LLVMVoidType (), NULL, 0, FALSE));
LLVMSetLinkage (func, LLVMInternalLinkage);
mono_llvm_add_func_attr (func, LLVM_ATTR_NO_UNWIND);
module->code_start = func;
entry_bb = LLVMAppendBasicBlock (func, "ENTRY");
builder = LLVMCreateBuilder ();
LLVMPositionBuilderAtEnd (builder, entry_bb);
LLVMBuildRetVoid (builder);
LLVMDisposeBuilder (builder);
}
/*
* emit_init_func:
*
* Emit functions to initialize LLVM methods.
* These are wrappers around the mini_llvm_init_method () JIT icall.
* The wrappers handle adding the 'amodule' argument, loading the vtable from different locations, and they have
* a cold calling convention.
*/
static LLVMValueRef
emit_init_func (MonoLLVMModule *module, MonoAotInitSubtype subtype)
{
LLVMModuleRef lmodule = module->lmodule;
LLVMValueRef func, indexes [2], args [16], callee, info_var, index_var, inited_var, cmp;
LLVMBasicBlockRef entry_bb, inited_bb, notinited_bb;
LLVMBuilderRef builder;
LLVMTypeRef icall_sig;
const char *wrapper_name = mono_marshal_get_aot_init_wrapper_name (subtype);
LLVMTypeRef func_type = NULL;
LLVMTypeRef arg_type = module->ptr_type;
char *name = g_strdup_printf ("%s_%s", module->global_prefix, wrapper_name);
switch (subtype) {
case AOT_INIT_METHOD:
func_type = LLVMFunctionType1 (LLVMVoidType (), arg_type, FALSE);
break;
case AOT_INIT_METHOD_GSHARED_MRGCTX:
case AOT_INIT_METHOD_GSHARED_VTABLE:
func_type = LLVMFunctionType2 (LLVMVoidType (), arg_type, IntPtrType (), FALSE);
break;
case AOT_INIT_METHOD_GSHARED_THIS:
func_type = LLVMFunctionType2 (LLVMVoidType (), arg_type, ObjRefType (), FALSE);
break;
default:
g_assert_not_reached ();
}
func = LLVMAddFunction (lmodule, name, func_type);
info_var = LLVMGetParam (func, 0);
LLVMSetLinkage (func, LLVMInternalLinkage);
mono_llvm_add_func_attr (func, LLVM_ATTR_NO_INLINE);
set_cold_cconv (func);
entry_bb = LLVMAppendBasicBlock (func, "ENTRY");
builder = LLVMCreateBuilder ();
LLVMPositionBuilderAtEnd (builder, entry_bb);
/* Load method_index which is emitted at the start of the method info */
indexes [0] = const_int32 (0);
indexes [1] = const_int32 (0);
// FIXME: Make sure its aligned
index_var = LLVMBuildLoad (builder, LLVMBuildGEP (builder, LLVMBuildBitCast (builder, info_var, LLVMPointerType (LLVMInt32Type (), 0), ""), indexes, 1, ""), "method_index");
/* Check for is_inited here as well, since this can be called from JITted code which might not check it */
indexes [0] = const_int32 (0);
indexes [1] = index_var;
inited_var = LLVMBuildLoad (builder, LLVMBuildGEP (builder, module->inited_var, indexes, 2, ""), "is_inited");
cmp = LLVMBuildICmp (builder, LLVMIntEQ, inited_var, LLVMConstInt (LLVMTypeOf (inited_var), 0, FALSE), "");
inited_bb = LLVMAppendBasicBlock (func, "INITED");
notinited_bb = LLVMAppendBasicBlock (func, "NOT_INITED");
LLVMBuildCondBr (builder, cmp, notinited_bb, inited_bb);
LLVMPositionBuilderAtEnd (builder, notinited_bb);
LLVMValueRef amodule_var = get_aotconst_module (module, builder, MONO_PATCH_INFO_AOT_MODULE, NULL, LLVMPointerType (IntPtrType (), 0), NULL, NULL);
args [0] = LLVMBuildPtrToInt (builder, module->info_var, IntPtrType (), "");
args [1] = LLVMBuildPtrToInt (builder, amodule_var, IntPtrType (), "");
args [2] = info_var;
switch (subtype) {
case AOT_INIT_METHOD:
args [3] = LLVMConstNull (IntPtrType ());
break;
case AOT_INIT_METHOD_GSHARED_VTABLE:
args [3] = LLVMGetParam (func, 1);
break;
case AOT_INIT_METHOD_GSHARED_THIS:
/* Load this->vtable */
args [3] = LLVMBuildBitCast (builder, LLVMGetParam (func, 1), LLVMPointerType (IntPtrType (), 0), "");
indexes [0] = const_int32 (MONO_STRUCT_OFFSET (MonoObject, vtable) / SIZEOF_VOID_P);
args [3] = LLVMBuildLoad (builder, LLVMBuildGEP (builder, args [3], indexes, 1, ""), "vtable");
break;
case AOT_INIT_METHOD_GSHARED_MRGCTX:
/* Load mrgctx->vtable */
args [3] = LLVMBuildIntToPtr (builder, LLVMGetParam (func, 1), LLVMPointerType (IntPtrType (), 0), "");
indexes [0] = const_int32 (MONO_STRUCT_OFFSET (MonoMethodRuntimeGenericContext, class_vtable) / SIZEOF_VOID_P);
args [3] = LLVMBuildLoad (builder, LLVMBuildGEP (builder, args [3], indexes, 1, ""), "vtable");
break;
default:
g_assert_not_reached ();
break;
}
/* Call the mini_llvm_init_method JIT icall */
icall_sig = LLVMFunctionType4 (LLVMVoidType (), IntPtrType (), IntPtrType (), arg_type, IntPtrType (), FALSE);
callee = get_aotconst_module (module, builder, MONO_PATCH_INFO_JIT_ICALL_ID, GINT_TO_POINTER (MONO_JIT_ICALL_mini_llvm_init_method), LLVMPointerType (icall_sig, 0), NULL, NULL);
LLVMBuildCall (builder, callee, args, LLVMCountParamTypes (icall_sig), "");
/*
* Set the inited flag
* This is already done by the LLVM methods themselves, but its needed by JITted methods.
*/
indexes [0] = const_int32 (0);
indexes [1] = index_var;
LLVMBuildStore (builder, LLVMConstInt (LLVMInt8Type (), 1, FALSE), LLVMBuildGEP (builder, module->inited_var, indexes, 2, ""));
LLVMBuildBr (builder, inited_bb);
LLVMPositionBuilderAtEnd (builder, inited_bb);
LLVMBuildRetVoid (builder);
LLVMVerifyFunction (func, LLVMAbortProcessAction);
LLVMDisposeBuilder (builder);
g_free (name);
return func;
}
/* Emit a wrapper around the parameterless JIT icall ICALL_ID with a cold calling convention */
static LLVMValueRef
emit_icall_cold_wrapper (MonoLLVMModule *module, LLVMModuleRef lmodule, MonoJitICallId icall_id, gboolean aot)
{
LLVMValueRef func, callee;
LLVMBasicBlockRef entry_bb;
LLVMBuilderRef builder;
LLVMTypeRef sig;
char *name;
name = g_strdup_printf ("%s_icall_cold_wrapper_%d", module->global_prefix, icall_id);
func = LLVMAddFunction (lmodule, name, LLVMFunctionType (LLVMVoidType (), NULL, 0, FALSE));
sig = LLVMFunctionType (LLVMVoidType (), NULL, 0, FALSE);
LLVMSetLinkage (func, LLVMInternalLinkage);
mono_llvm_add_func_attr (func, LLVM_ATTR_NO_INLINE);
set_cold_cconv (func);
entry_bb = LLVMAppendBasicBlock (func, "ENTRY");
builder = LLVMCreateBuilder ();
LLVMPositionBuilderAtEnd (builder, entry_bb);
if (aot) {
callee = get_aotconst_module (module, builder, MONO_PATCH_INFO_JIT_ICALL_ID, GUINT_TO_POINTER (icall_id), LLVMPointerType (sig, 0), NULL, NULL);
} else {
MonoJitICallInfo * const info = mono_find_jit_icall_info (icall_id);
gpointer target = (gpointer)mono_icall_get_wrapper_full (info, TRUE);
LLVMValueRef tramp_var = LLVMAddGlobal (lmodule, LLVMPointerType (sig, 0), name);
LLVMSetInitializer (tramp_var, LLVMConstIntToPtr (LLVMConstInt (LLVMInt64Type (), (guint64)(size_t)target, FALSE), LLVMPointerType (sig, 0)));
LLVMSetLinkage (tramp_var, LLVMExternalLinkage);
callee = LLVMBuildLoad (builder, tramp_var, "");
}
LLVMBuildCall (builder, callee, NULL, 0, "");
LLVMBuildRetVoid (builder);
LLVMVerifyFunction(func, LLVMAbortProcessAction);
LLVMDisposeBuilder (builder);
return func;
}
/*
* Emit wrappers around the C icalls used to initialize llvm methods, to
* make the calling code smaller and to enable usage of the llvm
* cold calling convention.
*/
static void
emit_init_funcs (MonoLLVMModule *module)
{
for (int i = 0; i < AOT_INIT_METHOD_NUM; ++i)
module->init_methods [i] = emit_init_func (module, i);
}
static LLVMValueRef
get_init_func (MonoLLVMModule *module, MonoAotInitSubtype subtype)
{
return module->init_methods [subtype];
}
static void
emit_gc_safepoint_poll (MonoLLVMModule *module, LLVMModuleRef lmodule, MonoCompile *cfg)
{
gboolean is_aot = cfg == NULL || cfg->compile_aot;
LLVMValueRef func = mono_llvm_get_or_insert_gc_safepoint_poll (lmodule);
mono_llvm_add_func_attr (func, LLVM_ATTR_NO_UNWIND);
if (is_aot) {
#if TARGET_WIN32
if (module->static_link) {
LLVMSetLinkage (func, LLVMInternalLinkage);
/* Prevent it from being optimized away, leading to asserts inside 'opt' */
mark_as_used (module, func);
} else {
LLVMSetLinkage (func, LLVMWeakODRLinkage);
}
#else
LLVMSetLinkage (func, LLVMWeakODRLinkage);
#endif
} else {
mono_llvm_add_func_attr (func, LLVM_ATTR_OPTIMIZE_NONE); // no need to waste time here, the function is already optimized and will be inlined.
mono_llvm_add_func_attr (func, LLVM_ATTR_NO_INLINE); // optnone attribute requires noinline (but it will be inlined anyway)
if (!module->gc_poll_cold_wrapper_compiled) {
ERROR_DECL (error);
/* Compiling a method here is a bit ugly, but it works */
MonoMethod *wrapper = mono_marshal_get_llvm_func_wrapper (LLVM_FUNC_WRAPPER_GC_POLL);
module->gc_poll_cold_wrapper_compiled = mono_jit_compile_method (wrapper, error);
mono_error_assert_ok (error);
}
}
LLVMBasicBlockRef entry_bb = LLVMAppendBasicBlock (func, "gc.safepoint_poll.entry");
LLVMBasicBlockRef poll_bb = LLVMAppendBasicBlock (func, "gc.safepoint_poll.poll");
LLVMBasicBlockRef exit_bb = LLVMAppendBasicBlock (func, "gc.safepoint_poll.exit");
LLVMTypeRef ptr_type = LLVMPointerType (IntPtrType (), 0);
LLVMBuilderRef builder = LLVMCreateBuilder ();
/* entry: */
LLVMPositionBuilderAtEnd (builder, entry_bb);
LLVMValueRef poll_val_ptr;
if (is_aot) {
poll_val_ptr = get_aotconst_module (module, builder, MONO_PATCH_INFO_GC_SAFE_POINT_FLAG, NULL, ptr_type, NULL, NULL);
} else {
LLVMValueRef poll_val_int = LLVMConstInt (IntPtrType (), (guint64) &mono_polling_required, FALSE);
poll_val_ptr = LLVMBuildIntToPtr (builder, poll_val_int, ptr_type, "");
}
LLVMValueRef poll_val_ptr_load = LLVMBuildLoad (builder, poll_val_ptr, ""); // probably needs to be volatile
LLVMValueRef poll_val = LLVMBuildPtrToInt (builder, poll_val_ptr_load, IntPtrType (), "");
LLVMValueRef poll_val_zero = LLVMConstNull (LLVMTypeOf (poll_val));
LLVMValueRef cmp = LLVMBuildICmp (builder, LLVMIntEQ, poll_val, poll_val_zero, "");
mono_llvm_build_weighted_branch (builder, cmp, exit_bb, poll_bb, 1000 /* weight for exit_bb */, 1 /* weight for poll_bb */);
/* poll: */
LLVMPositionBuilderAtEnd (builder, poll_bb);
LLVMValueRef call;
if (is_aot) {
LLVMValueRef icall_wrapper = emit_icall_cold_wrapper (module, lmodule, MONO_JIT_ICALL_mono_threads_state_poll, TRUE);
module->gc_poll_cold_wrapper = icall_wrapper;
call = LLVMBuildCall (builder, icall_wrapper, NULL, 0, "");
} else {
// in JIT mode we have to emit @gc.safepoint_poll function for each method (module)
// this function calls gc_poll_cold_wrapper_compiled via a global variable.
// @gc.safepoint_poll will be inlined and can be deleted after -place-safepoints pass.
LLVMTypeRef poll_sig = LLVMFunctionType0 (LLVMVoidType (), FALSE);
LLVMTypeRef poll_sig_ptr = LLVMPointerType (poll_sig, 0);
gpointer target = resolve_patch (cfg, MONO_PATCH_INFO_ABS, module->gc_poll_cold_wrapper_compiled);
LLVMValueRef tramp_var = LLVMAddGlobal (lmodule, poll_sig_ptr, "mono_threads_state_poll");
LLVMValueRef target_val = LLVMConstInt (LLVMInt64Type (), (guint64) target, FALSE);
LLVMSetInitializer (tramp_var, LLVMConstIntToPtr (target_val, poll_sig_ptr));
LLVMSetLinkage (tramp_var, LLVMExternalLinkage);
LLVMValueRef callee = LLVMBuildLoad (builder, tramp_var, "");
call = LLVMBuildCall (builder, callee, NULL, 0, "");
}
set_call_cold_cconv (call);
LLVMBuildBr (builder, exit_bb);
/* exit: */
LLVMPositionBuilderAtEnd (builder, exit_bb);
LLVMBuildRetVoid (builder);
LLVMDisposeBuilder (builder);
}
static void
emit_llvm_code_end (MonoLLVMModule *module)
{
LLVMModuleRef lmodule = module->lmodule;
LLVMValueRef func;
LLVMBasicBlockRef entry_bb;
LLVMBuilderRef builder;
func = LLVMAddFunction (lmodule, "llvm_code_end", LLVMFunctionType (LLVMVoidType (), NULL, 0, FALSE));
LLVMSetLinkage (func, LLVMInternalLinkage);
mono_llvm_add_func_attr (func, LLVM_ATTR_NO_UNWIND);
module->code_end = func;
entry_bb = LLVMAppendBasicBlock (func, "ENTRY");
builder = LLVMCreateBuilder ();
LLVMPositionBuilderAtEnd (builder, entry_bb);
LLVMBuildRetVoid (builder);
LLVMDisposeBuilder (builder);
}
static void
emit_div_check (EmitContext *ctx, LLVMBuilderRef builder, MonoBasicBlock *bb, MonoInst *ins, LLVMValueRef lhs, LLVMValueRef rhs)
{
gboolean need_div_check = ctx->cfg->backend->need_div_check;
if (bb->region)
/* LLVM doesn't know that these can throw an exception since they are not called through an intrinsic */
need_div_check = TRUE;
if (!need_div_check)
return;
switch (ins->opcode) {
case OP_IDIV:
case OP_LDIV:
case OP_IREM:
case OP_LREM:
case OP_IDIV_UN:
case OP_LDIV_UN:
case OP_IREM_UN:
case OP_LREM_UN:
case OP_IDIV_IMM:
case OP_LDIV_IMM:
case OP_IREM_IMM:
case OP_LREM_IMM:
case OP_IDIV_UN_IMM:
case OP_LDIV_UN_IMM:
case OP_IREM_UN_IMM:
case OP_LREM_UN_IMM: {
LLVMValueRef cmp;
gboolean is_signed = (ins->opcode == OP_IDIV || ins->opcode == OP_LDIV || ins->opcode == OP_IREM || ins->opcode == OP_LREM ||
ins->opcode == OP_IDIV_IMM || ins->opcode == OP_LDIV_IMM || ins->opcode == OP_IREM_IMM || ins->opcode == OP_LREM_IMM);
cmp = LLVMBuildICmp (builder, LLVMIntEQ, rhs, LLVMConstInt (LLVMTypeOf (rhs), 0, FALSE), "");
emit_cond_system_exception (ctx, bb, "DivideByZeroException", cmp, FALSE);
if (!ctx_ok (ctx))
break;
builder = ctx->builder;
/* b == -1 && a == 0x80000000 */
if (is_signed) {
LLVMValueRef c = (LLVMTypeOf (lhs) == LLVMInt32Type ()) ? LLVMConstInt (LLVMTypeOf (lhs), 0x80000000, FALSE) : LLVMConstInt (LLVMTypeOf (lhs), 0x8000000000000000LL, FALSE);
LLVMValueRef cond1 = LLVMBuildICmp (builder, LLVMIntEQ, rhs, LLVMConstInt (LLVMTypeOf (rhs), -1, FALSE), "");
LLVMValueRef cond2 = LLVMBuildICmp (builder, LLVMIntEQ, lhs, c, "");
cmp = LLVMBuildICmp (builder, LLVMIntEQ, LLVMBuildAnd (builder, cond1, cond2, ""), LLVMConstInt (LLVMInt1Type (), 1, FALSE), "");
emit_cond_system_exception (ctx, bb, "OverflowException", cmp, FALSE);
if (!ctx_ok (ctx))
break;
builder = ctx->builder;
}
break;
}
default:
break;
}
}
/*
* emit_method_init:
*
* Emit code to initialize the GOT slots used by the method.
*/
static void
emit_method_init (EmitContext *ctx)
{
LLVMValueRef indexes [16], args [16];
LLVMValueRef inited_var, cmp, call;
LLVMBasicBlockRef inited_bb, notinited_bb;
LLVMBuilderRef builder = ctx->builder;
MonoCompile *cfg = ctx->cfg;
MonoAotInitSubtype subtype;
ctx->module->max_inited_idx = MAX (ctx->module->max_inited_idx, cfg->method_index);
indexes [0] = const_int32 (0);
indexes [1] = const_int32 (cfg->method_index);
inited_var = LLVMBuildLoad (builder, LLVMBuildGEP (builder, ctx->module->inited_var, indexes, 2, ""), "is_inited");
args [0] = inited_var;
args [1] = LLVMConstInt (LLVMInt8Type (), 1, FALSE);
inited_var = LLVMBuildCall (ctx->builder, get_intrins (ctx, INTRINS_EXPECT_I8), args, 2, "");
cmp = LLVMBuildICmp (builder, LLVMIntEQ, inited_var, LLVMConstInt (LLVMTypeOf (inited_var), 0, FALSE), "");
inited_bb = ctx->inited_bb;
notinited_bb = gen_bb (ctx, "NOTINITED_BB");
ctx->cfg->llvmonly_init_cond = LLVMBuildCondBr (ctx->builder, cmp, notinited_bb, inited_bb);
builder = ctx->builder = create_builder (ctx);
LLVMPositionBuilderAtEnd (ctx->builder, notinited_bb);
LLVMTypeRef type = LLVMArrayType (LLVMInt8Type (), 0);
char *symbol = g_strdup_printf ("info_dummy_%s", cfg->llvm_method_name);
LLVMValueRef info_var = LLVMAddGlobal (ctx->lmodule, type, symbol);
g_free (symbol);
cfg->llvm_dummy_info_var = info_var;
int nargs = 0;
args [nargs ++] = convert (ctx, info_var, ctx->module->ptr_type);
switch (cfg->rgctx_access) {
case MONO_RGCTX_ACCESS_MRGCTX:
if (ctx->rgctx_arg) {
args [nargs ++] = convert (ctx, ctx->rgctx_arg, IntPtrType ());
subtype = AOT_INIT_METHOD_GSHARED_MRGCTX;
} else {
g_assert (ctx->this_arg);
args [nargs ++] = convert (ctx, ctx->this_arg, ObjRefType ());
subtype = AOT_INIT_METHOD_GSHARED_THIS;
}
break;
case MONO_RGCTX_ACCESS_VTABLE:
args [nargs ++] = convert (ctx, ctx->rgctx_arg, IntPtrType ());
subtype = AOT_INIT_METHOD_GSHARED_VTABLE;
break;
case MONO_RGCTX_ACCESS_THIS:
args [nargs ++] = convert (ctx, ctx->this_arg, ObjRefType ());
subtype = AOT_INIT_METHOD_GSHARED_THIS;
break;
case MONO_RGCTX_ACCESS_NONE:
subtype = AOT_INIT_METHOD;
break;
default:
g_assert_not_reached ();
}
call = LLVMBuildCall (builder, ctx->module->init_methods [subtype], args, nargs, "");
/*
* This enables llvm to keep arguments in their original registers/
* scratch registers, since the call will not clobber them.
*/
set_call_cold_cconv (call);
// Set the inited flag
indexes [0] = const_int32 (0);
indexes [1] = const_int32 (cfg->method_index);
LLVMBuildStore (builder, LLVMConstInt (LLVMInt8Type (), 1, FALSE), LLVMBuildGEP (builder, ctx->module->inited_var, indexes, 2, ""));
LLVMBuildBr (builder, inited_bb);
ctx->bblocks [cfg->bb_entry->block_num].end_bblock = inited_bb;
builder = ctx->builder = create_builder (ctx);
LLVMPositionBuilderAtEnd (ctx->builder, inited_bb);
}
static void
emit_unbox_tramp (EmitContext *ctx, const char *method_name, LLVMTypeRef method_type, LLVMValueRef method, int method_index)
{
/*
* Emit unbox trampoline using a tailcall
*/
LLVMValueRef tramp, call, *args;
LLVMBuilderRef builder;
LLVMBasicBlockRef lbb;
LLVMCallInfo *linfo;
char *tramp_name;
int i, nargs;
tramp_name = g_strdup_printf ("ut_%s", method_name);
tramp = LLVMAddFunction (ctx->module->lmodule, tramp_name, method_type);
LLVMSetLinkage (tramp, LLVMInternalLinkage);
mono_llvm_add_func_attr (tramp, LLVM_ATTR_OPTIMIZE_FOR_SIZE);
//mono_llvm_add_func_attr (tramp, LLVM_ATTR_NO_UNWIND);
linfo = ctx->linfo;
// FIXME: Reduce code duplication with mono_llvm_compile_method () etc.
if (!ctx->llvm_only && ctx->rgctx_arg_pindex != -1)
mono_llvm_add_param_attr (LLVMGetParam (tramp, ctx->rgctx_arg_pindex), LLVM_ATTR_IN_REG);
if (ctx->cfg->vret_addr) {
LLVMSetValueName (LLVMGetParam (tramp, linfo->vret_arg_pindex), "vret");
if (linfo->ret.storage == LLVMArgVtypeByRef) {
mono_llvm_add_param_attr (LLVMGetParam (tramp, linfo->vret_arg_pindex), LLVM_ATTR_STRUCT_RET);
mono_llvm_add_param_attr (LLVMGetParam (tramp, linfo->vret_arg_pindex), LLVM_ATTR_NO_ALIAS);
}
}
lbb = LLVMAppendBasicBlock (tramp, "");
builder = LLVMCreateBuilder ();
LLVMPositionBuilderAtEnd (builder, lbb);
nargs = LLVMCountParamTypes (method_type);
args = g_new0 (LLVMValueRef, nargs);
for (i = 0; i < nargs; ++i) {
args [i] = LLVMGetParam (tramp, i);
if (i == ctx->this_arg_pindex) {
LLVMTypeRef arg_type = LLVMTypeOf (args [i]);
args [i] = LLVMBuildPtrToInt (builder, args [i], IntPtrType (), "");
args [i] = LLVMBuildAdd (builder, args [i], LLVMConstInt (IntPtrType (), MONO_ABI_SIZEOF (MonoObject), FALSE), "");
args [i] = LLVMBuildIntToPtr (builder, args [i], arg_type, "");
}
}
call = LLVMBuildCall (builder, method, args, nargs, "");
if (!ctx->llvm_only && ctx->rgctx_arg_pindex != -1)
mono_llvm_add_instr_attr (call, 1 + ctx->rgctx_arg_pindex, LLVM_ATTR_IN_REG);
if (linfo->ret.storage == LLVMArgVtypeByRef)
mono_llvm_add_instr_attr (call, 1 + linfo->vret_arg_pindex, LLVM_ATTR_STRUCT_RET);
// FIXME: This causes assertions in clang
//mono_llvm_set_must_tailcall (call);
if (LLVMGetReturnType (method_type) == LLVMVoidType ())
LLVMBuildRetVoid (builder);
else
LLVMBuildRet (builder, call);
g_hash_table_insert (ctx->module->idx_to_unbox_tramp, GINT_TO_POINTER (method_index), tramp);
LLVMDisposeBuilder (builder);
}
#ifdef TARGET_WASM
static void
emit_gc_pin (EmitContext *ctx, LLVMBuilderRef builder, int vreg)
{
LLVMValueRef index0 = LLVMConstInt (LLVMInt32Type (), 0, FALSE);
LLVMValueRef index1 = LLVMConstInt (LLVMInt32Type (), ctx->gc_var_indexes [vreg] - 1, FALSE);
LLVMValueRef indexes [] = { index0, index1 };
LLVMValueRef addr = LLVMBuildGEP (builder, ctx->gc_pin_area, indexes, 2, "");
mono_llvm_build_store (builder, convert (ctx, ctx->values [vreg], IntPtrType ()), addr, TRUE, LLVM_BARRIER_NONE);
}
#endif
/*
* emit_entry_bb:
*
* Emit code to load/convert arguments.
*/
static void
emit_entry_bb (EmitContext *ctx, LLVMBuilderRef builder)
{
int i, j, pindex;
MonoCompile *cfg = ctx->cfg;
MonoMethodSignature *sig = ctx->sig;
LLVMCallInfo *linfo = ctx->linfo;
MonoBasicBlock *bb;
char **names;
LLVMBuilderRef old_builder = ctx->builder;
ctx->builder = builder;
ctx->alloca_builder = create_builder (ctx);
#ifdef TARGET_WASM
/*
* For GC stack scanning to work, allocate an area on the stack and store
* every ref vreg into it after its written. Because the stack is scanned
* conservatively, the objects will be pinned, so the vregs can directly
* reference the objects, there is no need to load them from the stack
* on every access.
*/
ctx->gc_var_indexes = g_new0 (int, cfg->next_vreg);
int ngc_vars = 0;
for (i = 0; i < cfg->next_vreg; ++i) {
if (vreg_is_ref (cfg, i)) {
ctx->gc_var_indexes [i] = ngc_vars + 1;
ngc_vars ++;
}
}
// FIXME: Count only live vregs
ctx->gc_pin_area = build_alloca_llvm_type_name (ctx, LLVMArrayType (IntPtrType (), ngc_vars), 0, "gc_pin");
#endif
/*
* Handle indirect/volatile variables by allocating memory for them
* using 'alloca', and storing their address in a temporary.
*/
for (i = 0; i < cfg->num_varinfo; ++i) {
MonoInst *var = cfg->varinfo [i];
if ((var->opcode == OP_GSHAREDVT_LOCAL || var->opcode == OP_GSHAREDVT_ARG_REGOFFSET))
continue;
if (var->flags & (MONO_INST_VOLATILE|MONO_INST_INDIRECT) || (mini_type_is_vtype (var->inst_vtype) && !MONO_CLASS_IS_SIMD (ctx->cfg, var->klass))) {
if (!ctx_ok (ctx))
return;
/* Could be already created by an OP_VPHI */
if (!ctx->addresses [var->dreg]) {
if (var->flags & MONO_INST_LMF) {
// FIXME: Allocate a smaller struct in the deopt case
int size = cfg->deopt ? MONO_ABI_SIZEOF (MonoLMFExt) : MONO_ABI_SIZEOF (MonoLMF);
ctx->addresses [var->dreg] = build_alloca_llvm_type_name (ctx, LLVMArrayType (LLVMInt8Type (), size), sizeof (target_mgreg_t), "lmf");
} else {
char *name = g_strdup_printf ("vreg_loc_%d", var->dreg);
ctx->addresses [var->dreg] = build_named_alloca (ctx, var->inst_vtype, name);
g_free (name);
}
}
ctx->vreg_cli_types [var->dreg] = var->inst_vtype;
}
}
names = g_new (char *, sig->param_count);
mono_method_get_param_names (cfg->method, (const char **) names);
for (i = 0; i < sig->param_count; ++i) {
LLVMArgInfo *ainfo = &linfo->args [i + sig->hasthis];
int reg = cfg->args [i + sig->hasthis]->dreg;
char *name;
pindex = ainfo->pindex;
LLVMValueRef arg = LLVMGetParam (ctx->lmethod, pindex);
switch (ainfo->storage) {
case LLVMArgVtypeInReg:
case LLVMArgAsFpArgs: {
LLVMValueRef args [8];
int j;
pindex += ainfo->ndummy_fpargs;
/* The argument is received as a set of int/fp arguments, store them into the real argument */
memset (args, 0, sizeof (args));
if (ainfo->storage == LLVMArgVtypeInReg) {
args [0] = LLVMGetParam (ctx->lmethod, pindex);
if (ainfo->pair_storage [1] != LLVMArgNone)
args [1] = LLVMGetParam (ctx->lmethod, pindex + 1);
} else {
g_assert (ainfo->nslots <= 8);
for (j = 0; j < ainfo->nslots; ++j)
args [j] = LLVMGetParam (ctx->lmethod, pindex + j);
}
ctx->addresses [reg] = build_alloca (ctx, ainfo->type);
emit_args_to_vtype (ctx, builder, ainfo->type, ctx->addresses [reg], ainfo, args);
break;
}
case LLVMArgVtypeByVal: {
ctx->addresses [reg] = LLVMGetParam (ctx->lmethod, pindex);
break;
}
case LLVMArgVtypeAddr:
case LLVMArgVtypeByRef: {
/* The argument is passed by ref */
ctx->addresses [reg] = LLVMGetParam (ctx->lmethod, pindex);
break;
}
case LLVMArgAsIArgs: {
LLVMValueRef arg = LLVMGetParam (ctx->lmethod, pindex);
int size;
MonoType *t = mini_get_underlying_type (ainfo->type);
/* The argument is received as an array of ints, store it into the real argument */
ctx->addresses [reg] = build_alloca (ctx, t);
size = mono_class_value_size (mono_class_from_mono_type_internal (t), NULL);
if (size == 0) {
} else if (size < TARGET_SIZEOF_VOID_P) {
/* The upper bits of the registers might not be valid */
LLVMValueRef val = LLVMBuildExtractValue (builder, arg, 0, "");
LLVMValueRef dest = convert (ctx, ctx->addresses [reg], LLVMPointerType (LLVMIntType (size * 8), 0));
LLVMBuildStore (ctx->builder, LLVMBuildTrunc (builder, val, LLVMIntType (size * 8), ""), dest);
} else {
LLVMBuildStore (ctx->builder, arg, convert (ctx, ctx->addresses [reg], LLVMPointerType (LLVMTypeOf (arg), 0)));
}
break;
}
case LLVMArgVtypeAsScalar:
g_assert_not_reached ();
break;
case LLVMArgWasmVtypeAsScalar: {
MonoType *t = mini_get_underlying_type (ainfo->type);
/* The argument is received as a scalar */
ctx->addresses [reg] = build_alloca (ctx, t);
LLVMValueRef dest = convert (ctx, ctx->addresses [reg], LLVMPointerType (LLVMIntType (ainfo->esize * 8), 0));
LLVMBuildStore (ctx->builder, arg, dest);
break;
}
case LLVMArgGsharedvtFixed: {
/* These are non-gsharedvt arguments passed by ref, the rest of the IR treats them as scalars */
LLVMValueRef arg = LLVMGetParam (ctx->lmethod, pindex);
if (names [i])
name = g_strdup_printf ("arg_%s", names [i]);
else
name = g_strdup_printf ("arg_%d", i);
ctx->values [reg] = LLVMBuildLoad (builder, convert (ctx, arg, LLVMPointerType (type_to_llvm_type (ctx, ainfo->type), 0)), name);
break;
}
case LLVMArgGsharedvtFixedVtype: {
LLVMValueRef arg = LLVMGetParam (ctx->lmethod, pindex);
if (names [i])
name = g_strdup_printf ("vtype_arg_%s", names [i]);
else
name = g_strdup_printf ("vtype_arg_%d", i);
/* Non-gsharedvt vtype argument passed by ref, the rest of the IR treats it as a vtype */
g_assert (ctx->addresses [reg]);
LLVMSetValueName (ctx->addresses [reg], name);
LLVMBuildStore (builder, LLVMBuildLoad (builder, convert (ctx, arg, LLVMPointerType (type_to_llvm_type (ctx, ainfo->type), 0)), ""), ctx->addresses [reg]);
break;
}
case LLVMArgGsharedvtVariable:
/* The IR treats these as variables with addresses */
if (!ctx->addresses [reg])
ctx->addresses [reg] = LLVMGetParam (ctx->lmethod, pindex);
break;
default: {
LLVMTypeRef t;
/* Needed to avoid phi argument mismatch errors since operations on pointers produce i32/i64 */
if (m_type_is_byref (ainfo->type))
t = IntPtrType ();
else
t = type_to_llvm_type (ctx, ainfo->type);
ctx->values [reg] = convert_full (ctx, ctx->values [reg], llvm_type_to_stack_type (cfg, t), type_is_unsigned (ctx, ainfo->type));
break;
}
}
switch (ainfo->storage) {
case LLVMArgVtypeInReg:
case LLVMArgVtypeByVal:
case LLVMArgAsIArgs:
// FIXME: Enabling this fails on windows
case LLVMArgVtypeAddr:
case LLVMArgVtypeByRef:
{
if (MONO_CLASS_IS_SIMD (ctx->cfg, mono_class_from_mono_type_internal (ainfo->type)))
/* Treat these as normal values */
ctx->values [reg] = LLVMBuildLoad (builder, ctx->addresses [reg], "simd_vtype");
break;
}
default:
break;
}
}
g_free (names);
if (sig->hasthis) {
/* Handle this arguments as inputs to phi nodes */
int reg = cfg->args [0]->dreg;
if (ctx->vreg_types [reg])
ctx->values [reg] = convert (ctx, ctx->values [reg], ctx->vreg_types [reg]);
}
if (cfg->vret_addr)
emit_volatile_store (ctx, cfg->vret_addr->dreg);
if (sig->hasthis)
emit_volatile_store (ctx, cfg->args [0]->dreg);
for (i = 0; i < sig->param_count; ++i)
if (!mini_type_is_vtype (sig->params [i]))
emit_volatile_store (ctx, cfg->args [i + sig->hasthis]->dreg);
if (sig->hasthis && !cfg->rgctx_var && cfg->gshared && !cfg->llvm_only) {
LLVMValueRef this_alloc;
/*
* The exception handling code needs the location where the this argument was
* stored for gshared methods. We create a separate alloca to hold it, and mark it
* with the "mono.this" custom metadata to tell llvm that it needs to save its
* location into the LSDA.
*/
this_alloc = mono_llvm_build_alloca (builder, ThisType (), LLVMConstInt (LLVMInt32Type (), 1, FALSE), 0, "");
/* This volatile store will keep the alloca alive */
mono_llvm_build_store (builder, ctx->values [cfg->args [0]->dreg], this_alloc, TRUE, LLVM_BARRIER_NONE);
set_metadata_flag (this_alloc, "mono.this");
}
if (cfg->rgctx_var) {
if (!(cfg->rgctx_var->flags & MONO_INST_VOLATILE)) {
/* FIXME: This could be volatile even in llvmonly mode if used inside a clause etc. */
g_assert (!ctx->addresses [cfg->rgctx_var->dreg]);
ctx->values [cfg->rgctx_var->dreg] = ctx->rgctx_arg;
} else {
LLVMValueRef rgctx_alloc, store;
/*
* We handle the rgctx arg similarly to the this pointer.
*/
g_assert (ctx->addresses [cfg->rgctx_var->dreg]);
rgctx_alloc = ctx->addresses [cfg->rgctx_var->dreg];
/* This volatile store will keep the alloca alive */
store = mono_llvm_build_store (builder, convert (ctx, ctx->rgctx_arg, IntPtrType ()), rgctx_alloc, TRUE, LLVM_BARRIER_NONE);
(void)store; /* unused */
set_metadata_flag (rgctx_alloc, "mono.this");
}
}
#ifdef TARGET_WASM
/*
* Store ref arguments to the pin area.
* FIXME: This might not be needed, since the caller already does it ?
*/
for (i = 0; i < cfg->num_varinfo; ++i) {
MonoInst *var = cfg->varinfo [i];
if (var->opcode == OP_ARG && vreg_is_ref (cfg, var->dreg) && ctx->values [var->dreg])
emit_gc_pin (ctx, builder, var->dreg);
}
#endif
if (cfg->deopt) {
LLVMValueRef addr, index [2];
MonoMethodHeader *header = cfg->header;
int nfields = (sig->ret->type != MONO_TYPE_VOID ? 1 : 0) + sig->hasthis + sig->param_count + header->num_locals + 2;
LLVMTypeRef *types = g_alloca (nfields * sizeof (LLVMTypeRef));
int findex = 0;
/* method */
types [findex ++] = IntPtrType ();
/* il_offset */
types [findex ++] = LLVMInt32Type ();
int data_start = findex;
/* data */
if (sig->ret->type != MONO_TYPE_VOID)
types [findex ++] = IntPtrType ();
if (sig->hasthis)
types [findex ++] = IntPtrType ();
for (int i = 0; i < sig->param_count; ++i)
types [findex ++] = LLVMPointerType (type_to_llvm_type (ctx, sig->params [i]), 0);
for (int i = 0; i < header->num_locals; ++i)
types [findex ++] = LLVMPointerType (type_to_llvm_type (ctx, header->locals [i]), 0);
g_assert (findex == nfields);
char *name = g_strdup_printf ("%s_il_state", ctx->method_name);
LLVMTypeRef il_state_type = LLVMStructCreateNamed (ctx->module->context, name);
LLVMStructSetBody (il_state_type, types, nfields, FALSE);
g_free (name);
ctx->il_state = build_alloca_llvm_type_name (ctx, il_state_type, 0, "il_state");
g_assert (cfg->il_state_var);
ctx->addresses [cfg->il_state_var->dreg] = ctx->il_state;
/* Set il_state->il_offset = -1 */
index [0] = LLVMConstInt (LLVMInt32Type (), 0, FALSE);
index [1] = LLVMConstInt (LLVMInt32Type (), 1, FALSE);
addr = LLVMBuildGEP (builder, ctx->il_state, index, 2, "");
LLVMBuildStore (ctx->builder, LLVMConstInt (types [1], -1, FALSE), addr);
/*
* Set il_state->data [i] to either the address of the arg/local, or NULL.
* Because of mono_liveness_handle_exception_clauses (), all locals used/reachable from
* clauses are supposed to be volatile, so they have an address.
*/
findex = data_start;
if (sig->ret->type != MONO_TYPE_VOID) {
LLVMTypeRef ret_type = type_to_llvm_type (ctx, sig->ret);
ctx->il_state_ret = build_alloca_llvm_type_name (ctx, ret_type, 0, "il_state_ret");
index [0] = LLVMConstInt (LLVMInt32Type (), 0, FALSE);
index [1] = LLVMConstInt (LLVMInt32Type (), findex, FALSE);
addr = LLVMBuildGEP (builder, ctx->il_state, index, 2, "");
LLVMBuildStore (ctx->builder, ctx->il_state_ret, convert (ctx, addr, LLVMPointerType (LLVMTypeOf (ctx->il_state_ret), 0)));
findex ++;
}
for (int i = 0; i < sig->hasthis + sig->param_count; ++i) {
LLVMValueRef var_addr = ctx->addresses [cfg->args [i]->dreg];
index [0] = LLVMConstInt (LLVMInt32Type (), 0, FALSE);
index [1] = LLVMConstInt (LLVMInt32Type (), findex, FALSE);
addr = LLVMBuildGEP (builder, ctx->il_state, index, 2, "");
if (var_addr)
LLVMBuildStore (ctx->builder, var_addr, convert (ctx, addr, LLVMPointerType (LLVMTypeOf (var_addr), 0)));
else
LLVMBuildStore (ctx->builder, LLVMConstNull (types [findex]), addr);
findex ++;
}
for (int i = 0; i < header->num_locals; ++i) {
LLVMValueRef var_addr = ctx->addresses [cfg->locals [i]->dreg];
index [0] = LLVMConstInt (LLVMInt32Type (), 0, FALSE);
index [1] = LLVMConstInt (LLVMInt32Type (), findex, FALSE);
addr = LLVMBuildGEP (builder, ctx->il_state, index, 2, "");
if (var_addr)
LLVMBuildStore (ctx->builder, LLVMBuildBitCast (builder, var_addr, types [findex], ""), addr);
else
LLVMBuildStore (ctx->builder, LLVMConstNull (types [findex]), addr);
findex ++;
}
}
/* Initialize the method if needed */
if (cfg->compile_aot) {
/* Emit a location for the initialization code */
ctx->init_bb = gen_bb (ctx, "INIT_BB");
ctx->inited_bb = gen_bb (ctx, "INITED_BB");
LLVMBuildBr (ctx->builder, ctx->init_bb);
builder = ctx->builder = create_builder (ctx);
LLVMPositionBuilderAtEnd (ctx->builder, ctx->inited_bb);
ctx->bblocks [cfg->bb_entry->block_num].end_bblock = ctx->inited_bb;
}
/* Compute nesting between clauses */
ctx->nested_in = (GSList**)mono_mempool_alloc0 (cfg->mempool, sizeof (GSList*) * cfg->header->num_clauses);
for (i = 0; i < cfg->header->num_clauses; ++i) {
for (j = 0; j < cfg->header->num_clauses; ++j) {
MonoExceptionClause *clause1 = &cfg->header->clauses [i];
MonoExceptionClause *clause2 = &cfg->header->clauses [j];
if (i != j && clause1->try_offset >= clause2->try_offset && clause1->handler_offset <= clause2->handler_offset)
ctx->nested_in [i] = g_slist_prepend_mempool (cfg->mempool, ctx->nested_in [i], GINT_TO_POINTER (j));
}
}
/*
* For finally clauses, create an indicator variable telling OP_ENDFINALLY whenever
* it needs to continue normally, or return back to the exception handling system.
*/
for (bb = cfg->bb_entry; bb; bb = bb->next_bb) {
char name [128];
if (!(bb->region != -1 && (bb->flags & BB_EXCEPTION_HANDLER)))
continue;
if (bb->in_scount == 0) {
LLVMValueRef val;
sprintf (name, "finally_ind_bb%d", bb->block_num);
val = LLVMBuildAlloca (builder, LLVMInt32Type (), name);
LLVMBuildStore (builder, LLVMConstInt (LLVMInt32Type (), 0, FALSE), val);
ctx->bblocks [bb->block_num].finally_ind = val;
} else {
/* Create a variable to hold the exception var */
if (!ctx->ex_var)
ctx->ex_var = LLVMBuildAlloca (builder, ObjRefType (), "exvar");
}
}
ctx->builder = old_builder;
}
static gboolean
needs_extra_arg (EmitContext *ctx, MonoMethod *method)
{
WrapperInfo *info = NULL;
/*
* When targeting wasm, the caller and callee signature has to match exactly. This means
* that every method which can be called indirectly need an extra arg since the caller
* will call it through an ftnptr and will pass an extra arg.
*/
if (!ctx->cfg->llvm_only || !ctx->emit_dummy_arg)
return FALSE;
if (method->wrapper_type)
info = mono_marshal_get_wrapper_info (method);
switch (method->wrapper_type) {
case MONO_WRAPPER_OTHER:
if (info->subtype == WRAPPER_SUBTYPE_GSHAREDVT_IN_SIG || info->subtype == WRAPPER_SUBTYPE_GSHAREDVT_OUT_SIG)
/* Already have an explicit extra arg */
return FALSE;
break;
case MONO_WRAPPER_MANAGED_TO_NATIVE:
if (strstr (method->name, "icall_wrapper"))
/* These are JIT icall wrappers which are only called from JITted code directly */
return FALSE;
/* Normal icalls can be virtual methods which need an extra arg */
break;
case MONO_WRAPPER_RUNTIME_INVOKE:
case MONO_WRAPPER_ALLOC:
case MONO_WRAPPER_CASTCLASS:
case MONO_WRAPPER_WRITE_BARRIER:
case MONO_WRAPPER_NATIVE_TO_MANAGED:
return FALSE;
case MONO_WRAPPER_STELEMREF:
if (info->subtype != WRAPPER_SUBTYPE_VIRTUAL_STELEMREF)
return FALSE;
break;
case MONO_WRAPPER_MANAGED_TO_MANAGED:
if (info->subtype == WRAPPER_SUBTYPE_STRING_CTOR)
return FALSE;
break;
default:
break;
}
if (method->string_ctor)
return FALSE;
/* These are called from gsharedvt code with an indirect call which doesn't pass an extra arg */
if (method->klass == mono_get_string_class () && (strstr (method->name, "memcpy") || strstr (method->name, "bzero")))
return FALSE;
return TRUE;
}
static inline gboolean
is_supported_callconv (EmitContext *ctx, MonoCallInst *call)
{
#if defined(TARGET_WIN32) && defined(TARGET_AMD64)
gboolean result = (call->signature->call_convention == MONO_CALL_DEFAULT) ||
(call->signature->call_convention == MONO_CALL_C) ||
(call->signature->call_convention == MONO_CALL_STDCALL);
#else
gboolean result = (call->signature->call_convention == MONO_CALL_DEFAULT) || ((call->signature->call_convention == MONO_CALL_C) && ctx->llvm_only);
#endif
return result;
}
static void
process_call (EmitContext *ctx, MonoBasicBlock *bb, LLVMBuilderRef *builder_ref, MonoInst *ins)
{
MonoCompile *cfg = ctx->cfg;
LLVMValueRef *values = ctx->values;
LLVMValueRef *addresses = ctx->addresses;
MonoCallInst *call = (MonoCallInst*)ins;
MonoMethodSignature *sig = call->signature;
LLVMValueRef callee = NULL, lcall;
LLVMValueRef *args;
LLVMCallInfo *cinfo;
GSList *l;
int i, len, nargs;
gboolean vretaddr;
LLVMTypeRef llvm_sig;
gpointer target;
gboolean is_virtual, calli;
LLVMBuilderRef builder = *builder_ref;
/* If both imt and rgctx arg are required, only pass the imt arg, the rgctx trampoline will pass the rgctx */
if (call->imt_arg_reg)
call->rgctx_arg_reg = 0;
if (!is_supported_callconv (ctx, call)) {
set_failure (ctx, "non-default callconv");
return;
}
cinfo = call->cinfo;
g_assert (cinfo);
if (call->rgctx_arg_reg)
cinfo->rgctx_arg = TRUE;
if (call->imt_arg_reg)
cinfo->imt_arg = TRUE;
if (!call->rgctx_arg_reg && call->method && needs_extra_arg (ctx, call->method))
cinfo->dummy_arg = TRUE;
vretaddr = (cinfo->ret.storage == LLVMArgVtypeRetAddr || cinfo->ret.storage == LLVMArgVtypeByRef || cinfo->ret.storage == LLVMArgGsharedvtFixed || cinfo->ret.storage == LLVMArgGsharedvtVariable || cinfo->ret.storage == LLVMArgGsharedvtFixedVtype);
llvm_sig = sig_to_llvm_sig_full (ctx, sig, cinfo);
if (!ctx_ok (ctx))
return;
int const opcode = ins->opcode;
is_virtual = opcode == OP_VOIDCALL_MEMBASE || opcode == OP_CALL_MEMBASE
|| opcode == OP_VCALL_MEMBASE || opcode == OP_LCALL_MEMBASE
|| opcode == OP_FCALL_MEMBASE || opcode == OP_RCALL_MEMBASE
|| opcode == OP_TAILCALL_MEMBASE;
calli = !call->fptr_is_patch && (opcode == OP_VOIDCALL_REG || opcode == OP_CALL_REG
|| opcode == OP_VCALL_REG || opcode == OP_LCALL_REG || opcode == OP_FCALL_REG
|| opcode == OP_RCALL_REG || opcode == OP_TAILCALL_REG);
/* FIXME: Avoid creating duplicate methods */
if (ins->flags & MONO_INST_HAS_METHOD) {
if (is_virtual) {
callee = NULL;
} else {
if (cfg->compile_aot) {
callee = get_callee (ctx, llvm_sig, MONO_PATCH_INFO_METHOD, call->method);
if (!callee) {
set_failure (ctx, "can't encode patch");
return;
}
} else if (cfg->method == call->method) {
callee = ctx->lmethod;
} else {
ERROR_DECL (error);
static int tramp_index;
char *name;
name = g_strdup_printf ("[tramp_%d] %s", tramp_index, mono_method_full_name (call->method, TRUE));
tramp_index ++;
/*
* Use our trampoline infrastructure for lazy compilation instead of llvm's.
* Make all calls through a global. The address of the global will be saved in
* MonoJitDomainInfo.llvm_jit_callees and updated when the method it refers to is
* compiled.
*/
LLVMValueRef tramp_var = (LLVMValueRef)g_hash_table_lookup (ctx->jit_callees, call->method);
if (!tramp_var) {
target =
mono_create_jit_trampoline (call->method, error);
if (!is_ok (error)) {
set_failure (ctx, mono_error_get_message (error));
mono_error_cleanup (error);
return;
}
tramp_var = LLVMAddGlobal (ctx->lmodule, LLVMPointerType (llvm_sig, 0), name);
LLVMSetInitializer (tramp_var, LLVMConstIntToPtr (LLVMConstInt (LLVMInt64Type (), (guint64)(size_t)target, FALSE), LLVMPointerType (llvm_sig, 0)));
LLVMSetLinkage (tramp_var, LLVMExternalLinkage);
g_hash_table_insert (ctx->jit_callees, call->method, tramp_var);
}
callee = LLVMBuildLoad (builder, tramp_var, "");
}
}
if (!cfg->llvm_only && call->method && strstr (m_class_get_name (call->method->klass), "AsyncVoidMethodBuilder")) {
/* LLVM miscompiles async methods */
set_failure (ctx, "#13734");
return;
}
} else if (calli) {
} else {
const MonoJitICallId jit_icall_id = call->jit_icall_id;
if (jit_icall_id) {
if (cfg->compile_aot) {
callee = get_callee (ctx, llvm_sig, MONO_PATCH_INFO_JIT_ICALL_ID, GUINT_TO_POINTER (jit_icall_id));
if (!callee) {
set_failure (ctx, "can't encode patch");
return;
}
} else {
callee = get_jit_callee (ctx, "", llvm_sig, MONO_PATCH_INFO_JIT_ICALL_ID, GUINT_TO_POINTER (jit_icall_id));
}
} else {
if (cfg->compile_aot) {
callee = NULL;
if (cfg->abs_patches) {
MonoJumpInfo *abs_ji = (MonoJumpInfo*)g_hash_table_lookup (cfg->abs_patches, call->fptr);
if (abs_ji) {
callee = get_callee (ctx, llvm_sig, abs_ji->type, abs_ji->data.target);
if (!callee) {
set_failure (ctx, "can't encode patch");
return;
}
}
}
if (!callee) {
set_failure (ctx, "aot");
return;
}
} else {
if (cfg->abs_patches) {
MonoJumpInfo *abs_ji = (MonoJumpInfo*)g_hash_table_lookup (cfg->abs_patches, call->fptr);
if (abs_ji) {
ERROR_DECL (error);
target = mono_resolve_patch_target (cfg->method, NULL, abs_ji, FALSE, error);
mono_error_assert_ok (error);
callee = get_jit_callee (ctx, "", llvm_sig, abs_ji->type, abs_ji->data.target);
} else {
g_assert_not_reached ();
}
} else {
g_assert_not_reached ();
}
}
}
}
if (is_virtual) {
int size = TARGET_SIZEOF_VOID_P;
LLVMValueRef index;
g_assert (ins->inst_offset % size == 0);
index = LLVMConstInt (LLVMInt32Type (), ins->inst_offset / size, FALSE);
callee = convert (ctx, LLVMBuildLoad (builder, LLVMBuildGEP (builder, convert (ctx, values [ins->inst_basereg], LLVMPointerType (LLVMPointerType (IntPtrType (), 0), 0)), &index, 1, ""), ""), LLVMPointerType (llvm_sig, 0));
} else if (calli) {
callee = convert (ctx, values [ins->sreg1], LLVMPointerType (llvm_sig, 0));
} else {
if (ins->flags & MONO_INST_HAS_METHOD) {
}
}
/*
* Collect and convert arguments
*/
nargs = (sig->param_count * 16) + sig->hasthis + vretaddr + call->rgctx_reg + call->imt_arg_reg + call->cinfo->dummy_arg + 1;
len = sizeof (LLVMValueRef) * nargs;
args = g_newa (LLVMValueRef, nargs);
memset (args, 0, len);
l = call->out_ireg_args;
if (call->rgctx_arg_reg) {
g_assert (values [call->rgctx_arg_reg]);
g_assert (cinfo->rgctx_arg_pindex < nargs);
/*
* On ARM, the imt/rgctx argument is passed in a caller save register, but some of our trampolines etc. clobber it, leading to
* problems is LLVM moves the arg assignment earlier. To work around this, save the argument into a stack slot and load
* it using a volatile load.
*/
#ifdef TARGET_ARM
if (!ctx->imt_rgctx_loc)
ctx->imt_rgctx_loc = build_alloca_llvm_type (ctx, ctx->module->ptr_type, TARGET_SIZEOF_VOID_P);
LLVMBuildStore (builder, convert (ctx, ctx->values [call->rgctx_arg_reg], ctx->module->ptr_type), ctx->imt_rgctx_loc);
args [cinfo->rgctx_arg_pindex] = mono_llvm_build_load (builder, ctx->imt_rgctx_loc, "", TRUE);
#else
args [cinfo->rgctx_arg_pindex] = convert (ctx, values [call->rgctx_arg_reg], ctx->module->ptr_type);
#endif
}
if (call->imt_arg_reg) {
g_assert (!ctx->llvm_only);
g_assert (values [call->imt_arg_reg]);
g_assert (cinfo->imt_arg_pindex < nargs);
#ifdef TARGET_ARM
if (!ctx->imt_rgctx_loc)
ctx->imt_rgctx_loc = build_alloca_llvm_type (ctx, ctx->module->ptr_type, TARGET_SIZEOF_VOID_P);
LLVMBuildStore (builder, convert (ctx, ctx->values [call->imt_arg_reg], ctx->module->ptr_type), ctx->imt_rgctx_loc);
args [cinfo->imt_arg_pindex] = mono_llvm_build_load (builder, ctx->imt_rgctx_loc, "", TRUE);
#else
args [cinfo->imt_arg_pindex] = convert (ctx, values [call->imt_arg_reg], ctx->module->ptr_type);
#endif
}
switch (cinfo->ret.storage) {
case LLVMArgGsharedvtVariable: {
MonoInst *var = get_vreg_to_inst (cfg, call->inst.dreg);
if (var && var->opcode == OP_GSHAREDVT_LOCAL) {
args [cinfo->vret_arg_pindex] = convert (ctx, emit_gsharedvt_ldaddr (ctx, var->dreg), IntPtrType ());
} else {
g_assert (addresses [call->inst.dreg]);
args [cinfo->vret_arg_pindex] = convert (ctx, addresses [call->inst.dreg], IntPtrType ());
}
break;
}
default:
if (vretaddr) {
if (!addresses [call->inst.dreg])
addresses [call->inst.dreg] = build_alloca (ctx, sig->ret);
g_assert (cinfo->vret_arg_pindex < nargs);
if (cinfo->ret.storage == LLVMArgVtypeByRef)
args [cinfo->vret_arg_pindex] = addresses [call->inst.dreg];
else
args [cinfo->vret_arg_pindex] = LLVMBuildPtrToInt (builder, addresses [call->inst.dreg], IntPtrType (), "");
}
break;
}
/*
* Sometimes the same method is called with two different signatures (i.e. with and without 'this'), so
* use the real callee for argument type conversion.
*/
LLVMTypeRef callee_type = LLVMGetElementType (LLVMTypeOf (callee));
LLVMTypeRef *param_types = (LLVMTypeRef*)g_alloca (sizeof (LLVMTypeRef) * LLVMCountParamTypes (callee_type));
LLVMGetParamTypes (callee_type, param_types);
for (i = 0; i < sig->param_count + sig->hasthis; ++i) {
guint32 regpair;
int reg, pindex;
LLVMArgInfo *ainfo = &call->cinfo->args [i];
pindex = ainfo->pindex;
regpair = (guint32)(gssize)(l->data);
reg = regpair & 0xffffff;
args [pindex] = values [reg];
switch (ainfo->storage) {
case LLVMArgVtypeInReg:
case LLVMArgAsFpArgs: {
guint32 nargs;
int j;
for (j = 0; j < ainfo->ndummy_fpargs; ++j)
args [pindex + j] = LLVMConstNull (LLVMDoubleType ());
pindex += ainfo->ndummy_fpargs;
g_assert (addresses [reg]);
emit_vtype_to_args (ctx, builder, ainfo->type, addresses [reg], ainfo, args + pindex, &nargs);
pindex += nargs;
// FIXME: alignment
// FIXME: Get rid of the VMOVE
break;
}
case LLVMArgVtypeByVal:
g_assert (addresses [reg]);
args [pindex] = addresses [reg];
break;
case LLVMArgVtypeAddr :
case LLVMArgVtypeByRef: {
g_assert (addresses [reg]);
args [pindex] = convert (ctx, addresses [reg], LLVMPointerType (type_to_llvm_arg_type (ctx, ainfo->type), 0));
break;
}
case LLVMArgAsIArgs:
g_assert (addresses [reg]);
if (ainfo->esize == 8)
args [pindex] = LLVMBuildLoad (ctx->builder, convert (ctx, addresses [reg], LLVMPointerType (LLVMArrayType (LLVMInt64Type (), ainfo->nslots), 0)), "");
else
args [pindex] = LLVMBuildLoad (ctx->builder, convert (ctx, addresses [reg], LLVMPointerType (LLVMArrayType (IntPtrType (), ainfo->nslots), 0)), "");
break;
case LLVMArgVtypeAsScalar:
g_assert_not_reached ();
break;
case LLVMArgWasmVtypeAsScalar:
g_assert (addresses [reg]);
args [pindex] = LLVMBuildLoad (ctx->builder, convert (ctx, addresses [reg], LLVMPointerType (LLVMIntType (ainfo->esize * 8), 0)), "");
break;
case LLVMArgGsharedvtFixed:
case LLVMArgGsharedvtFixedVtype:
g_assert (addresses [reg]);
args [pindex] = convert (ctx, addresses [reg], LLVMPointerType (type_to_llvm_arg_type (ctx, ainfo->type), 0));
break;
case LLVMArgGsharedvtVariable:
g_assert (addresses [reg]);
args [pindex] = convert (ctx, addresses [reg], LLVMPointerType (IntPtrType (), 0));
break;
default:
g_assert (args [pindex]);
if (i == 0 && sig->hasthis)
args [pindex] = convert (ctx, args [pindex], param_types [pindex]);
else
args [pindex] = convert (ctx, args [pindex], type_to_llvm_arg_type (ctx, ainfo->type));
break;
}
g_assert (pindex <= nargs);
l = l->next;
}
if (call->cinfo->dummy_arg) {
g_assert (call->cinfo->dummy_arg_pindex < nargs);
args [call->cinfo->dummy_arg_pindex] = LLVMConstNull (ctx->module->ptr_type);
}
// FIXME: Align call sites
/*
* Emit the call
*/
lcall = emit_call (ctx, bb, &builder, callee, args, LLVMCountParamTypes (llvm_sig));
mono_llvm_nonnull_state_update (ctx, lcall, call->method, args, LLVMCountParamTypes (llvm_sig));
// If we just allocated an object, it's not null.
if (call->method && call->method->wrapper_type == MONO_WRAPPER_ALLOC) {
mono_llvm_set_call_nonnull_ret (lcall);
}
if (ins->opcode != OP_TAILCALL && ins->opcode != OP_TAILCALL_MEMBASE && LLVMGetInstructionOpcode (lcall) == LLVMCall)
mono_llvm_set_call_notailcall (lcall);
// Add original method name we are currently emitting as a custom string metadata (the only way to leave comments in LLVM IR)
if (mono_debug_enabled () && call && call->method)
mono_llvm_add_string_metadata (lcall, "managed_name", mono_method_full_name (call->method, TRUE));
// As per the LLVM docs, a function has a noalias return value if and only if
// it is an allocation function. This is an allocation function.
if (call->method && call->method->wrapper_type == MONO_WRAPPER_ALLOC) {
mono_llvm_set_call_noalias_ret (lcall);
// All objects are expected to be 8-byte aligned (SGEN_ALLOC_ALIGN)
mono_llvm_set_alignment_ret (lcall, 8);
}
/*
* Modify cconv and parameter attributes to pass rgctx/imt correctly.
*/
#if defined(MONO_ARCH_IMT_REG) && defined(MONO_ARCH_RGCTX_REG)
g_assert (MONO_ARCH_IMT_REG == MONO_ARCH_RGCTX_REG);
#endif
/* The two can't be used together, so use only one LLVM calling conv to pass them */
g_assert (!(call->rgctx_arg_reg && call->imt_arg_reg));
if (!sig->pinvoke && !cfg->llvm_only)
LLVMSetInstructionCallConv (lcall, LLVMMono1CallConv);
if (cinfo->ret.storage == LLVMArgVtypeByRef)
mono_llvm_add_instr_attr (lcall, 1 + cinfo->vret_arg_pindex, LLVM_ATTR_STRUCT_RET);
if (!ctx->llvm_only && call->rgctx_arg_reg)
mono_llvm_add_instr_attr (lcall, 1 + cinfo->rgctx_arg_pindex, LLVM_ATTR_IN_REG);
if (call->imt_arg_reg)
mono_llvm_add_instr_attr (lcall, 1 + cinfo->imt_arg_pindex, LLVM_ATTR_IN_REG);
/* Add byval attributes if needed */
for (i = 0; i < sig->param_count; ++i) {
LLVMArgInfo *ainfo = &call->cinfo->args [i + sig->hasthis];
if (ainfo && ainfo->storage == LLVMArgVtypeByVal)
mono_llvm_add_instr_attr (lcall, 1 + ainfo->pindex, LLVM_ATTR_BY_VAL);
#ifdef TARGET_WASM
if (ainfo && ainfo->storage == LLVMArgVtypeByRef)
/* This causes llvm to make a copy of the value which is what we need */
mono_llvm_add_instr_byval_attr (lcall, 1 + ainfo->pindex, LLVMGetElementType (param_types [ainfo->pindex]));
#endif
}
gboolean is_simd = MONO_CLASS_IS_SIMD (ctx->cfg, mono_class_from_mono_type_internal (sig->ret));
gboolean should_promote_to_value = FALSE;
const char *load_name = NULL;
/*
* Convert the result. Non-SIMD value types are manipulated via an
* indirection. SIMD value types are represented directly as LLVM vector
* values, and must have a corresponding LLVM value definition in
* `values`.
*/
switch (cinfo->ret.storage) {
case LLVMArgAsIArgs:
case LLVMArgFpStruct:
if (!addresses [call->inst.dreg])
addresses [call->inst.dreg] = build_alloca (ctx, sig->ret);
LLVMBuildStore (builder, lcall, convert_full (ctx, addresses [call->inst.dreg], LLVMPointerType (LLVMTypeOf (lcall), 0), FALSE));
break;
case LLVMArgVtypeByVal:
/*
* Only used by amd64 and x86. Only ever used when passing
* arguments; never used for return values.
*/
g_assert_not_reached ();
break;
case LLVMArgVtypeInReg: {
if (LLVMTypeOf (lcall) == LLVMVoidType ())
/* Empty struct */
break;
if (!addresses [ins->dreg])
addresses [ins->dreg] = build_alloca (ctx, sig->ret);
LLVMValueRef regs [2] = { 0 };
regs [0] = LLVMBuildExtractValue (builder, lcall, 0, "");
if (cinfo->ret.pair_storage [1] != LLVMArgNone)
regs [1] = LLVMBuildExtractValue (builder, lcall, 1, "");
emit_args_to_vtype (ctx, builder, sig->ret, addresses [ins->dreg], &cinfo->ret, regs);
load_name = "process_call_vtype_in_reg";
should_promote_to_value = is_simd;
break;
}
case LLVMArgVtypeAsScalar:
if (!addresses [call->inst.dreg])
addresses [call->inst.dreg] = build_alloca (ctx, sig->ret);
LLVMBuildStore (builder, lcall, convert_full (ctx, addresses [call->inst.dreg], LLVMPointerType (LLVMTypeOf (lcall), 0), FALSE));
load_name = "process_call_vtype_as_scalar";
should_promote_to_value = is_simd;
break;
case LLVMArgVtypeRetAddr:
case LLVMArgVtypeByRef:
load_name = "process_call_vtype_ret_addr";
should_promote_to_value = is_simd;
break;
case LLVMArgGsharedvtVariable:
break;
case LLVMArgGsharedvtFixed:
case LLVMArgGsharedvtFixedVtype:
values [ins->dreg] = LLVMBuildLoad (builder, convert_full (ctx, addresses [call->inst.dreg], LLVMPointerType (type_to_llvm_type (ctx, sig->ret), 0), FALSE), "");
break;
case LLVMArgWasmVtypeAsScalar:
if (!addresses [call->inst.dreg])
addresses [call->inst.dreg] = build_alloca (ctx, sig->ret);
LLVMBuildStore (builder, lcall, convert_full (ctx, addresses [call->inst.dreg], LLVMPointerType (LLVMTypeOf (lcall), 0), FALSE));
break;
default:
if (sig->ret->type != MONO_TYPE_VOID)
/* If the method returns an unsigned value, need to zext it */
values [ins->dreg] = convert_full (ctx, lcall, llvm_type_to_stack_type (cfg, type_to_llvm_type (ctx, sig->ret)), type_is_unsigned (ctx, sig->ret));
break;
}
if (should_promote_to_value) {
g_assert (addresses [call->inst.dreg]);
LLVMTypeRef addr_type = LLVMPointerType (type_to_llvm_type (ctx, sig->ret), 0);
LLVMValueRef addr = convert_full (ctx, addresses [call->inst.dreg], addr_type, FALSE);
values [ins->dreg] = LLVMBuildLoad (builder, addr, load_name);
}
*builder_ref = ctx->builder;
}
static void
emit_llvmonly_throw (EmitContext *ctx, MonoBasicBlock *bb, gboolean rethrow, LLVMValueRef exc)
{
MonoJitICallId icall_id = rethrow ? MONO_JIT_ICALL_mini_llvmonly_rethrow_exception : MONO_JIT_ICALL_mini_llvmonly_throw_exception;
LLVMValueRef callee = rethrow ? ctx->module->rethrow : ctx->module->throw_icall;
LLVMTypeRef exc_type = type_to_llvm_type (ctx, m_class_get_byval_arg (mono_get_exception_class ()));
if (!callee) {
LLVMTypeRef fun_sig = LLVMFunctionType1 (LLVMVoidType (), exc_type, FALSE);
g_assert (ctx->cfg->compile_aot);
callee = get_callee (ctx, fun_sig, MONO_PATCH_INFO_JIT_ICALL_ADDR, GUINT_TO_POINTER (icall_id));
}
LLVMValueRef args [2];
args [0] = convert (ctx, exc, exc_type);
emit_call (ctx, bb, &ctx->builder, callee, args, 1);
LLVMBuildUnreachable (ctx->builder);
ctx->builder = create_builder (ctx);
}
static void
emit_throw (EmitContext *ctx, MonoBasicBlock *bb, gboolean rethrow, LLVMValueRef exc)
{
MonoMethodSignature *throw_sig;
LLVMValueRef * const pcallee = rethrow ? &ctx->module->rethrow : &ctx->module->throw_icall;
LLVMValueRef callee = *pcallee;
char const * const icall_name = rethrow ? "mono_arch_rethrow_exception" : "mono_arch_throw_exception";
#ifndef TARGET_X86
const
#endif
MonoJitICallId icall_id = rethrow ? MONO_JIT_ICALL_mono_arch_rethrow_exception : MONO_JIT_ICALL_mono_arch_throw_exception;
if (!callee) {
throw_sig = mono_metadata_signature_alloc (mono_get_corlib (), 1);
throw_sig->ret = m_class_get_byval_arg (mono_get_void_class ());
throw_sig->params [0] = m_class_get_byval_arg (mono_get_object_class ());
if (ctx->cfg->compile_aot) {
callee = get_callee (ctx, sig_to_llvm_sig (ctx, throw_sig), MONO_PATCH_INFO_JIT_ICALL_ID, GUINT_TO_POINTER (icall_id));
} else {
#ifdef TARGET_X86
/*
* LLVM doesn't push the exception argument, so we need a different
* trampoline.
*/
icall_id = rethrow ? MONO_JIT_ICALL_mono_llvm_rethrow_exception_trampoline : MONO_JIT_ICALL_mono_llvm_throw_exception_trampoline;
#endif
callee = get_jit_callee (ctx, icall_name, sig_to_llvm_sig (ctx, throw_sig), MONO_PATCH_INFO_JIT_ICALL_ID, GUINT_TO_POINTER (icall_id));
}
mono_memory_barrier ();
}
LLVMValueRef arg;
arg = convert (ctx, exc, type_to_llvm_type (ctx, m_class_get_byval_arg (mono_get_object_class ())));
emit_call (ctx, bb, &ctx->builder, callee, &arg, 1);
}
static void
emit_resume_eh (EmitContext *ctx, MonoBasicBlock *bb)
{
const MonoJitICallId icall_id = MONO_JIT_ICALL_mini_llvmonly_resume_exception;
LLVMValueRef callee;
LLVMTypeRef fun_sig = LLVMFunctionType0 (LLVMVoidType (), FALSE);
g_assert (ctx->cfg->compile_aot);
callee = get_callee (ctx, fun_sig, MONO_PATCH_INFO_JIT_ICALL_ID, GUINT_TO_POINTER (icall_id));
emit_call (ctx, bb, &ctx->builder, callee, NULL, 0);
LLVMBuildUnreachable (ctx->builder);
ctx->builder = create_builder (ctx);
}
static LLVMValueRef
mono_llvm_emit_clear_exception_call (EmitContext *ctx, LLVMBuilderRef builder)
{
const MonoJitICallId icall_id = MONO_JIT_ICALL_mini_llvmonly_clear_exception;
LLVMTypeRef call_sig = LLVMFunctionType (LLVMVoidType (), NULL, 0, FALSE);
LLVMValueRef callee = NULL;
if (!callee) {
callee = get_callee (ctx, call_sig, MONO_PATCH_INFO_JIT_ICALL_ID, GUINT_TO_POINTER (icall_id));
}
g_assert (builder && callee);
return LLVMBuildCall (builder, callee, NULL, 0, "");
}
static LLVMValueRef
mono_llvm_emit_load_exception_call (EmitContext *ctx, LLVMBuilderRef builder)
{
const MonoJitICallId icall_id = MONO_JIT_ICALL_mini_llvmonly_load_exception;
LLVMTypeRef call_sig = LLVMFunctionType (ObjRefType (), NULL, 0, FALSE);
LLVMValueRef callee = NULL;
g_assert (ctx->cfg->compile_aot);
if (!callee) {
callee = get_callee (ctx, call_sig, MONO_PATCH_INFO_JIT_ICALL_ID, GUINT_TO_POINTER (icall_id));
}
g_assert (builder && callee);
return LLVMBuildCall (builder, callee, NULL, 0, "load_exception");
}
static LLVMValueRef
mono_llvm_emit_match_exception_call (EmitContext *ctx, LLVMBuilderRef builder, gint32 region_start, gint32 region_end)
{
const char *icall_name = "mini_llvmonly_match_exception";
const MonoJitICallId icall_id = MONO_JIT_ICALL_mini_llvmonly_match_exception;
ctx->builder = builder;
LLVMValueRef args[5];
const int num_args = G_N_ELEMENTS (args);
args [0] = convert (ctx, get_aotconst (ctx, MONO_PATCH_INFO_AOT_JIT_INFO, GINT_TO_POINTER (ctx->cfg->method_index), LLVMPointerType (IntPtrType (), 0)), IntPtrType ());
args [1] = LLVMConstInt (LLVMInt32Type (), region_start, 0);
args [2] = LLVMConstInt (LLVMInt32Type (), region_end, 0);
if (ctx->cfg->rgctx_var) {
if (ctx->cfg->llvm_only) {
args [3] = convert (ctx, ctx->rgctx_arg, IntPtrType ());
} else {
LLVMValueRef rgctx_alloc = ctx->addresses [ctx->cfg->rgctx_var->dreg];
g_assert (rgctx_alloc);
args [3] = LLVMBuildLoad (builder, convert (ctx, rgctx_alloc, LLVMPointerType (IntPtrType (), 0)), "");
}
} else {
args [3] = LLVMConstInt (IntPtrType (), 0, 0);
}
if (ctx->this_arg)
args [4] = convert (ctx, ctx->this_arg, IntPtrType ());
else
args [4] = LLVMConstInt (IntPtrType (), 0, 0);
LLVMTypeRef match_sig = LLVMFunctionType5 (LLVMInt32Type (), IntPtrType (), LLVMInt32Type (), LLVMInt32Type (), IntPtrType (), IntPtrType (), FALSE);
LLVMValueRef callee;
g_assert (ctx->cfg->compile_aot);
ctx->builder = builder;
// get_callee expects ctx->builder to be the emitting builder
callee = get_callee (ctx, match_sig, MONO_PATCH_INFO_JIT_ICALL_ID, GUINT_TO_POINTER (icall_id));
g_assert (builder && callee);
g_assert (ctx->ex_var);
return LLVMBuildCall (builder, callee, args, num_args, icall_name);
}
// FIXME: This won't work because the code-finding makes this
// not a constant.
/*#define MONO_PERSONALITY_DEBUG*/
#ifdef MONO_PERSONALITY_DEBUG
static const gboolean use_mono_personality_debug = TRUE;
static const char *default_personality_name = "mono_debug_personality";
#else
static const gboolean use_mono_personality_debug = FALSE;
static const char *default_personality_name = "__gxx_personality_v0";
#endif
static const char*
get_personality_name (void)
{
return mono_opt_wasm_exceptions ? "__gxx_wasm_personality_v0" : default_personality_name;
}
static LLVMTypeRef
default_cpp_lpad_exc_signature (void)
{
static LLVMTypeRef sig;
if (!sig) {
LLVMTypeRef signature [2];
signature [0] = LLVMPointerType (LLVMInt8Type (), 0);
signature [1] = LLVMInt32Type ();
sig = LLVMStructType (signature, 2, FALSE);
}
return sig;
}
static LLVMValueRef
get_mono_personality (EmitContext *ctx)
{
LLVMValueRef personality = NULL;
LLVMTypeRef personality_type = LLVMFunctionType (LLVMInt32Type (), NULL, 0, TRUE);
const char *name = get_personality_name ();
g_assert (ctx->cfg->compile_aot);
if (!use_mono_personality_debug) {
personality = LLVMGetNamedFunction (ctx->lmodule, name);
} else {
personality = get_callee (ctx, personality_type, MONO_PATCH_INFO_JIT_ICALL_ID, GUINT_TO_POINTER (MONO_JIT_ICALL_mono_debug_personality));
}
g_assert (personality);
return personality;
}
static LLVMBasicBlockRef
emit_llvmonly_landing_pad (EmitContext *ctx, int group_index, int group_size)
{
MonoCompile *cfg = ctx->cfg;
MonoExceptionClause *group_start = cfg->header->clauses + group_index;
LLVMValueRef catchpad = NULL;
LLVMBuilderRef builder = create_builder (ctx);
ctx->builder = builder;
char *bb_name = g_strdup_printf ("LPAD%d_BB", group_index);
LLVMBasicBlockRef lpad_bb = gen_bb (ctx, bb_name);
g_free (bb_name);
LLVMPositionBuilderAtEnd (builder, lpad_bb);
if (mono_opt_wasm_exceptions) {
/* WASM EH uses catchpad instructions */
LLVMValueRef lpad = LLVMBuildCatchSwitch (builder, NULL, NULL, 1, "");
bb_name = g_strdup_printf ("CATCHPAD%d_BB", group_index);
LLVMBasicBlockRef catch_bb = gen_bb (ctx, bb_name);
g_free (bb_name);
LLVMAddHandler (lpad, catch_bb);
LLVMPositionBuilderAtEnd (builder, catch_bb);
LLVMValueRef catchpad_args [1];
catchpad_args [0] = LLVMConstNull (LLVMPointerType (LLVMInt8Type (), 0));
catchpad = LLVMBuildCatchPad (builder, lpad, catchpad_args, 1, "");
} else {
MonoBasicBlock *handler_bb = cfg->cil_offset_to_bb [CLAUSE_START (group_start)];
g_assert (handler_bb);
// <resultval> = landingpad <somety> personality <type> <pers_fn> <clause>+
LLVMValueRef personality = get_mono_personality (ctx);
g_assert (personality);
LLVMValueRef landing_pad = LLVMBuildLandingPad (builder, default_cpp_lpad_exc_signature (), personality, 0, "");
g_assert (landing_pad);
LLVMValueRef cast = LLVMBuildBitCast (builder, ctx->module->sentinel_exception, LLVMPointerType (LLVMInt8Type (), 0), "int8TypeInfo");
LLVMAddClause (landing_pad, cast);
}
if (ctx->cfg->deopt) {
/*
* Call mini_llvmonly_resume_exception_il_state (lmf, il_state)
*
* The call will execute the catch clause and the rest of the method and store the return
* value into ctx->il_state_ret.
*/
if (!ctx->has_catch) {
/* Unused */
LLVMBuildUnreachable (builder);
return lpad_bb;
}
if (mono_opt_wasm_exceptions) {
bb_name = g_strdup_printf ("CATCH_CONT%d_BB", group_index);
LLVMBasicBlockRef catch_cont_bb = gen_bb (ctx, bb_name);
g_free (bb_name);
LLVMBuildCatchRet (builder, catchpad, catch_cont_bb);
LLVMPositionBuilderAtEnd (builder, catch_cont_bb);
}
const MonoJitICallId icall_id = MONO_JIT_ICALL_mini_llvmonly_resume_exception_il_state;
LLVMValueRef callee;
LLVMValueRef args [2];
LLVMTypeRef fun_sig = LLVMFunctionType2 (LLVMVoidType (), IntPtrType (), IntPtrType (), FALSE);
callee = get_callee (ctx, fun_sig, MONO_PATCH_INFO_JIT_ICALL_ID, GUINT_TO_POINTER (icall_id));
g_assert (ctx->cfg->lmf_var);
g_assert (ctx->addresses [ctx->cfg->lmf_var->dreg]);
args [0] = LLVMBuildPtrToInt (ctx->builder, ctx->addresses [ctx->cfg->lmf_var->dreg], IntPtrType (), "");
args [1] = LLVMBuildPtrToInt (ctx->builder, ctx->il_state, IntPtrType (), "");
emit_call (ctx, NULL, &ctx->builder, callee, args, 2);
/* Return the value set in ctx->il_state_ret */
LLVMTypeRef ret_type = LLVMGetReturnType (LLVMGetElementType (LLVMTypeOf (ctx->lmethod)));
LLVMBuilderRef builder = ctx->builder;
LLVMValueRef addr, retval, gep, indexes [2];
switch (ctx->linfo->ret.storage) {
case LLVMArgNone:
LLVMBuildRetVoid (builder);
break;
case LLVMArgNormal:
case LLVMArgWasmVtypeAsScalar:
case LLVMArgVtypeInReg: {
if (ctx->sig->ret->type == MONO_TYPE_VOID) {
LLVMBuildRetVoid (builder);
break;
}
addr = ctx->il_state_ret;
g_assert (addr);
addr = convert (ctx, ctx->il_state_ret, LLVMPointerType (ret_type, 0));
indexes [0] = LLVMConstInt (LLVMInt32Type (), 0, FALSE);
indexes [1] = LLVMConstInt (LLVMInt32Type (), 0, FALSE);
gep = LLVMBuildGEP (builder, addr, indexes, 1, "");
LLVMBuildRet (builder, LLVMBuildLoad (builder, gep, ""));
break;
}
case LLVMArgVtypeRetAddr: {
LLVMValueRef ret_addr;
g_assert (cfg->vret_addr);
ret_addr = ctx->values [cfg->vret_addr->dreg];
addr = ctx->il_state_ret;
g_assert (addr);
/* The ret value is in il_state_ret, copy it to the memory pointed to by the vret arg */
ret_type = type_to_llvm_type (ctx, ctx->sig->ret);
indexes [0] = LLVMConstInt (LLVMInt32Type (), 0, FALSE);
indexes [1] = LLVMConstInt (LLVMInt32Type (), 0, FALSE);
gep = LLVMBuildGEP (builder, addr, indexes, 1, "");
retval = convert (ctx, LLVMBuildLoad (builder, gep, ""), ret_type);
LLVMBuildStore (builder, retval, convert (ctx, ret_addr, LLVMPointerType (ret_type, 0)));
LLVMBuildRetVoid (builder);
break;
}
default:
g_assert_not_reached ();
break;
}
return lpad_bb;
}
/* Non interp based EH doesn't work */
g_assert_not_reached ();
return lpad_bb;
}
static LLVMValueRef
create_const_vector (LLVMTypeRef t, const int *vals, int count)
{
g_assert (count <= MAX_VECTOR_ELEMS);
LLVMValueRef llvm_vals [MAX_VECTOR_ELEMS];
for (int i = 0; i < count; i++)
llvm_vals [i] = LLVMConstInt (t, vals [i], FALSE);
return LLVMConstVector (llvm_vals, count);
}
static LLVMValueRef
create_const_vector_i32 (const int *mask, int count)
{
return create_const_vector (LLVMInt32Type (), mask, count);
}
static LLVMValueRef
create_const_vector_4_i32 (int v0, int v1, int v2, int v3)
{
LLVMValueRef mask [4];
mask [0] = LLVMConstInt (LLVMInt32Type (), v0, FALSE);
mask [1] = LLVMConstInt (LLVMInt32Type (), v1, FALSE);
mask [2] = LLVMConstInt (LLVMInt32Type (), v2, FALSE);
mask [3] = LLVMConstInt (LLVMInt32Type (), v3, FALSE);
return LLVMConstVector (mask, 4);
}
static LLVMValueRef
create_const_vector_2_i32 (int v0, int v1)
{
LLVMValueRef mask [2];
mask [0] = LLVMConstInt (LLVMInt32Type (), v0, FALSE);
mask [1] = LLVMConstInt (LLVMInt32Type (), v1, FALSE);
return LLVMConstVector (mask, 2);
}
static LLVMValueRef
broadcast_element (EmitContext *ctx, LLVMValueRef elem, int count)
{
LLVMTypeRef t = LLVMTypeOf (elem);
LLVMTypeRef init_vec_t = LLVMVectorType (t, 1);
LLVMValueRef undef = LLVMGetUndef (init_vec_t);
LLVMValueRef vec = LLVMBuildInsertElement (ctx->builder, undef, elem, const_int32 (0), "");
LLVMValueRef select_zero = LLVMConstNull (LLVMVectorType (LLVMInt32Type (), count));
return LLVMBuildShuffleVector (ctx->builder, vec, undef, select_zero, "broadcast");
}
static LLVMValueRef
broadcast_constant (int const_val, LLVMTypeRef elem_t, int count)
{
int vals [MAX_VECTOR_ELEMS];
for (int i = 0; i < count; ++i)
vals [i] = const_val;
return create_const_vector (elem_t, vals, count);
}
static LLVMValueRef
create_shift_vector (EmitContext *ctx, LLVMValueRef type_donor, LLVMValueRef shiftamt)
{
LLVMTypeRef t = LLVMTypeOf (type_donor);
unsigned int elems = LLVMGetVectorSize (t);
LLVMTypeRef elem_t = LLVMGetElementType (t);
shiftamt = convert_full (ctx, shiftamt, elem_t, TRUE);
shiftamt = broadcast_element (ctx, shiftamt, elems);
return shiftamt;
}
static LLVMTypeRef
to_integral_vector_type (LLVMTypeRef t)
{
unsigned int elems = LLVMGetVectorSize (t);
LLVMTypeRef elem_t = LLVMGetElementType (t);
unsigned int bits = mono_llvm_get_prim_size_bits (elem_t);
return LLVMVectorType (LLVMIntType (bits), elems);
}
static LLVMValueRef
bitcast_to_integral (EmitContext *ctx, LLVMValueRef vec)
{
LLVMTypeRef src_t = LLVMTypeOf (vec);
LLVMTypeRef dst_t = to_integral_vector_type (src_t);
if (dst_t != src_t)
return LLVMBuildBitCast (ctx->builder, vec, dst_t, "bc2i");
return vec;
}
static LLVMValueRef
extract_high_elements (EmitContext *ctx, LLVMValueRef src_vec)
{
LLVMTypeRef src_t = LLVMTypeOf (src_vec);
unsigned int src_elems = LLVMGetVectorSize (src_t);
unsigned int dst_elems = src_elems / 2;
int mask [MAX_VECTOR_ELEMS] = { 0 };
for (int i = 0; i < dst_elems; ++i)
mask [i] = dst_elems + i;
return LLVMBuildShuffleVector (ctx->builder, src_vec, LLVMGetUndef (src_t), create_const_vector_i32 (mask, dst_elems), "extract_high");
}
static LLVMValueRef
keep_lowest_element (EmitContext *ctx, LLVMTypeRef dst_t, LLVMValueRef vec)
{
LLVMTypeRef t = LLVMTypeOf (vec);
g_assert (LLVMGetElementType (dst_t) == LLVMGetElementType (t));
unsigned int elems = LLVMGetVectorSize (dst_t);
unsigned int src_elems = LLVMGetVectorSize (t);
int mask [MAX_VECTOR_ELEMS] = { 0 };
mask [0] = 0;
for (unsigned int i = 1; i < elems; ++i)
mask [i] = src_elems;
return LLVMBuildShuffleVector (ctx->builder, vec, LLVMConstNull (t), create_const_vector_i32 (mask, elems), "keep_lowest");
}
static LLVMValueRef
concatenate_vectors (EmitContext *ctx, LLVMValueRef xs, LLVMValueRef ys)
{
LLVMTypeRef t = LLVMTypeOf (xs);
unsigned int elems = LLVMGetVectorSize (t) * 2;
int mask [MAX_VECTOR_ELEMS] = { 0 };
for (int i = 0; i < elems; ++i)
mask [i] = i;
return LLVMBuildShuffleVector (ctx->builder, xs, ys, create_const_vector_i32 (mask, elems), "concat_vecs");
}
static LLVMValueRef
scalar_from_vector (EmitContext *ctx, LLVMValueRef xs)
{
return LLVMBuildExtractElement (ctx->builder, xs, const_int32 (0), "v2s");
}
static LLVMValueRef
vector_from_scalar (EmitContext *ctx, LLVMTypeRef type, LLVMValueRef x)
{
return LLVMBuildInsertElement (ctx->builder, LLVMConstNull (type), x, const_int32 (0), "s2v");
}
typedef struct {
EmitContext *ctx;
MonoBasicBlock *bb;
LLVMBasicBlockRef continuation;
LLVMValueRef phi;
LLVMValueRef switch_ins;
LLVMBasicBlockRef tmp_block;
LLVMBasicBlockRef default_case;
LLVMTypeRef switch_index_type;
const char *name;
int max_cases;
int i;
} ImmediateUnrollCtx;
static ImmediateUnrollCtx
immediate_unroll_begin (
EmitContext *ctx, MonoBasicBlock *bb, int max_cases,
LLVMValueRef switch_index, LLVMTypeRef return_type, const char *name)
{
LLVMBasicBlockRef default_case = gen_bb (ctx, name);
LLVMBasicBlockRef continuation = gen_bb (ctx, name);
LLVMValueRef switch_ins = LLVMBuildSwitch (ctx->builder, switch_index, default_case, max_cases);
LLVMPositionBuilderAtEnd (ctx->builder, continuation);
LLVMValueRef phi = LLVMBuildPhi (ctx->builder, return_type, name);
ImmediateUnrollCtx ictx = { 0 };
ictx.ctx = ctx;
ictx.bb = bb;
ictx.continuation = continuation;
ictx.phi = phi;
ictx.switch_ins = switch_ins;
ictx.default_case = default_case;
ictx.switch_index_type = LLVMTypeOf (switch_index);
ictx.name = name;
ictx.max_cases = max_cases;
return ictx;
}
static gboolean
immediate_unroll_next (ImmediateUnrollCtx *ictx, int *i)
{
if (ictx->i >= ictx->max_cases)
return FALSE;
ictx->tmp_block = gen_bb (ictx->ctx, ictx->name);
LLVMPositionBuilderAtEnd (ictx->ctx->builder, ictx->tmp_block);
*i = ictx->i;
++ictx->i;
return TRUE;
}
static void
immediate_unroll_commit (ImmediateUnrollCtx *ictx, int switch_const, LLVMValueRef value)
{
LLVMBuildBr (ictx->ctx->builder, ictx->continuation);
LLVMAddCase (ictx->switch_ins, LLVMConstInt (ictx->switch_index_type, switch_const, FALSE), ictx->tmp_block);
LLVMAddIncoming (ictx->phi, &value, &ictx->tmp_block, 1);
}
static void
immediate_unroll_default (ImmediateUnrollCtx *ictx)
{
LLVMPositionBuilderAtEnd (ictx->ctx->builder, ictx->default_case);
}
static void
immediate_unroll_commit_default (ImmediateUnrollCtx *ictx, LLVMValueRef value)
{
LLVMBuildBr (ictx->ctx->builder, ictx->continuation);
LLVMAddIncoming (ictx->phi, &value, &ictx->default_case, 1);
}
static void
immediate_unroll_unreachable_default (ImmediateUnrollCtx *ictx)
{
immediate_unroll_default (ictx);
LLVMBuildUnreachable (ictx->ctx->builder);
}
static LLVMValueRef
immediate_unroll_end (ImmediateUnrollCtx *ictx, LLVMBasicBlockRef *continuation)
{
EmitContext *ctx = ictx->ctx;
LLVMBuilderRef builder = ctx->builder;
LLVMPositionBuilderAtEnd (builder, ictx->continuation);
*continuation = ictx->continuation;
ctx->bblocks [ictx->bb->block_num].end_bblock = ictx->continuation;
return ictx->phi;
}
typedef struct {
EmitContext *ctx;
LLVMTypeRef intermediate_type;
LLVMTypeRef return_type;
gboolean needs_fake_scalar_op;
llvm_ovr_tag_t ovr_tag;
} ScalarOpFromVectorOpCtx;
static inline gboolean
check_needs_fake_scalar_op (MonoTypeEnum type)
{
#if defined(TARGET_ARM64)
switch (type) {
case MONO_TYPE_U1:
case MONO_TYPE_I1:
case MONO_TYPE_U2:
case MONO_TYPE_I2:
return TRUE;
}
#endif
return FALSE;
}
static ScalarOpFromVectorOpCtx
scalar_op_from_vector_op (EmitContext *ctx, LLVMTypeRef return_type, MonoInst *ins)
{
ScalarOpFromVectorOpCtx ret = { 0 };
ret.ctx = ctx;
ret.intermediate_type = return_type;
ret.return_type = return_type;
ret.needs_fake_scalar_op = check_needs_fake_scalar_op (inst_c1_type (ins));
ret.ovr_tag = ovr_tag_from_llvm_type (return_type);
if (!ret.needs_fake_scalar_op) {
ret.ovr_tag = ovr_tag_force_scalar (ret.ovr_tag);
ret.intermediate_type = ovr_tag_to_llvm_type (ret.ovr_tag);
}
return ret;
}
static void
scalar_op_from_vector_op_process_args (ScalarOpFromVectorOpCtx *sctx, LLVMValueRef *args, int num_args)
{
if (!sctx->needs_fake_scalar_op)
for (int i = 0; i < num_args; ++i)
args [i] = scalar_from_vector (sctx->ctx, args [i]);
}
static LLVMValueRef
scalar_op_from_vector_op_process_result (ScalarOpFromVectorOpCtx *sctx, LLVMValueRef result)
{
if (sctx->needs_fake_scalar_op)
return keep_lowest_element (sctx->ctx, LLVMTypeOf (result), result);
return vector_from_scalar (sctx->ctx, sctx->return_type, result);
}
static void
emit_llvmonly_handler_start (EmitContext *ctx, MonoBasicBlock *bb, LLVMBasicBlockRef cbb)
{
int clause_index = MONO_REGION_CLAUSE_INDEX (bb->region);
MonoExceptionClause *clause = &ctx->cfg->header->clauses [clause_index];
// Make exception available to catch blocks
if (!(clause->flags & MONO_EXCEPTION_CLAUSE_FINALLY || clause->flags & MONO_EXCEPTION_CLAUSE_FAULT)) {
LLVMValueRef mono_exc = mono_llvm_emit_load_exception_call (ctx, ctx->builder);
g_assert (ctx->ex_var);
LLVMBuildStore (ctx->builder, LLVMBuildBitCast (ctx->builder, mono_exc, ObjRefType (), ""), ctx->ex_var);
if (bb->in_scount == 1) {
MonoInst *exvar = bb->in_stack [0];
g_assert (!ctx->values [exvar->dreg]);
g_assert (ctx->ex_var);
ctx->values [exvar->dreg] = LLVMBuildLoad (ctx->builder, ctx->ex_var, "save_exception");
emit_volatile_store (ctx, exvar->dreg);
}
mono_llvm_emit_clear_exception_call (ctx, ctx->builder);
}
#ifdef TARGET_WASM
if (ctx->cfg->lmf_var && !ctx->cfg->deopt) {
LLVMValueRef callee;
LLVMValueRef args [1];
LLVMTypeRef sig = LLVMFunctionType1 (LLVMVoidType (), ctx->module->ptr_type, FALSE);
/*
* There might be an LMF on the stack inserted to enable stack walking, see
* method_needs_stack_walk (). If an exception is thrown, the LMF popping code
* is not executed, so do it here.
*/
g_assert (ctx->addresses [ctx->cfg->lmf_var->dreg]);
callee = get_callee (ctx, sig, MONO_PATCH_INFO_JIT_ICALL_ADDR, GUINT_TO_POINTER (MONO_JIT_ICALL_mini_llvmonly_pop_lmf));
args [0] = convert (ctx, ctx->addresses [ctx->cfg->lmf_var->dreg], ctx->module->ptr_type);
emit_call (ctx, bb, &ctx->builder, callee, args, 1);
}
#endif
LLVMBuilderRef handler_builder = create_builder (ctx);
LLVMBasicBlockRef target_bb = ctx->bblocks [bb->block_num].call_handler_target_bb;
LLVMPositionBuilderAtEnd (handler_builder, target_bb);
// Make the handler code end with a jump to cbb
LLVMBuildBr (handler_builder, cbb);
}
static void
emit_handler_start (EmitContext *ctx, MonoBasicBlock *bb, LLVMBuilderRef builder)
{
MonoCompile *cfg = ctx->cfg;
LLVMValueRef *values = ctx->values;
LLVMModuleRef lmodule = ctx->lmodule;
BBInfo *bblocks = ctx->bblocks;
LLVMTypeRef i8ptr;
LLVMValueRef personality;
LLVMValueRef landing_pad;
LLVMBasicBlockRef target_bb;
MonoInst *exvar;
static int ti_generator;
char ti_name [128];
LLVMValueRef type_info;
int clause_index;
GSList *l;
// <resultval> = landingpad <somety> personality <type> <pers_fn> <clause>+
if (cfg->compile_aot) {
/* Use a dummy personality function */
personality = LLVMGetNamedFunction (lmodule, "mono_personality");
g_assert (personality);
} else {
/* Can't cache this as each method is in its own llvm module */
LLVMTypeRef personality_type = LLVMFunctionType (LLVMInt32Type (), NULL, 0, TRUE);
personality = LLVMAddFunction (ctx->lmodule, "mono_personality", personality_type);
mono_llvm_add_func_attr (personality, LLVM_ATTR_NO_UNWIND);
LLVMBasicBlockRef entry_bb = LLVMAppendBasicBlock (personality, "ENTRY");
LLVMBuilderRef builder2 = LLVMCreateBuilder ();
LLVMPositionBuilderAtEnd (builder2, entry_bb);
LLVMBuildRet (builder2, LLVMConstInt (LLVMInt32Type (), 0, FALSE));
LLVMDisposeBuilder (builder2);
}
i8ptr = LLVMPointerType (LLVMInt8Type (), 0);
clause_index = (mono_get_block_region_notry (cfg, bb->region) >> 8) - 1;
/*
* Create the type info
*/
sprintf (ti_name, "type_info_%d", ti_generator);
ti_generator ++;
if (cfg->compile_aot) {
/* decode_eh_frame () in aot-runtime.c will decode this */
type_info = LLVMAddGlobal (lmodule, LLVMInt32Type (), ti_name);
LLVMSetInitializer (type_info, LLVMConstInt (LLVMInt32Type (), clause_index, FALSE));
/*
* These symbols are not really used, the clause_index is embedded into the EH tables generated by DwarfMonoException in LLVM.
*/
LLVMSetLinkage (type_info, LLVMInternalLinkage);
} else {
type_info = LLVMAddGlobal (lmodule, LLVMInt32Type (), ti_name);
LLVMSetInitializer (type_info, LLVMConstInt (LLVMInt32Type (), clause_index, FALSE));
}
{
LLVMTypeRef members [2], ret_type;
members [0] = i8ptr;
members [1] = LLVMInt32Type ();
ret_type = LLVMStructType (members, 2, FALSE);
landing_pad = LLVMBuildLandingPad (builder, ret_type, personality, 1, "");
LLVMAddClause (landing_pad, type_info);
/* Store the exception into the exvar */
if (ctx->ex_var)
LLVMBuildStore (builder, convert (ctx, LLVMBuildExtractValue (builder, landing_pad, 0, "ex_obj"), ObjRefType ()), ctx->ex_var);
}
/*
* LLVM throw sites are associated with a one landing pad, and LLVM generated
* code expects control to be transferred to this landing pad even in the
* presence of nested clauses. The landing pad needs to branch to the landing
* pads belonging to nested clauses based on the selector value returned by
* the landing pad instruction, which is passed to the landing pad in a
* register by the EH code.
*/
target_bb = bblocks [bb->block_num].call_handler_target_bb;
g_assert (target_bb);
/*
* Branch to the correct landing pad
*/
LLVMValueRef ex_selector = LLVMBuildExtractValue (builder, landing_pad, 1, "ex_selector");
LLVMValueRef switch_ins = LLVMBuildSwitch (builder, ex_selector, target_bb, 0);
for (l = ctx->nested_in [clause_index]; l; l = l->next) {
int nesting_clause_index = GPOINTER_TO_INT (l->data);
MonoBasicBlock *handler_bb;
handler_bb = (MonoBasicBlock*)g_hash_table_lookup (ctx->clause_to_handler, GINT_TO_POINTER (nesting_clause_index));
g_assert (handler_bb);
g_assert (ctx->bblocks [handler_bb->block_num].call_handler_target_bb);
LLVMAddCase (switch_ins, LLVMConstInt (LLVMInt32Type (), nesting_clause_index, FALSE), ctx->bblocks [handler_bb->block_num].call_handler_target_bb);
}
/* Start a new bblock which CALL_HANDLER can branch to */
ctx->builder = builder = create_builder (ctx);
LLVMPositionBuilderAtEnd (ctx->builder, target_bb);
ctx->bblocks [bb->block_num].end_bblock = target_bb;
/* Store the exception into the IL level exvar */
if (bb->in_scount == 1) {
g_assert (bb->in_scount == 1);
exvar = bb->in_stack [0];
// FIXME: This is shared with filter clauses ?
g_assert (!values [exvar->dreg]);
g_assert (ctx->ex_var);
values [exvar->dreg] = LLVMBuildLoad (builder, ctx->ex_var, "");
emit_volatile_store (ctx, exvar->dreg);
}
/* Make normal branches to the start of the clause branch to the new bblock */
bblocks [bb->block_num].bblock = target_bb;
}
static LLVMValueRef
get_double_const (MonoCompile *cfg, double val)
{
//#ifdef TARGET_WASM
#if 0
//Wasm requires us to canonicalize NaNs.
if (mono_isnan (val))
*(gint64 *)&val = 0x7FF8000000000000ll;
#endif
return LLVMConstReal (LLVMDoubleType (), val);
}
static LLVMValueRef
get_float_const (MonoCompile *cfg, float val)
{
//#ifdef TARGET_WASM
#if 0
if (mono_isnan (val))
*(int *)&val = 0x7FC00000;
#endif
if (cfg->r4fp)
return LLVMConstReal (LLVMFloatType (), val);
else
return LLVMConstFPExt (LLVMConstReal (LLVMFloatType (), val), LLVMDoubleType ());
}
static LLVMValueRef
call_overloaded_intrins (EmitContext *ctx, int id, llvm_ovr_tag_t ovr_tag, LLVMValueRef *args, const char *name)
{
int key = key_from_id_and_tag (id, ovr_tag);
LLVMValueRef intrins = get_intrins (ctx, key);
int nargs = LLVMCountParamTypes (LLVMGetElementType (LLVMTypeOf (intrins)));
for (int i = 0; i < nargs; ++i) {
LLVMTypeRef t1 = LLVMTypeOf (args [i]);
LLVMTypeRef t2 = LLVMTypeOf (LLVMGetParam (intrins, i));
if (t1 != t2)
args [i] = convert (ctx, args [i], t2);
}
return LLVMBuildCall (ctx->builder, intrins, args, nargs, name);
}
static LLVMValueRef
call_intrins (EmitContext *ctx, int id, LLVMValueRef *args, const char *name)
{
return call_overloaded_intrins (ctx, id, 0, args, name);
}
static void
process_bb (EmitContext *ctx, MonoBasicBlock *bb)
{
MonoCompile *cfg = ctx->cfg;
MonoMethodSignature *sig = ctx->sig;
LLVMValueRef method = ctx->lmethod;
LLVMValueRef *values = ctx->values;
LLVMValueRef *addresses = ctx->addresses;
LLVMCallInfo *linfo = ctx->linfo;
BBInfo *bblocks = ctx->bblocks;
MonoInst *ins;
LLVMBasicBlockRef cbb;
LLVMBuilderRef builder;
gboolean has_terminator;
LLVMValueRef v;
LLVMValueRef lhs, rhs, arg3;
int nins = 0;
cbb = get_end_bb (ctx, bb);
builder = create_builder (ctx);
ctx->builder = builder;
LLVMPositionBuilderAtEnd (builder, cbb);
if (!ctx_ok (ctx))
return;
if (cfg->interp_entry_only && bb != cfg->bb_init && bb != cfg->bb_entry && bb != cfg->bb_exit) {
/* The interp entry code is in bb_entry, skip the rest as we might not be able to compile it */
LLVMBuildUnreachable (builder);
return;
}
if (bb->flags & BB_EXCEPTION_HANDLER) {
if (!ctx->llvm_only && !bblocks [bb->block_num].invoke_target) {
set_failure (ctx, "handler without invokes");
return;
}
if (ctx->llvm_only)
emit_llvmonly_handler_start (ctx, bb, cbb);
else
emit_handler_start (ctx, bb, builder);
if (!ctx_ok (ctx))
return;
builder = ctx->builder;
}
/* Handle PHI nodes first */
/* They should be grouped at the start of the bb */
for (ins = bb->code; ins; ins = ins->next) {
emit_dbg_loc (ctx, builder, ins->cil_code);
if (ins->opcode == OP_NOP)
continue;
if (!MONO_IS_PHI (ins))
break;
if (cfg->interp_entry_only)
break;
int i;
gboolean empty = TRUE;
/* Check that all input bblocks really branch to us */
for (i = 0; i < bb->in_count; ++i) {
if (bb->in_bb [i]->last_ins && bb->in_bb [i]->last_ins->opcode == OP_NOT_REACHED)
ins->inst_phi_args [i + 1] = -1;
else
empty = FALSE;
}
if (empty) {
/* LLVM doesn't like phi instructions with zero operands */
ctx->is_dead [ins->dreg] = TRUE;
continue;
}
/* Created earlier, insert it now */
LLVMInsertIntoBuilder (builder, values [ins->dreg]);
for (i = 0; i < ins->inst_phi_args [0]; i++) {
int sreg1 = ins->inst_phi_args [i + 1];
int count, j;
/*
* Count the number of times the incoming bblock branches to us,
* since llvm requires a separate entry for each.
*/
if (bb->in_bb [i]->last_ins && bb->in_bb [i]->last_ins->opcode == OP_SWITCH) {
MonoInst *switch_ins = bb->in_bb [i]->last_ins;
count = 0;
for (j = 0; j < GPOINTER_TO_UINT (switch_ins->klass); ++j) {
if (switch_ins->inst_many_bb [j] == bb)
count ++;
}
} else {
count = 1;
}
/* Remember for later */
for (j = 0; j < count; ++j) {
PhiNode *node = (PhiNode*)mono_mempool_alloc0 (ctx->mempool, sizeof (PhiNode));
node->bb = bb;
node->phi = ins;
node->in_bb = bb->in_bb [i];
node->sreg = sreg1;
bblocks [bb->in_bb [i]->block_num].phi_nodes = g_slist_prepend_mempool (ctx->mempool, bblocks [bb->in_bb [i]->block_num].phi_nodes, node);
}
}
}
// Add volatile stores for PHI nodes
// These need to be emitted after the PHI nodes
for (ins = bb->code; ins; ins = ins->next) {
const char *spec = LLVM_INS_INFO (ins->opcode);
if (ins->opcode == OP_NOP)
continue;
if (!MONO_IS_PHI (ins))
break;
if (spec [MONO_INST_DEST] != 'v')
emit_volatile_store (ctx, ins->dreg);
}
has_terminator = FALSE;
for (ins = bb->code; ins; ins = ins->next) {
const char *spec = LLVM_INS_INFO (ins->opcode);
char *dname = NULL;
char dname_buf [128];
emit_dbg_loc (ctx, builder, ins->cil_code);
nins ++;
if (nins > 1000) {
/*
* Some steps in llc are non-linear in the size of basic blocks, see #5714.
* Start a new bblock.
* Prevent the bblocks to be merged by doing a volatile load + cond branch
* from localloc-ed memory.
*/
if (!cfg->llvm_only)
;//set_failure (ctx, "basic block too long");
if (!ctx->long_bb_break_var) {
ctx->long_bb_break_var = build_alloca_llvm_type_name (ctx, LLVMInt32Type (), 0, "long_bb_break");
mono_llvm_build_store (ctx->alloca_builder, LLVMConstInt (LLVMInt32Type (), 0, FALSE), ctx->long_bb_break_var, TRUE, LLVM_BARRIER_NONE);
}
cbb = gen_bb (ctx, "CONT_LONG_BB");
LLVMBasicBlockRef dummy_bb = gen_bb (ctx, "CONT_LONG_BB_DUMMY");
LLVMValueRef load = mono_llvm_build_load (builder, ctx->long_bb_break_var, "", TRUE);
/*
* The long_bb_break_var is initialized to 0 in the prolog, so this branch will always go to 'cbb'
* but llvm doesn't know that, so the branch is not going to be eliminated.
*/
LLVMValueRef cmp = LLVMBuildICmp (builder, LLVMIntEQ, load, LLVMConstInt (LLVMInt32Type (), 0, FALSE), "");
LLVMBuildCondBr (builder, cmp, cbb, dummy_bb);
/* Emit a dummy false bblock which does nothing but contains a volatile store so it cannot be eliminated */
ctx->builder = builder = create_builder (ctx);
LLVMPositionBuilderAtEnd (builder, dummy_bb);
mono_llvm_build_store (builder, LLVMConstInt (LLVMInt32Type (), 1, FALSE), ctx->long_bb_break_var, TRUE, LLVM_BARRIER_NONE);
LLVMBuildBr (builder, cbb);
ctx->builder = builder = create_builder (ctx);
LLVMPositionBuilderAtEnd (builder, cbb);
ctx->bblocks [bb->block_num].end_bblock = cbb;
nins = 0;
emit_dbg_loc (ctx, builder, ins->cil_code);
}
if (has_terminator)
/* There could be instructions after a terminator, skip them */
break;
if (spec [MONO_INST_DEST] != ' ' && !MONO_IS_STORE_MEMBASE (ins)) {
sprintf (dname_buf, "t%d", ins->dreg);
dname = dname_buf;
}
if (spec [MONO_INST_SRC1] != ' ' && spec [MONO_INST_SRC1] != 'v') {
MonoInst *var = get_vreg_to_inst (cfg, ins->sreg1);
if (var && var->flags & (MONO_INST_VOLATILE|MONO_INST_INDIRECT) && var->opcode != OP_GSHAREDVT_ARG_REGOFFSET) {
lhs = emit_volatile_load (ctx, ins->sreg1);
} else {
/* It is ok for SETRET to have an uninitialized argument */
if (!values [ins->sreg1] && ins->opcode != OP_SETRET) {
set_failure (ctx, "sreg1");
return;
}
lhs = values [ins->sreg1];
}
} else {
lhs = NULL;
}
if (spec [MONO_INST_SRC2] != ' ' && spec [MONO_INST_SRC2] != 'v') {
MonoInst *var = get_vreg_to_inst (cfg, ins->sreg2);
if (var && var->flags & (MONO_INST_VOLATILE|MONO_INST_INDIRECT)) {
rhs = emit_volatile_load (ctx, ins->sreg2);
} else {
if (!values [ins->sreg2]) {
set_failure (ctx, "sreg2");
return;
}
rhs = values [ins->sreg2];
}
} else {
rhs = NULL;
}
if (spec [MONO_INST_SRC3] != ' ' && spec [MONO_INST_SRC3] != 'v') {
MonoInst *var = get_vreg_to_inst (cfg, ins->sreg3);
if (var && var->flags & (MONO_INST_VOLATILE|MONO_INST_INDIRECT)) {
arg3 = emit_volatile_load (ctx, ins->sreg3);
} else {
if (!values [ins->sreg3]) {
set_failure (ctx, "sreg3");
return;
}
arg3 = values [ins->sreg3];
}
} else {
arg3 = NULL;
}
//mono_print_ins (ins);
gboolean skip_volatile_store = FALSE;
switch (ins->opcode) {
case OP_NOP:
case OP_NOT_NULL:
case OP_LIVERANGE_START:
case OP_LIVERANGE_END:
break;
case OP_ICONST:
values [ins->dreg] = LLVMConstInt (LLVMInt32Type (), ins->inst_c0, FALSE);
break;
case OP_I8CONST:
#if TARGET_SIZEOF_VOID_P == 4
values [ins->dreg] = LLVMConstInt (LLVMInt64Type (), GET_LONG_IMM (ins), FALSE);
#else
values [ins->dreg] = LLVMConstInt (LLVMInt64Type (), (gint64)ins->inst_c0, FALSE);
#endif
break;
case OP_R8CONST:
values [ins->dreg] = get_double_const (cfg, *(double*)ins->inst_p0);
break;
case OP_R4CONST:
values [ins->dreg] = get_float_const (cfg, *(float*)ins->inst_p0);
break;
case OP_DUMMY_ICONST:
values [ins->dreg] = LLVMConstInt (LLVMInt32Type (), 0, FALSE);
break;
case OP_DUMMY_I8CONST:
values [ins->dreg] = LLVMConstInt (LLVMInt64Type (), 0, FALSE);
break;
case OP_DUMMY_R8CONST:
values [ins->dreg] = LLVMConstReal (LLVMDoubleType (), 0.0f);
break;
case OP_BR: {
LLVMBasicBlockRef target_bb = get_bb (ctx, ins->inst_target_bb);
LLVMBuildBr (builder, target_bb);
has_terminator = TRUE;
break;
}
case OP_SWITCH: {
int i;
LLVMValueRef v;
char bb_name [128];
LLVMBasicBlockRef new_bb;
LLVMBuilderRef new_builder;
// The default branch is already handled
// FIXME: Handle it here
/* Start new bblock */
sprintf (bb_name, "SWITCH_DEFAULT_BB%d", ctx->default_index ++);
new_bb = LLVMAppendBasicBlock (ctx->lmethod, bb_name);
lhs = convert (ctx, lhs, LLVMInt32Type ());
v = LLVMBuildSwitch (builder, lhs, new_bb, GPOINTER_TO_UINT (ins->klass));
for (i = 0; i < GPOINTER_TO_UINT (ins->klass); ++i) {
MonoBasicBlock *target_bb = ins->inst_many_bb [i];
LLVMAddCase (v, LLVMConstInt (LLVMInt32Type (), i, FALSE), get_bb (ctx, target_bb));
}
new_builder = create_builder (ctx);
LLVMPositionBuilderAtEnd (new_builder, new_bb);
LLVMBuildUnreachable (new_builder);
has_terminator = TRUE;
g_assert (!ins->next);
break;
}
case OP_SETRET:
switch (linfo->ret.storage) {
case LLVMArgNormal:
case LLVMArgVtypeInReg:
case LLVMArgVtypeAsScalar:
case LLVMArgWasmVtypeAsScalar: {
LLVMTypeRef ret_type = LLVMGetReturnType (LLVMGetElementType (LLVMTypeOf (method)));
LLVMValueRef retval = LLVMGetUndef (ret_type);
gboolean src_in_reg = FALSE;
gboolean is_simd = MONO_CLASS_IS_SIMD (ctx->cfg, mono_class_from_mono_type_internal (sig->ret));
switch (linfo->ret.storage) {
case LLVMArgNormal: src_in_reg = TRUE; break;
case LLVMArgVtypeInReg: case LLVMArgVtypeAsScalar: src_in_reg = is_simd; break;
}
if (src_in_reg && (!lhs || ctx->is_dead [ins->sreg1])) {
/*
* The method did not set its return value, probably because it
* ends with a throw.
*/
LLVMBuildRet (builder, retval);
break;
}
switch (linfo->ret.storage) {
case LLVMArgNormal:
retval = convert (ctx, lhs, type_to_llvm_type (ctx, sig->ret));
break;
case LLVMArgVtypeInReg:
if (is_simd) {
/* The return type is an LLVM aggregate type, so a bare bitcast cannot be used to do this conversion. */
int width = mono_type_size (sig->ret, NULL);
int elems = width / TARGET_SIZEOF_VOID_P;
/* The return value might not be set if there is a throw */
LLVMValueRef val = LLVMBuildBitCast (builder, lhs, LLVMVectorType (IntPtrType (), elems), "");
for (int i = 0; i < elems; ++i) {
LLVMValueRef element = LLVMBuildExtractElement (builder, val, const_int32 (i), "");
retval = LLVMBuildInsertValue (builder, retval, element, i, "setret_simd_vtype_in_reg");
}
} else {
LLVMValueRef addr = LLVMBuildBitCast (builder, addresses [ins->sreg1], LLVMPointerType (ret_type, 0), "");
for (int i = 0; i < 2; ++i) {
if (linfo->ret.pair_storage [i] == LLVMArgInIReg) {
LLVMValueRef indexes [2], part_addr;
indexes [0] = LLVMConstInt (LLVMInt32Type (), 0, FALSE);
indexes [1] = LLVMConstInt (LLVMInt32Type (), i, FALSE);
part_addr = LLVMBuildGEP (builder, addr, indexes, 2, "");
retval = LLVMBuildInsertValue (builder, retval, LLVMBuildLoad (builder, part_addr, ""), i, "");
} else {
g_assert (linfo->ret.pair_storage [i] == LLVMArgNone);
}
}
}
break;
case LLVMArgVtypeAsScalar:
if (is_simd) {
retval = LLVMBuildBitCast (builder, values [ins->sreg1], ret_type, "setret_simd_vtype_as_scalar");
} else {
g_assert (addresses [ins->sreg1]);
retval = LLVMBuildLoad (builder, LLVMBuildBitCast (builder, addresses [ins->sreg1], LLVMPointerType (ret_type, 0), ""), "");
}
break;
case LLVMArgWasmVtypeAsScalar:
g_assert (addresses [ins->sreg1]);
retval = LLVMBuildLoad (builder, LLVMBuildBitCast (builder, addresses [ins->sreg1], LLVMPointerType (ret_type, 0), ""), "");
break;
}
LLVMBuildRet (builder, retval);
break;
}
case LLVMArgVtypeByRef: {
LLVMBuildRetVoid (builder);
break;
}
case LLVMArgGsharedvtFixed: {
LLVMTypeRef ret_type = type_to_llvm_type (ctx, sig->ret);
/* The return value is in lhs, need to store to the vret argument */
/* sreg1 might not be set */
if (lhs) {
g_assert (cfg->vret_addr);
g_assert (values [cfg->vret_addr->dreg]);
LLVMBuildStore (builder, convert (ctx, lhs, ret_type), convert (ctx, values [cfg->vret_addr->dreg], LLVMPointerType (ret_type, 0)));
}
LLVMBuildRetVoid (builder);
break;
}
case LLVMArgGsharedvtFixedVtype: {
/* Already set */
LLVMBuildRetVoid (builder);
break;
}
case LLVMArgGsharedvtVariable: {
/* Already set */
LLVMBuildRetVoid (builder);
break;
}
case LLVMArgVtypeRetAddr: {
LLVMBuildRetVoid (builder);
break;
}
case LLVMArgAsIArgs:
case LLVMArgFpStruct: {
LLVMTypeRef ret_type = LLVMGetReturnType (LLVMGetElementType (LLVMTypeOf (method)));
LLVMValueRef retval;
g_assert (addresses [ins->sreg1]);
retval = LLVMBuildLoad (builder, convert (ctx, addresses [ins->sreg1], LLVMPointerType (ret_type, 0)), "");
LLVMBuildRet (builder, retval);
break;
}
case LLVMArgNone:
LLVMBuildRetVoid (builder);
break;
default:
g_assert_not_reached ();
break;
}
has_terminator = TRUE;
break;
case OP_ICOMPARE:
case OP_FCOMPARE:
case OP_RCOMPARE:
case OP_LCOMPARE:
case OP_COMPARE:
case OP_ICOMPARE_IMM:
case OP_LCOMPARE_IMM:
case OP_COMPARE_IMM: {
CompRelation rel;
LLVMValueRef cmp, args [16];
gboolean likely = (ins->flags & MONO_INST_LIKELY) != 0;
gboolean unlikely = FALSE;
if (MONO_IS_COND_BRANCH_OP (ins->next)) {
if (ins->next->inst_false_bb->out_of_line)
likely = TRUE;
else if (ins->next->inst_true_bb->out_of_line)
unlikely = TRUE;
}
if (ins->next->opcode == OP_NOP)
break;
if (ins->next->opcode == OP_BR)
/* The comparison result is not needed */
continue;
rel = mono_opcode_to_cond (ins->next->opcode);
if (ins->opcode == OP_ICOMPARE_IMM) {
lhs = convert (ctx, lhs, LLVMInt32Type ());
rhs = LLVMConstInt (LLVMInt32Type (), ins->inst_imm, FALSE);
}
if (ins->opcode == OP_LCOMPARE_IMM) {
lhs = convert (ctx, lhs, LLVMInt64Type ());
rhs = LLVMConstInt (LLVMInt64Type (), GET_LONG_IMM (ins), FALSE);
}
if (ins->opcode == OP_LCOMPARE) {
lhs = convert (ctx, lhs, LLVMInt64Type ());
rhs = convert (ctx, rhs, LLVMInt64Type ());
}
if (ins->opcode == OP_ICOMPARE) {
lhs = convert (ctx, lhs, LLVMInt32Type ());
rhs = convert (ctx, rhs, LLVMInt32Type ());
}
if (lhs && rhs) {
if (LLVMGetTypeKind (LLVMTypeOf (lhs)) == LLVMPointerTypeKind)
rhs = convert (ctx, rhs, LLVMTypeOf (lhs));
else if (LLVMGetTypeKind (LLVMTypeOf (rhs)) == LLVMPointerTypeKind)
lhs = convert (ctx, lhs, LLVMTypeOf (rhs));
}
/* We use COMPARE+SETcc/Bcc, llvm uses SETcc+br cond */
if (ins->opcode == OP_FCOMPARE) {
cmp = LLVMBuildFCmp (builder, fpcond_to_llvm_cond [rel], convert (ctx, lhs, LLVMDoubleType ()), convert (ctx, rhs, LLVMDoubleType ()), "");
} else if (ins->opcode == OP_RCOMPARE) {
cmp = LLVMBuildFCmp (builder, fpcond_to_llvm_cond [rel], convert (ctx, lhs, LLVMFloatType ()), convert (ctx, rhs, LLVMFloatType ()), "");
} else if (ins->opcode == OP_COMPARE_IMM) {
LLVMIntPredicate llvm_pred = cond_to_llvm_cond [rel];
if (LLVMGetTypeKind (LLVMTypeOf (lhs)) == LLVMPointerTypeKind && ins->inst_imm == 0) {
// We are emitting a NULL check for a pointer
gboolean nonnull = mono_llvm_is_nonnull (lhs);
if (nonnull && llvm_pred == LLVMIntEQ)
cmp = LLVMConstInt (LLVMInt1Type (), FALSE, FALSE);
else if (nonnull && llvm_pred == LLVMIntNE)
cmp = LLVMConstInt (LLVMInt1Type (), TRUE, FALSE);
else
cmp = LLVMBuildICmp (builder, llvm_pred, lhs, LLVMConstNull (LLVMTypeOf (lhs)), "");
} else {
cmp = LLVMBuildICmp (builder, llvm_pred, convert (ctx, lhs, IntPtrType ()), LLVMConstInt (IntPtrType (), ins->inst_imm, FALSE), "");
}
} else if (ins->opcode == OP_LCOMPARE_IMM) {
cmp = LLVMBuildICmp (builder, cond_to_llvm_cond [rel], lhs, rhs, "");
}
else if (ins->opcode == OP_COMPARE) {
if (LLVMGetTypeKind (LLVMTypeOf (lhs)) == LLVMPointerTypeKind && LLVMTypeOf (lhs) == LLVMTypeOf (rhs))
cmp = LLVMBuildICmp (builder, cond_to_llvm_cond [rel], lhs, rhs, "");
else
cmp = LLVMBuildICmp (builder, cond_to_llvm_cond [rel], convert (ctx, lhs, IntPtrType ()), convert (ctx, rhs, IntPtrType ()), "");
} else
cmp = LLVMBuildICmp (builder, cond_to_llvm_cond [rel], lhs, rhs, "");
if (likely || unlikely) {
args [0] = cmp;
args [1] = LLVMConstInt (LLVMInt1Type (), likely ? 1 : 0, FALSE);
cmp = call_intrins (ctx, INTRINS_EXPECT_I1, args, "");
}
if (MONO_IS_COND_BRANCH_OP (ins->next)) {
if (ins->next->inst_true_bb == ins->next->inst_false_bb) {
/*
* If the target bb contains PHI instructions, LLVM requires
* two PHI entries for this bblock, while we only generate one.
* So convert this to an unconditional bblock. (bxc #171).
*/
LLVMBuildBr (builder, get_bb (ctx, ins->next->inst_true_bb));
} else {
LLVMBuildCondBr (builder, cmp, get_bb (ctx, ins->next->inst_true_bb), get_bb (ctx, ins->next->inst_false_bb));
}
has_terminator = TRUE;
} else if (MONO_IS_SETCC (ins->next)) {
sprintf (dname_buf, "t%d", ins->next->dreg);
dname = dname_buf;
values [ins->next->dreg] = LLVMBuildZExt (builder, cmp, LLVMInt32Type (), dname);
/* Add stores for volatile variables */
emit_volatile_store (ctx, ins->next->dreg);
} else if (MONO_IS_COND_EXC (ins->next)) {
gboolean force_explicit_branch = FALSE;
if (bb->region != -1) {
/* Don't tag null check branches in exception-handling
* regions with `make.implicit`.
*/
force_explicit_branch = TRUE;
}
emit_cond_system_exception (ctx, bb, (const char*)ins->next->inst_p1, cmp, force_explicit_branch);
if (!ctx_ok (ctx))
break;
builder = ctx->builder;
} else {
set_failure (ctx, "next");
break;
}
ins = ins->next;
break;
}
case OP_FCEQ:
case OP_FCNEQ:
case OP_FCLT:
case OP_FCLT_UN:
case OP_FCGT:
case OP_FCGT_UN:
case OP_FCGE:
case OP_FCLE: {
CompRelation rel;
LLVMValueRef cmp;
rel = mono_opcode_to_cond (ins->opcode);
cmp = LLVMBuildFCmp (builder, fpcond_to_llvm_cond [rel], convert (ctx, lhs, LLVMDoubleType ()), convert (ctx, rhs, LLVMDoubleType ()), "");
values [ins->dreg] = LLVMBuildZExt (builder, cmp, LLVMInt32Type (), dname);
break;
}
case OP_RCEQ:
case OP_RCNEQ:
case OP_RCLT:
case OP_RCLT_UN:
case OP_RCGT:
case OP_RCGT_UN: {
CompRelation rel;
LLVMValueRef cmp;
rel = mono_opcode_to_cond (ins->opcode);
cmp = LLVMBuildFCmp (builder, fpcond_to_llvm_cond [rel], convert (ctx, lhs, LLVMFloatType ()), convert (ctx, rhs, LLVMFloatType ()), "");
values [ins->dreg] = LLVMBuildZExt (builder, cmp, LLVMInt32Type (), dname);
break;
}
case OP_PHI:
case OP_FPHI:
case OP_VPHI:
case OP_XPHI: {
// Handled above
skip_volatile_store = TRUE;
break;
}
case OP_MOVE:
case OP_LMOVE:
case OP_XMOVE:
case OP_SETFRET:
g_assert (lhs);
values [ins->dreg] = lhs;
break;
case OP_FMOVE:
case OP_RMOVE: {
MonoInst *var = get_vreg_to_inst (cfg, ins->dreg);
g_assert (lhs);
values [ins->dreg] = lhs;
if (var && m_class_get_byval_arg (var->klass)->type == MONO_TYPE_R4) {
/*
* This is added by the spilling pass in case of the JIT,
* but we have to do it ourselves.
*/
values [ins->dreg] = convert (ctx, values [ins->dreg], LLVMFloatType ());
}
break;
}
case OP_MOVE_F_TO_I4: {
values [ins->dreg] = LLVMBuildBitCast (builder, LLVMBuildFPTrunc (builder, lhs, LLVMFloatType (), ""), LLVMInt32Type (), "");
break;
}
case OP_MOVE_I4_TO_F: {
values [ins->dreg] = LLVMBuildFPExt (builder, LLVMBuildBitCast (builder, lhs, LLVMFloatType (), ""), LLVMDoubleType (), "");
break;
}
case OP_MOVE_F_TO_I8: {
values [ins->dreg] = LLVMBuildBitCast (builder, lhs, LLVMInt64Type (), "");
break;
}
case OP_MOVE_I8_TO_F: {
values [ins->dreg] = LLVMBuildBitCast (builder, lhs, LLVMDoubleType (), "");
break;
}
case OP_IADD:
case OP_ISUB:
case OP_IAND:
case OP_IMUL:
case OP_IDIV:
case OP_IDIV_UN:
case OP_IREM:
case OP_IREM_UN:
case OP_IOR:
case OP_IXOR:
case OP_ISHL:
case OP_ISHR:
case OP_ISHR_UN:
case OP_FADD:
case OP_FSUB:
case OP_FMUL:
case OP_FDIV:
case OP_LADD:
case OP_LSUB:
case OP_LMUL:
case OP_LDIV:
case OP_LDIV_UN:
case OP_LREM:
case OP_LREM_UN:
case OP_LAND:
case OP_LOR:
case OP_LXOR:
case OP_LSHL:
case OP_LSHR:
case OP_LSHR_UN:
lhs = convert (ctx, lhs, regtype_to_llvm_type (spec [MONO_INST_DEST]));
rhs = convert (ctx, rhs, regtype_to_llvm_type (spec [MONO_INST_DEST]));
emit_div_check (ctx, builder, bb, ins, lhs, rhs);
if (!ctx_ok (ctx))
break;
builder = ctx->builder;
switch (ins->opcode) {
case OP_IADD:
case OP_LADD:
values [ins->dreg] = LLVMBuildAdd (builder, lhs, rhs, dname);
break;
case OP_ISUB:
case OP_LSUB:
values [ins->dreg] = LLVMBuildSub (builder, lhs, rhs, dname);
break;
case OP_IMUL:
case OP_LMUL:
values [ins->dreg] = LLVMBuildMul (builder, lhs, rhs, dname);
break;
case OP_IREM:
case OP_LREM:
values [ins->dreg] = LLVMBuildSRem (builder, lhs, rhs, dname);
break;
case OP_IREM_UN:
case OP_LREM_UN:
values [ins->dreg] = LLVMBuildURem (builder, lhs, rhs, dname);
break;
case OP_IDIV:
case OP_LDIV:
values [ins->dreg] = LLVMBuildSDiv (builder, lhs, rhs, dname);
break;
case OP_IDIV_UN:
case OP_LDIV_UN:
values [ins->dreg] = LLVMBuildUDiv (builder, lhs, rhs, dname);
break;
case OP_FDIV:
case OP_RDIV:
values [ins->dreg] = LLVMBuildFDiv (builder, lhs, rhs, dname);
break;
case OP_IAND:
case OP_LAND:
values [ins->dreg] = LLVMBuildAnd (builder, lhs, rhs, dname);
break;
case OP_IOR:
case OP_LOR:
values [ins->dreg] = LLVMBuildOr (builder, lhs, rhs, dname);
break;
case OP_IXOR:
case OP_LXOR:
values [ins->dreg] = LLVMBuildXor (builder, lhs, rhs, dname);
break;
case OP_ISHL:
case OP_LSHL:
values [ins->dreg] = LLVMBuildShl (builder, lhs, rhs, dname);
break;
case OP_ISHR:
case OP_LSHR:
values [ins->dreg] = LLVMBuildAShr (builder, lhs, rhs, dname);
break;
case OP_ISHR_UN:
case OP_LSHR_UN:
values [ins->dreg] = LLVMBuildLShr (builder, lhs, rhs, dname);
break;
case OP_FADD:
values [ins->dreg] = LLVMBuildFAdd (builder, lhs, rhs, dname);
break;
case OP_FSUB:
values [ins->dreg] = LLVMBuildFSub (builder, lhs, rhs, dname);
break;
case OP_FMUL:
values [ins->dreg] = LLVMBuildFMul (builder, lhs, rhs, dname);
break;
default:
g_assert_not_reached ();
}
break;
case OP_RADD:
case OP_RSUB:
case OP_RMUL:
case OP_RDIV: {
lhs = convert (ctx, lhs, LLVMFloatType ());
rhs = convert (ctx, rhs, LLVMFloatType ());
switch (ins->opcode) {
case OP_RADD:
values [ins->dreg] = LLVMBuildFAdd (builder, lhs, rhs, dname);
break;
case OP_RSUB:
values [ins->dreg] = LLVMBuildFSub (builder, lhs, rhs, dname);
break;
case OP_RMUL:
values [ins->dreg] = LLVMBuildFMul (builder, lhs, rhs, dname);
break;
case OP_RDIV:
values [ins->dreg] = LLVMBuildFDiv (builder, lhs, rhs, dname);
break;
default:
g_assert_not_reached ();
break;
}
break;
}
case OP_IADD_IMM:
case OP_ISUB_IMM:
case OP_IMUL_IMM:
case OP_IREM_IMM:
case OP_IREM_UN_IMM:
case OP_IDIV_IMM:
case OP_IDIV_UN_IMM:
case OP_IAND_IMM:
case OP_IOR_IMM:
case OP_IXOR_IMM:
case OP_ISHL_IMM:
case OP_ISHR_IMM:
case OP_ISHR_UN_IMM:
case OP_LADD_IMM:
case OP_LSUB_IMM:
case OP_LMUL_IMM:
case OP_LREM_IMM:
case OP_LAND_IMM:
case OP_LOR_IMM:
case OP_LXOR_IMM:
case OP_LSHL_IMM:
case OP_LSHR_IMM:
case OP_LSHR_UN_IMM:
case OP_ADD_IMM:
case OP_AND_IMM:
case OP_MUL_IMM:
case OP_SHL_IMM:
case OP_SHR_IMM:
case OP_SHR_UN_IMM: {
LLVMValueRef imm;
if (spec [MONO_INST_SRC1] == 'l') {
imm = LLVMConstInt (LLVMInt64Type (), GET_LONG_IMM (ins), FALSE);
} else {
imm = LLVMConstInt (LLVMInt32Type (), ins->inst_imm, FALSE);
}
emit_div_check (ctx, builder, bb, ins, lhs, imm);
if (!ctx_ok (ctx))
break;
builder = ctx->builder;
#if TARGET_SIZEOF_VOID_P == 4
if (ins->opcode == OP_LSHL_IMM || ins->opcode == OP_LSHR_IMM || ins->opcode == OP_LSHR_UN_IMM)
imm = LLVMConstInt (LLVMInt32Type (), ins->inst_imm, FALSE);
#endif
if (LLVMGetTypeKind (LLVMTypeOf (lhs)) == LLVMPointerTypeKind)
lhs = convert (ctx, lhs, IntPtrType ());
imm = convert (ctx, imm, LLVMTypeOf (lhs));
switch (ins->opcode) {
case OP_IADD_IMM:
case OP_LADD_IMM:
case OP_ADD_IMM:
values [ins->dreg] = LLVMBuildAdd (builder, lhs, imm, dname);
break;
case OP_ISUB_IMM:
case OP_LSUB_IMM:
values [ins->dreg] = LLVMBuildSub (builder, lhs, imm, dname);
break;
case OP_IMUL_IMM:
case OP_MUL_IMM:
case OP_LMUL_IMM:
values [ins->dreg] = LLVMBuildMul (builder, lhs, imm, dname);
break;
case OP_IDIV_IMM:
case OP_LDIV_IMM:
values [ins->dreg] = LLVMBuildSDiv (builder, lhs, imm, dname);
break;
case OP_IDIV_UN_IMM:
case OP_LDIV_UN_IMM:
values [ins->dreg] = LLVMBuildUDiv (builder, lhs, imm, dname);
break;
case OP_IREM_IMM:
case OP_LREM_IMM:
values [ins->dreg] = LLVMBuildSRem (builder, lhs, imm, dname);
break;
case OP_IREM_UN_IMM:
values [ins->dreg] = LLVMBuildURem (builder, lhs, imm, dname);
break;
case OP_IAND_IMM:
case OP_LAND_IMM:
case OP_AND_IMM:
values [ins->dreg] = LLVMBuildAnd (builder, lhs, imm, dname);
break;
case OP_IOR_IMM:
case OP_LOR_IMM:
values [ins->dreg] = LLVMBuildOr (builder, lhs, imm, dname);
break;
case OP_IXOR_IMM:
case OP_LXOR_IMM:
values [ins->dreg] = LLVMBuildXor (builder, lhs, imm, dname);
break;
case OP_ISHL_IMM:
case OP_LSHL_IMM:
values [ins->dreg] = LLVMBuildShl (builder, lhs, imm, dname);
break;
case OP_SHL_IMM:
if (TARGET_SIZEOF_VOID_P == 8) {
/* The IL is not regular */
lhs = convert (ctx, lhs, LLVMInt64Type ());
imm = convert (ctx, imm, LLVMInt64Type ());
}
values [ins->dreg] = LLVMBuildShl (builder, lhs, imm, dname);
break;
case OP_ISHR_IMM:
case OP_LSHR_IMM:
case OP_SHR_IMM:
values [ins->dreg] = LLVMBuildAShr (builder, lhs, imm, dname);
break;
case OP_ISHR_UN_IMM:
/* This is used to implement conv.u4, so the lhs could be an i8 */
lhs = convert (ctx, lhs, LLVMInt32Type ());
imm = convert (ctx, imm, LLVMInt32Type ());
values [ins->dreg] = LLVMBuildLShr (builder, lhs, imm, dname);
break;
case OP_LSHR_UN_IMM:
case OP_SHR_UN_IMM:
values [ins->dreg] = LLVMBuildLShr (builder, lhs, imm, dname);
break;
default:
g_assert_not_reached ();
}
break;
}
case OP_INEG:
values [ins->dreg] = LLVMBuildSub (builder, LLVMConstInt (LLVMInt32Type (), 0, FALSE), convert (ctx, lhs, LLVMInt32Type ()), dname);
break;
case OP_LNEG:
if (LLVMTypeOf (lhs) != LLVMInt64Type ())
lhs = convert (ctx, lhs, LLVMInt64Type ());
values [ins->dreg] = LLVMBuildSub (builder, LLVMConstInt (LLVMInt64Type (), 0, FALSE), lhs, dname);
break;
case OP_FNEG:
lhs = convert (ctx, lhs, LLVMDoubleType ());
values [ins->dreg] = LLVMBuildFNeg (builder, lhs, dname);
break;
case OP_RNEG:
lhs = convert (ctx, lhs, LLVMFloatType ());
values [ins->dreg] = LLVMBuildFNeg (builder, lhs, dname);
break;
case OP_INOT: {
guint32 v = 0xffffffff;
values [ins->dreg] = LLVMBuildXor (builder, LLVMConstInt (LLVMInt32Type (), v, FALSE), convert (ctx, lhs, LLVMInt32Type ()), dname);
break;
}
case OP_LNOT: {
if (LLVMTypeOf (lhs) != LLVMInt64Type ())
lhs = convert (ctx, lhs, LLVMInt64Type ());
guint64 v = 0xffffffffffffffffLL;
values [ins->dreg] = LLVMBuildXor (builder, LLVMConstInt (LLVMInt64Type (), v, FALSE), lhs, dname);
break;
}
#if defined(TARGET_X86) || defined(TARGET_AMD64)
case OP_X86_LEA: {
LLVMValueRef v1, v2;
rhs = LLVMBuildSExt (builder, convert (ctx, rhs, LLVMInt32Type ()), LLVMInt64Type (), "");
v1 = LLVMBuildMul (builder, convert (ctx, rhs, IntPtrType ()), LLVMConstInt (IntPtrType (), ((unsigned long long)1 << ins->backend.shift_amount), FALSE), "");
v2 = LLVMBuildAdd (builder, convert (ctx, lhs, IntPtrType ()), v1, "");
values [ins->dreg] = LLVMBuildAdd (builder, v2, LLVMConstInt (IntPtrType (), ins->inst_imm, FALSE), dname);
break;
}
case OP_X86_BSF32:
case OP_X86_BSF64: {
LLVMValueRef args [] = {
lhs,
LLVMConstInt (LLVMInt1Type (), 1, TRUE),
};
int op = ins->opcode == OP_X86_BSF32 ? INTRINS_CTTZ_I32 : INTRINS_CTTZ_I64;
values [ins->dreg] = call_intrins (ctx, op, args, dname);
break;
}
case OP_X86_BSR32:
case OP_X86_BSR64: {
LLVMValueRef args [] = {
lhs,
LLVMConstInt (LLVMInt1Type (), 1, TRUE),
};
int op = ins->opcode == OP_X86_BSR32 ? INTRINS_CTLZ_I32 : INTRINS_CTLZ_I64;
LLVMValueRef width = ins->opcode == OP_X86_BSR32 ? const_int32 (31) : const_int64 (63);
LLVMValueRef tz = call_intrins (ctx, op, args, "");
values [ins->dreg] = LLVMBuildXor (builder, tz, width, dname);
break;
}
#endif
case OP_ICONV_TO_I1:
case OP_ICONV_TO_I2:
case OP_ICONV_TO_I4:
case OP_ICONV_TO_U1:
case OP_ICONV_TO_U2:
case OP_ICONV_TO_U4:
case OP_LCONV_TO_I1:
case OP_LCONV_TO_I2:
case OP_LCONV_TO_U1:
case OP_LCONV_TO_U2:
case OP_LCONV_TO_U4: {
gboolean sign;
sign = (ins->opcode == OP_ICONV_TO_I1) || (ins->opcode == OP_ICONV_TO_I2) || (ins->opcode == OP_ICONV_TO_I4) || (ins->opcode == OP_LCONV_TO_I1) || (ins->opcode == OP_LCONV_TO_I2);
/* Have to do two casts since our vregs have type int */
v = LLVMBuildTrunc (builder, lhs, op_to_llvm_type (ins->opcode), "");
if (sign)
values [ins->dreg] = LLVMBuildSExt (builder, v, LLVMInt32Type (), dname);
else
values [ins->dreg] = LLVMBuildZExt (builder, v, LLVMInt32Type (), dname);
break;
}
case OP_ICONV_TO_I8:
values [ins->dreg] = LLVMBuildSExt (builder, lhs, LLVMInt64Type (), dname);
break;
case OP_ICONV_TO_U8:
values [ins->dreg] = LLVMBuildZExt (builder, lhs, LLVMInt64Type (), dname);
break;
case OP_FCONV_TO_I4:
case OP_RCONV_TO_I4:
values [ins->dreg] = LLVMBuildFPToSI (builder, lhs, LLVMInt32Type (), dname);
break;
case OP_FCONV_TO_I1:
case OP_RCONV_TO_I1:
values [ins->dreg] = LLVMBuildSExt (builder, LLVMBuildFPToSI (builder, lhs, LLVMInt8Type (), dname), LLVMInt32Type (), "");
break;
case OP_FCONV_TO_U1:
case OP_RCONV_TO_U1:
values [ins->dreg] = LLVMBuildZExt (builder, LLVMBuildTrunc (builder, LLVMBuildFPToUI (builder, lhs, IntPtrType (), dname), LLVMInt8Type (), ""), LLVMInt32Type (), "");
break;
case OP_FCONV_TO_I2:
case OP_RCONV_TO_I2:
values [ins->dreg] = LLVMBuildSExt (builder, LLVMBuildFPToSI (builder, lhs, LLVMInt16Type (), dname), LLVMInt32Type (), "");
break;
case OP_FCONV_TO_U2:
case OP_RCONV_TO_U2:
values [ins->dreg] = LLVMBuildZExt (builder, LLVMBuildFPToUI (builder, lhs, LLVMInt16Type (), dname), LLVMInt32Type (), "");
break;
case OP_FCONV_TO_U4:
case OP_RCONV_TO_U4:
values [ins->dreg] = LLVMBuildFPToUI (builder, lhs, LLVMInt32Type (), dname);
break;
case OP_FCONV_TO_U8:
case OP_RCONV_TO_U8:
values [ins->dreg] = LLVMBuildFPToUI (builder, lhs, LLVMInt64Type (), dname);
break;
case OP_FCONV_TO_I8:
case OP_RCONV_TO_I8:
values [ins->dreg] = LLVMBuildFPToSI (builder, lhs, LLVMInt64Type (), dname);
break;
case OP_ICONV_TO_R8:
case OP_LCONV_TO_R8:
values [ins->dreg] = LLVMBuildSIToFP (builder, lhs, LLVMDoubleType (), dname);
break;
case OP_ICONV_TO_R_UN:
case OP_LCONV_TO_R_UN:
values [ins->dreg] = LLVMBuildUIToFP (builder, lhs, LLVMDoubleType (), dname);
break;
#if TARGET_SIZEOF_VOID_P == 4
case OP_LCONV_TO_U:
#endif
case OP_LCONV_TO_I4:
values [ins->dreg] = LLVMBuildTrunc (builder, lhs, LLVMInt32Type (), dname);
break;
case OP_ICONV_TO_R4:
case OP_LCONV_TO_R4:
v = LLVMBuildSIToFP (builder, lhs, LLVMFloatType (), "");
if (cfg->r4fp)
values [ins->dreg] = v;
else
values [ins->dreg] = LLVMBuildFPExt (builder, v, LLVMDoubleType (), dname);
break;
case OP_FCONV_TO_R4:
v = LLVMBuildFPTrunc (builder, lhs, LLVMFloatType (), "");
if (cfg->r4fp)
values [ins->dreg] = v;
else
values [ins->dreg] = LLVMBuildFPExt (builder, v, LLVMDoubleType (), dname);
break;
case OP_RCONV_TO_R8:
values [ins->dreg] = LLVMBuildFPExt (builder, lhs, LLVMDoubleType (), dname);
break;
case OP_RCONV_TO_R4:
values [ins->dreg] = lhs;
break;
case OP_SEXT_I4:
values [ins->dreg] = LLVMBuildSExt (builder, convert (ctx, lhs, LLVMInt32Type ()), LLVMInt64Type (), dname);
break;
case OP_ZEXT_I4:
values [ins->dreg] = LLVMBuildZExt (builder, convert (ctx, lhs, LLVMInt32Type ()), LLVMInt64Type (), dname);
break;
case OP_TRUNC_I4:
values [ins->dreg] = LLVMBuildTrunc (builder, lhs, LLVMInt32Type (), dname);
break;
case OP_LOCALLOC_IMM: {
LLVMValueRef v;
guint32 size = ins->inst_imm;
size = (size + (MONO_ARCH_FRAME_ALIGNMENT - 1)) & ~ (MONO_ARCH_FRAME_ALIGNMENT - 1);
v = mono_llvm_build_alloca (builder, LLVMInt8Type (), LLVMConstInt (LLVMInt32Type (), size, FALSE), MONO_ARCH_FRAME_ALIGNMENT, "");
if (ins->flags & MONO_INST_INIT)
emit_memset (ctx, builder, v, const_int32 (size), MONO_ARCH_FRAME_ALIGNMENT);
values [ins->dreg] = v;
break;
}
case OP_LOCALLOC: {
LLVMValueRef v, size;
size = LLVMBuildAnd (builder, LLVMBuildAdd (builder, convert (ctx, lhs, LLVMInt32Type ()), LLVMConstInt (LLVMInt32Type (), MONO_ARCH_FRAME_ALIGNMENT - 1, FALSE), ""), LLVMConstInt (LLVMInt32Type (), ~ (MONO_ARCH_FRAME_ALIGNMENT - 1), FALSE), "");
v = mono_llvm_build_alloca (builder, LLVMInt8Type (), size, MONO_ARCH_FRAME_ALIGNMENT, "");
if (ins->flags & MONO_INST_INIT)
emit_memset (ctx, builder, v, size, MONO_ARCH_FRAME_ALIGNMENT);
values [ins->dreg] = v;
break;
}
case OP_LOADI1_MEMBASE:
case OP_LOADU1_MEMBASE:
case OP_LOADI2_MEMBASE:
case OP_LOADU2_MEMBASE:
case OP_LOADI4_MEMBASE:
case OP_LOADU4_MEMBASE:
case OP_LOADI8_MEMBASE:
case OP_LOADR4_MEMBASE:
case OP_LOADR8_MEMBASE:
case OP_LOAD_MEMBASE:
case OP_LOADI8_MEM:
case OP_LOADU1_MEM:
case OP_LOADU2_MEM:
case OP_LOADI4_MEM:
case OP_LOADU4_MEM:
case OP_LOAD_MEM: {
int size = 8;
LLVMValueRef base, index, addr;
LLVMTypeRef t;
gboolean sext = FALSE, zext = FALSE;
gboolean is_faulting = (ins->flags & MONO_INST_FAULT) != 0;
gboolean is_volatile = (ins->flags & MONO_INST_VOLATILE) != 0;
gboolean is_unaligned = (ins->flags & MONO_INST_UNALIGNED) != 0;
t = load_store_to_llvm_type (ins->opcode, &size, &sext, &zext);
if (sext || zext)
dname = (char*)"";
if ((ins->opcode == OP_LOADI8_MEM) || (ins->opcode == OP_LOAD_MEM) || (ins->opcode == OP_LOADI4_MEM) || (ins->opcode == OP_LOADU4_MEM) || (ins->opcode == OP_LOADU1_MEM) || (ins->opcode == OP_LOADU2_MEM)) {
addr = LLVMConstInt (IntPtrType (), ins->inst_imm, FALSE);
base = addr;
} else {
/* _MEMBASE */
base = lhs;
if (ins->inst_offset == 0) {
LLVMValueRef gep_base, gep_offset;
if (mono_llvm_can_be_gep (base, &gep_base, &gep_offset)) {
addr = LLVMBuildGEP (builder, convert (ctx, gep_base, LLVMPointerType (LLVMInt8Type (), 0)), &gep_offset, 1, "");
} else {
addr = base;
}
} else if (ins->inst_offset % size != 0) {
/* Unaligned load */
index = LLVMConstInt (LLVMInt32Type (), ins->inst_offset, FALSE);
addr = LLVMBuildGEP (builder, convert (ctx, base, LLVMPointerType (LLVMInt8Type (), 0)), &index, 1, "");
} else {
index = LLVMConstInt (LLVMInt32Type (), ins->inst_offset / size, FALSE);
addr = LLVMBuildGEP (builder, convert (ctx, base, LLVMPointerType (t, 0)), &index, 1, "");
}
}
addr = convert (ctx, addr, LLVMPointerType (t, 0));
if (is_unaligned)
values [ins->dreg] = mono_llvm_build_aligned_load (builder, addr, dname, is_volatile, 1);
else
values [ins->dreg] = emit_load (ctx, bb, &builder, size, addr, base, dname, is_faulting, is_volatile, LLVM_BARRIER_NONE);
if (!(is_faulting || is_volatile) && (ins->flags & MONO_INST_INVARIANT_LOAD)) {
/*
* These will signal LLVM that these loads do not alias any stores, and
* they can't fail, allowing them to be hoisted out of loops.
*/
set_invariant_load_flag (values [ins->dreg]);
}
if (sext)
values [ins->dreg] = LLVMBuildSExt (builder, values [ins->dreg], LLVMInt32Type (), dname);
else if (zext)
values [ins->dreg] = LLVMBuildZExt (builder, values [ins->dreg], LLVMInt32Type (), dname);
else if (!cfg->r4fp && ins->opcode == OP_LOADR4_MEMBASE)
values [ins->dreg] = LLVMBuildFPExt (builder, values [ins->dreg], LLVMDoubleType (), dname);
break;
}
case OP_STOREI1_MEMBASE_REG:
case OP_STOREI2_MEMBASE_REG:
case OP_STOREI4_MEMBASE_REG:
case OP_STOREI8_MEMBASE_REG:
case OP_STORER4_MEMBASE_REG:
case OP_STORER8_MEMBASE_REG:
case OP_STORE_MEMBASE_REG: {
int size = 8;
LLVMValueRef index, addr, base;
LLVMTypeRef t;
gboolean sext = FALSE, zext = FALSE;
gboolean is_faulting = (ins->flags & MONO_INST_FAULT) != 0;
gboolean is_volatile = (ins->flags & MONO_INST_VOLATILE) != 0;
gboolean is_unaligned = (ins->flags & MONO_INST_UNALIGNED) != 0;
if (!values [ins->inst_destbasereg]) {
set_failure (ctx, "inst_destbasereg");
break;
}
t = load_store_to_llvm_type (ins->opcode, &size, &sext, &zext);
base = values [ins->inst_destbasereg];
LLVMValueRef gep_base, gep_offset;
if (ins->inst_offset == 0 && mono_llvm_can_be_gep (base, &gep_base, &gep_offset)) {
addr = LLVMBuildGEP (builder, convert (ctx, gep_base, LLVMPointerType (LLVMInt8Type (), 0)), &gep_offset, 1, "");
} else if (ins->inst_offset % size != 0) {
/* Unaligned store */
index = LLVMConstInt (LLVMInt32Type (), ins->inst_offset, FALSE);
addr = LLVMBuildGEP (builder, convert (ctx, base, LLVMPointerType (LLVMInt8Type (), 0)), &index, 1, "");
} else {
index = LLVMConstInt (LLVMInt32Type (), ins->inst_offset / size, FALSE);
addr = LLVMBuildGEP (builder, convert (ctx, base, LLVMPointerType (t, 0)), &index, 1, "");
}
if (is_volatile && LLVMGetInstructionOpcode (base) == LLVMAlloca && !(ins->flags & MONO_INST_VOLATILE))
/* Storing to an alloca cannot fail */
is_volatile = FALSE;
LLVMValueRef srcval = convert (ctx, values [ins->sreg1], t);
LLVMValueRef ptrdst = convert (ctx, addr, LLVMPointerType (t, 0));
if (is_unaligned)
mono_llvm_build_aligned_store (builder, srcval, ptrdst, is_volatile, 1);
else
emit_store (ctx, bb, &builder, size, srcval, ptrdst, base, is_faulting, is_volatile);
break;
}
case OP_STOREI1_MEMBASE_IMM:
case OP_STOREI2_MEMBASE_IMM:
case OP_STOREI4_MEMBASE_IMM:
case OP_STOREI8_MEMBASE_IMM:
case OP_STORE_MEMBASE_IMM: {
int size = 8;
LLVMValueRef index, addr, base;
LLVMTypeRef t;
gboolean sext = FALSE, zext = FALSE;
gboolean is_faulting = (ins->flags & MONO_INST_FAULT) != 0;
gboolean is_volatile = (ins->flags & MONO_INST_VOLATILE) != 0;
gboolean is_unaligned = (ins->flags & MONO_INST_UNALIGNED) != 0;
t = load_store_to_llvm_type (ins->opcode, &size, &sext, &zext);
base = values [ins->inst_destbasereg];
LLVMValueRef gep_base, gep_offset;
if (ins->inst_offset == 0 && mono_llvm_can_be_gep (base, &gep_base, &gep_offset)) {
addr = LLVMBuildGEP (builder, convert (ctx, gep_base, LLVMPointerType (LLVMInt8Type (), 0)), &gep_offset, 1, "");
} else if (ins->inst_offset % size != 0) {
/* Unaligned store */
index = LLVMConstInt (LLVMInt32Type (), ins->inst_offset, FALSE);
addr = LLVMBuildGEP (builder, convert (ctx, base, LLVMPointerType (LLVMInt8Type (), 0)), &index, 1, "");
} else {
index = LLVMConstInt (LLVMInt32Type (), ins->inst_offset / size, FALSE);
addr = LLVMBuildGEP (builder, convert (ctx, base, LLVMPointerType (t, 0)), &index, 1, "");
}
LLVMValueRef srcval = convert (ctx, LLVMConstInt (IntPtrType (), ins->inst_imm, FALSE), t);
LLVMValueRef ptrdst = convert (ctx, addr, LLVMPointerType (t, 0));
if (is_unaligned)
mono_llvm_build_aligned_store (builder, srcval, ptrdst, is_volatile, 1);
else
emit_store (ctx, bb, &builder, size, srcval, ptrdst, base, is_faulting, is_volatile);
break;
}
case OP_CHECK_THIS:
emit_load (ctx, bb, &builder, TARGET_SIZEOF_VOID_P, convert (ctx, lhs, LLVMPointerType (IntPtrType (), 0)), lhs, "", TRUE, FALSE, LLVM_BARRIER_NONE);
break;
case OP_OUTARG_VTRETADDR:
break;
case OP_VOIDCALL:
case OP_CALL:
case OP_LCALL:
case OP_FCALL:
case OP_RCALL:
case OP_VCALL:
case OP_VOIDCALL_MEMBASE:
case OP_CALL_MEMBASE:
case OP_LCALL_MEMBASE:
case OP_FCALL_MEMBASE:
case OP_RCALL_MEMBASE:
case OP_VCALL_MEMBASE:
case OP_VOIDCALL_REG:
case OP_CALL_REG:
case OP_LCALL_REG:
case OP_FCALL_REG:
case OP_RCALL_REG:
case OP_VCALL_REG: {
process_call (ctx, bb, &builder, ins);
break;
}
case OP_AOTCONST: {
MonoJumpInfoType ji_type = ins->inst_c1;
gpointer ji_data = ins->inst_p0;
if (ji_type == MONO_PATCH_INFO_ICALL_ADDR) {
char *symbol = mono_aot_get_direct_call_symbol (MONO_PATCH_INFO_ICALL_ADDR_CALL, ji_data);
if (symbol) {
/*
* Avoid emitting a got entry for these since the method is directly called, and it might not be
* resolvable at runtime using dlsym ().
*/
g_free (symbol);
values [ins->dreg] = LLVMConstInt (IntPtrType (), 0, FALSE);
break;
}
}
values [ins->dreg] = get_aotconst (ctx, ji_type, ji_data, LLVMPointerType (IntPtrType (), 0));
break;
}
case OP_MEMMOVE: {
int argn = 0;
LLVMValueRef args [5];
args [argn++] = convert (ctx, values [ins->sreg1], LLVMPointerType (LLVMInt8Type (), 0));
args [argn++] = convert (ctx, values [ins->sreg2], LLVMPointerType (LLVMInt8Type (), 0));
args [argn++] = convert (ctx, values [ins->sreg3], LLVMInt64Type ());
args [argn++] = LLVMConstInt (LLVMInt1Type (), 0, FALSE); // is_volatile
call_intrins (ctx, INTRINS_MEMMOVE, args, "");
break;
}
case OP_NOT_REACHED:
LLVMBuildUnreachable (builder);
has_terminator = TRUE;
g_assert (bb->block_num < cfg->max_block_num);
ctx->unreachable [bb->block_num] = TRUE;
/* Might have instructions after this */
while (ins->next) {
MonoInst *next = ins->next;
/*
* FIXME: If later code uses the regs defined by these instructions,
* compilation will fail.
*/
const char *spec = INS_INFO (next->opcode);
if (spec [MONO_INST_DEST] == 'i' && !MONO_IS_STORE_MEMBASE (next))
ctx->values [next->dreg] = LLVMConstNull (LLVMInt32Type ());
MONO_DELETE_INS (bb, next);
}
break;
case OP_LDADDR: {
MonoInst *var = ins->inst_i0;
MonoClass *klass = var->klass;
if (var->opcode == OP_VTARG_ADDR && !MONO_CLASS_IS_SIMD(cfg, klass)) {
/* The variable contains the vtype address */
values [ins->dreg] = values [var->dreg];
} else if (var->opcode == OP_GSHAREDVT_LOCAL) {
values [ins->dreg] = emit_gsharedvt_ldaddr (ctx, var->dreg);
} else {
values [ins->dreg] = addresses [var->dreg];
}
break;
}
case OP_SIN: {
LLVMValueRef args [1];
args [0] = convert (ctx, lhs, LLVMDoubleType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_SIN, args, dname);
break;
}
case OP_SINF: {
LLVMValueRef args [1];
args [0] = convert (ctx, lhs, LLVMFloatType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_SINF, args, dname);
break;
}
case OP_EXP: {
LLVMValueRef args [1];
args [0] = convert (ctx, lhs, LLVMDoubleType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_EXP, args, dname);
break;
}
case OP_EXPF: {
LLVMValueRef args [1];
args [0] = convert (ctx, lhs, LLVMFloatType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_EXPF, args, dname);
break;
}
case OP_LOG2: {
LLVMValueRef args [1];
args [0] = convert (ctx, lhs, LLVMDoubleType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_LOG2, args, dname);
break;
}
case OP_LOG2F: {
LLVMValueRef args [1];
args [0] = convert (ctx, lhs, LLVMFloatType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_LOG2F, args, dname);
break;
}
case OP_LOG10: {
LLVMValueRef args [1];
args [0] = convert (ctx, lhs, LLVMDoubleType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_LOG10, args, dname);
break;
}
case OP_LOG10F: {
LLVMValueRef args [1];
args [0] = convert (ctx, lhs, LLVMFloatType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_LOG10F, args, dname);
break;
}
case OP_LOG: {
LLVMValueRef args [1];
args [0] = convert (ctx, lhs, LLVMDoubleType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_LOG, args, dname);
break;
}
case OP_TRUNC: {
LLVMValueRef args [1];
args [0] = convert (ctx, lhs, LLVMDoubleType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_TRUNC, args, dname);
break;
}
case OP_TRUNCF: {
LLVMValueRef args [1];
args [0] = convert (ctx, lhs, LLVMFloatType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_TRUNCF, args, dname);
break;
}
case OP_COS: {
LLVMValueRef args [1];
args [0] = convert (ctx, lhs, LLVMDoubleType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_COS, args, dname);
break;
}
case OP_COSF: {
LLVMValueRef args [1];
args [0] = convert (ctx, lhs, LLVMFloatType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_COSF, args, dname);
break;
}
case OP_SQRT: {
LLVMValueRef args [1];
args [0] = convert (ctx, lhs, LLVMDoubleType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_SQRT, args, dname);
break;
}
case OP_SQRTF: {
LLVMValueRef args [1];
args [0] = convert (ctx, lhs, LLVMFloatType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_SQRTF, args, dname);
break;
}
case OP_FLOOR: {
LLVMValueRef args [1];
args [0] = convert (ctx, lhs, LLVMDoubleType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_FLOOR, args, dname);
break;
}
case OP_FLOORF: {
LLVMValueRef args [1];
args [0] = convert (ctx, lhs, LLVMFloatType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_FLOORF, args, dname);
break;
}
case OP_CEIL: {
LLVMValueRef args [1];
args [0] = convert (ctx, lhs, LLVMDoubleType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_CEIL, args, dname);
break;
}
case OP_CEILF: {
LLVMValueRef args [1];
args [0] = convert (ctx, lhs, LLVMFloatType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_CEILF, args, dname);
break;
}
case OP_FMA: {
LLVMValueRef args [3];
args [0] = convert (ctx, values [ins->sreg1], LLVMDoubleType ());
args [1] = convert (ctx, values [ins->sreg2], LLVMDoubleType ());
args [2] = convert (ctx, values [ins->sreg3], LLVMDoubleType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_FMA, args, dname);
break;
}
case OP_FMAF: {
LLVMValueRef args [3];
args [0] = convert (ctx, values [ins->sreg1], LLVMFloatType ());
args [1] = convert (ctx, values [ins->sreg2], LLVMFloatType ());
args [2] = convert (ctx, values [ins->sreg3], LLVMFloatType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_FMAF, args, dname);
break;
}
case OP_ABS: {
LLVMValueRef args [1];
args [0] = convert (ctx, lhs, LLVMDoubleType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_FABS, args, dname);
break;
}
case OP_ABSF: {
LLVMValueRef args [1];
#ifdef TARGET_AMD64
args [0] = convert (ctx, lhs, LLVMFloatType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_ABSF, args, dname);
#else
/* llvm.fabs not supported on all platforms */
args [0] = convert (ctx, lhs, LLVMDoubleType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_FABS, args, dname);
values [ins->dreg] = convert (ctx, values [ins->dreg], LLVMFloatType ());
#endif
break;
}
case OP_RPOW: {
LLVMValueRef args [2];
args [0] = convert (ctx, lhs, LLVMFloatType ());
args [1] = convert (ctx, rhs, LLVMFloatType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_POWF, args, dname);
break;
}
case OP_FPOW: {
LLVMValueRef args [2];
args [0] = convert (ctx, lhs, LLVMDoubleType ());
args [1] = convert (ctx, rhs, LLVMDoubleType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_POW, args, dname);
break;
}
case OP_FCOPYSIGN: {
LLVMValueRef args [2];
args [0] = convert (ctx, lhs, LLVMDoubleType ());
args [1] = convert (ctx, rhs, LLVMDoubleType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_COPYSIGN, args, dname);
break;
}
case OP_RCOPYSIGN: {
LLVMValueRef args [2];
args [0] = convert (ctx, lhs, LLVMFloatType ());
args [1] = convert (ctx, rhs, LLVMFloatType ());
values [ins->dreg] = call_intrins (ctx, INTRINS_COPYSIGNF, args, dname);
break;
}
case OP_IMIN:
case OP_LMIN:
case OP_IMAX:
case OP_LMAX:
case OP_IMIN_UN:
case OP_LMIN_UN:
case OP_IMAX_UN:
case OP_LMAX_UN:
case OP_FMIN:
case OP_FMAX:
case OP_RMIN:
case OP_RMAX: {
LLVMValueRef v;
lhs = convert (ctx, lhs, regtype_to_llvm_type (spec [MONO_INST_DEST]));
rhs = convert (ctx, rhs, regtype_to_llvm_type (spec [MONO_INST_DEST]));
switch (ins->opcode) {
case OP_IMIN:
case OP_LMIN:
v = LLVMBuildICmp (builder, LLVMIntSLE, lhs, rhs, "");
break;
case OP_IMAX:
case OP_LMAX:
v = LLVMBuildICmp (builder, LLVMIntSGE, lhs, rhs, "");
break;
case OP_IMIN_UN:
case OP_LMIN_UN:
v = LLVMBuildICmp (builder, LLVMIntULE, lhs, rhs, "");
break;
case OP_IMAX_UN:
case OP_LMAX_UN:
v = LLVMBuildICmp (builder, LLVMIntUGE, lhs, rhs, "");
break;
case OP_FMAX:
case OP_RMAX:
v = LLVMBuildFCmp (builder, LLVMRealUGE, lhs, rhs, "");
break;
case OP_FMIN:
case OP_RMIN:
v = LLVMBuildFCmp (builder, LLVMRealULE, lhs, rhs, "");
break;
default:
g_assert_not_reached ();
break;
}
values [ins->dreg] = LLVMBuildSelect (builder, v, lhs, rhs, dname);
break;
}
/*
* See the ARM64 comment in mono/utils/atomic.h for an explanation of why this
* hack is necessary (for now).
*/
#ifdef TARGET_ARM64
#define ARM64_ATOMIC_FENCE_FIX mono_llvm_build_fence (builder, LLVM_BARRIER_SEQ)
#else
#define ARM64_ATOMIC_FENCE_FIX
#endif
case OP_ATOMIC_EXCHANGE_I4:
case OP_ATOMIC_EXCHANGE_I8: {
LLVMValueRef args [2];
LLVMTypeRef t;
if (ins->opcode == OP_ATOMIC_EXCHANGE_I4)
t = LLVMInt32Type ();
else
t = LLVMInt64Type ();
g_assert (ins->inst_offset == 0);
args [0] = convert (ctx, lhs, LLVMPointerType (t, 0));
args [1] = convert (ctx, rhs, t);
ARM64_ATOMIC_FENCE_FIX;
values [ins->dreg] = mono_llvm_build_atomic_rmw (builder, LLVM_ATOMICRMW_OP_XCHG, args [0], args [1]);
ARM64_ATOMIC_FENCE_FIX;
break;
}
case OP_ATOMIC_ADD_I4:
case OP_ATOMIC_ADD_I8:
case OP_ATOMIC_AND_I4:
case OP_ATOMIC_AND_I8:
case OP_ATOMIC_OR_I4:
case OP_ATOMIC_OR_I8: {
LLVMValueRef args [2];
LLVMTypeRef t;
if (ins->type == STACK_I4)
t = LLVMInt32Type ();
else
t = LLVMInt64Type ();
g_assert (ins->inst_offset == 0);
args [0] = convert (ctx, lhs, LLVMPointerType (t, 0));
args [1] = convert (ctx, rhs, t);
ARM64_ATOMIC_FENCE_FIX;
if (ins->opcode == OP_ATOMIC_ADD_I4 || ins->opcode == OP_ATOMIC_ADD_I8)
// Interlocked.Add returns new value (that's why we emit additional Add here)
// see https://github.com/dotnet/runtime/pull/33102
values [ins->dreg] = LLVMBuildAdd (builder, mono_llvm_build_atomic_rmw (builder, LLVM_ATOMICRMW_OP_ADD, args [0], args [1]), args [1], dname);
else if (ins->opcode == OP_ATOMIC_AND_I4 || ins->opcode == OP_ATOMIC_AND_I8)
values [ins->dreg] = mono_llvm_build_atomic_rmw (builder, LLVM_ATOMICRMW_OP_AND, args [0], args [1]);
else if (ins->opcode == OP_ATOMIC_OR_I4 || ins->opcode == OP_ATOMIC_OR_I8)
values [ins->dreg] = mono_llvm_build_atomic_rmw (builder, LLVM_ATOMICRMW_OP_OR, args [0], args [1]);
else
g_assert_not_reached ();
ARM64_ATOMIC_FENCE_FIX;
break;
}
case OP_ATOMIC_CAS_I4:
case OP_ATOMIC_CAS_I8: {
LLVMValueRef args [3], val;
LLVMTypeRef t;
if (ins->opcode == OP_ATOMIC_CAS_I4)
t = LLVMInt32Type ();
else
t = LLVMInt64Type ();
args [0] = convert (ctx, lhs, LLVMPointerType (t, 0));
/* comparand */
args [1] = convert (ctx, values [ins->sreg3], t);
/* new value */
args [2] = convert (ctx, values [ins->sreg2], t);
ARM64_ATOMIC_FENCE_FIX;
val = mono_llvm_build_cmpxchg (builder, args [0], args [1], args [2]);
ARM64_ATOMIC_FENCE_FIX;
/* cmpxchg returns a pair */
values [ins->dreg] = LLVMBuildExtractValue (builder, val, 0, "");
break;
}
case OP_MEMORY_BARRIER: {
mono_llvm_build_fence (builder, (BarrierKind) ins->backend.memory_barrier_kind);
break;
}
case OP_ATOMIC_LOAD_I1:
case OP_ATOMIC_LOAD_I2:
case OP_ATOMIC_LOAD_I4:
case OP_ATOMIC_LOAD_I8:
case OP_ATOMIC_LOAD_U1:
case OP_ATOMIC_LOAD_U2:
case OP_ATOMIC_LOAD_U4:
case OP_ATOMIC_LOAD_U8:
case OP_ATOMIC_LOAD_R4:
case OP_ATOMIC_LOAD_R8: {
int size;
gboolean sext, zext;
LLVMTypeRef t;
gboolean is_faulting = (ins->flags & MONO_INST_FAULT) != 0;
gboolean is_volatile = (ins->flags & MONO_INST_VOLATILE) != 0;
BarrierKind barrier = (BarrierKind) ins->backend.memory_barrier_kind;
LLVMValueRef index, addr;
t = load_store_to_llvm_type (ins->opcode, &size, &sext, &zext);
if (sext || zext)
dname = (char *)"";
if (ins->inst_offset != 0) {
index = LLVMConstInt (LLVMInt32Type (), ins->inst_offset / size, FALSE);
addr = LLVMBuildGEP (builder, convert (ctx, lhs, LLVMPointerType (t, 0)), &index, 1, "");
} else {
addr = lhs;
}
addr = convert (ctx, addr, LLVMPointerType (t, 0));
ARM64_ATOMIC_FENCE_FIX;
values [ins->dreg] = emit_load (ctx, bb, &builder, size, addr, lhs, dname, is_faulting, is_volatile, barrier);
ARM64_ATOMIC_FENCE_FIX;
if (sext)
values [ins->dreg] = LLVMBuildSExt (builder, values [ins->dreg], LLVMInt32Type (), dname);
else if (zext)
values [ins->dreg] = LLVMBuildZExt (builder, values [ins->dreg], LLVMInt32Type (), dname);
break;
}
case OP_ATOMIC_STORE_I1:
case OP_ATOMIC_STORE_I2:
case OP_ATOMIC_STORE_I4:
case OP_ATOMIC_STORE_I8:
case OP_ATOMIC_STORE_U1:
case OP_ATOMIC_STORE_U2:
case OP_ATOMIC_STORE_U4:
case OP_ATOMIC_STORE_U8:
case OP_ATOMIC_STORE_R4:
case OP_ATOMIC_STORE_R8: {
int size;
gboolean sext, zext;
LLVMTypeRef t;
gboolean is_faulting = (ins->flags & MONO_INST_FAULT) != 0;
gboolean is_volatile = (ins->flags & MONO_INST_VOLATILE) != 0;
BarrierKind barrier = (BarrierKind) ins->backend.memory_barrier_kind;
LLVMValueRef index, addr, value, base;
if (!values [ins->inst_destbasereg]) {
set_failure (ctx, "inst_destbasereg");
break;
}
t = load_store_to_llvm_type (ins->opcode, &size, &sext, &zext);
base = values [ins->inst_destbasereg];
index = LLVMConstInt (LLVMInt32Type (), ins->inst_offset / size, FALSE);
addr = LLVMBuildGEP (builder, convert (ctx, base, LLVMPointerType (t, 0)), &index, 1, "");
value = convert (ctx, values [ins->sreg1], t);
ARM64_ATOMIC_FENCE_FIX;
emit_store_general (ctx, bb, &builder, size, value, addr, base, is_faulting, is_volatile, barrier);
ARM64_ATOMIC_FENCE_FIX;
break;
}
case OP_RELAXED_NOP: {
#if defined(TARGET_AMD64) || defined(TARGET_X86)
call_intrins (ctx, INTRINS_SSE_PAUSE, NULL, "");
break;
#else
break;
#endif
}
case OP_TLS_GET: {
#if (defined(TARGET_AMD64) || defined(TARGET_X86)) && defined(__linux__)
#ifdef TARGET_AMD64
// 257 == FS segment register
LLVMTypeRef ptrtype = LLVMPointerType (IntPtrType (), 257);
#else
// 256 == GS segment register
LLVMTypeRef ptrtype = LLVMPointerType (IntPtrType (), 256);
#endif
// FIXME: XEN
values [ins->dreg] = LLVMBuildLoad (builder, LLVMBuildIntToPtr (builder, LLVMConstInt (IntPtrType (), ins->inst_offset, TRUE), ptrtype, ""), "");
#elif defined(TARGET_AMD64) && defined(TARGET_OSX)
/* See mono_amd64_emit_tls_get () */
int offset = mono_amd64_get_tls_gs_offset () + (ins->inst_offset * 8);
// 256 == GS segment register
LLVMTypeRef ptrtype = LLVMPointerType (IntPtrType (), 256);
values [ins->dreg] = LLVMBuildLoad (builder, LLVMBuildIntToPtr (builder, LLVMConstInt (IntPtrType (), offset, TRUE), ptrtype, ""), "");
#else
set_failure (ctx, "opcode tls-get");
break;
#endif
break;
}
case OP_GC_SAFE_POINT: {
LLVMValueRef val, cmp, callee, call;
LLVMBasicBlockRef poll_bb, cont_bb;
LLVMValueRef args [2];
static LLVMTypeRef sig;
const char *icall_name = "mono_threads_state_poll";
/*
* Create the cold wrapper around the icall, along with a managed method for it so
* unwinding works.
*/
if (!cfg->compile_aot && !ctx->module->gc_poll_cold_wrapper_compiled) {
ERROR_DECL (error);
/* Compiling a method here is a bit ugly, but it works */
MonoMethod *wrapper = mono_marshal_get_llvm_func_wrapper (LLVM_FUNC_WRAPPER_GC_POLL);
ctx->module->gc_poll_cold_wrapper_compiled = mono_jit_compile_method (wrapper, error);
mono_error_assert_ok (error);
}
if (!sig)
sig = LLVMFunctionType0 (LLVMVoidType (), FALSE);
/*
* if (!*sreg1)
* mono_threads_state_poll ();
*/
val = mono_llvm_build_load (builder, convert (ctx, lhs, LLVMPointerType (IntPtrType (), 0)), "", TRUE);
cmp = LLVMBuildICmp (builder, LLVMIntEQ, val, LLVMConstNull (LLVMTypeOf (val)), "");
poll_bb = gen_bb (ctx, "POLL_BB");
cont_bb = gen_bb (ctx, "CONT_BB");
args [0] = cmp;
args [1] = LLVMConstInt (LLVMInt1Type (), 1, FALSE);
cmp = call_intrins (ctx, INTRINS_EXPECT_I1, args, "");
mono_llvm_build_weighted_branch (builder, cmp, cont_bb, poll_bb, 1000, 1);
ctx->builder = builder = create_builder (ctx);
LLVMPositionBuilderAtEnd (builder, poll_bb);
if (ctx->cfg->compile_aot) {
callee = get_callee (ctx, sig, MONO_PATCH_INFO_JIT_ICALL_ID, GUINT_TO_POINTER (MONO_JIT_ICALL_mono_threads_state_poll));
call = LLVMBuildCall (builder, callee, NULL, 0, "");
} else {
callee = get_jit_callee (ctx, icall_name, sig, MONO_PATCH_INFO_ABS, ctx->module->gc_poll_cold_wrapper_compiled);
call = LLVMBuildCall (builder, callee, NULL, 0, "");
set_call_cold_cconv (call);
}
LLVMBuildBr (builder, cont_bb);
ctx->builder = builder = create_builder (ctx);
LLVMPositionBuilderAtEnd (builder, cont_bb);
ctx->bblocks [bb->block_num].end_bblock = cont_bb;
break;
}
/*
* Overflow opcodes.
*/
case OP_IADD_OVF:
case OP_IADD_OVF_UN:
case OP_ISUB_OVF:
case OP_ISUB_OVF_UN:
case OP_IMUL_OVF:
case OP_IMUL_OVF_UN:
case OP_LADD_OVF:
case OP_LADD_OVF_UN:
case OP_LSUB_OVF:
case OP_LSUB_OVF_UN:
case OP_LMUL_OVF:
case OP_LMUL_OVF_UN: {
LLVMValueRef args [2], val, ovf;
IntrinsicId intrins;
args [0] = convert (ctx, lhs, op_to_llvm_type (ins->opcode));
args [1] = convert (ctx, rhs, op_to_llvm_type (ins->opcode));
intrins = ovf_op_to_intrins (ins->opcode);
val = call_intrins (ctx, intrins, args, "");
values [ins->dreg] = LLVMBuildExtractValue (builder, val, 0, dname);
ovf = LLVMBuildExtractValue (builder, val, 1, "");
emit_cond_system_exception (ctx, bb, ins->inst_exc_name, ovf, FALSE);
if (!ctx_ok (ctx))
break;
builder = ctx->builder;
break;
}
/*
* Valuetypes.
* We currently model them using arrays. Promotion to local vregs is
* disabled for them in mono_handle_global_vregs () in the LLVM case,
* so we always have an entry in cfg->varinfo for them.
* FIXME: Is this needed ?
*/
case OP_VZERO: {
MonoClass *klass = ins->klass;
if (!klass) {
// FIXME:
set_failure (ctx, "!klass");
break;
}
if (!addresses [ins->dreg])
addresses [ins->dreg] = build_named_alloca (ctx, m_class_get_byval_arg (klass), "vzero");
LLVMValueRef ptr = LLVMBuildBitCast (builder, addresses [ins->dreg], LLVMPointerType (LLVMInt8Type (), 0), "");
emit_memset (ctx, builder, ptr, const_int32 (mono_class_value_size (klass, NULL)), 0);
break;
}
case OP_DUMMY_VZERO:
break;
case OP_STOREV_MEMBASE:
case OP_LOADV_MEMBASE:
case OP_VMOVE: {
MonoClass *klass = ins->klass;
LLVMValueRef src = NULL, dst, args [5];
gboolean done = FALSE;
gboolean is_volatile = FALSE;
if (!klass) {
// FIXME:
set_failure (ctx, "!klass");
break;
}
if (mini_is_gsharedvt_klass (klass)) {
// FIXME:
set_failure (ctx, "gsharedvt");
break;
}
switch (ins->opcode) {
case OP_STOREV_MEMBASE:
if (cfg->gen_write_barriers && m_class_has_references (klass) && ins->inst_destbasereg != cfg->frame_reg &&
LLVMGetInstructionOpcode (values [ins->inst_destbasereg]) != LLVMAlloca) {
/* Decomposed earlier */
g_assert_not_reached ();
break;
}
if (!addresses [ins->sreg1]) {
/* SIMD */
g_assert (values [ins->sreg1]);
dst = convert (ctx, LLVMBuildAdd (builder, convert (ctx, values [ins->inst_destbasereg], IntPtrType ()), LLVMConstInt (IntPtrType (), ins->inst_offset, FALSE), ""), LLVMPointerType (type_to_llvm_type (ctx, m_class_get_byval_arg (klass)), 0));
LLVMBuildStore (builder, values [ins->sreg1], dst);
done = TRUE;
} else {
src = LLVMBuildBitCast (builder, addresses [ins->sreg1], LLVMPointerType (LLVMInt8Type (), 0), "");
dst = convert (ctx, LLVMBuildAdd (builder, convert (ctx, values [ins->inst_destbasereg], IntPtrType ()), LLVMConstInt (IntPtrType (), ins->inst_offset, FALSE), ""), LLVMPointerType (LLVMInt8Type (), 0));
}
break;
case OP_LOADV_MEMBASE:
if (!addresses [ins->dreg])
addresses [ins->dreg] = build_alloca (ctx, m_class_get_byval_arg (klass));
src = convert (ctx, LLVMBuildAdd (builder, convert (ctx, values [ins->inst_basereg], IntPtrType ()), LLVMConstInt (IntPtrType (), ins->inst_offset, FALSE), ""), LLVMPointerType (LLVMInt8Type (), 0));
dst = LLVMBuildBitCast (builder, addresses [ins->dreg], LLVMPointerType (LLVMInt8Type (), 0), "");
break;
case OP_VMOVE:
if (!addresses [ins->sreg1])
addresses [ins->sreg1] = build_alloca (ctx, m_class_get_byval_arg (klass));
if (!addresses [ins->dreg])
addresses [ins->dreg] = build_alloca (ctx, m_class_get_byval_arg (klass));
src = LLVMBuildBitCast (builder, addresses [ins->sreg1], LLVMPointerType (LLVMInt8Type (), 0), "");
dst = LLVMBuildBitCast (builder, addresses [ins->dreg], LLVMPointerType (LLVMInt8Type (), 0), "");
break;
default:
g_assert_not_reached ();
}
if (!ctx_ok (ctx))
break;
if (done)
break;
#ifdef TARGET_WASM
is_volatile = m_class_has_references (klass);
#endif
int aindex = 0;
args [aindex ++] = dst;
args [aindex ++] = src;
args [aindex ++] = LLVMConstInt (LLVMInt32Type (), mono_class_value_size (klass, NULL), FALSE);
args [aindex ++] = LLVMConstInt (LLVMInt1Type (), is_volatile ? 1 : 0, FALSE);
call_intrins (ctx, INTRINS_MEMCPY, args, "");
break;
}
case OP_LLVM_OUTARG_VT: {
LLVMArgInfo *ainfo = (LLVMArgInfo*)ins->inst_p0;
MonoType *t = mini_get_underlying_type (ins->inst_vtype);
if (ainfo->storage == LLVMArgGsharedvtVariable) {
MonoInst *var = get_vreg_to_inst (cfg, ins->sreg1);
if (var && var->opcode == OP_GSHAREDVT_LOCAL) {
addresses [ins->dreg] = convert (ctx, emit_gsharedvt_ldaddr (ctx, var->dreg), LLVMPointerType (IntPtrType (), 0));
} else {
g_assert (addresses [ins->sreg1]);
addresses [ins->dreg] = addresses [ins->sreg1];
}
} else if (ainfo->storage == LLVMArgGsharedvtFixed) {
if (!addresses [ins->sreg1]) {
addresses [ins->sreg1] = build_alloca (ctx, t);
g_assert (values [ins->sreg1]);
}
LLVMBuildStore (builder, convert (ctx, values [ins->sreg1], LLVMGetElementType (LLVMTypeOf (addresses [ins->sreg1]))), addresses [ins->sreg1]);
addresses [ins->dreg] = addresses [ins->sreg1];
} else {
if (!addresses [ins->sreg1]) {
addresses [ins->sreg1] = build_named_alloca (ctx, t, "llvm_outarg_vt");
g_assert (values [ins->sreg1]);
LLVMBuildStore (builder, convert (ctx, values [ins->sreg1], type_to_llvm_type (ctx, t)), addresses [ins->sreg1]);
addresses [ins->dreg] = addresses [ins->sreg1];
} else if (ainfo->storage == LLVMArgVtypeAddr || values [ins->sreg1] == addresses [ins->sreg1]) {
/* LLVMArgVtypeByRef/LLVMArgVtypeAddr, have to make a copy */
addresses [ins->dreg] = build_alloca (ctx, t);
LLVMValueRef v = LLVMBuildLoad (builder, addresses [ins->sreg1], "llvm_outarg_vt_copy");
LLVMBuildStore (builder, convert (ctx, v, type_to_llvm_type (ctx, t)), addresses [ins->dreg]);
} else {
if (values [ins->sreg1]) {
LLVMTypeRef src_t = LLVMTypeOf (values [ins->sreg1]);
LLVMValueRef dst = convert (ctx, addresses [ins->sreg1], LLVMPointerType (src_t, 0));
LLVMBuildStore (builder, values [ins->sreg1], dst);
}
addresses [ins->dreg] = addresses [ins->sreg1];
}
}
break;
}
case OP_OBJC_GET_SELECTOR: {
const char *name = (const char*)ins->inst_p0;
LLVMValueRef var;
if (!ctx->module->objc_selector_to_var) {
ctx->module->objc_selector_to_var = g_hash_table_new_full (g_str_hash, g_str_equal, g_free, NULL);
LLVMValueRef info_var = LLVMAddGlobal (ctx->lmodule, LLVMArrayType (LLVMInt8Type (), 8), "@OBJC_IMAGE_INFO");
int32_t objc_imageinfo [] = { 0, 16 };
LLVMSetInitializer (info_var, mono_llvm_create_constant_data_array ((uint8_t *) &objc_imageinfo, 8));
LLVMSetLinkage (info_var, LLVMPrivateLinkage);
LLVMSetExternallyInitialized (info_var, TRUE);
LLVMSetSection (info_var, "__DATA, __objc_imageinfo,regular,no_dead_strip");
LLVMSetAlignment (info_var, sizeof (target_mgreg_t));
mark_as_used (ctx->module, info_var);
}
var = (LLVMValueRef)g_hash_table_lookup (ctx->module->objc_selector_to_var, name);
if (!var) {
LLVMValueRef indexes [16];
LLVMValueRef name_var = LLVMAddGlobal (ctx->lmodule, LLVMArrayType (LLVMInt8Type (), strlen (name) + 1), "@OBJC_METH_VAR_NAME_");
LLVMSetInitializer (name_var, mono_llvm_create_constant_data_array ((const uint8_t*)name, strlen (name) + 1));
LLVMSetLinkage (name_var, LLVMPrivateLinkage);
LLVMSetSection (name_var, "__TEXT,__objc_methname,cstring_literals");
mark_as_used (ctx->module, name_var);
LLVMValueRef ref_var = LLVMAddGlobal (ctx->lmodule, LLVMPointerType (LLVMInt8Type (), 0), "@OBJC_SELECTOR_REFERENCES_");
indexes [0] = LLVMConstInt (LLVMInt32Type (), 0, 0);
indexes [1] = LLVMConstInt (LLVMInt32Type (), 0, 0);
LLVMSetInitializer (ref_var, LLVMConstGEP (name_var, indexes, 2));
LLVMSetLinkage (ref_var, LLVMPrivateLinkage);
LLVMSetExternallyInitialized (ref_var, TRUE);
LLVMSetSection (ref_var, "__DATA, __objc_selrefs, literal_pointers, no_dead_strip");
LLVMSetAlignment (ref_var, sizeof (target_mgreg_t));
mark_as_used (ctx->module, ref_var);
g_hash_table_insert (ctx->module->objc_selector_to_var, g_strdup (name), ref_var);
var = ref_var;
}
values [ins->dreg] = LLVMBuildLoad (builder, var, "");
break;
}
#if defined(TARGET_X86) || defined(TARGET_AMD64) || defined(TARGET_ARM64) || defined(TARGET_WASM)
case OP_EXTRACTX_U2:
case OP_XEXTRACT_I1:
case OP_XEXTRACT_I2:
case OP_XEXTRACT_I4:
case OP_XEXTRACT_I8:
case OP_XEXTRACT_R4:
case OP_XEXTRACT_R8:
case OP_EXTRACT_I1:
case OP_EXTRACT_I2:
case OP_EXTRACT_I4:
case OP_EXTRACT_I8:
case OP_EXTRACT_R4:
case OP_EXTRACT_R8: {
MonoTypeEnum mono_elt_t = inst_c1_type (ins);
LLVMTypeRef elt_t = primitive_type_to_llvm_type (mono_elt_t);
gboolean sext = FALSE;
gboolean zext = FALSE;
switch (mono_elt_t) {
case MONO_TYPE_I1: case MONO_TYPE_I2: sext = TRUE; break;
case MONO_TYPE_U1: case MONO_TYPE_U2: zext = TRUE; break;
}
LLVMValueRef element_ix = NULL;
switch (ins->opcode) {
case OP_XEXTRACT_I1:
case OP_XEXTRACT_I2:
case OP_XEXTRACT_I4:
case OP_XEXTRACT_R4:
case OP_XEXTRACT_R8:
case OP_XEXTRACT_I8:
element_ix = rhs;
break;
default:
element_ix = const_int32 (ins->inst_c0);
}
LLVMTypeRef lhs_t = LLVMTypeOf (lhs);
int vec_width = mono_llvm_get_prim_size_bits (lhs_t);
int elem_width = mono_llvm_get_prim_size_bits (elt_t);
int elements = vec_width / elem_width;
element_ix = LLVMBuildAnd (builder, element_ix, const_int32 (elements - 1), "extract");
LLVMTypeRef ret_t = LLVMVectorType (elt_t, elements);
LLVMValueRef src = LLVMBuildBitCast (builder, lhs, ret_t, "extract");
LLVMValueRef result = LLVMBuildExtractElement (builder, src, element_ix, "extract");
if (zext)
result = LLVMBuildZExt (builder, result, i4_t, "extract_zext");
else if (sext)
result = LLVMBuildSExt (builder, result, i4_t, "extract_sext");
values [ins->dreg] = result;
break;
}
case OP_XINSERT_I1:
case OP_XINSERT_I2:
case OP_XINSERT_I4:
case OP_XINSERT_I8:
case OP_XINSERT_R4:
case OP_XINSERT_R8: {
MonoTypeEnum primty = inst_c1_type (ins);
LLVMTypeRef ret_t = simd_class_to_llvm_type (ctx, ins->klass);
LLVMTypeRef elem_t = LLVMGetElementType (ret_t);
int elements = LLVMGetVectorSize (ret_t);
LLVMValueRef element_ix = LLVMBuildAnd (builder, arg3, const_int32 (elements - 1), "xinsert");
LLVMValueRef vec = convert (ctx, lhs, ret_t);
LLVMValueRef val = convert_full (ctx, rhs, elem_t, primitive_type_is_unsigned (primty));
LLVMValueRef result = LLVMBuildInsertElement (builder, vec, val, element_ix, "xinsert");
values [ins->dreg] = result;
break;
}
case OP_EXPAND_I1:
case OP_EXPAND_I2:
case OP_EXPAND_I4:
case OP_EXPAND_I8:
case OP_EXPAND_R4:
case OP_EXPAND_R8: {
LLVMTypeRef t;
LLVMValueRef mask [MAX_VECTOR_ELEMS], v;
int i;
t = simd_class_to_llvm_type (ctx, ins->klass);
for (i = 0; i < MAX_VECTOR_ELEMS; ++i)
mask [i] = LLVMConstInt (LLVMInt32Type (), 0, FALSE);
v = convert (ctx, values [ins->sreg1], LLVMGetElementType (t));
values [ins->dreg] = LLVMBuildInsertElement (builder, LLVMConstNull (t), v, LLVMConstInt (LLVMInt32Type (), 0, FALSE), "");
values [ins->dreg] = LLVMBuildShuffleVector (builder, values [ins->dreg], LLVMGetUndef (t), LLVMConstVector (mask, LLVMGetVectorSize (t)), "");
break;
}
case OP_XZERO: {
values [ins->dreg] = LLVMConstNull (type_to_llvm_type (ctx, m_class_get_byval_arg (ins->klass)));
break;
}
case OP_XONES: {
values [ins->dreg] = LLVMConstAllOnes (type_to_llvm_type (ctx, m_class_get_byval_arg (ins->klass)));
break;
}
case OP_LOADX_MEMBASE: {
LLVMTypeRef t = type_to_llvm_type (ctx, m_class_get_byval_arg (ins->klass));
LLVMValueRef src;
src = convert (ctx, LLVMBuildAdd (builder, convert (ctx, values [ins->inst_basereg], IntPtrType ()), LLVMConstInt (IntPtrType (), ins->inst_offset, FALSE), ""), LLVMPointerType (t, 0));
values [ins->dreg] = mono_llvm_build_aligned_load (builder, src, "", FALSE, 1);
break;
}
case OP_STOREX_MEMBASE: {
LLVMTypeRef t = LLVMTypeOf (values [ins->sreg1]);
LLVMValueRef dest;
dest = convert (ctx, LLVMBuildAdd (builder, convert (ctx, values [ins->inst_destbasereg], IntPtrType ()), LLVMConstInt (IntPtrType (), ins->inst_offset, FALSE), ""), LLVMPointerType (t, 0));
mono_llvm_build_aligned_store (builder, values [ins->sreg1], dest, FALSE, 1);
break;
}
case OP_XBINOP:
case OP_XBINOP_SCALAR:
case OP_XBINOP_BYSCALAR: {
gboolean scalar = ins->opcode == OP_XBINOP_SCALAR;
gboolean byscalar = ins->opcode == OP_XBINOP_BYSCALAR;
LLVMValueRef result = NULL;
LLVMValueRef args [] = { lhs, rhs };
if (scalar)
for (int i = 0; i < 2; ++i)
args [i] = scalar_from_vector (ctx, args [i]);
if (byscalar) {
LLVMTypeRef t = LLVMTypeOf (args [0]);
unsigned int elems = LLVMGetVectorSize (t);
args [1] = broadcast_element (ctx, scalar_from_vector (ctx, args [1]), elems);
}
LLVMValueRef l = args [0];
LLVMValueRef r = args [1];
switch (ins->inst_c0) {
case OP_IADD:
result = LLVMBuildAdd (builder, l, r, "");
break;
case OP_ISUB:
result = LLVMBuildSub (builder, l, r, "");
break;
case OP_IMUL:
result = LLVMBuildMul (builder, l, r, "");
break;
case OP_IAND:
result = LLVMBuildAnd (builder, l, r, "");
break;
case OP_IOR:
result = LLVMBuildOr (builder, l, r, "");
break;
case OP_IXOR:
result = LLVMBuildXor (builder, l, r, "");
break;
case OP_FADD:
result = LLVMBuildFAdd (builder, l, r, "");
break;
case OP_FSUB:
result = LLVMBuildFSub (builder, l, r, "");
break;
case OP_FMUL:
result = LLVMBuildFMul (builder, l, r, "");
break;
case OP_FDIV:
result = LLVMBuildFDiv (builder, l, r, "");
break;
case OP_FMAX:
case OP_FMIN: {
#if defined(TARGET_X86) || defined(TARGET_AMD64)
LLVMValueRef args [] = { l, r };
LLVMTypeRef t = LLVMTypeOf (l);
LLVMTypeRef elem_t = LLVMGetElementType (t);
unsigned int elems = LLVMGetVectorSize (t);
unsigned int elem_bits = mono_llvm_get_prim_size_bits (elem_t);
unsigned int v_size = elems * elem_bits;
if (v_size == 128) {
gboolean is_r4 = ins->inst_c1 == MONO_TYPE_R4;
int iid = -1;
if (ins->inst_c0 == OP_FMAX) {
if (elems == 1)
iid = is_r4 ? INTRINS_SSE_MAXSS : INTRINS_SSE_MAXSD;
else
iid = is_r4 ? INTRINS_SSE_MAXPS : INTRINS_SSE_MAXPD;
} else {
if (elems == 1)
iid = is_r4 ? INTRINS_SSE_MINSS : INTRINS_SSE_MINSD;
else
iid = is_r4 ? INTRINS_SSE_MINPS : INTRINS_SSE_MINPD;
}
result = call_intrins (ctx, iid, args, dname);
} else {
LLVMRealPredicate op = ins->inst_c0 == OP_FMAX ? LLVMRealUGE : LLVMRealULE;
LLVMValueRef cmp = LLVMBuildFCmp (builder, op, l, r, "");
result = LLVMBuildSelect (builder, cmp, l, r, "");
}
#elif defined(TARGET_ARM64)
LLVMValueRef args [] = { l, r };
IntrinsicId iid = ins->inst_c0 == OP_FMAX ? INTRINS_AARCH64_ADV_SIMD_FMAX : INTRINS_AARCH64_ADV_SIMD_FMIN;
llvm_ovr_tag_t ovr_tag = ovr_tag_from_mono_vector_class (ins->klass);
result = call_overloaded_intrins (ctx, iid, ovr_tag, args, "");
#else
NOT_IMPLEMENTED;
#endif
break;
}
case OP_IMAX:
case OP_IMIN: {
gboolean is_unsigned = ins->inst_c1 == MONO_TYPE_U1 || ins->inst_c1 == MONO_TYPE_U2 || ins->inst_c1 == MONO_TYPE_U4 || ins->inst_c1 == MONO_TYPE_U8;
LLVMIntPredicate op;
switch (ins->inst_c0) {
case OP_IMAX:
op = is_unsigned ? LLVMIntUGT : LLVMIntSGT;
break;
case OP_IMIN:
op = is_unsigned ? LLVMIntULT : LLVMIntSLT;
break;
default:
g_assert_not_reached ();
}
#if defined(TARGET_ARM64)
if ((ins->inst_c1 == MONO_TYPE_U8) || (ins->inst_c1 == MONO_TYPE_I8)) {
LLVMValueRef cmp = LLVMBuildICmp (builder, op, l, r, "");
result = LLVMBuildSelect (builder, cmp, l, r, "");
} else {
IntrinsicId iid;
switch (ins->inst_c0) {
case OP_IMAX:
iid = is_unsigned ? INTRINS_AARCH64_ADV_SIMD_UMAX : INTRINS_AARCH64_ADV_SIMD_SMAX;
break;
case OP_IMIN:
iid = is_unsigned ? INTRINS_AARCH64_ADV_SIMD_UMIN : INTRINS_AARCH64_ADV_SIMD_SMIN;
break;
default:
g_assert_not_reached ();
}
LLVMValueRef args [] = { l, r };
llvm_ovr_tag_t ovr_tag = ovr_tag_from_mono_vector_class (ins->klass);
result = call_overloaded_intrins (ctx, iid, ovr_tag, args, "");
}
#else
LLVMValueRef cmp = LLVMBuildICmp (builder, op, l, r, "");
result = LLVMBuildSelect (builder, cmp, l, r, "");
#endif
break;
}
default:
g_assert_not_reached ();
}
if (scalar)
result = vector_from_scalar (ctx, LLVMTypeOf (lhs), result);
values [ins->dreg] = result;
break;
}
case OP_XBINOP_FORCEINT: {
LLVMTypeRef t = LLVMTypeOf (lhs);
LLVMTypeRef elem_t = LLVMGetElementType (t);
unsigned int elems = LLVMGetVectorSize (t);
unsigned int elem_bits = mono_llvm_get_prim_size_bits (elem_t);
LLVMTypeRef intermediate_elem_t = LLVMIntType (elem_bits);
LLVMTypeRef intermediate_t = LLVMVectorType (intermediate_elem_t, elems);
LLVMValueRef lhs_int = convert (ctx, lhs, intermediate_t);
LLVMValueRef rhs_int = convert (ctx, rhs, intermediate_t);
LLVMValueRef result = NULL;
switch (ins->inst_c0) {
case XBINOP_FORCEINT_AND:
result = LLVMBuildAnd (builder, lhs_int, rhs_int, "");
break;
case XBINOP_FORCEINT_OR:
result = LLVMBuildOr (builder, lhs_int, rhs_int, "");
break;
case XBINOP_FORCEINT_ORNOT:
result = LLVMBuildNot (builder, rhs_int, "");
result = LLVMBuildOr (builder, result, lhs_int, "");
break;
case XBINOP_FORCEINT_XOR:
result = LLVMBuildXor (builder, lhs_int, rhs_int, "");
break;
}
values [ins->dreg] = LLVMBuildBitCast (builder, result, t, "");
break;
}
case OP_CREATE_SCALAR:
case OP_CREATE_SCALAR_UNSAFE: {
MonoTypeEnum primty = inst_c1_type (ins);
LLVMTypeRef type = simd_class_to_llvm_type (ctx, ins->klass);
// use undef vector (most likely empty but may contain garbage values) for OP_CREATE_SCALAR_UNSAFE
// and zero one for OP_CREATE_SCALAR
LLVMValueRef vector = (ins->opcode == OP_CREATE_SCALAR) ? LLVMConstNull (type) : LLVMGetUndef (type);
LLVMValueRef val = convert_full (ctx, lhs, primitive_type_to_llvm_type (primty), primitive_type_is_unsigned (primty));
values [ins->dreg] = LLVMBuildInsertElement (builder, vector, val, const_int32 (0), "");
break;
}
case OP_INSERT_I1:
values [ins->dreg] = LLVMBuildInsertElement (builder, values [ins->sreg1], convert (ctx, values [ins->sreg2], LLVMInt8Type ()), LLVMConstInt (LLVMInt32Type (), ins->inst_c0, FALSE), dname);
break;
case OP_INSERT_I2:
values [ins->dreg] = LLVMBuildInsertElement (builder, values [ins->sreg1], convert (ctx, values [ins->sreg2], LLVMInt16Type ()), LLVMConstInt (LLVMInt32Type (), ins->inst_c0, FALSE), dname);
break;
case OP_INSERT_I4:
values [ins->dreg] = LLVMBuildInsertElement (builder, values [ins->sreg1], convert (ctx, values [ins->sreg2], LLVMInt32Type ()), LLVMConstInt (LLVMInt32Type (), ins->inst_c0, FALSE), dname);
break;
case OP_INSERT_I8:
values [ins->dreg] = LLVMBuildInsertElement (builder, values [ins->sreg1], convert (ctx, values [ins->sreg2], LLVMInt64Type ()), LLVMConstInt (LLVMInt32Type (), ins->inst_c0, FALSE), dname);
break;
case OP_INSERT_R4:
values [ins->dreg] = LLVMBuildInsertElement (builder, values [ins->sreg1], convert (ctx, values [ins->sreg2], LLVMFloatType ()), LLVMConstInt (LLVMInt32Type (), ins->inst_c0, FALSE), dname);
break;
case OP_INSERT_R8:
values [ins->dreg] = LLVMBuildInsertElement (builder, values [ins->sreg1], convert (ctx, values [ins->sreg2], LLVMDoubleType ()), LLVMConstInt (LLVMInt32Type (), ins->inst_c0, FALSE), dname);
break;
case OP_XCAST: {
LLVMTypeRef t = simd_class_to_llvm_type (ctx, ins->klass);
values [ins->dreg] = LLVMBuildBitCast (builder, lhs, t, "");
break;
}
case OP_XCONCAT: {
values [ins->dreg] = concatenate_vectors (ctx, lhs, rhs);
break;
}
case OP_XINSERT_LOWER:
case OP_XINSERT_UPPER: {
const char *oname = ins->opcode == OP_XINSERT_LOWER ? "xinsert_lower" : "xinsert_upper";
int ix = ins->opcode == OP_XINSERT_LOWER ? 0 : 1;
LLVMTypeRef src_t = LLVMTypeOf (lhs);
unsigned int width = mono_llvm_get_prim_size_bits (src_t);
LLVMTypeRef int_t = LLVMIntType (width / 2);
LLVMTypeRef intvec_t = LLVMVectorType (int_t, 2);
LLVMValueRef insval = LLVMBuildBitCast (builder, rhs, int_t, oname);
LLVMValueRef val = LLVMBuildBitCast (builder, lhs, intvec_t, oname);
val = LLVMBuildInsertElement (builder, val, insval, const_int32 (ix), oname);
val = LLVMBuildBitCast (builder, val, src_t, oname);
values [ins->dreg] = val;
break;
}
case OP_XLOWER:
case OP_XUPPER: {
const char *oname = ins->opcode == OP_XLOWER ? "xlower" : "xupper";
LLVMTypeRef src_t = LLVMTypeOf (lhs);
unsigned int elems = LLVMGetVectorSize (src_t);
g_assert (elems >= 2 && elems <= MAX_VECTOR_ELEMS);
unsigned int ret_elems = elems / 2;
int startix = ins->opcode == OP_XLOWER ? 0 : ret_elems;
LLVMValueRef val = LLVMBuildShuffleVector (builder, lhs, LLVMGetUndef (src_t), create_const_vector_i32 (&mask_0_incr_1 [startix], ret_elems), oname);
values [ins->dreg] = val;
break;
}
case OP_XWIDEN:
case OP_XWIDEN_UNSAFE: {
const char *oname = ins->opcode == OP_XWIDEN ? "xwiden" : "xwiden_unsafe";
LLVMTypeRef src_t = LLVMTypeOf (lhs);
unsigned int elems = LLVMGetVectorSize (src_t);
g_assert (elems <= MAX_VECTOR_ELEMS / 2);
unsigned int ret_elems = elems * 2;
LLVMValueRef upper = ins->opcode == OP_XWIDEN ? LLVMConstNull (src_t) : LLVMGetUndef (src_t);
LLVMValueRef val = LLVMBuildShuffleVector (builder, lhs, upper, create_const_vector_i32 (mask_0_incr_1, ret_elems), oname);
values [ins->dreg] = val;
break;
}
#endif // defined(TARGET_X86) || defined(TARGET_AMD64) || defined(TARGET_ARM64) || defined(TARGET_WASM)
#if defined(TARGET_X86) || defined(TARGET_AMD64) || defined(TARGET_WASM)
case OP_PADDB:
case OP_PADDW:
case OP_PADDD:
case OP_PADDQ:
values [ins->dreg] = LLVMBuildAdd (builder, lhs, rhs, "");
break;
case OP_ADDPD:
case OP_ADDPS:
values [ins->dreg] = LLVMBuildFAdd (builder, lhs, rhs, "");
break;
case OP_PSUBB:
case OP_PSUBW:
case OP_PSUBD:
case OP_PSUBQ:
values [ins->dreg] = LLVMBuildSub (builder, lhs, rhs, "");
break;
case OP_SUBPD:
case OP_SUBPS:
values [ins->dreg] = LLVMBuildFSub (builder, lhs, rhs, "");
break;
case OP_MULPD:
case OP_MULPS:
values [ins->dreg] = LLVMBuildFMul (builder, lhs, rhs, "");
break;
case OP_DIVPD:
case OP_DIVPS:
values [ins->dreg] = LLVMBuildFDiv (builder, lhs, rhs, "");
break;
case OP_PAND:
values [ins->dreg] = LLVMBuildAnd (builder, lhs, rhs, "");
break;
case OP_POR:
values [ins->dreg] = LLVMBuildOr (builder, lhs, rhs, "");
break;
case OP_PXOR:
values [ins->dreg] = LLVMBuildXor (builder, lhs, rhs, "");
break;
case OP_PMULW:
case OP_PMULD:
values [ins->dreg] = LLVMBuildMul (builder, lhs, rhs, "");
break;
case OP_ANDPS:
case OP_ANDNPS:
case OP_ORPS:
case OP_XORPS:
case OP_ANDPD:
case OP_ANDNPD:
case OP_ORPD:
case OP_XORPD: {
LLVMTypeRef t, rt;
LLVMValueRef v = NULL;
switch (ins->opcode) {
case OP_ANDPS:
case OP_ANDNPS:
case OP_ORPS:
case OP_XORPS:
t = LLVMVectorType (LLVMInt32Type (), 4);
rt = LLVMVectorType (LLVMFloatType (), 4);
break;
case OP_ANDPD:
case OP_ANDNPD:
case OP_ORPD:
case OP_XORPD:
t = LLVMVectorType (LLVMInt64Type (), 2);
rt = LLVMVectorType (LLVMDoubleType (), 2);
break;
default:
t = LLVMInt32Type ();
rt = LLVMInt32Type ();
g_assert_not_reached ();
}
lhs = LLVMBuildBitCast (builder, lhs, t, "");
rhs = LLVMBuildBitCast (builder, rhs, t, "");
switch (ins->opcode) {
case OP_ANDPS:
case OP_ANDPD:
v = LLVMBuildAnd (builder, lhs, rhs, "");
break;
case OP_ORPS:
case OP_ORPD:
v = LLVMBuildOr (builder, lhs, rhs, "");
break;
case OP_XORPS:
case OP_XORPD:
v = LLVMBuildXor (builder, lhs, rhs, "");
break;
case OP_ANDNPS:
case OP_ANDNPD:
v = LLVMBuildAnd (builder, rhs, LLVMBuildNot (builder, lhs, ""), "");
break;
}
values [ins->dreg] = LLVMBuildBitCast (builder, v, rt, "");
break;
}
case OP_PMIND_UN:
case OP_PMINW_UN:
case OP_PMINB_UN: {
LLVMValueRef cmp = LLVMBuildICmp (builder, LLVMIntULT, lhs, rhs, "");
values [ins->dreg] = LLVMBuildSelect (builder, cmp, lhs, rhs, "");
break;
}
case OP_PMAXD_UN:
case OP_PMAXW_UN:
case OP_PMAXB_UN: {
LLVMValueRef cmp = LLVMBuildICmp (builder, LLVMIntUGT, lhs, rhs, "");
values [ins->dreg] = LLVMBuildSelect (builder, cmp, lhs, rhs, "");
break;
}
case OP_PMINW: {
LLVMValueRef cmp = LLVMBuildICmp (builder, LLVMIntSLT, lhs, rhs, "");
values [ins->dreg] = LLVMBuildSelect (builder, cmp, lhs, rhs, "");
break;
}
case OP_PMAXW: {
LLVMValueRef cmp = LLVMBuildICmp (builder, LLVMIntSGT, lhs, rhs, "");
values [ins->dreg] = LLVMBuildSelect (builder, cmp, lhs, rhs, "");
break;
}
case OP_PAVGB_UN:
case OP_PAVGW_UN: {
LLVMValueRef ones_vec;
LLVMValueRef ones [MAX_VECTOR_ELEMS];
int vector_size = LLVMGetVectorSize (LLVMTypeOf (lhs));
LLVMTypeRef ext_elem_type = vector_size == 16 ? LLVMInt16Type () : LLVMInt32Type ();
for (int i = 0; i < MAX_VECTOR_ELEMS; ++i)
ones [i] = LLVMConstInt (ext_elem_type, 1, FALSE);
ones_vec = LLVMConstVector (ones, vector_size);
LLVMValueRef val;
LLVMTypeRef ext_type = LLVMVectorType (ext_elem_type, vector_size);
/* Have to increase the vector element size to prevent overflows */
/* res = trunc ((zext (lhs) + zext (rhs) + 1) >> 1) */
val = LLVMBuildAdd (builder, LLVMBuildZExt (builder, lhs, ext_type, ""), LLVMBuildZExt (builder, rhs, ext_type, ""), "");
val = LLVMBuildAdd (builder, val, ones_vec, "");
val = LLVMBuildLShr (builder, val, ones_vec, "");
values [ins->dreg] = LLVMBuildTrunc (builder, val, LLVMTypeOf (lhs), "");
break;
}
case OP_PCMPEQB:
case OP_PCMPEQW:
case OP_PCMPEQD:
case OP_PCMPEQQ:
case OP_PCMPGTB: {
LLVMValueRef pcmp;
LLVMTypeRef retType;
LLVMIntPredicate cmpOp;
if (ins->opcode == OP_PCMPGTB)
cmpOp = LLVMIntSGT;
else
cmpOp = LLVMIntEQ;
if (LLVMTypeOf (lhs) == LLVMTypeOf (rhs)) {
pcmp = LLVMBuildICmp (builder, cmpOp, lhs, rhs, "");
retType = LLVMTypeOf (lhs);
} else {
LLVMTypeRef flatType = LLVMVectorType (LLVMInt8Type (), 16);
LLVMValueRef flatRHS = convert (ctx, rhs, flatType);
LLVMValueRef flatLHS = convert (ctx, lhs, flatType);
pcmp = LLVMBuildICmp (builder, cmpOp, flatLHS, flatRHS, "");
retType = flatType;
}
values [ins->dreg] = LLVMBuildSExt (builder, pcmp, retType, "");
break;
}
case OP_CVTDQ2PS: {
LLVMValueRef i4 = LLVMBuildBitCast (builder, lhs, sse_i4_t, "");
values [ins->dreg] = LLVMBuildSIToFP (builder, i4, sse_r4_t, dname);
break;
}
case OP_CVTDQ2PD: {
LLVMValueRef indexes [16];
indexes [0] = LLVMConstInt (LLVMInt32Type (), 0, FALSE);
indexes [1] = LLVMConstInt (LLVMInt32Type (), 1, FALSE);
LLVMValueRef mask = LLVMConstVector (indexes, 2);
LLVMValueRef shuffle = LLVMBuildShuffleVector (builder, lhs, LLVMConstNull (LLVMTypeOf (lhs)), mask, "");
values [ins->dreg] = LLVMBuildSIToFP (builder, shuffle, LLVMVectorType (LLVMDoubleType (), 2), dname);
break;
}
case OP_SSE2_CVTSS2SD: {
LLVMValueRef rhs_elem = LLVMBuildExtractElement (builder, rhs, const_int32 (0), "");
LLVMValueRef fpext = LLVMBuildFPExt (builder, rhs_elem, LLVMDoubleType (), dname);
values [ins->dreg] = LLVMBuildInsertElement (builder, lhs, fpext, const_int32 (0), "");
break;
}
case OP_CVTPS2PD: {
LLVMValueRef indexes [16];
indexes [0] = LLVMConstInt (LLVMInt32Type (), 0, FALSE);
indexes [1] = LLVMConstInt (LLVMInt32Type (), 1, FALSE);
LLVMValueRef mask = LLVMConstVector (indexes, 2);
LLVMValueRef shuffle = LLVMBuildShuffleVector (builder, lhs, LLVMConstNull (LLVMTypeOf (lhs)), mask, "");
values [ins->dreg] = LLVMBuildFPExt (builder, shuffle, LLVMVectorType (LLVMDoubleType (), 2), dname);
break;
}
case OP_CVTTPS2DQ:
values [ins->dreg] = LLVMBuildFPToSI (builder, lhs, LLVMVectorType (LLVMInt32Type (), 4), dname);
break;
case OP_CVTPD2DQ:
case OP_CVTPS2DQ:
case OP_CVTPD2PS:
case OP_CVTTPD2DQ: {
LLVMValueRef v;
v = convert (ctx, values [ins->sreg1], simd_op_to_llvm_type (ins->opcode));
values [ins->dreg] = call_intrins (ctx, simd_ins_to_intrins (ins->opcode), &v, dname);
break;
}
case OP_COMPPS:
case OP_COMPPD: {
LLVMRealPredicate op;
switch (ins->inst_c0) {
case SIMD_COMP_EQ:
op = LLVMRealOEQ;
break;
case SIMD_COMP_LT:
op = LLVMRealOLT;
break;
case SIMD_COMP_LE:
op = LLVMRealOLE;
break;
case SIMD_COMP_UNORD:
op = LLVMRealUNO;
break;
case SIMD_COMP_NEQ:
op = LLVMRealUNE;
break;
case SIMD_COMP_NLT:
op = LLVMRealUGE;
break;
case SIMD_COMP_NLE:
op = LLVMRealUGT;
break;
case SIMD_COMP_ORD:
op = LLVMRealORD;
break;
default:
g_assert_not_reached ();
}
LLVMValueRef cmp = LLVMBuildFCmp (builder, op, lhs, rhs, "");
if (ins->opcode == OP_COMPPD)
values [ins->dreg] = LLVMBuildBitCast (builder, LLVMBuildSExt (builder, cmp, LLVMVectorType (LLVMInt64Type (), 2), ""), LLVMTypeOf (lhs), "");
else
values [ins->dreg] = LLVMBuildBitCast (builder, LLVMBuildSExt (builder, cmp, LLVMVectorType (LLVMInt32Type (), 4), ""), LLVMTypeOf (lhs), "");
break;
}
case OP_ICONV_TO_X:
/* This is only used for implementing shifts by non-immediate */
values [ins->dreg] = lhs;
break;
case OP_SHUFPS:
case OP_SHUFPD:
case OP_PSHUFLED:
case OP_PSHUFLEW_LOW:
case OP_PSHUFLEW_HIGH: {
int mask [16];
LLVMValueRef v1 = NULL, v2 = NULL, mask_values [16];
int i, mask_size = 0;
int imask = ins->inst_c0;
/* Convert the x86 shuffle mask to LLVM's */
switch (ins->opcode) {
case OP_SHUFPS:
mask_size = 4;
mask [0] = ((imask >> 0) & 3);
mask [1] = ((imask >> 2) & 3);
mask [2] = ((imask >> 4) & 3) + 4;
mask [3] = ((imask >> 6) & 3) + 4;
v1 = values [ins->sreg1];
v2 = values [ins->sreg2];
break;
case OP_SHUFPD:
mask_size = 2;
mask [0] = ((imask >> 0) & 1);
mask [1] = ((imask >> 1) & 1) + 2;
v1 = values [ins->sreg1];
v2 = values [ins->sreg2];
break;
case OP_PSHUFLEW_LOW:
mask_size = 8;
mask [0] = ((imask >> 0) & 3);
mask [1] = ((imask >> 2) & 3);
mask [2] = ((imask >> 4) & 3);
mask [3] = ((imask >> 6) & 3);
mask [4] = 4 + 0;
mask [5] = 4 + 1;
mask [6] = 4 + 2;
mask [7] = 4 + 3;
v1 = values [ins->sreg1];
v2 = LLVMGetUndef (LLVMTypeOf (v1));
break;
case OP_PSHUFLEW_HIGH:
mask_size = 8;
mask [0] = 0;
mask [1] = 1;
mask [2] = 2;
mask [3] = 3;
mask [4] = 4 + ((imask >> 0) & 3);
mask [5] = 4 + ((imask >> 2) & 3);
mask [6] = 4 + ((imask >> 4) & 3);
mask [7] = 4 + ((imask >> 6) & 3);
v1 = values [ins->sreg1];
v2 = LLVMGetUndef (LLVMTypeOf (v1));
break;
case OP_PSHUFLED:
mask_size = 4;
mask [0] = ((imask >> 0) & 3);
mask [1] = ((imask >> 2) & 3);
mask [2] = ((imask >> 4) & 3);
mask [3] = ((imask >> 6) & 3);
v1 = values [ins->sreg1];
v2 = LLVMGetUndef (LLVMTypeOf (v1));
break;
default:
g_assert_not_reached ();
}
for (i = 0; i < mask_size; ++i)
mask_values [i] = LLVMConstInt (LLVMInt32Type (), mask [i], FALSE);
values [ins->dreg] =
LLVMBuildShuffleVector (builder, v1, v2,
LLVMConstVector (mask_values, mask_size), dname);
break;
}
case OP_UNPACK_LOWB:
case OP_UNPACK_LOWW:
case OP_UNPACK_LOWD:
case OP_UNPACK_LOWQ:
case OP_UNPACK_LOWPS:
case OP_UNPACK_LOWPD:
case OP_UNPACK_HIGHB:
case OP_UNPACK_HIGHW:
case OP_UNPACK_HIGHD:
case OP_UNPACK_HIGHQ:
case OP_UNPACK_HIGHPS:
case OP_UNPACK_HIGHPD: {
int mask [16];
LLVMValueRef mask_values [16];
int i, mask_size = 0;
gboolean low = FALSE;
switch (ins->opcode) {
case OP_UNPACK_LOWB:
mask_size = 16;
low = TRUE;
break;
case OP_UNPACK_LOWW:
mask_size = 8;
low = TRUE;
break;
case OP_UNPACK_LOWD:
case OP_UNPACK_LOWPS:
mask_size = 4;
low = TRUE;
break;
case OP_UNPACK_LOWQ:
case OP_UNPACK_LOWPD:
mask_size = 2;
low = TRUE;
break;
case OP_UNPACK_HIGHB:
mask_size = 16;
break;
case OP_UNPACK_HIGHW:
mask_size = 8;
break;
case OP_UNPACK_HIGHD:
case OP_UNPACK_HIGHPS:
mask_size = 4;
break;
case OP_UNPACK_HIGHQ:
case OP_UNPACK_HIGHPD:
mask_size = 2;
break;
default:
g_assert_not_reached ();
}
if (low) {
for (i = 0; i < (mask_size / 2); ++i) {
mask [(i * 2)] = i;
mask [(i * 2) + 1] = mask_size + i;
}
} else {
for (i = 0; i < (mask_size / 2); ++i) {
mask [(i * 2)] = (mask_size / 2) + i;
mask [(i * 2) + 1] = mask_size + (mask_size / 2) + i;
}
}
for (i = 0; i < mask_size; ++i)
mask_values [i] = LLVMConstInt (LLVMInt32Type (), mask [i], FALSE);
values [ins->dreg] =
LLVMBuildShuffleVector (builder, values [ins->sreg1], values [ins->sreg2],
LLVMConstVector (mask_values, mask_size), dname);
break;
}
case OP_DUPPD: {
LLVMTypeRef t = simd_op_to_llvm_type (ins->opcode);
LLVMValueRef v, val;
v = LLVMBuildExtractElement (builder, lhs, LLVMConstInt (LLVMInt32Type (), 0, FALSE), "");
val = LLVMConstNull (t);
val = LLVMBuildInsertElement (builder, val, v, LLVMConstInt (LLVMInt32Type (), 0, FALSE), "");
val = LLVMBuildInsertElement (builder, val, v, LLVMConstInt (LLVMInt32Type (), 1, FALSE), dname);
values [ins->dreg] = val;
break;
}
case OP_DUPPS_LOW:
case OP_DUPPS_HIGH: {
LLVMTypeRef t = simd_op_to_llvm_type (ins->opcode);
LLVMValueRef v1, v2, val;
if (ins->opcode == OP_DUPPS_LOW) {
v1 = LLVMBuildExtractElement (builder, lhs, LLVMConstInt (LLVMInt32Type (), 0, FALSE), "");
v2 = LLVMBuildExtractElement (builder, lhs, LLVMConstInt (LLVMInt32Type (), 2, FALSE), "");
} else {
v1 = LLVMBuildExtractElement (builder, lhs, LLVMConstInt (LLVMInt32Type (), 1, FALSE), "");
v2 = LLVMBuildExtractElement (builder, lhs, LLVMConstInt (LLVMInt32Type (), 3, FALSE), "");
}
val = LLVMConstNull (t);
val = LLVMBuildInsertElement (builder, val, v1, LLVMConstInt (LLVMInt32Type (), 0, FALSE), "");
val = LLVMBuildInsertElement (builder, val, v1, LLVMConstInt (LLVMInt32Type (), 1, FALSE), "");
val = LLVMBuildInsertElement (builder, val, v2, LLVMConstInt (LLVMInt32Type (), 2, FALSE), "");
val = LLVMBuildInsertElement (builder, val, v2, LLVMConstInt (LLVMInt32Type (), 3, FALSE), "");
values [ins->dreg] = val;
break;
}
case OP_FCONV_TO_R8_X: {
values [ins->dreg] = LLVMBuildInsertElement (builder, LLVMConstNull (sse_r8_t), lhs, LLVMConstInt (LLVMInt32Type (), 0, FALSE), "");
break;
}
case OP_FCONV_TO_R4_X: {
values [ins->dreg] = LLVMBuildInsertElement (builder, LLVMConstNull (sse_r4_t), lhs, LLVMConstInt (LLVMInt32Type (), 0, FALSE), "");
break;
}
#if defined(TARGET_X86) || defined(TARGET_AMD64)
case OP_SSE_MOVMSK: {
LLVMValueRef args [1];
if (ins->inst_c1 == MONO_TYPE_R4) {
args [0] = lhs;
values [ins->dreg] = call_intrins (ctx, INTRINS_SSE_MOVMSK_PS, args, dname);
} else if (ins->inst_c1 == MONO_TYPE_R8) {
args [0] = lhs;
values [ins->dreg] = call_intrins (ctx, INTRINS_SSE_MOVMSK_PD, args, dname);
} else {
args [0] = convert (ctx, lhs, sse_i1_t);
values [ins->dreg] = call_intrins (ctx, INTRINS_SSE_PMOVMSKB, args, dname);
}
break;
}
case OP_SSE_MOVS:
case OP_SSE_MOVS2: {
if (ins->inst_c1 == MONO_TYPE_R4)
values [ins->dreg] = LLVMBuildShuffleVector (builder, rhs, lhs, create_const_vector_4_i32 (0, 5, 6, 7), "");
else if (ins->inst_c1 == MONO_TYPE_R8)
values [ins->dreg] = LLVMBuildShuffleVector (builder, rhs, lhs, create_const_vector_2_i32 (0, 3), "");
else if (ins->inst_c1 == MONO_TYPE_I8 || ins->inst_c1 == MONO_TYPE_U8)
values [ins->dreg] = LLVMBuildInsertElement (builder, lhs,
LLVMConstInt (LLVMInt64Type (), 0, FALSE),
LLVMConstInt (LLVMInt32Type (), 1, FALSE), "");
else
g_assert_not_reached (); // will be needed for other types later
break;
}
case OP_SSE_MOVEHL: {
if (ins->inst_c1 == MONO_TYPE_R4)
values [ins->dreg] = LLVMBuildShuffleVector (builder, lhs, rhs, create_const_vector_4_i32 (6, 7, 2, 3), "");
else
g_assert_not_reached ();
break;
}
case OP_SSE_MOVELH: {
if (ins->inst_c1 == MONO_TYPE_R4)
values [ins->dreg] = LLVMBuildShuffleVector (builder, lhs, rhs, create_const_vector_4_i32 (0, 1, 4, 5), "");
else
g_assert_not_reached ();
break;
}
case OP_SSE_UNPACKLO: {
if (ins->inst_c1 == MONO_TYPE_R8 || ins->inst_c1 == MONO_TYPE_I8 || ins->inst_c1 == MONO_TYPE_U8) {
values [ins->dreg] = LLVMBuildShuffleVector (builder, lhs, rhs, create_const_vector_2_i32 (0, 2), "");
} else if (ins->inst_c1 == MONO_TYPE_R4 || ins->inst_c1 == MONO_TYPE_I4 || ins->inst_c1 == MONO_TYPE_U4) {
values [ins->dreg] = LLVMBuildShuffleVector (builder, lhs, rhs, create_const_vector_4_i32 (0, 4, 1, 5), "");
} else if (ins->inst_c1 == MONO_TYPE_I2 || ins->inst_c1 == MONO_TYPE_U2) {
const int mask_values [] = { 0, 8, 1, 9, 2, 10, 3, 11 };
LLVMValueRef shuffled = LLVMBuildShuffleVector (builder,
convert (ctx, lhs, sse_i2_t),
convert (ctx, rhs, sse_i2_t),
create_const_vector_i32 (mask_values, 8), "");
values [ins->dreg] = convert (ctx, shuffled, type_to_sse_type (ins->inst_c1));
} else if (ins->inst_c1 == MONO_TYPE_I1 || ins->inst_c1 == MONO_TYPE_U1) {
const int mask_values [] = { 0, 16, 1, 17, 2, 18, 3, 19, 4, 20, 5, 21, 6, 22, 7, 23 };
LLVMValueRef shuffled = LLVMBuildShuffleVector (builder,
convert (ctx, lhs, sse_i1_t),
convert (ctx, rhs, sse_i1_t),
create_const_vector_i32 (mask_values, 16), "");
values [ins->dreg] = convert (ctx, shuffled, type_to_sse_type (ins->inst_c1));
} else {
g_assert_not_reached ();
}
break;
}
case OP_SSE_UNPACKHI: {
if (ins->inst_c1 == MONO_TYPE_R8 || ins->inst_c1 == MONO_TYPE_I8 || ins->inst_c1 == MONO_TYPE_U8) {
values [ins->dreg] = LLVMBuildShuffleVector (builder, lhs, rhs, create_const_vector_2_i32 (1, 3), "");
} else if (ins->inst_c1 == MONO_TYPE_R4 || ins->inst_c1 == MONO_TYPE_I4 || ins->inst_c1 == MONO_TYPE_U4) {
values [ins->dreg] = LLVMBuildShuffleVector (builder, lhs, rhs, create_const_vector_4_i32 (2, 6, 3, 7), "");
} else if (ins->inst_c1 == MONO_TYPE_I2 || ins->inst_c1 == MONO_TYPE_U2) {
const int mask_values [] = { 4, 12, 5, 13, 6, 14, 7, 15 };
LLVMValueRef shuffled = LLVMBuildShuffleVector (builder,
convert (ctx, lhs, sse_i2_t),
convert (ctx, rhs, sse_i2_t),
create_const_vector_i32 (mask_values, 8), "");
values [ins->dreg] = convert (ctx, shuffled, type_to_sse_type (ins->inst_c1));
} else if (ins->inst_c1 == MONO_TYPE_I1 || ins->inst_c1 == MONO_TYPE_U1) {
const int mask_values [] = { 8, 24, 9, 25, 10, 26, 11, 27, 12, 28, 13, 29, 14, 30, 15, 31 };
LLVMValueRef shuffled = LLVMBuildShuffleVector (builder,
convert (ctx, lhs, sse_i1_t),
convert (ctx, rhs, sse_i1_t),
create_const_vector_i32 (mask_values, 16), "");
values [ins->dreg] = convert (ctx, shuffled, type_to_sse_type (ins->inst_c1));
} else {
g_assert_not_reached ();
}
break;
}
case OP_SSE_LOADU: {
LLVMValueRef dst_ptr = convert (ctx, lhs, LLVMPointerType (primitive_type_to_llvm_type (inst_c1_type (ins)), 0));
LLVMValueRef dst_vec = LLVMBuildBitCast (builder, dst_ptr, LLVMPointerType (type_to_sse_type (ins->inst_c1), 0), "");
values [ins->dreg] = mono_llvm_build_aligned_load (builder, dst_vec, "", FALSE, ins->inst_c0); // inst_c0 is alignment
break;
}
case OP_SSE_MOVSS: {
LLVMValueRef addr = convert (ctx, lhs, LLVMPointerType (LLVMFloatType (), 0));
LLVMValueRef val = mono_llvm_build_load (builder, addr, "", FALSE);
values [ins->dreg] = LLVMBuildInsertElement (builder, LLVMConstNull (type_to_sse_type (ins->inst_c1)), val, LLVMConstInt (LLVMInt32Type (), 0, FALSE), "");
break;
}
case OP_SSE_MOVSS_STORE: {
LLVMValueRef addr = convert (ctx, lhs, LLVMPointerType (LLVMFloatType (), 0));
LLVMValueRef val = LLVMBuildExtractElement (builder, rhs, LLVMConstInt (LLVMInt32Type (), 0, FALSE), "");
mono_llvm_build_store (builder, val, addr, FALSE, LLVM_BARRIER_NONE);
break;
}
case OP_SSE2_MOVD:
case OP_SSE2_MOVQ:
case OP_SSE2_MOVUPD: {
LLVMTypeRef rty = NULL;
switch (ins->opcode) {
case OP_SSE2_MOVD: rty = sse_i4_t; break;
case OP_SSE2_MOVQ: rty = sse_i8_t; break;
case OP_SSE2_MOVUPD: rty = sse_r8_t; break;
}
LLVMTypeRef srcty = LLVMGetElementType (rty);
LLVMValueRef zero = LLVMConstNull (rty);
LLVMValueRef addr = convert (ctx, lhs, LLVMPointerType (srcty, 0));
LLVMValueRef val = mono_llvm_build_aligned_load (builder, addr, "", FALSE, 1);
values [ins->dreg] = LLVMBuildInsertElement (builder, zero, val, const_int32 (0), dname);
break;
}
case OP_SSE_MOVLPS_LOAD:
case OP_SSE_MOVHPS_LOAD: {
LLVMTypeRef t = LLVMFloatType ();
int size = 4;
gboolean high = ins->opcode == OP_SSE_MOVHPS_LOAD;
/* Load two floats from rhs and store them in the low/high part of lhs */
LLVMValueRef addr = rhs;
LLVMValueRef addr1 = convert (ctx, addr, LLVMPointerType (t, 0));
LLVMValueRef addr2 = convert (ctx, LLVMBuildAdd (builder, convert (ctx, addr, IntPtrType ()), convert (ctx, LLVMConstInt (LLVMInt32Type (), size, FALSE), IntPtrType ()), ""), LLVMPointerType (t, 0));
LLVMValueRef val1 = mono_llvm_build_load (builder, addr1, "", FALSE);
LLVMValueRef val2 = mono_llvm_build_load (builder, addr2, "", FALSE);
int index1, index2;
index1 = high ? 2: 0;
index2 = high ? 3 : 1;
values [ins->dreg] = LLVMBuildInsertElement (builder, LLVMBuildInsertElement (builder, lhs, val1, LLVMConstInt (LLVMInt32Type (), index1, FALSE), ""), val2, LLVMConstInt (LLVMInt32Type (), index2, FALSE), "");
break;
}
case OP_SSE2_MOVLPD_LOAD:
case OP_SSE2_MOVHPD_LOAD: {
LLVMTypeRef t = LLVMDoubleType ();
LLVMValueRef addr = convert (ctx, rhs, LLVMPointerType (t, 0));
LLVMValueRef val = mono_llvm_build_load (builder, addr, "", FALSE);
int index = ins->opcode == OP_SSE2_MOVHPD_LOAD ? 1 : 0;
values [ins->dreg] = LLVMBuildInsertElement (builder, lhs, val, const_int32 (index), "");
break;
}
case OP_SSE_MOVLPS_STORE:
case OP_SSE_MOVHPS_STORE: {
/* Store two floats from the low/hight part of rhs into lhs */
LLVMValueRef addr = lhs;
LLVMValueRef addr1 = convert (ctx, addr, LLVMPointerType (LLVMFloatType (), 0));
LLVMValueRef addr2 = convert (ctx, LLVMBuildAdd (builder, convert (ctx, addr, IntPtrType ()), convert (ctx, LLVMConstInt (LLVMInt32Type (), 4, FALSE), IntPtrType ()), ""), LLVMPointerType (LLVMFloatType (), 0));
int index1 = ins->opcode == OP_SSE_MOVLPS_STORE ? 0 : 2;
int index2 = ins->opcode == OP_SSE_MOVLPS_STORE ? 1 : 3;
LLVMValueRef val1 = LLVMBuildExtractElement (builder, rhs, LLVMConstInt (LLVMInt32Type (), index1, FALSE), "");
LLVMValueRef val2 = LLVMBuildExtractElement (builder, rhs, LLVMConstInt (LLVMInt32Type (), index2, FALSE), "");
mono_llvm_build_store (builder, val1, addr1, FALSE, LLVM_BARRIER_NONE);
mono_llvm_build_store (builder, val2, addr2, FALSE, LLVM_BARRIER_NONE);
break;
}
case OP_SSE2_MOVLPD_STORE:
case OP_SSE2_MOVHPD_STORE: {
LLVMTypeRef t = LLVMDoubleType ();
LLVMValueRef addr = convert (ctx, lhs, LLVMPointerType (t, 0));
int index = ins->opcode == OP_SSE2_MOVHPD_STORE ? 1 : 0;
LLVMValueRef val = LLVMBuildExtractElement (builder, rhs, const_int32 (index), "");
mono_llvm_build_store (builder, val, addr, FALSE, LLVM_BARRIER_NONE);
break;
}
case OP_SSE_STORE: {
LLVMValueRef dst_vec = convert (ctx, lhs, LLVMPointerType (LLVMTypeOf (rhs), 0));
mono_llvm_build_aligned_store (builder, rhs, dst_vec, FALSE, ins->inst_c0);
break;
}
case OP_SSE_STORES: {
LLVMValueRef first_elem = LLVMBuildExtractElement (builder, rhs, LLVMConstInt (LLVMInt32Type (), 0, FALSE), "");
LLVMValueRef dst = convert (ctx, lhs, LLVMPointerType (LLVMTypeOf (first_elem), 0));
mono_llvm_build_aligned_store (builder, first_elem, dst, FALSE, 1);
break;
}
case OP_SSE_MOVNTPS: {
LLVMValueRef addr = convert (ctx, lhs, LLVMPointerType (LLVMTypeOf (rhs), 0));
LLVMValueRef store = mono_llvm_build_aligned_store (builder, rhs, addr, FALSE, ins->inst_c0);
set_nontemporal_flag (store);
break;
}
case OP_SSE_PREFETCHT0: {
LLVMValueRef addr = convert (ctx, lhs, LLVMPointerType (LLVMInt8Type (), 0));
LLVMValueRef args [] = { addr, const_int32 (0), const_int32 (3), const_int32 (1) };
call_intrins (ctx, INTRINS_PREFETCH, args, "");
break;
}
case OP_SSE_PREFETCHT1: {
LLVMValueRef addr = convert (ctx, lhs, LLVMPointerType (LLVMInt8Type (), 0));
LLVMValueRef args [] = { addr, const_int32 (0), const_int32 (2), const_int32 (1) };
call_intrins (ctx, INTRINS_PREFETCH, args, "");
break;
}
case OP_SSE_PREFETCHT2: {
LLVMValueRef addr = convert (ctx, lhs, LLVMPointerType (LLVMInt8Type (), 0));
LLVMValueRef args [] = { addr, const_int32 (0), const_int32 (1), const_int32 (1) };
call_intrins (ctx, INTRINS_PREFETCH, args, "");
break;
}
case OP_SSE_PREFETCHNTA: {
LLVMValueRef addr = convert (ctx, lhs, LLVMPointerType (LLVMInt8Type (), 0));
LLVMValueRef args [] = { addr, const_int32 (0), const_int32 (0), const_int32 (1) };
call_intrins (ctx, INTRINS_PREFETCH, args, "");
break;
}
case OP_SSE_OR: {
LLVMValueRef vec_lhs_i64 = convert (ctx, lhs, sse_i8_t);
LLVMValueRef vec_rhs_i64 = convert (ctx, rhs, sse_i8_t);
LLVMValueRef vec_and = LLVMBuildOr (builder, vec_lhs_i64, vec_rhs_i64, "");
values [ins->dreg] = LLVMBuildBitCast (builder, vec_and, type_to_sse_type (ins->inst_c1), "");
break;
}
case OP_SSE_XOR: {
LLVMValueRef vec_lhs_i64 = convert (ctx, lhs, sse_i8_t);
LLVMValueRef vec_rhs_i64 = convert (ctx, rhs, sse_i8_t);
LLVMValueRef vec_and = LLVMBuildXor (builder, vec_lhs_i64, vec_rhs_i64, "");
values [ins->dreg] = LLVMBuildBitCast (builder, vec_and, type_to_sse_type (ins->inst_c1), "");
break;
}
case OP_SSE_AND: {
LLVMValueRef vec_lhs_i64 = convert (ctx, lhs, sse_i8_t);
LLVMValueRef vec_rhs_i64 = convert (ctx, rhs, sse_i8_t);
LLVMValueRef vec_and = LLVMBuildAnd (builder, vec_lhs_i64, vec_rhs_i64, "");
values [ins->dreg] = LLVMBuildBitCast (builder, vec_and, type_to_sse_type (ins->inst_c1), "");
break;
}
case OP_SSE_ANDN: {
LLVMValueRef minus_one [2];
minus_one [0] = LLVMConstInt (LLVMInt64Type (), -1, FALSE);
minus_one [1] = LLVMConstInt (LLVMInt64Type (), -1, FALSE);
LLVMValueRef vec_lhs_i64 = convert (ctx, lhs, sse_i8_t);
LLVMValueRef vec_xor = LLVMBuildXor (builder, vec_lhs_i64, LLVMConstVector (minus_one, 2), "");
LLVMValueRef vec_rhs_i64 = convert (ctx, rhs, sse_i8_t);
LLVMValueRef vec_and = LLVMBuildAnd (builder, vec_rhs_i64, vec_xor, "");
values [ins->dreg] = LLVMBuildBitCast (builder, vec_and, type_to_sse_type (ins->inst_c1), "");
break;
}
case OP_SSE_ADDSS:
case OP_SSE_SUBSS:
case OP_SSE_DIVSS:
case OP_SSE_MULSS:
case OP_SSE2_ADDSD:
case OP_SSE2_SUBSD:
case OP_SSE2_DIVSD:
case OP_SSE2_MULSD: {
LLVMValueRef v1 = LLVMBuildExtractElement (builder, lhs, LLVMConstInt (LLVMInt32Type (), 0, FALSE), "");
LLVMValueRef v2 = LLVMBuildExtractElement (builder, rhs, LLVMConstInt (LLVMInt32Type (), 0, FALSE), "");
LLVMValueRef v = NULL;
switch (ins->opcode) {
case OP_SSE_ADDSS:
case OP_SSE2_ADDSD:
v = LLVMBuildFAdd (builder, v1, v2, "");
break;
case OP_SSE_SUBSS:
case OP_SSE2_SUBSD:
v = LLVMBuildFSub (builder, v1, v2, "");
break;
case OP_SSE_DIVSS:
case OP_SSE2_DIVSD:
v = LLVMBuildFDiv (builder, v1, v2, "");
break;
case OP_SSE_MULSS:
case OP_SSE2_MULSD:
v = LLVMBuildFMul (builder, v1, v2, "");
break;
default:
g_assert_not_reached ();
}
values [ins->dreg] = LLVMBuildInsertElement (builder, lhs, v, LLVMConstInt (LLVMInt32Type (), 0, FALSE), "");
break;
}
case OP_SSE_CMPSS:
case OP_SSE2_CMPSD: {
int imm = -1;
gboolean swap = FALSE;
switch (ins->inst_c0) {
case CMP_EQ: imm = SSE_eq_ord_nosignal; break;
case CMP_GT: imm = SSE_lt_ord_signal; swap = TRUE; break;
case CMP_GE: imm = SSE_le_ord_signal; swap = TRUE; break;
case CMP_LT: imm = SSE_lt_ord_signal; break;
case CMP_LE: imm = SSE_le_ord_signal; break;
case CMP_GT_UN: imm = SSE_nle_unord_signal; break;
case CMP_GE_UN: imm = SSE_nlt_unord_signal; break;
case CMP_LT_UN: imm = SSE_nle_unord_signal; swap = TRUE; break;
case CMP_LE_UN: imm = SSE_nlt_unord_signal; swap = TRUE; break;
case CMP_NE: imm = SSE_neq_unord_nosignal; break;
case CMP_ORD: imm = SSE_ord_nosignal; break;
case CMP_UNORD: imm = SSE_unord_nosignal; break;
default: g_assert_not_reached (); break;
}
LLVMValueRef cmp = LLVMConstInt (LLVMInt8Type (), imm, FALSE);
LLVMValueRef args [] = { lhs, rhs, cmp };
if (swap) {
args [0] = rhs;
args [1] = lhs;
}
IntrinsicId id = (IntrinsicId) 0;
switch (ins->opcode) {
case OP_SSE_CMPSS: id = INTRINS_SSE_CMPSS; break;
case OP_SSE2_CMPSD: id = INTRINS_SSE_CMPSD; break;
default: g_assert_not_reached (); break;
}
int elements = LLVMGetVectorSize (LLVMTypeOf (lhs));
int mask_values [MAX_VECTOR_ELEMS] = { 0 };
for (int i = 1; i < elements; ++i) {
mask_values [i] = elements + i;
}
LLVMValueRef result = call_intrins (ctx, id, args, "");
result = LLVMBuildShuffleVector (builder, result, lhs, create_const_vector_i32 (mask_values, elements), "");
values [ins->dreg] = result;
break;
}
case OP_SSE_COMISS: {
LLVMValueRef args [] = { lhs, rhs };
IntrinsicId id = (IntrinsicId)0;
switch (ins->inst_c0) {
case CMP_EQ: id = INTRINS_SSE_COMIEQ_SS; break;
case CMP_GT: id = INTRINS_SSE_COMIGT_SS; break;
case CMP_GE: id = INTRINS_SSE_COMIGE_SS; break;
case CMP_LT: id = INTRINS_SSE_COMILT_SS; break;
case CMP_LE: id = INTRINS_SSE_COMILE_SS; break;
case CMP_NE: id = INTRINS_SSE_COMINEQ_SS; break;
default: g_assert_not_reached (); break;
}
values [ins->dreg] = call_intrins (ctx, id, args, "");
break;
}
case OP_SSE_UCOMISS: {
LLVMValueRef args [] = { lhs, rhs };
IntrinsicId id = (IntrinsicId)0;
switch (ins->inst_c0) {
case CMP_EQ: id = INTRINS_SSE_UCOMIEQ_SS; break;
case CMP_GT: id = INTRINS_SSE_UCOMIGT_SS; break;
case CMP_GE: id = INTRINS_SSE_UCOMIGE_SS; break;
case CMP_LT: id = INTRINS_SSE_UCOMILT_SS; break;
case CMP_LE: id = INTRINS_SSE_UCOMILE_SS; break;
case CMP_NE: id = INTRINS_SSE_UCOMINEQ_SS; break;
default: g_assert_not_reached (); break;
}
values [ins->dreg] = call_intrins (ctx, id, args, "");
break;
}
case OP_SSE2_COMISD: {
LLVMValueRef args [] = { lhs, rhs };
IntrinsicId id = (IntrinsicId)0;
switch (ins->inst_c0) {
case CMP_EQ: id = INTRINS_SSE_COMIEQ_SD; break;
case CMP_GT: id = INTRINS_SSE_COMIGT_SD; break;
case CMP_GE: id = INTRINS_SSE_COMIGE_SD; break;
case CMP_LT: id = INTRINS_SSE_COMILT_SD; break;
case CMP_LE: id = INTRINS_SSE_COMILE_SD; break;
case CMP_NE: id = INTRINS_SSE_COMINEQ_SD; break;
default: g_assert_not_reached (); break;
}
values [ins->dreg] = call_intrins (ctx, id, args, "");
break;
}
case OP_SSE2_UCOMISD: {
LLVMValueRef args [] = { lhs, rhs };
IntrinsicId id = (IntrinsicId)0;
switch (ins->inst_c0) {
case CMP_EQ: id = INTRINS_SSE_UCOMIEQ_SD; break;
case CMP_GT: id = INTRINS_SSE_UCOMIGT_SD; break;
case CMP_GE: id = INTRINS_SSE_UCOMIGE_SD; break;
case CMP_LT: id = INTRINS_SSE_UCOMILT_SD; break;
case CMP_LE: id = INTRINS_SSE_UCOMILE_SD; break;
case CMP_NE: id = INTRINS_SSE_UCOMINEQ_SD; break;
default: g_assert_not_reached (); break;
}
values [ins->dreg] = call_intrins (ctx, id, args, "");
break;
}
case OP_SSE_CVTSI2SS:
case OP_SSE_CVTSI2SS64:
case OP_SSE2_CVTSI2SD:
case OP_SSE2_CVTSI2SD64: {
LLVMTypeRef ty = LLVMFloatType ();
switch (ins->opcode) {
case OP_SSE2_CVTSI2SD:
case OP_SSE2_CVTSI2SD64:
ty = LLVMDoubleType ();
break;
}
LLVMValueRef fp = LLVMBuildSIToFP (builder, rhs, ty, "");
values [ins->dreg] = LLVMBuildInsertElement (builder, lhs, fp, const_int32 (0), dname);
break;
}
case OP_SSE2_PMULUDQ: {
LLVMValueRef i32_max = LLVMConstInt (LLVMInt64Type (), UINT32_MAX, FALSE);
LLVMValueRef maskvals [] = { i32_max, i32_max };
LLVMValueRef mask = LLVMConstVector (maskvals, 2);
LLVMValueRef l = LLVMBuildAnd (builder, convert (ctx, lhs, sse_i8_t), mask, "");
LLVMValueRef r = LLVMBuildAnd (builder, convert (ctx, rhs, sse_i8_t), mask, "");
values [ins->dreg] = LLVMBuildNUWMul (builder, l, r, dname);
break;
}
case OP_SSE_SQRTSS:
case OP_SSE2_SQRTSD: {
LLVMValueRef upper = values [ins->sreg1];
LLVMValueRef lower = values [ins->sreg2];
LLVMValueRef scalar = LLVMBuildExtractElement (builder, lower, const_int32 (0), "");
LLVMValueRef result = call_intrins (ctx, simd_ins_to_intrins (ins->opcode), &scalar, dname);
values [ins->dreg] = LLVMBuildInsertElement (builder, upper, result, const_int32 (0), "");
break;
}
case OP_SSE_RCPSS:
case OP_SSE_RSQRTSS: {
IntrinsicId id = (IntrinsicId)0;
switch (ins->opcode) {
case OP_SSE_RCPSS: id = INTRINS_SSE_RCP_SS; break;
case OP_SSE_RSQRTSS: id = INTRINS_SSE_RSQRT_SS; break;
default: g_assert_not_reached (); break;
};
LLVMValueRef result = call_intrins (ctx, id, &rhs, dname);
const int mask[] = { 0, 5, 6, 7 };
LLVMValueRef shufmask = create_const_vector_i32 (mask, 4);
values [ins->dreg] = LLVMBuildShuffleVector (builder, result, lhs, shufmask, "");
break;
}
case OP_XOP: {
IntrinsicId id = (IntrinsicId)ins->inst_c0;
call_intrins (ctx, id, NULL, "");
break;
}
case OP_XOP_X_I:
case OP_XOP_X_X:
case OP_XOP_I4_X:
case OP_XOP_I8_X:
case OP_XOP_X_X_X:
case OP_XOP_X_X_I4:
case OP_XOP_X_X_I8: {
IntrinsicId id = (IntrinsicId)ins->inst_c0;
LLVMValueRef args [] = { lhs, rhs };
values [ins->dreg] = call_intrins (ctx, id, args, "");
break;
}
case OP_XOP_I4_X_X: {
gboolean to_i8_t = FALSE;
gboolean ret_bool = FALSE;
IntrinsicId id = (IntrinsicId)ins->inst_c0;
switch (ins->inst_c0) {
case INTRINS_SSE_TESTC: to_i8_t = TRUE; ret_bool = TRUE; break;
case INTRINS_SSE_TESTZ: to_i8_t = TRUE; ret_bool = TRUE; break;
case INTRINS_SSE_TESTNZ: to_i8_t = TRUE; ret_bool = TRUE; break;
default: g_assert_not_reached (); break;
}
LLVMValueRef args [] = { lhs, rhs };
if (to_i8_t) {
args [0] = convert (ctx, args [0], sse_i8_t);
args [1] = convert (ctx, args [1], sse_i8_t);
}
LLVMValueRef call = call_intrins (ctx, id, args, "");
if (ret_bool) {
// if return type is bool (it's still i32) we need to normalize it to 1/0
LLVMValueRef cmp_zero = LLVMBuildICmp (builder, LLVMIntNE, call, LLVMConstInt (LLVMInt32Type (), 0, FALSE), "");
values [ins->dreg] = LLVMBuildZExt (builder, cmp_zero, LLVMInt8Type (), "");
} else {
values [ins->dreg] = call;
}
break;
}
case OP_SSE2_MASKMOVDQU: {
LLVMTypeRef i8ptr = LLVMPointerType (LLVMInt8Type (), 0);
LLVMValueRef dstaddr = convert (ctx, values [ins->sreg3], i8ptr);
LLVMValueRef src = convert (ctx, lhs, sse_i1_t);
LLVMValueRef mask = convert (ctx, rhs, sse_i1_t);
LLVMValueRef args[] = { src, mask, dstaddr };
call_intrins (ctx, INTRINS_SSE_MASKMOVDQU, args, "");
break;
}
case OP_PADDB_SAT:
case OP_PADDW_SAT:
case OP_PSUBB_SAT:
case OP_PSUBW_SAT:
case OP_PADDB_SAT_UN:
case OP_PADDW_SAT_UN:
case OP_PSUBB_SAT_UN:
case OP_PSUBW_SAT_UN:
case OP_SSE2_ADDS:
case OP_SSE2_SUBS: {
IntrinsicId id = (IntrinsicId)0;
int type = 0;
gboolean is_add = TRUE;
switch (ins->opcode) {
case OP_PADDB_SAT: type = MONO_TYPE_I1; break;
case OP_PADDW_SAT: type = MONO_TYPE_I2; break;
case OP_PSUBB_SAT: type = MONO_TYPE_I1; is_add = FALSE; break;
case OP_PSUBW_SAT: type = MONO_TYPE_I2; is_add = FALSE; break;
case OP_PADDB_SAT_UN: type = MONO_TYPE_U1; break;
case OP_PADDW_SAT_UN: type = MONO_TYPE_U2; break;
case OP_PSUBB_SAT_UN: type = MONO_TYPE_U1; is_add = FALSE; break;
case OP_PSUBW_SAT_UN: type = MONO_TYPE_U2; is_add = FALSE; break;
case OP_SSE2_ADDS: type = ins->inst_c1; break;
case OP_SSE2_SUBS: type = ins->inst_c1; is_add = FALSE; break;
default: g_assert_not_reached ();
}
if (is_add) {
switch (type) {
case MONO_TYPE_I1: id = INTRINS_SSE_SADD_SATI8; break;
case MONO_TYPE_U1: id = INTRINS_SSE_UADD_SATI8; break;
case MONO_TYPE_I2: id = INTRINS_SSE_SADD_SATI16; break;
case MONO_TYPE_U2: id = INTRINS_SSE_UADD_SATI16; break;
default: g_assert_not_reached (); break;
}
} else {
switch (type) {
case MONO_TYPE_I1: id = INTRINS_SSE_SSUB_SATI8; break;
case MONO_TYPE_U1: id = INTRINS_SSE_USUB_SATI8; break;
case MONO_TYPE_I2: id = INTRINS_SSE_SSUB_SATI16; break;
case MONO_TYPE_U2: id = INTRINS_SSE_USUB_SATI16; break;
default: g_assert_not_reached (); break;
}
}
LLVMTypeRef vecty = type_to_sse_type (type);
LLVMValueRef args [] = { convert (ctx, lhs, vecty), convert (ctx, rhs, vecty) };
LLVMValueRef result = call_intrins (ctx, id, args, dname);
values [ins->dreg] = convert (ctx, result, vecty);
break;
}
case OP_SSE2_PACKUS: {
LLVMValueRef args [2];
args [0] = convert (ctx, lhs, sse_i2_t);
args [1] = convert (ctx, rhs, sse_i2_t);
values [ins->dreg] = convert (ctx,
call_intrins (ctx, INTRINS_SSE_PACKUSWB, args, dname),
type_to_sse_type (ins->inst_c1));
break;
}
case OP_SSE2_SRLI: {
LLVMValueRef args [] = { lhs, rhs };
values [ins->dreg] = convert (ctx,
call_intrins (ctx, INTRINS_SSE_PSRLI_W, args, dname),
type_to_sse_type (ins->inst_c1));
break;
}
case OP_SSE2_PSLLDQ:
case OP_SSE2_PSRLDQ: {
LLVMBasicBlockRef bbs [16 + 1];
LLVMValueRef switch_ins;
LLVMValueRef value = lhs;
LLVMValueRef index = rhs;
LLVMValueRef phi_values [16 + 1];
LLVMTypeRef t = sse_i1_t;
int nelems = 16;
int i;
gboolean shift_right = (ins->opcode == OP_SSE2_PSRLDQ);
value = convert (ctx, value, t);
// No corresponding LLVM intrinsics
// FIXME: Optimize const count
for (i = 0; i < nelems; ++i)
bbs [i] = gen_bb (ctx, "PSLLDQ_CASE_BB");
bbs [nelems] = gen_bb (ctx, "PSLLDQ_DEF_BB");
cbb = gen_bb (ctx, "PSLLDQ_COND_BB");
switch_ins = LLVMBuildSwitch (builder, index, bbs [nelems], 0);
for (i = 0; i < nelems; ++i) {
LLVMAddCase (switch_ins, LLVMConstInt (LLVMInt32Type (), i, FALSE), bbs [i]);
LLVMPositionBuilderAtEnd (builder, bbs [i]);
int mask_values [16];
// Implement shift using a shuffle
if (shift_right) {
for (int j = 0; j < nelems - i; ++j)
mask_values [j] = i + j;
for (int j = nelems -i ; j < nelems; ++j)
mask_values [j] = nelems;
} else {
for (int j = 0; j < i; ++j)
mask_values [j] = nelems;
for (int j = 0; j < nelems - i; ++j)
mask_values [j + i] = j;
}
phi_values [i] = LLVMBuildShuffleVector (builder, value, LLVMGetUndef (t), create_const_vector_i32 (mask_values, nelems), "");
LLVMBuildBr (builder, cbb);
}
/* Default case */
LLVMPositionBuilderAtEnd (builder, bbs [nelems]);
phi_values [nelems] = LLVMConstNull (t);
LLVMBuildBr (builder, cbb);
LLVMPositionBuilderAtEnd (builder, cbb);
values [ins->dreg] = LLVMBuildPhi (builder, LLVMTypeOf (phi_values [0]), "");
LLVMAddIncoming (values [ins->dreg], phi_values, bbs, nelems + 1);
values [ins->dreg] = convert (ctx, values [ins->dreg], type_to_sse_type (ins->inst_c1));
ctx->bblocks [bb->block_num].end_bblock = cbb;
break;
}
case OP_SSE2_PSRAW_IMM:
case OP_SSE2_PSRAD_IMM:
case OP_SSE2_PSRLW_IMM:
case OP_SSE2_PSRLD_IMM:
case OP_SSE2_PSRLQ_IMM: {
LLVMValueRef value = lhs;
LLVMValueRef index = rhs;
IntrinsicId id;
// FIXME: Optimize const index case
/* Use the non-immediate version */
switch (ins->opcode) {
case OP_SSE2_PSRAW_IMM: id = INTRINS_SSE_PSRA_W; break;
case OP_SSE2_PSRAD_IMM: id = INTRINS_SSE_PSRA_D; break;
case OP_SSE2_PSRLW_IMM: id = INTRINS_SSE_PSRL_W; break;
case OP_SSE2_PSRLD_IMM: id = INTRINS_SSE_PSRL_D; break;
case OP_SSE2_PSRLQ_IMM: id = INTRINS_SSE_PSRL_Q; break;
default: g_assert_not_reached (); break;
}
LLVMTypeRef t = LLVMTypeOf (value);
LLVMValueRef index_vect = LLVMBuildInsertElement (builder, LLVMConstNull (t), convert (ctx, index, LLVMGetElementType (t)), const_int32 (0), "");
LLVMValueRef args [] = { value, index_vect };
values [ins->dreg] = call_intrins (ctx, id, args, "");
break;
}
case OP_SSE_SHUFPS:
case OP_SSE2_SHUFPD:
case OP_SSE2_PSHUFD:
case OP_SSE2_PSHUFHW:
case OP_SSE2_PSHUFLW: {
LLVMTypeRef ret_t = LLVMTypeOf (lhs);
LLVMValueRef l = lhs;
LLVMValueRef r = rhs;
LLVMValueRef ctl = arg3;
const char *oname = "";
int ncases = 0;
switch (ins->opcode) {
case OP_SSE_SHUFPS: ncases = 256; break;
case OP_SSE2_SHUFPD: ncases = 4; break;
case OP_SSE2_PSHUFD: case OP_SSE2_PSHUFHW: case OP_SSE2_PSHUFLW: ncases = 256; r = lhs; ctl = rhs; break;
}
switch (ins->opcode) {
case OP_SSE_SHUFPS: oname = "sse_shufps"; break;
case OP_SSE2_SHUFPD: oname = "sse2_shufpd"; break;
case OP_SSE2_PSHUFD: oname = "sse2_pshufd"; break;
case OP_SSE2_PSHUFHW: oname = "sse2_pshufhw"; break;
case OP_SSE2_PSHUFLW: oname = "sse2_pshuflw"; break;
}
ctl = LLVMBuildAnd (builder, ctl, const_int32 (ncases - 1), "");
ImmediateUnrollCtx ictx = immediate_unroll_begin (ctx, bb, ncases, ctl, ret_t, oname);
int mask_values [8];
int mask_len = 0;
int i = 0;
while (immediate_unroll_next (&ictx, &i)) {
switch (ins->opcode) {
case OP_SSE_SHUFPS:
mask_len = 4;
mask_values [0] = ((i >> 0) & 0x3) + 0; // take two elements from lhs
mask_values [1] = ((i >> 2) & 0x3) + 0;
mask_values [2] = ((i >> 4) & 0x3) + 4; // and two from rhs
mask_values [3] = ((i >> 6) & 0x3) + 4;
break;
case OP_SSE2_SHUFPD:
mask_len = 2;
mask_values [0] = ((i >> 0) & 0x1) + 0;
mask_values [1] = ((i >> 1) & 0x1) + 2;
break;
case OP_SSE2_PSHUFD:
/*
* Each 2 bits in mask selects 1 dword from the the source and copies it to the
* destination.
*/
mask_len = 4;
for (int j = 0; j < 4; ++j) {
int windex = (i >> (j * 2)) & 0x3;
mask_values [j] = windex;
}
break;
case OP_SSE2_PSHUFHW:
/*
* Each 2 bits in mask selects 1 word from the high quadword of the source and copies it to the
* high quadword of the destination.
*/
mask_len = 8;
/* The low quadword stays the same */
for (int j = 0; j < 4; ++j)
mask_values [j] = j;
for (int j = 0; j < 4; ++j) {
int windex = (i >> (j * 2)) & 0x3;
mask_values [j + 4] = 4 + windex;
}
break;
case OP_SSE2_PSHUFLW:
mask_len = 8;
/* The high quadword stays the same */
for (int j = 0; j < 4; ++j)
mask_values [j + 4] = j + 4;
for (int j = 0; j < 4; ++j) {
int windex = (i >> (j * 2)) & 0x3;
mask_values [j] = windex;
}
break;
}
LLVMValueRef mask = create_const_vector_i32 (mask_values, mask_len);
LLVMValueRef result = LLVMBuildShuffleVector (builder, l, r, mask, oname);
immediate_unroll_commit (&ictx, i, result);
}
immediate_unroll_default (&ictx);
immediate_unroll_commit_default (&ictx, LLVMGetUndef (ret_t));
values [ins->dreg] = immediate_unroll_end (&ictx, &cbb);
break;
}
case OP_SSE3_MOVDDUP: {
int mask [] = { 0, 0 };
values [ins->dreg] = LLVMBuildShuffleVector (builder, lhs,
LLVMGetUndef (LLVMTypeOf (lhs)),
create_const_vector_i32 (mask, 2), "");
break;
}
case OP_SSE3_MOVDDUP_MEM: {
LLVMValueRef undef = LLVMGetUndef (v128_r8_t);
LLVMValueRef addr = convert (ctx, lhs, LLVMPointerType (r8_t, 0));
LLVMValueRef elem = mono_llvm_build_aligned_load (builder, addr, "sse3_movddup_mem", FALSE, 1);
LLVMValueRef val = LLVMBuildInsertElement (builder, undef, elem, const_int32 (0), "sse3_movddup_mem");
values [ins->dreg] = LLVMBuildShuffleVector (builder, val, undef, LLVMConstNull (LLVMVectorType (i4_t, 2)), "sse3_movddup_mem");
break;
}
case OP_SSE3_MOVSHDUP: {
int mask [] = { 1, 1, 3, 3 };
values [ins->dreg] = LLVMBuildShuffleVector (builder, lhs, LLVMConstNull (LLVMTypeOf (lhs)), create_const_vector_i32 (mask, 4), "");
break;
}
case OP_SSE3_MOVSLDUP: {
int mask [] = { 0, 0, 2, 2 };
values [ins->dreg] = LLVMBuildShuffleVector (builder, lhs, LLVMConstNull (LLVMTypeOf (lhs)), create_const_vector_i32 (mask, 4), "");
break;
}
case OP_SSSE3_SHUFFLE: {
LLVMValueRef args [] = { lhs, rhs };
values [ins->dreg] = call_intrins (ctx, INTRINS_SSE_PSHUFB, args, dname);
break;
}
case OP_SSSE3_ABS: {
// %sub = sub <16 x i8> zeroinitializer, %arg
// %cmp = icmp sgt <16 x i8> %arg, zeroinitializer
// %abs = select <16 x i1> %cmp, <16 x i8> %arg, <16 x i8> %sub
LLVMTypeRef typ = type_to_sse_type (ins->inst_c1);
LLVMValueRef sub = LLVMBuildSub(builder, LLVMConstNull(typ), lhs, "");
LLVMValueRef cmp = LLVMBuildICmp(builder, LLVMIntSGT, lhs, LLVMConstNull(typ), "");
LLVMValueRef abs = LLVMBuildSelect (builder, cmp, lhs, sub, "");
values [ins->dreg] = convert (ctx, abs, typ);
break;
}
case OP_SSSE3_ALIGNR: {
LLVMTypeRef ret_t = simd_class_to_llvm_type (ctx, ins->klass);
LLVMValueRef zero = LLVMConstNull (v128_i1_t);
LLVMValueRef hivec = convert (ctx, lhs, v128_i1_t);
LLVMValueRef lovec = convert (ctx, rhs, v128_i1_t);
LLVMValueRef rshift_amount = convert (ctx, arg3, i1_t);
ImmediateUnrollCtx ictx = immediate_unroll_begin (ctx, bb, 32, rshift_amount, v128_i1_t, "ssse3_alignr");
LLVMValueRef mask_values [16]; // 128-bit vector, 8-bit elements, 16 total elements
int i = 0;
while (immediate_unroll_next (&ictx, &i)) {
LLVMValueRef hi = NULL;
LLVMValueRef lo = NULL;
if (i <= 16) {
for (int j = 0; j < 16; j++)
mask_values [j] = const_int32 (i + j);
lo = lovec;
hi = hivec;
} else {
for (int j = 0; j < 16; j++)
mask_values [j] = const_int32 (i + j - 16);
lo = hivec;
hi = zero;
}
LLVMValueRef shuffled = LLVMBuildShuffleVector (builder, lo, hi, LLVMConstVector (mask_values, 16), "ssse3_alignr");
immediate_unroll_commit (&ictx, i, shuffled);
}
immediate_unroll_default (&ictx);
immediate_unroll_commit_default (&ictx, zero);
LLVMValueRef result = immediate_unroll_end (&ictx, &cbb);
values [ins->dreg] = convert (ctx, result, ret_t);
break;
}
case OP_SSE41_ROUNDP: {
LLVMValueRef args [] = { lhs, LLVMConstInt (LLVMInt32Type (), ins->inst_c0, FALSE) };
values [ins->dreg] = call_intrins (ctx, ins->inst_c1 == MONO_TYPE_R4 ? INTRINS_SSE_ROUNDPS : INTRINS_SSE_ROUNDPD, args, dname);
break;
}
case OP_SSE41_ROUNDS: {
LLVMValueRef args [3];
args [0] = lhs;
args [1] = rhs;
args [2] = LLVMConstInt (LLVMInt32Type (), ins->inst_c0, FALSE);
values [ins->dreg] = call_intrins (ctx, ins->inst_c1 == MONO_TYPE_R4 ? INTRINS_SSE_ROUNDSS : INTRINS_SSE_ROUNDSD, args, dname);
break;
}
case OP_SSE41_DPPS:
case OP_SSE41_DPPD: {
/* Bits 0, 1, 4, 5 are meaningful for the control mask
* in dppd; all bits are meaningful for dpps.
*/
LLVMTypeRef ret_t = NULL;
LLVMValueRef mask = NULL;
int mask_bits = 0;
int high_shift = 0;
int low_mask = 0;
IntrinsicId iid = (IntrinsicId) 0;
const char *oname = "";
switch (ins->opcode) {
case OP_SSE41_DPPS:
ret_t = v128_r4_t;
mask = const_int8 (0xff); // 0b11111111
mask_bits = 8;
high_shift = 4;
low_mask = 0xf;
iid = INTRINS_SSE_DPPS;
oname = "sse41_dpps";
break;
case OP_SSE41_DPPD:
ret_t = v128_r8_t;
mask = const_int8 (0x33); // 0b00110011
mask_bits = 4;
high_shift = 2;
low_mask = 0x3;
iid = INTRINS_SSE_DPPD;
oname = "sse41_dppd";
break;
}
LLVMValueRef args [] = { lhs, rhs, NULL };
LLVMValueRef index = LLVMBuildAnd (builder, convert (ctx, arg3, i1_t), mask, oname);
ImmediateUnrollCtx ictx = immediate_unroll_begin (ctx, bb, 1 << mask_bits, index, ret_t, oname);
int i = 0;
while (immediate_unroll_next (&ictx, &i)) {
int imm = ((i >> high_shift) << 4) | (i & low_mask);
args [2] = const_int8 (imm);
LLVMValueRef result = call_intrins (ctx, iid, args, dname);
immediate_unroll_commit (&ictx, imm, result);
}
immediate_unroll_default (&ictx);
immediate_unroll_commit_default (&ictx, LLVMGetUndef (ret_t));
values [ins->dreg] = immediate_unroll_end (&ictx, &cbb);
break;
}
case OP_SSE41_MPSADBW: {
LLVMValueRef args [] = {
convert (ctx, lhs, sse_i1_t),
convert (ctx, rhs, sse_i1_t),
NULL,
};
LLVMValueRef ctl = convert (ctx, arg3, i1_t);
// Only 3 bits (bits 0-2) are used by mpsadbw and llvm.x86.sse41.mpsadbw
int used_bits = 0x7;
ctl = LLVMBuildAnd (builder, ctl, const_int8 (used_bits), "sse41_mpsadbw");
ImmediateUnrollCtx ictx = immediate_unroll_begin (ctx, bb, used_bits + 1, ctl, v128_i2_t, "sse41_mpsadbw");
int i = 0;
while (immediate_unroll_next (&ictx, &i)) {
args [2] = const_int8 (i);
LLVMValueRef result = call_intrins (ctx, INTRINS_SSE_MPSADBW, args, "sse41_mpsadbw");
immediate_unroll_commit (&ictx, i, result);
}
immediate_unroll_unreachable_default (&ictx);
values [ins->dreg] = immediate_unroll_end (&ictx, &cbb);
break;
}
case OP_SSE41_INSERTPS: {
LLVMValueRef ctl = convert (ctx, arg3, i1_t);
LLVMValueRef args [] = { lhs, rhs, NULL };
ImmediateUnrollCtx ictx = immediate_unroll_begin (ctx, bb, 256, ctl, v128_r4_t, "sse41_insertps");
int i = 0;
while (immediate_unroll_next (&ictx, &i)) {
args [2] = const_int8 (i);
LLVMValueRef result = call_intrins (ctx, INTRINS_SSE_INSERTPS, args, dname);
immediate_unroll_commit (&ictx, i, result);
}
immediate_unroll_unreachable_default (&ictx);
values [ins->dreg] = immediate_unroll_end (&ictx, &cbb);
break;
}
case OP_SSE41_BLEND: {
LLVMTypeRef ret_t = LLVMTypeOf (lhs);
int nelem = LLVMGetVectorSize (ret_t);
g_assert (nelem >= 2 && nelem <= 8); // I2, U2, R4, R8
int unique_ctl_patterns = 1 << nelem;
int ctlmask = unique_ctl_patterns - 1;
LLVMValueRef ctl = convert (ctx, arg3, i1_t);
ctl = LLVMBuildAnd (builder, ctl, const_int8 (ctlmask), "sse41_blend");
ImmediateUnrollCtx ictx = immediate_unroll_begin (ctx, bb, unique_ctl_patterns, ctl, ret_t, "sse41_blend");
int i = 0;
int mask_values [MAX_VECTOR_ELEMS] = { 0 };
while (immediate_unroll_next (&ictx, &i)) {
for (int lane = 0; lane < nelem; ++lane) {
// n-bit in inst_c0 (control byte) is set to 1
gboolean bit_set = (i & (1 << lane)) >> lane;
mask_values [lane] = lane + (bit_set ? nelem : 0);
}
LLVMValueRef mask = create_const_vector_i32 (mask_values, nelem);
LLVMValueRef result = LLVMBuildShuffleVector (builder, lhs, rhs, mask, "sse41_blend");
immediate_unroll_commit (&ictx, i, result);
}
immediate_unroll_default (&ictx);
immediate_unroll_commit_default (&ictx, LLVMGetUndef (ret_t));
values [ins->dreg] = immediate_unroll_end (&ictx, &cbb);
break;
}
case OP_SSE41_BLENDV: {
LLVMValueRef args [] = { lhs, rhs, values [ins->sreg3] };
if (ins->inst_c1 == MONO_TYPE_R4) {
values [ins->dreg] = call_intrins (ctx, INTRINS_SSE_BLENDVPS, args, dname);
} else if (ins->inst_c1 == MONO_TYPE_R8) {
values [ins->dreg] = call_intrins (ctx, INTRINS_SSE_BLENDVPD, args, dname);
} else {
// for other non-fp type just convert to <16 x i8> and pass to @llvm.x86.sse41.pblendvb
args [0] = LLVMBuildBitCast (ctx->builder, args [0], sse_i1_t, "");
args [1] = LLVMBuildBitCast (ctx->builder, args [1], sse_i1_t, "");
args [2] = LLVMBuildBitCast (ctx->builder, args [2], sse_i1_t, "");
values [ins->dreg] = call_intrins (ctx, INTRINS_SSE_PBLENDVB, args, dname);
}
break;
}
case OP_SSE_CVTII: {
gboolean is_signed = (ins->inst_c1 == MONO_TYPE_I1) ||
(ins->inst_c1 == MONO_TYPE_I2) || (ins->inst_c1 == MONO_TYPE_I4);
LLVMTypeRef vec_type;
if ((ins->inst_c1 == MONO_TYPE_I1) || (ins->inst_c1 == MONO_TYPE_U1))
vec_type = sse_i1_t;
else if ((ins->inst_c1 == MONO_TYPE_I2) || (ins->inst_c1 == MONO_TYPE_U2))
vec_type = sse_i2_t;
else
vec_type = sse_i4_t;
LLVMValueRef value;
if (LLVMGetTypeKind (LLVMTypeOf (lhs)) != LLVMVectorTypeKind) {
LLVMValueRef bitcasted = LLVMBuildBitCast (ctx->builder, lhs, LLVMPointerType (vec_type, 0), "");
value = mono_llvm_build_aligned_load (builder, bitcasted, "", FALSE, 1);
} else {
value = LLVMBuildBitCast (ctx->builder, lhs, vec_type, "");
}
LLVMValueRef mask_vec;
LLVMTypeRef dst_type;
if (ins->inst_c0 == MONO_TYPE_I2) {
mask_vec = create_const_vector_i32 (mask_0_incr_1, 8);
dst_type = sse_i2_t;
} else if (ins->inst_c0 == MONO_TYPE_I4) {
mask_vec = create_const_vector_i32 (mask_0_incr_1, 4);
dst_type = sse_i4_t;
} else {
g_assert (ins->inst_c0 == MONO_TYPE_I8);
mask_vec = create_const_vector_i32 (mask_0_incr_1, 2);
dst_type = sse_i8_t;
}
LLVMValueRef shuffled = LLVMBuildShuffleVector (builder, value,
LLVMGetUndef (vec_type), mask_vec, "");
if (is_signed)
values [ins->dreg] = LLVMBuildSExt (ctx->builder, shuffled, dst_type, "");
else
values [ins->dreg] = LLVMBuildZExt (ctx->builder, shuffled, dst_type, "");
break;
}
case OP_SSE41_LOADANT: {
LLVMValueRef dst_ptr = convert (ctx, lhs, LLVMPointerType (primitive_type_to_llvm_type (inst_c1_type (ins)), 0));
LLVMValueRef dst_vec = LLVMBuildBitCast (builder, dst_ptr, LLVMPointerType (type_to_sse_type (ins->inst_c1), 0), "");
LLVMValueRef load = mono_llvm_build_aligned_load (builder, dst_vec, "", FALSE, 16);
set_nontemporal_flag (load);
values [ins->dreg] = load;
break;
}
case OP_SSE41_MUL: {
const int shift_vals [] = { 32, 32 };
const LLVMValueRef args [] = {
convert (ctx, lhs, sse_i8_t),
convert (ctx, rhs, sse_i8_t),
};
LLVMValueRef mul_args [2] = { 0 };
LLVMValueRef shift_vec = create_const_vector (LLVMInt64Type (), shift_vals, 2);
for (int i = 0; i < 2; ++i) {
LLVMValueRef padded = LLVMBuildShl (builder, args [i], shift_vec, "");
mul_args[i] = mono_llvm_build_exact_ashr (builder, padded, shift_vec);
}
values [ins->dreg] = LLVMBuildNSWMul (builder, mul_args [0], mul_args [1], dname);
break;
}
case OP_SSE41_MULLO: {
values [ins->dreg] = LLVMBuildMul (ctx->builder, lhs, rhs, "");
break;
}
case OP_SSE42_CRC32:
case OP_SSE42_CRC64: {
LLVMValueRef args [2];
args [0] = lhs;
args [1] = convert (ctx, rhs, primitive_type_to_llvm_type (ins->inst_c0));
IntrinsicId id;
switch (ins->inst_c0) {
case MONO_TYPE_U1: id = INTRINS_SSE_CRC32_32_8; break;
case MONO_TYPE_U2: id = INTRINS_SSE_CRC32_32_16; break;
case MONO_TYPE_U4: id = INTRINS_SSE_CRC32_32_32; break;
case MONO_TYPE_U8: id = INTRINS_SSE_CRC32_64_64; break;
default: g_assert_not_reached (); break;
}
values [ins->dreg] = call_intrins (ctx, id, args, "");
break;
}
case OP_PCLMULQDQ: {
LLVMValueRef args [] = { lhs, rhs, NULL };
LLVMValueRef ctl = convert (ctx, arg3, i1_t);
// Only bits 0 and 4 of the immediate operand are used by PCLMULQDQ.
ctl = LLVMBuildAnd (builder, ctl, const_int8 (0x11), "pclmulqdq");
ImmediateUnrollCtx ictx = immediate_unroll_begin (ctx, bb, 1 << 2, ctl, v128_i8_t, "pclmulqdq");
int i = 0;
while (immediate_unroll_next (&ictx, &i)) {
int imm = ((i & 0x2) << 3) | (i & 0x1);
args [2] = const_int8 (imm);
LLVMValueRef result = call_intrins (ctx, INTRINS_PCLMULQDQ, args, "pclmulqdq");
immediate_unroll_commit (&ictx, imm, result);
}
immediate_unroll_unreachable_default (&ictx);
values [ins->dreg] = immediate_unroll_end (&ictx, &cbb);
break;
}
case OP_AES_KEYGENASSIST: {
LLVMValueRef roundconstant = convert (ctx, rhs, i1_t);
LLVMValueRef args [] = { convert (ctx, lhs, v128_i8_t), NULL };
ImmediateUnrollCtx ictx = immediate_unroll_begin (ctx, bb, 256, roundconstant, v128_i8_t, "aes_keygenassist");
int i = 0;
while (immediate_unroll_next (&ictx, &i)) {
args [1] = const_int8 (i);
LLVMValueRef result = call_intrins (ctx, INTRINS_AESNI_AESKEYGENASSIST, args, "aes_keygenassist");
immediate_unroll_commit (&ictx, i, result);
}
immediate_unroll_unreachable_default (&ictx);
LLVMValueRef result = immediate_unroll_end (&ictx, &cbb);
values [ins->dreg] = convert (ctx, result, v128_i1_t);
break;
}
#endif
case OP_XCOMPARE_FP: {
LLVMRealPredicate pred = fpcond_to_llvm_cond [ins->inst_c0];
LLVMValueRef cmp = LLVMBuildFCmp (builder, pred, lhs, rhs, "");
int nelems = LLVMGetVectorSize (LLVMTypeOf (cmp));
g_assert (LLVMTypeOf (lhs) == LLVMTypeOf (rhs));
if (ins->inst_c1 == MONO_TYPE_R8)
values [ins->dreg] = LLVMBuildBitCast (builder, LLVMBuildSExt (builder, cmp, LLVMVectorType (LLVMInt64Type (), nelems), ""), LLVMTypeOf (lhs), "");
else
values [ins->dreg] = LLVMBuildBitCast (builder, LLVMBuildSExt (builder, cmp, LLVMVectorType (LLVMInt32Type (), nelems), ""), LLVMTypeOf (lhs), "");
break;
}
case OP_XCOMPARE: {
LLVMIntPredicate pred = cond_to_llvm_cond [ins->inst_c0];
LLVMValueRef cmp = LLVMBuildICmp (builder, pred, lhs, rhs, "");
g_assert (LLVMTypeOf (lhs) == LLVMTypeOf (rhs));
values [ins->dreg] = LLVMBuildSExt (builder, cmp, LLVMTypeOf (lhs), "");
break;
}
case OP_POPCNT32:
values [ins->dreg] = call_intrins (ctx, INTRINS_CTPOP_I32, &lhs, "");
break;
case OP_POPCNT64:
values [ins->dreg] = call_intrins (ctx, INTRINS_CTPOP_I64, &lhs, "");
break;
case OP_CTTZ32:
case OP_CTTZ64: {
LLVMValueRef args [2];
args [0] = lhs;
args [1] = LLVMConstInt (LLVMInt1Type (), 0, FALSE);
values [ins->dreg] = call_intrins (ctx, ins->opcode == OP_CTTZ32 ? INTRINS_CTTZ_I32 : INTRINS_CTTZ_I64, args, "");
break;
}
case OP_BMI1_BEXTR32:
case OP_BMI1_BEXTR64: {
LLVMValueRef args [2];
args [0] = lhs;
args [1] = convert (ctx, rhs, ins->opcode == OP_BMI1_BEXTR32 ? i4_t : i8_t); // cast ushort to u32/u64
values [ins->dreg] = call_intrins (ctx, ins->opcode == OP_BMI1_BEXTR32 ? INTRINS_BEXTR_I32 : INTRINS_BEXTR_I64, args, "");
break;
}
case OP_BZHI32:
case OP_BZHI64: {
LLVMValueRef args [2];
args [0] = lhs;
args [1] = rhs;
values [ins->dreg] = call_intrins (ctx, ins->opcode == OP_BZHI32 ? INTRINS_BZHI_I32 : INTRINS_BZHI_I64, args, "");
break;
}
case OP_MULX_H32:
case OP_MULX_H64:
case OP_MULX_HL32:
case OP_MULX_HL64: {
gboolean is_64 = ins->opcode == OP_MULX_H64 || ins->opcode == OP_MULX_HL64;
gboolean only_high = ins->opcode == OP_MULX_H32 || ins->opcode == OP_MULX_H64;
LLVMValueRef lx = LLVMBuildZExt (ctx->builder, lhs, LLVMInt128Type (), "");
LLVMValueRef rx = LLVMBuildZExt (ctx->builder, rhs, LLVMInt128Type (), "");
LLVMValueRef mulx = LLVMBuildMul (ctx->builder, lx, rx, "");
if (!only_high) {
LLVMValueRef addr = convert (ctx, arg3, LLVMPointerType (is_64 ? i8_t : i4_t, 0));
LLVMValueRef lowx = LLVMBuildTrunc (ctx->builder, mulx, is_64 ? LLVMInt64Type () : LLVMInt32Type (), "");
LLVMBuildStore (ctx->builder, lowx, addr);
}
LLVMValueRef shift = LLVMConstInt (LLVMInt128Type (), is_64 ? 64 : 32, FALSE);
LLVMValueRef highx = LLVMBuildLShr (ctx->builder, mulx, shift, "");
values [ins->dreg] = LLVMBuildTrunc (ctx->builder, highx, is_64 ? LLVMInt64Type () : LLVMInt32Type (), "");
break;
}
case OP_PEXT32:
case OP_PEXT64: {
LLVMValueRef args [2];
args [0] = lhs;
args [1] = rhs;
values [ins->dreg] = call_intrins (ctx, ins->opcode == OP_PEXT32 ? INTRINS_PEXT_I32 : INTRINS_PEXT_I64, args, "");
break;
}
case OP_PDEP32:
case OP_PDEP64: {
LLVMValueRef args [2];
args [0] = lhs;
args [1] = rhs;
values [ins->dreg] = call_intrins (ctx, ins->opcode == OP_PDEP32 ? INTRINS_PDEP_I32 : INTRINS_PDEP_I64, args, "");
break;
}
#endif /* defined(TARGET_X86) || defined(TARGET_AMD64) */
// Shared between ARM64 and X86
#if defined(TARGET_ARM64) || defined(TARGET_X86) || defined(TARGET_AMD64)
case OP_LZCNT32:
case OP_LZCNT64: {
IntrinsicId iid = ins->opcode == OP_LZCNT32 ? INTRINS_CTLZ_I32 : INTRINS_CTLZ_I64;
LLVMValueRef args [] = { lhs, const_int1 (FALSE) };
values [ins->dreg] = call_intrins (ctx, iid, args, "");
break;
}
#endif
#if defined(TARGET_ARM64) || defined(TARGET_X86) || defined(TARGET_AMD64) || defined(TARGET_WASM)
case OP_XEQUAL: {
LLVMTypeRef t;
LLVMValueRef cmp, mask [MAX_VECTOR_ELEMS], shuffle;
int nelems;
#if defined(TARGET_WASM)
/* The wasm code generator doesn't understand the shuffle/and code sequence below */
LLVMValueRef val;
if (LLVMIsNull (lhs) || LLVMIsNull (rhs)) {
val = LLVMIsNull (lhs) ? rhs : lhs;
nelems = LLVMGetVectorSize (LLVMTypeOf (lhs));
IntrinsicId intrins = (IntrinsicId)0;
switch (nelems) {
case 16:
intrins = INTRINS_WASM_ANYTRUE_V16;
break;
case 8:
intrins = INTRINS_WASM_ANYTRUE_V8;
break;
case 4:
intrins = INTRINS_WASM_ANYTRUE_V4;
break;
case 2:
intrins = INTRINS_WASM_ANYTRUE_V2;
break;
default:
g_assert_not_reached ();
}
/* res = !wasm.anytrue (val) */
values [ins->dreg] = call_intrins (ctx, intrins, &val, "");
values [ins->dreg] = LLVMBuildZExt (builder, LLVMBuildICmp (builder, LLVMIntEQ, values [ins->dreg], LLVMConstInt (LLVMInt32Type (), 0, FALSE), ""), LLVMInt32Type (), dname);
break;
}
#endif
LLVMTypeRef srcelemt = LLVMGetElementType (LLVMTypeOf (lhs));
//%c = icmp sgt <16 x i8> %a0, %a1
if (srcelemt == LLVMDoubleType () || srcelemt == LLVMFloatType ())
cmp = LLVMBuildFCmp (builder, LLVMRealOEQ, lhs, rhs, "");
else
cmp = LLVMBuildICmp (builder, LLVMIntEQ, lhs, rhs, "");
nelems = LLVMGetVectorSize (LLVMTypeOf (cmp));
LLVMTypeRef elemt;
if (srcelemt == LLVMDoubleType ())
elemt = LLVMInt64Type ();
else if (srcelemt == LLVMFloatType ())
elemt = LLVMInt32Type ();
else
elemt = srcelemt;
t = LLVMVectorType (elemt, nelems);
cmp = LLVMBuildSExt (builder, cmp, t, "");
// cmp is a <nelems x elemt> vector, each element is either 0xff... or 0
int half = nelems / 2;
while (half >= 1) {
// AND the top and bottom halfes into the bottom half
for (int i = 0; i < half; ++i)
mask [i] = LLVMConstInt (LLVMInt32Type (), half + i, FALSE);
for (int i = half; i < nelems; ++i)
mask [i] = LLVMConstInt (LLVMInt32Type (), 0, FALSE);
shuffle = LLVMBuildShuffleVector (builder, cmp, LLVMGetUndef (t), LLVMConstVector (mask, LLVMGetVectorSize (t)), "");
cmp = LLVMBuildAnd (builder, cmp, shuffle, "");
half = half / 2;
}
// Extract [0]
LLVMValueRef first_elem = LLVMBuildExtractElement (builder, cmp, LLVMConstInt (LLVMInt32Type (), 0, FALSE), "");
// convert to 0/1
LLVMValueRef cmp_zero = LLVMBuildICmp (builder, LLVMIntNE, first_elem, LLVMConstInt (elemt, 0, FALSE), "");
values [ins->dreg] = LLVMBuildZExt (builder, cmp_zero, LLVMInt8Type (), "");
break;
}
#endif
#if defined(TARGET_ARM64)
case OP_XOP_I4_I4:
case OP_XOP_I8_I8: {
IntrinsicId id = (IntrinsicId)ins->inst_c0;
values [ins->dreg] = call_intrins (ctx, id, &lhs, "");
break;
}
case OP_XOP_X_X_X:
case OP_XOP_I4_I4_I4:
case OP_XOP_I4_I4_I8: {
IntrinsicId id = (IntrinsicId)ins->inst_c0;
gboolean zext_last = FALSE, bitcast_result = FALSE, getElement = FALSE;
int element_idx = -1;
switch (id) {
case INTRINS_AARCH64_PMULL64:
getElement = TRUE;
bitcast_result = TRUE;
element_idx = ins->inst_c1;
break;
case INTRINS_AARCH64_CRC32B:
case INTRINS_AARCH64_CRC32H:
case INTRINS_AARCH64_CRC32W:
case INTRINS_AARCH64_CRC32CB:
case INTRINS_AARCH64_CRC32CH:
case INTRINS_AARCH64_CRC32CW:
zext_last = TRUE;
break;
default:
break;
}
LLVMValueRef arg1 = rhs;
if (zext_last)
arg1 = LLVMBuildZExt (ctx->builder, arg1, LLVMInt32Type (), "");
LLVMValueRef args [] = { lhs, arg1 };
if (getElement) {
args [0] = LLVMBuildExtractElement (ctx->builder, args [0], const_int32 (element_idx), "");
args [1] = LLVMBuildExtractElement (ctx->builder, args [1], const_int32 (element_idx), "");
}
values [ins->dreg] = call_intrins (ctx, id, args, "");
if (bitcast_result)
values [ins->dreg] = convert (ctx, values [ins->dreg], LLVMVectorType (LLVMInt64Type (), 2));
break;
}
case OP_XOP_X_X_X_X: {
IntrinsicId id = (IntrinsicId)ins->inst_c0;
gboolean getLowerElement = FALSE;
int arg_idx = -1;
switch (id) {
case INTRINS_AARCH64_SHA1C:
case INTRINS_AARCH64_SHA1M:
case INTRINS_AARCH64_SHA1P:
getLowerElement = TRUE;
arg_idx = 1;
break;
default:
break;
}
LLVMValueRef args [] = { lhs, rhs, arg3 };
if (getLowerElement)
args [arg_idx] = LLVMBuildExtractElement (ctx->builder, args [arg_idx], const_int32 (0), "");
values [ins->dreg] = call_intrins (ctx, id, args, "");
break;
}
case OP_XOP_X_X: {
IntrinsicId id = (IntrinsicId)ins->inst_c0;
LLVMTypeRef ret_t = simd_class_to_llvm_type (ctx, ins->klass);
gboolean getLowerElement = FALSE;
switch (id) {
case INTRINS_AARCH64_SHA1H: getLowerElement = TRUE; break;
default: break;
}
LLVMValueRef arg0 = lhs;
if (getLowerElement)
arg0 = LLVMBuildExtractElement (ctx->builder, arg0, const_int32 (0), "");
LLVMValueRef result = call_intrins (ctx, id, &arg0, "");
if (getLowerElement)
result = vector_from_scalar (ctx, ret_t, result);
values [ins->dreg] = result;
break;
}
case OP_XCOMPARE_FP_SCALAR:
case OP_XCOMPARE_FP: {
g_assert (LLVMTypeOf (lhs) == LLVMTypeOf (rhs));
gboolean scalar = ins->opcode == OP_XCOMPARE_FP_SCALAR;
LLVMRealPredicate pred = fpcond_to_llvm_cond [ins->inst_c0];
LLVMTypeRef ret_t = LLVMTypeOf (lhs);
LLVMTypeRef reti_t = to_integral_vector_type (ret_t);
LLVMValueRef args [] = { lhs, rhs };
if (scalar)
for (int i = 0; i < 2; ++i)
args [i] = scalar_from_vector (ctx, args [i]);
LLVMValueRef result = LLVMBuildFCmp (builder, pred, args [0], args [1], "xcompare_fp");
if (scalar)
result = vector_from_scalar (ctx, LLVMVectorType (LLVMIntType (1), LLVMGetVectorSize (reti_t)), result);
result = LLVMBuildSExt (builder, result, reti_t, "");
result = LLVMBuildBitCast (builder, result, ret_t, "");
values [ins->dreg] = result;
break;
}
case OP_XCOMPARE_SCALAR:
case OP_XCOMPARE: {
g_assert (LLVMTypeOf (lhs) == LLVMTypeOf (rhs));
gboolean scalar = ins->opcode == OP_XCOMPARE_SCALAR;
LLVMIntPredicate pred = cond_to_llvm_cond [ins->inst_c0];
LLVMTypeRef ret_t = LLVMTypeOf (lhs);
LLVMValueRef args [] = { lhs, rhs };
if (scalar)
for (int i = 0; i < 2; ++i)
args [i] = scalar_from_vector (ctx, args [i]);
LLVMValueRef result = LLVMBuildICmp (builder, pred, args [0], args [1], "xcompare");
if (scalar)
result = vector_from_scalar (ctx, LLVMVectorType (LLVMIntType (1), LLVMGetVectorSize (ret_t)), result);
values [ins->dreg] = LLVMBuildSExt (builder, result, ret_t, "");
break;
}
case OP_ARM64_EXT: {
LLVMTypeRef ret_t = LLVMTypeOf (lhs);
unsigned int elems = LLVMGetVectorSize (ret_t);
g_assert (elems <= ARM64_MAX_VECTOR_ELEMS);
LLVMValueRef index = arg3;
LLVMValueRef default_value = lhs;
ImmediateUnrollCtx ictx = immediate_unroll_begin (ctx, bb, elems, index, ret_t, "arm64_ext");
int i = 0;
while (immediate_unroll_next (&ictx, &i)) {
LLVMValueRef mask = create_const_vector_i32 (&mask_0_incr_1 [i], elems);
LLVMValueRef result = LLVMBuildShuffleVector (builder, lhs, rhs, mask, "arm64_ext");
immediate_unroll_commit (&ictx, i, result);
}
immediate_unroll_default (&ictx);
immediate_unroll_commit_default (&ictx, default_value);
values [ins->dreg] = immediate_unroll_end (&ictx, &cbb);
break;
}
case OP_ARM64_MVN: {
LLVMTypeRef ret_t = LLVMTypeOf (lhs);
LLVMValueRef result = bitcast_to_integral (ctx, lhs);
result = LLVMBuildNot (builder, result, "arm64_mvn");
result = convert (ctx, result, ret_t);
values [ins->dreg] = result;
break;
}
case OP_ARM64_BIC: {
LLVMTypeRef ret_t = LLVMTypeOf (lhs);
LLVMValueRef result = bitcast_to_integral (ctx, lhs);
LLVMValueRef mask = bitcast_to_integral (ctx, rhs);
mask = LLVMBuildNot (builder, mask, "");
result = LLVMBuildAnd (builder, mask, result, "arm64_bic");
result = convert (ctx, result, ret_t);
values [ins->dreg] = result;
break;
}
case OP_ARM64_BSL: {
LLVMTypeRef ret_t = LLVMTypeOf (rhs);
LLVMValueRef select = bitcast_to_integral (ctx, lhs);
LLVMValueRef left = bitcast_to_integral (ctx, rhs);
LLVMValueRef right = bitcast_to_integral (ctx, arg3);
LLVMValueRef result1 = LLVMBuildAnd (builder, select, left, "arm64_bsl");
LLVMValueRef result2 = LLVMBuildAnd (builder, LLVMBuildNot (builder, select, ""), right, "");
LLVMValueRef result = LLVMBuildOr (builder, result1, result2, "");
result = convert (ctx, result, ret_t);
values [ins->dreg] = result;
break;
}
case OP_ARM64_CMTST: {
LLVMTypeRef ret_t = simd_class_to_llvm_type (ctx, ins->klass);
LLVMValueRef l = bitcast_to_integral (ctx, lhs);
LLVMValueRef r = bitcast_to_integral (ctx, rhs);
LLVMValueRef result = LLVMBuildAnd (builder, l, r, "arm64_cmtst");
LLVMTypeRef t = LLVMTypeOf (l);
result = LLVMBuildICmp (builder, LLVMIntNE, result, LLVMConstNull (t), "");
result = LLVMBuildSExt (builder, result, t, "");
result = convert (ctx, result, ret_t);
values [ins->dreg] = result;
break;
}
case OP_ARM64_FCVTL:
case OP_ARM64_FCVTL2: {
LLVMTypeRef ret_t = simd_class_to_llvm_type (ctx, ins->klass);
gboolean high = ins->opcode == OP_ARM64_FCVTL2;
LLVMValueRef result = lhs;
if (high)
result = extract_high_elements (ctx, result);
result = LLVMBuildFPExt (builder, result, ret_t, "arm64_fcvtl");
values [ins->dreg] = result;
break;
}
case OP_ARM64_FCVTXN:
case OP_ARM64_FCVTXN2:
case OP_ARM64_FCVTN:
case OP_ARM64_FCVTN2: {
gboolean high = FALSE;
int iid = 0;
switch (ins->opcode) {
case OP_ARM64_FCVTXN2: high = TRUE; case OP_ARM64_FCVTXN: iid = INTRINS_AARCH64_ADV_SIMD_FCVTXN; break;
case OP_ARM64_FCVTN2: high = TRUE; break;
}
LLVMValueRef result = lhs;
if (high)
result = rhs;
if (iid)
result = call_intrins (ctx, iid, &result, "");
else
result = LLVMBuildFPTrunc (builder, result, v64_r4_t, "");
if (high)
result = concatenate_vectors (ctx, lhs, result);
values [ins->dreg] = result;
break;
}
case OP_ARM64_UCVTF:
case OP_ARM64_SCVTF:
case OP_ARM64_UCVTF_SCALAR:
case OP_ARM64_SCVTF_SCALAR: {
LLVMTypeRef ret_t = simd_class_to_llvm_type (ctx, ins->klass);
gboolean scalar = FALSE;
gboolean is_unsigned = FALSE;
switch (ins->opcode) {
case OP_ARM64_UCVTF_SCALAR: scalar = TRUE; case OP_ARM64_UCVTF: is_unsigned = TRUE; break;
case OP_ARM64_SCVTF_SCALAR: scalar = TRUE; break;
}
LLVMValueRef result = lhs;
LLVMTypeRef cvt_t = ret_t;
if (scalar) {
result = scalar_from_vector (ctx, result);
cvt_t = LLVMGetElementType (ret_t);
}
if (is_unsigned)
result = LLVMBuildUIToFP (builder, result, cvt_t, "arm64_ucvtf");
else
result = LLVMBuildSIToFP (builder, result, cvt_t, "arm64_scvtf");
if (scalar)
result = vector_from_scalar (ctx, ret_t, result);
values [ins->dreg] = result;
break;
}
case OP_ARM64_FCVTZS:
case OP_ARM64_FCVTZS_SCALAR:
case OP_ARM64_FCVTZU:
case OP_ARM64_FCVTZU_SCALAR: {
LLVMTypeRef ret_t = simd_class_to_llvm_type (ctx, ins->klass);
gboolean scalar = FALSE;
gboolean is_unsigned = FALSE;
switch (ins->opcode) {
case OP_ARM64_FCVTZU_SCALAR: scalar = TRUE; case OP_ARM64_FCVTZU: is_unsigned = TRUE; break;
case OP_ARM64_FCVTZS_SCALAR: scalar = TRUE; break;
}
LLVMValueRef result = lhs;
LLVMTypeRef cvt_t = ret_t;
if (scalar) {
result = scalar_from_vector (ctx, result);
cvt_t = LLVMGetElementType (ret_t);
}
if (is_unsigned)
result = LLVMBuildFPToUI (builder, result, cvt_t, "arm64_fcvtzu");
else
result = LLVMBuildFPToSI (builder, result, cvt_t, "arm64_fcvtzs");
if (scalar)
result = vector_from_scalar (ctx, ret_t, result);
values [ins->dreg] = result;
break;
}
case OP_ARM64_SELECT_SCALAR: {
LLVMValueRef result = LLVMBuildExtractElement (builder, lhs, rhs, "");
LLVMTypeRef elem_t = LLVMTypeOf (result);
unsigned int elem_bits = mono_llvm_get_prim_size_bits (elem_t);
LLVMTypeRef t = LLVMVectorType (elem_t, 64 / elem_bits);
result = vector_from_scalar (ctx, t, result);
values [ins->dreg] = result;
break;
}
case OP_ARM64_SELECT_QUAD: {
LLVMTypeRef src_type = simd_class_to_llvm_type (ctx, ins->data.op [1].klass);
LLVMTypeRef ret_type = simd_class_to_llvm_type (ctx, ins->klass);
unsigned int src_type_bits = mono_llvm_get_prim_size_bits (src_type);
unsigned int ret_type_bits = mono_llvm_get_prim_size_bits (ret_type);
unsigned int src_intermediate_elems = src_type_bits / 32;
unsigned int ret_intermediate_elems = ret_type_bits / 32;
LLVMTypeRef intermediate_type = LLVMVectorType (i4_t, src_intermediate_elems);
LLVMValueRef result = LLVMBuildBitCast (builder, lhs, intermediate_type, "arm64_select_quad");
result = LLVMBuildExtractElement (builder, result, rhs, "arm64_select_quad");
result = broadcast_element (ctx, result, ret_intermediate_elems);
result = LLVMBuildBitCast (builder, result, ret_type, "arm64_select_quad");
values [ins->dreg] = result;
break;
}
case OP_LSCNT32:
case OP_LSCNT64: {
// %shr = ashr i32 %x, 31
// %xor = xor i32 %shr, %x
// %mul = shl i32 %xor, 1
// %add = or i32 %mul, 1
// %0 = tail call i32 @llvm.ctlz.i32(i32 %add, i1 false)
LLVMValueRef shr = LLVMBuildAShr (builder, lhs, ins->opcode == OP_LSCNT32 ?
LLVMConstInt (LLVMInt32Type (), 31, FALSE) :
LLVMConstInt (LLVMInt64Type (), 63, FALSE), "");
LLVMValueRef one = ins->opcode == OP_LSCNT32 ?
LLVMConstInt (LLVMInt32Type (), 1, FALSE) :
LLVMConstInt (LLVMInt64Type (), 1, FALSE);
LLVMValueRef xor = LLVMBuildXor (builder, shr, lhs, "");
LLVMValueRef mul = LLVMBuildShl (builder, xor, one, "");
LLVMValueRef add = LLVMBuildOr (builder, mul, one, "");
LLVMValueRef args [2];
args [0] = add;
args [1] = LLVMConstInt (LLVMInt1Type (), 0, FALSE);
values [ins->dreg] = LLVMBuildCall (builder, get_intrins (ctx, ins->opcode == OP_LSCNT32 ? INTRINS_CTLZ_I32 : INTRINS_CTLZ_I64), args, 2, "");
break;
}
case OP_ARM64_SQRDMLAH:
case OP_ARM64_SQRDMLAH_BYSCALAR:
case OP_ARM64_SQRDMLAH_SCALAR:
case OP_ARM64_SQRDMLSH:
case OP_ARM64_SQRDMLSH_BYSCALAR:
case OP_ARM64_SQRDMLSH_SCALAR: {
gboolean byscalar = FALSE;
gboolean scalar = FALSE;
gboolean subtract = FALSE;
switch (ins->opcode) {
case OP_ARM64_SQRDMLAH_BYSCALAR: byscalar = TRUE; break;
case OP_ARM64_SQRDMLAH_SCALAR: scalar = TRUE; break;
case OP_ARM64_SQRDMLSH: subtract = TRUE; break;
case OP_ARM64_SQRDMLSH_BYSCALAR: subtract = TRUE; byscalar = TRUE; break;
case OP_ARM64_SQRDMLSH_SCALAR: subtract = TRUE; scalar = TRUE; break;
}
int acc_iid = subtract ? INTRINS_AARCH64_ADV_SIMD_SQSUB : INTRINS_AARCH64_ADV_SIMD_SQADD;
LLVMTypeRef ret_t = simd_class_to_llvm_type (ctx, ins->klass);
llvm_ovr_tag_t ovr_tag = ovr_tag_from_llvm_type (ret_t);
ScalarOpFromVectorOpCtx sctx = scalar_op_from_vector_op (ctx, ret_t, ins);
LLVMValueRef args [] = { lhs, rhs, arg3 };
if (byscalar) {
unsigned int elems = LLVMGetVectorSize (ret_t);
args [2] = broadcast_element (ctx, scalar_from_vector (ctx, args [2]), elems);
}
if (scalar) {
ovr_tag = sctx.ovr_tag;
scalar_op_from_vector_op_process_args (&sctx, args, 3);
}
LLVMValueRef result = call_overloaded_intrins (ctx, INTRINS_AARCH64_ADV_SIMD_SQRDMULH, ovr_tag, &args [1], "arm64_sqrdmlxh");
args [1] = result;
result = call_overloaded_intrins (ctx, acc_iid, ovr_tag, &args [0], "arm64_sqrdmlxh");
if (scalar)
result = scalar_op_from_vector_op_process_result (&sctx, result);
values [ins->dreg] = result;
break;
}
case OP_ARM64_SMULH:
case OP_ARM64_UMULH: {
LLVMValueRef op1, op2;
if (ins->opcode == OP_ARM64_SMULH) {
op1 = LLVMBuildSExt (builder, lhs, LLVMInt128Type (), "");
op2 = LLVMBuildSExt (builder, rhs, LLVMInt128Type (), "");
} else {
op1 = LLVMBuildZExt (builder, lhs, LLVMInt128Type (), "");
op2 = LLVMBuildZExt (builder, rhs, LLVMInt128Type (), "");
}
LLVMValueRef mul = LLVMBuildMul (builder, op1, op2, "");
LLVMValueRef hi64 = LLVMBuildLShr (builder, mul,
LLVMConstInt (LLVMInt128Type (), 64, FALSE), "");
values [ins->dreg] = LLVMBuildTrunc (builder, hi64, LLVMInt64Type (), "");
break;
}
case OP_ARM64_XNARROW_SCALAR: {
// Unfortunately, @llvm.aarch64.neon.scalar.sqxtun isn't available for i8 or i16.
LLVMTypeRef ret_t = simd_class_to_llvm_type (ctx, ins->klass);
llvm_ovr_tag_t ovr_tag = ovr_tag_from_llvm_type (ret_t);
LLVMTypeRef elem_t = LLVMGetElementType (ret_t);
LLVMValueRef result = NULL;
int iid = ins->inst_c0;
int scalar_iid = 0;
switch (iid) {
case INTRINS_AARCH64_ADV_SIMD_SQXTUN: scalar_iid = INTRINS_AARCH64_ADV_SIMD_SCALAR_SQXTUN; break;
case INTRINS_AARCH64_ADV_SIMD_SQXTN: scalar_iid = INTRINS_AARCH64_ADV_SIMD_SCALAR_SQXTN; break;
case INTRINS_AARCH64_ADV_SIMD_UQXTN: scalar_iid = INTRINS_AARCH64_ADV_SIMD_SCALAR_UQXTN; break;
default: g_assert_not_reached ();
}
if (elem_t == i4_t) {
LLVMValueRef arg = scalar_from_vector (ctx, lhs);
result = call_intrins (ctx, scalar_iid, &arg, "arm64_xnarrow_scalar");
result = vector_from_scalar (ctx, ret_t, result);
} else {
LLVMTypeRef arg_t = LLVMTypeOf (lhs);
LLVMTypeRef argelem_t = LLVMGetElementType (arg_t);
unsigned int argelems = LLVMGetVectorSize (arg_t);
LLVMValueRef arg = keep_lowest_element (ctx, LLVMVectorType (argelem_t, argelems * 2), lhs);
result = call_overloaded_intrins (ctx, iid, ovr_tag, &arg, "arm64_xnarrow_scalar");
result = keep_lowest_element (ctx, LLVMTypeOf (result), result);
}
values [ins->dreg] = result;
break;
}
case OP_ARM64_SQXTUN2:
case OP_ARM64_UQXTN2:
case OP_ARM64_SQXTN2:
case OP_ARM64_XTN:
case OP_ARM64_XTN2: {
llvm_ovr_tag_t ovr_tag = ovr_tag_from_mono_vector_class (ins->klass);
gboolean high = FALSE;
int iid = 0;
switch (ins->opcode) {
case OP_ARM64_SQXTUN2: high = TRUE; iid = INTRINS_AARCH64_ADV_SIMD_SQXTUN; break;
case OP_ARM64_UQXTN2: high = TRUE; iid = INTRINS_AARCH64_ADV_SIMD_UQXTN; break;
case OP_ARM64_SQXTN2: high = TRUE; iid = INTRINS_AARCH64_ADV_SIMD_SQXTN; break;
case OP_ARM64_XTN2: high = TRUE; break;
}
LLVMValueRef result = lhs;
if (high) {
result = rhs;
ovr_tag = ovr_tag_smaller_vector (ovr_tag);
}
LLVMTypeRef t = LLVMTypeOf (result);
LLVMTypeRef elem_t = LLVMGetElementType (t);
unsigned int elems = LLVMGetVectorSize (t);
unsigned int elem_bits = mono_llvm_get_prim_size_bits (elem_t);
LLVMTypeRef result_t = LLVMVectorType (LLVMIntType (elem_bits / 2), elems);
if (iid != 0)
result = call_overloaded_intrins (ctx, iid, ovr_tag, &result, "");
else
result = LLVMBuildTrunc (builder, result, result_t, "arm64_xtn");
if (high)
result = concatenate_vectors (ctx, lhs, result);
values [ins->dreg] = result;
break;
}
case OP_ARM64_CLZ: {
llvm_ovr_tag_t ovr_tag = ovr_tag_from_mono_vector_class (ins->klass);
LLVMValueRef args [] = { lhs, const_int1 (0) };
LLVMValueRef result = call_overloaded_intrins (ctx, INTRINS_AARCH64_ADV_SIMD_CLZ, ovr_tag, args, "");
values [ins->dreg] = result;
break;
}
case OP_ARM64_FMSUB:
case OP_ARM64_FMSUB_BYSCALAR:
case OP_ARM64_FMSUB_SCALAR:
case OP_ARM64_FNMSUB_SCALAR:
case OP_ARM64_FMADD:
case OP_ARM64_FMADD_BYSCALAR:
case OP_ARM64_FMADD_SCALAR:
case OP_ARM64_FNMADD_SCALAR: {
llvm_ovr_tag_t ovr_tag = ovr_tag_from_mono_vector_class (ins->klass);
gboolean scalar = FALSE;
gboolean negate = FALSE;
gboolean subtract = FALSE;
gboolean byscalar = FALSE;
switch (ins->opcode) {
case OP_ARM64_FMSUB: subtract = TRUE; break;
case OP_ARM64_FMSUB_BYSCALAR: subtract = TRUE; byscalar = TRUE; break;
case OP_ARM64_FMSUB_SCALAR: subtract = TRUE; scalar = TRUE; break;
case OP_ARM64_FNMSUB_SCALAR: subtract = TRUE; scalar = TRUE; negate = TRUE; break;
case OP_ARM64_FMADD: break;
case OP_ARM64_FMADD_BYSCALAR: byscalar = TRUE; break;
case OP_ARM64_FMADD_SCALAR: scalar = TRUE; break;
case OP_ARM64_FNMADD_SCALAR: scalar = TRUE; negate = TRUE; break;
}
// llvm.fma argument order: mulop1, mulop2, addend
LLVMValueRef args [] = { rhs, arg3, lhs };
if (byscalar) {
unsigned int elems = LLVMGetVectorSize (LLVMTypeOf (args [0]));
args [1] = broadcast_element (ctx, scalar_from_vector (ctx, args [1]), elems);
}
if (scalar) {
ovr_tag = ovr_tag_force_scalar (ovr_tag);
for (int i = 0; i < 3; ++i)
args [i] = scalar_from_vector (ctx, args [i]);
}
if (subtract)
args [0] = LLVMBuildFNeg (builder, args [0], "arm64_fma_sub");
if (negate) {
args [0] = LLVMBuildFNeg (builder, args [0], "arm64_fma_negate");
args [2] = LLVMBuildFNeg (builder, args [2], "arm64_fma_negate");
}
LLVMValueRef result = call_overloaded_intrins (ctx, INTRINS_AARCH64_ADV_SIMD_FMA, ovr_tag, args, "arm64_fma");
if (scalar)
result = vector_from_scalar (ctx, LLVMTypeOf (lhs), result);
values [ins->dreg] = result;
break;
}
case OP_ARM64_SQDMULL:
case OP_ARM64_SQDMULL_BYSCALAR:
case OP_ARM64_SQDMULL2:
case OP_ARM64_SQDMULL2_BYSCALAR:
case OP_ARM64_SQDMLAL:
case OP_ARM64_SQDMLAL_BYSCALAR:
case OP_ARM64_SQDMLAL2:
case OP_ARM64_SQDMLAL2_BYSCALAR:
case OP_ARM64_SQDMLSL:
case OP_ARM64_SQDMLSL_BYSCALAR:
case OP_ARM64_SQDMLSL2:
case OP_ARM64_SQDMLSL2_BYSCALAR: {
llvm_ovr_tag_t ovr_tag = ovr_tag_from_mono_vector_class (ins->klass);
gboolean scalar = FALSE;
gboolean add = FALSE;
gboolean subtract = FALSE;
gboolean high = FALSE;
switch (ins->opcode) {
case OP_ARM64_SQDMULL_BYSCALAR: scalar = TRUE; case OP_ARM64_SQDMULL: break;
case OP_ARM64_SQDMULL2_BYSCALAR: scalar = TRUE; case OP_ARM64_SQDMULL2: high = TRUE; break;
case OP_ARM64_SQDMLAL_BYSCALAR: scalar = TRUE; case OP_ARM64_SQDMLAL: add = TRUE; break;
case OP_ARM64_SQDMLAL2_BYSCALAR: scalar = TRUE; case OP_ARM64_SQDMLAL2: high = TRUE; add = TRUE; break;
case OP_ARM64_SQDMLSL_BYSCALAR: scalar = TRUE; case OP_ARM64_SQDMLSL: subtract = TRUE; break;
case OP_ARM64_SQDMLSL2_BYSCALAR: scalar = TRUE; case OP_ARM64_SQDMLSL2: high = TRUE; subtract = TRUE; break;
}
int iid = 0;
if (add)
iid = INTRINS_AARCH64_ADV_SIMD_SQADD;
else if (subtract)
iid = INTRINS_AARCH64_ADV_SIMD_SQSUB;
LLVMValueRef mul1 = lhs;
LLVMValueRef mul2 = rhs;
if (iid != 0) {
mul1 = rhs;
mul2 = arg3;
}
if (scalar) {
LLVMTypeRef t = LLVMTypeOf (mul1);
unsigned int elems = LLVMGetVectorSize (t);
mul2 = broadcast_element (ctx, scalar_from_vector (ctx, mul2), elems);
}
LLVMValueRef args [] = { mul1, mul2 };
if (high)
for (int i = 0; i < 2; ++i)
args [i] = extract_high_elements (ctx, args [i]);
LLVMValueRef result = call_overloaded_intrins (ctx, INTRINS_AARCH64_ADV_SIMD_SQDMULL, ovr_tag, args, "");
LLVMValueRef args2 [] = { lhs, result };
if (iid != 0)
result = call_overloaded_intrins (ctx, iid, ovr_tag, args2, "");
values [ins->dreg] = result;
break;
}
case OP_ARM64_SQDMULL_SCALAR:
case OP_ARM64_SQDMLAL_SCALAR:
case OP_ARM64_SQDMLSL_SCALAR: {
/*
* define dso_local i32 @__vqdmlslh_lane_s16(i32, i16, <4 x i16>, i32) local_unnamed_addr #0 {
* %5 = insertelement <4 x i16> undef, i16 %1, i64 0
* %6 = shufflevector <4 x i16> %2, <4 x i16> undef, <4 x i32> <i32 3, i32 undef, i32 undef, i32 undef>
* %7 = tail call <4 x i32> @llvm.aarch64.neon.sqdmull.v4i32(<4 x i16> %5, <4 x i16> %6)
* %8 = extractelement <4 x i32> %7, i64 0
* %9 = tail call i32 @llvm.aarch64.neon.sqsub.i32(i32 %0, i32 %8)
* ret i32 %9
* }
*
* define dso_local i64 @__vqdmlals_s32(i64, i32, i32) local_unnamed_addr #0 {
* %4 = tail call i64 @llvm.aarch64.neon.sqdmulls.scalar(i32 %1, i32 %2) #2
* %5 = tail call i64 @llvm.aarch64.neon.sqadd.i64(i64 %0, i64 %4) #2
* ret i64 %5
* }
*/
int mulid = INTRINS_AARCH64_ADV_SIMD_SQDMULL;
int iid = 0;
gboolean scalar_mul_result = FALSE;
gboolean scalar_acc_result = FALSE;
switch (ins->opcode) {
case OP_ARM64_SQDMLAL_SCALAR: iid = INTRINS_AARCH64_ADV_SIMD_SQADD; break;
case OP_ARM64_SQDMLSL_SCALAR: iid = INTRINS_AARCH64_ADV_SIMD_SQSUB; break;
}
LLVMTypeRef ret_t = simd_class_to_llvm_type (ctx, ins->klass);
LLVMValueRef mularg = lhs;
LLVMValueRef selected_scalar = rhs;
if (iid != 0) {
mularg = rhs;
selected_scalar = arg3;
}
llvm_ovr_tag_t multag = ovr_tag_smaller_elements (ovr_tag_from_llvm_type (ret_t));
llvm_ovr_tag_t iidtag = ovr_tag_force_scalar (ovr_tag_from_llvm_type (ret_t));
LLVMTypeRef mularg_t = ovr_tag_to_llvm_type (multag);
if (multag & INTRIN_int32) {
/* The (i32, i32) -> i64 variant of aarch64_neon_sqdmull has
* a unique, non-overloaded name.
*/
mulid = INTRINS_AARCH64_ADV_SIMD_SQDMULL_SCALAR;
multag = 0;
iidtag = INTRIN_int64 | INTRIN_scalar;
scalar_mul_result = TRUE;
scalar_acc_result = TRUE;
} else if (multag & INTRIN_int16) {
/* We were passed a (<4 x i16>, <4 x i16>) but the
* widening multiplication intrinsic will yield a <4 x i32>.
*/
multag = INTRIN_int32 | INTRIN_vector128;
} else
g_assert_not_reached ();
if (scalar_mul_result) {
mularg = scalar_from_vector (ctx, mularg);
selected_scalar = scalar_from_vector (ctx, selected_scalar);
} else {
mularg = keep_lowest_element (ctx, mularg_t, mularg);
selected_scalar = keep_lowest_element (ctx, mularg_t, selected_scalar);
}
LLVMValueRef mulargs [] = { mularg, selected_scalar };
LLVMValueRef result = call_overloaded_intrins (ctx, mulid, multag, mulargs, "arm64_sqdmull_scalar");
if (iid != 0) {
LLVMValueRef acc = scalar_from_vector (ctx, lhs);
if (!scalar_mul_result)
result = scalar_from_vector (ctx, result);
LLVMValueRef subargs [] = { acc, result };
result = call_overloaded_intrins (ctx, iid, iidtag, subargs, "arm64_sqdmlxl_scalar");
scalar_acc_result = TRUE;
}
if (scalar_acc_result)
result = vector_from_scalar (ctx, ret_t, result);
else
result = keep_lowest_element (ctx, ret_t, result);
values [ins->dreg] = result;
break;
}
case OP_ARM64_FMUL_SEL: {
LLVMValueRef mul2 = LLVMBuildExtractElement (builder, rhs, arg3, "");
LLVMValueRef mul1 = scalar_from_vector (ctx, lhs);
LLVMValueRef result = LLVMBuildFMul (builder, mul1, mul2, "arm64_fmul_sel");
result = vector_from_scalar (ctx, LLVMTypeOf (lhs), result);
values [ins->dreg] = result;
break;
}
case OP_ARM64_MLA:
case OP_ARM64_MLA_SCALAR:
case OP_ARM64_MLS:
case OP_ARM64_MLS_SCALAR: {
gboolean scalar = FALSE;
gboolean add = FALSE;
switch (ins->opcode) {
case OP_ARM64_MLA_SCALAR: scalar = TRUE; case OP_ARM64_MLA: add = TRUE; break;
case OP_ARM64_MLS_SCALAR: scalar = TRUE; case OP_ARM64_MLS: break;
}
LLVMTypeRef mul_t = LLVMTypeOf (rhs);
unsigned int elems = LLVMGetVectorSize (mul_t);
LLVMValueRef mul2 = arg3;
if (scalar)
mul2 = broadcast_element (ctx, scalar_from_vector (ctx, mul2), elems);
LLVMValueRef result = LLVMBuildMul (builder, rhs, mul2, "");
if (add)
result = LLVMBuildAdd (builder, lhs, result, "");
else
result = LLVMBuildSub (builder, lhs, result, "");
values [ins->dreg] = result;
break;
}
case OP_ARM64_SMULL:
case OP_ARM64_SMULL_SCALAR:
case OP_ARM64_SMULL2:
case OP_ARM64_SMULL2_SCALAR:
case OP_ARM64_UMULL:
case OP_ARM64_UMULL_SCALAR:
case OP_ARM64_UMULL2:
case OP_ARM64_UMULL2_SCALAR:
case OP_ARM64_SMLAL:
case OP_ARM64_SMLAL_SCALAR:
case OP_ARM64_SMLAL2:
case OP_ARM64_SMLAL2_SCALAR:
case OP_ARM64_UMLAL:
case OP_ARM64_UMLAL_SCALAR:
case OP_ARM64_UMLAL2:
case OP_ARM64_UMLAL2_SCALAR:
case OP_ARM64_SMLSL:
case OP_ARM64_SMLSL_SCALAR:
case OP_ARM64_SMLSL2:
case OP_ARM64_SMLSL2_SCALAR:
case OP_ARM64_UMLSL:
case OP_ARM64_UMLSL_SCALAR:
case OP_ARM64_UMLSL2:
case OP_ARM64_UMLSL2_SCALAR: {
llvm_ovr_tag_t ovr_tag = ovr_tag_from_mono_vector_class (ins->klass);
gboolean is_unsigned = FALSE;
gboolean high = FALSE;
gboolean add = FALSE;
gboolean subtract = FALSE;
gboolean scalar = FALSE;
int opcode = ins->opcode;
switch (opcode) {
case OP_ARM64_SMULL_SCALAR: scalar = TRUE; opcode = OP_ARM64_SMULL; break;
case OP_ARM64_UMULL_SCALAR: scalar = TRUE; opcode = OP_ARM64_UMULL; break;
case OP_ARM64_SMLAL_SCALAR: scalar = TRUE; opcode = OP_ARM64_SMLAL; break;
case OP_ARM64_UMLAL_SCALAR: scalar = TRUE; opcode = OP_ARM64_UMLAL; break;
case OP_ARM64_SMLSL_SCALAR: scalar = TRUE; opcode = OP_ARM64_SMLSL; break;
case OP_ARM64_UMLSL_SCALAR: scalar = TRUE; opcode = OP_ARM64_UMLSL; break;
case OP_ARM64_SMULL2_SCALAR: scalar = TRUE; opcode = OP_ARM64_SMULL2; break;
case OP_ARM64_UMULL2_SCALAR: scalar = TRUE; opcode = OP_ARM64_UMULL2; break;
case OP_ARM64_SMLAL2_SCALAR: scalar = TRUE; opcode = OP_ARM64_SMLAL2; break;
case OP_ARM64_UMLAL2_SCALAR: scalar = TRUE; opcode = OP_ARM64_UMLAL2; break;
case OP_ARM64_SMLSL2_SCALAR: scalar = TRUE; opcode = OP_ARM64_SMLSL2; break;
case OP_ARM64_UMLSL2_SCALAR: scalar = TRUE; opcode = OP_ARM64_UMLSL2; break;
}
switch (opcode) {
case OP_ARM64_SMULL2: high = TRUE; case OP_ARM64_SMULL: break;
case OP_ARM64_UMULL2: high = TRUE; case OP_ARM64_UMULL: is_unsigned = TRUE; break;
case OP_ARM64_SMLAL2: high = TRUE; case OP_ARM64_SMLAL: add = TRUE; break;
case OP_ARM64_UMLAL2: high = TRUE; case OP_ARM64_UMLAL: add = TRUE; is_unsigned = TRUE; break;
case OP_ARM64_SMLSL2: high = TRUE; case OP_ARM64_SMLSL: subtract = TRUE; break;
case OP_ARM64_UMLSL2: high = TRUE; case OP_ARM64_UMLSL: subtract = TRUE; is_unsigned = TRUE; break;
}
int iid = is_unsigned ? INTRINS_AARCH64_ADV_SIMD_UMULL : INTRINS_AARCH64_ADV_SIMD_SMULL;
LLVMValueRef intrin_args [] = { lhs, rhs };
if (add || subtract) {
intrin_args [0] = rhs;
intrin_args [1] = arg3;
}
if (scalar) {
LLVMValueRef sarg = intrin_args [1];
LLVMTypeRef t = LLVMTypeOf (intrin_args [0]);
unsigned int elems = LLVMGetVectorSize (t);
sarg = broadcast_element (ctx, scalar_from_vector (ctx, sarg), elems);
intrin_args [1] = sarg;
}
if (high)
for (int i = 0; i < 2; ++i)
intrin_args [i] = extract_high_elements (ctx, intrin_args [i]);
LLVMValueRef result = call_overloaded_intrins (ctx, iid, ovr_tag, intrin_args, "");
if (add)
result = LLVMBuildAdd (builder, lhs, result, "");
if (subtract)
result = LLVMBuildSub (builder, lhs, result, "");
values [ins->dreg] = result;
break;
}
case OP_ARM64_XNEG:
case OP_ARM64_XNEG_SCALAR: {
gboolean scalar = ins->opcode == OP_ARM64_XNEG_SCALAR;
gboolean is_float = FALSE;
switch (inst_c1_type (ins)) {
case MONO_TYPE_R4: case MONO_TYPE_R8: is_float = TRUE;
}
LLVMValueRef result = lhs;
if (scalar)
result = scalar_from_vector (ctx, result);
if (is_float)
result = LLVMBuildFNeg (builder, result, "arm64_xneg");
else
result = LLVMBuildNeg (builder, result, "arm64_xneg");
if (scalar)
result = vector_from_scalar (ctx, LLVMTypeOf (lhs), result);
values [ins->dreg] = result;
break;
}
case OP_ARM64_PMULL:
case OP_ARM64_PMULL2: {
gboolean high = ins->opcode == OP_ARM64_PMULL2;
LLVMValueRef args [] = { lhs, rhs };
if (high)
for (int i = 0; i < 2; ++i)
args [i] = extract_high_elements (ctx, args [i]);
LLVMValueRef result = call_intrins (ctx, INTRINS_AARCH64_ADV_SIMD_PMULL, args, "arm64_pmull");
values [ins->dreg] = result;
break;
}
case OP_ARM64_REVN: {
LLVMTypeRef t = LLVMTypeOf (lhs);
LLVMTypeRef elem_t = LLVMGetElementType (t);
unsigned int group_bits = mono_llvm_get_prim_size_bits (elem_t);
unsigned int vec_bits = mono_llvm_get_prim_size_bits (t);
unsigned int tmp_bits = ins->inst_c0;
unsigned int tmp_elements = vec_bits / tmp_bits;
const int cycle8 [] = { 7, 6, 5, 4, 3, 2, 1, 0, 15, 14, 13, 12, 11, 10, 9, 8 };
const int cycle4 [] = { 3, 2, 1, 0, 7, 6, 5, 4, 11, 10, 9, 8, 15, 14, 13, 12 };
const int cycle2 [] = { 1, 0, 3, 2, 5, 4, 7, 6, 9, 8, 11, 10, 13, 12, 15, 14 };
const int *cycle = NULL;
switch (group_bits / tmp_bits) {
case 2: cycle = cycle2; break;
case 4: cycle = cycle4; break;
case 8: cycle = cycle8; break;
default: g_assert_not_reached ();
}
g_assert (tmp_elements <= ARM64_MAX_VECTOR_ELEMS);
LLVMTypeRef tmp_t = LLVMVectorType (LLVMIntType (tmp_bits), tmp_elements);
LLVMValueRef tmp = LLVMBuildBitCast (builder, lhs, tmp_t, "arm64_revn");
LLVMValueRef result = LLVMBuildShuffleVector (builder, tmp, LLVMGetUndef (tmp_t), create_const_vector_i32 (cycle, tmp_elements), "");
result = LLVMBuildBitCast (builder, result, t, "");
values [ins->dreg] = result;
break;
}
case OP_ARM64_SHL:
case OP_ARM64_SSHR:
case OP_ARM64_SSRA:
case OP_ARM64_USHR:
case OP_ARM64_USRA: {
gboolean right = FALSE;
gboolean add = FALSE;
gboolean arith = FALSE;
switch (ins->opcode) {
case OP_ARM64_USHR: right = TRUE; break;
case OP_ARM64_USRA: right = TRUE; add = TRUE; break;
case OP_ARM64_SSHR: arith = TRUE; break;
case OP_ARM64_SSRA: arith = TRUE; add = TRUE; break;
}
LLVMValueRef shiftarg = lhs;
LLVMValueRef shift = rhs;
if (add) {
shiftarg = rhs;
shift = arg3;
}
shift = create_shift_vector (ctx, shiftarg, shift);
LLVMValueRef result = NULL;
if (right)
result = LLVMBuildLShr (builder, shiftarg, shift, "");
else if (arith)
result = LLVMBuildAShr (builder, shiftarg, shift, "");
else
result = LLVMBuildShl (builder, shiftarg, shift, "");
if (add)
result = LLVMBuildAdd (builder, lhs, result, "arm64_usra");
values [ins->dreg] = result;
break;
}
case OP_ARM64_SHRN:
case OP_ARM64_SHRN2: {
LLVMValueRef shiftarg = lhs;
LLVMValueRef shift = rhs;
gboolean high = ins->opcode == OP_ARM64_SHRN2;
if (high) {
shiftarg = rhs;
shift = arg3;
}
LLVMTypeRef arg_t = LLVMTypeOf (shiftarg);
LLVMTypeRef elem_t = LLVMGetElementType (arg_t);
unsigned int elems = LLVMGetVectorSize (arg_t);
unsigned int bits = mono_llvm_get_prim_size_bits (elem_t);
LLVMTypeRef trunc_t = LLVMVectorType (LLVMIntType (bits / 2), elems);
shift = create_shift_vector (ctx, shiftarg, shift);
LLVMValueRef result = LLVMBuildLShr (builder, shiftarg, shift, "shrn");
result = LLVMBuildTrunc (builder, result, trunc_t, "");
if (high) {
result = concatenate_vectors (ctx, lhs, result);
}
values [ins->dreg] = result;
break;
}
case OP_ARM64_SRSHR:
case OP_ARM64_SRSRA:
case OP_ARM64_URSHR:
case OP_ARM64_URSRA: {
llvm_ovr_tag_t ovr_tag = ovr_tag_from_mono_vector_class (ins->klass);
LLVMValueRef shiftarg = lhs;
LLVMValueRef shift = rhs;
gboolean right = FALSE;
gboolean add = FALSE;
switch (ins->opcode) {
case OP_ARM64_URSRA: add = TRUE; case OP_ARM64_URSHR: right = TRUE; break;
case OP_ARM64_SRSRA: add = TRUE; case OP_ARM64_SRSHR: right = TRUE; break;
}
int iid = 0;
switch (ins->opcode) {
case OP_ARM64_URSRA: case OP_ARM64_URSHR: iid = INTRINS_AARCH64_ADV_SIMD_URSHL; break;
case OP_ARM64_SRSRA: case OP_ARM64_SRSHR: iid = INTRINS_AARCH64_ADV_SIMD_SRSHL; break;
}
if (add) {
shiftarg = rhs;
shift = arg3;
}
if (right)
shift = LLVMBuildNeg (builder, shift, "");
shift = create_shift_vector (ctx, shiftarg, shift);
LLVMValueRef args [] = { shiftarg, shift };
LLVMValueRef result = call_overloaded_intrins (ctx, iid, ovr_tag, args, "");
if (add)
result = LLVMBuildAdd (builder, result, lhs, "");
values [ins->dreg] = result;
break;
}
case OP_ARM64_XNSHIFT_SCALAR:
case OP_ARM64_XNSHIFT:
case OP_ARM64_XNSHIFT2: {
LLVMTypeRef intrin_result_t = simd_class_to_llvm_type (ctx, ins->klass);
llvm_ovr_tag_t ovr_tag = ovr_tag_from_llvm_type (intrin_result_t);
LLVMValueRef shift_arg = lhs;
LLVMValueRef shift_amount = rhs;
gboolean high = FALSE;
gboolean scalar = FALSE;
int iid = ins->inst_c0;
switch (ins->opcode) {
case OP_ARM64_XNSHIFT_SCALAR: scalar = TRUE; break;
case OP_ARM64_XNSHIFT2: high = TRUE; break;
}
if (high) {
shift_arg = rhs;
shift_amount = arg3;
ovr_tag = ovr_tag_smaller_vector (ovr_tag);
intrin_result_t = ovr_tag_to_llvm_type (ovr_tag);
}
LLVMTypeRef shift_arg_t = LLVMTypeOf (shift_arg);
LLVMTypeRef shift_arg_elem_t = LLVMGetElementType (shift_arg_t);
unsigned int element_bits = mono_llvm_get_prim_size_bits (shift_arg_elem_t);
int range_min = 1;
int range_max = element_bits / 2;
if (scalar) {
unsigned int elems = LLVMGetVectorSize (shift_arg_t);
LLVMValueRef lo = scalar_from_vector (ctx, shift_arg);
shift_arg = vector_from_scalar (ctx, LLVMVectorType (shift_arg_elem_t, elems * 2), lo);
}
int max_index = range_max - range_min + 1;
ImmediateUnrollCtx ictx = immediate_unroll_begin (ctx, bb, max_index, shift_amount, intrin_result_t, "arm64_xnshift");
int i = 0;
while (immediate_unroll_next (&ictx, &i)) {
int shift_const = i + range_min;
LLVMValueRef intrin_args [] = { shift_arg, const_int32 (shift_const) };
LLVMValueRef result = call_overloaded_intrins (ctx, iid, ovr_tag, intrin_args, "");
immediate_unroll_commit (&ictx, shift_const, result);
}
{
immediate_unroll_default (&ictx);
LLVMValueRef intrin_args [] = { shift_arg, const_int32 (range_max) };
LLVMValueRef result = call_overloaded_intrins (ctx, iid, ovr_tag, intrin_args, "");
immediate_unroll_commit_default (&ictx, result);
}
LLVMValueRef result = immediate_unroll_end (&ictx, &cbb);
if (high)
result = concatenate_vectors (ctx, lhs, result);
if (scalar)
result = keep_lowest_element (ctx, LLVMTypeOf (result), result);
values [ins->dreg] = result;
break;
}
case OP_ARM64_SQSHLU:
case OP_ARM64_SQSHLU_SCALAR: {
gboolean scalar = ins->opcode == OP_ARM64_SQSHLU_SCALAR;
LLVMTypeRef intrin_result_t = simd_class_to_llvm_type (ctx, ins->klass);
LLVMTypeRef elem_t = LLVMGetElementType (intrin_result_t);
unsigned int element_bits = mono_llvm_get_prim_size_bits (elem_t);
llvm_ovr_tag_t ovr_tag = ovr_tag_from_llvm_type (intrin_result_t);
int max_index = element_bits;
ScalarOpFromVectorOpCtx sctx = scalar_op_from_vector_op (ctx, intrin_result_t, ins);
intrin_result_t = scalar ? sctx.intermediate_type : intrin_result_t;
ovr_tag = scalar ? sctx.ovr_tag : ovr_tag;
ImmediateUnrollCtx ictx = immediate_unroll_begin (ctx, bb, max_index, rhs, intrin_result_t, "arm64_sqshlu");
int i = 0;
while (immediate_unroll_next (&ictx, &i)) {
int shift_const = i;
LLVMValueRef args [2] = { lhs, create_shift_vector (ctx, lhs, const_int32 (shift_const)) };
if (scalar)
scalar_op_from_vector_op_process_args (&sctx, args, 2);
LLVMValueRef result = call_overloaded_intrins (ctx, INTRINS_AARCH64_ADV_SIMD_SQSHLU, ovr_tag, args, "");
immediate_unroll_commit (&ictx, shift_const, result);
}
{
immediate_unroll_default (&ictx);
LLVMValueRef srcarg = lhs;
if (scalar)
scalar_op_from_vector_op_process_args (&sctx, &srcarg, 1);
immediate_unroll_commit_default (&ictx, srcarg);
}
LLVMValueRef result = immediate_unroll_end (&ictx, &cbb);
if (scalar)
result = scalar_op_from_vector_op_process_result (&sctx, result);
values [ins->dreg] = result;
break;
}
case OP_ARM64_SSHLL:
case OP_ARM64_SSHLL2:
case OP_ARM64_USHLL:
case OP_ARM64_USHLL2: {
LLVMTypeRef ret_t = simd_class_to_llvm_type (ctx, ins->klass);
gboolean high = FALSE;
gboolean is_unsigned = FALSE;
switch (ins->opcode) {
case OP_ARM64_SSHLL2: high = TRUE; break;
case OP_ARM64_USHLL2: high = TRUE; case OP_ARM64_USHLL: is_unsigned = TRUE; break;
}
LLVMValueRef result = lhs;
if (high)
result = extract_high_elements (ctx, result);
if (is_unsigned)
result = LLVMBuildZExt (builder, result, ret_t, "arm64_ushll");
else
result = LLVMBuildSExt (builder, result, ret_t, "arm64_ushll");
result = LLVMBuildShl (builder, result, create_shift_vector (ctx, result, rhs), "");
values [ins->dreg] = result;
break;
}
case OP_ARM64_SLI:
case OP_ARM64_SRI: {
LLVMTypeRef intrin_result_t = simd_class_to_llvm_type (ctx, ins->klass);
llvm_ovr_tag_t ovr_tag = ovr_tag_from_llvm_type (intrin_result_t);
unsigned int element_bits = mono_llvm_get_prim_size_bits (LLVMGetElementType (intrin_result_t));
int range_min = 0;
int range_max = element_bits - 1;
if (ins->opcode == OP_ARM64_SRI) {
++range_min;
++range_max;
}
int iid = ins->opcode == OP_ARM64_SRI ? INTRINS_AARCH64_ADV_SIMD_SRI : INTRINS_AARCH64_ADV_SIMD_SLI;
int max_index = range_max - range_min + 1;
ImmediateUnrollCtx ictx = immediate_unroll_begin (ctx, bb, max_index, arg3, intrin_result_t, "arm64_ext");
LLVMValueRef intrin_args [3] = { lhs, rhs, arg3 };
int i = 0;
while (immediate_unroll_next (&ictx, &i)) {
int shift_const = i + range_min;
intrin_args [2] = const_int32 (shift_const);
LLVMValueRef result = call_overloaded_intrins (ctx, iid, ovr_tag, intrin_args, "");
immediate_unroll_commit (&ictx, shift_const, result);
}
immediate_unroll_default (&ictx);
immediate_unroll_commit_default (&ictx, lhs);
LLVMValueRef result = immediate_unroll_end (&ictx, &cbb);
values [ins->dreg] = result;
break;
}
case OP_ARM64_SQRT_SCALAR: {
int iid = ins->inst_c0 == MONO_TYPE_R8 ? INTRINS_SQRT : INTRINS_SQRTF;
LLVMTypeRef t = LLVMTypeOf (lhs);
LLVMValueRef scalar = LLVMBuildExtractElement (builder, lhs, const_int32 (0), "");
LLVMValueRef result = call_intrins (ctx, iid, &scalar, "arm64_sqrt_scalar");
values [ins->dreg] = LLVMBuildInsertElement (builder, LLVMGetUndef (t), result, const_int32 (0), "");
break;
}
case OP_ARM64_STP:
case OP_ARM64_STP_SCALAR:
case OP_ARM64_STNP:
case OP_ARM64_STNP_SCALAR: {
gboolean nontemporal = FALSE;
gboolean scalar = FALSE;
switch (ins->opcode) {
case OP_ARM64_STNP: nontemporal = TRUE; break;
case OP_ARM64_STNP_SCALAR: nontemporal = TRUE; scalar = TRUE; break;
case OP_ARM64_STP_SCALAR: scalar = TRUE; break;
}
LLVMTypeRef rhs_t = LLVMTypeOf (rhs);
LLVMValueRef val = NULL;
LLVMTypeRef dst_t = LLVMPointerType (rhs_t, 0);
if (scalar)
val = LLVMBuildShuffleVector (builder, rhs, arg3, create_const_vector_2_i32 (0, 2), "");
else {
unsigned int rhs_elems = LLVMGetVectorSize (rhs_t);
LLVMTypeRef rhs_elt_t = LLVMGetElementType (rhs_t);
dst_t = LLVMPointerType (LLVMVectorType (rhs_elt_t, rhs_elems * 2), 0);
val = concatenate_vectors (ctx, rhs, arg3);
}
LLVMValueRef address = convert (ctx, lhs, dst_t);
LLVMValueRef store = mono_llvm_build_store (builder, val, address, FALSE, LLVM_BARRIER_NONE);
if (nontemporal)
set_nontemporal_flag (store);
break;
}
case OP_ARM64_LD1_INSERT: {
LLVMTypeRef ret_t = simd_class_to_llvm_type (ctx, ins->klass);
LLVMTypeRef elem_t = LLVMGetElementType (ret_t);
LLVMValueRef address = convert (ctx, arg3, LLVMPointerType (elem_t, 0));
unsigned int alignment = mono_llvm_get_prim_size_bits (ret_t) / 8;
LLVMValueRef result = mono_llvm_build_aligned_load (builder, address, "arm64_ld1_insert", FALSE, alignment);
result = LLVMBuildInsertElement (builder, lhs, result, rhs, "arm64_ld1_insert");
values [ins->dreg] = result;
break;
}
case OP_ARM64_LD1R:
case OP_ARM64_LD1: {
gboolean replicate = ins->opcode == OP_ARM64_LD1R;
LLVMTypeRef ret_t = simd_class_to_llvm_type (ctx, ins->klass);
unsigned int alignment = mono_llvm_get_prim_size_bits (ret_t) / 8;
LLVMValueRef address = lhs;
LLVMTypeRef address_t = LLVMPointerType (ret_t, 0);
if (replicate) {
LLVMTypeRef elem_t = LLVMGetElementType (ret_t);
address_t = LLVMPointerType (elem_t, 0);
}
address = convert (ctx, address, address_t);
LLVMValueRef result = mono_llvm_build_aligned_load (builder, address, "arm64_ld1", FALSE, alignment);
if (replicate) {
unsigned int elems = LLVMGetVectorSize (ret_t);
result = broadcast_element (ctx, result, elems);
}
values [ins->dreg] = result;
break;
}
case OP_ARM64_LDNP:
case OP_ARM64_LDNP_SCALAR:
case OP_ARM64_LDP:
case OP_ARM64_LDP_SCALAR: {
const char *oname = NULL;
gboolean nontemporal = FALSE;
gboolean scalar = FALSE;
switch (ins->opcode) {
case OP_ARM64_LDNP: oname = "arm64_ldnp"; nontemporal = TRUE; break;
case OP_ARM64_LDNP_SCALAR: oname = "arm64_ldnp_scalar"; nontemporal = TRUE; scalar = TRUE; break;
case OP_ARM64_LDP: oname = "arm64_ldp"; break;
case OP_ARM64_LDP_SCALAR: oname = "arm64_ldp_scalar"; scalar = TRUE; break;
}
if (!addresses [ins->dreg])
addresses [ins->dreg] = build_named_alloca (ctx, m_class_get_byval_arg (ins->klass), oname);
LLVMTypeRef ret_t = simd_valuetuple_to_llvm_type (ctx, ins->klass);
LLVMTypeRef vec_t = LLVMGetElementType (ret_t);
LLVMValueRef ix = const_int32 (1);
LLVMTypeRef src_t = LLVMPointerType (scalar ? LLVMGetElementType (vec_t) : vec_t, 0);
LLVMValueRef src0 = convert (ctx, lhs, src_t);
LLVMValueRef src1 = LLVMBuildGEP (builder, src0, &ix, 1, oname);
LLVMValueRef vals [] = { src0, src1 };
for (int i = 0; i < 2; ++i) {
vals [i] = LLVMBuildLoad (builder, vals [i], oname);
if (nontemporal)
set_nontemporal_flag (vals [i]);
}
unsigned int vec_sz = mono_llvm_get_prim_size_bits (vec_t);
if (scalar) {
g_assert (vec_sz == 64);
LLVMValueRef undef = LLVMGetUndef (vec_t);
for (int i = 0; i < 2; ++i)
vals [i] = LLVMBuildInsertElement (builder, undef, vals [i], const_int32 (0), oname);
}
LLVMValueRef val = LLVMGetUndef (ret_t);
for (int i = 0; i < 2; ++i)
val = LLVMBuildInsertValue (builder, val, vals [i], i, oname);
LLVMTypeRef retptr_t = LLVMPointerType (ret_t, 0);
LLVMValueRef dst = convert (ctx, addresses [ins->dreg], retptr_t);
LLVMBuildStore (builder, val, dst);
values [ins->dreg] = vec_sz == 64 ? val : NULL;
break;
}
case OP_ARM64_ST1: {
LLVMTypeRef t = LLVMTypeOf (rhs);
LLVMValueRef address = convert (ctx, lhs, LLVMPointerType (t, 0));
unsigned int alignment = mono_llvm_get_prim_size_bits (t) / 8;
mono_llvm_build_aligned_store (builder, rhs, address, FALSE, alignment);
break;
}
case OP_ARM64_ST1_SCALAR: {
LLVMTypeRef t = LLVMGetElementType (LLVMTypeOf (rhs));
LLVMValueRef val = LLVMBuildExtractElement (builder, rhs, arg3, "arm64_st1_scalar");
LLVMValueRef address = convert (ctx, lhs, LLVMPointerType (t, 0));
unsigned int alignment = mono_llvm_get_prim_size_bits (t) / 8;
mono_llvm_build_aligned_store (builder, val, address, FALSE, alignment);
break;
}
case OP_ARM64_ADDHN:
case OP_ARM64_ADDHN2:
case OP_ARM64_SUBHN:
case OP_ARM64_SUBHN2:
case OP_ARM64_RADDHN:
case OP_ARM64_RADDHN2:
case OP_ARM64_RSUBHN:
case OP_ARM64_RSUBHN2: {
LLVMValueRef args [2] = { lhs, rhs };
gboolean high = FALSE;
gboolean subtract = FALSE;
int iid = 0;
switch (ins->opcode) {
case OP_ARM64_ADDHN2: high = TRUE; case OP_ARM64_ADDHN: break;
case OP_ARM64_SUBHN2: high = TRUE; case OP_ARM64_SUBHN: subtract = TRUE; break;
case OP_ARM64_RSUBHN2: high = TRUE; case OP_ARM64_RSUBHN: iid = INTRINS_AARCH64_ADV_SIMD_RSUBHN; break;
case OP_ARM64_RADDHN2: high = TRUE; case OP_ARM64_RADDHN: iid = INTRINS_AARCH64_ADV_SIMD_RADDHN; break;
}
llvm_ovr_tag_t ovr_tag = ovr_tag_from_mono_vector_class (ins->klass);
if (high) {
args [0] = rhs;
args [1] = arg3;
ovr_tag = ovr_tag_smaller_vector (ovr_tag);
}
LLVMValueRef result = NULL;
if (iid != 0)
result = call_overloaded_intrins (ctx, iid, ovr_tag, args, "");
else {
LLVMTypeRef t = LLVMTypeOf (args [0]);
LLVMTypeRef elt_t = LLVMGetElementType (t);
unsigned int elems = LLVMGetVectorSize (t);
unsigned int elem_bits = mono_llvm_get_prim_size_bits (elt_t);
if (subtract)
result = LLVMBuildSub (builder, args [0], args [1], "");
else
result = LLVMBuildAdd (builder, args [0], args [1], "");
result = LLVMBuildLShr (builder, result, broadcast_constant (elem_bits / 2, elt_t, elems), "");
result = LLVMBuildTrunc (builder, result, LLVMVectorType (LLVMIntType (elem_bits / 2), elems), "");
}
if (high)
result = concatenate_vectors (ctx, lhs, result);
values [ins->dreg] = result;
break;
}
case OP_ARM64_SADD:
case OP_ARM64_UADD:
case OP_ARM64_SADD2:
case OP_ARM64_UADD2:
case OP_ARM64_SSUB:
case OP_ARM64_USUB:
case OP_ARM64_SSUB2:
case OP_ARM64_USUB2: {
LLVMTypeRef ret_t = simd_class_to_llvm_type (ctx, ins->klass);
gboolean is_unsigned = FALSE;
gboolean high = FALSE;
gboolean subtract = FALSE;
switch (ins->opcode) {
case OP_ARM64_SADD2: high = TRUE; case OP_ARM64_SADD: break;
case OP_ARM64_UADD2: high = TRUE; case OP_ARM64_UADD: is_unsigned = TRUE; break;
case OP_ARM64_SSUB2: high = TRUE; case OP_ARM64_SSUB: subtract = TRUE; break;
case OP_ARM64_USUB2: high = TRUE; case OP_ARM64_USUB: subtract = TRUE; is_unsigned = TRUE; break;
}
LLVMValueRef args [] = { lhs, rhs };
for (int i = 0; i < 2; ++i) {
LLVMValueRef arg = args [i];
LLVMTypeRef arg_t = LLVMTypeOf (arg);
if (high && arg_t != ret_t)
arg = extract_high_elements (ctx, arg);
if (is_unsigned)
arg = LLVMBuildZExt (builder, arg, ret_t, "");
else
arg = LLVMBuildSExt (builder, arg, ret_t, "");
args [i] = arg;
}
LLVMValueRef result = NULL;
if (subtract)
result = LLVMBuildSub (builder, args [0], args [1], "arm64_sub");
else
result = LLVMBuildAdd (builder, args [0], args [1], "arm64_add");
values [ins->dreg] = result;
break;
}
case OP_ARM64_SABAL:
case OP_ARM64_SABAL2:
case OP_ARM64_UABAL:
case OP_ARM64_UABAL2:
case OP_ARM64_SABDL:
case OP_ARM64_SABDL2:
case OP_ARM64_UABDL:
case OP_ARM64_UABDL2:
case OP_ARM64_SABA:
case OP_ARM64_UABA:
case OP_ARM64_SABD:
case OP_ARM64_UABD: {
LLVMTypeRef ret_t = simd_class_to_llvm_type (ctx, ins->klass);
gboolean is_unsigned = FALSE;
gboolean high = FALSE;
gboolean add = FALSE;
gboolean widen = FALSE;
switch (ins->opcode) {
case OP_ARM64_SABAL2: high = TRUE; case OP_ARM64_SABAL: widen = TRUE; add = TRUE; break;
case OP_ARM64_UABAL2: high = TRUE; case OP_ARM64_UABAL: widen = TRUE; add = TRUE; is_unsigned = TRUE; break;
case OP_ARM64_SABDL2: high = TRUE; case OP_ARM64_SABDL: widen = TRUE; break;
case OP_ARM64_UABDL2: high = TRUE; case OP_ARM64_UABDL: widen = TRUE; is_unsigned = TRUE; break;
case OP_ARM64_SABA: add = TRUE; break;
case OP_ARM64_UABA: add = TRUE; is_unsigned = TRUE; break;
case OP_ARM64_UABD: is_unsigned = TRUE; break;
}
LLVMValueRef args [] = { lhs, rhs };
if (add) {
args [0] = rhs;
args [1] = arg3;
}
if (high)
for (int i = 0; i < 2; ++i)
args [i] = extract_high_elements (ctx, args [i]);
int iid = is_unsigned ? INTRINS_AARCH64_ADV_SIMD_UABD : INTRINS_AARCH64_ADV_SIMD_SABD;
llvm_ovr_tag_t ovr_tag = ovr_tag_from_llvm_type (LLVMTypeOf (args [0]));
LLVMValueRef result = call_overloaded_intrins (ctx, iid, ovr_tag, args, "");
if (widen)
result = LLVMBuildZExt (builder, result, ret_t, "");
if (add)
result = LLVMBuildAdd (builder, result, lhs, "");
values [ins->dreg] = result;
break;
}
case OP_ARM64_XHORIZ: {
gboolean truncate = FALSE;
LLVMTypeRef arg_t = LLVMTypeOf (lhs);
LLVMTypeRef elem_t = LLVMGetElementType (arg_t);
LLVMTypeRef ret_t = simd_class_to_llvm_type (ctx, ins->klass);
llvm_ovr_tag_t ovr_tag = ovr_tag_from_llvm_type (arg_t);
if (elem_t == i1_t || elem_t == i2_t)
truncate = TRUE;
LLVMValueRef result = call_overloaded_intrins (ctx, ins->inst_c0, ovr_tag, &lhs, "");
if (truncate) {
// @llvm.aarch64.neon.saddv.i32.v8i16 ought to return an i16, but doesn't in LLVM 9.
result = LLVMBuildTrunc (builder, result, elem_t, "");
}
result = vector_from_scalar (ctx, ret_t, result);
values [ins->dreg] = result;
break;
}
case OP_ARM64_SADDLV:
case OP_ARM64_UADDLV: {
LLVMTypeRef arg_t = LLVMTypeOf (lhs);
LLVMTypeRef elem_t = LLVMGetElementType (arg_t);
LLVMTypeRef ret_t = simd_class_to_llvm_type (ctx, ins->klass);
llvm_ovr_tag_t ovr_tag = ovr_tag_from_llvm_type (arg_t);
gboolean truncate = elem_t == i1_t;
int iid = ins->opcode == OP_ARM64_UADDLV ? INTRINS_AARCH64_ADV_SIMD_UADDLV : INTRINS_AARCH64_ADV_SIMD_SADDLV;
LLVMValueRef result = call_overloaded_intrins (ctx, iid, ovr_tag, &lhs, "");
if (truncate) {
// @llvm.aarch64.neon.saddlv.i32.v16i8 ought to return an i16, but doesn't in LLVM 9.
result = LLVMBuildTrunc (builder, result, i2_t, "");
}
result = vector_from_scalar (ctx, ret_t, result);
values [ins->dreg] = result;
break;
}
case OP_ARM64_UADALP:
case OP_ARM64_SADALP: {
llvm_ovr_tag_t ovr_tag = ovr_tag_from_mono_vector_class (ins->klass);
int iid = ins->opcode == OP_ARM64_UADALP ? INTRINS_AARCH64_ADV_SIMD_UADDLP : INTRINS_AARCH64_ADV_SIMD_SADDLP;
LLVMValueRef result = call_overloaded_intrins (ctx, iid, ovr_tag, &rhs, "");
result = LLVMBuildAdd (builder, result, lhs, "");
values [ins->dreg] = result;
break;
}
case OP_ARM64_ADDP_SCALAR: {
llvm_ovr_tag_t ovr_tag = INTRIN_vector128 | INTRIN_int64;
LLVMValueRef result = call_overloaded_intrins (ctx, INTRINS_AARCH64_ADV_SIMD_UADDV, ovr_tag, &lhs, "arm64_addp_scalar");
result = LLVMBuildInsertElement (builder, LLVMConstNull (v64_i8_t), result, const_int32 (0), "");
values [ins->dreg] = result;
break;
}
case OP_ARM64_FADDP_SCALAR: {
LLVMTypeRef ret_t = simd_class_to_llvm_type (ctx, ins->klass);
LLVMValueRef hi = LLVMBuildExtractElement (builder, lhs, const_int32 (0), "");
LLVMValueRef lo = LLVMBuildExtractElement (builder, lhs, const_int32 (1), "");
LLVMValueRef result = LLVMBuildFAdd (builder, hi, lo, "arm64_faddp_scalar");
result = LLVMBuildInsertElement (builder, LLVMConstNull (ret_t), result, const_int32 (0), "");
values [ins->dreg] = result;
break;
}
case OP_ARM64_XADDV: {
IntrinsicId iid = (IntrinsicId) ins->inst_c0;
LLVMTypeRef arg_t = LLVMTypeOf (lhs);
llvm_ovr_tag_t ovr_tag = ovr_tag_from_llvm_type (arg_t);
LLVMValueRef result = call_overloaded_intrins (ctx, iid, ovr_tag, &lhs, "arm64_xaddv");
values [ins->dreg] = result;
break;
}
case OP_ARM64_SXTL:
case OP_ARM64_SXTL2:
case OP_ARM64_UXTL:
case OP_ARM64_UXTL2: {
gboolean high = FALSE;
gboolean is_unsigned = FALSE;
switch (ins->opcode) {
case OP_ARM64_SXTL2: high = TRUE; break;
case OP_ARM64_UXTL2: high = TRUE; case OP_ARM64_UXTL: is_unsigned = TRUE; break;
}
LLVMTypeRef t = LLVMTypeOf (lhs);
unsigned int elem_bits = LLVMGetIntTypeWidth (LLVMGetElementType (t));
unsigned int src_elems = LLVMGetVectorSize (t);
unsigned int dst_elems = src_elems;
LLVMValueRef arg = lhs;
if (high) {
arg = extract_high_elements (ctx, lhs);
dst_elems = LLVMGetVectorSize (LLVMTypeOf (arg));
}
LLVMTypeRef result_t = LLVMVectorType (LLVMIntType (elem_bits * 2), dst_elems);
LLVMValueRef result = NULL;
if (is_unsigned)
result = LLVMBuildZExt (builder, arg, result_t, "arm64_uxtl");
else
result = LLVMBuildSExt (builder, arg, result_t, "arm64_sxtl");
values [ins->dreg] = result;
break;
}
case OP_ARM64_TRN1:
case OP_ARM64_TRN2: {
gboolean high = ins->opcode == OP_ARM64_TRN2;
LLVMTypeRef t = LLVMTypeOf (lhs);
unsigned int src_elems = LLVMGetVectorSize (t);
int mask [MAX_VECTOR_ELEMS] = { 0 };
int laneix = high ? 1 : 0;
for (unsigned int i = 0; i < src_elems; i += 2) {
mask [i] = laneix;
mask [i + 1] = laneix + src_elems;
laneix += 2;
}
values [ins->dreg] = LLVMBuildShuffleVector (builder, lhs, rhs, create_const_vector_i32 (mask, src_elems), "arm64_uzp");
break;
}
case OP_ARM64_UZP1:
case OP_ARM64_UZP2: {
gboolean high = ins->opcode == OP_ARM64_UZP2;
LLVMTypeRef t = LLVMTypeOf (lhs);
unsigned int src_elems = LLVMGetVectorSize (t);
int mask [MAX_VECTOR_ELEMS] = { 0 };
int laneix = high ? 1 : 0;
for (unsigned int i = 0; i < src_elems; ++i) {
mask [i] = laneix;
laneix += 2;
}
values [ins->dreg] = LLVMBuildShuffleVector (builder, lhs, rhs, create_const_vector_i32 (mask, src_elems), "arm64_uzp");
break;
}
case OP_ARM64_ZIP1:
case OP_ARM64_ZIP2: {
gboolean high = ins->opcode == OP_ARM64_ZIP2;
LLVMTypeRef t = LLVMTypeOf (lhs);
unsigned int src_elems = LLVMGetVectorSize (t);
int mask [MAX_VECTOR_ELEMS] = { 0 };
int laneix = high ? src_elems / 2 : 0;
for (unsigned int i = 0; i < src_elems; i += 2) {
mask [i] = laneix;
mask [i + 1] = laneix + src_elems;
++laneix;
}
values [ins->dreg] = LLVMBuildShuffleVector (builder, lhs, rhs, create_const_vector_i32 (mask, src_elems), "arm64_zip");
break;
}
case OP_ARM64_ABSCOMPARE: {
IntrinsicId iid = (IntrinsicId) ins->inst_c0;
gboolean scalar = ins->inst_c1;
LLVMTypeRef ret_t = simd_class_to_llvm_type (ctx, ins->klass);
LLVMTypeRef elem_t = LLVMGetElementType (ret_t);
llvm_ovr_tag_t ovr_tag = ovr_tag_from_mono_vector_class (ins->klass);
ovr_tag = ovr_tag_corresponding_integer (ovr_tag);
LLVMValueRef args [] = { lhs, rhs };
LLVMTypeRef result_t = ret_t;
if (scalar) {
ovr_tag = ovr_tag_force_scalar (ovr_tag);
result_t = elem_t;
for (int i = 0; i < 2; ++i)
args [i] = scalar_from_vector (ctx, args [i]);
}
LLVMValueRef result = call_overloaded_intrins (ctx, iid, ovr_tag, args, "");
result = LLVMBuildBitCast (builder, result, result_t, "");
if (scalar)
result = vector_from_scalar (ctx, ret_t, result);
values [ins->dreg] = result;
break;
}
case OP_XOP_OVR_X_X: {
IntrinsicId iid = (IntrinsicId) ins->inst_c0;
llvm_ovr_tag_t ovr_tag = ovr_tag_from_mono_vector_class (ins->klass);
values [ins->dreg] = call_overloaded_intrins (ctx, iid, ovr_tag, &lhs, "");
break;
}
case OP_XOP_OVR_X_X_X: {
IntrinsicId iid = (IntrinsicId) ins->inst_c0;
llvm_ovr_tag_t ovr_tag = ovr_tag_from_mono_vector_class (ins->klass);
LLVMValueRef args [] = { lhs, rhs };
values [ins->dreg] = call_overloaded_intrins (ctx, iid, ovr_tag, args, "");
break;
}
case OP_XOP_OVR_X_X_X_X: {
IntrinsicId iid = (IntrinsicId) ins->inst_c0;
llvm_ovr_tag_t ovr_tag = ovr_tag_from_mono_vector_class (ins->klass);
LLVMValueRef args [] = { lhs, rhs, arg3 };
values [ins->dreg] = call_overloaded_intrins (ctx, iid, ovr_tag, args, "");
break;
}
case OP_XOP_OVR_BYSCALAR_X_X_X: {
IntrinsicId iid = (IntrinsicId) ins->inst_c0;
llvm_ovr_tag_t ovr_tag = ovr_tag_from_mono_vector_class (ins->klass);
LLVMTypeRef t = LLVMTypeOf (lhs);
unsigned int elems = LLVMGetVectorSize (t);
LLVMValueRef arg2 = broadcast_element (ctx, scalar_from_vector (ctx, rhs), elems);
LLVMValueRef args [] = { lhs, arg2 };
values [ins->dreg] = call_overloaded_intrins (ctx, iid, ovr_tag, args, "");
break;
}
case OP_XOP_OVR_SCALAR_X_X:
case OP_XOP_OVR_SCALAR_X_X_X:
case OP_XOP_OVR_SCALAR_X_X_X_X: {
int num_args = 0;
IntrinsicId iid = (IntrinsicId) ins->inst_c0;
LLVMTypeRef ret_t = simd_class_to_llvm_type (ctx, ins->klass);
switch (ins->opcode) {
case OP_XOP_OVR_SCALAR_X_X: num_args = 1; break;
case OP_XOP_OVR_SCALAR_X_X_X: num_args = 2; break;
case OP_XOP_OVR_SCALAR_X_X_X_X: num_args = 3; break;
}
/* LLVM 9 NEON intrinsic functions have scalar overloads. Unfortunately
* only overloads for 32 and 64-bit integers and floating point types are
* supported. 8 and 16-bit integers are unsupported, and will fail during
* instruction selection. This is worked around by using a vector
* operation and then explicitly clearing the upper bits of the register.
*/
ScalarOpFromVectorOpCtx sctx = scalar_op_from_vector_op (ctx, ret_t, ins);
LLVMValueRef args [3] = { lhs, rhs, arg3 };
scalar_op_from_vector_op_process_args (&sctx, args, num_args);
LLVMValueRef result = call_overloaded_intrins (ctx, iid, sctx.ovr_tag, args, "");
result = scalar_op_from_vector_op_process_result (&sctx, result);
values [ins->dreg] = result;
break;
}
#endif
case OP_DUMMY_USE:
break;
/*
* EXCEPTION HANDLING
*/
case OP_IMPLICIT_EXCEPTION:
/* This marks a place where an implicit exception can happen */
if (bb->region != -1)
set_failure (ctx, "implicit-exception");
break;
case OP_THROW:
case OP_RETHROW: {
gboolean rethrow = (ins->opcode == OP_RETHROW);
if (ctx->llvm_only) {
emit_llvmonly_throw (ctx, bb, rethrow, lhs);
has_terminator = TRUE;
ctx->unreachable [bb->block_num] = TRUE;
} else {
emit_throw (ctx, bb, rethrow, lhs);
builder = ctx->builder;
}
break;
}
case OP_CALL_HANDLER: {
/*
* We don't 'call' handlers, but instead simply branch to them.
* The code generated by ENDFINALLY will branch back to us.
*/
LLVMBasicBlockRef noex_bb;
GSList *bb_list;
BBInfo *info = &bblocks [ins->inst_target_bb->block_num];
bb_list = info->call_handler_return_bbs;
/*
* Set the indicator variable for the finally clause.
*/
lhs = info->finally_ind;
g_assert (lhs);
LLVMBuildStore (builder, LLVMConstInt (LLVMInt32Type (), g_slist_length (bb_list) + 1, FALSE), lhs);
/* Branch to the finally clause */
LLVMBuildBr (builder, info->call_handler_target_bb);
noex_bb = gen_bb (ctx, "CALL_HANDLER_CONT_BB");
info->call_handler_return_bbs = g_slist_append_mempool (cfg->mempool, info->call_handler_return_bbs, noex_bb);
builder = ctx->builder = create_builder (ctx);
LLVMPositionBuilderAtEnd (ctx->builder, noex_bb);
bblocks [bb->block_num].end_bblock = noex_bb;
break;
}
case OP_START_HANDLER: {
break;
}
case OP_ENDFINALLY: {
LLVMBasicBlockRef resume_bb;
MonoBasicBlock *handler_bb;
LLVMValueRef val, switch_ins, callee;
GSList *bb_list;
BBInfo *info;
gboolean is_fault = MONO_REGION_FLAGS (bb->region) == MONO_EXCEPTION_CLAUSE_FAULT;
/*
* Fault clauses are like finally clauses, but they are only called if an exception is thrown.
*/
if (!is_fault) {
handler_bb = (MonoBasicBlock*)g_hash_table_lookup (ctx->region_to_handler, GUINT_TO_POINTER (mono_get_block_region_notry (cfg, bb->region)));
g_assert (handler_bb);
info = &bblocks [handler_bb->block_num];
lhs = info->finally_ind;
g_assert (lhs);
bb_list = info->call_handler_return_bbs;
resume_bb = gen_bb (ctx, "ENDFINALLY_RESUME_BB");
/* Load the finally variable */
val = LLVMBuildLoad (builder, lhs, "");
/* Reset the variable */
LLVMBuildStore (builder, LLVMConstInt (LLVMInt32Type (), 0, FALSE), lhs);
/* Branch to either resume_bb, or to the bblocks in bb_list */
switch_ins = LLVMBuildSwitch (builder, val, resume_bb, g_slist_length (bb_list));
/*
* The other targets are added at the end to handle OP_CALL_HANDLER
* opcodes processed later.
*/
info->endfinally_switch_ins_list = g_slist_append_mempool (cfg->mempool, info->endfinally_switch_ins_list, switch_ins);
builder = ctx->builder = create_builder (ctx);
LLVMPositionBuilderAtEnd (ctx->builder, resume_bb);
}
if (ctx->llvm_only) {
if (!cfg->deopt) {
emit_resume_eh (ctx, bb);
} else {
/* Not needed */
LLVMBuildUnreachable (builder);
}
} else {
LLVMTypeRef icall_sig = LLVMFunctionType (LLVMVoidType (), NULL, 0, FALSE);
if (ctx->cfg->compile_aot) {
callee = get_callee (ctx, icall_sig, MONO_PATCH_INFO_JIT_ICALL_ID, GUINT_TO_POINTER (MONO_JIT_ICALL_mono_llvm_resume_unwind_trampoline));
} else {
callee = get_jit_callee (ctx, "llvm_resume_unwind_trampoline", icall_sig, MONO_PATCH_INFO_JIT_ICALL_ID, GUINT_TO_POINTER (MONO_JIT_ICALL_mono_llvm_resume_unwind_trampoline));
}
LLVMBuildCall (builder, callee, NULL, 0, "");
LLVMBuildUnreachable (builder);
}
has_terminator = TRUE;
break;
}
case OP_ENDFILTER: {
g_assert (cfg->llvm_only && cfg->deopt);
LLVMBuildUnreachable (builder);
has_terminator = TRUE;
break;
}
case OP_IL_SEQ_POINT:
break;
default: {
char reason [128];
sprintf (reason, "opcode %s", mono_inst_name (ins->opcode));
set_failure (ctx, reason);
break;
}
}
if (!ctx_ok (ctx))
break;
/* Convert the value to the type required by phi nodes */
if (spec [MONO_INST_DEST] != ' ' && !MONO_IS_STORE_MEMBASE (ins) && ctx->vreg_types [ins->dreg]) {
if (ctx->is_vphi [ins->dreg])
/* vtypes */
values [ins->dreg] = addresses [ins->dreg];
else
values [ins->dreg] = convert (ctx, values [ins->dreg], ctx->vreg_types [ins->dreg]);
}
/* Add stores for volatile/ref variables */
if (spec [MONO_INST_DEST] != ' ' && spec [MONO_INST_DEST] != 'v' && !MONO_IS_STORE_MEMBASE (ins)) {
if (!skip_volatile_store)
emit_volatile_store (ctx, ins->dreg);
#ifdef TARGET_WASM
if (vreg_is_ref (cfg, ins->dreg) && ctx->values [ins->dreg])
emit_gc_pin (ctx, builder, ins->dreg);
#endif
}
}
if (!ctx_ok (ctx))
return;
if (!has_terminator && bb->next_bb && (bb == cfg->bb_entry || bb->in_count > 0)) {
LLVMBuildBr (builder, get_bb (ctx, bb->next_bb));
}
if (bb == cfg->bb_exit && sig->ret->type == MONO_TYPE_VOID) {
emit_dbg_loc (ctx, builder, cfg->header->code + cfg->header->code_size - 1);
LLVMBuildRetVoid (builder);
}
if (bb == cfg->bb_entry)
ctx->last_alloca = LLVMGetLastInstruction (get_bb (ctx, cfg->bb_entry));
}
/*
* mono_llvm_check_method_supported:
*
* Do some quick checks to decide whenever cfg->method can be compiled by LLVM, to avoid
* compiling a method twice.
*/
void
mono_llvm_check_method_supported (MonoCompile *cfg)
{
int i, j;
#ifdef TARGET_WASM
if (mono_method_signature_internal (cfg->method)->call_convention == MONO_CALL_VARARG) {
cfg->exception_message = g_strdup ("vararg callconv");
cfg->disable_llvm = TRUE;
return;
}
#endif
if (cfg->llvm_only)
return;
if (cfg->method->save_lmf) {
cfg->exception_message = g_strdup ("lmf");
cfg->disable_llvm = TRUE;
}
if (cfg->disable_llvm)
return;
/*
* Nested clauses where one of the clauses is a finally clause is
* not supported, because LLVM can't figure out the control flow,
* probably because we resume exception handling by calling our
* own function instead of using the 'resume' llvm instruction.
*/
for (i = 0; i < cfg->header->num_clauses; ++i) {
for (j = 0; j < cfg->header->num_clauses; ++j) {
MonoExceptionClause *clause1 = &cfg->header->clauses [i];
MonoExceptionClause *clause2 = &cfg->header->clauses [j];
// FIXME: Nested try clauses fail in some cases too, i.e. #37273
if (i != j && clause1->try_offset >= clause2->try_offset && clause1->handler_offset <= clause2->handler_offset) {
//(clause1->flags == MONO_EXCEPTION_CLAUSE_FINALLY || clause2->flags == MONO_EXCEPTION_CLAUSE_FINALLY)) {
cfg->exception_message = g_strdup ("nested clauses");
cfg->disable_llvm = TRUE;
break;
}
}
}
if (cfg->disable_llvm)
return;
/* FIXME: */
if (cfg->method->dynamic) {
cfg->exception_message = g_strdup ("dynamic.");
cfg->disable_llvm = TRUE;
}
if (cfg->disable_llvm)
return;
}
static LLVMCallInfo*
get_llvm_call_info (MonoCompile *cfg, MonoMethodSignature *sig)
{
LLVMCallInfo *linfo;
int i;
if (cfg->gsharedvt && cfg->llvm_only && mini_is_gsharedvt_variable_signature (sig)) {
int i, n, pindex;
/*
* Gsharedvt methods have the following calling convention:
* - all arguments are passed by ref, even non generic ones
* - the return value is returned by ref too, using a vret
* argument passed after 'this'.
*/
n = sig->param_count + sig->hasthis;
linfo = (LLVMCallInfo*)mono_mempool_alloc0 (cfg->mempool, sizeof (LLVMCallInfo) + (sizeof (LLVMArgInfo) * n));
pindex = 0;
if (sig->hasthis)
linfo->args [pindex ++].storage = LLVMArgNormal;
if (sig->ret->type != MONO_TYPE_VOID) {
if (mini_is_gsharedvt_variable_type (sig->ret))
linfo->ret.storage = LLVMArgGsharedvtVariable;
else if (mini_type_is_vtype (sig->ret))
linfo->ret.storage = LLVMArgGsharedvtFixedVtype;
else
linfo->ret.storage = LLVMArgGsharedvtFixed;
linfo->vret_arg_index = pindex;
} else {
linfo->ret.storage = LLVMArgNone;
}
for (i = 0; i < sig->param_count; ++i) {
if (m_type_is_byref (sig->params [i]))
linfo->args [pindex].storage = LLVMArgNormal;
else if (mini_is_gsharedvt_variable_type (sig->params [i]))
linfo->args [pindex].storage = LLVMArgGsharedvtVariable;
else if (mini_type_is_vtype (sig->params [i]))
linfo->args [pindex].storage = LLVMArgGsharedvtFixedVtype;
else
linfo->args [pindex].storage = LLVMArgGsharedvtFixed;
linfo->args [pindex].type = sig->params [i];
pindex ++;
}
return linfo;
}
linfo = mono_arch_get_llvm_call_info (cfg, sig);
linfo->dummy_arg_pindex = -1;
for (i = 0; i < sig->param_count; ++i)
linfo->args [i + sig->hasthis].type = sig->params [i];
return linfo;
}
static void
emit_method_inner (EmitContext *ctx);
static void
free_ctx (EmitContext *ctx)
{
GSList *l;
g_free (ctx->values);
g_free (ctx->addresses);
g_free (ctx->vreg_types);
g_free (ctx->is_vphi);
g_free (ctx->vreg_cli_types);
g_free (ctx->is_dead);
g_free (ctx->unreachable);
g_free (ctx->gc_var_indexes);
g_ptr_array_free (ctx->phi_values, TRUE);
g_free (ctx->bblocks);
g_hash_table_destroy (ctx->region_to_handler);
g_hash_table_destroy (ctx->clause_to_handler);
g_hash_table_destroy (ctx->jit_callees);
g_ptr_array_free (ctx->callsite_list, TRUE);
g_free (ctx->method_name);
g_ptr_array_free (ctx->bblock_list, TRUE);
for (l = ctx->builders; l; l = l->next) {
LLVMBuilderRef builder = (LLVMBuilderRef)l->data;
LLVMDisposeBuilder (builder);
}
g_free (ctx);
}
static gboolean
is_linkonce_method (MonoMethod *method)
{
#ifdef TARGET_WASM
/*
* Under wasm, linkonce works, so use it instead of the dedup pass for wrappers at least.
* FIXME: Use for everything, i.e. can_dedup ().
* FIXME: Fails System.Core tests
* -> amodule->sorted_methods contains duplicates, screwing up jit tables.
*/
// FIXME: This works, but the aot data for the methods is still kept, so size still increases
#if 0
if (method->wrapper_type == MONO_WRAPPER_OTHER) {
WrapperInfo *info = mono_marshal_get_wrapper_info (method);
if (info->subtype == WRAPPER_SUBTYPE_GSHAREDVT_IN_SIG || info->subtype == WRAPPER_SUBTYPE_GSHAREDVT_OUT_SIG)
return TRUE;
}
#endif
#endif
return FALSE;
}
/*
* mono_llvm_emit_method:
*
* Emit LLVM IL from the mono IL, and compile it to native code using LLVM.
*/
void
mono_llvm_emit_method (MonoCompile *cfg)
{
EmitContext *ctx;
char *method_name;
gboolean is_linkonce = FALSE;
int i;
if (cfg->skip)
return;
/* The code below might acquire the loader lock, so use it for global locking */
mono_loader_lock ();
ctx = g_new0 (EmitContext, 1);
ctx->cfg = cfg;
ctx->mempool = cfg->mempool;
/*
* This maps vregs to the LLVM instruction defining them
*/
ctx->values = g_new0 (LLVMValueRef, cfg->next_vreg);
/*
* This maps vregs for volatile variables to the LLVM instruction defining their
* address.
*/
ctx->addresses = g_new0 (LLVMValueRef, cfg->next_vreg);
ctx->vreg_types = g_new0 (LLVMTypeRef, cfg->next_vreg);
ctx->is_vphi = g_new0 (gboolean, cfg->next_vreg);
ctx->vreg_cli_types = g_new0 (MonoType*, cfg->next_vreg);
ctx->phi_values = g_ptr_array_sized_new (256);
/*
* This signals whenever the vreg was defined by a phi node with no input vars
* (i.e. all its input bblocks end with NOT_REACHABLE).
*/
ctx->is_dead = g_new0 (gboolean, cfg->next_vreg);
/* Whenever the bblock is unreachable */
ctx->unreachable = g_new0 (gboolean, cfg->max_block_num);
ctx->bblock_list = g_ptr_array_sized_new (256);
ctx->region_to_handler = g_hash_table_new (NULL, NULL);
ctx->clause_to_handler = g_hash_table_new (NULL, NULL);
ctx->callsite_list = g_ptr_array_new ();
ctx->jit_callees = g_hash_table_new (NULL, NULL);
if (cfg->compile_aot) {
ctx->module = &aot_module;
/*
* Allow the linker to discard duplicate copies of wrappers, generic instances etc. by using the 'linkonce'
* linkage for them. This requires the following:
* - the method needs to have a unique mangled name
* - llvmonly mode, since the code in aot-runtime.c would initialize got slots in the wrong aot image etc.
*/
if (ctx->module->llvm_only && ctx->module->static_link && is_linkonce_method (cfg->method))
is_linkonce = TRUE;
if (is_linkonce || mono_aot_is_externally_callable (cfg->method))
method_name = mono_aot_get_mangled_method_name (cfg->method);
else
method_name = mono_aot_get_method_name (cfg);
cfg->llvm_method_name = g_strdup (method_name);
} else {
ctx->module = init_jit_module ();
method_name = mono_method_full_name (cfg->method, TRUE);
}
ctx->method_name = method_name;
ctx->is_linkonce = is_linkonce;
if (cfg->compile_aot) {
ctx->lmodule = ctx->module->lmodule;
} else {
ctx->lmodule = LLVMModuleCreateWithName (g_strdup_printf ("jit-module-%s", cfg->method->name));
}
ctx->llvm_only = ctx->module->llvm_only;
#ifdef TARGET_WASM
ctx->emit_dummy_arg = TRUE;
#endif
emit_method_inner (ctx);
if (!ctx_ok (ctx)) {
if (ctx->lmethod) {
/* Need to add unused phi nodes as they can be referenced by other values */
LLVMBasicBlockRef phi_bb = LLVMAppendBasicBlock (ctx->lmethod, "PHI_BB");
LLVMBuilderRef builder;
builder = create_builder (ctx);
LLVMPositionBuilderAtEnd (builder, phi_bb);
for (i = 0; i < ctx->phi_values->len; ++i) {
LLVMValueRef v = (LLVMValueRef)g_ptr_array_index (ctx->phi_values, i);
if (LLVMGetInstructionParent (v) == NULL)
LLVMInsertIntoBuilder (builder, v);
}
if (ctx->module->llvm_only && ctx->module->static_link && cfg->interp) {
/* The caller will retry compilation */
LLVMDeleteFunction (ctx->lmethod);
} else if (ctx->module->llvm_only && ctx->module->static_link) {
// Keep a stub for the function since it might be called directly
int nbbs = LLVMCountBasicBlocks (ctx->lmethod);
LLVMBasicBlockRef *bblocks = g_new0 (LLVMBasicBlockRef, nbbs);
LLVMGetBasicBlocks (ctx->lmethod, bblocks);
for (int i = 0; i < nbbs; ++i)
LLVMRemoveBasicBlockFromParent (bblocks [i]);
LLVMBasicBlockRef entry_bb = LLVMAppendBasicBlock (ctx->lmethod, "ENTRY");
builder = create_builder (ctx);
LLVMPositionBuilderAtEnd (builder, entry_bb);
ctx->builder = builder;
LLVMTypeRef sig = LLVMFunctionType0 (LLVMVoidType (), FALSE);
LLVMValueRef callee = get_callee (ctx, sig, MONO_PATCH_INFO_JIT_ICALL_ADDR, GUINT_TO_POINTER (MONO_JIT_ICALL_mini_llvmonly_throw_nullref_exception));
LLVMBuildCall (builder, callee, NULL, 0, "");
LLVMBuildUnreachable (builder);
/* Clean references to instructions inside the method */
for (int i = 0; i < ctx->callsite_list->len; ++i) {
CallSite *callsite = (CallSite*)g_ptr_array_index (ctx->callsite_list, i);
if (callsite->lmethod == ctx->lmethod)
callsite->load = NULL;
}
} else {
LLVMDeleteFunction (ctx->lmethod);
}
}
}
free_ctx (ctx);
mono_loader_unlock ();
}
static void
emit_method_inner (EmitContext *ctx)
{
MonoCompile *cfg = ctx->cfg;
MonoMethodSignature *sig;
MonoBasicBlock *bb;
LLVMTypeRef method_type;
LLVMValueRef method = NULL;
LLVMValueRef *values = ctx->values;
int i, max_block_num, bb_index;
gboolean llvmonly_fail = FALSE;
LLVMCallInfo *linfo;
LLVMModuleRef lmodule = ctx->lmodule;
BBInfo *bblocks;
GPtrArray *bblock_list = ctx->bblock_list;
MonoMethodHeader *header;
MonoExceptionClause *clause;
char **names;
LLVMBuilderRef entry_builder = NULL;
LLVMBasicBlockRef entry_bb = NULL;
if (cfg->gsharedvt && !cfg->llvm_only) {
set_failure (ctx, "gsharedvt");
return;
}
#if 0
{
static int count = 0;
count ++;
char *llvm_count_str = g_getenv ("LLVM_COUNT");
if (llvm_count_str) {
int lcount = atoi (llvm_count_str);
g_free (llvm_count_str);
if (count == lcount) {
printf ("LAST: %s\n", mono_method_full_name (cfg->method, TRUE));
fflush (stdout);
}
if (count > lcount) {
set_failure (ctx, "count");
return;
}
}
}
#endif
// If we come upon one of the init_method wrappers, we need to find
// the method that we have already emitted and tell LLVM that this
// managed method info for the wrapper is associated with this method
// we constructed ourselves from LLVM IR.
//
// This is necessary to unwind through the init_method, in the case that
// it has to run a static cctor that throws an exception
if (cfg->method->wrapper_type == MONO_WRAPPER_OTHER) {
WrapperInfo *info = mono_marshal_get_wrapper_info (cfg->method);
if (info->subtype == WRAPPER_SUBTYPE_AOT_INIT) {
method = get_init_func (ctx->module, info->d.aot_init.subtype);
ctx->lmethod = method;
ctx->module->max_method_idx = MAX (ctx->module->max_method_idx, cfg->method_index);
const char *init_name = mono_marshal_get_aot_init_wrapper_name (info->d.aot_init.subtype);
ctx->method_name = g_strdup_printf ("%s_%s", ctx->module->global_prefix, init_name);
ctx->cfg->asm_symbol = g_strdup (ctx->method_name);
if (!cfg->llvm_only && ctx->module->external_symbols) {
LLVMSetLinkage (method, LLVMExternalLinkage);
LLVMSetVisibility (method, LLVMHiddenVisibility);
}
/* Not looked up at runtime */
g_hash_table_insert (ctx->module->no_method_table_lmethods, method, method);
goto after_codegen;
} else if (info->subtype == WRAPPER_SUBTYPE_LLVM_FUNC) {
g_assert (info->d.llvm_func.subtype == LLVM_FUNC_WRAPPER_GC_POLL);
if (cfg->compile_aot) {
method = ctx->module->gc_poll_cold_wrapper;
g_assert (method);
} else {
method = emit_icall_cold_wrapper (ctx->module, lmodule, MONO_JIT_ICALL_mono_threads_state_poll, FALSE);
}
ctx->lmethod = method;
ctx->module->max_method_idx = MAX (ctx->module->max_method_idx, cfg->method_index);
ctx->method_name = g_strdup (LLVMGetValueName (method)); //g_strdup_printf ("%s_%s", ctx->module->global_prefix, LLVMGetValueName (method));
ctx->cfg->asm_symbol = g_strdup (ctx->method_name);
if (!cfg->llvm_only && ctx->module->external_symbols) {
LLVMSetLinkage (method, LLVMExternalLinkage);
LLVMSetVisibility (method, LLVMHiddenVisibility);
}
goto after_codegen;
}
}
sig = mono_method_signature_internal (cfg->method);
ctx->sig = sig;
linfo = get_llvm_call_info (cfg, sig);
ctx->linfo = linfo;
if (!ctx_ok (ctx))
return;
if (cfg->rgctx_var)
linfo->rgctx_arg = TRUE;
else if (needs_extra_arg (ctx, cfg->method))
linfo->dummy_arg = TRUE;
ctx->method_type = method_type = sig_to_llvm_sig_full (ctx, sig, linfo);
if (!ctx_ok (ctx))
return;
method = LLVMAddFunction (lmodule, ctx->method_name, method_type);
ctx->lmethod = method;
if (cfg->llvm_only && cfg->header->num_clauses && mono_opt_wasm_exceptions) {
LLVMValueRef personality = get_mono_personality (ctx);
g_assert (personality);
LLVMSetPersonalityFn (method, personality);
LLVMAddTargetDependentFunctionAttr (method, "target-features", "+exception-handling");
}
if (!cfg->llvm_only)
LLVMSetFunctionCallConv (method, LLVMMono1CallConv);
/* if the method doesn't contain
* (1) a call (so it's a leaf method)
* (2) and no loops
* we can skip the GC safepoint on method entry. */
gboolean requires_safepoint;
requires_safepoint = cfg->has_calls;
if (!requires_safepoint) {
for (bb = cfg->bb_entry->next_bb; bb; bb = bb->next_bb) {
if (bb->loop_body_start || (bb->flags & BB_EXCEPTION_HANDLER)) {
requires_safepoint = TRUE;
}
}
}
if (cfg->method->wrapper_type) {
if (cfg->method->wrapper_type == MONO_WRAPPER_ALLOC || cfg->method->wrapper_type == MONO_WRAPPER_WRITE_BARRIER) {
requires_safepoint = FALSE;
} else {
WrapperInfo *info = mono_marshal_get_wrapper_info (cfg->method);
switch (info->subtype) {
case WRAPPER_SUBTYPE_GSHAREDVT_IN:
case WRAPPER_SUBTYPE_GSHAREDVT_OUT:
case WRAPPER_SUBTYPE_GSHAREDVT_IN_SIG:
case WRAPPER_SUBTYPE_GSHAREDVT_OUT_SIG:
/* Arguments are not used after the call */
requires_safepoint = FALSE;
break;
}
}
}
ctx->has_safepoints = requires_safepoint;
if (!cfg->llvm_only && mono_threads_are_safepoints_enabled () && requires_safepoint) {
if (!cfg->compile_aot) {
LLVMSetGC (method, "coreclr");
emit_gc_safepoint_poll (ctx->module, ctx->lmodule, cfg);
} else {
LLVMSetGC (method, "coreclr");
}
}
LLVMSetLinkage (method, LLVMPrivateLinkage);
mono_llvm_add_func_attr (method, LLVM_ATTR_UW_TABLE);
if (cfg->disable_omit_fp)
mono_llvm_add_func_attr_nv (method, "frame-pointer", "all");
if (cfg->compile_aot) {
if (mono_aot_is_externally_callable (cfg->method)) {
LLVMSetLinkage (method, LLVMExternalLinkage);
} else {
LLVMSetLinkage (method, LLVMInternalLinkage);
//all methods have internal visibility when doing llvm_only
if (!cfg->llvm_only && ctx->module->external_symbols) {
LLVMSetLinkage (method, LLVMExternalLinkage);
LLVMSetVisibility (method, LLVMHiddenVisibility);
}
}
if (ctx->is_linkonce) {
LLVMSetLinkage (method, LLVMLinkOnceAnyLinkage);
LLVMSetVisibility (method, LLVMDefaultVisibility);
}
} else {
LLVMSetLinkage (method, LLVMExternalLinkage);
}
if (cfg->method->save_lmf && !cfg->llvm_only) {
set_failure (ctx, "lmf");
return;
}
if (sig->pinvoke && cfg->method->wrapper_type != MONO_WRAPPER_RUNTIME_INVOKE && !cfg->llvm_only) {
set_failure (ctx, "pinvoke signature");
return;
}
#ifdef TARGET_WASM
if (ctx->module->interp && cfg->header->code_size > 100000 && !cfg->interp_entry_only) {
/* Large methods slow down llvm too much */
set_failure (ctx, "il code too large.");
return;
}
#endif
header = cfg->header;
for (i = 0; i < header->num_clauses; ++i) {
clause = &header->clauses [i];
if (clause->flags != MONO_EXCEPTION_CLAUSE_FINALLY && clause->flags != MONO_EXCEPTION_CLAUSE_FAULT && clause->flags != MONO_EXCEPTION_CLAUSE_NONE) {
if (cfg->llvm_only) {
if (!cfg->deopt && !cfg->interp_entry_only)
llvmonly_fail = TRUE;
} else {
set_failure (ctx, "non-finally/catch/fault clause.");
return;
}
}
}
if (header->num_clauses || (cfg->method->iflags & METHOD_IMPL_ATTRIBUTE_NOINLINING) || cfg->no_inline)
/* We can't handle inlined methods with clauses */
mono_llvm_add_func_attr (method, LLVM_ATTR_NO_INLINE);
for (int i = 0; i < cfg->header->num_clauses; i++) {
MonoExceptionClause *clause = &cfg->header->clauses [i];
if (clause->flags == MONO_EXCEPTION_CLAUSE_NONE || clause->flags == MONO_EXCEPTION_CLAUSE_FILTER)
ctx->has_catch = TRUE;
}
if (linfo->rgctx_arg) {
ctx->rgctx_arg = LLVMGetParam (method, linfo->rgctx_arg_pindex);
ctx->rgctx_arg_pindex = linfo->rgctx_arg_pindex;
/*
* We mark the rgctx parameter with the inreg attribute, which is mapped to
* MONO_ARCH_RGCTX_REG in the Mono calling convention in llvm, i.e.
* CC_X86_64_Mono in X86CallingConv.td.
*/
if (!ctx->llvm_only)
mono_llvm_add_param_attr (ctx->rgctx_arg, LLVM_ATTR_IN_REG);
LLVMSetValueName (ctx->rgctx_arg, "rgctx");
} else {
ctx->rgctx_arg_pindex = -1;
}
if (cfg->vret_addr) {
values [cfg->vret_addr->dreg] = LLVMGetParam (method, linfo->vret_arg_pindex);
LLVMSetValueName (values [cfg->vret_addr->dreg], "vret");
if (linfo->ret.storage == LLVMArgVtypeByRef) {
mono_llvm_add_param_attr (LLVMGetParam (method, linfo->vret_arg_pindex), LLVM_ATTR_STRUCT_RET);
mono_llvm_add_param_attr (LLVMGetParam (method, linfo->vret_arg_pindex), LLVM_ATTR_NO_ALIAS);
}
}
if (sig->hasthis) {
ctx->this_arg_pindex = linfo->this_arg_pindex;
ctx->this_arg = LLVMGetParam (method, linfo->this_arg_pindex);
values [cfg->args [0]->dreg] = ctx->this_arg;
LLVMSetValueName (values [cfg->args [0]->dreg], "this");
}
if (linfo->dummy_arg)
LLVMSetValueName (LLVMGetParam (method, linfo->dummy_arg_pindex), "dummy_arg");
names = g_new (char *, sig->param_count);
mono_method_get_param_names (cfg->method, (const char **) names);
/* Set parameter names/attributes */
for (i = 0; i < sig->param_count; ++i) {
LLVMArgInfo *ainfo = &linfo->args [i + sig->hasthis];
char *name;
int pindex = ainfo->pindex + ainfo->ndummy_fpargs;
int j;
for (j = 0; j < ainfo->ndummy_fpargs; ++j) {
name = g_strdup_printf ("dummy_%d_%d", i, j);
LLVMSetValueName (LLVMGetParam (method, ainfo->pindex + j), name);
g_free (name);
}
if (ainfo->storage == LLVMArgVtypeInReg && ainfo->pair_storage [0] == LLVMArgNone && ainfo->pair_storage [1] == LLVMArgNone)
continue;
values [cfg->args [i + sig->hasthis]->dreg] = LLVMGetParam (method, pindex);
if (ainfo->storage == LLVMArgGsharedvtFixed || ainfo->storage == LLVMArgGsharedvtFixedVtype) {
if (names [i] && names [i][0] != '\0')
name = g_strdup_printf ("p_arg_%s", names [i]);
else
name = g_strdup_printf ("p_arg_%d", i);
} else {
if (names [i] && names [i][0] != '\0')
name = g_strdup_printf ("arg_%s", names [i]);
else
name = g_strdup_printf ("arg_%d", i);
}
LLVMSetValueName (LLVMGetParam (method, pindex), name);
g_free (name);
if (ainfo->storage == LLVMArgVtypeByVal)
mono_llvm_add_param_attr (LLVMGetParam (method, pindex), LLVM_ATTR_BY_VAL);
if (ainfo->storage == LLVMArgVtypeByRef || ainfo->storage == LLVMArgVtypeAddr) {
/* For OP_LDADDR */
cfg->args [i + sig->hasthis]->opcode = OP_VTARG_ADDR;
}
#ifdef TARGET_WASM
if (ainfo->storage == LLVMArgVtypeByRef) {
/* This causes llvm to make a copy of the value which is what we need */
mono_llvm_add_param_byval_attr (LLVMGetParam (method, pindex), LLVMGetElementType (LLVMTypeOf (LLVMGetParam (method, pindex))));
}
#endif
}
g_free (names);
if (ctx->module->emit_dwarf && cfg->compile_aot && mono_debug_enabled ()) {
ctx->minfo = mono_debug_lookup_method (cfg->method);
ctx->dbg_md = emit_dbg_subprogram (ctx, cfg, method, ctx->method_name);
}
max_block_num = 0;
for (bb = cfg->bb_entry; bb; bb = bb->next_bb)
max_block_num = MAX (max_block_num, bb->block_num);
ctx->bblocks = bblocks = g_new0 (BBInfo, max_block_num + 1);
/* Add branches between non-consecutive bblocks */
for (bb = cfg->bb_entry; bb; bb = bb->next_bb) {
if (bb->last_ins && MONO_IS_COND_BRANCH_OP (bb->last_ins) &&
bb->next_bb != bb->last_ins->inst_false_bb) {
MonoInst *inst = (MonoInst*)mono_mempool_alloc0 (cfg->mempool, sizeof (MonoInst));
inst->opcode = OP_BR;
inst->inst_target_bb = bb->last_ins->inst_false_bb;
mono_bblock_add_inst (bb, inst);
}
}
/*
* Make a first pass over the code to precreate PHI nodes/set INDIRECT flags.
*/
for (bb = cfg->bb_entry; bb; bb = bb->next_bb) {
MonoInst *ins;
LLVMBuilderRef builder;
char *dname;
char dname_buf[128];
builder = create_builder (ctx);
for (ins = bb->code; ins; ins = ins->next) {
switch (ins->opcode) {
case OP_PHI:
case OP_FPHI:
case OP_VPHI:
case OP_XPHI: {
LLVMTypeRef phi_type = llvm_type_to_stack_type (cfg, type_to_llvm_type (ctx, m_class_get_byval_arg (ins->klass)));
if (!ctx_ok (ctx))
return;
if (cfg->interp_entry_only)
break;
if (ins->opcode == OP_VPHI) {
/* Treat valuetype PHI nodes as operating on the address itself */
g_assert (ins->klass);
phi_type = LLVMPointerType (type_to_llvm_type (ctx, m_class_get_byval_arg (ins->klass)), 0);
}
/*
* Have to precreate these, as they can be referenced by
* earlier instructions.
*/
sprintf (dname_buf, "t%d", ins->dreg);
dname = dname_buf;
values [ins->dreg] = LLVMBuildPhi (builder, phi_type, dname);
if (ins->opcode == OP_VPHI)
ctx->addresses [ins->dreg] = values [ins->dreg];
g_ptr_array_add (ctx->phi_values, values [ins->dreg]);
/*
* Set the expected type of the incoming arguments since these have
* to have the same type.
*/
for (i = 0; i < ins->inst_phi_args [0]; i++) {
int sreg1 = ins->inst_phi_args [i + 1];
if (sreg1 != -1) {
if (ins->opcode == OP_VPHI)
ctx->is_vphi [sreg1] = TRUE;
ctx->vreg_types [sreg1] = phi_type;
}
}
break;
}
case OP_LDADDR:
((MonoInst*)ins->inst_p0)->flags |= MONO_INST_INDIRECT;
break;
default:
break;
}
}
}
/*
* Create an ordering for bblocks, use the depth first order first, then
* put the exception handling bblocks last.
*/
for (bb_index = 0; bb_index < cfg->num_bblocks; ++bb_index) {
bb = cfg->bblocks [bb_index];
if (!(bb->region != -1 && !MONO_BBLOCK_IS_IN_REGION (bb, MONO_REGION_TRY))) {
g_ptr_array_add (bblock_list, bb);
bblocks [bb->block_num].added = TRUE;
}
}
for (bb = cfg->bb_entry; bb; bb = bb->next_bb) {
if (!bblocks [bb->block_num].added)
g_ptr_array_add (bblock_list, bb);
}
/*
* Second pass: generate code.
*/
// Emit entry point
entry_builder = create_builder (ctx);
entry_bb = get_bb (ctx, cfg->bb_entry);
LLVMPositionBuilderAtEnd (entry_builder, entry_bb);
emit_entry_bb (ctx, entry_builder);
if (llvmonly_fail)
/*
* In llvmonly mode, we want to emit an llvm method for every method even if it fails to compile,
* so direct calls can be made from outside the assembly.
*/
goto after_codegen_1;
for (bb = cfg->bb_entry; bb; bb = bb->next_bb) {
int clause_index;
char name [128];
if (ctx->cfg->interp_entry_only || !(bb->region != -1 && (bb->flags & BB_EXCEPTION_HANDLER)))
continue;
if (ctx->cfg->deopt && MONO_REGION_FLAGS (bb->region) == MONO_EXCEPTION_CLAUSE_FILTER)
continue;
clause_index = MONO_REGION_CLAUSE_INDEX (bb->region);
g_hash_table_insert (ctx->region_to_handler, GUINT_TO_POINTER (mono_get_block_region_notry (cfg, bb->region)), bb);
g_hash_table_insert (ctx->clause_to_handler, GINT_TO_POINTER (clause_index), bb);
/*
* Create a new bblock which CALL_HANDLER/landing pads can branch to, because branching to the
* LLVM bblock containing a landing pad causes problems for the
* LLVM optimizer passes.
*/
sprintf (name, "BB%d_CALL_HANDLER_TARGET", bb->block_num);
ctx->bblocks [bb->block_num].call_handler_target_bb = LLVMAppendBasicBlock (ctx->lmethod, name);
}
// Make landing pads first
ctx->exc_meta = g_hash_table_new_full (NULL, NULL, NULL, NULL);
if (ctx->llvm_only && !ctx->cfg->interp_entry_only) {
size_t group_index = 0;
while (group_index < cfg->header->num_clauses) {
if (cfg->clause_is_dead [group_index]) {
group_index ++;
continue;
}
int count = 0;
size_t cursor = group_index;
while (cursor < cfg->header->num_clauses &&
CLAUSE_START (&cfg->header->clauses [cursor]) == CLAUSE_START (&cfg->header->clauses [group_index]) &&
CLAUSE_END (&cfg->header->clauses [cursor]) == CLAUSE_END (&cfg->header->clauses [group_index])) {
count++;
cursor++;
}
LLVMBasicBlockRef lpad_bb = emit_llvmonly_landing_pad (ctx, group_index, count);
intptr_t key = CLAUSE_END (&cfg->header->clauses [group_index]);
g_hash_table_insert (ctx->exc_meta, (gpointer)key, lpad_bb);
group_index = cursor;
}
}
for (bb_index = 0; bb_index < bblock_list->len; ++bb_index) {
bb = (MonoBasicBlock*)g_ptr_array_index (bblock_list, bb_index);
// Prune unreachable mono BBs.
if (!(bb == cfg->bb_entry || bb->in_count > 0))
continue;
process_bb (ctx, bb);
if (!ctx_ok (ctx))
return;
}
g_hash_table_destroy (ctx->exc_meta);
mono_memory_barrier ();
/* Add incoming phi values */
for (bb = cfg->bb_entry; bb; bb = bb->next_bb) {
GSList *l, *ins_list;
ins_list = bblocks [bb->block_num].phi_nodes;
for (l = ins_list; l; l = l->next) {
PhiNode *node = (PhiNode*)l->data;
MonoInst *phi = node->phi;
int sreg1 = node->sreg;
LLVMBasicBlockRef in_bb;
if (sreg1 == -1)
continue;
in_bb = get_end_bb (ctx, node->in_bb);
if (ctx->unreachable [node->in_bb->block_num])
continue;
if (phi->opcode == OP_VPHI) {
g_assert (LLVMTypeOf (ctx->addresses [sreg1]) == LLVMTypeOf (values [phi->dreg]));
LLVMAddIncoming (values [phi->dreg], &ctx->addresses [sreg1], &in_bb, 1);
} else {
if (!values [sreg1]) {
/* Can happen with values in EH clauses */
set_failure (ctx, "incoming phi sreg1");
return;
}
if (LLVMTypeOf (values [sreg1]) != LLVMTypeOf (values [phi->dreg])) {
set_failure (ctx, "incoming phi arg type mismatch");
return;
}
g_assert (LLVMTypeOf (values [sreg1]) == LLVMTypeOf (values [phi->dreg]));
LLVMAddIncoming (values [phi->dreg], &values [sreg1], &in_bb, 1);
}
}
}
/* Nullify empty phi instructions */
for (bb = cfg->bb_entry; bb; bb = bb->next_bb) {
GSList *l, *ins_list;
ins_list = bblocks [bb->block_num].phi_nodes;
for (l = ins_list; l; l = l->next) {
PhiNode *node = (PhiNode*)l->data;
MonoInst *phi = node->phi;
LLVMValueRef phi_ins = values [phi->dreg];
if (!phi_ins)
/* Already removed */
continue;
if (LLVMCountIncoming (phi_ins) == 0) {
mono_llvm_replace_uses_of (phi_ins, LLVMConstNull (LLVMTypeOf (phi_ins)));
LLVMInstructionEraseFromParent (phi_ins);
values [phi->dreg] = NULL;
}
}
}
/* Create the SWITCH statements for ENDFINALLY instructions */
for (bb = cfg->bb_entry; bb; bb = bb->next_bb) {
BBInfo *info = &bblocks [bb->block_num];
GSList *l;
for (l = info->endfinally_switch_ins_list; l; l = l->next) {
LLVMValueRef switch_ins = (LLVMValueRef)l->data;
GSList *bb_list = info->call_handler_return_bbs;
GSList *bb_list_iter;
i = 0;
for (bb_list_iter = bb_list; bb_list_iter; bb_list_iter = g_slist_next (bb_list_iter)) {
LLVMAddCase (switch_ins, LLVMConstInt (LLVMInt32Type (), i + 1, FALSE), (LLVMBasicBlockRef)bb_list_iter->data);
i ++;
}
}
}
ctx->module->max_method_idx = MAX (ctx->module->max_method_idx, cfg->method_index);
after_codegen_1:
if (llvmonly_fail) {
/*
* FIXME: Maybe fallback to interpreter
*/
static LLVMTypeRef sig;
ctx->builder = create_builder (ctx);
LLVMPositionBuilderAtEnd (ctx->builder, ctx->inited_bb);
char *name = mono_method_get_full_name (cfg->method);
int len = strlen (name);
LLVMTypeRef type = LLVMArrayType (LLVMInt8Type (), len + 1);
LLVMValueRef name_var = LLVMAddGlobal (ctx->lmodule, type, "missing_method_name");
LLVMSetVisibility (name_var, LLVMHiddenVisibility);
LLVMSetLinkage (name_var, LLVMInternalLinkage);
LLVMSetInitializer (name_var, mono_llvm_create_constant_data_array ((guint8*)name, len + 1));
mono_llvm_set_is_constant (name_var);
g_free (name);
if (!sig)
sig = LLVMFunctionType1 (LLVMVoidType (), ctx->module->ptr_type, FALSE);
LLVMValueRef callee = get_callee (ctx, sig, MONO_PATCH_INFO_JIT_ICALL_ADDR, GUINT_TO_POINTER (MONO_JIT_ICALL_mini_llvmonly_throw_aot_failed_exception));
LLVMValueRef args [] = { convert (ctx, name_var, ctx->module->ptr_type) };
LLVMBuildCall (ctx->builder, callee, args, 1, "");
LLVMBuildUnreachable (ctx->builder);
}
/* Initialize the method if needed */
if (cfg->compile_aot) {
// FIXME: Add more shared got entries
ctx->builder = create_builder (ctx);
LLVMPositionBuilderAtEnd (ctx->builder, ctx->init_bb);
// FIXME: beforefieldinit
/*
* NATIVE_TO_MANAGED methods might be called on a thread not attached to the runtime, so they are initialized when loaded
* in load_method ().
*/
gboolean needs_init = ctx->cfg->got_access_count > 0;
MonoMethod *cctor = NULL;
if (!needs_init && (cctor = mono_class_get_cctor (cfg->method->klass))) {
/* Needs init to run the cctor */
if (cfg->method->flags & METHOD_ATTRIBUTE_STATIC)
needs_init = TRUE;
if (cctor == cfg->method)
needs_init = FALSE;
// If we are a constructor, we need to init so the static
// constructor gets called.
if (!strcmp (cfg->method->name, ".ctor"))
needs_init = TRUE;
}
if (cfg->method->wrapper_type == MONO_WRAPPER_NATIVE_TO_MANAGED)
needs_init = FALSE;
if (needs_init)
emit_method_init (ctx);
else
LLVMBuildBr (ctx->builder, ctx->inited_bb);
// Was observing LLVM moving field accesses into the caller's method
// body before the init call (the inlined one), leading to NULL derefs
// after the init_method returns (GOT is filled out though)
if (needs_init)
mono_llvm_add_func_attr (method, LLVM_ATTR_NO_INLINE);
}
if (mini_get_debug_options ()->llvm_disable_inlining)
mono_llvm_add_func_attr (method, LLVM_ATTR_NO_INLINE);
after_codegen:
if (cfg->compile_aot)
g_ptr_array_add (ctx->module->cfgs, cfg);
if (cfg->llvm_only) {
/*
* Add the contents of ctx->callsite_list to module->callsite_list.
* We can't do this earlier, as it contains llvm instructions which can be
* freed if compilation fails.
* FIXME: Get rid of this when all methods can be llvm compiled.
*/
for (int i = 0; i < ctx->callsite_list->len; ++i)
g_ptr_array_add (ctx->module->callsite_list, g_ptr_array_index (ctx->callsite_list, i));
}
if (cfg->verbose_level > 1) {
g_print ("\n*** Unoptimized LLVM IR for %s ***\n", mono_method_full_name (cfg->method, TRUE));
if (cfg->compile_aot) {
mono_llvm_dump_value (method);
} else {
mono_llvm_dump_module (ctx->lmodule);
}
g_print ("***\n\n");
}
if (cfg->compile_aot && !cfg->llvm_only)
mark_as_used (ctx->module, method);
if (!cfg->llvm_only) {
LLVMValueRef md_args [16];
LLVMValueRef md_node;
int method_index;
if (cfg->compile_aot)
method_index = mono_aot_get_method_index (cfg->orig_method);
else
method_index = 1;
md_args [0] = LLVMMDString (ctx->method_name, strlen (ctx->method_name));
md_args [1] = LLVMConstInt (LLVMInt32Type (), method_index, FALSE);
md_node = LLVMMDNode (md_args, 2);
LLVMAddNamedMetadataOperand (lmodule, "mono.function_indexes", md_node);
//LLVMSetMetadata (method, md_kind, LLVMMDNode (&md_arg, 1));
}
if (cfg->compile_aot) {
/* Don't generate native code, keep the LLVM IR */
if (cfg->verbose_level) {
char *name = mono_method_get_full_name (cfg->method);
printf ("%s emitted as %s\n", name, ctx->method_name);
g_free (name);
}
#if 0
int err = LLVMVerifyFunction (ctx->lmethod, LLVMPrintMessageAction);
if (err != 0)
LLVMDumpValue (ctx->lmethod);
g_assert (err == 0);
#endif
} else {
//LLVMVerifyFunction (method, 0);
llvm_jit_finalize_method (ctx);
}
if (ctx->module->method_to_lmethod)
g_hash_table_insert (ctx->module->method_to_lmethod, cfg->method, ctx->lmethod);
if (ctx->module->idx_to_lmethod)
g_hash_table_insert (ctx->module->idx_to_lmethod, GINT_TO_POINTER (cfg->method_index), ctx->lmethod);
if (ctx->llvm_only && m_class_is_valuetype (cfg->orig_method->klass) && !(cfg->orig_method->flags & METHOD_ATTRIBUTE_STATIC))
emit_unbox_tramp (ctx, ctx->method_name, ctx->method_type, ctx->lmethod, cfg->method_index);
}
/*
* mono_llvm_create_vars:
*
* Same as mono_arch_create_vars () for LLVM.
*/
void
mono_llvm_create_vars (MonoCompile *cfg)
{
MonoMethodSignature *sig;
sig = mono_method_signature_internal (cfg->method);
if (cfg->gsharedvt && cfg->llvm_only) {
gboolean vretaddr = FALSE;
if (mini_is_gsharedvt_variable_signature (sig) && sig->ret->type != MONO_TYPE_VOID) {
vretaddr = TRUE;
} else {
MonoMethodSignature *sig = mono_method_signature_internal (cfg->method);
LLVMCallInfo *linfo;
linfo = get_llvm_call_info (cfg, sig);
vretaddr = (linfo->ret.storage == LLVMArgVtypeRetAddr || linfo->ret.storage == LLVMArgVtypeByRef || linfo->ret.storage == LLVMArgGsharedvtFixed || linfo->ret.storage == LLVMArgGsharedvtVariable || linfo->ret.storage == LLVMArgGsharedvtFixedVtype);
}
if (vretaddr) {
/*
* Creating vret_addr forces CEE_SETRET to store the result into it,
* so we don't have to generate any code in our OP_SETRET case.
*/
cfg->vret_addr = mono_compile_create_var (cfg, m_class_get_byval_arg (mono_get_intptr_class ()), OP_ARG);
if (G_UNLIKELY (cfg->verbose_level > 1)) {
printf ("vret_addr = ");
mono_print_ins (cfg->vret_addr);
}
}
} else {
mono_arch_create_vars (cfg);
}
cfg->lmf_ir = TRUE;
}
/*
* mono_llvm_emit_call:
*
* Same as mono_arch_emit_call () for LLVM.
*/
void
mono_llvm_emit_call (MonoCompile *cfg, MonoCallInst *call)
{
MonoInst *in;
MonoMethodSignature *sig;
int i, n;
LLVMArgInfo *ainfo;
sig = call->signature;
n = sig->param_count + sig->hasthis;
if (sig->call_convention == MONO_CALL_VARARG) {
cfg->exception_message = g_strdup ("varargs");
cfg->disable_llvm = TRUE;
return;
}
call->cinfo = get_llvm_call_info (cfg, sig);
if (cfg->disable_llvm)
return;
for (i = 0; i < n; ++i) {
MonoInst *ins;
ainfo = call->cinfo->args + i;
in = call->args [i];
/* Simply remember the arguments */
switch (ainfo->storage) {
case LLVMArgNormal: {
MonoType *t = (sig->hasthis && i == 0) ? m_class_get_byval_arg (mono_get_intptr_class ()) : ainfo->type;
int opcode;
opcode = mono_type_to_regmove (cfg, t);
if (opcode == OP_FMOVE) {
MONO_INST_NEW (cfg, ins, OP_FMOVE);
ins->dreg = mono_alloc_freg (cfg);
} else if (opcode == OP_LMOVE) {
MONO_INST_NEW (cfg, ins, OP_LMOVE);
ins->dreg = mono_alloc_lreg (cfg);
} else if (opcode == OP_RMOVE) {
MONO_INST_NEW (cfg, ins, OP_RMOVE);
ins->dreg = mono_alloc_freg (cfg);
} else {
MONO_INST_NEW (cfg, ins, OP_MOVE);
ins->dreg = mono_alloc_ireg (cfg);
}
ins->sreg1 = in->dreg;
break;
}
case LLVMArgVtypeByVal:
case LLVMArgVtypeByRef:
case LLVMArgVtypeInReg:
case LLVMArgVtypeAddr:
case LLVMArgVtypeAsScalar:
case LLVMArgAsIArgs:
case LLVMArgAsFpArgs:
case LLVMArgGsharedvtVariable:
case LLVMArgGsharedvtFixed:
case LLVMArgGsharedvtFixedVtype:
case LLVMArgWasmVtypeAsScalar:
MONO_INST_NEW (cfg, ins, OP_LLVM_OUTARG_VT);
ins->dreg = mono_alloc_ireg (cfg);
ins->sreg1 = in->dreg;
ins->inst_p0 = mono_mempool_alloc0 (cfg->mempool, sizeof (LLVMArgInfo));
memcpy (ins->inst_p0, ainfo, sizeof (LLVMArgInfo));
ins->inst_vtype = ainfo->type;
ins->klass = mono_class_from_mono_type_internal (ainfo->type);
break;
default:
cfg->exception_message = g_strdup ("ainfo->storage");
cfg->disable_llvm = TRUE;
return;
}
if (!cfg->disable_llvm) {
MONO_ADD_INS (cfg->cbb, ins);
mono_call_inst_add_outarg_reg (cfg, call, ins->dreg, 0, FALSE);
}
}
}
static inline void
add_func (LLVMModuleRef module, const char *name, LLVMTypeRef ret_type, LLVMTypeRef *param_types, int nparams)
{
LLVMAddFunction (module, name, LLVMFunctionType (ret_type, param_types, nparams, FALSE));
}
static LLVMValueRef
add_intrins (LLVMModuleRef module, IntrinsicId id, LLVMTypeRef *params, int nparams)
{
return mono_llvm_register_overloaded_intrinsic (module, id, params, nparams);
}
static LLVMValueRef
add_intrins1 (LLVMModuleRef module, IntrinsicId id, LLVMTypeRef param1)
{
return mono_llvm_register_overloaded_intrinsic (module, id, ¶m1, 1);
}
static LLVMValueRef
add_intrins2 (LLVMModuleRef module, IntrinsicId id, LLVMTypeRef param1, LLVMTypeRef param2)
{
LLVMTypeRef params [] = { param1, param2 };
return mono_llvm_register_overloaded_intrinsic (module, id, params, 2);
}
static LLVMValueRef
add_intrins3 (LLVMModuleRef module, IntrinsicId id, LLVMTypeRef param1, LLVMTypeRef param2, LLVMTypeRef param3)
{
LLVMTypeRef params [] = { param1, param2, param3 };
return mono_llvm_register_overloaded_intrinsic (module, id, params, 3);
}
static void
add_intrinsic (LLVMModuleRef module, int id)
{
/* Register simple intrinsics */
LLVMValueRef intrins = mono_llvm_register_intrinsic (module, (IntrinsicId)id);
if (intrins) {
g_hash_table_insert (intrins_id_to_intrins, GINT_TO_POINTER (id), intrins);
return;
}
if (intrin_arm64_ovr [id] != 0) {
llvm_ovr_tag_t spec = intrin_arm64_ovr [id];
for (int vw = 0; vw < INTRIN_vectorwidths; ++vw) {
for (int ew = 0; ew < INTRIN_elementwidths; ++ew) {
llvm_ovr_tag_t vec_bit = INTRIN_vector128 >> ((INTRIN_vectorwidths - 1) - vw);
llvm_ovr_tag_t elem_bit = INTRIN_int8 << ew;
llvm_ovr_tag_t test = vec_bit | elem_bit;
if ((spec & test) == test) {
uint8_t kind = intrin_kind [id];
LLVMTypeRef distinguishing_type = intrin_types [vw][ew];
if (kind == INTRIN_kind_ftoi && (elem_bit & (INTRIN_int32 | INTRIN_int64))) {
/*
* @llvm.aarch64.neon.fcvtas.v4i32.v4f32
* @llvm.aarch64.neon.fcvtas.v2i64.v2f64
*/
intrins = add_intrins2 (module, id, distinguishing_type, intrin_types [vw][ew + 2]);
} else if (kind == INTRIN_kind_widen) {
/*
* @llvm.aarch64.neon.saddlp.v2i64.v4i32
* @llvm.aarch64.neon.saddlp.v4i16.v8i8
*/
intrins = add_intrins2 (module, id, distinguishing_type, intrin_types [vw][ew - 1]);
} else if (kind == INTRIN_kind_widen_across) {
/*
* @llvm.aarch64.neon.saddlv.i64.v4i32
* @llvm.aarch64.neon.saddlv.i32.v8i16
* @llvm.aarch64.neon.saddlv.i32.v16i8
* i8/i16 return types for NEON intrinsics will make isel fail as of LLVM 9.
*/
int associated_prim = MAX(ew + 1, 2);
LLVMTypeRef associated_scalar_type = intrin_types [0][associated_prim];
intrins = add_intrins2 (module, id, associated_scalar_type, distinguishing_type);
} else if (kind == INTRIN_kind_across) {
/*
* @llvm.aarch64.neon.uaddv.i64.v4i64
* @llvm.aarch64.neon.uaddv.i32.v4i32
* @llvm.aarch64.neon.uaddv.i32.v8i16
* @llvm.aarch64.neon.uaddv.i32.v16i8
* i8/i16 return types for NEON intrinsics will make isel fail as of LLVM 9.
*/
int associated_prim = MAX(ew, 2);
LLVMTypeRef associated_scalar_type = intrin_types [0][associated_prim];
intrins = add_intrins2 (module, id, associated_scalar_type, distinguishing_type);
} else if (kind == INTRIN_kind_arm64_dot_prod) {
/*
* @llvm.aarch64.neon.sdot.v2i32.v8i8
* @llvm.aarch64.neon.sdot.v4i32.v16i8
*/
LLVMTypeRef associated_type = intrin_types [vw][0];
intrins = add_intrins2 (module, id, distinguishing_type, associated_type);
} else
intrins = add_intrins1 (module, id, distinguishing_type);
int key = key_from_id_and_tag (id, test);
g_hash_table_insert (intrins_id_to_intrins, GINT_TO_POINTER (key), intrins);
}
}
}
return;
}
/* Register overloaded intrinsics */
switch (id) {
#define INTRINS(intrin_name, llvm_id, arch)
#define INTRINS_OVR(intrin_name, llvm_id, arch, llvm_type) case INTRINS_ ## intrin_name: intrins = add_intrins1(module, id, llvm_type); break;
#define INTRINS_OVR_2_ARG(intrin_name, llvm_id, arch, llvm_type1, llvm_type2) case INTRINS_ ## intrin_name: intrins = add_intrins2(module, id, llvm_type1, llvm_type2); break;
#define INTRINS_OVR_3_ARG(intrin_name, llvm_id, arch, llvm_type1, llvm_type2, llvm_type3) case INTRINS_ ## intrin_name: intrins = add_intrins3(module, id, llvm_type1, llvm_type2, llvm_type3); break;
#define INTRINS_OVR_TAG(...)
#define INTRINS_OVR_TAG_KIND(...)
#include "llvm-intrinsics.h"
default:
g_assert_not_reached ();
break;
}
g_assert (intrins);
g_hash_table_insert (intrins_id_to_intrins, GINT_TO_POINTER (id), intrins);
}
static LLVMValueRef
get_intrins_from_module (LLVMModuleRef lmodule, int id)
{
LLVMValueRef res;
res = (LLVMValueRef)g_hash_table_lookup (intrins_id_to_intrins, GINT_TO_POINTER (id));
g_assert (res);
return res;
}
static LLVMValueRef
get_intrins (EmitContext *ctx, int id)
{
return get_intrins_from_module (ctx->lmodule, id);
}
static void
add_intrinsics (LLVMModuleRef module)
{
int i;
/* Emit declarations of instrinsics */
/*
* It would be nicer to emit only the intrinsics actually used, but LLVM's Module
* type doesn't seem to do any locking.
*/
for (i = 0; i < INTRINS_NUM; ++i)
add_intrinsic (module, i);
/* EH intrinsics */
add_func (module, "mono_personality", LLVMVoidType (), NULL, 0);
add_func (module, "llvm_resume_unwind_trampoline", LLVMVoidType (), NULL, 0);
}
static void
add_types (MonoLLVMModule *module)
{
module->ptr_type = LLVMPointerType (TARGET_SIZEOF_VOID_P == 8 ? LLVMInt64Type () : LLVMInt32Type (), 0);
}
void
mono_llvm_init (gboolean enable_jit)
{
intrin_types [0][0] = i1_t = LLVMInt8Type ();
intrin_types [0][1] = i2_t = LLVMInt16Type ();
intrin_types [0][2] = i4_t = LLVMInt32Type ();
intrin_types [0][3] = i8_t = LLVMInt64Type ();
intrin_types [0][4] = r4_t = LLVMFloatType ();
intrin_types [0][5] = r8_t = LLVMDoubleType ();
intrin_types [1][0] = v64_i1_t = LLVMVectorType (LLVMInt8Type (), 8);
intrin_types [1][1] = v64_i2_t = LLVMVectorType (LLVMInt16Type (), 4);
intrin_types [1][2] = v64_i4_t = LLVMVectorType (LLVMInt32Type (), 2);
intrin_types [1][3] = v64_i8_t = LLVMVectorType (LLVMInt64Type (), 1);
intrin_types [1][4] = v64_r4_t = LLVMVectorType (LLVMFloatType (), 2);
intrin_types [1][5] = v64_r8_t = LLVMVectorType (LLVMDoubleType (), 1);
intrin_types [2][0] = v128_i1_t = sse_i1_t = type_to_sse_type (MONO_TYPE_I1);
intrin_types [2][1] = v128_i2_t = sse_i2_t = type_to_sse_type (MONO_TYPE_I2);
intrin_types [2][2] = v128_i4_t = sse_i4_t = type_to_sse_type (MONO_TYPE_I4);
intrin_types [2][3] = v128_i8_t = sse_i8_t = type_to_sse_type (MONO_TYPE_I8);
intrin_types [2][4] = v128_r4_t = sse_r4_t = type_to_sse_type (MONO_TYPE_R4);
intrin_types [2][5] = v128_r8_t = sse_r8_t = type_to_sse_type (MONO_TYPE_R8);
intrins_id_to_intrins = g_hash_table_new (NULL, NULL);
void_func_t = LLVMFunctionType0 (LLVMVoidType (), FALSE);
if (enable_jit)
mono_llvm_jit_init ();
}
void
mono_llvm_free_mem_manager (MonoJitMemoryManager *mem_manager)
{
MonoLLVMModule *module = (MonoLLVMModule*)mem_manager->llvm_module;
int i;
if (!module)
return;
g_hash_table_destroy (module->llvm_types);
mono_llvm_dispose_ee (module->mono_ee);
if (module->bb_names) {
for (i = 0; i < module->bb_names_len; ++i)
g_free (module->bb_names [i]);
g_free (module->bb_names);
}
//LLVMDisposeModule (module->module);
g_free (module);
mem_manager->llvm_module = NULL;
}
void
mono_llvm_create_aot_module (MonoAssembly *assembly, const char *global_prefix, int initial_got_size, LLVMModuleFlags flags)
{
MonoLLVMModule *module = &aot_module;
gboolean emit_dwarf = (flags & LLVM_MODULE_FLAG_DWARF) ? 1 : 0;
#ifdef TARGET_WIN32_MSVC
gboolean emit_codeview = (flags & LLVM_MODULE_FLAG_CODEVIEW) ? 1 : 0;
#endif
gboolean static_link = (flags & LLVM_MODULE_FLAG_STATIC) ? 1 : 0;
gboolean llvm_only = (flags & LLVM_MODULE_FLAG_LLVM_ONLY) ? 1 : 0;
gboolean interp = (flags & LLVM_MODULE_FLAG_INTERP) ? 1 : 0;
/* Delete previous module */
g_hash_table_destroy (module->plt_entries);
if (module->lmodule)
LLVMDisposeModule (module->lmodule);
memset (module, 0, sizeof (aot_module));
module->lmodule = LLVMModuleCreateWithName ("aot");
module->assembly = assembly;
module->global_prefix = g_strdup (global_prefix);
module->eh_frame_symbol = g_strdup_printf ("%s_eh_frame", global_prefix);
module->get_method_symbol = g_strdup_printf ("%s_get_method", global_prefix);
module->get_unbox_tramp_symbol = g_strdup_printf ("%s_get_unbox_tramp", global_prefix);
module->init_aotconst_symbol = g_strdup_printf ("%s_init_aotconst", global_prefix);
module->external_symbols = TRUE;
module->emit_dwarf = emit_dwarf;
module->static_link = static_link;
module->llvm_only = llvm_only;
module->interp = interp;
/* The first few entries are reserved */
module->max_got_offset = initial_got_size;
module->context = LLVMGetGlobalContext ();
module->cfgs = g_ptr_array_new ();
module->aotconst_vars = g_hash_table_new (NULL, NULL);
module->llvm_types = g_hash_table_new (NULL, NULL);
module->plt_entries = g_hash_table_new (g_str_hash, g_str_equal);
module->plt_entries_ji = g_hash_table_new (NULL, NULL);
module->direct_callables = g_hash_table_new (g_str_hash, g_str_equal);
module->idx_to_lmethod = g_hash_table_new (NULL, NULL);
module->method_to_lmethod = g_hash_table_new (NULL, NULL);
module->method_to_call_info = g_hash_table_new (NULL, NULL);
module->idx_to_unbox_tramp = g_hash_table_new (NULL, NULL);
module->no_method_table_lmethods = g_hash_table_new (NULL, NULL);
module->callsite_list = g_ptr_array_new ();
if (llvm_only)
/* clang ignores our debug info because it has an invalid version */
module->emit_dwarf = FALSE;
add_intrinsics (module->lmodule);
add_types (module);
#ifdef MONO_ARCH_LLVM_TARGET_LAYOUT
LLVMSetDataLayout (module->lmodule, MONO_ARCH_LLVM_TARGET_LAYOUT);
#else
g_assert_not_reached ();
#endif
#ifdef MONO_ARCH_LLVM_TARGET_TRIPLE
LLVMSetTarget (module->lmodule, MONO_ARCH_LLVM_TARGET_TRIPLE);
#endif
if (module->emit_dwarf) {
char *dir, *build_info, *s, *cu_name;
module->di_builder = mono_llvm_create_di_builder (module->lmodule);
// FIXME:
dir = g_strdup (".");
build_info = mono_get_runtime_build_info ();
s = g_strdup_printf ("Mono AOT Compiler %s (LLVM)", build_info);
cu_name = g_path_get_basename (assembly->image->name);
module->cu = mono_llvm_di_create_compile_unit (module->di_builder, cu_name, dir, s);
g_free (dir);
g_free (build_info);
g_free (s);
}
#ifdef TARGET_WIN32_MSVC
if (emit_codeview) {
LLVMValueRef codeview_option_args[3];
codeview_option_args[0] = LLVMConstInt (LLVMInt32Type (), 2, FALSE);
codeview_option_args[1] = LLVMMDString ("CodeView", 8);
codeview_option_args[2] = LLVMConstInt (LLVMInt32Type (), 1, FALSE);
LLVMAddNamedMetadataOperand (module->lmodule, "llvm.module.flags", LLVMMDNode (codeview_option_args, G_N_ELEMENTS (codeview_option_args)));
}
if (!static_link) {
const char linker_options[] = "Linker Options";
const char *default_dynamic_lib_names[] = { "/DEFAULTLIB:msvcrt",
"/DEFAULTLIB:ucrt.lib",
"/DEFAULTLIB:vcruntime.lib" };
LLVMValueRef default_lib_args[G_N_ELEMENTS (default_dynamic_lib_names)];
LLVMValueRef default_lib_nodes[G_N_ELEMENTS(default_dynamic_lib_names)];
const char *default_lib_name = NULL;
for (int i = 0; i < G_N_ELEMENTS (default_dynamic_lib_names); ++i) {
const char *default_lib_name = default_dynamic_lib_names[i];
default_lib_args[i] = LLVMMDString (default_lib_name, strlen (default_lib_name));
default_lib_nodes[i] = LLVMMDNode (default_lib_args + i, 1);
}
LLVMAddNamedMetadataOperand (module->lmodule, "llvm.linker.options", LLVMMDNode (default_lib_args, G_N_ELEMENTS (default_lib_args)));
}
#endif
{
LLVMTypeRef got_type = LLVMArrayType (module->ptr_type, 16);
module->dummy_got_var = LLVMAddGlobal (module->lmodule, got_type, "dummy_got");
module->got_idx_to_type = g_hash_table_new (NULL, NULL);
LLVMSetInitializer (module->dummy_got_var, LLVMConstNull (got_type));
LLVMSetVisibility (module->dummy_got_var, LLVMHiddenVisibility);
LLVMSetLinkage (module->dummy_got_var, LLVMInternalLinkage);
}
/* Add initialization array */
LLVMTypeRef inited_type = LLVMArrayType (LLVMInt8Type (), 0);
module->inited_var = LLVMAddGlobal (aot_module.lmodule, inited_type, "mono_inited_tmp");
LLVMSetInitializer (module->inited_var, LLVMConstNull (inited_type));
create_aot_info_var (module);
emit_gc_safepoint_poll (module, module->lmodule, NULL);
emit_llvm_code_start (module);
// Needs idx_to_lmethod
emit_init_funcs (module);
/* Add a dummy personality function */
if (!use_mono_personality_debug) {
LLVMValueRef personality = LLVMAddFunction (module->lmodule, get_personality_name (), LLVMFunctionType (LLVMInt32Type (), NULL, 0, TRUE));
LLVMSetLinkage (personality, LLVMExternalLinkage);
//EMCC chockes if the personality function is referenced in the 'used' array
#ifndef TARGET_WASM
mark_as_used (module, personality);
#endif
}
/* Add a reference to the c++ exception we throw/catch */
{
LLVMTypeRef exc = LLVMPointerType (LLVMInt8Type (), 0);
module->sentinel_exception = LLVMAddGlobal (module->lmodule, exc, "_ZTIPi");
LLVMSetLinkage (module->sentinel_exception, LLVMExternalLinkage);
mono_llvm_set_is_constant (module->sentinel_exception);
}
}
void
mono_llvm_fixup_aot_module (void)
{
MonoLLVMModule *module = &aot_module;
MonoMethod *method;
/*
* Replace GOT entries for directly callable methods with the methods themselves.
* It would be easier to implement this by predefining all methods before compiling
* their bodies, but that couldn't handle the case when a method fails to compile
* with llvm.
*/
GHashTable *specializable = g_hash_table_new (NULL, NULL);
GHashTable *patches_to_null = g_hash_table_new (mono_patch_info_hash, mono_patch_info_equal);
for (int sindex = 0; sindex < module->callsite_list->len; ++sindex) {
CallSite *site = (CallSite*)g_ptr_array_index (module->callsite_list, sindex);
method = site->method;
LLVMValueRef lmethod = (LLVMValueRef)g_hash_table_lookup (module->method_to_lmethod, method);
LLVMValueRef placeholder = (LLVMValueRef)site->load;
LLVMValueRef load;
if (placeholder == NULL)
/* Method failed LLVM compilation */
continue;
gboolean can_direct_call = FALSE;
/* Replace sharable instances with their shared version */
if (!lmethod && method->is_inflated) {
if (mono_method_is_generic_sharable_full (method, FALSE, TRUE, FALSE)) {
ERROR_DECL (error);
MonoMethod *shared = mini_get_shared_method_full (method, SHARE_MODE_NONE, error);
if (is_ok (error)) {
lmethod = (LLVMValueRef)g_hash_table_lookup (module->method_to_lmethod, shared);
if (lmethod)
method = shared;
}
}
}
if (lmethod && !m_method_is_synchronized (method)) {
can_direct_call = TRUE;
} else if (m_method_is_wrapper (method) && !method->is_inflated) {
WrapperInfo *info = mono_marshal_get_wrapper_info (method);
/* This is a call from the synchronized wrapper to the real method */
if (info->subtype == WRAPPER_SUBTYPE_SYNCHRONIZED_INNER) {
method = info->d.synchronized.method;
lmethod = (LLVMValueRef)g_hash_table_lookup (module->method_to_lmethod, method);
if (lmethod)
can_direct_call = TRUE;
}
}
if (can_direct_call) {
mono_llvm_replace_uses_of (placeholder, lmethod);
if (mono_aot_can_specialize (method))
g_hash_table_insert (specializable, lmethod, method);
g_hash_table_insert (patches_to_null, site->ji, site->ji);
} else {
// FIXME:
LLVMBuilderRef builder = LLVMCreateBuilder ();
LLVMPositionBuilderBefore (builder, placeholder);
load = get_aotconst_module (module, builder, site->ji->type, site->ji->data.target, site->type, NULL, NULL);
LLVMReplaceAllUsesWith (placeholder, load);
}
g_free (site);
}
mono_llvm_propagate_nonnull_final (specializable, module);
g_hash_table_destroy (specializable);
for (int i = 0; i < module->cfgs->len; ++i) {
/*
* Nullify the patches pointing to direct calls. This is needed to
* avoid allocating extra got slots, which is a perf problem and it
* makes module->max_got_offset invalid.
* It would be better to just store the patch_info in CallSite, but
* cfg->patch_info is copied in aot-compiler.c.
*/
MonoCompile *cfg = (MonoCompile *)g_ptr_array_index (module->cfgs, i);
for (MonoJumpInfo *patch_info = cfg->patch_info; patch_info; patch_info = patch_info->next) {
if (patch_info->type == MONO_PATCH_INFO_METHOD) {
if (g_hash_table_lookup (patches_to_null, patch_info)) {
patch_info->type = MONO_PATCH_INFO_NONE;
/* Nullify the call to init_method () if possible */
g_assert (cfg->got_access_count);
cfg->got_access_count --;
if (cfg->got_access_count == 0) {
LLVMValueRef br = (LLVMValueRef)cfg->llvmonly_init_cond;
if (br)
LLVMSetSuccessor (br, 0, LLVMGetSuccessor (br, 1));
}
}
}
}
}
g_hash_table_destroy (patches_to_null);
}
static LLVMValueRef
llvm_array_from_uints (LLVMTypeRef el_type, guint32 *values, int nvalues)
{
int i;
LLVMValueRef res, *vals;
vals = g_new0 (LLVMValueRef, nvalues);
for (i = 0; i < nvalues; ++i)
vals [i] = LLVMConstInt (LLVMInt32Type (), values [i], FALSE);
res = LLVMConstArray (LLVMInt32Type (), vals, nvalues);
g_free (vals);
return res;
}
static LLVMValueRef
llvm_array_from_bytes (guint8 *values, int nvalues)
{
int i;
LLVMValueRef res, *vals;
vals = g_new0 (LLVMValueRef, nvalues);
for (i = 0; i < nvalues; ++i)
vals [i] = LLVMConstInt (LLVMInt8Type (), values [i], FALSE);
res = LLVMConstArray (LLVMInt8Type (), vals, nvalues);
g_free (vals);
return res;
}
/*
* mono_llvm_emit_aot_file_info:
*
* Emit the MonoAotFileInfo structure.
* Same as emit_aot_file_info () in aot-compiler.c.
*/
void
mono_llvm_emit_aot_file_info (MonoAotFileInfo *info, gboolean has_jitted_code)
{
MonoLLVMModule *module = &aot_module;
/* Save these for later */
memcpy (&module->aot_info, info, sizeof (MonoAotFileInfo));
module->has_jitted_code = has_jitted_code;
}
/*
* mono_llvm_emit_aot_data:
*
* Emit the binary data DATA pointed to by symbol SYMBOL.
* Return the LLVM variable for the data.
*/
gpointer
mono_llvm_emit_aot_data_aligned (const char *symbol, guint8 *data, int data_len, int align)
{
MonoLLVMModule *module = &aot_module;
LLVMTypeRef type;
LLVMValueRef d;
type = LLVMArrayType (LLVMInt8Type (), data_len);
d = LLVMAddGlobal (module->lmodule, type, symbol);
LLVMSetVisibility (d, LLVMHiddenVisibility);
LLVMSetLinkage (d, LLVMInternalLinkage);
LLVMSetInitializer (d, mono_llvm_create_constant_data_array (data, data_len));
if (align != 1)
LLVMSetAlignment (d, align);
mono_llvm_set_is_constant (d);
return d;
}
gpointer
mono_llvm_emit_aot_data (const char *symbol, guint8 *data, int data_len)
{
return mono_llvm_emit_aot_data_aligned (symbol, data, data_len, 8);
}
/* Add a reference to a global defined in JITted code */
static LLVMValueRef
AddJitGlobal (MonoLLVMModule *module, LLVMTypeRef type, const char *name)
{
char *s;
LLVMValueRef v;
s = g_strdup_printf ("%s%s", module->global_prefix, name);
v = LLVMAddGlobal (module->lmodule, LLVMInt8Type (), s);
LLVMSetVisibility (v, LLVMHiddenVisibility);
g_free (s);
return v;
}
#define FILE_INFO_NUM_HEADER_FIELDS 2
#define FILE_INFO_NUM_SCALAR_FIELDS 23
#define FILE_INFO_NUM_ARRAY_FIELDS 5
#define FILE_INFO_NUM_AOTID_FIELDS 1
#define FILE_INFO_NFIELDS (FILE_INFO_NUM_HEADER_FIELDS + MONO_AOT_FILE_INFO_NUM_SYMBOLS + FILE_INFO_NUM_SCALAR_FIELDS + FILE_INFO_NUM_ARRAY_FIELDS + FILE_INFO_NUM_AOTID_FIELDS)
static void
create_aot_info_var (MonoLLVMModule *module)
{
LLVMTypeRef file_info_type;
LLVMTypeRef *eltypes;
LLVMValueRef info_var;
int i, nfields, tindex;
LLVMModuleRef lmodule = module->lmodule;
/* Create an LLVM type to represent MonoAotFileInfo */
nfields = FILE_INFO_NFIELDS;
eltypes = g_new (LLVMTypeRef, nfields);
tindex = 0;
eltypes [tindex ++] = LLVMInt32Type ();
eltypes [tindex ++] = LLVMInt32Type ();
/* Symbols */
for (i = 0; i < MONO_AOT_FILE_INFO_NUM_SYMBOLS; ++i)
eltypes [tindex ++] = LLVMPointerType (LLVMInt8Type (), 0);
/* Scalars */
for (i = 0; i < FILE_INFO_NUM_SCALAR_FIELDS; ++i)
eltypes [tindex ++] = LLVMInt32Type ();
/* Arrays */
eltypes [tindex ++] = LLVMArrayType (LLVMInt32Type (), MONO_AOT_TABLE_NUM);
for (i = 0; i < FILE_INFO_NUM_ARRAY_FIELDS - 1; ++i)
eltypes [tindex ++] = LLVMArrayType (LLVMInt32Type (), MONO_AOT_TRAMP_NUM);
eltypes [tindex ++] = LLVMArrayType (LLVMInt8Type (), 16);
g_assert (tindex == nfields);
file_info_type = LLVMStructCreateNamed (module->context, "MonoAotFileInfo");
LLVMStructSetBody (file_info_type, eltypes, nfields, FALSE);
info_var = LLVMAddGlobal (lmodule, file_info_type, "mono_aot_file_info");
module->info_var = info_var;
module->info_var_eltypes = eltypes;
}
static void
emit_aot_file_info (MonoLLVMModule *module)
{
LLVMTypeRef *eltypes, eltype;
LLVMValueRef info_var;
LLVMValueRef *fields;
int i, nfields, tindex;
MonoAotFileInfo *info;
LLVMModuleRef lmodule = module->lmodule;
info = &module->aot_info;
info_var = module->info_var;
eltypes = module->info_var_eltypes;
nfields = FILE_INFO_NFIELDS;
if (module->static_link) {
LLVMSetVisibility (info_var, LLVMHiddenVisibility);
LLVMSetLinkage (info_var, LLVMInternalLinkage);
}
#ifdef TARGET_WIN32
if (!module->static_link) {
LLVMSetDLLStorageClass (info_var, LLVMDLLExportStorageClass);
}
#endif
fields = g_new (LLVMValueRef, nfields);
tindex = 0;
fields [tindex ++] = LLVMConstInt (LLVMInt32Type (), info->version, FALSE);
fields [tindex ++] = LLVMConstInt (LLVMInt32Type (), info->dummy, FALSE);
/* Symbols */
/*
* We use LLVMGetNamedGlobal () for symbol which are defined in LLVM code, and LLVMAddGlobal ()
* for symbols defined in the .s file emitted by the aot compiler.
*/
eltype = eltypes [tindex];
if (module->llvm_only)
fields [tindex ++] = LLVMConstNull (eltype);
else
fields [tindex ++] = AddJitGlobal (module, eltype, "jit_got");
/* llc defines this directly */
if (!module->llvm_only) {
fields [tindex ++] = LLVMAddGlobal (lmodule, eltype, module->eh_frame_symbol);
fields [tindex ++] = LLVMConstNull (eltype);
fields [tindex ++] = LLVMConstNull (eltype);
} else {
fields [tindex ++] = LLVMConstNull (eltype);
fields [tindex ++] = module->get_method;
fields [tindex ++] = module->get_unbox_tramp ? module->get_unbox_tramp : LLVMConstNull (eltype);
}
fields [tindex ++] = module->init_aotconst_func;
if (module->has_jitted_code) {
fields [tindex ++] = AddJitGlobal (module, eltype, "jit_code_start");
fields [tindex ++] = AddJitGlobal (module, eltype, "jit_code_end");
} else {
fields [tindex ++] = LLVMConstNull (eltype);
fields [tindex ++] = LLVMConstNull (eltype);
}
if (!module->llvm_only)
fields [tindex ++] = AddJitGlobal (module, eltype, "method_addresses");
else
fields [tindex ++] = LLVMConstNull (eltype);
if (module->llvm_only && module->unbox_tramp_indexes) {
fields [tindex ++] = module->unbox_tramp_indexes;
fields [tindex ++] = module->unbox_trampolines;
} else {
fields [tindex ++] = LLVMConstNull (eltype);
fields [tindex ++] = LLVMConstNull (eltype);
}
if (info->flags & MONO_AOT_FILE_FLAG_SEPARATE_DATA) {
for (i = 0; i < MONO_AOT_TABLE_NUM; ++i)
fields [tindex ++] = LLVMConstNull (eltype);
} else {
fields [tindex ++] = LLVMGetNamedGlobal (lmodule, "blob");
fields [tindex ++] = LLVMGetNamedGlobal (lmodule, "class_name_table");
fields [tindex ++] = LLVMGetNamedGlobal (lmodule, "class_info_offsets");
fields [tindex ++] = LLVMGetNamedGlobal (lmodule, "method_info_offsets");
fields [tindex ++] = LLVMGetNamedGlobal (lmodule, "ex_info_offsets");
fields [tindex ++] = LLVMGetNamedGlobal (lmodule, "extra_method_info_offsets");
fields [tindex ++] = LLVMGetNamedGlobal (lmodule, "extra_method_table");
fields [tindex ++] = LLVMGetNamedGlobal (lmodule, "got_info_offsets");
fields [tindex ++] = LLVMGetNamedGlobal (lmodule, "llvm_got_info_offsets");
fields [tindex ++] = LLVMGetNamedGlobal (lmodule, "image_table");
fields [tindex ++] = LLVMGetNamedGlobal (lmodule, "weak_field_indexes");
fields [tindex ++] = LLVMGetNamedGlobal (lmodule, "method_flags_table");
}
/* Not needed (mem_end) */
fields [tindex ++] = LLVMConstNull (eltype);
fields [tindex ++] = LLVMGetNamedGlobal (lmodule, "assembly_guid");
fields [tindex ++] = LLVMGetNamedGlobal (lmodule, "runtime_version");
if (info->trampoline_size [0]) {
fields [tindex ++] = AddJitGlobal (module, eltype, "specific_trampolines");
fields [tindex ++] = AddJitGlobal (module, eltype, "static_rgctx_trampolines");
fields [tindex ++] = AddJitGlobal (module, eltype, "imt_trampolines");
fields [tindex ++] = AddJitGlobal (module, eltype, "gsharedvt_arg_trampolines");
fields [tindex ++] = AddJitGlobal (module, eltype, "ftnptr_arg_trampolines");
fields [tindex ++] = AddJitGlobal (module, eltype, "unbox_arbitrary_trampolines");
} else {
fields [tindex ++] = LLVMConstNull (eltype);
fields [tindex ++] = LLVMConstNull (eltype);
fields [tindex ++] = LLVMConstNull (eltype);
fields [tindex ++] = LLVMConstNull (eltype);
fields [tindex ++] = LLVMConstNull (eltype);
fields [tindex ++] = LLVMConstNull (eltype);
}
if (module->static_link && !module->llvm_only)
fields [tindex ++] = AddJitGlobal (module, eltype, "globals");
else
fields [tindex ++] = LLVMConstNull (eltype);
fields [tindex ++] = LLVMGetNamedGlobal (lmodule, "assembly_name");
if (!module->llvm_only) {
fields [tindex ++] = AddJitGlobal (module, eltype, "plt");
fields [tindex ++] = AddJitGlobal (module, eltype, "plt_end");
fields [tindex ++] = AddJitGlobal (module, eltype, "unwind_info");
fields [tindex ++] = AddJitGlobal (module, eltype, "unbox_trampolines");
fields [tindex ++] = AddJitGlobal (module, eltype, "unbox_trampolines_end");
fields [tindex ++] = AddJitGlobal (module, eltype, "unbox_trampoline_addresses");
} else {
fields [tindex ++] = LLVMConstNull (eltype);
fields [tindex ++] = LLVMConstNull (eltype);
fields [tindex ++] = LLVMConstNull (eltype);
fields [tindex ++] = LLVMConstNull (eltype);
fields [tindex ++] = LLVMConstNull (eltype);
fields [tindex ++] = LLVMConstNull (eltype);
}
for (i = 0; i < MONO_AOT_FILE_INFO_NUM_SYMBOLS; ++i) {
g_assert (fields [FILE_INFO_NUM_HEADER_FIELDS + i]);
fields [FILE_INFO_NUM_HEADER_FIELDS + i] = LLVMConstBitCast (fields [FILE_INFO_NUM_HEADER_FIELDS + i], eltype);
}
/* Scalars */
fields [tindex ++] = LLVMConstInt (LLVMInt32Type (), info->plt_got_offset_base, FALSE);
fields [tindex ++] = LLVMConstInt (LLVMInt32Type (), info->plt_got_info_offset_base, FALSE);
fields [tindex ++] = LLVMConstInt (LLVMInt32Type (), info->got_size, FALSE);
fields [tindex ++] = LLVMConstInt (LLVMInt32Type (), info->llvm_got_size, FALSE);
fields [tindex ++] = LLVMConstInt (LLVMInt32Type (), info->plt_size, FALSE);
fields [tindex ++] = LLVMConstInt (LLVMInt32Type (), info->nmethods, FALSE);
fields [tindex ++] = LLVMConstInt (LLVMInt32Type (), info->nextra_methods, FALSE);
fields [tindex ++] = LLVMConstInt (LLVMInt32Type (), info->flags, FALSE);
fields [tindex ++] = LLVMConstInt (LLVMInt32Type (), info->opts, FALSE);
fields [tindex ++] = LLVMConstInt (LLVMInt32Type (), info->simd_opts, FALSE);
fields [tindex ++] = LLVMConstInt (LLVMInt32Type (), info->gc_name_index, FALSE);
fields [tindex ++] = LLVMConstInt (LLVMInt32Type (), info->num_rgctx_fetch_trampolines, FALSE);
fields [tindex ++] = LLVMConstInt (LLVMInt32Type (), info->double_align, FALSE);
fields [tindex ++] = LLVMConstInt (LLVMInt32Type (), info->long_align, FALSE);
fields [tindex ++] = LLVMConstInt (LLVMInt32Type (), info->generic_tramp_num, FALSE);
fields [tindex ++] = LLVMConstInt (LLVMInt32Type (), info->card_table_shift_bits, FALSE);
fields [tindex ++] = LLVMConstInt (LLVMInt32Type (), info->card_table_mask, FALSE);
fields [tindex ++] = LLVMConstInt (LLVMInt32Type (), info->tramp_page_size, FALSE);
fields [tindex ++] = LLVMConstInt (LLVMInt32Type (), info->call_table_entry_size, FALSE);
fields [tindex ++] = LLVMConstInt (LLVMInt32Type (), info->nshared_got_entries, FALSE);
fields [tindex ++] = LLVMConstInt (LLVMInt32Type (), info->datafile_size, FALSE);
fields [tindex ++] = LLVMConstInt (LLVMInt32Type (), module->unbox_tramp_num, FALSE);
fields [tindex ++] = LLVMConstInt (LLVMInt32Type (), module->unbox_tramp_elemsize, FALSE);
/* Arrays */
fields [tindex ++] = llvm_array_from_uints (LLVMInt32Type (), info->table_offsets, MONO_AOT_TABLE_NUM);
fields [tindex ++] = llvm_array_from_uints (LLVMInt32Type (), info->num_trampolines, MONO_AOT_TRAMP_NUM);
fields [tindex ++] = llvm_array_from_uints (LLVMInt32Type (), info->trampoline_got_offset_base, MONO_AOT_TRAMP_NUM);
fields [tindex ++] = llvm_array_from_uints (LLVMInt32Type (), info->trampoline_size, MONO_AOT_TRAMP_NUM);
fields [tindex ++] = llvm_array_from_uints (LLVMInt32Type (), info->tramp_page_code_offsets, MONO_AOT_TRAMP_NUM);
fields [tindex ++] = llvm_array_from_bytes (info->aotid, 16);
g_assert (tindex == nfields);
LLVMSetInitializer (info_var, LLVMConstNamedStruct (LLVMGetElementType (LLVMTypeOf (info_var)), fields, nfields));
if (module->static_link) {
char *s, *p;
LLVMValueRef var;
s = g_strdup_printf ("mono_aot_module_%s_info", module->assembly->aname.name);
/* Get rid of characters which cannot occur in symbols */
p = s;
for (p = s; *p; ++p) {
if (!(isalnum (*p) || *p == '_'))
*p = '_';
}
var = LLVMAddGlobal (module->lmodule, LLVMPointerType (LLVMInt8Type (), 0), s);
g_free (s);
LLVMSetInitializer (var, LLVMConstBitCast (LLVMGetNamedGlobal (module->lmodule, "mono_aot_file_info"), LLVMPointerType (LLVMInt8Type (), 0)));
LLVMSetLinkage (var, LLVMExternalLinkage);
}
}
typedef struct {
LLVMValueRef lmethod;
int argument;
} NonnullPropWorkItem;
static void
mono_llvm_nonnull_state_update (EmitContext *ctx, LLVMValueRef lcall, MonoMethod *call_method, LLVMValueRef *args, int num_params)
{
if (mono_aot_can_specialize (call_method)) {
int num_passed = LLVMGetNumArgOperands (lcall);
g_assert (num_params <= num_passed);
g_assert (ctx->module->method_to_call_info);
GArray *call_site_union = (GArray *) g_hash_table_lookup (ctx->module->method_to_call_info, call_method);
if (!call_site_union) {
call_site_union = g_array_sized_new (FALSE, TRUE, sizeof (gint32), num_params);
int zero = 0;
for (int i = 0; i < num_params; i++)
g_array_insert_val (call_site_union, i, zero);
}
for (int i = 0; i < num_params; i++) {
if (mono_llvm_is_nonnull (args [i])) {
g_assert (i < LLVMGetNumArgOperands (lcall));
mono_llvm_set_call_nonnull_arg (lcall, i);
} else {
gint32 *nullable_count = &g_array_index (call_site_union, gint32, i);
*nullable_count = *nullable_count + 1;
}
}
g_hash_table_insert (ctx->module->method_to_call_info, call_method, call_site_union);
}
}
static void
mono_llvm_propagate_nonnull_final (GHashTable *all_specializable, MonoLLVMModule *module)
{
// When we first traverse the mini IL, we mark the things that are
// nonnull (the roots). Then, for all of the methods that can be specialized, we
// see if their call sites have nonnull attributes.
// If so, we mark the function's param. This param has uses to propagate
// the attribute to. This propagation can trigger a need to mark more attributes
// non-null, and so on and so forth.
GSList *queue = NULL;
GHashTableIter iter;
LLVMValueRef lmethod;
MonoMethod *method;
g_hash_table_iter_init (&iter, all_specializable);
while (g_hash_table_iter_next (&iter, (void**)&lmethod, (void**)&method)) {
GArray *call_site_union = (GArray *) g_hash_table_lookup (module->method_to_call_info, method);
// Basic sanity checking
if (call_site_union)
g_assert (call_site_union->len == LLVMCountParams (lmethod));
// Add root to work queue
for (int i = 0; call_site_union && i < call_site_union->len; i++) {
if (g_array_index (call_site_union, gint32, i) == 0) {
NonnullPropWorkItem *item = g_malloc (sizeof (NonnullPropWorkItem));
item->lmethod = lmethod;
item->argument = i;
queue = g_slist_prepend (queue, item);
}
}
}
// This is essentially reference counting, and we are propagating
// the refcount decrement here. We have less work to do than we may otherwise
// because we are only working with a set of subgraphs of specializable functions.
//
// We rely on being able to see all of the references in the graph.
// This is ensured by the function mono_aot_can_specialize. Everything in
// all_specializable is a function that can be specialized, and is the resulting
// node in the graph after all of the subsitutions are done.
//
// Anything disrupting the direct calls made with self-init will break this optimization.
while (queue) {
// Update the queue state.
// Our only other per-iteration responsibility is now to free current
NonnullPropWorkItem *current = (NonnullPropWorkItem *) queue->data;
queue = queue->next;
g_assert (current->argument < LLVMCountParams (current->lmethod));
// Does the actual leaf-node work here
// Mark the function argument as nonnull for LLVM
mono_llvm_set_func_nonnull_arg (current->lmethod, current->argument);
// The rest of this is for propagating forward nullability changes
// to calls that use the argument that is now nullable.
// Get the actual LLVM value of the argument, so we can see which call instructions
// used that argument
LLVMValueRef caller_argument = LLVMGetParam (current->lmethod, current->argument);
// Iterate over the calls using the newly-non-nullable argument
GSList *calls = mono_llvm_calls_using (caller_argument);
for (GSList *cursor = calls; cursor != NULL; cursor = cursor->next) {
LLVMValueRef lcall = (LLVMValueRef) cursor->data;
LLVMValueRef callee_lmethod = LLVMGetCalledValue (lcall);
// If this wasn't a direct call for which mono_aot_can_specialize is true,
// this lookup won't find a MonoMethod.
MonoMethod *callee_method = (MonoMethod *) g_hash_table_lookup (all_specializable, callee_lmethod);
if (!callee_method)
continue;
// Decrement number of nullable refs at that func's arg offset
GArray *call_site_union = (GArray *) g_hash_table_lookup (module->method_to_call_info, callee_method);
// It has module-local callers and is specializable, should have seen this call site
// and inited this
g_assert (call_site_union);
// The function *definition* parameter arity should always be consistent
int max_params = LLVMCountParams (callee_lmethod);
if (call_site_union->len != max_params) {
mono_llvm_dump_value (callee_lmethod);
g_assert_not_reached ();
}
// Get the values that correspond to the parameters passed to the call
// that used our argument
LLVMValueRef *operands = mono_llvm_call_args (lcall);
for (int call_argument = 0; call_argument < max_params; call_argument++) {
// Every time we used the newly-non-nullable argument, decrement the nullable
// refcount for that function.
if (caller_argument == operands [call_argument]) {
gint32 *nullable_count = &g_array_index (call_site_union, gint32, call_argument);
g_assert (*nullable_count > 0);
*nullable_count = *nullable_count - 1;
// If we caused that callee's parameter to become newly nullable, add to work queue
if (*nullable_count == 0) {
NonnullPropWorkItem *item = g_malloc (sizeof (NonnullPropWorkItem));
item->lmethod = callee_lmethod;
item->argument = call_argument;
queue = g_slist_prepend (queue, item);
}
}
}
g_free (operands);
// Update nullability refcount information for the callee now
g_hash_table_insert (module->method_to_call_info, callee_method, call_site_union);
}
g_slist_free (calls);
g_free (current);
}
}
/*
* Emit the aot module into the LLVM bitcode file FILENAME.
*/
void
mono_llvm_emit_aot_module (const char *filename, const char *cu_name)
{
LLVMTypeRef inited_type;
LLVMValueRef real_inited;
MonoLLVMModule *module = &aot_module;
emit_llvm_code_end (module);
/*
* Create the real init_var and replace all uses of the dummy variable with
* the real one.
*/
inited_type = LLVMArrayType (LLVMInt8Type (), module->max_inited_idx + 1);
real_inited = LLVMAddGlobal (module->lmodule, inited_type, "mono_inited");
LLVMSetInitializer (real_inited, LLVMConstNull (inited_type));
LLVMSetLinkage (real_inited, LLVMInternalLinkage);
mono_llvm_replace_uses_of (module->inited_var, real_inited);
LLVMDeleteGlobal (module->inited_var);
/* Replace the dummy info_ variables with the real ones */
for (int i = 0; i < module->cfgs->len; ++i) {
MonoCompile *cfg = (MonoCompile *)g_ptr_array_index (module->cfgs, i);
// FIXME: Eliminate unused vars
// FIXME: Speed this up
if (cfg->llvm_dummy_info_var) {
if (cfg->llvm_info_var) {
mono_llvm_replace_uses_of (cfg->llvm_dummy_info_var, cfg->llvm_info_var);
LLVMDeleteGlobal (cfg->llvm_dummy_info_var);
} else {
// FIXME: How can this happen ?
LLVMSetInitializer (cfg->llvm_dummy_info_var, mono_llvm_create_constant_data_array (NULL, 0));
}
}
}
if (module->llvm_only) {
emit_get_method (&aot_module);
emit_get_unbox_tramp (&aot_module);
}
emit_init_aotconst (module);
emit_llvm_used (&aot_module);
emit_dbg_info (&aot_module, filename, cu_name);
emit_aot_file_info (&aot_module);
/* Replace PLT entries for directly callable methods with the methods themselves */
{
GHashTableIter iter;
MonoJumpInfo *ji;
LLVMValueRef callee;
GHashTable *specializable = g_hash_table_new (NULL, NULL);
g_hash_table_iter_init (&iter, module->plt_entries_ji);
while (g_hash_table_iter_next (&iter, (void**)&ji, (void**)&callee)) {
if (mono_aot_is_direct_callable (ji)) {
LLVMValueRef lmethod;
lmethod = (LLVMValueRef)g_hash_table_lookup (module->method_to_lmethod, ji->data.method);
/* The types might not match because the caller might pass an rgctx */
if (lmethod && LLVMTypeOf (callee) == LLVMTypeOf (lmethod)) {
mono_llvm_replace_uses_of (callee, lmethod);
if (mono_aot_can_specialize (ji->data.method))
g_hash_table_insert (specializable, lmethod, ji->data.method);
mono_aot_mark_unused_llvm_plt_entry (ji);
}
}
}
mono_llvm_propagate_nonnull_final (specializable, module);
g_hash_table_destroy (specializable);
}
#if 0
{
char *verifier_err;
if (LLVMVerifyModule (module->lmodule, LLVMReturnStatusAction, &verifier_err)) {
printf ("%s\n", verifier_err);
g_assert_not_reached ();
}
}
#endif
/* Note: You can still dump an invalid bitcode file by running `llvm-dis`
* in a debugger, set a breakpoint on `LLVMVerifyModule` and fake its
* result to 0 (indicating success). */
LLVMWriteBitcodeToFile (module->lmodule, filename);
}
static LLVMValueRef
md_string (const char *s)
{
return LLVMMDString (s, strlen (s));
}
/* Debugging support */
static void
emit_dbg_info (MonoLLVMModule *module, const char *filename, const char *cu_name)
{
LLVMModuleRef lmodule = module->lmodule;
LLVMValueRef args [16], ver;
/*
* This can only be enabled when LLVM code is emitted into a separate object
* file, since the AOT compiler also emits dwarf info,
* and the abbrev indexes will not be correct since llvm has added its own
* abbrevs.
*/
if (!module->emit_dwarf)
return;
mono_llvm_di_builder_finalize (module->di_builder);
args [0] = LLVMConstInt (LLVMInt32Type (), 2, FALSE);
args [1] = LLVMMDString ("Dwarf Version", strlen ("Dwarf Version"));
args [2] = LLVMConstInt (LLVMInt32Type (), 2, FALSE);
ver = LLVMMDNode (args, 3);
LLVMAddNamedMetadataOperand (lmodule, "llvm.module.flags", ver);
args [0] = LLVMConstInt (LLVMInt32Type (), 2, FALSE);
args [1] = LLVMMDString ("Debug Info Version", strlen ("Debug Info Version"));
args [2] = LLVMConstInt (LLVMInt64Type (), 3, FALSE);
ver = LLVMMDNode (args, 3);
LLVMAddNamedMetadataOperand (lmodule, "llvm.module.flags", ver);
}
static LLVMValueRef
emit_dbg_subprogram (EmitContext *ctx, MonoCompile *cfg, LLVMValueRef method, const char *name)
{
MonoLLVMModule *module = ctx->module;
MonoDebugMethodInfo *minfo = ctx->minfo;
char *source_file, *dir, *filename;
MonoSymSeqPoint *sym_seq_points;
int n_seq_points;
if (!minfo)
return NULL;
mono_debug_get_seq_points (minfo, &source_file, NULL, NULL, &sym_seq_points, &n_seq_points);
if (!source_file)
source_file = g_strdup ("<unknown>");
dir = g_path_get_dirname (source_file);
filename = g_path_get_basename (source_file);
g_free (source_file);
return (LLVMValueRef)mono_llvm_di_create_function (module->di_builder, module->cu, method, cfg->method->name, name, dir, filename, n_seq_points ? sym_seq_points [0].line : 1);
}
static void
emit_dbg_loc (EmitContext *ctx, LLVMBuilderRef builder, const unsigned char *cil_code)
{
MonoCompile *cfg = ctx->cfg;
if (ctx->minfo && cil_code && cil_code >= cfg->header->code && cil_code < cfg->header->code + cfg->header->code_size) {
MonoDebugSourceLocation *loc;
LLVMValueRef loc_md;
loc = mono_debug_method_lookup_location (ctx->minfo, cil_code - cfg->header->code);
if (loc) {
loc_md = (LLVMValueRef)mono_llvm_di_create_location (ctx->module->di_builder, ctx->dbg_md, loc->row, loc->column);
mono_llvm_di_set_location (builder, loc_md);
mono_debug_free_source_location (loc);
}
}
}
static void
emit_default_dbg_loc (EmitContext *ctx, LLVMBuilderRef builder)
{
if (ctx->minfo) {
LLVMValueRef loc_md;
loc_md = (LLVMValueRef)mono_llvm_di_create_location (ctx->module->di_builder, ctx->dbg_md, 0, 0);
mono_llvm_di_set_location (builder, loc_md);
}
}
/*
DESIGN:
- Emit LLVM IR from the mono IR using the LLVM C API.
- The original arch specific code remains, so we can fall back to it if we run
into something we can't handle.
*/
/*
A partial list of issues:
- Handling of opcodes which can throw exceptions.
In the mono JIT, these are implemented using code like this:
method:
<compare>
throw_pos:
b<cond> ex_label
<rest of code>
ex_label:
push throw_pos - method
call <exception trampoline>
The problematic part is push throw_pos - method, which cannot be represented
in the LLVM IR, since it does not support label values.
-> this can be implemented in AOT mode using inline asm + labels, but cannot
be implemented in JIT mode ?
-> a possible but slower implementation would use the normal exception
throwing code but it would need to control the placement of the throw code
(it needs to be exactly after the compare+branch).
-> perhaps add a PC offset intrinsics ?
- efficient implementation of .ovf opcodes.
These are currently implemented as:
<ins which sets the condition codes>
b<cond> ex_label
Some overflow opcodes are now supported by LLVM SVN.
- exception handling, unwinding.
- SSA is disabled for methods with exception handlers
- How to obtain unwind info for LLVM compiled methods ?
-> this is now solved by converting the unwind info generated by LLVM
into our format.
- LLVM uses the c++ exception handling framework, while we use our home grown
code, and couldn't use the c++ one:
- its not supported under VC++, other exotic platforms.
- it might be impossible to support filter clauses with it.
- trampolines.
The trampolines need a predictable call sequence, since they need to disasm
the calling code to obtain register numbers / offsets.
LLVM currently generates this code in non-JIT mode:
mov -0x98(%rax),%eax
callq *%rax
Here, the vtable pointer is lost.
-> solution: use one vtable trampoline per class.
- passing/receiving the IMT pointer/RGCTX.
-> solution: pass them as normal arguments ?
- argument passing.
LLVM does not allow the specification of argument registers etc. This means
that all calls are made according to the platform ABI.
- passing/receiving vtypes.
Vtypes passed/received in registers are handled by the front end by using
a signature with scalar arguments, and loading the parts of the vtype into those
arguments.
Vtypes passed on the stack are handled using the 'byval' attribute.
- ldaddr.
Supported though alloca, we need to emit the load/store code.
- types.
The mono JIT uses pointer sized iregs/double fregs, while LLVM uses precisely
typed registers, so we have to keep track of the precise LLVM type of each vreg.
This is made easier because the IR is already in SSA form.
An additional problem is that our IR is not consistent with types, i.e. i32/i64
types are frequently used incorrectly.
*/
/*
AOT SUPPORT:
Emit LLVM bytecode into a .bc file, compile it using llc into a .s file, then link
it with the file containing the methods emitted by the JIT and the AOT data
structures.
*/
/* FIXME: Normalize some aspects of the mono IR to allow easier translation, like:
* - each bblock should end with a branch
* - setting the return value, making cfg->ret non-volatile
* - avoid some transformations in the JIT which make it harder for us to generate
* code.
* - use pointer types to help optimizations.
*/
#else /* DISABLE_JIT */
void
mono_llvm_cleanup (void)
{
}
void
mono_llvm_free_mem_manager (MonoJitMemoryManager *mem_manager)
{
}
void
mono_llvm_init (gboolean enable_jit)
{
}
#endif /* DISABLE_JIT */
#if !defined(DISABLE_JIT) && !defined(MONO_CROSS_COMPILE)
/* LLVM JIT support */
/*
* decode_llvm_eh_info:
*
* Decode the EH table emitted by llvm in jit mode, and store
* the result into cfg.
*/
static void
decode_llvm_eh_info (EmitContext *ctx, gpointer eh_frame)
{
MonoCompile *cfg = ctx->cfg;
guint8 *cie, *fde;
int fde_len;
MonoLLVMFDEInfo info;
MonoJitExceptionInfo *ei;
guint8 *p = (guint8*)eh_frame;
int version, fde_count, fde_offset;
guint32 ei_len, i, nested_len;
gpointer *type_info;
gint32 *table;
guint8 *unw_info;
/*
* Decode the one element EH table emitted by the MonoException class
* in llvm.
*/
/* Similar to decode_llvm_mono_eh_frame () in aot-runtime.c */
version = *p;
g_assert (version == 3);
p ++;
p ++;
p = (guint8 *)ALIGN_PTR_TO (p, 4);
fde_count = *(guint32*)p;
p += 4;
table = (gint32*)p;
g_assert (fde_count <= 2);
/* The first entry is the real method */
g_assert (table [0] == 1);
fde_offset = table [1];
table += fde_count * 2;
/* Extra entry */
cfg->code_len = table [0];
fde_len = table [1] - fde_offset;
table += 2;
fde = (guint8*)eh_frame + fde_offset;
cie = (guint8*)table;
/* Compute lengths */
mono_unwind_decode_llvm_mono_fde (fde, fde_len, cie, cfg->native_code, &info, NULL, NULL, NULL);
ei = (MonoJitExceptionInfo *)g_malloc0 (info.ex_info_len * sizeof (MonoJitExceptionInfo));
type_info = (gpointer *)g_malloc0 (info.ex_info_len * sizeof (gpointer));
unw_info = (guint8*)g_malloc0 (info.unw_info_len);
mono_unwind_decode_llvm_mono_fde (fde, fde_len, cie, cfg->native_code, &info, ei, type_info, unw_info);
cfg->encoded_unwind_ops = unw_info;
cfg->encoded_unwind_ops_len = info.unw_info_len;
if (cfg->verbose_level > 1)
mono_print_unwind_info (cfg->encoded_unwind_ops, cfg->encoded_unwind_ops_len);
if (info.this_reg != -1) {
cfg->llvm_this_reg = info.this_reg;
cfg->llvm_this_offset = info.this_offset;
}
ei_len = info.ex_info_len;
// Nested clauses are currently disabled
nested_len = 0;
cfg->llvm_ex_info = (MonoJitExceptionInfo*)mono_mempool_alloc0 (cfg->mempool, (ei_len + nested_len) * sizeof (MonoJitExceptionInfo));
cfg->llvm_ex_info_len = ei_len + nested_len;
memcpy (cfg->llvm_ex_info, ei, ei_len * sizeof (MonoJitExceptionInfo));
/* Fill the rest of the information from the type info */
for (i = 0; i < ei_len; ++i) {
gint32 clause_index = *(gint32*)type_info [i];
MonoExceptionClause *clause = &cfg->header->clauses [clause_index];
cfg->llvm_ex_info [i].flags = clause->flags;
cfg->llvm_ex_info [i].data.catch_class = clause->data.catch_class;
cfg->llvm_ex_info [i].clause_index = clause_index;
}
}
static MonoLLVMModule*
init_jit_module (void)
{
MonoJitMemoryManager *jit_mm;
MonoLLVMModule *module;
// FIXME:
jit_mm = get_default_jit_mm ();
if (jit_mm->llvm_module)
return (MonoLLVMModule*)jit_mm->llvm_module;
mono_loader_lock ();
if (jit_mm->llvm_module) {
mono_loader_unlock ();
return (MonoLLVMModule*)jit_mm->llvm_module;
}
module = g_new0 (MonoLLVMModule, 1);
module->context = LLVMGetGlobalContext ();
module->mono_ee = (MonoEERef*)mono_llvm_create_ee (&module->ee);
// This contains just the intrinsics
module->lmodule = LLVMModuleCreateWithName ("jit-global-module");
add_intrinsics (module->lmodule);
add_types (module);
module->llvm_types = g_hash_table_new (NULL, NULL);
mono_memory_barrier ();
jit_mm->llvm_module = module;
mono_loader_unlock ();
return (MonoLLVMModule*)jit_mm->llvm_module;
}
static void
llvm_jit_finalize_method (EmitContext *ctx)
{
MonoCompile *cfg = ctx->cfg;
int nvars = g_hash_table_size (ctx->jit_callees);
LLVMValueRef *callee_vars = g_new0 (LLVMValueRef, nvars);
gpointer *callee_addrs = g_new0 (gpointer, nvars);
GHashTableIter iter;
LLVMValueRef var;
MonoMethod *callee;
gpointer eh_frame;
int i;
/*
* Compute the addresses of the LLVM globals pointing to the
* methods called by the current method. Pass it to the trampoline
* code so it can update them after their corresponding method was
* compiled.
*/
g_hash_table_iter_init (&iter, ctx->jit_callees);
i = 0;
while (g_hash_table_iter_next (&iter, NULL, (void**)&var))
callee_vars [i ++] = var;
mono_llvm_optimize_method (ctx->lmethod);
if (cfg->verbose_level > 1) {
g_print ("\n*** Optimized LLVM IR for %s ***\n", mono_method_full_name (cfg->method, TRUE));
if (cfg->compile_aot) {
mono_llvm_dump_value (ctx->lmethod);
} else {
mono_llvm_dump_module (ctx->lmodule);
}
g_print ("***\n\n");
}
mono_codeman_enable_write ();
cfg->native_code = (guint8*)mono_llvm_compile_method (ctx->module->mono_ee, cfg, ctx->lmethod, nvars, callee_vars, callee_addrs, &eh_frame);
mono_llvm_remove_gc_safepoint_poll (ctx->lmodule);
mono_codeman_disable_write ();
decode_llvm_eh_info (ctx, eh_frame);
// FIXME:
MonoJitMemoryManager *jit_mm = get_default_jit_mm ();
jit_mm_lock (jit_mm);
if (!jit_mm->llvm_jit_callees)
jit_mm->llvm_jit_callees = g_hash_table_new (NULL, NULL);
g_hash_table_iter_init (&iter, ctx->jit_callees);
i = 0;
while (g_hash_table_iter_next (&iter, (void**)&callee, (void**)&var)) {
GSList *addrs = (GSList*)g_hash_table_lookup (jit_mm->llvm_jit_callees, callee);
addrs = g_slist_prepend (addrs, callee_addrs [i]);
g_hash_table_insert (jit_mm->llvm_jit_callees, callee, addrs);
i ++;
}
jit_mm_unlock (jit_mm);
}
#else
static MonoLLVMModule*
init_jit_module (void)
{
g_assert_not_reached ();
}
static void
llvm_jit_finalize_method (EmitContext *ctx)
{
g_assert_not_reached ();
}
#endif
static MonoCPUFeatures cpu_features;
MonoCPUFeatures mono_llvm_get_cpu_features (void)
{
static const CpuFeatureAliasFlag flags_map [] = {
#if defined(TARGET_X86) || defined(TARGET_AMD64)
{ "sse", MONO_CPU_X86_SSE },
{ "sse2", MONO_CPU_X86_SSE2 },
{ "pclmul", MONO_CPU_X86_PCLMUL },
{ "aes", MONO_CPU_X86_AES },
{ "sse2", MONO_CPU_X86_SSE2 },
{ "sse3", MONO_CPU_X86_SSE3 },
{ "ssse3", MONO_CPU_X86_SSSE3 },
{ "sse4.1", MONO_CPU_X86_SSE41 },
{ "sse4.2", MONO_CPU_X86_SSE42 },
{ "popcnt", MONO_CPU_X86_POPCNT },
{ "avx", MONO_CPU_X86_AVX },
{ "avx2", MONO_CPU_X86_AVX2 },
{ "fma", MONO_CPU_X86_FMA },
{ "lzcnt", MONO_CPU_X86_LZCNT },
{ "bmi", MONO_CPU_X86_BMI1 },
{ "bmi2", MONO_CPU_X86_BMI2 },
#endif
#if defined(TARGET_ARM64)
{ "crc", MONO_CPU_ARM64_CRC },
{ "crypto", MONO_CPU_ARM64_CRYPTO },
{ "neon", MONO_CPU_ARM64_NEON },
{ "rdm", MONO_CPU_ARM64_RDM },
{ "dotprod", MONO_CPU_ARM64_DP },
#endif
#if defined(TARGET_WASM)
{ "simd", MONO_CPU_WASM_SIMD },
#endif
// flags_map cannot be zero length in MSVC, so add useless dummy entry for arm32
#if defined(TARGET_ARM) && defined(HOST_WIN32)
{ "inited", MONO_CPU_INITED},
#endif
};
if (!cpu_features)
cpu_features = MONO_CPU_INITED | (MonoCPUFeatures)mono_llvm_check_cpu_features (flags_map, G_N_ELEMENTS (flags_map));
return cpu_features;
}
| 1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/mono/mono/mini/mini-ops.h
|
/**
* \file
* Copyright 2003 Ximian, Inc
* Copyright 2003-2011 Novell Inc
* Copyright 2011 Xamarin Inc
* Licensed under the MIT license. See LICENSE file in the project root for full license information.
*/
MINI_OP(OP_LOAD, "load", NONE, NONE, NONE)
MINI_OP(OP_LDADDR, "ldaddr", IREG, NONE, NONE)
MINI_OP(OP_STORE, "store", NONE, NONE, NONE)
MINI_OP(OP_NOP, "nop", NONE, NONE, NONE)
MINI_OP(OP_HARD_NOP, "hard_nop", NONE, NONE, NONE)
MINI_OP(OP_RELAXED_NOP, "relaxed_nop", NONE, NONE, NONE)
MINI_OP(OP_PHI, "phi", IREG, NONE, NONE)
MINI_OP(OP_FPHI, "fphi", FREG, NONE, NONE)
MINI_OP(OP_VPHI, "vphi", VREG, NONE, NONE)
MINI_OP(OP_COMPARE, "compare", NONE, IREG, IREG)
MINI_OP(OP_COMPARE_IMM, "compare_imm", NONE, IREG, NONE)
MINI_OP(OP_FCOMPARE, "fcompare", NONE, FREG, FREG)
MINI_OP(OP_RCOMPARE, "rcompare", NONE, FREG, FREG)
MINI_OP(OP_LCOMPARE, "lcompare", NONE, LREG, LREG)
MINI_OP(OP_ICOMPARE, "icompare", NONE, IREG, IREG)
MINI_OP(OP_ICOMPARE_IMM, "icompare_imm", NONE, IREG, NONE)
MINI_OP(OP_LCOMPARE_IMM, "lcompare_imm", NONE, LREG, NONE)
MINI_OP(OP_LOCAL, "local", NONE, NONE, NONE)
MINI_OP(OP_ARG, "arg", NONE, NONE, NONE)
/* inst_imm contains the local index */
MINI_OP(OP_GSHAREDVT_LOCAL, "gsharedvt_local", NONE, NONE, NONE)
MINI_OP(OP_GSHAREDVT_ARG_REGOFFSET, "gsharedvt_arg_regoffset", NONE, NONE, NONE)
/*
* Represents passing a valuetype argument which has not been decomposed yet.
* inst_p0 points to the call.
*/
MINI_OP(OP_OUTARG_VT, "outarg_vt", NONE, VREG, NONE)
MINI_OP(OP_OUTARG_VTRETADDR, "outarg_vtretaddr", IREG, NONE, NONE)
MINI_OP(OP_SETRET, "setret", NONE, IREG, NONE)
MINI_OP(OP_SETFRET, "setfret", FREG, FREG, NONE)
MINI_OP(OP_SETLRET, "setlret", NONE, IREG, IREG)
MINI_OP(OP_LOCALLOC, "localloc", IREG, IREG, NONE)
MINI_OP(OP_LOCALLOC_IMM, "localloc_imm", IREG, NONE, NONE)
MINI_OP(OP_CHECK_THIS, "check_this", NONE, IREG, NONE)
MINI_OP(OP_SEQ_POINT, "seq_point", NONE, NONE, NONE)
MINI_OP(OP_IL_SEQ_POINT, "il_seq_point", NONE, NONE, NONE)
MINI_OP(OP_IMPLICIT_EXCEPTION, "implicit_exception", NONE, NONE, NONE)
MINI_OP(OP_BOX, "box", IREG, IREG, NONE)
/* A box of the int value in inst_c0 */
MINI_OP(OP_BOX_ICONST, "box_iconst", IREG, NONE, NONE)
/* Same as OP_MOVE, ins->dreg is an objref of type ins->klass */
MINI_OP(OP_TYPED_OBJREF, "typed_objref", IREG, IREG, NONE)
/* CALL opcodes need to stay together, see MONO_IS_CALL macro */
MINI_OP(OP_VOIDCALL, "voidcall", NONE, NONE, NONE)
MINI_OP(OP_VOIDCALL_REG, "voidcall_reg", NONE, IREG, NONE)
MINI_OP(OP_VOIDCALL_MEMBASE, "voidcall_membase", NONE, IREG, NONE)
MINI_OP(OP_CALL, "call", IREG, NONE, NONE)
MINI_OP(OP_CALL_REG, "call_reg", IREG, IREG, NONE)
MINI_OP(OP_CALL_MEMBASE, "call_membase", IREG, IREG, NONE)
MINI_OP(OP_FCALL, "fcall", FREG, NONE, NONE)
MINI_OP(OP_FCALL_REG, "fcall_reg", FREG, IREG, NONE)
MINI_OP(OP_FCALL_MEMBASE, "fcall_membase", FREG, IREG, NONE)
MINI_OP(OP_RCALL, "rcall", FREG, NONE, NONE)
MINI_OP(OP_RCALL_REG, "rcall_reg", FREG, IREG, NONE)
MINI_OP(OP_RCALL_MEMBASE, "rcall_membase", FREG, IREG, NONE)
MINI_OP(OP_LCALL, "lcall", LREG, NONE, NONE)
MINI_OP(OP_LCALL_REG, "lcall_reg", LREG, IREG, NONE)
MINI_OP(OP_LCALL_MEMBASE, "lcall_membase", LREG, IREG, NONE)
MINI_OP(OP_VCALL, "vcall", VREG, NONE, NONE)
MINI_OP(OP_VCALL_REG, "vcall_reg", VREG, IREG, NONE)
MINI_OP(OP_VCALL_MEMBASE, "vcall_membase", VREG, IREG, NONE)
/* Represents the decomposed vcall which doesn't return a vtype no more */
MINI_OP(OP_VCALL2, "vcall2", NONE, NONE, NONE)
MINI_OP(OP_VCALL2_REG, "vcall2_reg", NONE, IREG, NONE)
MINI_OP(OP_VCALL2_MEMBASE, "vcall2_membase", NONE, IREG, NONE)
MINI_OP(OP_DYN_CALL, "dyn_call", NONE, IREG, IREG)
MINI_OP(OP_ICONST, "iconst", IREG, NONE, NONE)
MINI_OP(OP_I8CONST, "i8const", LREG, NONE, NONE)
MINI_OP(OP_R4CONST, "r4const", FREG, NONE, NONE)
MINI_OP(OP_R8CONST, "r8const", FREG, NONE, NONE)
MINI_OP(OP_DUMMY_ICONST, "dummy_iconst", IREG, NONE, NONE)
MINI_OP(OP_DUMMY_I8CONST, "dummy_i8const", LREG, NONE, NONE)
MINI_OP(OP_DUMMY_R8CONST, "dummy_r8const", FREG, NONE, NONE)
MINI_OP(OP_DUMMY_R4CONST, "dummy_r4const", FREG, NONE, NONE)
MINI_OP(OP_DUMMY_VZERO, "dummy_vzero", VREG, NONE, NONE)
MINI_OP(OP_REGVAR, "regvar", NONE, NONE, NONE)
MINI_OP(OP_REGOFFSET, "regoffset", NONE, NONE, NONE)
MINI_OP(OP_VTARG_ADDR, "vtarg_addr", NONE, NONE, NONE)
MINI_OP(OP_LABEL, "label", NONE, NONE, NONE)
MINI_OP(OP_SWITCH, "switch", NONE, IREG, NONE)
MINI_OP(OP_THROW, "throw", NONE, IREG, NONE)
MINI_OP(OP_RETHROW, "rethrow", NONE, IREG, NONE)
/*
* Vararg calls are implemented as follows:
* - the caller emits a hidden argument just before the varargs argument. this
* 'signature cookie' argument contains the signature describing the the call.
* - all implicit arguments are passed in memory right after the signature cookie, i.e.
* the stack will look like this:
* <argn>
* ..
* <arg1>
* <sig cookie>
* - the OP_ARGLIST opcode in the callee computes the address of the sig cookie argument
* on the stack and saves it into its sreg1.
* - mono_ArgIterator_Setup receives this value and uses it to find the signature and
* the arguments.
*/
MINI_OP(OP_ARGLIST, "arglist", NONE, IREG, NONE)
/* MONO_IS_STORE_MEMBASE depends on the order here */
MINI_OP(OP_STORE_MEMBASE_REG,"store_membase_reg", IREG, IREG, NONE)
MINI_OP(OP_STOREI1_MEMBASE_REG, "storei1_membase_reg", IREG, IREG, NONE)
MINI_OP(OP_STOREI2_MEMBASE_REG, "storei2_membase_reg", IREG, IREG, NONE)
MINI_OP(OP_STOREI4_MEMBASE_REG, "storei4_membase_reg", IREG, IREG, NONE)
MINI_OP(OP_STOREI8_MEMBASE_REG, "storei8_membase_reg", IREG, LREG, NONE)
MINI_OP(OP_STORER4_MEMBASE_REG, "storer4_membase_reg", IREG, FREG, NONE)
MINI_OP(OP_STORER8_MEMBASE_REG, "storer8_membase_reg", IREG, FREG, NONE)
#if defined(TARGET_X86) || defined(TARGET_AMD64)
MINI_OP(OP_STOREX_MEMBASE_REG, "storex_membase_reg", IREG, XREG, NONE)
MINI_OP(OP_STOREX_ALIGNED_MEMBASE_REG, "storex_aligned_membase_reg", IREG, XREG, NONE)
MINI_OP(OP_STOREX_NTA_MEMBASE_REG, "storex_nta_membase_reg", IREG, XREG, NONE)
#endif
MINI_OP(OP_STORE_MEMBASE_IMM,"store_membase_imm", IREG, NONE, NONE)
MINI_OP(OP_STOREI1_MEMBASE_IMM, "storei1_membase_imm", IREG, NONE, NONE)
MINI_OP(OP_STOREI2_MEMBASE_IMM, "storei2_membase_imm", IREG, NONE, NONE)
MINI_OP(OP_STOREI4_MEMBASE_IMM, "storei4_membase_imm", IREG, NONE, NONE)
MINI_OP(OP_STOREI8_MEMBASE_IMM, "storei8_membase_imm", IREG, NONE, NONE)
MINI_OP(OP_STOREX_MEMBASE, "storex_membase", IREG, XREG, NONE)
MINI_OP(OP_STOREV_MEMBASE, "storev_membase", IREG, VREG, NONE)
/* MONO_IS_LOAD_MEMBASE depends on the order here */
MINI_OP(OP_LOAD_MEMBASE, "load_membase", IREG, IREG, NONE)
MINI_OP(OP_LOADI1_MEMBASE,"loadi1_membase", IREG, IREG, NONE)
MINI_OP(OP_LOADU1_MEMBASE,"loadu1_membase", IREG, IREG, NONE)
MINI_OP(OP_LOADI2_MEMBASE,"loadi2_membase", IREG, IREG, NONE)
MINI_OP(OP_LOADU2_MEMBASE,"loadu2_membase", IREG, IREG, NONE)
MINI_OP(OP_LOADI4_MEMBASE,"loadi4_membase", IREG, IREG, NONE)
MINI_OP(OP_LOADU4_MEMBASE,"loadu4_membase", IREG, IREG, NONE)
MINI_OP(OP_LOADI8_MEMBASE,"loadi8_membase", LREG, IREG, NONE)
MINI_OP(OP_LOADR4_MEMBASE,"loadr4_membase", FREG, IREG, NONE)
MINI_OP(OP_LOADR8_MEMBASE,"loadr8_membase", FREG, IREG, NONE)
MINI_OP(OP_LOADX_MEMBASE, "loadx_membase", XREG, IREG, NONE)
#if defined(TARGET_X86) || defined(TARGET_AMD64)
MINI_OP(OP_LOADX_ALIGNED_MEMBASE, "loadx_aligned_membase", XREG, IREG, NONE)
#endif
MINI_OP(OP_LOADV_MEMBASE, "loadv_membase", VREG, IREG, NONE)
/* indexed loads: dreg = load at (sreg1 + sreg2)*/
MINI_OP(OP_LOAD_MEMINDEX, "load_memindex", IREG, IREG, IREG)
MINI_OP(OP_LOADI1_MEMINDEX,"loadi1_memindex", IREG, IREG, IREG)
MINI_OP(OP_LOADU1_MEMINDEX,"loadu1_memindex", IREG, IREG, IREG)
MINI_OP(OP_LOADI2_MEMINDEX,"loadi2_memindex", IREG, IREG, IREG)
MINI_OP(OP_LOADU2_MEMINDEX,"loadu2_memindex", IREG, IREG, IREG)
MINI_OP(OP_LOADI4_MEMINDEX,"loadi4_memindex", IREG, IREG, IREG)
MINI_OP(OP_LOADU4_MEMINDEX,"loadu4_memindex", IREG, IREG, IREG)
MINI_OP(OP_LOADI8_MEMINDEX,"loadi8_memindex", IREG, IREG, IREG)
MINI_OP(OP_LOADR4_MEMINDEX,"loadr4_memindex", FREG, IREG, IREG)
MINI_OP(OP_LOADR8_MEMINDEX,"loadr8_memindex", FREG, IREG, IREG)
/* indexed stores: store sreg1 at (destbasereg + sreg2) */
/* MONO_IS_STORE_MEMINDEX depends on the order here */
MINI_OP(OP_STORE_MEMINDEX,"store_memindex", IREG, IREG, IREG)
MINI_OP(OP_STOREI1_MEMINDEX,"storei1_memindex", IREG, IREG, IREG)
MINI_OP(OP_STOREI2_MEMINDEX,"storei2_memindex", IREG, IREG, IREG)
MINI_OP(OP_STOREI4_MEMINDEX,"storei4_memindex", IREG, IREG, IREG)
MINI_OP(OP_STOREI8_MEMINDEX,"storei8_memindex", IREG, IREG, IREG)
MINI_OP(OP_STORER4_MEMINDEX,"storer4_memindex", IREG, FREG, IREG)
MINI_OP(OP_STORER8_MEMINDEX,"storer8_memindex", IREG, FREG, IREG)
MINI_OP(OP_LOAD_MEM,"load_mem", IREG, NONE, NONE)
MINI_OP(OP_LOADU1_MEM,"loadu1_mem", IREG, NONE, NONE)
MINI_OP(OP_LOADU2_MEM,"loadu2_mem", IREG, NONE, NONE)
MINI_OP(OP_LOADI4_MEM,"loadi4_mem", IREG, NONE, NONE)
MINI_OP(OP_LOADU4_MEM,"loadu4_mem", IREG, NONE, NONE)
MINI_OP(OP_LOADI8_MEM,"loadi8_mem", IREG, NONE, NONE)
MINI_OP(OP_MOVE, "move", IREG, IREG, NONE)
MINI_OP(OP_LMOVE, "lmove", LREG, LREG, NONE)
MINI_OP(OP_FMOVE, "fmove", FREG, FREG, NONE)
MINI_OP(OP_VMOVE, "vmove", VREG, VREG, NONE)
MINI_OP(OP_RMOVE, "rmove", FREG, FREG, NONE)
/*
* All 4 of these are only available when soft float isn't active. They
* perform no conversions; they simply move values back and forth.
*/
MINI_OP(OP_MOVE_F_TO_I4, "move_f_to_i4", IREG, FREG, NONE)
MINI_OP(OP_MOVE_I4_TO_F, "move_i4_to_f", FREG, IREG, NONE)
/* These 2 are only available on 64-bit targets. */
MINI_OP(OP_MOVE_F_TO_I8, "move_f_to_i8", IREG, FREG, NONE)
MINI_OP(OP_MOVE_I8_TO_F, "move_i8_to_f", FREG, IREG, NONE)
MINI_OP(OP_VZERO, "vzero", VREG, NONE, NONE)
MINI_OP(OP_ADD_IMM, "add_imm", IREG, IREG, NONE)
MINI_OP(OP_SUB_IMM, "sub_imm", IREG, IREG, NONE)
MINI_OP(OP_MUL_IMM, "mul_imm", IREG, IREG, NONE)
MINI_OP(OP_DIV_IMM, "div_imm", IREG, IREG, NONE)
MINI_OP(OP_DIV_UN_IMM, "div_un_imm", IREG, IREG, NONE)
MINI_OP(OP_REM_IMM, "rem_imm", IREG, IREG, NONE)
MINI_OP(OP_REM_UN_IMM, "rem_un_imm", IREG, IREG, NONE)
MINI_OP(OP_AND_IMM, "and_imm", IREG, IREG, NONE)
MINI_OP(OP_OR_IMM, "or_imm", IREG, IREG, NONE)
MINI_OP(OP_XOR_IMM, "xor_imm", IREG, IREG, NONE)
MINI_OP(OP_SHL_IMM, "shl_imm", IREG, IREG, NONE)
MINI_OP(OP_SHR_IMM, "shr_imm", IREG, IREG, NONE)
MINI_OP(OP_SHR_UN_IMM, "shr_un_imm", IREG, IREG, NONE)
MINI_OP(OP_BR, "br", NONE, NONE, NONE)
/* Similar to old OP_JMP, but the passing of arguments is done similarly to calls */
MINI_OP(OP_TAILCALL, "tailcall", NONE, NONE, NONE)
MINI_OP(OP_TAILCALL_PARAMETER, "tailcall_parameter", NONE, NONE, NONE) // no code, just size
MINI_OP(OP_TAILCALL_REG, "tailcall_reg", NONE, IREG, NONE)
MINI_OP(OP_TAILCALL_MEMBASE, "tailcall_membase", NONE, IREG, NONE)
MINI_OP(OP_BREAK, "break", NONE, NONE, NONE)
MINI_OP(OP_CEQ, "ceq", IREG, NONE, NONE)
MINI_OP(OP_CGT, "cgt", IREG, NONE, NONE)
MINI_OP(OP_CGT_UN,"cgt_un", IREG, NONE, NONE)
MINI_OP(OP_CLT, "clt", IREG, NONE, NONE)
MINI_OP(OP_CLT_UN,"clt_un", IREG, NONE, NONE)
/* exceptions: must be in the same order as the matching CEE_ branch opcodes */
MINI_OP(OP_COND_EXC_EQ, "cond_exc_eq", NONE, NONE, NONE)
MINI_OP(OP_COND_EXC_GE, "cond_exc_ge", NONE, NONE, NONE)
MINI_OP(OP_COND_EXC_GT, "cond_exc_gt", NONE, NONE, NONE)
MINI_OP(OP_COND_EXC_LE, "cond_exc_le", NONE, NONE, NONE)
MINI_OP(OP_COND_EXC_LT, "cond_exc_lt", NONE, NONE, NONE)
MINI_OP(OP_COND_EXC_NE_UN, "cond_exc_ne_un", NONE, NONE, NONE)
MINI_OP(OP_COND_EXC_GE_UN, "cond_exc_ge_un", NONE, NONE, NONE)
MINI_OP(OP_COND_EXC_GT_UN, "cond_exc_gt_un", NONE, NONE, NONE)
MINI_OP(OP_COND_EXC_LE_UN, "cond_exc_le_un", NONE, NONE, NONE)
MINI_OP(OP_COND_EXC_LT_UN, "cond_exc_lt_un", NONE, NONE, NONE)
MINI_OP(OP_COND_EXC_OV, "cond_exc_ov", NONE, NONE, NONE)
MINI_OP(OP_COND_EXC_NO, "cond_exc_no", NONE, NONE, NONE)
MINI_OP(OP_COND_EXC_C, "cond_exc_c", NONE, NONE, NONE)
MINI_OP(OP_COND_EXC_NC, "cond_exc_nc", NONE, NONE, NONE)
MINI_OP(OP_COND_EXC_IEQ, "cond_exc_ieq", NONE, NONE, NONE)
MINI_OP(OP_COND_EXC_IGE, "cond_exc_ige", NONE, NONE, NONE)
MINI_OP(OP_COND_EXC_IGT, "cond_exc_igt", NONE, NONE, NONE)
MINI_OP(OP_COND_EXC_ILE, "cond_exc_ile", NONE, NONE, NONE)
MINI_OP(OP_COND_EXC_ILT, "cond_exc_ilt", NONE, NONE, NONE)
MINI_OP(OP_COND_EXC_INE_UN, "cond_exc_ine_un", NONE, NONE, NONE)
MINI_OP(OP_COND_EXC_IGE_UN, "cond_exc_ige_un", NONE, NONE, NONE)
MINI_OP(OP_COND_EXC_IGT_UN, "cond_exc_igt_un", NONE, NONE, NONE)
MINI_OP(OP_COND_EXC_ILE_UN, "cond_exc_ile_un", NONE, NONE, NONE)
MINI_OP(OP_COND_EXC_ILT_UN, "cond_exc_ilt_un", NONE, NONE, NONE)
MINI_OP(OP_COND_EXC_IOV, "cond_exc_iov", NONE, NONE, NONE)
MINI_OP(OP_COND_EXC_INO, "cond_exc_ino", NONE, NONE, NONE)
MINI_OP(OP_COND_EXC_IC, "cond_exc_ic", NONE, NONE, NONE)
MINI_OP(OP_COND_EXC_INC, "cond_exc_inc", NONE, NONE, NONE)
/* 64 bit opcodes: must be in the same order as the matching CEE_ opcodes: binops_op_map */
MINI_OP(OP_LADD, "long_add", LREG, LREG, LREG)
MINI_OP(OP_LSUB, "long_sub", LREG, LREG, LREG)
MINI_OP(OP_LMUL, "long_mul", LREG, LREG, LREG)
MINI_OP(OP_LDIV, "long_div", LREG, LREG, LREG)
MINI_OP(OP_LDIV_UN, "long_div_un", LREG, LREG, LREG)
MINI_OP(OP_LREM, "long_rem", LREG, LREG, LREG)
MINI_OP(OP_LREM_UN, "long_rem_un", LREG, LREG, LREG)
MINI_OP(OP_LAND, "long_and", LREG, LREG, LREG)
MINI_OP(OP_LOR, "long_or", LREG, LREG, LREG)
MINI_OP(OP_LXOR, "long_xor", LREG, LREG, LREG)
MINI_OP(OP_LSHL, "long_shl", LREG, LREG, IREG)
MINI_OP(OP_LSHR, "long_shr", LREG, LREG, IREG)
MINI_OP(OP_LSHR_UN, "long_shr_un", LREG, LREG, IREG)
/* 64 bit opcodes: must be in the same order as the matching CEE_ opcodes: unops_op_map */
MINI_OP(OP_LNEG, "long_neg", LREG, LREG, NONE)
MINI_OP(OP_LNOT, "long_not", LREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_I1,"long_conv_to_i1", IREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_I2,"long_conv_to_i2", IREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_I4,"long_conv_to_i4", IREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_I8,"long_conv_to_i8", LREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_R4,"long_conv_to_r4", FREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_R8,"long_conv_to_r8", FREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_U4,"long_conv_to_u4", IREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_U8,"long_conv_to_u8", LREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_U2, "long_conv_to_u2", IREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_U1, "long_conv_to_u1", IREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_I, "long_conv_to_i", LREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_OVF_I,"long_conv_to_ovf_i", LREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_OVF_U,"long_conv_to_ovf_u", LREG, LREG, NONE)
/* inst_exc_name contains the exception name to throw */
MINI_OP(OP_LADD_OVF, "long_add_ovf", LREG, LREG, LREG)
MINI_OP(OP_LADD_OVF_UN, "long_add_ovf_un", LREG, LREG, LREG)
MINI_OP(OP_LMUL_OVF, "long_mul_ovf", LREG, LREG, LREG)
MINI_OP(OP_LMUL_OVF_UN, "long_mul_ovf_un", LREG, LREG, LREG)
MINI_OP(OP_LSUB_OVF, "long_sub_ovf", LREG, LREG, LREG)
MINI_OP(OP_LSUB_OVF_UN, "long_sub_ovf_un", LREG, LREG, LREG)
MINI_OP(OP_LCONV_TO_OVF_I1_UN,"long_conv_to_ovf_i1_un", LREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_OVF_I2_UN,"long_conv_to_ovf_i2_un", LREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_OVF_I4_UN,"long_conv_to_ovf_i4_un", LREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_OVF_I8_UN,"long_conv_to_ovf_i8_un", LREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_OVF_U1_UN,"long_conv_to_ovf_u1_un", LREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_OVF_U2_UN,"long_conv_to_ovf_u2_un", LREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_OVF_U4_UN,"long_conv_to_ovf_u4_un", LREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_OVF_U8_UN,"long_conv_to_ovf_u8_un", LREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_OVF_I_UN, "long_conv_to_ovf_i_un", LREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_OVF_U_UN, "long_conv_to_ovf_u_un", LREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_OVF_I1,"long_conv_to_ovf_i1", LREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_OVF_U1,"long_conv_to_ovf_u1", LREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_OVF_I2,"long_conv_to_ovf_i2", LREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_OVF_U2,"long_conv_to_ovf_u2", LREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_OVF_I4,"long_conv_to_ovf_i4", LREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_OVF_U4,"long_conv_to_ovf_u4", LREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_OVF_I8,"long_conv_to_ovf_i8", LREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_OVF_U8,"long_conv_to_ovf_u8", LREG, LREG, NONE)
/* mono_decompose_long_opts () depends on the order here */
MINI_OP(OP_LCEQ, "long_ceq", IREG, NONE, NONE)
MINI_OP(OP_LCGT, "long_cgt", IREG, NONE, NONE)
MINI_OP(OP_LCGT_UN,"long_cgt_un", IREG, NONE, NONE)
MINI_OP(OP_LCLT, "long_clt", IREG, NONE, NONE)
MINI_OP(OP_LCLT_UN,"long_clt_un", IREG, NONE, NONE)
MINI_OP(OP_LCONV_TO_R_UN,"long_conv_to_r_un", FREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_U, "long_conv_to_u", IREG, LREG, NONE)
MINI_OP(OP_LADD_IMM, "long_add_imm", LREG, LREG, NONE)
MINI_OP(OP_LSUB_IMM, "long_sub_imm", LREG, LREG, NONE)
MINI_OP(OP_LMUL_IMM, "long_mul_imm", LREG, LREG, NONE)
MINI_OP(OP_LAND_IMM, "long_and_imm", LREG, LREG, NONE)
MINI_OP(OP_LOR_IMM, "long_or_imm", LREG, LREG, NONE)
MINI_OP(OP_LXOR_IMM, "long_xor_imm", LREG, LREG, NONE)
MINI_OP(OP_LSHL_IMM, "long_shl_imm", LREG, LREG, NONE)
MINI_OP(OP_LSHR_IMM, "long_shr_imm", LREG, LREG, NONE)
MINI_OP(OP_LSHR_UN_IMM, "long_shr_un_imm", LREG, LREG, NONE)
MINI_OP(OP_LDIV_IMM, "long_div_imm", LREG, LREG, NONE)
MINI_OP(OP_LDIV_UN_IMM, "long_div_un_imm", LREG, LREG, NONE)
MINI_OP(OP_LREM_IMM, "long_rem_imm", LREG, LREG, NONE)
MINI_OP(OP_LREM_UN_IMM, "long_rem_un_imm", LREG, LREG, NONE)
/* mono_decompose_long_opts () depends on the order here */
MINI_OP(OP_LBEQ, "long_beq", NONE, NONE, NONE)
MINI_OP(OP_LBGE, "long_bge", NONE, NONE, NONE)
MINI_OP(OP_LBGT, "long_bgt", NONE, NONE, NONE)
MINI_OP(OP_LBLE, "long_ble", NONE, NONE, NONE)
MINI_OP(OP_LBLT, "long_blt", NONE, NONE, NONE)
MINI_OP(OP_LBNE_UN, "long_bne_un", NONE, NONE, NONE)
MINI_OP(OP_LBGE_UN, "long_bge_un", NONE, NONE, NONE)
MINI_OP(OP_LBGT_UN, "long_bgt_un", NONE, NONE, NONE)
MINI_OP(OP_LBLE_UN, "long_ble_un", NONE, NONE, NONE)
MINI_OP(OP_LBLT_UN, "long_blt_un", NONE, NONE, NONE)
/* Variants of the original opcodes which take the two parts of the long as two arguments */
MINI_OP(OP_LCONV_TO_R8_2,"long_conv_to_r8_2", FREG, IREG, IREG)
MINI_OP(OP_LCONV_TO_R4_2,"long_conv_to_r4_2", FREG, IREG, IREG)
MINI_OP(OP_LCONV_TO_R_UN_2,"long_conv_to_r_un_2", FREG, IREG, IREG)
MINI_OP(OP_LCONV_TO_OVF_I4_2,"long_conv_to_ovf_i4_2", IREG, IREG, IREG)
/* 32 bit opcodes: must be in the same order as the matching CEE_ opcodes: binops_op_map */
MINI_OP(OP_IADD, "int_add", IREG, IREG, IREG)
MINI_OP(OP_ISUB, "int_sub", IREG, IREG, IREG)
MINI_OP(OP_IMUL, "int_mul", IREG, IREG, IREG)
MINI_OP(OP_IDIV, "int_div", IREG, IREG, IREG)
MINI_OP(OP_IDIV_UN, "int_div_un", IREG, IREG, IREG)
MINI_OP(OP_IREM, "int_rem", IREG, IREG, IREG)
MINI_OP(OP_IREM_UN, "int_rem_un", IREG, IREG, IREG)
MINI_OP(OP_IAND, "int_and", IREG, IREG, IREG)
MINI_OP(OP_IOR, "int_or", IREG, IREG, IREG)
MINI_OP(OP_IXOR, "int_xor", IREG, IREG, IREG)
MINI_OP(OP_ISHL, "int_shl", IREG, IREG, IREG)
MINI_OP(OP_ISHR, "int_shr", IREG, IREG, IREG)
MINI_OP(OP_ISHR_UN, "int_shr_un", IREG, IREG, IREG)
/* 32 bit opcodes: must be in the same order as the matching CEE_ opcodes: unops_op_map */
MINI_OP(OP_INEG, "int_neg", IREG, IREG, NONE)
MINI_OP(OP_INOT, "int_not", IREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_I1,"int_conv_to_i1", IREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_I2,"int_conv_to_i2", IREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_I4,"int_conv_to_i4", IREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_I8,"int_conv_to_i8", LREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_R4,"int_conv_to_r4", FREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_R8,"int_conv_to_r8", FREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_U4,"int_conv_to_u4", IREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_U8,"int_conv_to_u8", LREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_R_UN, "int_conv_to_r_un", FREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_U, "int_conv_to_u", IREG, IREG, NONE)
/* 32 bit opcodes: must be in the same order as the matching CEE_ opcodes: ovfops_op_map */
MINI_OP(OP_ICONV_TO_U2, "int_conv_to_u2", IREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_U1, "int_conv_to_u1", IREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_I, "int_conv_to_i", IREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_OVF_I,"int_conv_to_ovf_i", IREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_OVF_U,"int_conv_to_ovf_u", IREG, IREG, NONE)
/* inst_exc_name contains the exception name to throw */
MINI_OP(OP_IADD_OVF, "int_add_ovf", IREG, IREG, IREG)
MINI_OP(OP_IADD_OVF_UN, "int_add_ovf_un", IREG, IREG, IREG)
MINI_OP(OP_IMUL_OVF, "int_mul_ovf", IREG, IREG, IREG)
MINI_OP(OP_IMUL_OVF_UN, "int_mul_ovf_un", IREG, IREG, IREG)
MINI_OP(OP_ISUB_OVF, "int_sub_ovf", IREG, IREG, IREG)
MINI_OP(OP_ISUB_OVF_UN, "int_sub_ovf_un", IREG, IREG, IREG)
/* 32 bit opcodes: must be in the same order as the matching CEE_ opcodes: ovf2ops_op_map */
MINI_OP(OP_ICONV_TO_OVF_I1_UN,"int_conv_to_ovf_i1_un", IREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_OVF_I2_UN,"int_conv_to_ovf_i2_un", IREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_OVF_I4_UN,"int_conv_to_ovf_i4_un", IREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_OVF_I8_UN,"int_conv_to_ovf_i8_un", IREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_OVF_U1_UN,"int_conv_to_ovf_u1_un", IREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_OVF_U2_UN,"int_conv_to_ovf_u2_un", IREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_OVF_U4_UN,"int_conv_to_ovf_u4_un", IREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_OVF_U8_UN,"int_conv_to_ovf_u8_un", IREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_OVF_I_UN, "int_conv_to_ovf_i_un", IREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_OVF_U_UN, "int_conv_to_ovf_u_un", IREG, IREG, NONE)
/* 32 bit opcodes: must be in the same order as the matching CEE_ opcodes: ovf3ops_op_map */
MINI_OP(OP_ICONV_TO_OVF_I1,"int_conv_to_ovf_i1", IREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_OVF_U1,"int_conv_to_ovf_u1", IREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_OVF_I2,"int_conv_to_ovf_i2", IREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_OVF_U2,"int_conv_to_ovf_u2", IREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_OVF_I4,"int_conv_to_ovf_i4", IREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_OVF_U4,"int_conv_to_ovf_u4", IREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_OVF_I8,"int_conv_to_ovf_i8", IREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_OVF_U8,"int_conv_to_ovf_u8", IREG, IREG, NONE)
MINI_OP(OP_IADC, "int_adc", IREG, IREG, IREG)
MINI_OP(OP_IADC_IMM, "int_adc_imm", IREG, IREG, NONE)
MINI_OP(OP_ISBB, "int_sbb", IREG, IREG, IREG)
MINI_OP(OP_ISBB_IMM, "int_sbb_imm", IREG, IREG, NONE)
MINI_OP(OP_IADDCC, "int_addcc", IREG, IREG, IREG)
MINI_OP(OP_ISUBCC, "int_subcc", IREG, IREG, IREG)
MINI_OP(OP_IADD_IMM, "int_add_imm", IREG, IREG, NONE)
MINI_OP(OP_ISUB_IMM, "int_sub_imm", IREG, IREG, NONE)
MINI_OP(OP_IMUL_IMM, "int_mul_imm", IREG, IREG, NONE)
MINI_OP(OP_IDIV_IMM, "int_div_imm", IREG, IREG, NONE)
MINI_OP(OP_IDIV_UN_IMM, "int_div_un_imm", IREG, IREG, NONE)
MINI_OP(OP_IREM_IMM, "int_rem_imm", IREG, IREG, NONE)
MINI_OP(OP_IREM_UN_IMM, "int_rem_un_imm", IREG, IREG, NONE)
MINI_OP(OP_IAND_IMM, "int_and_imm", IREG, IREG, NONE)
MINI_OP(OP_IOR_IMM, "int_or_imm", IREG, IREG, NONE)
MINI_OP(OP_IXOR_IMM, "int_xor_imm", IREG, IREG, NONE)
MINI_OP(OP_ISHL_IMM, "int_shl_imm", IREG, IREG, NONE)
MINI_OP(OP_ISHR_IMM, "int_shr_imm", IREG, IREG, NONE)
MINI_OP(OP_ISHR_UN_IMM, "int_shr_un_imm", IREG, IREG, NONE)
MINI_OP(OP_ICEQ, "int_ceq", IREG, NONE, NONE)
MINI_OP(OP_ICGT, "int_cgt", IREG, NONE, NONE)
MINI_OP(OP_ICGT_UN,"int_cgt_un", IREG, NONE, NONE)
MINI_OP(OP_ICLT, "int_clt", IREG, NONE, NONE)
MINI_OP(OP_ICLT_UN,"int_clt_un", IREG, NONE, NONE)
MINI_OP(OP_ICNEQ, "int_cneq", IREG, NONE, NONE)
MINI_OP(OP_ICGE, "int_cge", IREG, NONE, NONE)
MINI_OP(OP_ICLE, "int_cle", IREG, NONE, NONE)
MINI_OP(OP_ICGE_UN,"int_cge_un", IREG, NONE, NONE)
MINI_OP(OP_ICLE_UN,"int_cle_un", IREG, NONE, NONE)
MINI_OP(OP_IBEQ, "int_beq", NONE, NONE, NONE)
MINI_OP(OP_IBGE, "int_bge", NONE, NONE, NONE)
MINI_OP(OP_IBGT, "int_bgt", NONE, NONE, NONE)
MINI_OP(OP_IBLE, "int_ble", NONE, NONE, NONE)
MINI_OP(OP_IBLT, "int_blt", NONE, NONE, NONE)
MINI_OP(OP_IBNE_UN, "int_bne_un", NONE, NONE, NONE)
MINI_OP(OP_IBGE_UN, "int_bge_un", NONE, NONE, NONE)
MINI_OP(OP_IBGT_UN, "int_bgt_un", NONE, NONE, NONE)
MINI_OP(OP_IBLE_UN, "int_ble_un", NONE, NONE, NONE)
MINI_OP(OP_IBLT_UN, "int_blt_un", NONE, NONE, NONE)
MINI_OP(OP_FBEQ, "float_beq", NONE, NONE, NONE)
MINI_OP(OP_FBGE, "float_bge", NONE, NONE, NONE)
MINI_OP(OP_FBGT, "float_bgt", NONE, NONE, NONE)
MINI_OP(OP_FBLE, "float_ble", NONE, NONE, NONE)
MINI_OP(OP_FBLT, "float_blt", NONE, NONE, NONE)
MINI_OP(OP_FBNE_UN, "float_bne_un", NONE, NONE, NONE)
MINI_OP(OP_FBGE_UN, "float_bge_un", NONE, NONE, NONE)
MINI_OP(OP_FBGT_UN, "float_bgt_un", NONE, NONE, NONE)
MINI_OP(OP_FBLE_UN, "float_ble_un", NONE, NONE, NONE)
MINI_OP(OP_FBLT_UN, "float_blt_un", NONE, NONE, NONE)
MINI_OP(OP_RBEQ, "r4_beq", NONE, NONE, NONE)
MINI_OP(OP_RBGE, "r4_bge", NONE, NONE, NONE)
MINI_OP(OP_RBGT, "r4_bgt", NONE, NONE, NONE)
MINI_OP(OP_RBLE, "r4_ble", NONE, NONE, NONE)
MINI_OP(OP_RBLT, "r4_blt", NONE, NONE, NONE)
MINI_OP(OP_RBNE_UN, "r4_bne_un", NONE, NONE, NONE)
MINI_OP(OP_RBGE_UN, "r4_bge_un", NONE, NONE, NONE)
MINI_OP(OP_RBGT_UN, "r4_bgt_un", NONE, NONE, NONE)
MINI_OP(OP_RBLE_UN, "r4_ble_un", NONE, NONE, NONE)
MINI_OP(OP_RBLT_UN, "r4_blt_un", NONE, NONE, NONE)
/* float opcodes: must be in the same order as the matching CEE_ opcodes: binops_op_map */
MINI_OP(OP_FADD, "float_add", FREG, FREG, FREG)
MINI_OP(OP_FSUB, "float_sub", FREG, FREG, FREG)
MINI_OP(OP_FMUL, "float_mul", FREG, FREG, FREG)
MINI_OP(OP_FDIV, "float_div", FREG, FREG, FREG)
MINI_OP(OP_FDIV_UN,"float_div_un", FREG, FREG, FREG)
MINI_OP(OP_FREM, "float_rem", FREG, FREG, FREG)
MINI_OP(OP_FREM_UN,"float_rem_un", FREG, FREG, FREG)
/* r4 opcodes: must be in the same order as the matching CEE_ opcodes: binops_op_map */
MINI_OP(OP_RADD, "r4_add", FREG, FREG, FREG)
MINI_OP(OP_RSUB, "r4_sub", FREG, FREG, FREG)
MINI_OP(OP_RMUL, "r4_mul", FREG, FREG, FREG)
MINI_OP(OP_RDIV, "r4_div", FREG, FREG, FREG)
MINI_OP(OP_RDIV_UN,"r4_div_un", FREG, FREG, FREG)
MINI_OP(OP_RREM, "r4_rem", FREG, FREG, FREG)
MINI_OP(OP_RREM_UN,"r4_rem_un", FREG, FREG, FREG)
/* float opcodes: must be in the same order as the matching CEE_ opcodes: unops_op_map */
MINI_OP(OP_FNEG, "float_neg", FREG, FREG, NONE)
MINI_OP(OP_FNOT, "float_not", FREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_I1,"float_conv_to_i1", IREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_I2,"float_conv_to_i2", IREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_I4,"float_conv_to_i4", IREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_I8,"float_conv_to_i8", LREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_R4,"float_conv_to_r4", FREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_R8,"float_conv_to_r8", FREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_U4,"float_conv_to_u4", IREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_U8,"float_conv_to_u8", LREG, FREG, NONE)
MINI_OP(OP_RNEG, "r4_neg", FREG, FREG, NONE)
MINI_OP(OP_RNOT, "r4_not", FREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_I1,"r4_conv_to_i1", IREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_I2,"r4_conv_to_i2", IREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_I4,"r4_conv_to_i4", IREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_I8,"r4_conv_to_i8", LREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_R4,"r4_conv_to_r4", FREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_R8,"r4_conv_to_r8", FREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_U4,"r4_conv_to_u4", IREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_U8,"r4_conv_to_u8", LREG, FREG, NONE)
/* float opcodes: must be in the same order as the matching CEE_ opcodes: ovfops_op_map */
MINI_OP(OP_FCONV_TO_U2, "float_conv_to_u2", IREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_U1, "float_conv_to_u1", IREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_I, "float_conv_to_i", IREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_OVF_I,"float_conv_to_ovf_i", IREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_OVF_U,"float_conv_to_ovd_u", IREG, FREG, NONE)
/* float opcodes: must be in the same order as the matching CEE_ opcodes: ovfops_op_map */
MINI_OP(OP_FADD_OVF, "float_add_ovf", FREG, FREG, FREG)
MINI_OP(OP_FADD_OVF_UN, "float_add_ovf_un", FREG, FREG, FREG)
MINI_OP(OP_FMUL_OVF, "float_mul_ovf", FREG, FREG, FREG)
MINI_OP(OP_FMUL_OVF_UN, "float_mul_ovf_un", FREG, FREG, FREG)
MINI_OP(OP_FSUB_OVF, "float_sub_ovf", FREG, FREG, FREG)
MINI_OP(OP_FSUB_OVF_UN, "float_sub_ovf_un", FREG, FREG, FREG)
MINI_OP(OP_FCONV_TO_OVF_I1_UN,"float_conv_to_ovf_i1_un", IREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_OVF_I2_UN,"float_conv_to_ovf_i2_un", IREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_OVF_I4_UN,"float_conv_to_ovf_i4_un", IREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_OVF_I8_UN,"float_conv_to_ovf_i8_un", LREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_OVF_U1_UN,"float_conv_to_ovf_u1_un", IREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_OVF_U2_UN,"float_conv_to_ovf_u2_un", IREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_OVF_U4_UN,"float_conv_to_ovf_u4_un", IREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_OVF_U8_UN,"float_conv_to_ovf_u8_un", LREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_OVF_I_UN, "float_conv_to_ovf_i_un", IREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_OVF_U_UN, "float_conv_to_ovf_u_un", IREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_OVF_I1,"float_conv_to_ovf_i1", IREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_OVF_U1,"float_conv_to_ovf_u1", IREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_OVF_I2,"float_conv_to_ovf_i2", IREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_OVF_U2,"float_conv_to_ovf_u2", IREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_OVF_I4,"float_conv_to_ovf_i4", IREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_OVF_U4,"float_conv_to_ovf_u4", IREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_OVF_I8,"float_conv_to_ovf_i8", LREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_OVF_U8,"float_conv_to_ovf_u8", LREG, FREG, NONE)
/* These do the comparison too */
MINI_OP(OP_FCEQ, "float_ceq", IREG, FREG, FREG)
MINI_OP(OP_FCGT, "float_cgt", IREG, FREG, FREG)
MINI_OP(OP_FCGT_UN,"float_cgt_un", IREG, FREG, FREG)
MINI_OP(OP_FCLT, "float_clt", IREG, FREG, FREG)
MINI_OP(OP_FCLT_UN,"float_clt_un", IREG, FREG, FREG)
MINI_OP(OP_FCNEQ, "float_cneq", IREG, FREG, FREG)
MINI_OP(OP_FCGE, "float_cge", IREG, FREG, FREG)
MINI_OP(OP_FCLE, "float_cle", IREG, FREG, FREG)
MINI_OP(OP_FCEQ_MEMBASE, "float_ceq_membase", IREG, FREG, IREG)
MINI_OP(OP_FCGT_MEMBASE, "float_cgt_membase", IREG, FREG, IREG)
MINI_OP(OP_FCGT_UN_MEMBASE,"float_cgt_un_membase", IREG, FREG, IREG)
MINI_OP(OP_FCLT_MEMBASE, "float_clt_membase", IREG, FREG, IREG)
MINI_OP(OP_FCLT_UN_MEMBASE,"float_clt_un_membase", IREG, FREG, IREG)
MINI_OP(OP_CKFINITE, "ckfinite", FREG, FREG, NONE)
/* r4 opcodes: must be in the same order as the matching CEE_ opcodes: ovfops_op_map */
MINI_OP(OP_RCONV_TO_U2, "r4_conv_to_u2", IREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_U1, "r4_conv_to_u1", IREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_I, "r4_conv_to_i", IREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_OVF_I,"r4_conv_to_ovf_i", IREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_OVF_U,"r4_conv_to_ovd_u", IREG, FREG, NONE)
/* r4 opcodes: must be in the same order as the matching CEE_ opcodes: ovfops_op_map */
MINI_OP(OP_RADD_OVF, "r4_add_ovf", FREG, FREG, FREG)
MINI_OP(OP_RADD_OVF_UN, "r4_add_ovf_un", FREG, FREG, FREG)
MINI_OP(OP_RMUL_OVF, "r4_mul_ovf", FREG, FREG, FREG)
MINI_OP(OP_RMUL_OVF_UN, "r4_mul_ovf_un", FREG, FREG, FREG)
MINI_OP(OP_RSUB_OVF, "r4_sub_ovf", FREG, FREG, FREG)
MINI_OP(OP_RSUB_OVF_UN, "r4_sub_ovf_un", FREG, FREG, FREG)
MINI_OP(OP_RCONV_TO_OVF_I1_UN,"r4_conv_to_ovf_i1_un", IREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_OVF_I2_UN,"r4_conv_to_ovf_i2_un", IREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_OVF_I4_UN,"r4_conv_to_ovf_i4_un", IREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_OVF_I8_UN,"r4_conv_to_ovf_i8_un", IREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_OVF_U1_UN,"r4_conv_to_ovf_u1_un", IREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_OVF_U2_UN,"r4_conv_to_ovf_u2_un", IREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_OVF_U4_UN,"r4_conv_to_ovf_u4_un", IREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_OVF_U8_UN,"r4_conv_to_ovf_u8_un", IREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_OVF_I_UN, "r4_conv_to_ovf_i_un", IREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_OVF_U_UN, "r4_conv_to_ovf_u_un", IREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_OVF_I1,"r4_conv_to_ovf_i1", IREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_OVF_U1,"r4_conv_to_ovf_u1", IREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_OVF_I2,"r4_conv_to_ovf_i2", IREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_OVF_U2,"r4_conv_to_ovf_u2", IREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_OVF_I4,"r4_conv_to_ovf_i4", IREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_OVF_U4,"r4_conv_to_ovf_u4", IREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_OVF_I8,"r4_conv_to_ovf_i8", IREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_OVF_U8,"r4_conv_to_ovf_u8", IREG, FREG, NONE)
/* r4 opcodes: must be in the same order as the matching CEE_ opcodes: ceqops_op_map */
MINI_OP(OP_RCEQ, "r4_ceq", IREG, FREG, FREG)
MINI_OP(OP_RCGT, "r4_cgt", IREG, FREG, FREG)
MINI_OP(OP_RCGT_UN,"r4_cgt_un", IREG, FREG, FREG)
MINI_OP(OP_RCLT, "r4_clt", IREG, FREG, FREG)
MINI_OP(OP_RCLT_UN,"r4_clt_un", IREG, FREG, FREG)
MINI_OP(OP_RCNEQ, "r4_cneq", IREG, FREG, FREG)
MINI_OP(OP_RCGE, "r4_cge", IREG, FREG, FREG)
MINI_OP(OP_RCLE, "r4_cle", IREG, FREG, FREG)
/* Return the low 32 bits of a double vreg */
MINI_OP(OP_FGETLOW32, "float_getlow32", IREG, FREG, NONE)
/* Return the high 32 bits of a double vreg */
MINI_OP(OP_FGETHIGH32, "float_gethigh32", IREG, FREG, NONE)
MINI_OP(OP_JUMP_TABLE, "jump_table", IREG, NONE, NONE)
/* Same as OP_IMUL_OVF_UN, but throws an OutOfMemoryException */
/* Emulated */
MINI_OP(OP_IMUL_OVF_UN_OOM, "int_mul_ovf_un_oom", IREG, IREG, IREG)
MINI_OP(OP_LMUL_OVF_UN_OOM, "long_mul_ovf_un_oom", LREG, LREG, LREG)
/* aot compiler */
MINI_OP(OP_AOTCONST, "aotconst", IREG, NONE, NONE)
MINI_OP(OP_PATCH_INFO, "patch_info", NONE, NONE, NONE)
MINI_OP(OP_GOT_ENTRY, "got_entry", IREG, IREG, NONE)
/* exception related opcodes */
MINI_OP(OP_CALL_HANDLER , "call_handler", NONE, NONE, NONE)
MINI_OP(OP_START_HANDLER , "start_handler", NONE, NONE, NONE)
MINI_OP(OP_ENDFILTER, "endfilter", NONE, IREG, NONE)
MINI_OP(OP_ENDFINALLY, "endfinally", NONE, NONE, NONE)
/*
* Returns the exception object passed to catch clauses in
* by the EH code in a register.
*/
MINI_OP(OP_GET_EX_OBJ, "get_ex_obj", IREG, NONE, NONE)
/* inline (long)int * (long)int */
MINI_OP(OP_BIGMUL, "bigmul", LREG, IREG, IREG)
MINI_OP(OP_BIGMUL_UN, "bigmul_un", LREG, IREG, IREG)
MINI_OP(OP_IMIN_UN, "int_min_un", IREG, IREG, IREG)
MINI_OP(OP_IMAX_UN, "int_max_un", IREG, IREG, IREG)
MINI_OP(OP_LMIN_UN, "long_min_un", LREG, LREG, LREG)
MINI_OP(OP_LMAX_UN, "long_max_un", LREG, LREG, LREG)
MINI_OP(OP_MIN, "min", IREG, IREG, IREG)
MINI_OP(OP_MAX, "max", IREG, IREG, IREG)
MINI_OP(OP_IMIN, "int_min", IREG, IREG, IREG)
MINI_OP(OP_IMAX, "int_max", IREG, IREG, IREG)
MINI_OP(OP_LMIN, "long_min", LREG, LREG, LREG)
MINI_OP(OP_LMAX, "long_max", LREG, LREG, LREG)
MINI_OP(OP_RMAX, "rmax", FREG, FREG, FREG)
MINI_OP(OP_RMIN, "rmin", FREG, FREG, FREG)
MINI_OP(OP_RPOW, "rpow", FREG, FREG, FREG)
MINI_OP(OP_FMAX, "fmax", FREG, FREG, FREG)
MINI_OP(OP_FMIN, "fmin", FREG, FREG, FREG)
MINI_OP(OP_FPOW, "fpow", FREG, FREG, FREG)
MINI_OP(OP_RCOPYSIGN,"rcopysign", FREG, FREG, FREG)
MINI_OP(OP_FCOPYSIGN,"fcopysign", FREG, FREG, FREG)
/* opcodes most architecture have */
MINI_OP(OP_ADC, "adc", IREG, IREG, IREG)
MINI_OP(OP_ADC_IMM, "adc_imm", IREG, IREG, NONE)
MINI_OP(OP_SBB, "sbb", IREG, IREG, IREG)
MINI_OP(OP_SBB_IMM, "sbb_imm", IREG, IREG, NONE)
MINI_OP(OP_ADDCC, "addcc", IREG, IREG, IREG)
MINI_OP(OP_ADDCC_IMM, "addcc_imm", IREG, IREG, NONE)
MINI_OP(OP_SUBCC, "subcc", IREG, IREG, IREG)
MINI_OP(OP_SUBCC_IMM, "subcc_imm", IREG, IREG, NONE)
MINI_OP(OP_BR_REG, "br_reg", NONE, IREG, NONE)
MINI_OP(OP_SEXT_I1, "sext_i1", IREG, IREG, NONE)
MINI_OP(OP_SEXT_I2, "sext_i2", IREG, IREG, NONE)
MINI_OP(OP_SEXT_I4, "sext_i4", LREG, IREG, NONE)
MINI_OP(OP_ZEXT_I1, "zext_i1", IREG, IREG, NONE)
MINI_OP(OP_ZEXT_I2, "zext_i2", IREG, IREG, NONE)
MINI_OP(OP_ZEXT_I4, "zext_i4", LREG, IREG, NONE)
MINI_OP(OP_CNE, "cne", NONE, NONE, NONE)
MINI_OP(OP_TRUNC_I4, "trunc_i4", IREG, LREG, NONE)
/* to implement the upper half of long32 add and sub */
MINI_OP(OP_ADD_OVF_CARRY, "add_ovf_carry", IREG, IREG, IREG)
MINI_OP(OP_SUB_OVF_CARRY, "sub_ovf_carry", IREG, IREG, IREG)
MINI_OP(OP_ADD_OVF_UN_CARRY, "add_ovf_un_carry", IREG, IREG, IREG)
MINI_OP(OP_SUB_OVF_UN_CARRY, "sub_ovf_un_carry", IREG, IREG, IREG)
/* instructions with explicit long arguments to deal with 64-bit ilp32 machines */
MINI_OP(OP_LADDCC, "laddcc", LREG, LREG, LREG)
MINI_OP(OP_LSUBCC, "lsubcc", LREG, LREG, LREG)
/* FP functions usually done by the CPU */
MINI_OP(OP_SIN, "sin", FREG, FREG, NONE)
MINI_OP(OP_COS, "cos", FREG, FREG, NONE)
MINI_OP(OP_ABS, "abs", FREG, FREG, NONE)
MINI_OP(OP_TAN, "tan", FREG, FREG, NONE)
MINI_OP(OP_ATAN, "atan", FREG, FREG, NONE)
MINI_OP(OP_SQRT, "sqrt", FREG, FREG, NONE)
MINI_OP(OP_ROUND, "round", FREG, FREG, NONE)
MINI_OP(OP_CEIL, "ceil", FREG, FREG, NONE)
MINI_OP(OP_FLOOR, "floor", FREG, FREG, NONE)
MINI_OP3(OP_FMA, "fma", FREG, FREG, FREG, FREG)
MINI_OP(OP_SINF, "sinf", FREG, FREG, NONE)
MINI_OP(OP_COSF, "cosf", FREG, FREG, NONE)
MINI_OP(OP_EXPF, "expf", FREG, FREG, NONE)
MINI_OP(OP_EXP, "exp", FREG, FREG, NONE)
MINI_OP(OP_LOG, "log", FREG, FREG, NONE)
MINI_OP(OP_LOG2, "log2", FREG, FREG, NONE)
MINI_OP(OP_LOG2F, "log2f", FREG, FREG, NONE)
MINI_OP(OP_LOG10, "log10", FREG, FREG, NONE)
MINI_OP(OP_LOG10F, "log10f", FREG, FREG, NONE)
MINI_OP(OP_TRUNC, "trunc", FREG, FREG, NONE)
MINI_OP(OP_TRUNCF, "truncf", FREG, FREG, NONE)
MINI_OP(OP_ABSF, "absf", FREG, FREG, NONE)
MINI_OP(OP_SQRTF, "sqrtf", FREG, FREG, NONE)
MINI_OP(OP_CEILF, "ceilf", FREG, FREG, NONE)
MINI_OP(OP_FLOORF, "floorf", FREG, FREG, NONE)
MINI_OP3(OP_FMAF, "fmaf", FREG, FREG, FREG, FREG)
/* Operations that can be computed at constants at JIT time */
MINI_OP(OP_ACOS, "acos", FREG, FREG, NONE)
MINI_OP(OP_SINH, "sinh", FREG, FREG, NONE)
MINI_OP(OP_ACOSH, "acosh", FREG, FREG, NONE)
MINI_OP(OP_ASIN, "asin", FREG, FREG, NONE)
MINI_OP(OP_ASINH, "asinh", FREG, FREG, NONE)
MINI_OP(OP_ATANH, "atanh2", FREG, FREG, NONE)
MINI_OP(OP_CBRT, "cbrt", FREG, FREG, NONE)
MINI_OP(OP_COSH, "cosh", FREG, FREG, NONE)
MINI_OP(OP_TANH, "tanh", FREG, FREG, NONE)
/* to optimize strings */
MINI_OP(OP_STRLEN, "strlen", IREG, IREG, NONE)
MINI_OP(OP_NEWARR, "newarr", IREG, IREG, NONE)
/* Load a readonly length field from [sreg1+inst_imm] */
MINI_OP(OP_LDLEN, "ldlen", IREG, IREG, NONE)
/* inst_p0 is the exception name to throw or NULL */
MINI_OP(OP_BOUNDS_CHECK, "bounds_check", NONE, IREG, IREG)
/* type checks */
MINI_OP(OP_ISINST, "isinst", IREG, IREG, NONE)
MINI_OP(OP_CASTCLASS, "castclass", IREG, IREG, NONE)
/* get adress of element in a 2D array */
MINI_OP(OP_LDELEMA2D, "ldelema2d", NONE, NONE, NONE)
/* inlined small memcpy with constant length */
MINI_OP(OP_MEMCPY, "memcpy", NONE, NONE, NONE)
/* inlined small memset with constant length */
MINI_OP(OP_MEMSET, "memset", NONE, NONE, NONE)
/*
* A RuntimeType object, the result ldtoken+GetTypeFromHandle.
* inst_p0 is a MonoClass.
*/
MINI_OP(OP_RTTYPE, "rttype", IREG, NONE, NONE)
MINI_OP(OP_SAVE_LMF, "save_lmf", NONE, NONE, NONE)
MINI_OP(OP_RESTORE_LMF, "restore_lmf", NONE, NONE, NONE)
MINI_OP3(OP_MEMMOVE, "memmove", NONE, IREG, IREG, IREG)
/* write barrier */
MINI_OP(OP_CARD_TABLE_WBARRIER, "card_table_wbarrier", NONE, IREG, IREG)
/* arch-dep tls access */
MINI_OP(OP_TLS_GET, "tls_get", IREG, NONE, NONE)
MINI_OP(OP_TLS_GET_REG, "tls_get_reg", IREG, IREG, NONE)
/* inst_offset contains the TLS offset */
MINI_OP(OP_TLS_SET, "tls_set", NONE, IREG, NONE)
MINI_OP(OP_TLS_SET_REG, "tls_set_reg", NONE, IREG, IREG)
MINI_OP(OP_LOAD_GOTADDR, "load_gotaddr", IREG, NONE, NONE)
MINI_OP(OP_DUMMY_USE, "dummy_use", NONE, IREG, NONE)
MINI_OP(OP_NOT_REACHED, "not_reached", NONE, NONE, NONE)
MINI_OP(OP_NOT_NULL, "not_null", NONE, IREG, NONE)
/* SIMD opcodes. */
#if defined(TARGET_X86) || defined(TARGET_AMD64) || defined(TARGET_WASM) || defined(TARGET_ARM64)
MINI_OP(OP_ICONV_TO_R4_RAW, "iconv_to_r4_raw", FREG, IREG, NONE)
/* Extract an element from a vector with a constant lane index.
* inst_c0 is the lane index.
* inst_c1 is a MonoTypeEnum representing the element type.
*/
MINI_OP(OP_EXTRACT_I1, "extract_i1", IREG, XREG, NONE)
MINI_OP(OP_EXTRACT_I2, "extract_i2", IREG, XREG, NONE)
MINI_OP(OP_EXTRACT_I4, "extract_i4", IREG, XREG, NONE)
MINI_OP(OP_EXTRACT_I8, "extract_i8", LREG, XREG, NONE)
MINI_OP(OP_EXTRACT_R4, "extract_r4", FREG, XREG, NONE)
MINI_OP(OP_EXTRACT_R8, "extract_r8", FREG, XREG, NONE)
MINI_OP(OP_EXTRACTX_U2, "extractx_u2", IREG, XREG, NONE)
/* Used by LLVM */
MINI_OP(OP_INSERT_I1, "insert_i1", XREG, XREG, IREG)
MINI_OP(OP_INSERT_I2, "insert_i2", XREG, XREG, IREG)
MINI_OP(OP_INSERT_I4, "insert_i4", XREG, XREG, IREG)
MINI_OP(OP_INSERT_I8, "insert_i8", XREG, XREG, LREG)
MINI_OP(OP_INSERT_R4, "insert_r4", XREG, XREG, FREG)
MINI_OP(OP_INSERT_R8, "insert_r8", XREG, XREG, FREG)
/*these slow ops are modeled around the availability of a fast 2 bytes insert op*/
/*insertx_u1_slow takes old value and new value as source regs */
MINI_OP(OP_INSERTX_U1_SLOW, "insertx_u1_slow", XREG, IREG, IREG)
/*insertx_i4_slow takes target xreg and new value as source regs */
MINI_OP(OP_INSERTX_I4_SLOW, "insertx_i4_slow", XREG, XREG, IREG)
MINI_OP(OP_INSERTX_R4_SLOW, "insertx_r4_slow", XREG, XREG, FREG)
MINI_OP(OP_INSERTX_R8_SLOW, "insertx_r8_slow", XREG, XREG, FREG)
MINI_OP(OP_INSERTX_I8_SLOW, "insertx_i8_slow", XREG, XREG, LREG)
MINI_OP(OP_FCONV_TO_R4_X, "fconv_to_r4_x", XREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_R8_X, "fconv_to_r8_x", XREG, FREG, NONE)
MINI_OP(OP_XCONV_R8_TO_I4, "xconv_r8_to_i4", IREG, XREG, NONE)
MINI_OP(OP_ICONV_TO_X, "iconv_to_x", XREG, IREG, NONE)
MINI_OP(OP_EXPAND_I1, "expand_i1", XREG, IREG, NONE)
MINI_OP(OP_EXPAND_I2, "expand_i2", XREG, IREG, NONE)
MINI_OP(OP_EXPAND_I4, "expand_i4", XREG, IREG, NONE)
MINI_OP(OP_EXPAND_R4, "expand_r4", XREG, FREG, NONE)
MINI_OP(OP_EXPAND_I8, "expand_i8", XREG, IREG, NONE)
MINI_OP(OP_EXPAND_R8, "expand_r8", XREG, FREG, NONE)
#endif
#if defined(TARGET_X86) || defined(TARGET_AMD64) || defined(TARGET_WASM)
MINI_OP(OP_ADDPS, "addps", XREG, XREG, XREG)
MINI_OP(OP_DIVPS, "divps", XREG, XREG, XREG)
MINI_OP(OP_MULPS, "mulps", XREG, XREG, XREG)
MINI_OP(OP_SUBPS, "subps", XREG, XREG, XREG)
MINI_OP(OP_MAXPS, "maxps", XREG, XREG, XREG)
MINI_OP(OP_MINPS, "minps", XREG, XREG, XREG)
MINI_OP(OP_COMPPS, "compps", XREG, XREG, XREG)
MINI_OP(OP_ANDPS, "andps", XREG, XREG, XREG)
MINI_OP(OP_ANDNPS, "andnps", XREG, XREG, XREG)
MINI_OP(OP_ORPS, "orps", XREG, XREG, XREG)
MINI_OP(OP_XORPS, "xorps", XREG, XREG, XREG)
MINI_OP(OP_HADDPS, "haddps", XREG, XREG, XREG)
MINI_OP(OP_HSUBPS, "hsubps", XREG, XREG, XREG)
MINI_OP(OP_ADDSUBPS, "addsubps", XREG, XREG, XREG)
MINI_OP(OP_DUPPS_LOW, "dupps_low", XREG, XREG, NONE)
MINI_OP(OP_DUPPS_HIGH, "dupps_high", XREG, XREG, NONE)
MINI_OP(OP_RSQRTPS, "rsqrtps", XREG, XREG, NONE)
MINI_OP(OP_SQRTPS, "sqrtps", XREG, XREG, NONE)
MINI_OP(OP_RCPPS, "rcpps", XREG, XREG, NONE)
MINI_OP(OP_PSHUFLEW_HIGH, "pshuflew_high", XREG, XREG, NONE)
MINI_OP(OP_PSHUFLEW_LOW, "pshuflew_low", XREG, XREG, NONE)
MINI_OP(OP_PSHUFLED, "pshufled", XREG, XREG, NONE)
MINI_OP(OP_SHUFPS, "shufps", XREG, XREG, XREG)
MINI_OP(OP_SHUFPD, "shufpd", XREG, XREG, XREG)
MINI_OP(OP_ADDPD, "addpd", XREG, XREG, XREG)
MINI_OP(OP_DIVPD, "divpd", XREG, XREG, XREG)
MINI_OP(OP_MULPD, "mulpd", XREG, XREG, XREG)
MINI_OP(OP_SUBPD, "subpd", XREG, XREG, XREG)
MINI_OP(OP_MAXPD, "maxpd", XREG, XREG, XREG)
MINI_OP(OP_MINPD, "minpd", XREG, XREG, XREG)
MINI_OP(OP_COMPPD, "comppd", XREG, XREG, XREG)
MINI_OP(OP_ANDPD, "andpd", XREG, XREG, XREG)
MINI_OP(OP_ANDNPD, "andnpd", XREG, XREG, XREG)
MINI_OP(OP_ORPD, "orpd", XREG, XREG, XREG)
MINI_OP(OP_XORPD, "xorpd", XREG, XREG, XREG)
MINI_OP(OP_HADDPD, "haddpd", XREG, XREG, XREG)
MINI_OP(OP_HSUBPD, "hsubpd", XREG, XREG, XREG)
MINI_OP(OP_ADDSUBPD, "addsubpd", XREG, XREG, XREG)
MINI_OP(OP_DUPPD, "duppd", XREG, XREG, NONE)
MINI_OP(OP_SQRTPD, "sqrtpd", XREG, XREG, NONE)
MINI_OP(OP_EXTRACT_MASK, "extract_mask", IREG, XREG, NONE)
MINI_OP(OP_PAND, "pand", XREG, XREG, XREG)
MINI_OP(OP_PANDN, "pandn", XREG, XREG, XREG)
MINI_OP(OP_POR, "por", XREG, XREG, XREG)
MINI_OP(OP_PXOR, "pxor", XREG, XREG, XREG)
MINI_OP(OP_PADDB, "paddb", XREG, XREG, XREG)
MINI_OP(OP_PADDW, "paddw", XREG, XREG, XREG)
MINI_OP(OP_PADDD, "paddd", XREG, XREG, XREG)
MINI_OP(OP_PADDQ, "paddq", XREG, XREG, XREG)
MINI_OP(OP_PSUBB, "psubb", XREG, XREG, XREG)
MINI_OP(OP_PSUBW, "psubw", XREG, XREG, XREG)
MINI_OP(OP_PSUBD, "psubd", XREG, XREG, XREG)
MINI_OP(OP_PSUBQ, "psubq", XREG, XREG, XREG)
MINI_OP(OP_PMAXB_UN, "pmaxb_un", XREG, XREG, XREG)
MINI_OP(OP_PMAXW_UN, "pmaxw_un", XREG, XREG, XREG)
MINI_OP(OP_PMAXD_UN, "pmaxd_un", XREG, XREG, XREG)
MINI_OP(OP_PMAXB, "pmaxb", XREG, XREG, XREG)
MINI_OP(OP_PMAXW, "pmaxw", XREG, XREG, XREG)
MINI_OP(OP_PMAXD, "pmaxd", XREG, XREG, XREG)
MINI_OP(OP_PAVGB_UN, "pavgb_un", XREG, XREG, XREG)
MINI_OP(OP_PAVGW_UN, "pavgw_un", XREG, XREG, XREG)
MINI_OP(OP_PMINB_UN, "pminb_un", XREG, XREG, XREG)
MINI_OP(OP_PMINW_UN, "pminw_un", XREG, XREG, XREG)
MINI_OP(OP_PMIND_UN, "pmind_un", XREG, XREG, XREG)
MINI_OP(OP_PMINB, "pminb", XREG, XREG, XREG)
MINI_OP(OP_PMINW, "pminw", XREG, XREG, XREG)
MINI_OP(OP_PMIND, "pmind", XREG, XREG, XREG)
MINI_OP(OP_PCMPEQB, "pcmpeqb", XREG, XREG, XREG)
MINI_OP(OP_PCMPEQW, "pcmpeqw", XREG, XREG, XREG)
MINI_OP(OP_PCMPEQD, "pcmpeqd", XREG, XREG, XREG)
MINI_OP(OP_PCMPEQQ, "pcmpeqq", XREG, XREG, XREG)
MINI_OP(OP_PCMPGTB, "pcmpgtb", XREG, XREG, XREG)
MINI_OP(OP_PCMPGTW, "pcmpgtw", XREG, XREG, XREG)
MINI_OP(OP_PCMPGTD, "pcmpgtd", XREG, XREG, XREG)
MINI_OP(OP_PCMPGTQ, "pcmpgtq", XREG, XREG, XREG)
MINI_OP(OP_PSUM_ABS_DIFF, "psum_abs_diff", XREG, XREG, XREG)
MINI_OP(OP_UNPACK_LOWB, "unpack_lowb", XREG, XREG, XREG)
MINI_OP(OP_UNPACK_LOWW, "unpack_loww", XREG, XREG, XREG)
MINI_OP(OP_UNPACK_LOWD, "unpack_lowd", XREG, XREG, XREG)
MINI_OP(OP_UNPACK_LOWQ, "unpack_lowq", XREG, XREG, XREG)
MINI_OP(OP_UNPACK_LOWPS, "unpack_lowps", XREG, XREG, XREG)
MINI_OP(OP_UNPACK_LOWPD, "unpack_lowpd", XREG, XREG, XREG)
MINI_OP(OP_UNPACK_HIGHB, "unpack_highb", XREG, XREG, XREG)
MINI_OP(OP_UNPACK_HIGHW, "unpack_highw", XREG, XREG, XREG)
MINI_OP(OP_UNPACK_HIGHD, "unpack_highd", XREG, XREG, XREG)
MINI_OP(OP_UNPACK_HIGHQ, "unpack_highq", XREG, XREG, XREG)
MINI_OP(OP_UNPACK_HIGHPS, "unpack_highps", XREG, XREG, XREG)
MINI_OP(OP_UNPACK_HIGHPD, "unpack_highpd", XREG, XREG, XREG)
MINI_OP(OP_PACKW, "packw", XREG, XREG, XREG)
MINI_OP(OP_PACKD, "packd", XREG, XREG, XREG)
MINI_OP(OP_PACKW_UN, "packw_un", XREG, XREG, XREG)
MINI_OP(OP_PACKD_UN, "packd_un", XREG, XREG, XREG)
MINI_OP(OP_PADDB_SAT, "paddb_sat", XREG, XREG, XREG)
MINI_OP(OP_PADDB_SAT_UN, "paddb_sat_un", XREG, XREG, XREG)
MINI_OP(OP_PADDW_SAT, "paddw_sat", XREG, XREG, XREG)
MINI_OP(OP_PADDW_SAT_UN, "paddw_sat_un", XREG, XREG, XREG)
MINI_OP(OP_PSUBB_SAT, "psubb_sat", XREG, XREG, XREG)
MINI_OP(OP_PSUBB_SAT_UN, "psubb_sat_un", XREG, XREG, XREG)
MINI_OP(OP_PSUBW_SAT, "psubw_sat", XREG, XREG, XREG)
MINI_OP(OP_PSUBW_SAT_UN, "psubw_sat_un", XREG, XREG, XREG)
MINI_OP(OP_PMULW, "pmulw", XREG, XREG, XREG)
MINI_OP(OP_PMULD, "pmuld", XREG, XREG, XREG)
/* Multiplies two 32 bit numbers into a 64 bit one */
MINI_OP(OP_PMULQ, "pmulq", XREG, XREG, XREG)
MINI_OP(OP_PMULW_HIGH_UN, "pmulw_high_un", XREG, XREG, XREG)
MINI_OP(OP_PMULW_HIGH, "pmulw_high", XREG, XREG, XREG)
/*SSE2 Shift ops must have the _reg version right after as code depends on this ordering.*/
MINI_OP(OP_PSHRW, "pshrw", XREG, XREG, NONE)
MINI_OP(OP_PSHRW_REG, "pshrw_reg", XREG, XREG, XREG)
MINI_OP(OP_PSARW, "psarw", XREG, XREG, NONE)
MINI_OP(OP_PSARW_REG, "psarw_reg", XREG, XREG, XREG)
MINI_OP(OP_PSHLW, "pshlw", XREG, XREG, NONE)
MINI_OP(OP_PSHLW_REG, "pshlw_reg", XREG, XREG, XREG)
MINI_OP(OP_PSHRD, "pshrd", XREG, XREG, NONE)
MINI_OP(OP_PSHRD_REG, "pshrd_reg", XREG, XREG, XREG)
MINI_OP(OP_PSHRQ, "pshrq", XREG, XREG, NONE)
MINI_OP(OP_PSHRQ_REG, "pshrq_reg", XREG, XREG, XREG)
MINI_OP(OP_PSARD, "psard", XREG, XREG, NONE)
MINI_OP(OP_PSARD_REG, "psard_reg", XREG, XREG, XREG)
MINI_OP(OP_PSHLD, "pshld", XREG, XREG, NONE)
MINI_OP(OP_PSHLD_REG, "pshld_reg", XREG, XREG, XREG)
MINI_OP(OP_PSHLQ, "pshlq", XREG, XREG, NONE)
MINI_OP(OP_PSHLQ_REG, "pshlq_reg", XREG, XREG, XREG)
MINI_OP(OP_PREFETCH_MEMBASE, "prefetch_membase", NONE, IREG, NONE)
MINI_OP(OP_CVTDQ2PD, "cvtdq2pd", XREG, XREG, NONE)
MINI_OP(OP_CVTDQ2PS, "cvtdq2ps", XREG, XREG, NONE)
MINI_OP(OP_CVTPD2DQ, "cvtpd2dq", XREG, XREG, NONE)
MINI_OP(OP_CVTPD2PS, "cvtpd2ps", XREG, XREG, NONE)
MINI_OP(OP_CVTPS2DQ, "cvtps2dq", XREG, XREG, NONE)
MINI_OP(OP_CVTPS2PD, "cvtps2pd", XREG, XREG, NONE)
MINI_OP(OP_CVTTPD2DQ, "cvttpd2dq", XREG, XREG, NONE)
MINI_OP(OP_CVTTPS2DQ, "cvttps2dq", XREG, XREG, NONE)
/* sse 1 */
/* inst_c1 is target type */
MINI_OP(OP_SSE_LOADU, "sse_loadu", XREG, XREG, NONE)
MINI_OP(OP_SSE_MOVMSK, "sse_movmsk", IREG, XREG, NONE)
MINI_OP(OP_SSE_STORE, "sse_store", NONE, XREG, XREG)
MINI_OP(OP_SSE_STORES, "sse_stores", NONE, XREG, XREG)
MINI_OP(OP_SSE_MOVS, "sse_movs", XREG, XREG, NONE)
MINI_OP(OP_SSE_MOVS2, "sse_movs2", XREG, XREG, XREG)
MINI_OP(OP_SSE_MOVEHL, "sse_movehl", XREG, XREG, XREG)
MINI_OP(OP_SSE_MOVELH, "sse_movelh", XREG, XREG, XREG)
MINI_OP(OP_SSE_UNPACKLO, "sse_unpacklo", XREG, XREG, XREG)
MINI_OP(OP_SSE_UNPACKHI, "sse_unpackhi", XREG, XREG, XREG)
MINI_OP3(OP_SSE_SHUFPS, "sse_shufps", XREG, XREG, XREG, IREG)
MINI_OP(OP_SSE_AND, "sse_and", XREG, XREG, XREG)
MINI_OP(OP_SSE_OR, "sse_or", XREG, XREG, XREG)
MINI_OP(OP_SSE_XOR, "sse_xor", XREG, XREG, XREG)
MINI_OP(OP_SSE_ANDN, "sse_andn", XREG, XREG, XREG)
MINI_OP(OP_SSE_ADDSS, "sse_addss", XREG, XREG, XREG)
MINI_OP(OP_SSE_SUBSS, "sse_subss", XREG, XREG, XREG)
MINI_OP(OP_SSE_DIVSS, "sse_divss", XREG, XREG, XREG)
MINI_OP(OP_SSE_MULSS, "sse_mulss", XREG, XREG, XREG)
MINI_OP(OP_SSE_CMPSS, "sse_cmpss", XREG, XREG, XREG)
MINI_OP(OP_SSE_COMISS, "sse_comiss", IREG, XREG, XREG)
MINI_OP(OP_SSE_UCOMISS, "sse_ucomiss", IREG, XREG, XREG)
MINI_OP(OP_SSE_MOVSS, "sse_movss", XREG, IREG, NONE)
MINI_OP(OP_SSE_MOVSS_STORE, "sse_movss_store", NONE, IREG, XREG)
MINI_OP(OP_SSE_MOVHPS_LOAD, "sse_movhps_load", XREG, XREG, IREG)
MINI_OP(OP_SSE_MOVLPS_LOAD, "sse_movlps_load", XREG, XREG, IREG)
MINI_OP(OP_SSE_MOVHPS_STORE, "sse_movhps_store", NONE, IREG, XREG)
MINI_OP(OP_SSE_MOVLPS_STORE, "sse_movlps_store", NONE, IREG, XREG)
MINI_OP(OP_SSE_MOVNTPS, "sse_movntps", NONE, IREG, XREG)
MINI_OP(OP_SSE_PREFETCHT0, "sse_prefetcht0", NONE, IREG, NONE)
MINI_OP(OP_SSE_PREFETCHT1, "sse_prefetcht1", NONE, IREG, NONE)
MINI_OP(OP_SSE_PREFETCHT2, "sse_prefetcht2", NONE, IREG, NONE)
MINI_OP(OP_SSE_PREFETCHNTA, "sse_prefetchnta", NONE, IREG, NONE)
MINI_OP(OP_SSE_SQRTSS, "sse_sqrtss", XREG, XREG, XREG)
MINI_OP(OP_SSE_RSQRTSS, "sse_rsqrtss", XREG, XREG, XREG)
MINI_OP(OP_SSE_RCPSS, "sse_rcpss", XREG, XREG, XREG)
MINI_OP(OP_SSE_CVTSI2SS, "sse_cvtsi2ss", XREG, XREG, IREG)
MINI_OP(OP_SSE_CVTSI2SS64, "sse_cvtsi2ss64", XREG, XREG, LREG)
/* sse 2 */
MINI_OP(OP_SSE2_PACKUS, "sse2_packus", XREG, XREG, XREG)
MINI_OP(OP_SSE2_SRLI, "sse2_srli", XREG, XREG, XREG)
MINI_OP(OP_SSE2_ADDS, "sse2_adds", XREG, XREG, XREG)
MINI_OP(OP_SSE2_SUBS, "sse2_subs", XREG, XREG, XREG)
MINI_OP(OP_SSE2_CMPSD, "sse2_cmpsd", XREG, XREG, XREG)
MINI_OP(OP_SSE2_COMIEQ_SD, "sse2_comieq_sd", XREG, XREG, XREG)
MINI_OP(OP_SSE2_COMISD, "sse2_comisd", IREG, XREG, XREG)
MINI_OP(OP_SSE2_UCOMISD, "sse2_ucomisd", IREG, XREG, XREG)
MINI_OP(OP_SSE2_ADDSD, "sse2_addsd", XREG, XREG, XREG)
MINI_OP(OP_SSE2_SUBSD, "sse2_subsd", XREG, XREG, XREG)
MINI_OP(OP_SSE2_DIVSD, "sse2_divsd", XREG, XREG, XREG)
MINI_OP(OP_SSE2_MULSD, "sse2_mulsd", XREG, XREG, XREG)
MINI_OP(OP_SSE2_MOVD, "sse2_movd", XREG, IREG, NONE)
MINI_OP(OP_SSE2_MOVQ, "sse2_movq", XREG, IREG, NONE)
MINI_OP(OP_SSE2_MOVUPD, "sse2_movupd", XREG, IREG, NONE)
MINI_OP(OP_SSE2_PSLLDQ, "sse2_pslldq", XREG, XREG, IREG)
MINI_OP(OP_SSE2_PSRLDQ, "sse2_psrldq", XREG, XREG, IREG)
MINI_OP(OP_SSE2_PSRAW_IMM, "sse2_psraw_imm", XREG, XREG, IREG)
MINI_OP(OP_SSE2_PSRAD_IMM, "sse2_psrad_imm", XREG, XREG, IREG)
MINI_OP(OP_SSE2_PSRLW_IMM, "sse2_psrlw_imm", XREG, XREG, IREG)
MINI_OP(OP_SSE2_PSRLD_IMM, "sse2_psrld_imm", XREG, XREG, IREG)
MINI_OP(OP_SSE2_PSRLQ_IMM, "sse2_psrlq_imm", XREG, XREG, IREG)
MINI_OP(OP_SSE2_PSHUFD, "sse2_pshufd", XREG, XREG, IREG)
MINI_OP(OP_SSE2_PSHUFHW, "sse2_pshufhw", XREG, XREG, IREG)
MINI_OP(OP_SSE2_PSHUFLW, "sse2_pshuflw", XREG, XREG, IREG)
MINI_OP3(OP_SSE2_SHUFPD, "sse2_shufpd", XREG, XREG, XREG, IREG)
MINI_OP(OP_SSE2_MOVHPD_LOAD, "sse2_movhpd_load", XREG, XREG, IREG)
MINI_OP(OP_SSE2_MOVLPD_LOAD, "sse2_movlpd_load", XREG, XREG, IREG)
MINI_OP(OP_SSE2_MOVHPD_STORE, "sse2_movhpd_store", NONE, IREG, XREG)
MINI_OP(OP_SSE2_MOVLPD_STORE, "sse2_movlpd_store", NONE, IREG, XREG)
MINI_OP(OP_SSE2_SQRTSD, "sse2_sqrtsd", XREG, XREG, XREG)
MINI_OP(OP_SSE2_CVTSI2SD, "sse2_cvtsi2sd", XREG, XREG, IREG)
MINI_OP(OP_SSE2_CVTSI2SD64, "sse2_cvtsi2sd64", XREG, XREG, LREG)
MINI_OP(OP_SSE2_CVTSS2SD, "sse2_cvtsd2sd", XREG, XREG, XREG)
MINI_OP(OP_SSE2_PMULUDQ, "sse2_pmuludq", XREG, XREG, XREG)
MINI_OP3(OP_SSE2_MASKMOVDQU, "sse2_maskmovdqu", NONE, XREG, XREG, IREG)
/* sse 3 */
MINI_OP(OP_SSE3_MOVDDUP, "sse3_movddup", XREG, XREG, NONE)
MINI_OP(OP_SSE3_MOVSHDUP, "sse3_movshdup", XREG, XREG, NONE)
MINI_OP(OP_SSE3_MOVSLDUP, "sse3_movsldup", XREG, XREG, NONE)
MINI_OP(OP_SSE3_MOVDDUP_MEM, "sse3_movddup_mem", XREG, IREG, NONE)
/* ssse 3 */
MINI_OP(OP_SSSE3_ABS, "ssse3_abs", XREG, XREG, NONE)
MINI_OP(OP_SSSE3_SHUFFLE, "ssse3_shuffle", XREG, XREG, XREG)
MINI_OP3(OP_SSSE3_ALIGNR, "ssse3_alignr", XREG, XREG, XREG, IREG)
/* sse 4.1 */
MINI_OP(OP_SSE41_ROUNDP, "roundp", XREG, XREG, NONE) // packed, inst_c0 - mode, inst_c1 - r4 or r8
MINI_OP(OP_SSE41_ROUNDS, "sse41_rounds", XREG, XREG, XREG) // scalar, inst_c0 - mode, inst_c1 - r4 or r8
MINI_OP3(OP_SSE41_INSERTPS, "sse41_insertps", XREG, XREG, XREG, IREG)
MINI_OP3(OP_SSE41_BLENDV, "sse41_blendv", XREG, XREG, XREG, XREG)
MINI_OP3(OP_SSE41_BLEND, "sse41_blend", XREG, XREG, XREG, IREG)
MINI_OP(OP_SSE41_LOADANT, "sse41_loadant", XREG, XREG, NONE)
MINI_OP(OP_SSE41_MUL, "sse41_mul", XREG, XREG, XREG)
MINI_OP(OP_SSE41_MULLO, "sse41_mullo", XREG, XREG, XREG)
MINI_OP(OP_SSE_CVTII, "sse_cvtii", XREG, XREG, NONE)
MINI_OP3(OP_SSE41_DPPS, "sse41_dpps", XREG, XREG, XREG, IREG)
MINI_OP3(OP_SSE41_DPPD, "sse41_dppd", XREG, XREG, XREG, IREG)
MINI_OP3(OP_SSE41_MPSADBW, "sse41_mpsadbw", XREG, XREG, XREG, IREG)
/* pclmulqdq */
MINI_OP3(OP_PCLMULQDQ, "pclmulqdq", XREG, XREG, XREG, IREG)
/* aes */
MINI_OP(OP_AES_KEYGENASSIST, "aes_keygen", XREG, XREG, IREG)
/* sse 4.2 */
MINI_OP(OP_SSE42_CRC32, "sse42_crc32", IREG, IREG, IREG)
MINI_OP(OP_SSE42_CRC64, "sse42_crc64", LREG, LREG, LREG)
MINI_OP(OP_SSE42_PTESTZ, "sse42_ptestc", IREG, XREG, XREG)
/* Intel BMI1 */
/* Count trailing zeroes, return 32/64 if the input is 0 */
MINI_OP(OP_CTTZ32, "cttz32", IREG, IREG, NONE)
MINI_OP(OP_CTTZ64, "cttz64", LREG, LREG, NONE)
MINI_OP(OP_BMI1_BEXTR32, "bmi1_bextr32", IREG, IREG, IREG)
MINI_OP(OP_BMI1_BEXTR64, "bmi1_bextr64", LREG, LREG, LREG)
/* Intel BMI2 */
MINI_OP(OP_BZHI32, "bzhi32", IREG, IREG, IREG)
MINI_OP(OP_BZHI64, "bzhi64", LREG, LREG, LREG)
MINI_OP(OP_PEXT32, "pext32", IREG, IREG, IREG)
MINI_OP(OP_PEXT64, "pext64", LREG, LREG, LREG)
MINI_OP(OP_PDEP32, "pdep32", IREG, IREG, IREG)
MINI_OP(OP_PDEP64, "pdep64", LREG, LREG, LREG)
MINI_OP(OP_MULX_H32, "mulxh32", IREG, IREG, IREG)
MINI_OP(OP_MULX_H64, "mulxh64", LREG, LREG, LREG)
MINI_OP3(OP_MULX_HL32, "mulxhl32", IREG, IREG, IREG, IREG)
MINI_OP3(OP_MULX_HL64, "mulxhl64", LREG, LREG, LREG, LREG)
#endif
MINI_OP(OP_CREATE_SCALAR_UNSAFE, "create_scalar_unsafe", XREG, XREG, NONE)
MINI_OP(OP_CREATE_SCALAR, "create_scalar", XREG, XREG, NONE)
MINI_OP(OP_XMOVE, "xmove", XREG, XREG, NONE)
MINI_OP(OP_XZERO, "xzero", XREG, NONE, NONE)
MINI_OP(OP_XONES, "xones", XREG, NONE, NONE)
MINI_OP(OP_XPHI, "xphi", XREG, NONE, NONE)
/*
* These are used for efficient implementation of the
* atomic methods on Interlocked, Volatile, and Thread.
* This is done only on architectures that support it,
* as per mono_arch_opcode_supported ().
*
* Note that while the 32-bit variants are used on
* both 32-bit and 64-bit systems, the 64-bit variants
* are only used if the system is 64-bit. If that is
* not the case, the fallback code in the runtime is
* used instead. This is done because decomposing the
* 64-bit variants to instructions operating on 32-bit
* registers is very complicated on some architectures.
*
* For memory_barrier and load/store instructions, the
* inst.backend.memory_barrier_kind field indicates
* which semantics to use.
*
* Where relevant, all of these return the new value at
* the given memory location after performing the
* operation.
*/
MINI_OP(OP_MEMORY_BARRIER, "memory_barrier", NONE, NONE, NONE)
MINI_OP(OP_ATOMIC_LOAD_I1, "atomic_load_i1", IREG, IREG, NONE)
MINI_OP(OP_ATOMIC_LOAD_I2, "atomic_load_i2", IREG, IREG, NONE)
MINI_OP(OP_ATOMIC_LOAD_I4, "atomic_load_i4", IREG, IREG, NONE)
MINI_OP(OP_ATOMIC_LOAD_I8, "atomic_load_i8", IREG, IREG, NONE)
MINI_OP(OP_ATOMIC_LOAD_U1, "atomic_load_u1", IREG, IREG, NONE)
MINI_OP(OP_ATOMIC_LOAD_U2, "atomic_load_u2", IREG, IREG, NONE)
MINI_OP(OP_ATOMIC_LOAD_U4, "atomic_load_u4", IREG, IREG, NONE)
MINI_OP(OP_ATOMIC_LOAD_U8, "atomic_load_u8", IREG, IREG, NONE)
MINI_OP(OP_ATOMIC_LOAD_R4, "atomic_load_r4", FREG, IREG, NONE)
MINI_OP(OP_ATOMIC_LOAD_R8, "atomic_load_r8", FREG, IREG, NONE)
MINI_OP(OP_ATOMIC_STORE_I1, "atomic_store_i1", IREG, IREG, NONE)
MINI_OP(OP_ATOMIC_STORE_I2, "atomic_store_i2", IREG, IREG, NONE)
MINI_OP(OP_ATOMIC_STORE_I4, "atomic_store_i4", IREG, IREG, NONE)
MINI_OP(OP_ATOMIC_STORE_I8, "atomic_store_i8", IREG, IREG, NONE)
MINI_OP(OP_ATOMIC_STORE_U1, "atomic_store_u1", IREG, IREG, NONE)
MINI_OP(OP_ATOMIC_STORE_U2, "atomic_store_u2", IREG, IREG, NONE)
MINI_OP(OP_ATOMIC_STORE_U4, "atomic_store_u4", IREG, IREG, NONE)
MINI_OP(OP_ATOMIC_STORE_U8, "atomic_store_u8", IREG, IREG, NONE)
MINI_OP(OP_ATOMIC_STORE_R4, "atomic_store_r4", IREG, FREG, NONE)
MINI_OP(OP_ATOMIC_STORE_R8, "atomic_store_r8", IREG, FREG, NONE)
MINI_OP(OP_ATOMIC_ADD_I4, "atomic_add_i4", IREG, IREG, IREG)
MINI_OP(OP_ATOMIC_ADD_I8, "atomic_add_i8", IREG, IREG, IREG)
MINI_OP(OP_ATOMIC_AND_I4, "atomic_and_i4", IREG, IREG, IREG)
MINI_OP(OP_ATOMIC_AND_I8, "atomic_and_i8", IREG, IREG, IREG)
MINI_OP(OP_ATOMIC_OR_I4, "atomic_or_i4", IREG, IREG, IREG)
MINI_OP(OP_ATOMIC_OR_I8, "atomic_or_i8", IREG, IREG, IREG)
MINI_OP(OP_ATOMIC_EXCHANGE_I4, "atomic_exchange_i4", IREG, IREG, IREG)
MINI_OP(OP_ATOMIC_EXCHANGE_I8, "atomic_exchange_i8", IREG, IREG, IREG)
MINI_OP3(OP_ATOMIC_CAS_I4, "atomic_cas_i4", IREG, IREG, IREG, IREG)
MINI_OP3(OP_ATOMIC_CAS_I8, "atomic_cas_i8", IREG, IREG, IREG, IREG)
/* Conditional move opcodes.
* Must be in the same order as the matching CEE_B... opcodes
* sreg2 will be assigned to dreg if the condition is true.
* sreg1 should be equal to dreg and models the fact the instruction doesn't necessary
* modify dreg. The sreg1==dreg condition could be violated by SSA, so the local
* register allocator or the code generator should generate a mov dreg, sreg1 before
* the cmov in those cases.
* These opcodes operate on pointer sized values.
*/
MINI_OP(OP_CMOV_IEQ, "cmov_ieq", IREG, IREG, IREG)
MINI_OP(OP_CMOV_IGE, "cmov_ige", IREG, IREG, IREG)
MINI_OP(OP_CMOV_IGT, "cmov_igt", IREG, IREG, IREG)
MINI_OP(OP_CMOV_ILE, "cmov_ile", IREG, IREG, IREG)
MINI_OP(OP_CMOV_ILT, "cmov_ilt", IREG, IREG, IREG)
MINI_OP(OP_CMOV_INE_UN, "cmov_ine_un", IREG, IREG, IREG)
MINI_OP(OP_CMOV_IGE_UN, "cmov_ige_un", IREG, IREG, IREG)
MINI_OP(OP_CMOV_IGT_UN, "cmov_igt_un", IREG, IREG, IREG)
MINI_OP(OP_CMOV_ILE_UN, "cmov_ile_un", IREG, IREG, IREG)
MINI_OP(OP_CMOV_ILT_UN, "cmov_ilt_un", IREG, IREG, IREG)
MINI_OP(OP_CMOV_LEQ, "cmov_leq", IREG, IREG, IREG)
MINI_OP(OP_CMOV_LGE, "cmov_lge", IREG, IREG, IREG)
MINI_OP(OP_CMOV_LGT, "cmov_lgt", IREG, IREG, IREG)
MINI_OP(OP_CMOV_LLE, "cmov_lle", IREG, IREG, IREG)
MINI_OP(OP_CMOV_LLT, "cmov_llt", IREG, IREG, IREG)
MINI_OP(OP_CMOV_LNE_UN, "cmov_lne_un", IREG, IREG, IREG)
MINI_OP(OP_CMOV_LGE_UN, "cmov_lge_un", IREG, IREG, IREG)
MINI_OP(OP_CMOV_LGT_UN, "cmov_lgt_un", IREG, IREG, IREG)
MINI_OP(OP_CMOV_LLE_UN, "cmov_lle_un", IREG, IREG, IREG)
MINI_OP(OP_CMOV_LLT_UN, "cmov_llt_un", IREG, IREG, IREG)
/* Debugging support */
/*
* Marks the start of the live range of the variable in inst_c0, that is the
* first instruction where the variable has a value.
*/
MINI_OP(OP_LIVERANGE_START, "liverange_start", NONE, NONE, NONE)
/*
* Marks the end of the live range of the variable in inst_c0, that is the
* first instruction where the variable no longer has a value.
*/
MINI_OP(OP_LIVERANGE_END, "liverange_end", NONE, NONE, NONE)
/* GC support */
/*
* mono_arch_output_basic_block () will set the backend.pc_offset field to the current pc
* offset.
*/
MINI_OP(OP_GC_LIVENESS_DEF, "gc_liveness_def", NONE, NONE, NONE)
MINI_OP(OP_GC_LIVENESS_USE, "gc_liveness_use", NONE, NONE, NONE)
/*
* This marks the location inside a basic block where a GC tracked spill slot has been
* defined. The spill slot is assumed to be alive until the end of the bblock.
*/
MINI_OP(OP_GC_SPILL_SLOT_LIVENESS_DEF, "gc_spill_slot_liveness_def", NONE, NONE, NONE)
/*
* This marks the location inside a basic block where a GC tracked param area slot has
* been defined. The slot is assumed to be alive until the next call.
*/
MINI_OP(OP_GC_PARAM_SLOT_LIVENESS_DEF, "gc_param_slot_liveness_def", NONE, NONE, NONE)
MINI_OP(OP_GC_SAFE_POINT, "gc_safe_point", NONE, IREG, NONE)
/*
* Check if the class given by sreg1 was inited, if not, call
* mono_generic_class_init_trampoline () though a trampoline.
* Since the trampoline saves all registers, this doesn't clobber
* any registers.
*/
MINI_OP(OP_GENERIC_CLASS_INIT, "generic_class_init", NONE, IREG, NONE)
/* Arch specific opcodes */
#if defined(TARGET_X86) || defined(TARGET_AMD64)
MINI_OP(OP_X86_TEST_NULL, "x86_test_null", NONE, IREG, NONE)
MINI_OP(OP_X86_COMPARE_MEMBASE_REG,"x86_compare_membase_reg", NONE, IREG, IREG)
MINI_OP(OP_X86_COMPARE_MEMBASE_IMM,"x86_compare_membase_imm", NONE, IREG, NONE)
MINI_OP(OP_X86_COMPARE_MEM_IMM, "x86_compare_mem_imm", NONE, NONE, NONE)
MINI_OP(OP_X86_COMPARE_MEMBASE8_IMM,"x86_compare_membase8_imm", NONE, IREG, NONE)
MINI_OP(OP_X86_COMPARE_REG_MEMBASE,"x86_compare_reg_membase", NONE, IREG, IREG)
MINI_OP(OP_X86_INC_REG, "x86_inc_reg", IREG, IREG, NONE)
MINI_OP(OP_X86_INC_MEMBASE, "x86_inc_membase", NONE, IREG, NONE)
MINI_OP(OP_X86_DEC_REG, "x86_dec_reg", IREG, IREG, NONE)
MINI_OP(OP_X86_DEC_MEMBASE, "x86_dec_membase", NONE, IREG, NONE)
MINI_OP(OP_X86_ADD_MEMBASE_IMM, "x86_add_membase_imm", NONE, IREG, NONE)
MINI_OP(OP_X86_SUB_MEMBASE_IMM, "x86_sub_membase_imm", NONE, IREG, NONE)
MINI_OP(OP_X86_AND_MEMBASE_IMM, "x86_and_membase_imm", NONE, IREG, NONE)
MINI_OP(OP_X86_OR_MEMBASE_IMM, "x86_or_membase_imm", NONE, IREG, NONE)
MINI_OP(OP_X86_XOR_MEMBASE_IMM, "x86_xor_membase_imm", NONE, IREG, NONE)
MINI_OP(OP_X86_ADD_MEMBASE_REG, "x86_add_membase_reg", NONE, IREG, IREG)
MINI_OP(OP_X86_SUB_MEMBASE_REG, "x86_sub_membase_reg", NONE, IREG, IREG)
MINI_OP(OP_X86_AND_MEMBASE_REG, "x86_and_membase_reg", NONE, IREG, IREG)
MINI_OP(OP_X86_OR_MEMBASE_REG, "x86_or_membase_reg", NONE, IREG, IREG)
MINI_OP(OP_X86_XOR_MEMBASE_REG, "x86_xor_membase_reg", NONE, IREG, IREG)
MINI_OP(OP_X86_MUL_MEMBASE_REG, "x86_mul_membase_reg", NONE, IREG, IREG)
MINI_OP(OP_X86_ADD_REG_MEMBASE, "x86_add_reg_membase", IREG, IREG, IREG)
MINI_OP(OP_X86_SUB_REG_MEMBASE, "x86_sub_reg_membase", IREG, IREG, IREG)
MINI_OP(OP_X86_MUL_REG_MEMBASE, "x86_mul_reg_membase", IREG, IREG, IREG)
MINI_OP(OP_X86_AND_REG_MEMBASE, "x86_and_reg_membase", IREG, IREG, IREG)
MINI_OP(OP_X86_OR_REG_MEMBASE, "x86_or_reg_membase", IREG, IREG, IREG)
MINI_OP(OP_X86_XOR_REG_MEMBASE, "x86_xor_reg_membase", IREG, IREG, IREG)
MINI_OP(OP_X86_PUSH_MEMBASE, "x86_push_membase", NONE, IREG, NONE)
MINI_OP(OP_X86_PUSH_IMM, "x86_push_imm", NONE, NONE, NONE)
MINI_OP(OP_X86_PUSH, "x86_push", NONE, IREG, NONE)
MINI_OP(OP_X86_PUSH_OBJ, "x86_push_obj", NONE, IREG, NONE)
MINI_OP(OP_X86_PUSH_GOT_ENTRY, "x86_push_got_entry", NONE, IREG, NONE)
MINI_OP(OP_X86_LEA, "x86_lea", IREG, IREG, IREG)
MINI_OP(OP_X86_LEA_MEMBASE, "x86_lea_membase", IREG, IREG, NONE)
MINI_OP(OP_X86_XCHG, "x86_xchg", NONE, IREG, IREG)
MINI_OP(OP_X86_FPOP, "x86_fpop", NONE, FREG, NONE)
MINI_OP(OP_X86_FP_LOAD_I8, "x86_fp_load_i8", FREG, IREG, NONE)
MINI_OP(OP_X86_FP_LOAD_I4, "x86_fp_load_i4", FREG, IREG, NONE)
MINI_OP(OP_X86_SETEQ_MEMBASE, "x86_seteq_membase", NONE, IREG, NONE)
MINI_OP(OP_X86_SETNE_MEMBASE, "x86_setne_membase", NONE, IREG, NONE)
MINI_OP(OP_X86_FXCH, "x86_fxch", NONE, NONE, NONE)
MINI_OP(OP_X86_BSF32, "x86_bsf32", IREG, IREG, NONE)
MINI_OP(OP_X86_BSR32, "x86_bsr32", IREG, IREG, NONE)
MINI_OP(OP_X86_BSF64, "x86_bsf64", LREG, LREG, NONE)
MINI_OP(OP_X86_BSR64, "x86_bsr64", LREG, LREG, NONE)
#endif
#if defined(TARGET_AMD64)
MINI_OP(OP_AMD64_TEST_NULL, "amd64_test_null", NONE, IREG, NONE)
MINI_OP(OP_AMD64_SET_XMMREG_R4, "amd64_set_xmmreg_r4", FREG, FREG, NONE)
MINI_OP(OP_AMD64_SET_XMMREG_R8, "amd64_set_xmmreg_r8", FREG, FREG, NONE)
MINI_OP(OP_AMD64_ICOMPARE_MEMBASE_REG, "amd64_icompare_membase_reg", NONE, IREG, IREG)
MINI_OP(OP_AMD64_ICOMPARE_MEMBASE_IMM, "amd64_icompare_membase_imm", NONE, IREG, NONE)
MINI_OP(OP_AMD64_ICOMPARE_REG_MEMBASE, "amd64_icompare_reg_membase", NONE, IREG, IREG)
MINI_OP(OP_AMD64_COMPARE_MEMBASE_REG, "amd64_compare_membase_reg", NONE, IREG, IREG)
MINI_OP(OP_AMD64_COMPARE_MEMBASE_IMM, "amd64_compare_membase_imm", NONE, IREG, NONE)
MINI_OP(OP_AMD64_COMPARE_REG_MEMBASE, "amd64_compare_reg_membase", NONE, IREG, IREG)
MINI_OP(OP_AMD64_ADD_MEMBASE_REG, "amd64_add_membase_reg", NONE, IREG, IREG)
MINI_OP(OP_AMD64_SUB_MEMBASE_REG, "amd64_sub_membase_reg", NONE, IREG, IREG)
MINI_OP(OP_AMD64_AND_MEMBASE_REG, "amd64_and_membase_reg", NONE, IREG, IREG)
MINI_OP(OP_AMD64_OR_MEMBASE_REG, "amd64_or_membase_reg", NONE, IREG, IREG)
MINI_OP(OP_AMD64_XOR_MEMBASE_REG, "amd64_xor_membase_reg", NONE, IREG, IREG)
MINI_OP(OP_AMD64_MUL_MEMBASE_REG, "amd64_mul_membase_reg", NONE, IREG, IREG)
MINI_OP(OP_AMD64_ADD_MEMBASE_IMM, "amd64_add_membase_imm", NONE, IREG, NONE)
MINI_OP(OP_AMD64_SUB_MEMBASE_IMM, "amd64_sub_membase_imm", NONE, IREG, NONE)
MINI_OP(OP_AMD64_AND_MEMBASE_IMM, "amd64_and_membase_imm", NONE, IREG, NONE)
MINI_OP(OP_AMD64_OR_MEMBASE_IMM, "amd64_or_membase_imm", NONE, IREG, NONE)
MINI_OP(OP_AMD64_XOR_MEMBASE_IMM, "amd64_xor_membase_imm", NONE, IREG, NONE)
MINI_OP(OP_AMD64_MUL_MEMBASE_IMM, "amd64_mul_membase_imm", NONE, IREG, NONE)
MINI_OP(OP_AMD64_LEA_MEMBASE, "amd64_lea_membase", IREG, IREG, NONE)
MINI_OP(OP_AMD64_ADD_REG_MEMBASE, "amd64_add_reg_membase", IREG, IREG, IREG)
MINI_OP(OP_AMD64_SUB_REG_MEMBASE, "amd64_sub_reg_membase", IREG, IREG, IREG)
MINI_OP(OP_AMD64_AND_REG_MEMBASE, "amd64_and_reg_membase", IREG, IREG, IREG)
MINI_OP(OP_AMD64_OR_REG_MEMBASE, "amd64_or_reg_membase", IREG, IREG, IREG)
MINI_OP(OP_AMD64_XOR_REG_MEMBASE, "amd64_xor_reg_membase", IREG, IREG, IREG)
MINI_OP(OP_AMD64_MUL_REG_MEMBASE, "amd64_mul_reg_membase", IREG, IREG, IREG)
MINI_OP(OP_AMD64_LOADI8_MEMINDEX, "amd64_loadi8_memindex", IREG, IREG, IREG)
MINI_OP(OP_AMD64_SAVE_SP_TO_LMF, "amd64_save_sp_to_lmf", NONE, NONE, NONE)
#endif
#if defined(TARGET_POWERPC)
MINI_OP(OP_PPC_SUBFIC, "ppc_subfic", IREG, IREG, NONE)
MINI_OP(OP_PPC_SUBFZE, "ppc_subfze", IREG, IREG, NONE)
MINI_OP(OP_PPC_CHECK_FINITE, "ppc_check_finite", NONE, IREG, NONE)
MINI_OP(OP_PPC_CEIL, "ppc_ceil", FREG, FREG, NONE)
MINI_OP(OP_PPC_FLOOR, "ppc_floor", FREG, FREG, NONE)
MINI_OP(OP_PPC_TRUNC, "ppc_trunc", FREG, FREG, NONE)
#endif
#if defined(TARGET_ARM) || defined(TARGET_ARM64)
MINI_OP(OP_ARM_RSBS_IMM, "arm_rsbs_imm", IREG, IREG, NONE)
MINI_OP(OP_ARM_RSC_IMM, "arm_rsc_imm", IREG, IREG, NONE)
/* Set dreg to an r4 value */
MINI_OP(OP_ARM_SETFREG_R4, "arm_setfreg_r4", FREG, FREG, NONE)
#endif
#if defined(TARGET_SPARC)
MINI_OP(OP_SPARC_BRZ, "sparc_brz", NONE, NONE, NONE)
MINI_OP(OP_SPARC_BRLEZ, "sparc_brlez", NONE, NONE, NONE)
MINI_OP(OP_SPARC_BRLZ, "sparc_brlz", NONE, NONE, NONE)
MINI_OP(OP_SPARC_BRNZ, "sparc_brnz", NONE, NONE, NONE)
MINI_OP(OP_SPARC_BRGZ, "sparc_brgz", NONE, NONE, NONE)
MINI_OP(OP_SPARC_BRGEZ, "sparc_brgez", NONE, NONE, NONE)
MINI_OP(OP_SPARC_COND_EXC_EQZ, "sparc_cond_exc_eqz", NONE, NONE, NONE)
MINI_OP(OP_SPARC_COND_EXC_GEZ, "sparc_cond_exc_gez", NONE, NONE, NONE)
MINI_OP(OP_SPARC_COND_EXC_GTZ, "sparc_cond_exc_gtz", NONE, NONE, NONE)
MINI_OP(OP_SPARC_COND_EXC_LEZ, "sparc_cond_exc_lez", NONE, NONE, NONE)
MINI_OP(OP_SPARC_COND_EXC_LTZ, "sparc_cond_exc_ltz", NONE, NONE, NONE)
MINI_OP(OP_SPARC_COND_EXC_NEZ, "sparc_cond_exc_nez", NONE, NONE, NONE)
#endif
#if defined(TARGET_S390X)
MINI_OP(OP_S390_LOADARG, "s390_loadarg", NONE, NONE, NONE)
MINI_OP(OP_S390_ARGREG, "s390_argreg", NONE, NONE, NONE)
MINI_OP(OP_S390_ARGPTR, "s390_argptr", NONE, NONE, NONE)
MINI_OP(OP_S390_STKARG, "s390_stkarg", NONE, NONE, NONE)
MINI_OP(OP_S390_MOVE, "s390_move", NONE, IREG, IREG)
MINI_OP(OP_S390_SETF4RET, "s390_setf4ret", FREG, FREG, NONE)
MINI_OP(OP_S390_BKCHAIN, "s390_bkchain", IREG, IREG, NONE)
MINI_OP(OP_S390_LADD, "s390_long_add", LREG, IREG, IREG)
MINI_OP(OP_S390_LADD_OVF, "s390_long_add_ovf", LREG, IREG, IREG)
MINI_OP(OP_S390_LADD_OVF_UN, "s390_long_add_ovf_un", LREG, IREG, IREG)
MINI_OP(OP_S390_LSUB, "s390_long_sub", LREG, IREG, IREG)
MINI_OP(OP_S390_LSUB_OVF, "s390_long_sub_ovf", LREG, IREG, IREG)
MINI_OP(OP_S390_LSUB_OVF_UN, "s390_long_sub_ovf_un", LREG, IREG, IREG)
MINI_OP(OP_S390_LNEG, "s390_long_neg", LREG, IREG, IREG)
MINI_OP(OP_S390_IADD_OVF, "s390_int_add_ovf", IREG, IREG, IREG)
MINI_OP(OP_S390_IADD_OVF_UN, "s390_int_add_ovf_un", IREG, IREG, IREG)
MINI_OP(OP_S390_ISUB_OVF, "s390_int_sub_ovf", IREG, IREG, IREG)
MINI_OP(OP_S390_ISUB_OVF_UN, "s390_int_sub_ovf_un", IREG, IREG, IREG)
MINI_OP(OP_S390_CRJ, "s390_crj", IREG, IREG, IREG)
MINI_OP(OP_S390_CLRJ, "s390_crj_un", IREG, IREG, IREG)
MINI_OP(OP_S390_CGRJ, "s390_cgrj", LREG, LREG, IREG)
MINI_OP(OP_S390_CLGRJ, "s390_cgrj_un", LREG, LREG, IREG)
MINI_OP(OP_S390_CIJ, "s390_cij", IREG, NONE, NONE)
MINI_OP(OP_S390_CLIJ, "s390_cij_un", IREG, IREG, NONE)
MINI_OP(OP_S390_CGIJ, "s390_cgij", LREG, NONE, NONE)
MINI_OP(OP_S390_CLGIJ, "s390_cgij_un", LREG, NONE, NONE)
#endif
#if defined(TARGET_MIPS)
MINI_OP(OP_MIPS_BEQ, "mips_beq", NONE, IREG, IREG)
MINI_OP(OP_MIPS_BGEZ, "mips_bgez", NONE, IREG, NONE)
MINI_OP(OP_MIPS_BGTZ, "mips_bgtz", NONE, IREG, NONE)
MINI_OP(OP_MIPS_BLEZ, "mips_blez", NONE, IREG, NONE)
MINI_OP(OP_MIPS_BLTZ, "mips_bltz", NONE, IREG, NONE)
MINI_OP(OP_MIPS_BNE, "mips_bne", NONE, IREG, IREG)
MINI_OP(OP_MIPS_CVTSD, "mips_cvtsd", FREG, FREG, NONE)
MINI_OP(OP_MIPS_FBEQ, "mips_fbeq", NONE, FREG, FREG)
MINI_OP(OP_MIPS_FBGE, "mips_fbge", NONE, FREG, FREG)
MINI_OP(OP_MIPS_FBGE_UN, "mips_fbge_un", NONE, FREG, FREG)
MINI_OP(OP_MIPS_FBGT, "mips_fbgt", NONE, FREG, FREG)
MINI_OP(OP_MIPS_FBGT_UN, "mips_fbgt_un", NONE, FREG, FREG)
MINI_OP(OP_MIPS_FBLE, "mips_fble", NONE, FREG, FREG)
MINI_OP(OP_MIPS_FBLE_UN, "mips_fble_un", NONE, FREG, FREG)
MINI_OP(OP_MIPS_FBLT, "mips_fblt", NONE, FREG, FREG)
MINI_OP(OP_MIPS_FBLT_UN, "mips_fblt_un", NONE, FREG, FREG)
MINI_OP(OP_MIPS_FBNE, "mips_fbne", NONE, FREG, FREG)
MINI_OP(OP_MIPS_FBFALSE, "mips_fbfalse", NONE, NONE, NONE)
MINI_OP(OP_MIPS_FBTRUE, "mips_fbtrue", NONE, NONE, NONE)
MINI_OP(OP_MIPS_LWC1, "mips_lwc1", NONE, NONE, NONE)
MINI_OP(OP_MIPS_MTC1S, "mips_mtc1_s", FREG, IREG, NONE)
MINI_OP(OP_MIPS_MTC1S_2, "mips_mtc1_s2", FREG, IREG, IREG)
MINI_OP(OP_MIPS_MFC1S, "mips_mfc1_s", IREG, FREG, NONE)
MINI_OP(OP_MIPS_MTC1D, "mips_mtc1_d", FREG, IREG, NONE)
MINI_OP(OP_MIPS_MFC1D, "mips_mfc1_d", IREG, FREG, NONE)
MINI_OP(OP_MIPS_NOP, "mips_nop", NONE, NONE, NONE)
MINI_OP(OP_MIPS_SLTI, "mips_slti", IREG, IREG, NONE)
MINI_OP(OP_MIPS_SLT, "mips_slt", IREG, IREG, IREG)
MINI_OP(OP_MIPS_SLTIU, "mips_sltiu", IREG, IREG, NONE)
MINI_OP(OP_MIPS_SLTU, "mips_sltu", IREG, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_EQ, "mips_cond_exc_eq", NONE, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_GE, "mips_cond_exc_ge", NONE, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_GT, "mips_cond_exc_gt", NONE, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_LE, "mips_cond_exc_le", NONE, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_LT, "mips_cond_exc_lt", NONE, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_NE_UN, "mips_cond_exc_ne_un", NONE, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_GE_UN, "mips_cond_exc_ge_un", NONE, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_GT_UN, "mips_cond_exc_gt_un", NONE, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_LE_UN, "mips_cond_exc_le_un", NONE, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_LT_UN, "mips_cond_exc_lt_un", NONE, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_OV, "mips_cond_exc_ov", NONE, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_NO, "mips_cond_exc_no", NONE, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_C, "mips_cond_exc_c", NONE, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_NC, "mips_cond_exc_nc", NONE, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_IEQ, "mips_cond_exc_ieq", NONE, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_IGE, "mips_cond_exc_ige", NONE, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_IGT, "mips_cond_exc_igt", NONE, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_ILE, "mips_cond_exc_ile", NONE, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_ILT, "mips_cond_exc_ilt", NONE, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_INE_UN, "mips_cond_exc_ine_un", NONE, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_IGE_UN, "mips_cond_exc_ige_un", NONE, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_IGT_UN, "mips_cond_exc_igt_un", NONE, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_ILE_UN, "mips_cond_exc_ile_un", NONE, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_ILT_UN, "mips_cond_exc_ilt_un", NONE, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_IOV, "mips_cond_exc_iov", NONE, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_INO, "mips_cond_exc_ino", NONE, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_IC, "mips_cond_exc_ic", NONE, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_INC, "mips_cond_exc_inc", NONE, IREG, IREG)
#endif
#if defined(TARGET_ARM64)
/* Branch if sreg1 == 0 */
MINI_OP(OP_ARM64_CBZW, "arm64_cbzw", NONE, IREG, NONE)
MINI_OP(OP_ARM64_CBZX, "arm64_cbzx", NONE, IREG, NONE)
/* Branch if sreg1 != 0 */
MINI_OP(OP_ARM64_CBNZW, "arm64_cbnzw", NONE, IREG, NONE)
MINI_OP(OP_ARM64_CBNZX, "arm64_cbnzx", NONE, IREG, NONE)
#endif
/* Same as OUTARG_VT, but has a dreg */
MINI_OP(OP_LLVM_OUTARG_VT, "llvm_outarg_vt", IREG, VREG, NONE)
MINI_OP(OP_OBJC_GET_SELECTOR, "objc_get_selector", IREG, NONE, NONE)
MINI_OP(OP_GET_SP, "get_sp", IREG, NONE, NONE)
MINI_OP(OP_SET_SP, "set_sp", NONE, IREG, NONE)
MINI_OP(OP_GET_LAST_ERROR, "get_last_error", IREG, NONE, NONE)
/*
* Fill out a MonoContext contained in a MonoProfilerCallContext. This only
* stores the stack pointer, frame pointer, and callee-saved registers. This
* should be enough to locate arguments and variables.
*/
MINI_OP(OP_FILL_PROF_CALL_CTX, "fill_prof_call_ctx", NONE, IREG, NONE)
/* LLVM only, compare 2 vectors for equality, set dreg to 1/0 */
MINI_OP(OP_XEQUAL, "xequal", IREG, XREG, XREG)
/* Per element compate, inst_c0 contains a CompRelation */
MINI_OP(OP_XCOMPARE, "xcompare", XREG, XREG, XREG)
MINI_OP(OP_XCOMPARE_SCALAR, "xcompare_scalar", XREG, XREG, XREG)
MINI_OP(OP_XCOMPARE_FP, "xcompare_fp", XREG, XREG, XREG)
MINI_OP(OP_XCOMPARE_FP_SCALAR, "xcompare_fp_scalar", XREG, XREG, XREG)
/*
* Generic SIMD operations, the rest of the JIT doesn't care about the exact operation.
*/
MINI_OP(OP_XBINOP, "xbinop", XREG, XREG, XREG)
MINI_OP(OP_XBINOP_FORCEINT, "xbinop_forceint", XREG, XREG, XREG)
MINI_OP(OP_XBINOP_SCALAR, "xbinop_scalar", XREG, XREG, XREG)
MINI_OP(OP_XBINOP_BYSCALAR, "xbinop_byscalar", XREG, XREG, XREG)
/* inst_c0 contains an INTRINS_ enum, inst_c1 might contain additional data */
MINI_OP(OP_XOP, "xop", NONE, NONE, NONE)
MINI_OP(OP_XOP_X_I, "xop_x_i", XREG, IREG, NONE)
MINI_OP(OP_XOP_X_X, "xop_x_x", XREG, XREG, NONE)
MINI_OP(OP_XOP_I4_X, "xop_i4_x", IREG, XREG, NONE)
MINI_OP(OP_XOP_I4_X_X, "xop_i4_x_x", IREG, XREG, XREG)
MINI_OP(OP_XOP_I8_X, "xop_i8_x", LREG, XREG, NONE)
MINI_OP(OP_XOP_X_X_X, "xop_x_x_x", XREG, XREG, XREG)
MINI_OP(OP_XOP_X_X_I4, "xop_x_x_i4", XREG, XREG, IREG)
MINI_OP(OP_XOP_X_X_I8, "xop_x_x_i8", XREG, XREG, LREG)
MINI_OP(OP_XOP_I4_I8, "xop_i4_i8", IREG, LREG, NONE)
MINI_OP(OP_XOP_I8_I8, "xop_i8_i8", LREG, LREG, NONE)
MINI_OP(OP_XOP_I4_I4, "xop_i4_i4", IREG, IREG, NONE)
MINI_OP(OP_XOP_I4_I4_I4, "xop_i4_i4_i4", IREG, IREG, IREG)
MINI_OP(OP_XOP_I4_I4_I8, "xop_i4_i4_i8", IREG, IREG, LREG)
MINI_OP3(OP_XOP_X_X_X_X, "xop_x_x_x_x", XREG, XREG, XREG, XREG)
MINI_OP(OP_XOP_OVR_X_X, "xop_ovr_x_x", XREG, XREG, NONE)
MINI_OP(OP_XOP_OVR_X_X_X, "xop_ovr_x_x_x", XREG, XREG, XREG)
MINI_OP3(OP_XOP_OVR_X_X_X_X, "xop_ovr_x_x_x_x", XREG, XREG, XREG, XREG)
MINI_OP(OP_XOP_OVR_SCALAR_X_X, "xop_ovr_scalar_x_x", XREG, XREG, NONE)
MINI_OP(OP_XOP_OVR_SCALAR_X_X_X, "xop_ovr_scalar_x_x_x", XREG, XREG, XREG)
MINI_OP3(OP_XOP_OVR_SCALAR_X_X_X_X, "xop_ovr_scalar_x_x_x_x", XREG, XREG, XREG, XREG)
MINI_OP(OP_XOP_OVR_BYSCALAR_X_X_X, "xop_ovr_byscalar_x_x_x", XREG, XREG, XREG)
MINI_OP(OP_XCONCAT, "xconcat", XREG, XREG, XREG)
MINI_OP(OP_XCAST, "xcast", XREG, XREG, NONE)
MINI_OP(OP_XLOWER, "xlower", XREG, XREG, NONE)
MINI_OP(OP_XUPPER, "xupper", XREG, XREG, NONE)
MINI_OP(OP_XWIDEN, "xwiden", XREG, XREG, NONE)
MINI_OP(OP_XWIDEN_UNSAFE, "xwiden_unsafe", XREG, XREG, NONE)
MINI_OP(OP_XINSERT_LOWER, "xinsert_lower", XREG, XREG, XREG)
MINI_OP(OP_XINSERT_UPPER, "xinsert_upper", XREG, XREG, XREG)
/* Extract an element from a vector with a variable lane index.
* The index is assumed to be in range.
* inst_c1 is a MonoTypeEnum representing the element type.
*/
MINI_OP(OP_XEXTRACT_I1, "xextract_i1", IREG, XREG, IREG)
MINI_OP(OP_XEXTRACT_I2, "xextract_i2", IREG, XREG, IREG)
MINI_OP(OP_XEXTRACT_I4, "xextract_i4", IREG, XREG, IREG)
MINI_OP(OP_XEXTRACT_I8, "xextract_i8", LREG, XREG, IREG)
MINI_OP(OP_XEXTRACT_R4, "xextract_r4", FREG, XREG, IREG)
MINI_OP(OP_XEXTRACT_R8, "xextract_r8", FREG, XREG, IREG)
/* Insert an element into a vector with a variable lane index.
* sreg1 is the vector, sreg2 is the value, sreg3 is the index.
* inst_c1 is a MonoTypeEnum representing the element type, used to control
* sign/zero extension if conversion of sreg2 happens to be necessary.
* klass must be set to the MonoClass representing the return type of the op.
*/
MINI_OP3(OP_XINSERT_I1, "xinsert_i1", XREG, XREG, IREG, IREG)
MINI_OP3(OP_XINSERT_I2, "xinsert_i2", XREG, XREG, IREG, IREG)
MINI_OP3(OP_XINSERT_I4, "xinsert_i4", XREG, XREG, IREG, IREG)
MINI_OP3(OP_XINSERT_I8, "xinsert_i8", XREG, XREG, LREG, IREG)
MINI_OP3(OP_XINSERT_R4, "xinsert_r4", XREG, XREG, FREG, IREG)
MINI_OP3(OP_XINSERT_R8, "xinsert_r8", XREG, XREG, FREG, IREG)
MINI_OP(OP_LZCNT32, "lzcnt32", IREG, IREG, NONE)
MINI_OP(OP_LZCNT64, "lzcnt64", LREG, LREG, NONE)
MINI_OP(OP_POPCNT32, "popcnt32", IREG, IREG, NONE)
MINI_OP(OP_POPCNT64, "popcnt64", LREG, LREG, NONE)
#if defined(TARGET_ARM64)
MINI_OP(OP_LSCNT32, "lscnt32", IREG, IREG, NONE)
MINI_OP(OP_LSCNT64, "lscnt64", LREG, LREG, NONE)
MINI_OP(OP_ARM64_CLZ, "arm64_clz", XREG, XREG, NONE)
MINI_OP3(OP_ARM64_LD1_INSERT, "arm64_ld1_insert", XREG, IREG, XREG, IREG)
MINI_OP(OP_ARM64_LD1, "arm64_ld1", XREG, IREG, NONE)
MINI_OP(OP_ARM64_LD1R, "arm64_ld1r", XREG, IREG, NONE)
/* Loads two consecutive vector (or scalar) values into a pair of
* vector registers. Returns a ValueTuple in a vreg. klass must be set to the
* MonoClass representing the ValueTuple return type of the op.
*/
MINI_OP(OP_ARM64_LDNP, "arm64_ldnp", VREG, IREG, NONE)
MINI_OP(OP_ARM64_LDNP_SCALAR, "arm64_ldnp_scalar", VREG, IREG, NONE)
MINI_OP(OP_ARM64_LDP, "arm64_ldp", VREG, IREG, NONE)
MINI_OP(OP_ARM64_LDP_SCALAR, "arm64_ldp_scalar", VREG, IREG, NONE)
MINI_OP(OP_ARM64_ST1, "arm64_st1", NONE, IREG, XREG)
MINI_OP(OP_ARM64_SXTL, "arm64_sxtl", XREG, XREG, NONE)
MINI_OP(OP_ARM64_SXTL2, "arm64_sxtl2", XREG, XREG, NONE)
MINI_OP(OP_ARM64_SMULH, "arm64_smulh", LREG, LREG, LREG)
MINI_OP(OP_ARM64_SQRT_SCALAR, "arm64_sqrt_scalar", XREG, XREG, NONE)
MINI_OP(OP_ARM64_TRN1, "arm64_trn1", XREG, XREG, XREG)
MINI_OP(OP_ARM64_TRN2, "arm64_trn2", XREG, XREG, XREG)
MINI_OP(OP_ARM64_UMULH, "arm64_umulh", LREG, LREG, LREG)
MINI_OP(OP_ARM64_UXTL, "arm64_uxtl", XREG, XREG, NONE)
MINI_OP(OP_ARM64_UXTL2, "arm64_uxtl2", XREG, XREG, NONE)
MINI_OP(OP_ARM64_UZP1, "arm64_uzp1", XREG, XREG, XREG)
MINI_OP(OP_ARM64_UZP2, "arm64_uzp2", XREG, XREG, XREG)
MINI_OP(OP_ARM64_ZIP1, "arm64_zip1", XREG, XREG, XREG)
MINI_OP(OP_ARM64_ZIP2, "arm64_zip2", XREG, XREG, XREG)
MINI_OP3(OP_ARM64_ST1_SCALAR, "arm64_st1_scalar", NONE, IREG, XREG, IREG)
MINI_OP3(OP_ARM64_STNP, "arm64_stnp", NONE, IREG, XREG, XREG)
MINI_OP3(OP_ARM64_STNP_SCALAR, "arm64_stnp_scalar", NONE, IREG, XREG, XREG)
MINI_OP3(OP_ARM64_STP, "arm64_stp", NONE, IREG, XREG, XREG)
MINI_OP3(OP_ARM64_STP_SCALAR, "arm64_stp_scalar", NONE, IREG, XREG, XREG)
MINI_OP(OP_ARM64_ADDHN, "arm64_addhn", XREG, XREG, XREG)
MINI_OP3(OP_ARM64_ADDHN2, "arm64_addhn2", XREG, XREG, XREG, XREG)
MINI_OP(OP_ARM64_SUBHN, "arm64_subhn", XREG, XREG, XREG)
MINI_OP3(OP_ARM64_SUBHN2, "arm64_subhn2", XREG, XREG, XREG, XREG)
MINI_OP(OP_ARM64_RADDHN, "arm64_raddhn", XREG, XREG, XREG)
MINI_OP3(OP_ARM64_RADDHN2, "arm64_raddhn2", XREG, XREG, XREG, XREG)
MINI_OP(OP_ARM64_RSUBHN, "arm64_rsubhn", XREG, XREG, XREG)
MINI_OP3(OP_ARM64_RSUBHN2, "arm64_rsubhn2", XREG, XREG, XREG, XREG)
MINI_OP(OP_ARM64_SHRN, "arm64_shrn", XREG, XREG, IREG)
MINI_OP3(OP_ARM64_SHRN2, "arm64_shrn2", XREG, XREG, XREG, IREG)
MINI_OP3(OP_ARM64_SLI, "arm64_sli", XREG, XREG, XREG, IREG)
MINI_OP3(OP_ARM64_SRI, "arm64_sri", XREG, XREG, XREG, IREG)
MINI_OP(OP_ARM64_SRSHR, "arm64_srshr", XREG, XREG, IREG)
MINI_OP(OP_ARM64_URSHR, "arm64_urshr", XREG, XREG, IREG)
MINI_OP3(OP_ARM64_SRSRA, "arm64_srsra", XREG, XREG, XREG, IREG)
MINI_OP3(OP_ARM64_URSRA, "arm64_ursra", XREG, XREG, XREG, IREG)
MINI_OP(OP_ARM64_SHL, "arm64_shl", XREG, XREG, IREG)
MINI_OP(OP_ARM64_SSHR, "arm64_sshr", XREG, XREG, IREG)
MINI_OP(OP_ARM64_USHR, "arm64_ushr", XREG, XREG, IREG)
MINI_OP3(OP_ARM64_USRA, "arm64_usra", XREG, XREG, XREG, IREG)
MINI_OP3(OP_ARM64_SSRA, "arm64_ssra", XREG, XREG, XREG, IREG)
MINI_OP(OP_ARM64_USHLL, "arm64_ushll", XREG, XREG, IREG)
MINI_OP(OP_ARM64_USHLL2, "arm64_ushll2", XREG, XREG, IREG)
MINI_OP(OP_ARM64_SSHLL, "arm64_sshll", XREG, XREG, IREG)
MINI_OP(OP_ARM64_SSHLL2, "arm64_sshll2", XREG, XREG, IREG)
/* Narrowing arm64 shifts that aren't decomposed into urshl or srshl. */
MINI_OP(OP_ARM64_XNSHIFT_SCALAR, "arm64_xrshift_scalar", XREG, XREG, IREG)
MINI_OP(OP_ARM64_XNSHIFT, "arm64_xnshift", XREG, XREG, IREG)
MINI_OP3(OP_ARM64_XNSHIFT2, "arm64_xnshift2", XREG, XREG, XREG, IREG)
MINI_OP(OP_ARM64_SQSHLU, "arm64_sqshlu", XREG, XREG, IREG)
MINI_OP(OP_ARM64_SQSHLU_SCALAR, "arm64_sqshlu_scalar", XREG, XREG, IREG)
MINI_OP(OP_ARM64_REVN, "arm64_revn", XREG, XREG, NONE)
MINI_OP(OP_ARM64_PMULL, "arm64_pmull", XREG, XREG, XREG)
MINI_OP(OP_ARM64_PMULL2, "arm64_pmull2", XREG, XREG, XREG)
MINI_OP(OP_ARM64_XNEG, "arm64_xneg", XREG, XREG, NONE)
MINI_OP(OP_ARM64_XNEG_SCALAR, "arm64_xneg_scalar", XREG, XREG, NONE)
MINI_OP(OP_ARM64_SMULL, "arm64_smull", XREG, XREG, XREG)
MINI_OP(OP_ARM64_SMULL_SCALAR, "arm64_smull_scalar", XREG, XREG, XREG)
MINI_OP(OP_ARM64_SMULL2, "arm64_smull2", XREG, XREG, XREG)
MINI_OP(OP_ARM64_SMULL2_SCALAR, "arm64_smull2_scalar", XREG, XREG, XREG)
MINI_OP(OP_ARM64_UMULL, "arm64_umull", XREG, XREG, XREG)
MINI_OP(OP_ARM64_UMULL_SCALAR, "arm64_umull_scalar", XREG, XREG, XREG)
MINI_OP(OP_ARM64_UMULL2, "arm64_umull2", XREG, XREG, XREG)
MINI_OP(OP_ARM64_UMULL2_SCALAR, "arm64_umull2_scalar", XREG, XREG, XREG)
MINI_OP3(OP_ARM64_SMLAL, "arm64_smlal", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_SMLAL_SCALAR, "arm64_smlal_scalar", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_SMLAL2, "arm64_smlal2", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_SMLAL2_SCALAR, "arm64_smlal2_scalar", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_UMLAL, "arm64_umlal", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_UMLAL_SCALAR, "arm64_umlal_scalar", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_UMLAL2, "arm64_umlal2", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_UMLAL2_SCALAR, "arm64_umlal2_scalar", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_SMLSL, "arm64_smlsl", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_SMLSL_SCALAR, "arm64_smlsl_scalar", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_SMLSL2, "arm64_smlsl2", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_SMLSL2_SCALAR, "arm64_smlsl2_scalar", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_UMLSL, "arm64_umlsl", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_UMLSL_SCALAR, "arm64_umlsl_scalar", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_UMLSL2, "arm64_umlsl2", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_UMLSL2_SCALAR, "arm64_umlsl2_scalar", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_MLS, "arm64_mls", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_MLS_SCALAR, "arm64_mls_scalar", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_MLA, "arm64_mla", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_MLA_SCALAR, "arm64_mla_scalar", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_FMUL_SEL, "arm64_fmul_sel", XREG, XREG, XREG, IREG)
MINI_OP(OP_ARM64_SQDMULL_SCALAR, "arm64_sqdmull_scalar", XREG, XREG, XREG)
MINI_OP3(OP_ARM64_SQDMLSL_SCALAR, "arm64_sqdmlsl_scalar", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_SQDMLAL_SCALAR, "arm64_sqdmlal_scalar", XREG, XREG, XREG, XREG)
MINI_OP(OP_ARM64_SQDMULL, "arm64_sqdmull", XREG, XREG, XREG)
MINI_OP(OP_ARM64_SQDMULL_BYSCALAR, "arm64_sqdmull_byscalar", XREG, XREG, XREG)
MINI_OP(OP_ARM64_SQDMULL2, "arm64_sqdmull2", XREG, XREG, XREG)
MINI_OP(OP_ARM64_SQDMULL2_BYSCALAR, "arm64_sqdmull2_byscalar", XREG, XREG, XREG)
MINI_OP3(OP_ARM64_SQDMLSL, "arm64_sqdmlsl", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_SQDMLSL_BYSCALAR, "arm64_sqdmlsl_byscalar", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_SQDMLAL, "arm64_sqdmlal", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_SQDMLAL_BYSCALAR, "arm64_sqdmlal_byscalar", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_SQDMLSL2, "arm64_sqdmlsl2", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_SQDMLSL2_BYSCALAR, "arm64_sqdmlsl2_byscalar", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_SQDMLAL2, "arm64_sqdmlal2", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_SQDMLAL2_BYSCALAR, "arm64_sqdmlal2_byscalar", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_FMSUB, "arm64_fmsub", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_FMSUB_BYSCALAR, "arm64_fmsub_byscalar", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_FMSUB_SCALAR, "arm64_fmsub_scalar", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_FNMSUB_SCALAR, "arm64_fnmsub_scalar", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_FMADD, "arm64_fmadd", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_FMADD_BYSCALAR, "arm64_fmadd_byscalar", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_FMADD_SCALAR, "arm64_fmadd_scalar", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_FNMADD_SCALAR, "arm64_fnmadd_scalar", XREG, XREG, XREG, XREG)
MINI_OP(OP_ARM64_XTN, "arm64_xtn", XREG, XREG, NONE)
MINI_OP(OP_ARM64_XTN2, "arm64_xtn2", XREG, XREG, XREG)
MINI_OP(OP_ARM64_SQXTN2, "arm64_sqxtn2", XREG, XREG, XREG)
MINI_OP(OP_ARM64_UQXTN2, "arm64_uqxtn2", XREG, XREG, XREG)
MINI_OP(OP_ARM64_SQXTUN2, "arm64_sqxtun2", XREG, XREG, XREG)
MINI_OP(OP_ARM64_SELECT_SCALAR, "arm64_select_scalar", XREG, XREG, IREG)
MINI_OP(OP_ARM64_SELECT_QUAD, "arm64_select_quad", XREG, XREG, IREG)
MINI_OP(OP_ARM64_FCVTZU, "arm64_fcvtzu", XREG, XREG, NONE)
MINI_OP(OP_ARM64_FCVTZS, "arm64_fcvtzs", XREG, XREG, NONE)
MINI_OP(OP_ARM64_FCVTZU_SCALAR, "arm64_fcvtzu_scalar", XREG, XREG, NONE)
MINI_OP(OP_ARM64_FCVTZS_SCALAR, "arm64_fcvtzs_scalar", XREG, XREG, NONE)
MINI_OP(OP_ARM64_UCVTF, "arm64_ucvtf", XREG, XREG, NONE)
MINI_OP(OP_ARM64_SCVTF, "arm64_scvtf", XREG, XREG, NONE)
MINI_OP(OP_ARM64_UCVTF_SCALAR, "arm64_ucvtf_scalar", XREG, XREG, NONE)
MINI_OP(OP_ARM64_SCVTF_SCALAR, "arm64_scvtf_scalar", XREG, XREG, NONE)
MINI_OP(OP_ARM64_FCVTN, "arm64_fcvtn", XREG, XREG, NONE)
MINI_OP(OP_ARM64_FCVTN2, "arm64_fcvtn2", XREG, XREG, XREG)
MINI_OP(OP_ARM64_FCVTXN, "arm64_fcvtxn", XREG, XREG, NONE)
MINI_OP(OP_ARM64_FCVTXN2, "arm64_fcvtxn2", XREG, XREG, XREG)
MINI_OP(OP_ARM64_FCVTL, "arm64_fcvtl", XREG, XREG, NONE)
MINI_OP(OP_ARM64_FCVTL2, "arm64_fcvtl2", XREG, XREG, NONE)
MINI_OP(OP_ARM64_CMTST, "arm64_cmtst", XREG, XREG, XREG)
MINI_OP3(OP_ARM64_BSL, "arm64_bsl", XREG, XREG, XREG, XREG)
MINI_OP(OP_ARM64_BIC, "arm64_bic", XREG, XREG, XREG)
MINI_OP(OP_ARM64_MVN, "arm64_mvn", XREG, XREG, NONE)
MINI_OP(OP_ARM64_SADD, "arm64_sadd", XREG, XREG, XREG)
MINI_OP(OP_ARM64_SADD2, "arm64_sadd2", XREG, XREG, XREG)
MINI_OP(OP_ARM64_UADD, "arm64_uadd", XREG, XREG, XREG)
MINI_OP(OP_ARM64_UADD2, "arm64_uadd2", XREG, XREG, XREG)
MINI_OP(OP_ARM64_SSUB, "arm64_ssub", XREG, XREG, XREG)
MINI_OP(OP_ARM64_SSUB2, "arm64_ssub2", XREG, XREG, XREG)
MINI_OP(OP_ARM64_USUB, "arm64_usub", XREG, XREG, XREG)
MINI_OP(OP_ARM64_USUB2, "arm64_usub2", XREG, XREG, XREG)
MINI_OP(OP_ARM64_ADDP_SCALAR, "arm64_addp_scalar", XREG, XREG, NONE)
MINI_OP(OP_ARM64_FADDP_SCALAR, "arm64_faddp_scalar", XREG, XREG, NONE)
MINI_OP(OP_ARM64_SADALP, "arm64_sadalp_scalar", XREG, XREG, XREG)
MINI_OP(OP_ARM64_UADALP, "arm64_uadalp_scalar", XREG, XREG, XREG)
MINI_OP(OP_ARM64_SADDLV, "arm64_saddlv", XREG, XREG, NONE)
MINI_OP(OP_ARM64_UADDLV, "arm64_uaddlv", XREG, XREG, NONE)
MINI_OP(OP_ARM64_XHORIZ, "arm64_xhoriz", XREG, XREG, NONE)
MINI_OP3(OP_ARM64_SABAL, "arm64_sabal", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_SABAL2, "arm64_sabal2", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_UABAL, "arm64_uabal", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_UABAL2, "arm64_uabal2", XREG, XREG, XREG, XREG)
MINI_OP(OP_ARM64_SABDL, "arm64_sabdl", XREG, XREG, XREG)
MINI_OP(OP_ARM64_SABDL2, "arm64_sabdl2", XREG, XREG, XREG)
MINI_OP(OP_ARM64_UABDL, "arm64_uabdl", XREG, XREG, XREG)
MINI_OP(OP_ARM64_UABDL2, "arm64_uabdl2", XREG, XREG, XREG)
MINI_OP3(OP_ARM64_SABA, "arm64_saba", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_UABA, "arm64_uaba", XREG, XREG, XREG, XREG)
MINI_OP(OP_ARM64_SABD, "arm64_sabd", XREG, XREG, XREG)
MINI_OP(OP_ARM64_UABD, "arm64_uabd", XREG, XREG, XREG)
MINI_OP(OP_ARM64_ABSCOMPARE, "arm64_abscompare", XREG, XREG, XREG)
MINI_OP(OP_ARM64_XNARROW_SCALAR, "arm64_xnarrow_scalar", XREG, XREG, NONE)
MINI_OP3(OP_ARM64_EXT, "arm64_ext", XREG, XREG, XREG, IREG)
MINI_OP3(OP_ARM64_SQRDMLAH, "arm64_sqrdmlah", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_SQRDMLAH_BYSCALAR, "arm64_sqrdmlah_byscalar", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_SQRDMLAH_SCALAR, "arm64_sqrdmlah_scalar", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_SQRDMLSH, "arm64_sqrdmlsh", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_SQRDMLSH_BYSCALAR, "arm64_sqrdmlsh_byscalar", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_SQRDMLSH_SCALAR, "arm64_sqrdmlsh_scalar", XREG, XREG, XREG, XREG)
#endif // TARGET_ARM64
|
/**
* \file
* Copyright 2003 Ximian, Inc
* Copyright 2003-2011 Novell Inc
* Copyright 2011 Xamarin Inc
* Licensed under the MIT license. See LICENSE file in the project root for full license information.
*/
MINI_OP(OP_LOAD, "load", NONE, NONE, NONE)
MINI_OP(OP_LDADDR, "ldaddr", IREG, NONE, NONE)
MINI_OP(OP_STORE, "store", NONE, NONE, NONE)
MINI_OP(OP_NOP, "nop", NONE, NONE, NONE)
MINI_OP(OP_HARD_NOP, "hard_nop", NONE, NONE, NONE)
MINI_OP(OP_RELAXED_NOP, "relaxed_nop", NONE, NONE, NONE)
MINI_OP(OP_PHI, "phi", IREG, NONE, NONE)
MINI_OP(OP_FPHI, "fphi", FREG, NONE, NONE)
MINI_OP(OP_VPHI, "vphi", VREG, NONE, NONE)
MINI_OP(OP_COMPARE, "compare", NONE, IREG, IREG)
MINI_OP(OP_COMPARE_IMM, "compare_imm", NONE, IREG, NONE)
MINI_OP(OP_FCOMPARE, "fcompare", NONE, FREG, FREG)
MINI_OP(OP_RCOMPARE, "rcompare", NONE, FREG, FREG)
MINI_OP(OP_LCOMPARE, "lcompare", NONE, LREG, LREG)
MINI_OP(OP_ICOMPARE, "icompare", NONE, IREG, IREG)
MINI_OP(OP_ICOMPARE_IMM, "icompare_imm", NONE, IREG, NONE)
MINI_OP(OP_LCOMPARE_IMM, "lcompare_imm", NONE, LREG, NONE)
MINI_OP(OP_LOCAL, "local", NONE, NONE, NONE)
MINI_OP(OP_ARG, "arg", NONE, NONE, NONE)
/* inst_imm contains the local index */
MINI_OP(OP_GSHAREDVT_LOCAL, "gsharedvt_local", NONE, NONE, NONE)
MINI_OP(OP_GSHAREDVT_ARG_REGOFFSET, "gsharedvt_arg_regoffset", NONE, NONE, NONE)
/*
* Represents passing a valuetype argument which has not been decomposed yet.
* inst_p0 points to the call.
*/
MINI_OP(OP_OUTARG_VT, "outarg_vt", NONE, VREG, NONE)
MINI_OP(OP_OUTARG_VTRETADDR, "outarg_vtretaddr", IREG, NONE, NONE)
MINI_OP(OP_SETRET, "setret", NONE, IREG, NONE)
MINI_OP(OP_SETFRET, "setfret", FREG, FREG, NONE)
MINI_OP(OP_SETLRET, "setlret", NONE, IREG, IREG)
MINI_OP(OP_LOCALLOC, "localloc", IREG, IREG, NONE)
MINI_OP(OP_LOCALLOC_IMM, "localloc_imm", IREG, NONE, NONE)
MINI_OP(OP_CHECK_THIS, "check_this", NONE, IREG, NONE)
MINI_OP(OP_SEQ_POINT, "seq_point", NONE, NONE, NONE)
MINI_OP(OP_IL_SEQ_POINT, "il_seq_point", NONE, NONE, NONE)
MINI_OP(OP_IMPLICIT_EXCEPTION, "implicit_exception", NONE, NONE, NONE)
MINI_OP(OP_BOX, "box", IREG, IREG, NONE)
/* A box of the int value in inst_c0 */
MINI_OP(OP_BOX_ICONST, "box_iconst", IREG, NONE, NONE)
/* Same as OP_MOVE, ins->dreg is an objref of type ins->klass */
MINI_OP(OP_TYPED_OBJREF, "typed_objref", IREG, IREG, NONE)
/* CALL opcodes need to stay together, see MONO_IS_CALL macro */
MINI_OP(OP_VOIDCALL, "voidcall", NONE, NONE, NONE)
MINI_OP(OP_VOIDCALL_REG, "voidcall_reg", NONE, IREG, NONE)
MINI_OP(OP_VOIDCALL_MEMBASE, "voidcall_membase", NONE, IREG, NONE)
MINI_OP(OP_CALL, "call", IREG, NONE, NONE)
MINI_OP(OP_CALL_REG, "call_reg", IREG, IREG, NONE)
MINI_OP(OP_CALL_MEMBASE, "call_membase", IREG, IREG, NONE)
MINI_OP(OP_FCALL, "fcall", FREG, NONE, NONE)
MINI_OP(OP_FCALL_REG, "fcall_reg", FREG, IREG, NONE)
MINI_OP(OP_FCALL_MEMBASE, "fcall_membase", FREG, IREG, NONE)
MINI_OP(OP_RCALL, "rcall", FREG, NONE, NONE)
MINI_OP(OP_RCALL_REG, "rcall_reg", FREG, IREG, NONE)
MINI_OP(OP_RCALL_MEMBASE, "rcall_membase", FREG, IREG, NONE)
MINI_OP(OP_LCALL, "lcall", LREG, NONE, NONE)
MINI_OP(OP_LCALL_REG, "lcall_reg", LREG, IREG, NONE)
MINI_OP(OP_LCALL_MEMBASE, "lcall_membase", LREG, IREG, NONE)
MINI_OP(OP_VCALL, "vcall", VREG, NONE, NONE)
MINI_OP(OP_VCALL_REG, "vcall_reg", VREG, IREG, NONE)
MINI_OP(OP_VCALL_MEMBASE, "vcall_membase", VREG, IREG, NONE)
/* Represents the decomposed vcall which doesn't return a vtype no more */
MINI_OP(OP_VCALL2, "vcall2", NONE, NONE, NONE)
MINI_OP(OP_VCALL2_REG, "vcall2_reg", NONE, IREG, NONE)
MINI_OP(OP_VCALL2_MEMBASE, "vcall2_membase", NONE, IREG, NONE)
MINI_OP(OP_DYN_CALL, "dyn_call", NONE, IREG, IREG)
MINI_OP(OP_ICONST, "iconst", IREG, NONE, NONE)
MINI_OP(OP_I8CONST, "i8const", LREG, NONE, NONE)
MINI_OP(OP_R4CONST, "r4const", FREG, NONE, NONE)
MINI_OP(OP_R8CONST, "r8const", FREG, NONE, NONE)
MINI_OP(OP_DUMMY_ICONST, "dummy_iconst", IREG, NONE, NONE)
MINI_OP(OP_DUMMY_I8CONST, "dummy_i8const", LREG, NONE, NONE)
MINI_OP(OP_DUMMY_R8CONST, "dummy_r8const", FREG, NONE, NONE)
MINI_OP(OP_DUMMY_R4CONST, "dummy_r4const", FREG, NONE, NONE)
MINI_OP(OP_DUMMY_VZERO, "dummy_vzero", VREG, NONE, NONE)
MINI_OP(OP_REGVAR, "regvar", NONE, NONE, NONE)
MINI_OP(OP_REGOFFSET, "regoffset", NONE, NONE, NONE)
MINI_OP(OP_VTARG_ADDR, "vtarg_addr", NONE, NONE, NONE)
MINI_OP(OP_LABEL, "label", NONE, NONE, NONE)
MINI_OP(OP_SWITCH, "switch", NONE, IREG, NONE)
MINI_OP(OP_THROW, "throw", NONE, IREG, NONE)
MINI_OP(OP_RETHROW, "rethrow", NONE, IREG, NONE)
/*
* Vararg calls are implemented as follows:
* - the caller emits a hidden argument just before the varargs argument. this
* 'signature cookie' argument contains the signature describing the the call.
* - all implicit arguments are passed in memory right after the signature cookie, i.e.
* the stack will look like this:
* <argn>
* ..
* <arg1>
* <sig cookie>
* - the OP_ARGLIST opcode in the callee computes the address of the sig cookie argument
* on the stack and saves it into its sreg1.
* - mono_ArgIterator_Setup receives this value and uses it to find the signature and
* the arguments.
*/
MINI_OP(OP_ARGLIST, "arglist", NONE, IREG, NONE)
/* MONO_IS_STORE_MEMBASE depends on the order here */
MINI_OP(OP_STORE_MEMBASE_REG,"store_membase_reg", IREG, IREG, NONE)
MINI_OP(OP_STOREI1_MEMBASE_REG, "storei1_membase_reg", IREG, IREG, NONE)
MINI_OP(OP_STOREI2_MEMBASE_REG, "storei2_membase_reg", IREG, IREG, NONE)
MINI_OP(OP_STOREI4_MEMBASE_REG, "storei4_membase_reg", IREG, IREG, NONE)
MINI_OP(OP_STOREI8_MEMBASE_REG, "storei8_membase_reg", IREG, LREG, NONE)
MINI_OP(OP_STORER4_MEMBASE_REG, "storer4_membase_reg", IREG, FREG, NONE)
MINI_OP(OP_STORER8_MEMBASE_REG, "storer8_membase_reg", IREG, FREG, NONE)
#if defined(TARGET_X86) || defined(TARGET_AMD64)
MINI_OP(OP_STOREX_MEMBASE_REG, "storex_membase_reg", IREG, XREG, NONE)
MINI_OP(OP_STOREX_ALIGNED_MEMBASE_REG, "storex_aligned_membase_reg", IREG, XREG, NONE)
MINI_OP(OP_STOREX_NTA_MEMBASE_REG, "storex_nta_membase_reg", IREG, XREG, NONE)
#endif
MINI_OP(OP_STORE_MEMBASE_IMM,"store_membase_imm", IREG, NONE, NONE)
MINI_OP(OP_STOREI1_MEMBASE_IMM, "storei1_membase_imm", IREG, NONE, NONE)
MINI_OP(OP_STOREI2_MEMBASE_IMM, "storei2_membase_imm", IREG, NONE, NONE)
MINI_OP(OP_STOREI4_MEMBASE_IMM, "storei4_membase_imm", IREG, NONE, NONE)
MINI_OP(OP_STOREI8_MEMBASE_IMM, "storei8_membase_imm", IREG, NONE, NONE)
MINI_OP(OP_STOREX_MEMBASE, "storex_membase", IREG, XREG, NONE)
MINI_OP(OP_STOREV_MEMBASE, "storev_membase", IREG, VREG, NONE)
/* MONO_IS_LOAD_MEMBASE depends on the order here */
MINI_OP(OP_LOAD_MEMBASE, "load_membase", IREG, IREG, NONE)
MINI_OP(OP_LOADI1_MEMBASE,"loadi1_membase", IREG, IREG, NONE)
MINI_OP(OP_LOADU1_MEMBASE,"loadu1_membase", IREG, IREG, NONE)
MINI_OP(OP_LOADI2_MEMBASE,"loadi2_membase", IREG, IREG, NONE)
MINI_OP(OP_LOADU2_MEMBASE,"loadu2_membase", IREG, IREG, NONE)
MINI_OP(OP_LOADI4_MEMBASE,"loadi4_membase", IREG, IREG, NONE)
MINI_OP(OP_LOADU4_MEMBASE,"loadu4_membase", IREG, IREG, NONE)
MINI_OP(OP_LOADI8_MEMBASE,"loadi8_membase", LREG, IREG, NONE)
MINI_OP(OP_LOADR4_MEMBASE,"loadr4_membase", FREG, IREG, NONE)
MINI_OP(OP_LOADR8_MEMBASE,"loadr8_membase", FREG, IREG, NONE)
MINI_OP(OP_LOADX_MEMBASE, "loadx_membase", XREG, IREG, NONE)
#if defined(TARGET_X86) || defined(TARGET_AMD64)
MINI_OP(OP_LOADX_ALIGNED_MEMBASE, "loadx_aligned_membase", XREG, IREG, NONE)
#endif
MINI_OP(OP_LOADV_MEMBASE, "loadv_membase", VREG, IREG, NONE)
/* indexed loads: dreg = load at (sreg1 + sreg2)*/
MINI_OP(OP_LOAD_MEMINDEX, "load_memindex", IREG, IREG, IREG)
MINI_OP(OP_LOADI1_MEMINDEX,"loadi1_memindex", IREG, IREG, IREG)
MINI_OP(OP_LOADU1_MEMINDEX,"loadu1_memindex", IREG, IREG, IREG)
MINI_OP(OP_LOADI2_MEMINDEX,"loadi2_memindex", IREG, IREG, IREG)
MINI_OP(OP_LOADU2_MEMINDEX,"loadu2_memindex", IREG, IREG, IREG)
MINI_OP(OP_LOADI4_MEMINDEX,"loadi4_memindex", IREG, IREG, IREG)
MINI_OP(OP_LOADU4_MEMINDEX,"loadu4_memindex", IREG, IREG, IREG)
MINI_OP(OP_LOADI8_MEMINDEX,"loadi8_memindex", IREG, IREG, IREG)
MINI_OP(OP_LOADR4_MEMINDEX,"loadr4_memindex", FREG, IREG, IREG)
MINI_OP(OP_LOADR8_MEMINDEX,"loadr8_memindex", FREG, IREG, IREG)
/* indexed stores: store sreg1 at (destbasereg + sreg2) */
/* MONO_IS_STORE_MEMINDEX depends on the order here */
MINI_OP(OP_STORE_MEMINDEX,"store_memindex", IREG, IREG, IREG)
MINI_OP(OP_STOREI1_MEMINDEX,"storei1_memindex", IREG, IREG, IREG)
MINI_OP(OP_STOREI2_MEMINDEX,"storei2_memindex", IREG, IREG, IREG)
MINI_OP(OP_STOREI4_MEMINDEX,"storei4_memindex", IREG, IREG, IREG)
MINI_OP(OP_STOREI8_MEMINDEX,"storei8_memindex", IREG, IREG, IREG)
MINI_OP(OP_STORER4_MEMINDEX,"storer4_memindex", IREG, FREG, IREG)
MINI_OP(OP_STORER8_MEMINDEX,"storer8_memindex", IREG, FREG, IREG)
MINI_OP(OP_LOAD_MEM,"load_mem", IREG, NONE, NONE)
MINI_OP(OP_LOADU1_MEM,"loadu1_mem", IREG, NONE, NONE)
MINI_OP(OP_LOADU2_MEM,"loadu2_mem", IREG, NONE, NONE)
MINI_OP(OP_LOADI4_MEM,"loadi4_mem", IREG, NONE, NONE)
MINI_OP(OP_LOADU4_MEM,"loadu4_mem", IREG, NONE, NONE)
MINI_OP(OP_LOADI8_MEM,"loadi8_mem", IREG, NONE, NONE)
MINI_OP(OP_MOVE, "move", IREG, IREG, NONE)
MINI_OP(OP_LMOVE, "lmove", LREG, LREG, NONE)
MINI_OP(OP_FMOVE, "fmove", FREG, FREG, NONE)
MINI_OP(OP_VMOVE, "vmove", VREG, VREG, NONE)
MINI_OP(OP_RMOVE, "rmove", FREG, FREG, NONE)
/*
* All 4 of these are only available when soft float isn't active. They
* perform no conversions; they simply move values back and forth.
*/
MINI_OP(OP_MOVE_F_TO_I4, "move_f_to_i4", IREG, FREG, NONE)
MINI_OP(OP_MOVE_I4_TO_F, "move_i4_to_f", FREG, IREG, NONE)
/* These 2 are only available on 64-bit targets. */
MINI_OP(OP_MOVE_F_TO_I8, "move_f_to_i8", IREG, FREG, NONE)
MINI_OP(OP_MOVE_I8_TO_F, "move_i8_to_f", FREG, IREG, NONE)
MINI_OP(OP_VZERO, "vzero", VREG, NONE, NONE)
MINI_OP(OP_ADD_IMM, "add_imm", IREG, IREG, NONE)
MINI_OP(OP_SUB_IMM, "sub_imm", IREG, IREG, NONE)
MINI_OP(OP_MUL_IMM, "mul_imm", IREG, IREG, NONE)
MINI_OP(OP_DIV_IMM, "div_imm", IREG, IREG, NONE)
MINI_OP(OP_DIV_UN_IMM, "div_un_imm", IREG, IREG, NONE)
MINI_OP(OP_REM_IMM, "rem_imm", IREG, IREG, NONE)
MINI_OP(OP_REM_UN_IMM, "rem_un_imm", IREG, IREG, NONE)
MINI_OP(OP_AND_IMM, "and_imm", IREG, IREG, NONE)
MINI_OP(OP_OR_IMM, "or_imm", IREG, IREG, NONE)
MINI_OP(OP_XOR_IMM, "xor_imm", IREG, IREG, NONE)
MINI_OP(OP_SHL_IMM, "shl_imm", IREG, IREG, NONE)
MINI_OP(OP_SHR_IMM, "shr_imm", IREG, IREG, NONE)
MINI_OP(OP_SHR_UN_IMM, "shr_un_imm", IREG, IREG, NONE)
MINI_OP(OP_BR, "br", NONE, NONE, NONE)
/* Similar to old OP_JMP, but the passing of arguments is done similarly to calls */
MINI_OP(OP_TAILCALL, "tailcall", NONE, NONE, NONE)
MINI_OP(OP_TAILCALL_PARAMETER, "tailcall_parameter", NONE, NONE, NONE) // no code, just size
MINI_OP(OP_TAILCALL_REG, "tailcall_reg", NONE, IREG, NONE)
MINI_OP(OP_TAILCALL_MEMBASE, "tailcall_membase", NONE, IREG, NONE)
MINI_OP(OP_BREAK, "break", NONE, NONE, NONE)
MINI_OP(OP_CEQ, "ceq", IREG, NONE, NONE)
MINI_OP(OP_CGT, "cgt", IREG, NONE, NONE)
MINI_OP(OP_CGT_UN,"cgt_un", IREG, NONE, NONE)
MINI_OP(OP_CLT, "clt", IREG, NONE, NONE)
MINI_OP(OP_CLT_UN,"clt_un", IREG, NONE, NONE)
/* exceptions: must be in the same order as the matching CEE_ branch opcodes */
MINI_OP(OP_COND_EXC_EQ, "cond_exc_eq", NONE, NONE, NONE)
MINI_OP(OP_COND_EXC_GE, "cond_exc_ge", NONE, NONE, NONE)
MINI_OP(OP_COND_EXC_GT, "cond_exc_gt", NONE, NONE, NONE)
MINI_OP(OP_COND_EXC_LE, "cond_exc_le", NONE, NONE, NONE)
MINI_OP(OP_COND_EXC_LT, "cond_exc_lt", NONE, NONE, NONE)
MINI_OP(OP_COND_EXC_NE_UN, "cond_exc_ne_un", NONE, NONE, NONE)
MINI_OP(OP_COND_EXC_GE_UN, "cond_exc_ge_un", NONE, NONE, NONE)
MINI_OP(OP_COND_EXC_GT_UN, "cond_exc_gt_un", NONE, NONE, NONE)
MINI_OP(OP_COND_EXC_LE_UN, "cond_exc_le_un", NONE, NONE, NONE)
MINI_OP(OP_COND_EXC_LT_UN, "cond_exc_lt_un", NONE, NONE, NONE)
MINI_OP(OP_COND_EXC_OV, "cond_exc_ov", NONE, NONE, NONE)
MINI_OP(OP_COND_EXC_NO, "cond_exc_no", NONE, NONE, NONE)
MINI_OP(OP_COND_EXC_C, "cond_exc_c", NONE, NONE, NONE)
MINI_OP(OP_COND_EXC_NC, "cond_exc_nc", NONE, NONE, NONE)
MINI_OP(OP_COND_EXC_IEQ, "cond_exc_ieq", NONE, NONE, NONE)
MINI_OP(OP_COND_EXC_IGE, "cond_exc_ige", NONE, NONE, NONE)
MINI_OP(OP_COND_EXC_IGT, "cond_exc_igt", NONE, NONE, NONE)
MINI_OP(OP_COND_EXC_ILE, "cond_exc_ile", NONE, NONE, NONE)
MINI_OP(OP_COND_EXC_ILT, "cond_exc_ilt", NONE, NONE, NONE)
MINI_OP(OP_COND_EXC_INE_UN, "cond_exc_ine_un", NONE, NONE, NONE)
MINI_OP(OP_COND_EXC_IGE_UN, "cond_exc_ige_un", NONE, NONE, NONE)
MINI_OP(OP_COND_EXC_IGT_UN, "cond_exc_igt_un", NONE, NONE, NONE)
MINI_OP(OP_COND_EXC_ILE_UN, "cond_exc_ile_un", NONE, NONE, NONE)
MINI_OP(OP_COND_EXC_ILT_UN, "cond_exc_ilt_un", NONE, NONE, NONE)
MINI_OP(OP_COND_EXC_IOV, "cond_exc_iov", NONE, NONE, NONE)
MINI_OP(OP_COND_EXC_INO, "cond_exc_ino", NONE, NONE, NONE)
MINI_OP(OP_COND_EXC_IC, "cond_exc_ic", NONE, NONE, NONE)
MINI_OP(OP_COND_EXC_INC, "cond_exc_inc", NONE, NONE, NONE)
/* 64 bit opcodes: must be in the same order as the matching CEE_ opcodes: binops_op_map */
MINI_OP(OP_LADD, "long_add", LREG, LREG, LREG)
MINI_OP(OP_LSUB, "long_sub", LREG, LREG, LREG)
MINI_OP(OP_LMUL, "long_mul", LREG, LREG, LREG)
MINI_OP(OP_LDIV, "long_div", LREG, LREG, LREG)
MINI_OP(OP_LDIV_UN, "long_div_un", LREG, LREG, LREG)
MINI_OP(OP_LREM, "long_rem", LREG, LREG, LREG)
MINI_OP(OP_LREM_UN, "long_rem_un", LREG, LREG, LREG)
MINI_OP(OP_LAND, "long_and", LREG, LREG, LREG)
MINI_OP(OP_LOR, "long_or", LREG, LREG, LREG)
MINI_OP(OP_LXOR, "long_xor", LREG, LREG, LREG)
MINI_OP(OP_LSHL, "long_shl", LREG, LREG, IREG)
MINI_OP(OP_LSHR, "long_shr", LREG, LREG, IREG)
MINI_OP(OP_LSHR_UN, "long_shr_un", LREG, LREG, IREG)
/* 64 bit opcodes: must be in the same order as the matching CEE_ opcodes: unops_op_map */
MINI_OP(OP_LNEG, "long_neg", LREG, LREG, NONE)
MINI_OP(OP_LNOT, "long_not", LREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_I1,"long_conv_to_i1", IREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_I2,"long_conv_to_i2", IREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_I4,"long_conv_to_i4", IREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_I8,"long_conv_to_i8", LREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_R4,"long_conv_to_r4", FREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_R8,"long_conv_to_r8", FREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_U4,"long_conv_to_u4", IREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_U8,"long_conv_to_u8", LREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_U2, "long_conv_to_u2", IREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_U1, "long_conv_to_u1", IREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_I, "long_conv_to_i", LREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_OVF_I,"long_conv_to_ovf_i", LREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_OVF_U,"long_conv_to_ovf_u", LREG, LREG, NONE)
/* inst_exc_name contains the exception name to throw */
MINI_OP(OP_LADD_OVF, "long_add_ovf", LREG, LREG, LREG)
MINI_OP(OP_LADD_OVF_UN, "long_add_ovf_un", LREG, LREG, LREG)
MINI_OP(OP_LMUL_OVF, "long_mul_ovf", LREG, LREG, LREG)
MINI_OP(OP_LMUL_OVF_UN, "long_mul_ovf_un", LREG, LREG, LREG)
MINI_OP(OP_LSUB_OVF, "long_sub_ovf", LREG, LREG, LREG)
MINI_OP(OP_LSUB_OVF_UN, "long_sub_ovf_un", LREG, LREG, LREG)
MINI_OP(OP_LCONV_TO_OVF_I1_UN,"long_conv_to_ovf_i1_un", LREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_OVF_I2_UN,"long_conv_to_ovf_i2_un", LREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_OVF_I4_UN,"long_conv_to_ovf_i4_un", LREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_OVF_I8_UN,"long_conv_to_ovf_i8_un", LREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_OVF_U1_UN,"long_conv_to_ovf_u1_un", LREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_OVF_U2_UN,"long_conv_to_ovf_u2_un", LREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_OVF_U4_UN,"long_conv_to_ovf_u4_un", LREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_OVF_U8_UN,"long_conv_to_ovf_u8_un", LREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_OVF_I_UN, "long_conv_to_ovf_i_un", LREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_OVF_U_UN, "long_conv_to_ovf_u_un", LREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_OVF_I1,"long_conv_to_ovf_i1", LREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_OVF_U1,"long_conv_to_ovf_u1", LREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_OVF_I2,"long_conv_to_ovf_i2", LREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_OVF_U2,"long_conv_to_ovf_u2", LREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_OVF_I4,"long_conv_to_ovf_i4", LREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_OVF_U4,"long_conv_to_ovf_u4", LREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_OVF_I8,"long_conv_to_ovf_i8", LREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_OVF_U8,"long_conv_to_ovf_u8", LREG, LREG, NONE)
/* mono_decompose_long_opts () depends on the order here */
MINI_OP(OP_LCEQ, "long_ceq", IREG, NONE, NONE)
MINI_OP(OP_LCGT, "long_cgt", IREG, NONE, NONE)
MINI_OP(OP_LCGT_UN,"long_cgt_un", IREG, NONE, NONE)
MINI_OP(OP_LCLT, "long_clt", IREG, NONE, NONE)
MINI_OP(OP_LCLT_UN,"long_clt_un", IREG, NONE, NONE)
MINI_OP(OP_LCONV_TO_R_UN,"long_conv_to_r_un", FREG, LREG, NONE)
MINI_OP(OP_LCONV_TO_U, "long_conv_to_u", IREG, LREG, NONE)
MINI_OP(OP_LADD_IMM, "long_add_imm", LREG, LREG, NONE)
MINI_OP(OP_LSUB_IMM, "long_sub_imm", LREG, LREG, NONE)
MINI_OP(OP_LMUL_IMM, "long_mul_imm", LREG, LREG, NONE)
MINI_OP(OP_LAND_IMM, "long_and_imm", LREG, LREG, NONE)
MINI_OP(OP_LOR_IMM, "long_or_imm", LREG, LREG, NONE)
MINI_OP(OP_LXOR_IMM, "long_xor_imm", LREG, LREG, NONE)
MINI_OP(OP_LSHL_IMM, "long_shl_imm", LREG, LREG, NONE)
MINI_OP(OP_LSHR_IMM, "long_shr_imm", LREG, LREG, NONE)
MINI_OP(OP_LSHR_UN_IMM, "long_shr_un_imm", LREG, LREG, NONE)
MINI_OP(OP_LDIV_IMM, "long_div_imm", LREG, LREG, NONE)
MINI_OP(OP_LDIV_UN_IMM, "long_div_un_imm", LREG, LREG, NONE)
MINI_OP(OP_LREM_IMM, "long_rem_imm", LREG, LREG, NONE)
MINI_OP(OP_LREM_UN_IMM, "long_rem_un_imm", LREG, LREG, NONE)
/* mono_decompose_long_opts () depends on the order here */
MINI_OP(OP_LBEQ, "long_beq", NONE, NONE, NONE)
MINI_OP(OP_LBGE, "long_bge", NONE, NONE, NONE)
MINI_OP(OP_LBGT, "long_bgt", NONE, NONE, NONE)
MINI_OP(OP_LBLE, "long_ble", NONE, NONE, NONE)
MINI_OP(OP_LBLT, "long_blt", NONE, NONE, NONE)
MINI_OP(OP_LBNE_UN, "long_bne_un", NONE, NONE, NONE)
MINI_OP(OP_LBGE_UN, "long_bge_un", NONE, NONE, NONE)
MINI_OP(OP_LBGT_UN, "long_bgt_un", NONE, NONE, NONE)
MINI_OP(OP_LBLE_UN, "long_ble_un", NONE, NONE, NONE)
MINI_OP(OP_LBLT_UN, "long_blt_un", NONE, NONE, NONE)
/* Variants of the original opcodes which take the two parts of the long as two arguments */
MINI_OP(OP_LCONV_TO_R8_2,"long_conv_to_r8_2", FREG, IREG, IREG)
MINI_OP(OP_LCONV_TO_R4_2,"long_conv_to_r4_2", FREG, IREG, IREG)
MINI_OP(OP_LCONV_TO_R_UN_2,"long_conv_to_r_un_2", FREG, IREG, IREG)
MINI_OP(OP_LCONV_TO_OVF_I4_2,"long_conv_to_ovf_i4_2", IREG, IREG, IREG)
/* 32 bit opcodes: must be in the same order as the matching CEE_ opcodes: binops_op_map */
MINI_OP(OP_IADD, "int_add", IREG, IREG, IREG)
MINI_OP(OP_ISUB, "int_sub", IREG, IREG, IREG)
MINI_OP(OP_IMUL, "int_mul", IREG, IREG, IREG)
MINI_OP(OP_IDIV, "int_div", IREG, IREG, IREG)
MINI_OP(OP_IDIV_UN, "int_div_un", IREG, IREG, IREG)
MINI_OP(OP_IREM, "int_rem", IREG, IREG, IREG)
MINI_OP(OP_IREM_UN, "int_rem_un", IREG, IREG, IREG)
MINI_OP(OP_IAND, "int_and", IREG, IREG, IREG)
MINI_OP(OP_IOR, "int_or", IREG, IREG, IREG)
MINI_OP(OP_IXOR, "int_xor", IREG, IREG, IREG)
MINI_OP(OP_ISHL, "int_shl", IREG, IREG, IREG)
MINI_OP(OP_ISHR, "int_shr", IREG, IREG, IREG)
MINI_OP(OP_ISHR_UN, "int_shr_un", IREG, IREG, IREG)
/* 32 bit opcodes: must be in the same order as the matching CEE_ opcodes: unops_op_map */
MINI_OP(OP_INEG, "int_neg", IREG, IREG, NONE)
MINI_OP(OP_INOT, "int_not", IREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_I1,"int_conv_to_i1", IREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_I2,"int_conv_to_i2", IREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_I4,"int_conv_to_i4", IREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_I8,"int_conv_to_i8", LREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_R4,"int_conv_to_r4", FREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_R8,"int_conv_to_r8", FREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_U4,"int_conv_to_u4", IREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_U8,"int_conv_to_u8", LREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_R_UN, "int_conv_to_r_un", FREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_U, "int_conv_to_u", IREG, IREG, NONE)
/* 32 bit opcodes: must be in the same order as the matching CEE_ opcodes: ovfops_op_map */
MINI_OP(OP_ICONV_TO_U2, "int_conv_to_u2", IREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_U1, "int_conv_to_u1", IREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_I, "int_conv_to_i", IREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_OVF_I,"int_conv_to_ovf_i", IREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_OVF_U,"int_conv_to_ovf_u", IREG, IREG, NONE)
/* inst_exc_name contains the exception name to throw */
MINI_OP(OP_IADD_OVF, "int_add_ovf", IREG, IREG, IREG)
MINI_OP(OP_IADD_OVF_UN, "int_add_ovf_un", IREG, IREG, IREG)
MINI_OP(OP_IMUL_OVF, "int_mul_ovf", IREG, IREG, IREG)
MINI_OP(OP_IMUL_OVF_UN, "int_mul_ovf_un", IREG, IREG, IREG)
MINI_OP(OP_ISUB_OVF, "int_sub_ovf", IREG, IREG, IREG)
MINI_OP(OP_ISUB_OVF_UN, "int_sub_ovf_un", IREG, IREG, IREG)
/* 32 bit opcodes: must be in the same order as the matching CEE_ opcodes: ovf2ops_op_map */
MINI_OP(OP_ICONV_TO_OVF_I1_UN,"int_conv_to_ovf_i1_un", IREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_OVF_I2_UN,"int_conv_to_ovf_i2_un", IREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_OVF_I4_UN,"int_conv_to_ovf_i4_un", IREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_OVF_I8_UN,"int_conv_to_ovf_i8_un", IREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_OVF_U1_UN,"int_conv_to_ovf_u1_un", IREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_OVF_U2_UN,"int_conv_to_ovf_u2_un", IREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_OVF_U4_UN,"int_conv_to_ovf_u4_un", IREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_OVF_U8_UN,"int_conv_to_ovf_u8_un", IREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_OVF_I_UN, "int_conv_to_ovf_i_un", IREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_OVF_U_UN, "int_conv_to_ovf_u_un", IREG, IREG, NONE)
/* 32 bit opcodes: must be in the same order as the matching CEE_ opcodes: ovf3ops_op_map */
MINI_OP(OP_ICONV_TO_OVF_I1,"int_conv_to_ovf_i1", IREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_OVF_U1,"int_conv_to_ovf_u1", IREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_OVF_I2,"int_conv_to_ovf_i2", IREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_OVF_U2,"int_conv_to_ovf_u2", IREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_OVF_I4,"int_conv_to_ovf_i4", IREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_OVF_U4,"int_conv_to_ovf_u4", IREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_OVF_I8,"int_conv_to_ovf_i8", IREG, IREG, NONE)
MINI_OP(OP_ICONV_TO_OVF_U8,"int_conv_to_ovf_u8", IREG, IREG, NONE)
MINI_OP(OP_IADC, "int_adc", IREG, IREG, IREG)
MINI_OP(OP_IADC_IMM, "int_adc_imm", IREG, IREG, NONE)
MINI_OP(OP_ISBB, "int_sbb", IREG, IREG, IREG)
MINI_OP(OP_ISBB_IMM, "int_sbb_imm", IREG, IREG, NONE)
MINI_OP(OP_IADDCC, "int_addcc", IREG, IREG, IREG)
MINI_OP(OP_ISUBCC, "int_subcc", IREG, IREG, IREG)
MINI_OP(OP_IADD_IMM, "int_add_imm", IREG, IREG, NONE)
MINI_OP(OP_ISUB_IMM, "int_sub_imm", IREG, IREG, NONE)
MINI_OP(OP_IMUL_IMM, "int_mul_imm", IREG, IREG, NONE)
MINI_OP(OP_IDIV_IMM, "int_div_imm", IREG, IREG, NONE)
MINI_OP(OP_IDIV_UN_IMM, "int_div_un_imm", IREG, IREG, NONE)
MINI_OP(OP_IREM_IMM, "int_rem_imm", IREG, IREG, NONE)
MINI_OP(OP_IREM_UN_IMM, "int_rem_un_imm", IREG, IREG, NONE)
MINI_OP(OP_IAND_IMM, "int_and_imm", IREG, IREG, NONE)
MINI_OP(OP_IOR_IMM, "int_or_imm", IREG, IREG, NONE)
MINI_OP(OP_IXOR_IMM, "int_xor_imm", IREG, IREG, NONE)
MINI_OP(OP_ISHL_IMM, "int_shl_imm", IREG, IREG, NONE)
MINI_OP(OP_ISHR_IMM, "int_shr_imm", IREG, IREG, NONE)
MINI_OP(OP_ISHR_UN_IMM, "int_shr_un_imm", IREG, IREG, NONE)
MINI_OP(OP_ICEQ, "int_ceq", IREG, NONE, NONE)
MINI_OP(OP_ICGT, "int_cgt", IREG, NONE, NONE)
MINI_OP(OP_ICGT_UN,"int_cgt_un", IREG, NONE, NONE)
MINI_OP(OP_ICLT, "int_clt", IREG, NONE, NONE)
MINI_OP(OP_ICLT_UN,"int_clt_un", IREG, NONE, NONE)
MINI_OP(OP_ICNEQ, "int_cneq", IREG, NONE, NONE)
MINI_OP(OP_ICGE, "int_cge", IREG, NONE, NONE)
MINI_OP(OP_ICLE, "int_cle", IREG, NONE, NONE)
MINI_OP(OP_ICGE_UN,"int_cge_un", IREG, NONE, NONE)
MINI_OP(OP_ICLE_UN,"int_cle_un", IREG, NONE, NONE)
MINI_OP(OP_IBEQ, "int_beq", NONE, NONE, NONE)
MINI_OP(OP_IBGE, "int_bge", NONE, NONE, NONE)
MINI_OP(OP_IBGT, "int_bgt", NONE, NONE, NONE)
MINI_OP(OP_IBLE, "int_ble", NONE, NONE, NONE)
MINI_OP(OP_IBLT, "int_blt", NONE, NONE, NONE)
MINI_OP(OP_IBNE_UN, "int_bne_un", NONE, NONE, NONE)
MINI_OP(OP_IBGE_UN, "int_bge_un", NONE, NONE, NONE)
MINI_OP(OP_IBGT_UN, "int_bgt_un", NONE, NONE, NONE)
MINI_OP(OP_IBLE_UN, "int_ble_un", NONE, NONE, NONE)
MINI_OP(OP_IBLT_UN, "int_blt_un", NONE, NONE, NONE)
MINI_OP(OP_FBEQ, "float_beq", NONE, NONE, NONE)
MINI_OP(OP_FBGE, "float_bge", NONE, NONE, NONE)
MINI_OP(OP_FBGT, "float_bgt", NONE, NONE, NONE)
MINI_OP(OP_FBLE, "float_ble", NONE, NONE, NONE)
MINI_OP(OP_FBLT, "float_blt", NONE, NONE, NONE)
MINI_OP(OP_FBNE_UN, "float_bne_un", NONE, NONE, NONE)
MINI_OP(OP_FBGE_UN, "float_bge_un", NONE, NONE, NONE)
MINI_OP(OP_FBGT_UN, "float_bgt_un", NONE, NONE, NONE)
MINI_OP(OP_FBLE_UN, "float_ble_un", NONE, NONE, NONE)
MINI_OP(OP_FBLT_UN, "float_blt_un", NONE, NONE, NONE)
MINI_OP(OP_RBEQ, "r4_beq", NONE, NONE, NONE)
MINI_OP(OP_RBGE, "r4_bge", NONE, NONE, NONE)
MINI_OP(OP_RBGT, "r4_bgt", NONE, NONE, NONE)
MINI_OP(OP_RBLE, "r4_ble", NONE, NONE, NONE)
MINI_OP(OP_RBLT, "r4_blt", NONE, NONE, NONE)
MINI_OP(OP_RBNE_UN, "r4_bne_un", NONE, NONE, NONE)
MINI_OP(OP_RBGE_UN, "r4_bge_un", NONE, NONE, NONE)
MINI_OP(OP_RBGT_UN, "r4_bgt_un", NONE, NONE, NONE)
MINI_OP(OP_RBLE_UN, "r4_ble_un", NONE, NONE, NONE)
MINI_OP(OP_RBLT_UN, "r4_blt_un", NONE, NONE, NONE)
/* float opcodes: must be in the same order as the matching CEE_ opcodes: binops_op_map */
MINI_OP(OP_FADD, "float_add", FREG, FREG, FREG)
MINI_OP(OP_FSUB, "float_sub", FREG, FREG, FREG)
MINI_OP(OP_FMUL, "float_mul", FREG, FREG, FREG)
MINI_OP(OP_FDIV, "float_div", FREG, FREG, FREG)
MINI_OP(OP_FDIV_UN,"float_div_un", FREG, FREG, FREG)
MINI_OP(OP_FREM, "float_rem", FREG, FREG, FREG)
MINI_OP(OP_FREM_UN,"float_rem_un", FREG, FREG, FREG)
/* r4 opcodes: must be in the same order as the matching CEE_ opcodes: binops_op_map */
MINI_OP(OP_RADD, "r4_add", FREG, FREG, FREG)
MINI_OP(OP_RSUB, "r4_sub", FREG, FREG, FREG)
MINI_OP(OP_RMUL, "r4_mul", FREG, FREG, FREG)
MINI_OP(OP_RDIV, "r4_div", FREG, FREG, FREG)
MINI_OP(OP_RDIV_UN,"r4_div_un", FREG, FREG, FREG)
MINI_OP(OP_RREM, "r4_rem", FREG, FREG, FREG)
MINI_OP(OP_RREM_UN,"r4_rem_un", FREG, FREG, FREG)
/* float opcodes: must be in the same order as the matching CEE_ opcodes: unops_op_map */
MINI_OP(OP_FNEG, "float_neg", FREG, FREG, NONE)
MINI_OP(OP_FNOT, "float_not", FREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_I1,"float_conv_to_i1", IREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_I2,"float_conv_to_i2", IREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_I4,"float_conv_to_i4", IREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_I8,"float_conv_to_i8", LREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_R4,"float_conv_to_r4", FREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_R8,"float_conv_to_r8", FREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_U4,"float_conv_to_u4", IREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_U8,"float_conv_to_u8", LREG, FREG, NONE)
MINI_OP(OP_RNEG, "r4_neg", FREG, FREG, NONE)
MINI_OP(OP_RNOT, "r4_not", FREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_I1,"r4_conv_to_i1", IREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_I2,"r4_conv_to_i2", IREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_I4,"r4_conv_to_i4", IREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_I8,"r4_conv_to_i8", LREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_R4,"r4_conv_to_r4", FREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_R8,"r4_conv_to_r8", FREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_U4,"r4_conv_to_u4", IREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_U8,"r4_conv_to_u8", LREG, FREG, NONE)
/* float opcodes: must be in the same order as the matching CEE_ opcodes: ovfops_op_map */
MINI_OP(OP_FCONV_TO_U2, "float_conv_to_u2", IREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_U1, "float_conv_to_u1", IREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_I, "float_conv_to_i", IREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_OVF_I,"float_conv_to_ovf_i", IREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_OVF_U,"float_conv_to_ovd_u", IREG, FREG, NONE)
/* float opcodes: must be in the same order as the matching CEE_ opcodes: ovfops_op_map */
MINI_OP(OP_FADD_OVF, "float_add_ovf", FREG, FREG, FREG)
MINI_OP(OP_FADD_OVF_UN, "float_add_ovf_un", FREG, FREG, FREG)
MINI_OP(OP_FMUL_OVF, "float_mul_ovf", FREG, FREG, FREG)
MINI_OP(OP_FMUL_OVF_UN, "float_mul_ovf_un", FREG, FREG, FREG)
MINI_OP(OP_FSUB_OVF, "float_sub_ovf", FREG, FREG, FREG)
MINI_OP(OP_FSUB_OVF_UN, "float_sub_ovf_un", FREG, FREG, FREG)
MINI_OP(OP_FCONV_TO_OVF_I1_UN,"float_conv_to_ovf_i1_un", IREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_OVF_I2_UN,"float_conv_to_ovf_i2_un", IREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_OVF_I4_UN,"float_conv_to_ovf_i4_un", IREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_OVF_I8_UN,"float_conv_to_ovf_i8_un", LREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_OVF_U1_UN,"float_conv_to_ovf_u1_un", IREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_OVF_U2_UN,"float_conv_to_ovf_u2_un", IREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_OVF_U4_UN,"float_conv_to_ovf_u4_un", IREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_OVF_U8_UN,"float_conv_to_ovf_u8_un", LREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_OVF_I_UN, "float_conv_to_ovf_i_un", IREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_OVF_U_UN, "float_conv_to_ovf_u_un", IREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_OVF_I1,"float_conv_to_ovf_i1", IREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_OVF_U1,"float_conv_to_ovf_u1", IREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_OVF_I2,"float_conv_to_ovf_i2", IREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_OVF_U2,"float_conv_to_ovf_u2", IREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_OVF_I4,"float_conv_to_ovf_i4", IREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_OVF_U4,"float_conv_to_ovf_u4", IREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_OVF_I8,"float_conv_to_ovf_i8", LREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_OVF_U8,"float_conv_to_ovf_u8", LREG, FREG, NONE)
/* These do the comparison too */
MINI_OP(OP_FCEQ, "float_ceq", IREG, FREG, FREG)
MINI_OP(OP_FCGT, "float_cgt", IREG, FREG, FREG)
MINI_OP(OP_FCGT_UN,"float_cgt_un", IREG, FREG, FREG)
MINI_OP(OP_FCLT, "float_clt", IREG, FREG, FREG)
MINI_OP(OP_FCLT_UN,"float_clt_un", IREG, FREG, FREG)
MINI_OP(OP_FCNEQ, "float_cneq", IREG, FREG, FREG)
MINI_OP(OP_FCGE, "float_cge", IREG, FREG, FREG)
MINI_OP(OP_FCLE, "float_cle", IREG, FREG, FREG)
MINI_OP(OP_FCEQ_MEMBASE, "float_ceq_membase", IREG, FREG, IREG)
MINI_OP(OP_FCGT_MEMBASE, "float_cgt_membase", IREG, FREG, IREG)
MINI_OP(OP_FCGT_UN_MEMBASE,"float_cgt_un_membase", IREG, FREG, IREG)
MINI_OP(OP_FCLT_MEMBASE, "float_clt_membase", IREG, FREG, IREG)
MINI_OP(OP_FCLT_UN_MEMBASE,"float_clt_un_membase", IREG, FREG, IREG)
MINI_OP(OP_CKFINITE, "ckfinite", FREG, FREG, NONE)
/* r4 opcodes: must be in the same order as the matching CEE_ opcodes: ovfops_op_map */
MINI_OP(OP_RCONV_TO_U2, "r4_conv_to_u2", IREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_U1, "r4_conv_to_u1", IREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_I, "r4_conv_to_i", IREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_OVF_I,"r4_conv_to_ovf_i", IREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_OVF_U,"r4_conv_to_ovd_u", IREG, FREG, NONE)
/* r4 opcodes: must be in the same order as the matching CEE_ opcodes: ovfops_op_map */
MINI_OP(OP_RADD_OVF, "r4_add_ovf", FREG, FREG, FREG)
MINI_OP(OP_RADD_OVF_UN, "r4_add_ovf_un", FREG, FREG, FREG)
MINI_OP(OP_RMUL_OVF, "r4_mul_ovf", FREG, FREG, FREG)
MINI_OP(OP_RMUL_OVF_UN, "r4_mul_ovf_un", FREG, FREG, FREG)
MINI_OP(OP_RSUB_OVF, "r4_sub_ovf", FREG, FREG, FREG)
MINI_OP(OP_RSUB_OVF_UN, "r4_sub_ovf_un", FREG, FREG, FREG)
MINI_OP(OP_RCONV_TO_OVF_I1_UN,"r4_conv_to_ovf_i1_un", IREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_OVF_I2_UN,"r4_conv_to_ovf_i2_un", IREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_OVF_I4_UN,"r4_conv_to_ovf_i4_un", IREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_OVF_I8_UN,"r4_conv_to_ovf_i8_un", IREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_OVF_U1_UN,"r4_conv_to_ovf_u1_un", IREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_OVF_U2_UN,"r4_conv_to_ovf_u2_un", IREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_OVF_U4_UN,"r4_conv_to_ovf_u4_un", IREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_OVF_U8_UN,"r4_conv_to_ovf_u8_un", IREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_OVF_I_UN, "r4_conv_to_ovf_i_un", IREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_OVF_U_UN, "r4_conv_to_ovf_u_un", IREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_OVF_I1,"r4_conv_to_ovf_i1", IREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_OVF_U1,"r4_conv_to_ovf_u1", IREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_OVF_I2,"r4_conv_to_ovf_i2", IREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_OVF_U2,"r4_conv_to_ovf_u2", IREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_OVF_I4,"r4_conv_to_ovf_i4", IREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_OVF_U4,"r4_conv_to_ovf_u4", IREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_OVF_I8,"r4_conv_to_ovf_i8", IREG, FREG, NONE)
MINI_OP(OP_RCONV_TO_OVF_U8,"r4_conv_to_ovf_u8", IREG, FREG, NONE)
/* r4 opcodes: must be in the same order as the matching CEE_ opcodes: ceqops_op_map */
MINI_OP(OP_RCEQ, "r4_ceq", IREG, FREG, FREG)
MINI_OP(OP_RCGT, "r4_cgt", IREG, FREG, FREG)
MINI_OP(OP_RCGT_UN,"r4_cgt_un", IREG, FREG, FREG)
MINI_OP(OP_RCLT, "r4_clt", IREG, FREG, FREG)
MINI_OP(OP_RCLT_UN,"r4_clt_un", IREG, FREG, FREG)
MINI_OP(OP_RCNEQ, "r4_cneq", IREG, FREG, FREG)
MINI_OP(OP_RCGE, "r4_cge", IREG, FREG, FREG)
MINI_OP(OP_RCLE, "r4_cle", IREG, FREG, FREG)
/* Return the low 32 bits of a double vreg */
MINI_OP(OP_FGETLOW32, "float_getlow32", IREG, FREG, NONE)
/* Return the high 32 bits of a double vreg */
MINI_OP(OP_FGETHIGH32, "float_gethigh32", IREG, FREG, NONE)
MINI_OP(OP_JUMP_TABLE, "jump_table", IREG, NONE, NONE)
/* Same as OP_IMUL_OVF_UN, but throws an OutOfMemoryException */
/* Emulated */
MINI_OP(OP_IMUL_OVF_UN_OOM, "int_mul_ovf_un_oom", IREG, IREG, IREG)
MINI_OP(OP_LMUL_OVF_UN_OOM, "long_mul_ovf_un_oom", LREG, LREG, LREG)
/* aot compiler */
MINI_OP(OP_AOTCONST, "aotconst", IREG, NONE, NONE)
MINI_OP(OP_PATCH_INFO, "patch_info", NONE, NONE, NONE)
MINI_OP(OP_GOT_ENTRY, "got_entry", IREG, IREG, NONE)
/* exception related opcodes */
MINI_OP(OP_CALL_HANDLER , "call_handler", NONE, NONE, NONE)
MINI_OP(OP_START_HANDLER , "start_handler", NONE, NONE, NONE)
MINI_OP(OP_ENDFILTER, "endfilter", NONE, IREG, NONE)
MINI_OP(OP_ENDFINALLY, "endfinally", NONE, NONE, NONE)
/*
* Returns the exception object passed to catch clauses in
* by the EH code in a register.
*/
MINI_OP(OP_GET_EX_OBJ, "get_ex_obj", IREG, NONE, NONE)
/* inline (long)int * (long)int */
MINI_OP(OP_BIGMUL, "bigmul", LREG, IREG, IREG)
MINI_OP(OP_BIGMUL_UN, "bigmul_un", LREG, IREG, IREG)
MINI_OP(OP_IMIN_UN, "int_min_un", IREG, IREG, IREG)
MINI_OP(OP_IMAX_UN, "int_max_un", IREG, IREG, IREG)
MINI_OP(OP_LMIN_UN, "long_min_un", LREG, LREG, LREG)
MINI_OP(OP_LMAX_UN, "long_max_un", LREG, LREG, LREG)
MINI_OP(OP_MIN, "min", IREG, IREG, IREG)
MINI_OP(OP_MAX, "max", IREG, IREG, IREG)
MINI_OP(OP_IMIN, "int_min", IREG, IREG, IREG)
MINI_OP(OP_IMAX, "int_max", IREG, IREG, IREG)
MINI_OP(OP_LMIN, "long_min", LREG, LREG, LREG)
MINI_OP(OP_LMAX, "long_max", LREG, LREG, LREG)
MINI_OP(OP_RMAX, "rmax", FREG, FREG, FREG)
MINI_OP(OP_RMIN, "rmin", FREG, FREG, FREG)
MINI_OP(OP_RPOW, "rpow", FREG, FREG, FREG)
MINI_OP(OP_FMAX, "fmax", FREG, FREG, FREG)
MINI_OP(OP_FMIN, "fmin", FREG, FREG, FREG)
MINI_OP(OP_FPOW, "fpow", FREG, FREG, FREG)
MINI_OP(OP_RCOPYSIGN,"rcopysign", FREG, FREG, FREG)
MINI_OP(OP_FCOPYSIGN,"fcopysign", FREG, FREG, FREG)
/* opcodes most architecture have */
MINI_OP(OP_ADC, "adc", IREG, IREG, IREG)
MINI_OP(OP_ADC_IMM, "adc_imm", IREG, IREG, NONE)
MINI_OP(OP_SBB, "sbb", IREG, IREG, IREG)
MINI_OP(OP_SBB_IMM, "sbb_imm", IREG, IREG, NONE)
MINI_OP(OP_ADDCC, "addcc", IREG, IREG, IREG)
MINI_OP(OP_ADDCC_IMM, "addcc_imm", IREG, IREG, NONE)
MINI_OP(OP_SUBCC, "subcc", IREG, IREG, IREG)
MINI_OP(OP_SUBCC_IMM, "subcc_imm", IREG, IREG, NONE)
MINI_OP(OP_BR_REG, "br_reg", NONE, IREG, NONE)
MINI_OP(OP_SEXT_I1, "sext_i1", IREG, IREG, NONE)
MINI_OP(OP_SEXT_I2, "sext_i2", IREG, IREG, NONE)
MINI_OP(OP_SEXT_I4, "sext_i4", LREG, IREG, NONE)
MINI_OP(OP_ZEXT_I1, "zext_i1", IREG, IREG, NONE)
MINI_OP(OP_ZEXT_I2, "zext_i2", IREG, IREG, NONE)
MINI_OP(OP_ZEXT_I4, "zext_i4", LREG, IREG, NONE)
MINI_OP(OP_CNE, "cne", NONE, NONE, NONE)
MINI_OP(OP_TRUNC_I4, "trunc_i4", IREG, LREG, NONE)
/* to implement the upper half of long32 add and sub */
MINI_OP(OP_ADD_OVF_CARRY, "add_ovf_carry", IREG, IREG, IREG)
MINI_OP(OP_SUB_OVF_CARRY, "sub_ovf_carry", IREG, IREG, IREG)
MINI_OP(OP_ADD_OVF_UN_CARRY, "add_ovf_un_carry", IREG, IREG, IREG)
MINI_OP(OP_SUB_OVF_UN_CARRY, "sub_ovf_un_carry", IREG, IREG, IREG)
/* instructions with explicit long arguments to deal with 64-bit ilp32 machines */
MINI_OP(OP_LADDCC, "laddcc", LREG, LREG, LREG)
MINI_OP(OP_LSUBCC, "lsubcc", LREG, LREG, LREG)
/* FP functions usually done by the CPU */
MINI_OP(OP_SIN, "sin", FREG, FREG, NONE)
MINI_OP(OP_COS, "cos", FREG, FREG, NONE)
MINI_OP(OP_ABS, "abs", FREG, FREG, NONE)
MINI_OP(OP_TAN, "tan", FREG, FREG, NONE)
MINI_OP(OP_ATAN, "atan", FREG, FREG, NONE)
MINI_OP(OP_SQRT, "sqrt", FREG, FREG, NONE)
MINI_OP(OP_ROUND, "round", FREG, FREG, NONE)
MINI_OP(OP_CEIL, "ceil", FREG, FREG, NONE)
MINI_OP(OP_FLOOR, "floor", FREG, FREG, NONE)
MINI_OP3(OP_FMA, "fma", FREG, FREG, FREG, FREG)
MINI_OP(OP_SINF, "sinf", FREG, FREG, NONE)
MINI_OP(OP_COSF, "cosf", FREG, FREG, NONE)
MINI_OP(OP_EXPF, "expf", FREG, FREG, NONE)
MINI_OP(OP_EXP, "exp", FREG, FREG, NONE)
MINI_OP(OP_LOG, "log", FREG, FREG, NONE)
MINI_OP(OP_LOG2, "log2", FREG, FREG, NONE)
MINI_OP(OP_LOG2F, "log2f", FREG, FREG, NONE)
MINI_OP(OP_LOG10, "log10", FREG, FREG, NONE)
MINI_OP(OP_LOG10F, "log10f", FREG, FREG, NONE)
MINI_OP(OP_TRUNC, "trunc", FREG, FREG, NONE)
MINI_OP(OP_TRUNCF, "truncf", FREG, FREG, NONE)
MINI_OP(OP_ABSF, "absf", FREG, FREG, NONE)
MINI_OP(OP_SQRTF, "sqrtf", FREG, FREG, NONE)
MINI_OP(OP_CEILF, "ceilf", FREG, FREG, NONE)
MINI_OP(OP_FLOORF, "floorf", FREG, FREG, NONE)
MINI_OP3(OP_FMAF, "fmaf", FREG, FREG, FREG, FREG)
/* Operations that can be computed at constants at JIT time */
MINI_OP(OP_ACOS, "acos", FREG, FREG, NONE)
MINI_OP(OP_SINH, "sinh", FREG, FREG, NONE)
MINI_OP(OP_ACOSH, "acosh", FREG, FREG, NONE)
MINI_OP(OP_ASIN, "asin", FREG, FREG, NONE)
MINI_OP(OP_ASINH, "asinh", FREG, FREG, NONE)
MINI_OP(OP_ATANH, "atanh2", FREG, FREG, NONE)
MINI_OP(OP_CBRT, "cbrt", FREG, FREG, NONE)
MINI_OP(OP_COSH, "cosh", FREG, FREG, NONE)
MINI_OP(OP_TANH, "tanh", FREG, FREG, NONE)
/* to optimize strings */
MINI_OP(OP_STRLEN, "strlen", IREG, IREG, NONE)
MINI_OP(OP_NEWARR, "newarr", IREG, IREG, NONE)
/* Load a readonly length field from [sreg1+inst_imm] */
MINI_OP(OP_LDLEN, "ldlen", IREG, IREG, NONE)
/* inst_p0 is the exception name to throw or NULL */
MINI_OP(OP_BOUNDS_CHECK, "bounds_check", NONE, IREG, IREG)
/* type checks */
MINI_OP(OP_ISINST, "isinst", IREG, IREG, NONE)
MINI_OP(OP_CASTCLASS, "castclass", IREG, IREG, NONE)
/* get adress of element in a 2D array */
MINI_OP(OP_LDELEMA2D, "ldelema2d", NONE, NONE, NONE)
/* inlined small memcpy with constant length */
MINI_OP(OP_MEMCPY, "memcpy", NONE, NONE, NONE)
/* inlined small memset with constant length */
MINI_OP(OP_MEMSET, "memset", NONE, NONE, NONE)
/*
* A RuntimeType object, the result ldtoken+GetTypeFromHandle.
* inst_p0 is a MonoClass.
*/
MINI_OP(OP_RTTYPE, "rttype", IREG, NONE, NONE)
MINI_OP(OP_SAVE_LMF, "save_lmf", NONE, NONE, NONE)
MINI_OP(OP_RESTORE_LMF, "restore_lmf", NONE, NONE, NONE)
MINI_OP3(OP_MEMMOVE, "memmove", NONE, IREG, IREG, IREG)
/* write barrier */
MINI_OP(OP_CARD_TABLE_WBARRIER, "card_table_wbarrier", NONE, IREG, IREG)
/* arch-dep tls access */
MINI_OP(OP_TLS_GET, "tls_get", IREG, NONE, NONE)
MINI_OP(OP_TLS_GET_REG, "tls_get_reg", IREG, IREG, NONE)
/* inst_offset contains the TLS offset */
MINI_OP(OP_TLS_SET, "tls_set", NONE, IREG, NONE)
MINI_OP(OP_TLS_SET_REG, "tls_set_reg", NONE, IREG, IREG)
MINI_OP(OP_LOAD_GOTADDR, "load_gotaddr", IREG, NONE, NONE)
MINI_OP(OP_DUMMY_USE, "dummy_use", NONE, IREG, NONE)
MINI_OP(OP_NOT_REACHED, "not_reached", NONE, NONE, NONE)
MINI_OP(OP_NOT_NULL, "not_null", NONE, IREG, NONE)
/* SIMD opcodes. */
#if defined(TARGET_X86) || defined(TARGET_AMD64) || defined(TARGET_WASM) || defined(TARGET_ARM64)
MINI_OP(OP_ICONV_TO_R4_RAW, "iconv_to_r4_raw", FREG, IREG, NONE)
/* Extract an element from a vector with a constant lane index.
* inst_c0 is the lane index.
* inst_c1 is a MonoTypeEnum representing the element type.
*/
MINI_OP(OP_EXTRACT_I1, "extract_i1", IREG, XREG, NONE)
MINI_OP(OP_EXTRACT_I2, "extract_i2", IREG, XREG, NONE)
MINI_OP(OP_EXTRACT_I4, "extract_i4", IREG, XREG, NONE)
MINI_OP(OP_EXTRACT_I8, "extract_i8", LREG, XREG, NONE)
MINI_OP(OP_EXTRACT_R4, "extract_r4", FREG, XREG, NONE)
MINI_OP(OP_EXTRACT_R8, "extract_r8", FREG, XREG, NONE)
MINI_OP(OP_EXTRACTX_U2, "extractx_u2", IREG, XREG, NONE)
/* Used by LLVM */
MINI_OP(OP_INSERT_I1, "insert_i1", XREG, XREG, IREG)
MINI_OP(OP_INSERT_I2, "insert_i2", XREG, XREG, IREG)
MINI_OP(OP_INSERT_I4, "insert_i4", XREG, XREG, IREG)
MINI_OP(OP_INSERT_I8, "insert_i8", XREG, XREG, LREG)
MINI_OP(OP_INSERT_R4, "insert_r4", XREG, XREG, FREG)
MINI_OP(OP_INSERT_R8, "insert_r8", XREG, XREG, FREG)
/*these slow ops are modeled around the availability of a fast 2 bytes insert op*/
/*insertx_u1_slow takes old value and new value as source regs */
MINI_OP(OP_INSERTX_U1_SLOW, "insertx_u1_slow", XREG, IREG, IREG)
/*insertx_i4_slow takes target xreg and new value as source regs */
MINI_OP(OP_INSERTX_I4_SLOW, "insertx_i4_slow", XREG, XREG, IREG)
MINI_OP(OP_INSERTX_R4_SLOW, "insertx_r4_slow", XREG, XREG, FREG)
MINI_OP(OP_INSERTX_R8_SLOW, "insertx_r8_slow", XREG, XREG, FREG)
MINI_OP(OP_INSERTX_I8_SLOW, "insertx_i8_slow", XREG, XREG, LREG)
MINI_OP(OP_FCONV_TO_R4_X, "fconv_to_r4_x", XREG, FREG, NONE)
MINI_OP(OP_FCONV_TO_R8_X, "fconv_to_r8_x", XREG, FREG, NONE)
MINI_OP(OP_XCONV_R8_TO_I4, "xconv_r8_to_i4", IREG, XREG, NONE)
MINI_OP(OP_ICONV_TO_X, "iconv_to_x", XREG, IREG, NONE)
MINI_OP(OP_EXPAND_I1, "expand_i1", XREG, IREG, NONE)
MINI_OP(OP_EXPAND_I2, "expand_i2", XREG, IREG, NONE)
MINI_OP(OP_EXPAND_I4, "expand_i4", XREG, IREG, NONE)
MINI_OP(OP_EXPAND_R4, "expand_r4", XREG, FREG, NONE)
MINI_OP(OP_EXPAND_I8, "expand_i8", XREG, IREG, NONE)
MINI_OP(OP_EXPAND_R8, "expand_r8", XREG, FREG, NONE)
#endif
#if defined(TARGET_X86) || defined(TARGET_AMD64) || defined(TARGET_WASM)
MINI_OP(OP_ADDPS, "addps", XREG, XREG, XREG)
MINI_OP(OP_DIVPS, "divps", XREG, XREG, XREG)
MINI_OP(OP_MULPS, "mulps", XREG, XREG, XREG)
MINI_OP(OP_SUBPS, "subps", XREG, XREG, XREG)
MINI_OP(OP_MAXPS, "maxps", XREG, XREG, XREG)
MINI_OP(OP_MINPS, "minps", XREG, XREG, XREG)
MINI_OP(OP_COMPPS, "compps", XREG, XREG, XREG)
MINI_OP(OP_ANDPS, "andps", XREG, XREG, XREG)
MINI_OP(OP_ANDNPS, "andnps", XREG, XREG, XREG)
MINI_OP(OP_ORPS, "orps", XREG, XREG, XREG)
MINI_OP(OP_XORPS, "xorps", XREG, XREG, XREG)
MINI_OP(OP_HADDPS, "haddps", XREG, XREG, XREG)
MINI_OP(OP_HSUBPS, "hsubps", XREG, XREG, XREG)
MINI_OP(OP_ADDSUBPS, "addsubps", XREG, XREG, XREG)
MINI_OP(OP_DUPPS_LOW, "dupps_low", XREG, XREG, NONE)
MINI_OP(OP_DUPPS_HIGH, "dupps_high", XREG, XREG, NONE)
MINI_OP(OP_RSQRTPS, "rsqrtps", XREG, XREG, NONE)
MINI_OP(OP_SQRTPS, "sqrtps", XREG, XREG, NONE)
MINI_OP(OP_RCPPS, "rcpps", XREG, XREG, NONE)
MINI_OP(OP_PSHUFLEW_HIGH, "pshuflew_high", XREG, XREG, NONE)
MINI_OP(OP_PSHUFLEW_LOW, "pshuflew_low", XREG, XREG, NONE)
MINI_OP(OP_PSHUFLED, "pshufled", XREG, XREG, NONE)
MINI_OP(OP_SHUFPS, "shufps", XREG, XREG, XREG)
MINI_OP(OP_SHUFPD, "shufpd", XREG, XREG, XREG)
MINI_OP(OP_ADDPD, "addpd", XREG, XREG, XREG)
MINI_OP(OP_DIVPD, "divpd", XREG, XREG, XREG)
MINI_OP(OP_MULPD, "mulpd", XREG, XREG, XREG)
MINI_OP(OP_SUBPD, "subpd", XREG, XREG, XREG)
MINI_OP(OP_MAXPD, "maxpd", XREG, XREG, XREG)
MINI_OP(OP_MINPD, "minpd", XREG, XREG, XREG)
MINI_OP(OP_COMPPD, "comppd", XREG, XREG, XREG)
MINI_OP(OP_ANDPD, "andpd", XREG, XREG, XREG)
MINI_OP(OP_ANDNPD, "andnpd", XREG, XREG, XREG)
MINI_OP(OP_ORPD, "orpd", XREG, XREG, XREG)
MINI_OP(OP_XORPD, "xorpd", XREG, XREG, XREG)
MINI_OP(OP_HADDPD, "haddpd", XREG, XREG, XREG)
MINI_OP(OP_HSUBPD, "hsubpd", XREG, XREG, XREG)
MINI_OP(OP_ADDSUBPD, "addsubpd", XREG, XREG, XREG)
MINI_OP(OP_DUPPD, "duppd", XREG, XREG, NONE)
MINI_OP(OP_SQRTPD, "sqrtpd", XREG, XREG, NONE)
MINI_OP(OP_EXTRACT_MASK, "extract_mask", IREG, XREG, NONE)
MINI_OP(OP_PAND, "pand", XREG, XREG, XREG)
MINI_OP(OP_PANDN, "pandn", XREG, XREG, XREG)
MINI_OP(OP_POR, "por", XREG, XREG, XREG)
MINI_OP(OP_PXOR, "pxor", XREG, XREG, XREG)
MINI_OP(OP_PADDB, "paddb", XREG, XREG, XREG)
MINI_OP(OP_PADDW, "paddw", XREG, XREG, XREG)
MINI_OP(OP_PADDD, "paddd", XREG, XREG, XREG)
MINI_OP(OP_PADDQ, "paddq", XREG, XREG, XREG)
MINI_OP(OP_PSUBB, "psubb", XREG, XREG, XREG)
MINI_OP(OP_PSUBW, "psubw", XREG, XREG, XREG)
MINI_OP(OP_PSUBD, "psubd", XREG, XREG, XREG)
MINI_OP(OP_PSUBQ, "psubq", XREG, XREG, XREG)
MINI_OP(OP_PMAXB_UN, "pmaxb_un", XREG, XREG, XREG)
MINI_OP(OP_PMAXW_UN, "pmaxw_un", XREG, XREG, XREG)
MINI_OP(OP_PMAXD_UN, "pmaxd_un", XREG, XREG, XREG)
MINI_OP(OP_PMAXB, "pmaxb", XREG, XREG, XREG)
MINI_OP(OP_PMAXW, "pmaxw", XREG, XREG, XREG)
MINI_OP(OP_PMAXD, "pmaxd", XREG, XREG, XREG)
MINI_OP(OP_PAVGB_UN, "pavgb_un", XREG, XREG, XREG)
MINI_OP(OP_PAVGW_UN, "pavgw_un", XREG, XREG, XREG)
MINI_OP(OP_PMINB_UN, "pminb_un", XREG, XREG, XREG)
MINI_OP(OP_PMINW_UN, "pminw_un", XREG, XREG, XREG)
MINI_OP(OP_PMIND_UN, "pmind_un", XREG, XREG, XREG)
MINI_OP(OP_PMINB, "pminb", XREG, XREG, XREG)
MINI_OP(OP_PMINW, "pminw", XREG, XREG, XREG)
MINI_OP(OP_PMIND, "pmind", XREG, XREG, XREG)
MINI_OP(OP_PCMPEQB, "pcmpeqb", XREG, XREG, XREG)
MINI_OP(OP_PCMPEQW, "pcmpeqw", XREG, XREG, XREG)
MINI_OP(OP_PCMPEQD, "pcmpeqd", XREG, XREG, XREG)
MINI_OP(OP_PCMPEQQ, "pcmpeqq", XREG, XREG, XREG)
MINI_OP(OP_PCMPGTB, "pcmpgtb", XREG, XREG, XREG)
MINI_OP(OP_PCMPGTW, "pcmpgtw", XREG, XREG, XREG)
MINI_OP(OP_PCMPGTD, "pcmpgtd", XREG, XREG, XREG)
MINI_OP(OP_PCMPGTQ, "pcmpgtq", XREG, XREG, XREG)
MINI_OP(OP_PSUM_ABS_DIFF, "psum_abs_diff", XREG, XREG, XREG)
MINI_OP(OP_UNPACK_LOWB, "unpack_lowb", XREG, XREG, XREG)
MINI_OP(OP_UNPACK_LOWW, "unpack_loww", XREG, XREG, XREG)
MINI_OP(OP_UNPACK_LOWD, "unpack_lowd", XREG, XREG, XREG)
MINI_OP(OP_UNPACK_LOWQ, "unpack_lowq", XREG, XREG, XREG)
MINI_OP(OP_UNPACK_LOWPS, "unpack_lowps", XREG, XREG, XREG)
MINI_OP(OP_UNPACK_LOWPD, "unpack_lowpd", XREG, XREG, XREG)
MINI_OP(OP_UNPACK_HIGHB, "unpack_highb", XREG, XREG, XREG)
MINI_OP(OP_UNPACK_HIGHW, "unpack_highw", XREG, XREG, XREG)
MINI_OP(OP_UNPACK_HIGHD, "unpack_highd", XREG, XREG, XREG)
MINI_OP(OP_UNPACK_HIGHQ, "unpack_highq", XREG, XREG, XREG)
MINI_OP(OP_UNPACK_HIGHPS, "unpack_highps", XREG, XREG, XREG)
MINI_OP(OP_UNPACK_HIGHPD, "unpack_highpd", XREG, XREG, XREG)
MINI_OP(OP_PACKW, "packw", XREG, XREG, XREG)
MINI_OP(OP_PACKD, "packd", XREG, XREG, XREG)
MINI_OP(OP_PACKW_UN, "packw_un", XREG, XREG, XREG)
MINI_OP(OP_PACKD_UN, "packd_un", XREG, XREG, XREG)
MINI_OP(OP_PADDB_SAT, "paddb_sat", XREG, XREG, XREG)
MINI_OP(OP_PADDB_SAT_UN, "paddb_sat_un", XREG, XREG, XREG)
MINI_OP(OP_PADDW_SAT, "paddw_sat", XREG, XREG, XREG)
MINI_OP(OP_PADDW_SAT_UN, "paddw_sat_un", XREG, XREG, XREG)
MINI_OP(OP_PSUBB_SAT, "psubb_sat", XREG, XREG, XREG)
MINI_OP(OP_PSUBB_SAT_UN, "psubb_sat_un", XREG, XREG, XREG)
MINI_OP(OP_PSUBW_SAT, "psubw_sat", XREG, XREG, XREG)
MINI_OP(OP_PSUBW_SAT_UN, "psubw_sat_un", XREG, XREG, XREG)
MINI_OP(OP_PMULW, "pmulw", XREG, XREG, XREG)
MINI_OP(OP_PMULD, "pmuld", XREG, XREG, XREG)
/* Multiplies two 32 bit numbers into a 64 bit one */
MINI_OP(OP_PMULQ, "pmulq", XREG, XREG, XREG)
MINI_OP(OP_PMULW_HIGH_UN, "pmulw_high_un", XREG, XREG, XREG)
MINI_OP(OP_PMULW_HIGH, "pmulw_high", XREG, XREG, XREG)
/*SSE2 Shift ops must have the _reg version right after as code depends on this ordering.*/
MINI_OP(OP_PSHRW, "pshrw", XREG, XREG, NONE)
MINI_OP(OP_PSHRW_REG, "pshrw_reg", XREG, XREG, XREG)
MINI_OP(OP_PSARW, "psarw", XREG, XREG, NONE)
MINI_OP(OP_PSARW_REG, "psarw_reg", XREG, XREG, XREG)
MINI_OP(OP_PSHLW, "pshlw", XREG, XREG, NONE)
MINI_OP(OP_PSHLW_REG, "pshlw_reg", XREG, XREG, XREG)
MINI_OP(OP_PSHRD, "pshrd", XREG, XREG, NONE)
MINI_OP(OP_PSHRD_REG, "pshrd_reg", XREG, XREG, XREG)
MINI_OP(OP_PSHRQ, "pshrq", XREG, XREG, NONE)
MINI_OP(OP_PSHRQ_REG, "pshrq_reg", XREG, XREG, XREG)
MINI_OP(OP_PSARD, "psard", XREG, XREG, NONE)
MINI_OP(OP_PSARD_REG, "psard_reg", XREG, XREG, XREG)
MINI_OP(OP_PSHLD, "pshld", XREG, XREG, NONE)
MINI_OP(OP_PSHLD_REG, "pshld_reg", XREG, XREG, XREG)
MINI_OP(OP_PSHLQ, "pshlq", XREG, XREG, NONE)
MINI_OP(OP_PSHLQ_REG, "pshlq_reg", XREG, XREG, XREG)
MINI_OP(OP_PREFETCH_MEMBASE, "prefetch_membase", NONE, IREG, NONE)
MINI_OP(OP_CVTDQ2PD, "cvtdq2pd", XREG, XREG, NONE)
MINI_OP(OP_CVTDQ2PS, "cvtdq2ps", XREG, XREG, NONE)
MINI_OP(OP_CVTPD2DQ, "cvtpd2dq", XREG, XREG, NONE)
MINI_OP(OP_CVTPD2PS, "cvtpd2ps", XREG, XREG, NONE)
MINI_OP(OP_CVTPS2DQ, "cvtps2dq", XREG, XREG, NONE)
MINI_OP(OP_CVTPS2PD, "cvtps2pd", XREG, XREG, NONE)
MINI_OP(OP_CVTTPD2DQ, "cvttpd2dq", XREG, XREG, NONE)
MINI_OP(OP_CVTTPS2DQ, "cvttps2dq", XREG, XREG, NONE)
/* sse 1 */
/* inst_c1 is target type */
MINI_OP(OP_SSE_LOADU, "sse_loadu", XREG, XREG, NONE)
MINI_OP(OP_SSE_MOVMSK, "sse_movmsk", IREG, XREG, NONE)
MINI_OP(OP_SSE_STORE, "sse_store", NONE, XREG, XREG)
MINI_OP(OP_SSE_STORES, "sse_stores", NONE, XREG, XREG)
MINI_OP(OP_SSE_MOVS, "sse_movs", XREG, XREG, NONE)
MINI_OP(OP_SSE_MOVS2, "sse_movs2", XREG, XREG, XREG)
MINI_OP(OP_SSE_MOVEHL, "sse_movehl", XREG, XREG, XREG)
MINI_OP(OP_SSE_MOVELH, "sse_movelh", XREG, XREG, XREG)
MINI_OP(OP_SSE_UNPACKLO, "sse_unpacklo", XREG, XREG, XREG)
MINI_OP(OP_SSE_UNPACKHI, "sse_unpackhi", XREG, XREG, XREG)
MINI_OP3(OP_SSE_SHUFPS, "sse_shufps", XREG, XREG, XREG, IREG)
MINI_OP(OP_SSE_AND, "sse_and", XREG, XREG, XREG)
MINI_OP(OP_SSE_OR, "sse_or", XREG, XREG, XREG)
MINI_OP(OP_SSE_XOR, "sse_xor", XREG, XREG, XREG)
MINI_OP(OP_SSE_ANDN, "sse_andn", XREG, XREG, XREG)
MINI_OP(OP_SSE_ADDSS, "sse_addss", XREG, XREG, XREG)
MINI_OP(OP_SSE_SUBSS, "sse_subss", XREG, XREG, XREG)
MINI_OP(OP_SSE_DIVSS, "sse_divss", XREG, XREG, XREG)
MINI_OP(OP_SSE_MULSS, "sse_mulss", XREG, XREG, XREG)
MINI_OP(OP_SSE_CMPSS, "sse_cmpss", XREG, XREG, XREG)
MINI_OP(OP_SSE_COMISS, "sse_comiss", IREG, XREG, XREG)
MINI_OP(OP_SSE_UCOMISS, "sse_ucomiss", IREG, XREG, XREG)
MINI_OP(OP_SSE_MOVSS, "sse_movss", XREG, IREG, NONE)
MINI_OP(OP_SSE_MOVSS_STORE, "sse_movss_store", NONE, IREG, XREG)
MINI_OP(OP_SSE_MOVHPS_LOAD, "sse_movhps_load", XREG, XREG, IREG)
MINI_OP(OP_SSE_MOVLPS_LOAD, "sse_movlps_load", XREG, XREG, IREG)
MINI_OP(OP_SSE_MOVHPS_STORE, "sse_movhps_store", NONE, IREG, XREG)
MINI_OP(OP_SSE_MOVLPS_STORE, "sse_movlps_store", NONE, IREG, XREG)
MINI_OP(OP_SSE_MOVNTPS, "sse_movntps", NONE, IREG, XREG)
MINI_OP(OP_SSE_PREFETCHT0, "sse_prefetcht0", NONE, IREG, NONE)
MINI_OP(OP_SSE_PREFETCHT1, "sse_prefetcht1", NONE, IREG, NONE)
MINI_OP(OP_SSE_PREFETCHT2, "sse_prefetcht2", NONE, IREG, NONE)
MINI_OP(OP_SSE_PREFETCHNTA, "sse_prefetchnta", NONE, IREG, NONE)
MINI_OP(OP_SSE_SQRTSS, "sse_sqrtss", XREG, XREG, XREG)
MINI_OP(OP_SSE_RSQRTSS, "sse_rsqrtss", XREG, XREG, XREG)
MINI_OP(OP_SSE_RCPSS, "sse_rcpss", XREG, XREG, XREG)
MINI_OP(OP_SSE_CVTSI2SS, "sse_cvtsi2ss", XREG, XREG, IREG)
MINI_OP(OP_SSE_CVTSI2SS64, "sse_cvtsi2ss64", XREG, XREG, LREG)
/* sse 2 */
MINI_OP(OP_SSE2_PACKUS, "sse2_packus", XREG, XREG, XREG)
MINI_OP(OP_SSE2_SRLI, "sse2_srli", XREG, XREG, XREG)
MINI_OP(OP_SSE2_ADDS, "sse2_adds", XREG, XREG, XREG)
MINI_OP(OP_SSE2_SUBS, "sse2_subs", XREG, XREG, XREG)
MINI_OP(OP_SSE2_CMPSD, "sse2_cmpsd", XREG, XREG, XREG)
MINI_OP(OP_SSE2_COMIEQ_SD, "sse2_comieq_sd", XREG, XREG, XREG)
MINI_OP(OP_SSE2_COMISD, "sse2_comisd", IREG, XREG, XREG)
MINI_OP(OP_SSE2_UCOMISD, "sse2_ucomisd", IREG, XREG, XREG)
MINI_OP(OP_SSE2_ADDSD, "sse2_addsd", XREG, XREG, XREG)
MINI_OP(OP_SSE2_SUBSD, "sse2_subsd", XREG, XREG, XREG)
MINI_OP(OP_SSE2_DIVSD, "sse2_divsd", XREG, XREG, XREG)
MINI_OP(OP_SSE2_MULSD, "sse2_mulsd", XREG, XREG, XREG)
MINI_OP(OP_SSE2_MOVD, "sse2_movd", XREG, IREG, NONE)
MINI_OP(OP_SSE2_MOVQ, "sse2_movq", XREG, IREG, NONE)
MINI_OP(OP_SSE2_MOVUPD, "sse2_movupd", XREG, IREG, NONE)
MINI_OP(OP_SSE2_PSLLDQ, "sse2_pslldq", XREG, XREG, IREG)
MINI_OP(OP_SSE2_PSRLDQ, "sse2_psrldq", XREG, XREG, IREG)
MINI_OP(OP_SSE2_PSRAW_IMM, "sse2_psraw_imm", XREG, XREG, IREG)
MINI_OP(OP_SSE2_PSRAD_IMM, "sse2_psrad_imm", XREG, XREG, IREG)
MINI_OP(OP_SSE2_PSRLW_IMM, "sse2_psrlw_imm", XREG, XREG, IREG)
MINI_OP(OP_SSE2_PSRLD_IMM, "sse2_psrld_imm", XREG, XREG, IREG)
MINI_OP(OP_SSE2_PSRLQ_IMM, "sse2_psrlq_imm", XREG, XREG, IREG)
MINI_OP(OP_SSE2_PSHUFD, "sse2_pshufd", XREG, XREG, IREG)
MINI_OP(OP_SSE2_PSHUFHW, "sse2_pshufhw", XREG, XREG, IREG)
MINI_OP(OP_SSE2_PSHUFLW, "sse2_pshuflw", XREG, XREG, IREG)
MINI_OP3(OP_SSE2_SHUFPD, "sse2_shufpd", XREG, XREG, XREG, IREG)
MINI_OP(OP_SSE2_MOVHPD_LOAD, "sse2_movhpd_load", XREG, XREG, IREG)
MINI_OP(OP_SSE2_MOVLPD_LOAD, "sse2_movlpd_load", XREG, XREG, IREG)
MINI_OP(OP_SSE2_MOVHPD_STORE, "sse2_movhpd_store", NONE, IREG, XREG)
MINI_OP(OP_SSE2_MOVLPD_STORE, "sse2_movlpd_store", NONE, IREG, XREG)
MINI_OP(OP_SSE2_SQRTSD, "sse2_sqrtsd", XREG, XREG, XREG)
MINI_OP(OP_SSE2_CVTSI2SD, "sse2_cvtsi2sd", XREG, XREG, IREG)
MINI_OP(OP_SSE2_CVTSI2SD64, "sse2_cvtsi2sd64", XREG, XREG, LREG)
MINI_OP(OP_SSE2_CVTSS2SD, "sse2_cvtsd2sd", XREG, XREG, XREG)
MINI_OP(OP_SSE2_PMULUDQ, "sse2_pmuludq", XREG, XREG, XREG)
MINI_OP3(OP_SSE2_MASKMOVDQU, "sse2_maskmovdqu", NONE, XREG, XREG, IREG)
/* sse 3 */
MINI_OP(OP_SSE3_MOVDDUP, "sse3_movddup", XREG, XREG, NONE)
MINI_OP(OP_SSE3_MOVSHDUP, "sse3_movshdup", XREG, XREG, NONE)
MINI_OP(OP_SSE3_MOVSLDUP, "sse3_movsldup", XREG, XREG, NONE)
MINI_OP(OP_SSE3_MOVDDUP_MEM, "sse3_movddup_mem", XREG, IREG, NONE)
/* ssse 3 */
MINI_OP(OP_SSSE3_ABS, "ssse3_abs", XREG, XREG, NONE)
MINI_OP(OP_SSSE3_SHUFFLE, "ssse3_shuffle", XREG, XREG, XREG)
MINI_OP3(OP_SSSE3_ALIGNR, "ssse3_alignr", XREG, XREG, XREG, IREG)
/* sse 4.1 */
MINI_OP(OP_SSE41_ROUNDP, "roundp", XREG, XREG, NONE) // packed, inst_c0 - mode, inst_c1 - r4 or r8
MINI_OP(OP_SSE41_ROUNDS, "sse41_rounds", XREG, XREG, XREG) // scalar, inst_c0 - mode, inst_c1 - r4 or r8
MINI_OP3(OP_SSE41_INSERTPS, "sse41_insertps", XREG, XREG, XREG, IREG)
MINI_OP3(OP_SSE41_BLENDV, "sse41_blendv", XREG, XREG, XREG, XREG)
MINI_OP3(OP_SSE41_BLEND, "sse41_blend", XREG, XREG, XREG, IREG)
MINI_OP(OP_SSE41_LOADANT, "sse41_loadant", XREG, XREG, NONE)
MINI_OP(OP_SSE41_MUL, "sse41_mul", XREG, XREG, XREG)
MINI_OP(OP_SSE41_MULLO, "sse41_mullo", XREG, XREG, XREG)
MINI_OP(OP_SSE_CVTII, "sse_cvtii", XREG, XREG, NONE)
MINI_OP3(OP_SSE41_DPPS, "sse41_dpps", XREG, XREG, XREG, IREG)
MINI_OP3(OP_SSE41_DPPD, "sse41_dppd", XREG, XREG, XREG, IREG)
MINI_OP3(OP_SSE41_MPSADBW, "sse41_mpsadbw", XREG, XREG, XREG, IREG)
/* pclmulqdq */
MINI_OP3(OP_PCLMULQDQ, "pclmulqdq", XREG, XREG, XREG, IREG)
/* aes */
MINI_OP(OP_AES_KEYGENASSIST, "aes_keygen", XREG, XREG, IREG)
/* sse 4.2 */
MINI_OP(OP_SSE42_CRC32, "sse42_crc32", IREG, IREG, IREG)
MINI_OP(OP_SSE42_CRC64, "sse42_crc64", LREG, LREG, LREG)
MINI_OP(OP_SSE42_PTESTZ, "sse42_ptestc", IREG, XREG, XREG)
/* Intel BMI1 */
/* Count trailing zeroes, return 32/64 if the input is 0 */
MINI_OP(OP_CTTZ32, "cttz32", IREG, IREG, NONE)
MINI_OP(OP_CTTZ64, "cttz64", LREG, LREG, NONE)
MINI_OP(OP_BMI1_BEXTR32, "bmi1_bextr32", IREG, IREG, IREG)
MINI_OP(OP_BMI1_BEXTR64, "bmi1_bextr64", LREG, LREG, LREG)
/* Intel BMI2 */
MINI_OP(OP_BZHI32, "bzhi32", IREG, IREG, IREG)
MINI_OP(OP_BZHI64, "bzhi64", LREG, LREG, LREG)
MINI_OP(OP_PEXT32, "pext32", IREG, IREG, IREG)
MINI_OP(OP_PEXT64, "pext64", LREG, LREG, LREG)
MINI_OP(OP_PDEP32, "pdep32", IREG, IREG, IREG)
MINI_OP(OP_PDEP64, "pdep64", LREG, LREG, LREG)
MINI_OP(OP_MULX_H32, "mulxh32", IREG, IREG, IREG)
MINI_OP(OP_MULX_H64, "mulxh64", LREG, LREG, LREG)
MINI_OP3(OP_MULX_HL32, "mulxhl32", IREG, IREG, IREG, IREG)
MINI_OP3(OP_MULX_HL64, "mulxhl64", LREG, LREG, LREG, LREG)
#endif
MINI_OP(OP_CREATE_SCALAR_UNSAFE, "create_scalar_unsafe", XREG, XREG, NONE)
MINI_OP(OP_CREATE_SCALAR, "create_scalar", XREG, XREG, NONE)
MINI_OP(OP_XMOVE, "xmove", XREG, XREG, NONE)
MINI_OP(OP_XZERO, "xzero", XREG, NONE, NONE)
MINI_OP(OP_XONES, "xones", XREG, NONE, NONE)
MINI_OP(OP_XPHI, "xphi", XREG, NONE, NONE)
/*
* These are used for efficient implementation of the
* atomic methods on Interlocked, Volatile, and Thread.
* This is done only on architectures that support it,
* as per mono_arch_opcode_supported ().
*
* Note that while the 32-bit variants are used on
* both 32-bit and 64-bit systems, the 64-bit variants
* are only used if the system is 64-bit. If that is
* not the case, the fallback code in the runtime is
* used instead. This is done because decomposing the
* 64-bit variants to instructions operating on 32-bit
* registers is very complicated on some architectures.
*
* For memory_barrier and load/store instructions, the
* inst.backend.memory_barrier_kind field indicates
* which semantics to use.
*
* Where relevant, all of these return the new value at
* the given memory location after performing the
* operation.
*/
MINI_OP(OP_MEMORY_BARRIER, "memory_barrier", NONE, NONE, NONE)
MINI_OP(OP_ATOMIC_LOAD_I1, "atomic_load_i1", IREG, IREG, NONE)
MINI_OP(OP_ATOMIC_LOAD_I2, "atomic_load_i2", IREG, IREG, NONE)
MINI_OP(OP_ATOMIC_LOAD_I4, "atomic_load_i4", IREG, IREG, NONE)
MINI_OP(OP_ATOMIC_LOAD_I8, "atomic_load_i8", IREG, IREG, NONE)
MINI_OP(OP_ATOMIC_LOAD_U1, "atomic_load_u1", IREG, IREG, NONE)
MINI_OP(OP_ATOMIC_LOAD_U2, "atomic_load_u2", IREG, IREG, NONE)
MINI_OP(OP_ATOMIC_LOAD_U4, "atomic_load_u4", IREG, IREG, NONE)
MINI_OP(OP_ATOMIC_LOAD_U8, "atomic_load_u8", IREG, IREG, NONE)
MINI_OP(OP_ATOMIC_LOAD_R4, "atomic_load_r4", FREG, IREG, NONE)
MINI_OP(OP_ATOMIC_LOAD_R8, "atomic_load_r8", FREG, IREG, NONE)
MINI_OP(OP_ATOMIC_STORE_I1, "atomic_store_i1", IREG, IREG, NONE)
MINI_OP(OP_ATOMIC_STORE_I2, "atomic_store_i2", IREG, IREG, NONE)
MINI_OP(OP_ATOMIC_STORE_I4, "atomic_store_i4", IREG, IREG, NONE)
MINI_OP(OP_ATOMIC_STORE_I8, "atomic_store_i8", IREG, IREG, NONE)
MINI_OP(OP_ATOMIC_STORE_U1, "atomic_store_u1", IREG, IREG, NONE)
MINI_OP(OP_ATOMIC_STORE_U2, "atomic_store_u2", IREG, IREG, NONE)
MINI_OP(OP_ATOMIC_STORE_U4, "atomic_store_u4", IREG, IREG, NONE)
MINI_OP(OP_ATOMIC_STORE_U8, "atomic_store_u8", IREG, IREG, NONE)
MINI_OP(OP_ATOMIC_STORE_R4, "atomic_store_r4", IREG, FREG, NONE)
MINI_OP(OP_ATOMIC_STORE_R8, "atomic_store_r8", IREG, FREG, NONE)
MINI_OP(OP_ATOMIC_ADD_I4, "atomic_add_i4", IREG, IREG, IREG)
MINI_OP(OP_ATOMIC_ADD_I8, "atomic_add_i8", IREG, IREG, IREG)
MINI_OP(OP_ATOMIC_AND_I4, "atomic_and_i4", IREG, IREG, IREG)
MINI_OP(OP_ATOMIC_AND_I8, "atomic_and_i8", IREG, IREG, IREG)
MINI_OP(OP_ATOMIC_OR_I4, "atomic_or_i4", IREG, IREG, IREG)
MINI_OP(OP_ATOMIC_OR_I8, "atomic_or_i8", IREG, IREG, IREG)
MINI_OP(OP_ATOMIC_EXCHANGE_I4, "atomic_exchange_i4", IREG, IREG, IREG)
MINI_OP(OP_ATOMIC_EXCHANGE_I8, "atomic_exchange_i8", IREG, IREG, IREG)
MINI_OP3(OP_ATOMIC_CAS_I4, "atomic_cas_i4", IREG, IREG, IREG, IREG)
MINI_OP3(OP_ATOMIC_CAS_I8, "atomic_cas_i8", IREG, IREG, IREG, IREG)
/* Conditional move opcodes.
* Must be in the same order as the matching CEE_B... opcodes
* sreg2 will be assigned to dreg if the condition is true.
* sreg1 should be equal to dreg and models the fact the instruction doesn't necessary
* modify dreg. The sreg1==dreg condition could be violated by SSA, so the local
* register allocator or the code generator should generate a mov dreg, sreg1 before
* the cmov in those cases.
* These opcodes operate on pointer sized values.
*/
MINI_OP(OP_CMOV_IEQ, "cmov_ieq", IREG, IREG, IREG)
MINI_OP(OP_CMOV_IGE, "cmov_ige", IREG, IREG, IREG)
MINI_OP(OP_CMOV_IGT, "cmov_igt", IREG, IREG, IREG)
MINI_OP(OP_CMOV_ILE, "cmov_ile", IREG, IREG, IREG)
MINI_OP(OP_CMOV_ILT, "cmov_ilt", IREG, IREG, IREG)
MINI_OP(OP_CMOV_INE_UN, "cmov_ine_un", IREG, IREG, IREG)
MINI_OP(OP_CMOV_IGE_UN, "cmov_ige_un", IREG, IREG, IREG)
MINI_OP(OP_CMOV_IGT_UN, "cmov_igt_un", IREG, IREG, IREG)
MINI_OP(OP_CMOV_ILE_UN, "cmov_ile_un", IREG, IREG, IREG)
MINI_OP(OP_CMOV_ILT_UN, "cmov_ilt_un", IREG, IREG, IREG)
MINI_OP(OP_CMOV_LEQ, "cmov_leq", IREG, IREG, IREG)
MINI_OP(OP_CMOV_LGE, "cmov_lge", IREG, IREG, IREG)
MINI_OP(OP_CMOV_LGT, "cmov_lgt", IREG, IREG, IREG)
MINI_OP(OP_CMOV_LLE, "cmov_lle", IREG, IREG, IREG)
MINI_OP(OP_CMOV_LLT, "cmov_llt", IREG, IREG, IREG)
MINI_OP(OP_CMOV_LNE_UN, "cmov_lne_un", IREG, IREG, IREG)
MINI_OP(OP_CMOV_LGE_UN, "cmov_lge_un", IREG, IREG, IREG)
MINI_OP(OP_CMOV_LGT_UN, "cmov_lgt_un", IREG, IREG, IREG)
MINI_OP(OP_CMOV_LLE_UN, "cmov_lle_un", IREG, IREG, IREG)
MINI_OP(OP_CMOV_LLT_UN, "cmov_llt_un", IREG, IREG, IREG)
/* Debugging support */
/*
* Marks the start of the live range of the variable in inst_c0, that is the
* first instruction where the variable has a value.
*/
MINI_OP(OP_LIVERANGE_START, "liverange_start", NONE, NONE, NONE)
/*
* Marks the end of the live range of the variable in inst_c0, that is the
* first instruction where the variable no longer has a value.
*/
MINI_OP(OP_LIVERANGE_END, "liverange_end", NONE, NONE, NONE)
/* GC support */
/*
* mono_arch_output_basic_block () will set the backend.pc_offset field to the current pc
* offset.
*/
MINI_OP(OP_GC_LIVENESS_DEF, "gc_liveness_def", NONE, NONE, NONE)
MINI_OP(OP_GC_LIVENESS_USE, "gc_liveness_use", NONE, NONE, NONE)
/*
* This marks the location inside a basic block where a GC tracked spill slot has been
* defined. The spill slot is assumed to be alive until the end of the bblock.
*/
MINI_OP(OP_GC_SPILL_SLOT_LIVENESS_DEF, "gc_spill_slot_liveness_def", NONE, NONE, NONE)
/*
* This marks the location inside a basic block where a GC tracked param area slot has
* been defined. The slot is assumed to be alive until the next call.
*/
MINI_OP(OP_GC_PARAM_SLOT_LIVENESS_DEF, "gc_param_slot_liveness_def", NONE, NONE, NONE)
MINI_OP(OP_GC_SAFE_POINT, "gc_safe_point", NONE, IREG, NONE)
/*
* Check if the class given by sreg1 was inited, if not, call
* mono_generic_class_init_trampoline () though a trampoline.
* Since the trampoline saves all registers, this doesn't clobber
* any registers.
*/
MINI_OP(OP_GENERIC_CLASS_INIT, "generic_class_init", NONE, IREG, NONE)
/* Arch specific opcodes */
#if defined(TARGET_X86) || defined(TARGET_AMD64)
MINI_OP(OP_X86_TEST_NULL, "x86_test_null", NONE, IREG, NONE)
MINI_OP(OP_X86_COMPARE_MEMBASE_REG,"x86_compare_membase_reg", NONE, IREG, IREG)
MINI_OP(OP_X86_COMPARE_MEMBASE_IMM,"x86_compare_membase_imm", NONE, IREG, NONE)
MINI_OP(OP_X86_COMPARE_MEM_IMM, "x86_compare_mem_imm", NONE, NONE, NONE)
MINI_OP(OP_X86_COMPARE_MEMBASE8_IMM,"x86_compare_membase8_imm", NONE, IREG, NONE)
MINI_OP(OP_X86_COMPARE_REG_MEMBASE,"x86_compare_reg_membase", NONE, IREG, IREG)
MINI_OP(OP_X86_INC_REG, "x86_inc_reg", IREG, IREG, NONE)
MINI_OP(OP_X86_INC_MEMBASE, "x86_inc_membase", NONE, IREG, NONE)
MINI_OP(OP_X86_DEC_REG, "x86_dec_reg", IREG, IREG, NONE)
MINI_OP(OP_X86_DEC_MEMBASE, "x86_dec_membase", NONE, IREG, NONE)
MINI_OP(OP_X86_ADD_MEMBASE_IMM, "x86_add_membase_imm", NONE, IREG, NONE)
MINI_OP(OP_X86_SUB_MEMBASE_IMM, "x86_sub_membase_imm", NONE, IREG, NONE)
MINI_OP(OP_X86_AND_MEMBASE_IMM, "x86_and_membase_imm", NONE, IREG, NONE)
MINI_OP(OP_X86_OR_MEMBASE_IMM, "x86_or_membase_imm", NONE, IREG, NONE)
MINI_OP(OP_X86_XOR_MEMBASE_IMM, "x86_xor_membase_imm", NONE, IREG, NONE)
MINI_OP(OP_X86_ADD_MEMBASE_REG, "x86_add_membase_reg", NONE, IREG, IREG)
MINI_OP(OP_X86_SUB_MEMBASE_REG, "x86_sub_membase_reg", NONE, IREG, IREG)
MINI_OP(OP_X86_AND_MEMBASE_REG, "x86_and_membase_reg", NONE, IREG, IREG)
MINI_OP(OP_X86_OR_MEMBASE_REG, "x86_or_membase_reg", NONE, IREG, IREG)
MINI_OP(OP_X86_XOR_MEMBASE_REG, "x86_xor_membase_reg", NONE, IREG, IREG)
MINI_OP(OP_X86_MUL_MEMBASE_REG, "x86_mul_membase_reg", NONE, IREG, IREG)
MINI_OP(OP_X86_ADD_REG_MEMBASE, "x86_add_reg_membase", IREG, IREG, IREG)
MINI_OP(OP_X86_SUB_REG_MEMBASE, "x86_sub_reg_membase", IREG, IREG, IREG)
MINI_OP(OP_X86_MUL_REG_MEMBASE, "x86_mul_reg_membase", IREG, IREG, IREG)
MINI_OP(OP_X86_AND_REG_MEMBASE, "x86_and_reg_membase", IREG, IREG, IREG)
MINI_OP(OP_X86_OR_REG_MEMBASE, "x86_or_reg_membase", IREG, IREG, IREG)
MINI_OP(OP_X86_XOR_REG_MEMBASE, "x86_xor_reg_membase", IREG, IREG, IREG)
MINI_OP(OP_X86_PUSH_MEMBASE, "x86_push_membase", NONE, IREG, NONE)
MINI_OP(OP_X86_PUSH_IMM, "x86_push_imm", NONE, NONE, NONE)
MINI_OP(OP_X86_PUSH, "x86_push", NONE, IREG, NONE)
MINI_OP(OP_X86_PUSH_OBJ, "x86_push_obj", NONE, IREG, NONE)
MINI_OP(OP_X86_PUSH_GOT_ENTRY, "x86_push_got_entry", NONE, IREG, NONE)
MINI_OP(OP_X86_LEA, "x86_lea", IREG, IREG, IREG)
MINI_OP(OP_X86_LEA_MEMBASE, "x86_lea_membase", IREG, IREG, NONE)
MINI_OP(OP_X86_XCHG, "x86_xchg", NONE, IREG, IREG)
MINI_OP(OP_X86_FPOP, "x86_fpop", NONE, FREG, NONE)
MINI_OP(OP_X86_FP_LOAD_I8, "x86_fp_load_i8", FREG, IREG, NONE)
MINI_OP(OP_X86_FP_LOAD_I4, "x86_fp_load_i4", FREG, IREG, NONE)
MINI_OP(OP_X86_SETEQ_MEMBASE, "x86_seteq_membase", NONE, IREG, NONE)
MINI_OP(OP_X86_SETNE_MEMBASE, "x86_setne_membase", NONE, IREG, NONE)
MINI_OP(OP_X86_FXCH, "x86_fxch", NONE, NONE, NONE)
MINI_OP(OP_X86_BSF32, "x86_bsf32", IREG, IREG, NONE)
MINI_OP(OP_X86_BSR32, "x86_bsr32", IREG, IREG, NONE)
MINI_OP(OP_X86_BSF64, "x86_bsf64", LREG, LREG, NONE)
MINI_OP(OP_X86_BSR64, "x86_bsr64", LREG, LREG, NONE)
#endif
#if defined(TARGET_AMD64)
MINI_OP(OP_AMD64_TEST_NULL, "amd64_test_null", NONE, IREG, NONE)
MINI_OP(OP_AMD64_SET_XMMREG_R4, "amd64_set_xmmreg_r4", FREG, FREG, NONE)
MINI_OP(OP_AMD64_SET_XMMREG_R8, "amd64_set_xmmreg_r8", FREG, FREG, NONE)
MINI_OP(OP_AMD64_ICOMPARE_MEMBASE_REG, "amd64_icompare_membase_reg", NONE, IREG, IREG)
MINI_OP(OP_AMD64_ICOMPARE_MEMBASE_IMM, "amd64_icompare_membase_imm", NONE, IREG, NONE)
MINI_OP(OP_AMD64_ICOMPARE_REG_MEMBASE, "amd64_icompare_reg_membase", NONE, IREG, IREG)
MINI_OP(OP_AMD64_COMPARE_MEMBASE_REG, "amd64_compare_membase_reg", NONE, IREG, IREG)
MINI_OP(OP_AMD64_COMPARE_MEMBASE_IMM, "amd64_compare_membase_imm", NONE, IREG, NONE)
MINI_OP(OP_AMD64_COMPARE_REG_MEMBASE, "amd64_compare_reg_membase", NONE, IREG, IREG)
MINI_OP(OP_AMD64_ADD_MEMBASE_REG, "amd64_add_membase_reg", NONE, IREG, IREG)
MINI_OP(OP_AMD64_SUB_MEMBASE_REG, "amd64_sub_membase_reg", NONE, IREG, IREG)
MINI_OP(OP_AMD64_AND_MEMBASE_REG, "amd64_and_membase_reg", NONE, IREG, IREG)
MINI_OP(OP_AMD64_OR_MEMBASE_REG, "amd64_or_membase_reg", NONE, IREG, IREG)
MINI_OP(OP_AMD64_XOR_MEMBASE_REG, "amd64_xor_membase_reg", NONE, IREG, IREG)
MINI_OP(OP_AMD64_MUL_MEMBASE_REG, "amd64_mul_membase_reg", NONE, IREG, IREG)
MINI_OP(OP_AMD64_ADD_MEMBASE_IMM, "amd64_add_membase_imm", NONE, IREG, NONE)
MINI_OP(OP_AMD64_SUB_MEMBASE_IMM, "amd64_sub_membase_imm", NONE, IREG, NONE)
MINI_OP(OP_AMD64_AND_MEMBASE_IMM, "amd64_and_membase_imm", NONE, IREG, NONE)
MINI_OP(OP_AMD64_OR_MEMBASE_IMM, "amd64_or_membase_imm", NONE, IREG, NONE)
MINI_OP(OP_AMD64_XOR_MEMBASE_IMM, "amd64_xor_membase_imm", NONE, IREG, NONE)
MINI_OP(OP_AMD64_MUL_MEMBASE_IMM, "amd64_mul_membase_imm", NONE, IREG, NONE)
MINI_OP(OP_AMD64_LEA_MEMBASE, "amd64_lea_membase", IREG, IREG, NONE)
MINI_OP(OP_AMD64_ADD_REG_MEMBASE, "amd64_add_reg_membase", IREG, IREG, IREG)
MINI_OP(OP_AMD64_SUB_REG_MEMBASE, "amd64_sub_reg_membase", IREG, IREG, IREG)
MINI_OP(OP_AMD64_AND_REG_MEMBASE, "amd64_and_reg_membase", IREG, IREG, IREG)
MINI_OP(OP_AMD64_OR_REG_MEMBASE, "amd64_or_reg_membase", IREG, IREG, IREG)
MINI_OP(OP_AMD64_XOR_REG_MEMBASE, "amd64_xor_reg_membase", IREG, IREG, IREG)
MINI_OP(OP_AMD64_MUL_REG_MEMBASE, "amd64_mul_reg_membase", IREG, IREG, IREG)
MINI_OP(OP_AMD64_LOADI8_MEMINDEX, "amd64_loadi8_memindex", IREG, IREG, IREG)
MINI_OP(OP_AMD64_SAVE_SP_TO_LMF, "amd64_save_sp_to_lmf", NONE, NONE, NONE)
#endif
#if defined(TARGET_POWERPC)
MINI_OP(OP_PPC_SUBFIC, "ppc_subfic", IREG, IREG, NONE)
MINI_OP(OP_PPC_SUBFZE, "ppc_subfze", IREG, IREG, NONE)
MINI_OP(OP_PPC_CHECK_FINITE, "ppc_check_finite", NONE, IREG, NONE)
MINI_OP(OP_PPC_CEIL, "ppc_ceil", FREG, FREG, NONE)
MINI_OP(OP_PPC_FLOOR, "ppc_floor", FREG, FREG, NONE)
MINI_OP(OP_PPC_TRUNC, "ppc_trunc", FREG, FREG, NONE)
#endif
#if defined(TARGET_ARM) || defined(TARGET_ARM64)
MINI_OP(OP_ARM_RSBS_IMM, "arm_rsbs_imm", IREG, IREG, NONE)
MINI_OP(OP_ARM_RSC_IMM, "arm_rsc_imm", IREG, IREG, NONE)
/* Set dreg to an r4 value */
MINI_OP(OP_ARM_SETFREG_R4, "arm_setfreg_r4", FREG, FREG, NONE)
#endif
#if defined(TARGET_SPARC)
MINI_OP(OP_SPARC_BRZ, "sparc_brz", NONE, NONE, NONE)
MINI_OP(OP_SPARC_BRLEZ, "sparc_brlez", NONE, NONE, NONE)
MINI_OP(OP_SPARC_BRLZ, "sparc_brlz", NONE, NONE, NONE)
MINI_OP(OP_SPARC_BRNZ, "sparc_brnz", NONE, NONE, NONE)
MINI_OP(OP_SPARC_BRGZ, "sparc_brgz", NONE, NONE, NONE)
MINI_OP(OP_SPARC_BRGEZ, "sparc_brgez", NONE, NONE, NONE)
MINI_OP(OP_SPARC_COND_EXC_EQZ, "sparc_cond_exc_eqz", NONE, NONE, NONE)
MINI_OP(OP_SPARC_COND_EXC_GEZ, "sparc_cond_exc_gez", NONE, NONE, NONE)
MINI_OP(OP_SPARC_COND_EXC_GTZ, "sparc_cond_exc_gtz", NONE, NONE, NONE)
MINI_OP(OP_SPARC_COND_EXC_LEZ, "sparc_cond_exc_lez", NONE, NONE, NONE)
MINI_OP(OP_SPARC_COND_EXC_LTZ, "sparc_cond_exc_ltz", NONE, NONE, NONE)
MINI_OP(OP_SPARC_COND_EXC_NEZ, "sparc_cond_exc_nez", NONE, NONE, NONE)
#endif
#if defined(TARGET_S390X)
MINI_OP(OP_S390_LOADARG, "s390_loadarg", NONE, NONE, NONE)
MINI_OP(OP_S390_ARGREG, "s390_argreg", NONE, NONE, NONE)
MINI_OP(OP_S390_ARGPTR, "s390_argptr", NONE, NONE, NONE)
MINI_OP(OP_S390_STKARG, "s390_stkarg", NONE, NONE, NONE)
MINI_OP(OP_S390_MOVE, "s390_move", NONE, IREG, IREG)
MINI_OP(OP_S390_SETF4RET, "s390_setf4ret", FREG, FREG, NONE)
MINI_OP(OP_S390_BKCHAIN, "s390_bkchain", IREG, IREG, NONE)
MINI_OP(OP_S390_LADD, "s390_long_add", LREG, IREG, IREG)
MINI_OP(OP_S390_LADD_OVF, "s390_long_add_ovf", LREG, IREG, IREG)
MINI_OP(OP_S390_LADD_OVF_UN, "s390_long_add_ovf_un", LREG, IREG, IREG)
MINI_OP(OP_S390_LSUB, "s390_long_sub", LREG, IREG, IREG)
MINI_OP(OP_S390_LSUB_OVF, "s390_long_sub_ovf", LREG, IREG, IREG)
MINI_OP(OP_S390_LSUB_OVF_UN, "s390_long_sub_ovf_un", LREG, IREG, IREG)
MINI_OP(OP_S390_LNEG, "s390_long_neg", LREG, IREG, IREG)
MINI_OP(OP_S390_IADD_OVF, "s390_int_add_ovf", IREG, IREG, IREG)
MINI_OP(OP_S390_IADD_OVF_UN, "s390_int_add_ovf_un", IREG, IREG, IREG)
MINI_OP(OP_S390_ISUB_OVF, "s390_int_sub_ovf", IREG, IREG, IREG)
MINI_OP(OP_S390_ISUB_OVF_UN, "s390_int_sub_ovf_un", IREG, IREG, IREG)
MINI_OP(OP_S390_CRJ, "s390_crj", IREG, IREG, IREG)
MINI_OP(OP_S390_CLRJ, "s390_crj_un", IREG, IREG, IREG)
MINI_OP(OP_S390_CGRJ, "s390_cgrj", LREG, LREG, IREG)
MINI_OP(OP_S390_CLGRJ, "s390_cgrj_un", LREG, LREG, IREG)
MINI_OP(OP_S390_CIJ, "s390_cij", IREG, NONE, NONE)
MINI_OP(OP_S390_CLIJ, "s390_cij_un", IREG, IREG, NONE)
MINI_OP(OP_S390_CGIJ, "s390_cgij", LREG, NONE, NONE)
MINI_OP(OP_S390_CLGIJ, "s390_cgij_un", LREG, NONE, NONE)
#endif
#if defined(TARGET_MIPS)
MINI_OP(OP_MIPS_BEQ, "mips_beq", NONE, IREG, IREG)
MINI_OP(OP_MIPS_BGEZ, "mips_bgez", NONE, IREG, NONE)
MINI_OP(OP_MIPS_BGTZ, "mips_bgtz", NONE, IREG, NONE)
MINI_OP(OP_MIPS_BLEZ, "mips_blez", NONE, IREG, NONE)
MINI_OP(OP_MIPS_BLTZ, "mips_bltz", NONE, IREG, NONE)
MINI_OP(OP_MIPS_BNE, "mips_bne", NONE, IREG, IREG)
MINI_OP(OP_MIPS_CVTSD, "mips_cvtsd", FREG, FREG, NONE)
MINI_OP(OP_MIPS_FBEQ, "mips_fbeq", NONE, FREG, FREG)
MINI_OP(OP_MIPS_FBGE, "mips_fbge", NONE, FREG, FREG)
MINI_OP(OP_MIPS_FBGE_UN, "mips_fbge_un", NONE, FREG, FREG)
MINI_OP(OP_MIPS_FBGT, "mips_fbgt", NONE, FREG, FREG)
MINI_OP(OP_MIPS_FBGT_UN, "mips_fbgt_un", NONE, FREG, FREG)
MINI_OP(OP_MIPS_FBLE, "mips_fble", NONE, FREG, FREG)
MINI_OP(OP_MIPS_FBLE_UN, "mips_fble_un", NONE, FREG, FREG)
MINI_OP(OP_MIPS_FBLT, "mips_fblt", NONE, FREG, FREG)
MINI_OP(OP_MIPS_FBLT_UN, "mips_fblt_un", NONE, FREG, FREG)
MINI_OP(OP_MIPS_FBNE, "mips_fbne", NONE, FREG, FREG)
MINI_OP(OP_MIPS_FBFALSE, "mips_fbfalse", NONE, NONE, NONE)
MINI_OP(OP_MIPS_FBTRUE, "mips_fbtrue", NONE, NONE, NONE)
MINI_OP(OP_MIPS_LWC1, "mips_lwc1", NONE, NONE, NONE)
MINI_OP(OP_MIPS_MTC1S, "mips_mtc1_s", FREG, IREG, NONE)
MINI_OP(OP_MIPS_MTC1S_2, "mips_mtc1_s2", FREG, IREG, IREG)
MINI_OP(OP_MIPS_MFC1S, "mips_mfc1_s", IREG, FREG, NONE)
MINI_OP(OP_MIPS_MTC1D, "mips_mtc1_d", FREG, IREG, NONE)
MINI_OP(OP_MIPS_MFC1D, "mips_mfc1_d", IREG, FREG, NONE)
MINI_OP(OP_MIPS_NOP, "mips_nop", NONE, NONE, NONE)
MINI_OP(OP_MIPS_SLTI, "mips_slti", IREG, IREG, NONE)
MINI_OP(OP_MIPS_SLT, "mips_slt", IREG, IREG, IREG)
MINI_OP(OP_MIPS_SLTIU, "mips_sltiu", IREG, IREG, NONE)
MINI_OP(OP_MIPS_SLTU, "mips_sltu", IREG, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_EQ, "mips_cond_exc_eq", NONE, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_GE, "mips_cond_exc_ge", NONE, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_GT, "mips_cond_exc_gt", NONE, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_LE, "mips_cond_exc_le", NONE, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_LT, "mips_cond_exc_lt", NONE, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_NE_UN, "mips_cond_exc_ne_un", NONE, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_GE_UN, "mips_cond_exc_ge_un", NONE, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_GT_UN, "mips_cond_exc_gt_un", NONE, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_LE_UN, "mips_cond_exc_le_un", NONE, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_LT_UN, "mips_cond_exc_lt_un", NONE, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_OV, "mips_cond_exc_ov", NONE, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_NO, "mips_cond_exc_no", NONE, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_C, "mips_cond_exc_c", NONE, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_NC, "mips_cond_exc_nc", NONE, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_IEQ, "mips_cond_exc_ieq", NONE, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_IGE, "mips_cond_exc_ige", NONE, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_IGT, "mips_cond_exc_igt", NONE, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_ILE, "mips_cond_exc_ile", NONE, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_ILT, "mips_cond_exc_ilt", NONE, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_INE_UN, "mips_cond_exc_ine_un", NONE, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_IGE_UN, "mips_cond_exc_ige_un", NONE, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_IGT_UN, "mips_cond_exc_igt_un", NONE, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_ILE_UN, "mips_cond_exc_ile_un", NONE, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_ILT_UN, "mips_cond_exc_ilt_un", NONE, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_IOV, "mips_cond_exc_iov", NONE, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_INO, "mips_cond_exc_ino", NONE, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_IC, "mips_cond_exc_ic", NONE, IREG, IREG)
MINI_OP(OP_MIPS_COND_EXC_INC, "mips_cond_exc_inc", NONE, IREG, IREG)
#endif
#if defined(TARGET_ARM64)
/* Branch if sreg1 == 0 */
MINI_OP(OP_ARM64_CBZW, "arm64_cbzw", NONE, IREG, NONE)
MINI_OP(OP_ARM64_CBZX, "arm64_cbzx", NONE, IREG, NONE)
/* Branch if sreg1 != 0 */
MINI_OP(OP_ARM64_CBNZW, "arm64_cbnzw", NONE, IREG, NONE)
MINI_OP(OP_ARM64_CBNZX, "arm64_cbnzx", NONE, IREG, NONE)
#endif
/* Same as OUTARG_VT, but has a dreg */
MINI_OP(OP_LLVM_OUTARG_VT, "llvm_outarg_vt", IREG, VREG, NONE)
MINI_OP(OP_OBJC_GET_SELECTOR, "objc_get_selector", IREG, NONE, NONE)
MINI_OP(OP_GET_SP, "get_sp", IREG, NONE, NONE)
MINI_OP(OP_SET_SP, "set_sp", NONE, IREG, NONE)
MINI_OP(OP_GET_LAST_ERROR, "get_last_error", IREG, NONE, NONE)
/*
* Fill out a MonoContext contained in a MonoProfilerCallContext. This only
* stores the stack pointer, frame pointer, and callee-saved registers. This
* should be enough to locate arguments and variables.
*/
MINI_OP(OP_FILL_PROF_CALL_CTX, "fill_prof_call_ctx", NONE, IREG, NONE)
/* LLVM only, compare 2 vectors for equality, set dreg to 1/0 */
MINI_OP(OP_XEQUAL, "xequal", IREG, XREG, XREG)
/* Per element compate, inst_c0 contains a CompRelation */
MINI_OP(OP_XCOMPARE, "xcompare", XREG, XREG, XREG)
MINI_OP(OP_XCOMPARE_SCALAR, "xcompare_scalar", XREG, XREG, XREG)
MINI_OP(OP_XCOMPARE_FP, "xcompare_fp", XREG, XREG, XREG)
MINI_OP(OP_XCOMPARE_FP_SCALAR, "xcompare_fp_scalar", XREG, XREG, XREG)
/*
* Generic SIMD operations, the rest of the JIT doesn't care about the exact operation.
*/
MINI_OP(OP_XBINOP, "xbinop", XREG, XREG, XREG)
MINI_OP(OP_XBINOP_FORCEINT, "xbinop_forceint", XREG, XREG, XREG)
MINI_OP(OP_XBINOP_SCALAR, "xbinop_scalar", XREG, XREG, XREG)
MINI_OP(OP_XBINOP_BYSCALAR, "xbinop_byscalar", XREG, XREG, XREG)
/* inst_c0 contains an INTRINS_ enum, inst_c1 might contain additional data */
MINI_OP(OP_XOP, "xop", NONE, NONE, NONE)
MINI_OP(OP_XOP_X_I, "xop_x_i", XREG, IREG, NONE)
MINI_OP(OP_XOP_X_X, "xop_x_x", XREG, XREG, NONE)
MINI_OP(OP_XOP_I4_X, "xop_i4_x", IREG, XREG, NONE)
MINI_OP(OP_XOP_I4_X_X, "xop_i4_x_x", IREG, XREG, XREG)
MINI_OP(OP_XOP_I8_X, "xop_i8_x", LREG, XREG, NONE)
MINI_OP(OP_XOP_X_X_X, "xop_x_x_x", XREG, XREG, XREG)
MINI_OP(OP_XOP_X_X_I4, "xop_x_x_i4", XREG, XREG, IREG)
MINI_OP(OP_XOP_X_X_I8, "xop_x_x_i8", XREG, XREG, LREG)
MINI_OP(OP_XOP_I4_I8, "xop_i4_i8", IREG, LREG, NONE)
MINI_OP(OP_XOP_I8_I8, "xop_i8_i8", LREG, LREG, NONE)
MINI_OP(OP_XOP_I4_I4, "xop_i4_i4", IREG, IREG, NONE)
MINI_OP(OP_XOP_I4_I4_I4, "xop_i4_i4_i4", IREG, IREG, IREG)
MINI_OP(OP_XOP_I4_I4_I8, "xop_i4_i4_i8", IREG, IREG, LREG)
MINI_OP3(OP_XOP_X_X_X_X, "xop_x_x_x_x", XREG, XREG, XREG, XREG)
MINI_OP(OP_XOP_OVR_X_X, "xop_ovr_x_x", XREG, XREG, NONE)
MINI_OP(OP_XOP_OVR_X_X_X, "xop_ovr_x_x_x", XREG, XREG, XREG)
MINI_OP3(OP_XOP_OVR_X_X_X_X, "xop_ovr_x_x_x_x", XREG, XREG, XREG, XREG)
MINI_OP(OP_XOP_OVR_SCALAR_X_X, "xop_ovr_scalar_x_x", XREG, XREG, NONE)
MINI_OP(OP_XOP_OVR_SCALAR_X_X_X, "xop_ovr_scalar_x_x_x", XREG, XREG, XREG)
MINI_OP3(OP_XOP_OVR_SCALAR_X_X_X_X, "xop_ovr_scalar_x_x_x_x", XREG, XREG, XREG, XREG)
MINI_OP(OP_XOP_OVR_BYSCALAR_X_X_X, "xop_ovr_byscalar_x_x_x", XREG, XREG, XREG)
MINI_OP(OP_XCONCAT, "xconcat", XREG, XREG, XREG)
MINI_OP(OP_XCAST, "xcast", XREG, XREG, NONE)
MINI_OP(OP_XLOWER, "xlower", XREG, XREG, NONE)
MINI_OP(OP_XUPPER, "xupper", XREG, XREG, NONE)
MINI_OP(OP_XWIDEN, "xwiden", XREG, XREG, NONE)
MINI_OP(OP_XWIDEN_UNSAFE, "xwiden_unsafe", XREG, XREG, NONE)
MINI_OP(OP_XINSERT_LOWER, "xinsert_lower", XREG, XREG, XREG)
MINI_OP(OP_XINSERT_UPPER, "xinsert_upper", XREG, XREG, XREG)
/* Extract an element from a vector with a variable lane index.
* The index is assumed to be in range.
* inst_c1 is a MonoTypeEnum representing the element type.
*/
MINI_OP(OP_XEXTRACT_I1, "xextract_i1", IREG, XREG, IREG)
MINI_OP(OP_XEXTRACT_I2, "xextract_i2", IREG, XREG, IREG)
MINI_OP(OP_XEXTRACT_I4, "xextract_i4", IREG, XREG, IREG)
MINI_OP(OP_XEXTRACT_I8, "xextract_i8", LREG, XREG, IREG)
MINI_OP(OP_XEXTRACT_R4, "xextract_r4", FREG, XREG, IREG)
MINI_OP(OP_XEXTRACT_R8, "xextract_r8", FREG, XREG, IREG)
/* Insert an element into a vector with a variable lane index.
* sreg1 is the vector, sreg2 is the value, sreg3 is the index.
* inst_c1 is a MonoTypeEnum representing the element type, used to control
* sign/zero extension if conversion of sreg2 happens to be necessary.
* klass must be set to the MonoClass representing the return type of the op.
*/
MINI_OP3(OP_XINSERT_I1, "xinsert_i1", XREG, XREG, IREG, IREG)
MINI_OP3(OP_XINSERT_I2, "xinsert_i2", XREG, XREG, IREG, IREG)
MINI_OP3(OP_XINSERT_I4, "xinsert_i4", XREG, XREG, IREG, IREG)
MINI_OP3(OP_XINSERT_I8, "xinsert_i8", XREG, XREG, LREG, IREG)
MINI_OP3(OP_XINSERT_R4, "xinsert_r4", XREG, XREG, FREG, IREG)
MINI_OP3(OP_XINSERT_R8, "xinsert_r8", XREG, XREG, FREG, IREG)
MINI_OP(OP_LZCNT32, "lzcnt32", IREG, IREG, NONE)
MINI_OP(OP_LZCNT64, "lzcnt64", LREG, LREG, NONE)
MINI_OP(OP_POPCNT32, "popcnt32", IREG, IREG, NONE)
MINI_OP(OP_POPCNT64, "popcnt64", LREG, LREG, NONE)
#if defined(TARGET_ARM64)
MINI_OP(OP_LSCNT32, "lscnt32", IREG, IREG, NONE)
MINI_OP(OP_LSCNT64, "lscnt64", LREG, LREG, NONE)
MINI_OP(OP_ARM64_CLZ, "arm64_clz", XREG, XREG, NONE)
MINI_OP3(OP_ARM64_LD1_INSERT, "arm64_ld1_insert", XREG, IREG, XREG, IREG)
MINI_OP(OP_ARM64_LD1, "arm64_ld1", XREG, IREG, NONE)
MINI_OP(OP_ARM64_LD1R, "arm64_ld1r", XREG, IREG, NONE)
/* Loads two consecutive vector (or scalar) values into a pair of
* vector registers. Returns a ValueTuple in a vreg. klass must be set to the
* MonoClass representing the ValueTuple return type of the op.
*/
MINI_OP(OP_ARM64_LDNP, "arm64_ldnp", VREG, IREG, NONE)
MINI_OP(OP_ARM64_LDNP_SCALAR, "arm64_ldnp_scalar", VREG, IREG, NONE)
MINI_OP(OP_ARM64_LDP, "arm64_ldp", VREG, IREG, NONE)
MINI_OP(OP_ARM64_LDP_SCALAR, "arm64_ldp_scalar", VREG, IREG, NONE)
MINI_OP(OP_ARM64_ST1, "arm64_st1", NONE, IREG, XREG)
MINI_OP(OP_ARM64_SXTL, "arm64_sxtl", XREG, XREG, NONE)
MINI_OP(OP_ARM64_SXTL2, "arm64_sxtl2", XREG, XREG, NONE)
MINI_OP(OP_ARM64_SMULH, "arm64_smulh", LREG, LREG, LREG)
MINI_OP(OP_ARM64_SQRT_SCALAR, "arm64_sqrt_scalar", XREG, XREG, NONE)
MINI_OP(OP_ARM64_TRN1, "arm64_trn1", XREG, XREG, XREG)
MINI_OP(OP_ARM64_TRN2, "arm64_trn2", XREG, XREG, XREG)
MINI_OP(OP_ARM64_UMULH, "arm64_umulh", LREG, LREG, LREG)
MINI_OP(OP_ARM64_UXTL, "arm64_uxtl", XREG, XREG, NONE)
MINI_OP(OP_ARM64_UXTL2, "arm64_uxtl2", XREG, XREG, NONE)
MINI_OP(OP_ARM64_UZP1, "arm64_uzp1", XREG, XREG, XREG)
MINI_OP(OP_ARM64_UZP2, "arm64_uzp2", XREG, XREG, XREG)
MINI_OP(OP_ARM64_ZIP1, "arm64_zip1", XREG, XREG, XREG)
MINI_OP(OP_ARM64_ZIP2, "arm64_zip2", XREG, XREG, XREG)
MINI_OP3(OP_ARM64_ST1_SCALAR, "arm64_st1_scalar", NONE, IREG, XREG, IREG)
MINI_OP3(OP_ARM64_STNP, "arm64_stnp", NONE, IREG, XREG, XREG)
MINI_OP3(OP_ARM64_STNP_SCALAR, "arm64_stnp_scalar", NONE, IREG, XREG, XREG)
MINI_OP3(OP_ARM64_STP, "arm64_stp", NONE, IREG, XREG, XREG)
MINI_OP3(OP_ARM64_STP_SCALAR, "arm64_stp_scalar", NONE, IREG, XREG, XREG)
MINI_OP(OP_ARM64_ADDHN, "arm64_addhn", XREG, XREG, XREG)
MINI_OP3(OP_ARM64_ADDHN2, "arm64_addhn2", XREG, XREG, XREG, XREG)
MINI_OP(OP_ARM64_SUBHN, "arm64_subhn", XREG, XREG, XREG)
MINI_OP3(OP_ARM64_SUBHN2, "arm64_subhn2", XREG, XREG, XREG, XREG)
MINI_OP(OP_ARM64_RADDHN, "arm64_raddhn", XREG, XREG, XREG)
MINI_OP3(OP_ARM64_RADDHN2, "arm64_raddhn2", XREG, XREG, XREG, XREG)
MINI_OP(OP_ARM64_RSUBHN, "arm64_rsubhn", XREG, XREG, XREG)
MINI_OP3(OP_ARM64_RSUBHN2, "arm64_rsubhn2", XREG, XREG, XREG, XREG)
MINI_OP(OP_ARM64_SHRN, "arm64_shrn", XREG, XREG, IREG)
MINI_OP3(OP_ARM64_SHRN2, "arm64_shrn2", XREG, XREG, XREG, IREG)
MINI_OP3(OP_ARM64_SLI, "arm64_sli", XREG, XREG, XREG, IREG)
MINI_OP3(OP_ARM64_SRI, "arm64_sri", XREG, XREG, XREG, IREG)
MINI_OP(OP_ARM64_SRSHR, "arm64_srshr", XREG, XREG, IREG)
MINI_OP(OP_ARM64_URSHR, "arm64_urshr", XREG, XREG, IREG)
MINI_OP3(OP_ARM64_SRSRA, "arm64_srsra", XREG, XREG, XREG, IREG)
MINI_OP3(OP_ARM64_URSRA, "arm64_ursra", XREG, XREG, XREG, IREG)
MINI_OP(OP_ARM64_SHL, "arm64_shl", XREG, XREG, IREG)
MINI_OP(OP_ARM64_SSHR, "arm64_sshr", XREG, XREG, IREG)
MINI_OP(OP_ARM64_USHR, "arm64_ushr", XREG, XREG, IREG)
MINI_OP3(OP_ARM64_USRA, "arm64_usra", XREG, XREG, XREG, IREG)
MINI_OP3(OP_ARM64_SSRA, "arm64_ssra", XREG, XREG, XREG, IREG)
MINI_OP(OP_ARM64_USHLL, "arm64_ushll", XREG, XREG, IREG)
MINI_OP(OP_ARM64_USHLL2, "arm64_ushll2", XREG, XREG, IREG)
MINI_OP(OP_ARM64_SSHLL, "arm64_sshll", XREG, XREG, IREG)
MINI_OP(OP_ARM64_SSHLL2, "arm64_sshll2", XREG, XREG, IREG)
/* Narrowing arm64 shifts that aren't decomposed into urshl or srshl. */
MINI_OP(OP_ARM64_XNSHIFT_SCALAR, "arm64_xrshift_scalar", XREG, XREG, IREG)
MINI_OP(OP_ARM64_XNSHIFT, "arm64_xnshift", XREG, XREG, IREG)
MINI_OP3(OP_ARM64_XNSHIFT2, "arm64_xnshift2", XREG, XREG, XREG, IREG)
MINI_OP(OP_ARM64_SQSHLU, "arm64_sqshlu", XREG, XREG, IREG)
MINI_OP(OP_ARM64_SQSHLU_SCALAR, "arm64_sqshlu_scalar", XREG, XREG, IREG)
MINI_OP(OP_ARM64_REVN, "arm64_revn", XREG, XREG, NONE)
MINI_OP(OP_ARM64_PMULL, "arm64_pmull", XREG, XREG, XREG)
MINI_OP(OP_ARM64_PMULL2, "arm64_pmull2", XREG, XREG, XREG)
MINI_OP(OP_ARM64_XNEG, "arm64_xneg", XREG, XREG, NONE)
MINI_OP(OP_ARM64_XNEG_SCALAR, "arm64_xneg_scalar", XREG, XREG, NONE)
MINI_OP(OP_ARM64_SMULL, "arm64_smull", XREG, XREG, XREG)
MINI_OP(OP_ARM64_SMULL_SCALAR, "arm64_smull_scalar", XREG, XREG, XREG)
MINI_OP(OP_ARM64_SMULL2, "arm64_smull2", XREG, XREG, XREG)
MINI_OP(OP_ARM64_SMULL2_SCALAR, "arm64_smull2_scalar", XREG, XREG, XREG)
MINI_OP(OP_ARM64_UMULL, "arm64_umull", XREG, XREG, XREG)
MINI_OP(OP_ARM64_UMULL_SCALAR, "arm64_umull_scalar", XREG, XREG, XREG)
MINI_OP(OP_ARM64_UMULL2, "arm64_umull2", XREG, XREG, XREG)
MINI_OP(OP_ARM64_UMULL2_SCALAR, "arm64_umull2_scalar", XREG, XREG, XREG)
MINI_OP3(OP_ARM64_SMLAL, "arm64_smlal", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_SMLAL_SCALAR, "arm64_smlal_scalar", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_SMLAL2, "arm64_smlal2", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_SMLAL2_SCALAR, "arm64_smlal2_scalar", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_UMLAL, "arm64_umlal", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_UMLAL_SCALAR, "arm64_umlal_scalar", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_UMLAL2, "arm64_umlal2", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_UMLAL2_SCALAR, "arm64_umlal2_scalar", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_SMLSL, "arm64_smlsl", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_SMLSL_SCALAR, "arm64_smlsl_scalar", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_SMLSL2, "arm64_smlsl2", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_SMLSL2_SCALAR, "arm64_smlsl2_scalar", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_UMLSL, "arm64_umlsl", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_UMLSL_SCALAR, "arm64_umlsl_scalar", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_UMLSL2, "arm64_umlsl2", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_UMLSL2_SCALAR, "arm64_umlsl2_scalar", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_MLS, "arm64_mls", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_MLS_SCALAR, "arm64_mls_scalar", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_MLA, "arm64_mla", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_MLA_SCALAR, "arm64_mla_scalar", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_FMUL_SEL, "arm64_fmul_sel", XREG, XREG, XREG, IREG)
MINI_OP(OP_ARM64_SQDMULL_SCALAR, "arm64_sqdmull_scalar", XREG, XREG, XREG)
MINI_OP3(OP_ARM64_SQDMLSL_SCALAR, "arm64_sqdmlsl_scalar", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_SQDMLAL_SCALAR, "arm64_sqdmlal_scalar", XREG, XREG, XREG, XREG)
MINI_OP(OP_ARM64_SQDMULL, "arm64_sqdmull", XREG, XREG, XREG)
MINI_OP(OP_ARM64_SQDMULL_BYSCALAR, "arm64_sqdmull_byscalar", XREG, XREG, XREG)
MINI_OP(OP_ARM64_SQDMULL2, "arm64_sqdmull2", XREG, XREG, XREG)
MINI_OP(OP_ARM64_SQDMULL2_BYSCALAR, "arm64_sqdmull2_byscalar", XREG, XREG, XREG)
MINI_OP3(OP_ARM64_SQDMLSL, "arm64_sqdmlsl", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_SQDMLSL_BYSCALAR, "arm64_sqdmlsl_byscalar", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_SQDMLAL, "arm64_sqdmlal", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_SQDMLAL_BYSCALAR, "arm64_sqdmlal_byscalar", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_SQDMLSL2, "arm64_sqdmlsl2", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_SQDMLSL2_BYSCALAR, "arm64_sqdmlsl2_byscalar", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_SQDMLAL2, "arm64_sqdmlal2", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_SQDMLAL2_BYSCALAR, "arm64_sqdmlal2_byscalar", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_FMSUB, "arm64_fmsub", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_FMSUB_BYSCALAR, "arm64_fmsub_byscalar", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_FMSUB_SCALAR, "arm64_fmsub_scalar", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_FNMSUB_SCALAR, "arm64_fnmsub_scalar", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_FMADD, "arm64_fmadd", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_FMADD_BYSCALAR, "arm64_fmadd_byscalar", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_FMADD_SCALAR, "arm64_fmadd_scalar", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_FNMADD_SCALAR, "arm64_fnmadd_scalar", XREG, XREG, XREG, XREG)
MINI_OP(OP_ARM64_XTN, "arm64_xtn", XREG, XREG, NONE)
MINI_OP(OP_ARM64_XTN2, "arm64_xtn2", XREG, XREG, XREG)
MINI_OP(OP_ARM64_SQXTN2, "arm64_sqxtn2", XREG, XREG, XREG)
MINI_OP(OP_ARM64_UQXTN2, "arm64_uqxtn2", XREG, XREG, XREG)
MINI_OP(OP_ARM64_SQXTUN2, "arm64_sqxtun2", XREG, XREG, XREG)
MINI_OP(OP_ARM64_SELECT_SCALAR, "arm64_select_scalar", XREG, XREG, IREG)
MINI_OP(OP_ARM64_SELECT_QUAD, "arm64_select_quad", XREG, XREG, IREG)
MINI_OP(OP_ARM64_FCVTZU, "arm64_fcvtzu", XREG, XREG, NONE)
MINI_OP(OP_ARM64_FCVTZS, "arm64_fcvtzs", XREG, XREG, NONE)
MINI_OP(OP_ARM64_FCVTZU_SCALAR, "arm64_fcvtzu_scalar", XREG, XREG, NONE)
MINI_OP(OP_ARM64_FCVTZS_SCALAR, "arm64_fcvtzs_scalar", XREG, XREG, NONE)
MINI_OP(OP_ARM64_UCVTF, "arm64_ucvtf", XREG, XREG, NONE)
MINI_OP(OP_ARM64_SCVTF, "arm64_scvtf", XREG, XREG, NONE)
MINI_OP(OP_ARM64_UCVTF_SCALAR, "arm64_ucvtf_scalar", XREG, XREG, NONE)
MINI_OP(OP_ARM64_SCVTF_SCALAR, "arm64_scvtf_scalar", XREG, XREG, NONE)
MINI_OP(OP_ARM64_FCVTN, "arm64_fcvtn", XREG, XREG, NONE)
MINI_OP(OP_ARM64_FCVTN2, "arm64_fcvtn2", XREG, XREG, XREG)
MINI_OP(OP_ARM64_FCVTXN, "arm64_fcvtxn", XREG, XREG, NONE)
MINI_OP(OP_ARM64_FCVTXN2, "arm64_fcvtxn2", XREG, XREG, XREG)
MINI_OP(OP_ARM64_FCVTL, "arm64_fcvtl", XREG, XREG, NONE)
MINI_OP(OP_ARM64_FCVTL2, "arm64_fcvtl2", XREG, XREG, NONE)
MINI_OP(OP_ARM64_CMTST, "arm64_cmtst", XREG, XREG, XREG)
MINI_OP3(OP_ARM64_BSL, "arm64_bsl", XREG, XREG, XREG, XREG)
MINI_OP(OP_ARM64_BIC, "arm64_bic", XREG, XREG, XREG)
MINI_OP(OP_ARM64_MVN, "arm64_mvn", XREG, XREG, NONE)
MINI_OP(OP_ARM64_SADD, "arm64_sadd", XREG, XREG, XREG)
MINI_OP(OP_ARM64_SADD2, "arm64_sadd2", XREG, XREG, XREG)
MINI_OP(OP_ARM64_UADD, "arm64_uadd", XREG, XREG, XREG)
MINI_OP(OP_ARM64_UADD2, "arm64_uadd2", XREG, XREG, XREG)
MINI_OP(OP_ARM64_SSUB, "arm64_ssub", XREG, XREG, XREG)
MINI_OP(OP_ARM64_SSUB2, "arm64_ssub2", XREG, XREG, XREG)
MINI_OP(OP_ARM64_USUB, "arm64_usub", XREG, XREG, XREG)
MINI_OP(OP_ARM64_USUB2, "arm64_usub2", XREG, XREG, XREG)
MINI_OP(OP_ARM64_ADDP_SCALAR, "arm64_addp_scalar", XREG, XREG, NONE)
MINI_OP(OP_ARM64_FADDP_SCALAR, "arm64_faddp_scalar", XREG, XREG, NONE)
MINI_OP(OP_ARM64_SADALP, "arm64_sadalp_scalar", XREG, XREG, XREG)
MINI_OP(OP_ARM64_UADALP, "arm64_uadalp_scalar", XREG, XREG, XREG)
MINI_OP(OP_ARM64_SADDLV, "arm64_saddlv", XREG, XREG, NONE)
MINI_OP(OP_ARM64_UADDLV, "arm64_uaddlv", XREG, XREG, NONE)
MINI_OP(OP_ARM64_XADDV, "arm64_xaddv", XREG, XREG, NONE)
MINI_OP(OP_ARM64_XHORIZ, "arm64_xhoriz", XREG, XREG, NONE)
MINI_OP3(OP_ARM64_SABAL, "arm64_sabal", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_SABAL2, "arm64_sabal2", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_UABAL, "arm64_uabal", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_UABAL2, "arm64_uabal2", XREG, XREG, XREG, XREG)
MINI_OP(OP_ARM64_SABDL, "arm64_sabdl", XREG, XREG, XREG)
MINI_OP(OP_ARM64_SABDL2, "arm64_sabdl2", XREG, XREG, XREG)
MINI_OP(OP_ARM64_UABDL, "arm64_uabdl", XREG, XREG, XREG)
MINI_OP(OP_ARM64_UABDL2, "arm64_uabdl2", XREG, XREG, XREG)
MINI_OP3(OP_ARM64_SABA, "arm64_saba", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_UABA, "arm64_uaba", XREG, XREG, XREG, XREG)
MINI_OP(OP_ARM64_SABD, "arm64_sabd", XREG, XREG, XREG)
MINI_OP(OP_ARM64_UABD, "arm64_uabd", XREG, XREG, XREG)
MINI_OP(OP_ARM64_ABSCOMPARE, "arm64_abscompare", XREG, XREG, XREG)
MINI_OP(OP_ARM64_XNARROW_SCALAR, "arm64_xnarrow_scalar", XREG, XREG, NONE)
MINI_OP3(OP_ARM64_EXT, "arm64_ext", XREG, XREG, XREG, IREG)
MINI_OP3(OP_ARM64_SQRDMLAH, "arm64_sqrdmlah", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_SQRDMLAH_BYSCALAR, "arm64_sqrdmlah_byscalar", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_SQRDMLAH_SCALAR, "arm64_sqrdmlah_scalar", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_SQRDMLSH, "arm64_sqrdmlsh", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_SQRDMLSH_BYSCALAR, "arm64_sqrdmlsh_byscalar", XREG, XREG, XREG, XREG)
MINI_OP3(OP_ARM64_SQRDMLSH_SCALAR, "arm64_sqrdmlsh_scalar", XREG, XREG, XREG, XREG)
#endif // TARGET_ARM64
| 1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/mono/mono/mini/simd-intrinsics.c
|
/**
* SIMD Intrinsics support for netcore.
* Only LLVM is supported as a backend.
*/
#include <config.h>
#include <mono/utils/mono-compiler.h>
#include <mono/metadata/icall-decl.h>
#include "mini.h"
#include "mini-runtime.h"
#include "ir-emit.h"
#include "llvm-intrinsics-types.h"
#ifdef ENABLE_LLVM
#include "mini-llvm.h"
#include "mini-llvm-cpp.h"
#endif
#include "mono/utils/bsearch.h"
#include <mono/metadata/abi-details.h>
#include <mono/metadata/reflection-internals.h>
#include <mono/utils/mono-hwcap.h>
#if defined (MONO_ARCH_SIMD_INTRINSICS)
#if defined(DISABLE_JIT)
void
mono_simd_intrinsics_init (void)
{
}
#else
#define MSGSTRFIELD(line) MSGSTRFIELD1(line)
#define MSGSTRFIELD1(line) str##line
static const struct msgstr_t {
#define METHOD(name) char MSGSTRFIELD(__LINE__) [sizeof (#name)];
#define METHOD2(str,name) char MSGSTRFIELD(__LINE__) [sizeof (str)];
#include "simd-methods.h"
#undef METHOD
#undef METHOD2
} method_names = {
#define METHOD(name) #name,
#define METHOD2(str,name) str,
#include "simd-methods.h"
#undef METHOD
#undef METHOD2
};
enum {
#define METHOD(name) SN_ ## name = offsetof (struct msgstr_t, MSGSTRFIELD(__LINE__)),
#define METHOD2(str,name) SN_ ## name = offsetof (struct msgstr_t, MSGSTRFIELD(__LINE__)),
#include "simd-methods.h"
};
#define method_name(idx) ((const char*)&method_names + (idx))
static int register_size;
#define None 0
typedef struct {
uint16_t id; // One of the SN_ constants
uint16_t default_op; // ins->opcode
uint16_t default_instc0; // ins->inst_c0
uint16_t unsigned_op;
uint16_t unsigned_instc0;
uint16_t floating_op;
uint16_t floating_instc0;
} SimdIntrinsic;
static const SimdIntrinsic unsupported [] = { {SN_get_IsSupported} };
void
mono_simd_intrinsics_init (void)
{
register_size = 16;
#if 0
if ((mini_get_cpu_features () & MONO_CPU_X86_AVX) != 0)
register_size = 32;
#endif
/* Tell the class init code the size of the System.Numerics.Register type */
mono_simd_register_size = register_size;
}
MonoInst*
mono_emit_simd_field_load (MonoCompile *cfg, MonoClassField *field, MonoInst *addr)
{
return NULL;
}
static int
simd_intrinsic_compare_by_name (const void *key, const void *value)
{
return strcmp ((const char*)key, method_name (*(guint16*)value));
}
static int
simd_intrinsic_info_compare_by_name (const void *key, const void *value)
{
SimdIntrinsic *info = (SimdIntrinsic*)value;
return strcmp ((const char*)key, method_name (info->id));
}
static int
lookup_intrins (guint16 *intrinsics, int size, MonoMethod *cmethod)
{
const guint16 *result = (const guint16 *)mono_binary_search (cmethod->name, intrinsics, size / sizeof (guint16), sizeof (guint16), &simd_intrinsic_compare_by_name);
if (result == NULL)
return -1;
else
return (int)*result;
}
static SimdIntrinsic*
lookup_intrins_info (SimdIntrinsic *intrinsics, int size, MonoMethod *cmethod)
{
#if 0
for (int i = 0; i < (size / sizeof (SimdIntrinsic)) - 1; ++i) {
const char *n1 = method_name (intrinsics [i].id);
const char *n2 = method_name (intrinsics [i + 1].id);
int len1 = strlen (n1);
int len2 = strlen (n2);
for (int j = 0; j < len1 && j < len2; ++j) {
if (n1 [j] > n2 [j]) {
printf ("%s %s\n", n1, n2);
g_assert_not_reached ();
} else if (n1 [j] < n2 [j]) {
break;
}
}
}
#endif
return (SimdIntrinsic *)mono_binary_search (cmethod->name, intrinsics, size / sizeof (SimdIntrinsic), sizeof (SimdIntrinsic), &simd_intrinsic_info_compare_by_name);
}
static gboolean
has_intrinsic_cattr (MonoMethod *method)
{
ERROR_DECL (error);
MonoCustomAttrInfo *cattr;
gboolean res = FALSE;
cattr = mono_custom_attrs_from_method_checked (method, error);
mono_error_assert_ok (error);
if (cattr) {
for (int i = 0; i < cattr->num_attrs; ++i) {
MonoCustomAttrEntry *attr = &cattr->attrs [i];
g_assert (attr->ctor);
if (!strcmp (m_class_get_name_space (attr->ctor->klass), "System.Runtime.CompilerServices") &&
!strcmp (m_class_get_name (attr->ctor->klass), "Intrinsic")) {
res = TRUE;
break;
}
}
mono_custom_attrs_free (cattr);
}
return res;
}
static G_GNUC_UNUSED void
check_no_intrinsic_cattr (MonoMethod *method)
{
if (has_intrinsic_cattr (method)) {
printf ("%s\n", mono_method_get_full_name (method));
g_assert_not_reached ();
}
}
/*
* Return a simd vreg for the simd value represented by SRC.
* SRC is the 'this' argument to methods.
* Set INDIRECT to TRUE if the value was loaded from memory.
*/
static int
load_simd_vreg_class (MonoCompile *cfg, MonoClass *klass, MonoInst *src, gboolean *indirect)
{
const char *spec = INS_INFO (src->opcode);
if (indirect)
*indirect = FALSE;
if (src->opcode == OP_XMOVE) {
return src->sreg1;
} else if (src->opcode == OP_LDADDR) {
int res = ((MonoInst*)src->inst_p0)->dreg;
return res;
} else if (spec [MONO_INST_DEST] == 'x') {
return src->dreg;
} else if (src->type == STACK_PTR || src->type == STACK_MP) {
MonoInst *ins;
if (indirect)
*indirect = TRUE;
MONO_INST_NEW (cfg, ins, OP_LOADX_MEMBASE);
ins->klass = klass;
ins->sreg1 = src->dreg;
ins->type = STACK_VTYPE;
ins->dreg = alloc_ireg (cfg);
MONO_ADD_INS (cfg->cbb, ins);
return ins->dreg;
}
g_warning ("load_simd_vreg:: could not infer source simd (%d) vreg for op", src->type);
mono_print_ins (src);
g_assert_not_reached ();
}
static int
load_simd_vreg (MonoCompile *cfg, MonoMethod *cmethod, MonoInst *src, gboolean *indirect)
{
return load_simd_vreg_class (cfg, cmethod->klass, src, indirect);
}
/* Create and emit a SIMD instruction, dreg is auto-allocated */
static MonoInst*
emit_simd_ins (MonoCompile *cfg, MonoClass *klass, int opcode, int sreg1, int sreg2)
{
const char *spec = INS_INFO (opcode);
MonoInst *ins;
MONO_INST_NEW (cfg, ins, opcode);
if (spec [MONO_INST_DEST] == 'x') {
ins->dreg = alloc_xreg (cfg);
ins->type = STACK_VTYPE;
} else if (spec [MONO_INST_DEST] == 'i') {
ins->dreg = alloc_ireg (cfg);
ins->type = STACK_I4;
} else if (spec [MONO_INST_DEST] == 'l') {
ins->dreg = alloc_lreg (cfg);
ins->type = STACK_I8;
} else if (spec [MONO_INST_DEST] == 'f') {
ins->dreg = alloc_freg (cfg);
ins->type = STACK_R8;
} else if (spec [MONO_INST_DEST] == 'v') {
ins->dreg = alloc_dreg (cfg, STACK_VTYPE);
ins->type = STACK_VTYPE;
}
ins->sreg1 = sreg1;
ins->sreg2 = sreg2;
ins->klass = klass;
MONO_ADD_INS (cfg->cbb, ins);
return ins;
}
static MonoInst*
emit_simd_ins_for_sig (MonoCompile *cfg, MonoClass *klass, int opcode, int instc0, int instc1, MonoMethodSignature *fsig, MonoInst **args)
{
g_assert (fsig->param_count <= 3);
MonoInst* ins = emit_simd_ins (cfg, klass, opcode,
fsig->param_count > 0 ? args [0]->dreg : -1,
fsig->param_count > 1 ? args [1]->dreg : -1);
if (instc0 != -1)
ins->inst_c0 = instc0;
if (instc1 != -1)
ins->inst_c1 = instc1;
if (fsig->param_count == 3)
ins->sreg3 = args [2]->dreg;
return ins;
}
static gboolean type_enum_is_unsigned (MonoTypeEnum type);
static gboolean type_enum_is_float (MonoTypeEnum type);
static MonoInst*
emit_simd_ins_for_binary_op (MonoCompile *cfg, MonoClass *klass, MonoMethodSignature *fsig, MonoInst **args, MonoTypeEnum arg_type, int id)
{
int instc0 = -1;
int op = OP_XBINOP;
if (id == SN_BitwiseAnd || id == SN_BitwiseOr || id == SN_Xor ||
id == SN_op_BitwiseAnd || id == SN_op_BitwiseOr || id == SN_op_ExclusiveOr) {
op = OP_XBINOP_FORCEINT;
switch (id) {
case SN_BitwiseAnd:
case SN_op_BitwiseAnd:
instc0 = XBINOP_FORCEINT_AND;
break;
case SN_BitwiseOr:
case SN_op_BitwiseOr:
instc0 = XBINOP_FORCEINT_OR;
break;
case SN_op_ExclusiveOr:
case SN_Xor:
instc0 = XBINOP_FORCEINT_XOR;
break;
}
} else {
if (type_enum_is_float (arg_type)) {
switch (id) {
case SN_Add:
case SN_op_Addition:
instc0 = OP_FADD;
break;
case SN_Divide:
case SN_op_Division:
instc0 = OP_FDIV;
break;
case SN_Max:
instc0 = OP_FMAX;
break;
case SN_Min:
instc0 = OP_FMIN;
break;
case SN_Multiply:
case SN_op_Multiply:
instc0 = OP_FMUL;
break;
case SN_Subtract:
case SN_op_Subtraction:
instc0 = OP_FSUB;
break;
default:
g_assert_not_reached ();
}
} else {
switch (id) {
case SN_Add:
case SN_op_Addition:
instc0 = OP_IADD;
break;
case SN_Divide:
case SN_op_Division:
return NULL;
case SN_Max:
instc0 = OP_IMAX;
break;
case SN_Min:
instc0 = OP_IMIN;
break;
case SN_Multiply:
case SN_op_Multiply:
instc0 = OP_IMUL;
break;
case SN_Subtract:
case SN_op_Subtraction:
instc0 = OP_ISUB;
break;
default:
g_assert_not_reached ();
}
}
}
return emit_simd_ins_for_sig (cfg, klass, op, instc0, arg_type, fsig, args);
}
static MonoInst*
emit_simd_ins_for_unary_op (MonoCompile *cfg, MonoClass *klass, MonoMethodSignature *fsig, MonoInst **args, MonoTypeEnum arg_type, int id)
{
#ifdef TARGET_ARM64
int op = -1;
switch (id){
case SN_Negate:
case SN_op_UnaryNegation:
op = OP_ARM64_XNEG;
break;
case SN_OnesComplement:
case SN_op_OnesComplement:
op = OP_ARM64_MVN;
break;
default:
g_assert_not_reached ();
}
return emit_simd_ins_for_sig (cfg, klass, op, -1, arg_type, fsig, args);
#else
return NULL;
#endif
}
static gboolean
is_hw_intrinsics_class (MonoClass *klass, const char *name, gboolean *is_64bit)
{
const char *class_name = m_class_get_name (klass);
if ((!strcmp (class_name, "X64") || !strcmp (class_name, "Arm64")) && m_class_get_nested_in (klass)) {
*is_64bit = TRUE;
return !strcmp (m_class_get_name (m_class_get_nested_in (klass)), name);
} else {
*is_64bit = FALSE;
return !strcmp (class_name, name);
}
}
static MonoTypeEnum
get_underlying_type (MonoType* type)
{
MonoClass* klass = mono_class_from_mono_type_internal (type);
if (type->type == MONO_TYPE_PTR) // e.g. int* => MONO_TYPE_I4
return m_class_get_byval_arg (m_class_get_element_class (klass))->type;
else if (type->type == MONO_TYPE_GENERICINST) // e.g. Vector128<int> => MONO_TYPE_I4
return mono_class_get_context (klass)->class_inst->type_argv [0]->type;
else
return type->type;
}
static MonoInst*
emit_xcompare (MonoCompile *cfg, MonoClass *klass, MonoTypeEnum etype, MonoInst *arg1, MonoInst *arg2)
{
MonoInst *ins;
int opcode = type_enum_is_float (etype) ? OP_XCOMPARE_FP : OP_XCOMPARE;
ins = emit_simd_ins (cfg, klass, opcode, arg1->dreg, arg2->dreg);
ins->inst_c0 = CMP_EQ;
ins->inst_c1 = etype;
return ins;
}
static MonoInst*
emit_xcompare_for_intrinsic (MonoCompile *cfg, MonoClass *klass, int intrinsic_id, MonoTypeEnum etype, MonoInst *arg1, MonoInst *arg2)
{
MonoInst *ins = emit_xcompare (cfg, klass, etype, arg1, arg2);
gboolean is_unsigned = type_enum_is_unsigned (etype);
switch (intrinsic_id) {
case SN_GreaterThan:
case SN_GreaterThanAll:
case SN_GreaterThanAny:
ins->inst_c0 = is_unsigned ? CMP_GT_UN : CMP_GT;
break;
case SN_GreaterThanOrEqual:
case SN_GreaterThanOrEqualAll:
case SN_GreaterThanOrEqualAny:
ins->inst_c0 = is_unsigned ? CMP_GE_UN : CMP_GE;
break;
case SN_LessThan:
case SN_LessThanAll:
case SN_LessThanAny:
ins->inst_c0 = is_unsigned ? CMP_LT_UN : CMP_LT;
break;
case SN_LessThanOrEqual:
case SN_LessThanOrEqualAll:
case SN_LessThanOrEqualAny:
ins->inst_c0 = is_unsigned ? CMP_LE_UN : CMP_LE;
break;
default:
g_assert_not_reached ();
}
return ins;
}
static MonoInst*
emit_xequal (MonoCompile *cfg, MonoClass *klass, MonoInst *arg1, MonoInst *arg2)
{
return emit_simd_ins (cfg, klass, OP_XEQUAL, arg1->dreg, arg2->dreg);
}
static MonoInst*
emit_not_xequal (MonoCompile *cfg, MonoClass *klass, MonoInst *arg1, MonoInst *arg2)
{
MonoInst *ins = emit_xequal (cfg, klass, arg1, arg2);
int sreg = ins->dreg;
int dreg = alloc_ireg (cfg);
MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, sreg, 0);
EMIT_NEW_UNALU (cfg, ins, OP_CEQ, dreg, -1);
return ins;
}
static MonoInst*
emit_xzero (MonoCompile *cfg, MonoClass *klass)
{
return emit_simd_ins (cfg, klass, OP_XZERO, -1, -1);
}
static MonoInst*
emit_xones (MonoCompile *cfg, MonoClass *klass)
{
return emit_simd_ins (cfg, klass, OP_XONES, -1, -1);
}
static gboolean
is_intrinsics_vector_type (MonoType *vector_type)
{
if (vector_type->type != MONO_TYPE_GENERICINST) return FALSE;
MonoClass *klass = mono_class_from_mono_type_internal (vector_type);
const char *name = m_class_get_name (klass);
return !strcmp (name, "Vector64`1") || !strcmp (name, "Vector128`1") || !strcmp (name, "Vector256`1");
}
static MonoType*
get_vector_t_elem_type (MonoType *vector_type)
{
MonoClass *klass;
MonoType *etype;
g_assert (vector_type->type == MONO_TYPE_GENERICINST);
klass = mono_class_from_mono_type_internal (vector_type);
g_assert (
!strcmp (m_class_get_name (klass), "Vector`1") ||
!strcmp (m_class_get_name (klass), "Vector64`1") ||
!strcmp (m_class_get_name (klass), "Vector128`1") ||
!strcmp (m_class_get_name (klass), "Vector256`1"));
etype = mono_class_get_context (klass)->class_inst->type_argv [0];
return etype;
}
static gboolean
type_is_unsigned (MonoType *type) {
MonoClass *klass = mono_class_from_mono_type_internal (type);
MonoType *etype = mono_class_get_context (klass)->class_inst->type_argv [0];
return type_enum_is_unsigned (etype->type);
}
static gboolean
type_enum_is_unsigned (MonoTypeEnum type)
{
switch (type) {
case MONO_TYPE_U1:
case MONO_TYPE_U2:
case MONO_TYPE_U4:
case MONO_TYPE_U8:
case MONO_TYPE_U:
return TRUE;
}
return FALSE;
}
static gboolean
type_is_float (MonoType *type) {
MonoClass *klass = mono_class_from_mono_type_internal (type);
MonoType *etype = mono_class_get_context (klass)->class_inst->type_argv [0];
return type_enum_is_float (etype->type);
}
static gboolean
type_enum_is_float (MonoTypeEnum type)
{
return type == MONO_TYPE_R4 || type == MONO_TYPE_R8;
}
static int
type_to_expand_op (MonoType *type)
{
switch (type->type) {
case MONO_TYPE_I1:
case MONO_TYPE_U1:
return OP_EXPAND_I1;
case MONO_TYPE_I2:
case MONO_TYPE_U2:
return OP_EXPAND_I2;
case MONO_TYPE_I4:
case MONO_TYPE_U4:
return OP_EXPAND_I4;
case MONO_TYPE_I8:
case MONO_TYPE_U8:
return OP_EXPAND_I8;
case MONO_TYPE_R4:
return OP_EXPAND_R4;
case MONO_TYPE_R8:
return OP_EXPAND_R8;
case MONO_TYPE_I:
case MONO_TYPE_U:
#if TARGET_SIZEOF_VOID_P == 8
return OP_EXPAND_I8;
#else
return OP_EXPAND_I4;
#endif
default:
g_assert_not_reached ();
}
}
static int
type_to_insert_op (MonoType *type)
{
switch (type->type) {
case MONO_TYPE_I1:
case MONO_TYPE_U1:
return OP_INSERT_I1;
case MONO_TYPE_I2:
case MONO_TYPE_U2:
return OP_INSERT_I2;
case MONO_TYPE_I4:
case MONO_TYPE_U4:
return OP_INSERT_I4;
case MONO_TYPE_I8:
case MONO_TYPE_U8:
return OP_INSERT_I8;
case MONO_TYPE_R4:
return OP_INSERT_R4;
case MONO_TYPE_R8:
return OP_INSERT_R8;
case MONO_TYPE_I:
case MONO_TYPE_U:
#if TARGET_SIZEOF_VOID_P == 8
return OP_INSERT_I8;
#else
return OP_INSERT_I4;
#endif
default:
g_assert_not_reached ();
}
}
typedef struct {
const char *name;
MonoCPUFeatures feature;
const SimdIntrinsic *intrinsics;
int intrinsics_size;
gboolean jit_supported;
} IntrinGroup;
typedef MonoInst * (* EmitIntrinsicFn) (
MonoCompile *cfg, MonoMethodSignature *fsig, MonoInst **args,
MonoClass *klass, const IntrinGroup *intrin_group,
const SimdIntrinsic *info, int id, MonoTypeEnum arg0_type,
gboolean is_64bit);
static const IntrinGroup unsupported_intrin_group [] = {
{ "", 0, unsupported, sizeof (unsupported) },
};
static MonoInst *
emit_hardware_intrinsics (
MonoCompile *cfg, MonoMethod *cmethod, MonoMethodSignature *fsig,
MonoInst **args, const IntrinGroup *groups, int groups_size_bytes,
EmitIntrinsicFn custom_emit)
{
MonoClass *klass = cmethod->klass;
const IntrinGroup *intrin_group = unsupported_intrin_group;
gboolean is_64bit = FALSE;
int groups_size = groups_size_bytes / sizeof (groups [0]);
for (int i = 0; i < groups_size; ++i) {
const IntrinGroup *group = &groups [i];
if (is_hw_intrinsics_class (klass, group->name, &is_64bit)) {
intrin_group = group;
break;
}
}
gboolean supported = FALSE;
MonoTypeEnum arg0_type = fsig->param_count > 0 ? get_underlying_type (fsig->params [0]) : MONO_TYPE_VOID;
int id = -1;
uint16_t op = 0;
uint16_t c0 = 0;
const SimdIntrinsic *intrinsics = intrin_group->intrinsics;
int intrinsics_size = intrin_group->intrinsics_size;
MonoCPUFeatures feature = intrin_group->feature;
const SimdIntrinsic *info = lookup_intrins_info ((SimdIntrinsic *) intrinsics, intrinsics_size, cmethod);
{
if (!info)
goto support_probe_complete;
id = info->id;
// Hardware intrinsics are LLVM-only.
if (!COMPILE_LLVM (cfg) && !intrin_group->jit_supported)
goto support_probe_complete;
if (intrin_group->intrinsics == unsupported)
supported = FALSE;
else if (feature)
supported = (mini_get_cpu_features (cfg) & feature) != 0;
else
supported = TRUE;
op = info->default_op;
c0 = info->default_instc0;
gboolean is_unsigned = FALSE;
gboolean is_float = FALSE;
switch (arg0_type) {
case MONO_TYPE_U1:
case MONO_TYPE_U2:
case MONO_TYPE_U4:
case MONO_TYPE_U8:
case MONO_TYPE_U:
is_unsigned = TRUE;
break;
case MONO_TYPE_R4:
case MONO_TYPE_R8:
is_float = TRUE;
break;
}
if (is_unsigned && info->unsigned_op != 0) {
op = info->unsigned_op;
c0 = info->unsigned_instc0;
} else if (is_float && info->floating_op != 0) {
op = info->floating_op;
c0 = info->floating_instc0;
}
}
support_probe_complete:
if (id == SN_get_IsSupported) {
MonoInst *ins = NULL;
EMIT_NEW_ICONST (cfg, ins, supported ? 1 : 0);
return ins;
}
if (!supported) {
// Can't emit non-supported llvm intrinsics
if (cfg->method != cmethod) {
// Keep the original call so we end up in the intrinsic method
return NULL;
} else {
// Emit an exception from the intrinsic method
mono_emit_jit_icall (cfg, mono_throw_platform_not_supported, NULL);
return NULL;
}
}
if (op != 0)
return emit_simd_ins_for_sig (cfg, klass, op, c0, arg0_type, fsig, args);
return custom_emit (cfg, fsig, args, klass, intrin_group, info, id, arg0_type, is_64bit);
}
static MonoInst *
emit_vector_create_elementwise (
MonoCompile *cfg, MonoMethodSignature *fsig, MonoType *vtype,
MonoType *etype, MonoInst **args)
{
int op = type_to_insert_op (etype);
MonoClass *vklass = mono_class_from_mono_type_internal (vtype);
MonoInst *ins = emit_xzero (cfg, vklass);
for (int i = 0; i < fsig->param_count; ++i) {
ins = emit_simd_ins (cfg, vklass, op, ins->dreg, args [i]->dreg);
ins->inst_c0 = i;
}
return ins;
}
#if defined(TARGET_AMD64) || defined(TARGET_ARM64)
static int
type_to_xinsert_op (MonoTypeEnum type)
{
switch (type) {
case MONO_TYPE_I1: case MONO_TYPE_U1: return OP_XINSERT_I1;
case MONO_TYPE_I2: case MONO_TYPE_U2: return OP_XINSERT_I2;
case MONO_TYPE_I4: case MONO_TYPE_U4: return OP_XINSERT_I4;
case MONO_TYPE_I8: case MONO_TYPE_U8: return OP_XINSERT_I8;
case MONO_TYPE_R4: return OP_XINSERT_R4;
case MONO_TYPE_R8: return OP_XINSERT_R8;
case MONO_TYPE_I: case MONO_TYPE_U:
#if TARGET_SIZEOF_VOID_P == 8
return OP_XINSERT_I8;
#else
return OP_XINSERT_I4;
#endif
default: g_assert_not_reached ();
}
}
static int
type_to_xextract_op (MonoTypeEnum type)
{
switch (type) {
case MONO_TYPE_I1: case MONO_TYPE_U1: return OP_XEXTRACT_I1;
case MONO_TYPE_I2: case MONO_TYPE_U2: return OP_XEXTRACT_I2;
case MONO_TYPE_I4: case MONO_TYPE_U4: return OP_XEXTRACT_I4;
case MONO_TYPE_I8: case MONO_TYPE_U8: return OP_XEXTRACT_I8;
case MONO_TYPE_R4: return OP_XEXTRACT_R4;
case MONO_TYPE_R8: return OP_XEXTRACT_R8;
case MONO_TYPE_I: case MONO_TYPE_U:
#if TARGET_SIZEOF_VOID_P == 8
return OP_XEXTRACT_I8;
#else
return OP_XEXTRACT_I4;
#endif
default: g_assert_not_reached ();
}
}
static int
type_to_extract_op (MonoTypeEnum type)
{
switch (type) {
case MONO_TYPE_I1: case MONO_TYPE_U1: return OP_EXTRACT_I1;
case MONO_TYPE_I2: case MONO_TYPE_U2: return OP_EXTRACT_I2;
case MONO_TYPE_I4: case MONO_TYPE_U4: return OP_EXTRACT_I4;
case MONO_TYPE_I8: case MONO_TYPE_U8: return OP_EXTRACT_I8;
case MONO_TYPE_R4: return OP_EXTRACT_R4;
case MONO_TYPE_R8: return OP_EXTRACT_R8;
case MONO_TYPE_I: case MONO_TYPE_U:
#if TARGET_SIZEOF_VOID_P == 8
return OP_EXTRACT_I8;
#else
return OP_EXTRACT_I4;
#endif
default: g_assert_not_reached ();
}
}
static MonoClass *
create_class_instance (MonoCompile *cfg, MonoMethodSignature *fsig, const char* name_space, const char *name, gboolean same_type, MonoType *param_type)
{
MonoClass *ivector = mono_class_load_from_name (mono_defaults.corlib, name_space, name);
if (same_type) {
MonoClass *arg_class = mono_class_from_mono_type_internal (fsig->params [0]);
param_type = mono_class_get_generic_class (arg_class)->context.class_inst->type_argv [0];
} else {
g_assert(param_type != NULL);
}
MonoType *args [ ] = { param_type };
MonoGenericContext ctx;
memset (&ctx, 0, sizeof (ctx));
ctx.class_inst = mono_metadata_get_generic_inst (1, args);
ERROR_DECL (error);
MonoClass *ivector_inst = mono_class_inflate_generic_class_checked (ivector, &ctx, error);
mono_error_assert_ok (error); /* FIXME don't swallow the error */
return ivector_inst;
}
static guint16 sri_vector_methods [] = {
SN_Abs,
SN_Add,
SN_AndNot,
SN_As,
SN_AsByte,
SN_AsDouble,
SN_AsInt16,
SN_AsInt32,
SN_AsInt64,
SN_AsSByte,
SN_AsSingle,
SN_AsUInt16,
SN_AsUInt32,
SN_AsUInt64,
SN_AsVector128,
SN_AsVector2,
SN_AsVector256,
SN_AsVector3,
SN_AsVector4,
SN_BitwiseAnd,
SN_BitwiseOr,
SN_Ceiling,
SN_ConditionalSelect,
SN_ConvertToDouble,
SN_ConvertToInt32,
SN_ConvertToUInt32,
SN_Create,
SN_CreateScalar,
SN_CreateScalarUnsafe,
SN_Divide,
SN_Equals,
SN_EqualsAll,
SN_EqualsAny,
SN_Floor,
SN_GetElement,
SN_GetLower,
SN_GetUpper,
SN_GreaterThan,
SN_GreaterThanAll,
SN_GreaterThanAny,
SN_GreaterThanOrEqual,
SN_GreaterThanOrEqualAll,
SN_GreaterThanOrEqualAny,
SN_LessThan,
SN_LessThanAll,
SN_LessThanAny,
SN_LessThanOrEqual,
SN_LessThanOrEqualAll,
SN_LessThanOrEqualAny,
SN_Max,
SN_Min,
SN_Multiply,
SN_Narrow,
SN_Negate,
SN_OnesComplement,
SN_Sqrt,
SN_Subtract,
SN_ToScalar,
SN_ToVector128,
SN_ToVector128Unsafe,
SN_ToVector256,
SN_ToVector256Unsafe,
SN_WithElement,
SN_Xor,
};
/* nint and nuint haven't been enabled yet for System.Runtime.Intrinsics.
* Remove this once support has been added.
*/
#define MONO_TYPE_IS_INTRINSICS_VECTOR_PRIMITIVE(t) ((MONO_TYPE_IS_VECTOR_PRIMITIVE(t)) && ((t)->type != MONO_TYPE_I) && ((t)->type != MONO_TYPE_U))
static gboolean
is_elementwise_create_overload (MonoMethodSignature *fsig, MonoType *ret_type)
{
uint16_t param_count = fsig->param_count;
if (param_count < 1) return FALSE;
MonoType *type = fsig->params [0];
if (!MONO_TYPE_IS_INTRINSICS_VECTOR_PRIMITIVE (type)) return FALSE;
if (!mono_metadata_type_equal (ret_type, type)) return FALSE;
for (uint16_t i = 1; i < param_count; ++i)
if (!mono_metadata_type_equal (type, fsig->params [i])) return FALSE;
return TRUE;
}
static gboolean
is_create_from_half_vectors_overload (MonoMethodSignature *fsig)
{
if (fsig->param_count != 2) return FALSE;
if (!is_intrinsics_vector_type (fsig->params [0])) return FALSE;
return mono_metadata_type_equal (fsig->params [0], fsig->params [1]);
}
static gboolean
is_element_type_primitive (MonoType *vector_type)
{
MonoType *element_type = get_vector_t_elem_type (vector_type);
return MONO_TYPE_IS_INTRINSICS_VECTOR_PRIMITIVE (element_type);
}
static MonoInst*
emit_sri_vector (MonoCompile *cfg, MonoMethod *cmethod, MonoMethodSignature *fsig, MonoInst **args)
{
if (!COMPILE_LLVM (cfg))
return NULL;
int id = lookup_intrins (sri_vector_methods, sizeof (sri_vector_methods), cmethod);
if (id == -1) {
//check_no_intrinsic_cattr (cmethod);
return NULL;
}
if (!strcmp (m_class_get_name (cfg->method->klass), "Vector256"))
return NULL; // TODO: Fix Vector256.WithUpper/WithLower
MonoClass *klass = cmethod->klass;
MonoTypeEnum arg0_type = fsig->param_count > 0 ? get_underlying_type (fsig->params [0]) : MONO_TYPE_VOID;
switch (id) {
case SN_Abs: {
if (!is_element_type_primitive (fsig->params [0]))
return NULL;
#ifdef TARGET_ARM64
if (type_enum_is_unsigned (arg0_type))
return NULL;
int iid = type_enum_is_float (arg0_type) ? INTRINS_AARCH64_ADV_SIMD_FABS : INTRINS_AARCH64_ADV_SIMD_ABS;
return emit_simd_ins_for_sig (cfg, klass, OP_XOP_OVR_X_X, iid, arg0_type, fsig, args);
#else
return NULL;
#endif
}
case SN_Add:
case SN_BitwiseAnd:
case SN_BitwiseOr:
case SN_Divide:
case SN_Max:
case SN_Min:
case SN_Multiply:
case SN_Subtract:
case SN_Xor:
if (!is_element_type_primitive (fsig->params [0]))
return NULL;
return emit_simd_ins_for_binary_op (cfg, klass, fsig, args, arg0_type, id);
case SN_AndNot:
#ifdef TARGET_ARM64
if (!is_element_type_primitive (fsig->params [0]))
return NULL;
return emit_simd_ins_for_sig (cfg, klass, OP_ARM64_BIC, -1, arg0_type, fsig, args);
#else
return NULL;
#endif
case SN_As:
case SN_AsByte:
case SN_AsDouble:
case SN_AsInt16:
case SN_AsInt32:
case SN_AsInt64:
case SN_AsSByte:
case SN_AsSingle:
case SN_AsUInt16:
case SN_AsUInt32:
case SN_AsUInt64: {
if (!is_element_type_primitive (fsig->ret) || !is_element_type_primitive (fsig->params [0]))
return NULL;
return emit_simd_ins (cfg, klass, OP_XCAST, args [0]->dreg, -1);
}
case SN_Ceiling:
case SN_Floor: {
#ifdef TARGET_ARM64
if (!type_enum_is_float (arg0_type))
return NULL;
int ceil_or_floor = id == SN_Ceiling ? INTRINS_AARCH64_ADV_SIMD_FRINTP : INTRINS_AARCH64_ADV_SIMD_FRINTM;
return emit_simd_ins_for_sig (cfg, klass, OP_XOP_OVR_X_X, ceil_or_floor, arg0_type, fsig, args);
#else
return NULL;
#endif
}
case SN_ConditionalSelect: {
#ifdef TARGET_ARM64
if (!is_element_type_primitive (fsig->params [0]))
return NULL;
return emit_simd_ins_for_sig (cfg, klass, OP_ARM64_BSL, -1, arg0_type, fsig, args);
#else
return NULL;
#endif
}
case SN_ConvertToDouble: {
#ifdef TARGET_ARM64
if ((arg0_type != MONO_TYPE_I8) && (arg0_type != MONO_TYPE_U8))
return NULL;
MonoClass *arg_class = mono_class_from_mono_type_internal (fsig->params [0]);
int size = mono_class_value_size (arg_class, NULL);
int op = -1;
if (size == 8)
op = arg0_type == MONO_TYPE_I8 ? OP_ARM64_SCVTF_SCALAR : OP_ARM64_UCVTF_SCALAR;
else
op = arg0_type == MONO_TYPE_I8 ? OP_ARM64_SCVTF : OP_ARM64_UCVTF;
return emit_simd_ins_for_sig (cfg, klass, op, -1, arg0_type, fsig, args);
#else
return NULL;
#endif
}
case SN_ConvertToInt32:
case SN_ConvertToUInt32: {
#ifdef TARGET_ARM64
if (arg0_type != MONO_TYPE_R4)
return NULL;
int op = id == SN_ConvertToInt32 ? OP_ARM64_FCVTZS : OP_ARM64_FCVTZU;
return emit_simd_ins_for_sig (cfg, klass, op, -1, arg0_type, fsig, args);
#else
return NULL;
#endif
}
case SN_Create: {
MonoType *etype = get_vector_t_elem_type (fsig->ret);
if (fsig->param_count == 1 && mono_metadata_type_equal (fsig->params [0], etype))
return emit_simd_ins (cfg, klass, type_to_expand_op (etype), args [0]->dreg, -1);
else if (is_create_from_half_vectors_overload (fsig))
return emit_simd_ins (cfg, klass, OP_XCONCAT, args [0]->dreg, args [1]->dreg);
else if (is_elementwise_create_overload (fsig, etype))
return emit_vector_create_elementwise (cfg, fsig, fsig->ret, etype, args);
break;
}
case SN_CreateScalar:
return emit_simd_ins_for_sig (cfg, klass, OP_CREATE_SCALAR, -1, arg0_type, fsig, args);
case SN_CreateScalarUnsafe:
return emit_simd_ins_for_sig (cfg, klass, OP_CREATE_SCALAR_UNSAFE, -1, arg0_type, fsig, args);
case SN_Equals:
case SN_EqualsAll:
case SN_EqualsAny: {
if (!is_element_type_primitive (fsig->params [0]))
return NULL;
switch (id) {
case SN_Equals:
return emit_xcompare (cfg, klass, arg0_type, args [0], args [1]);
case SN_EqualsAll:
return emit_xequal (cfg, klass, args [0], args [1]);
case SN_EqualsAny: {
MonoClass *arg_class = mono_class_from_mono_type_internal (fsig->params [0]);
MonoInst *cmp_eq = emit_xcompare (cfg, arg_class, arg0_type, args [0], args [1]);
MonoInst *zero = emit_xzero (cfg, arg_class);
return emit_not_xequal (cfg, arg_class, cmp_eq, zero);
}
default: g_assert_not_reached ();
}
}
case SN_GetElement: {
if (!is_element_type_primitive (fsig->params [0]))
return NULL;
MonoClass *arg_class = mono_class_from_mono_type_internal (fsig->params [0]);
MonoType *etype = mono_class_get_context (arg_class)->class_inst->type_argv [0];
int size = mono_class_value_size (arg_class, NULL);
int esize = mono_class_value_size (mono_class_from_mono_type_internal (etype), NULL);
int elems = size / esize;
MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, args [1]->dreg, elems);
MONO_EMIT_NEW_COND_EXC (cfg, GE_UN, "ArgumentOutOfRangeException");
int extract_op = type_to_xextract_op (arg0_type);
return emit_simd_ins_for_sig (cfg, klass, extract_op, -1, arg0_type, fsig, args);
}
case SN_GetLower:
case SN_GetUpper: {
if (!is_element_type_primitive (fsig->params [0]))
return NULL;
int op = id == SN_GetLower ? OP_XLOWER : OP_XUPPER;
return emit_simd_ins_for_sig (cfg, klass, op, 0, arg0_type, fsig, args);
}
case SN_GreaterThan:
case SN_GreaterThanOrEqual:
case SN_LessThan:
case SN_LessThanOrEqual: {
if (!is_element_type_primitive (fsig->params [0]))
return NULL;
return emit_xcompare_for_intrinsic (cfg, klass, id, arg0_type, args [0], args [1]);
}
case SN_GreaterThanAll:
case SN_GreaterThanAny:
case SN_GreaterThanOrEqualAll:
case SN_GreaterThanOrEqualAny:
case SN_LessThanAll:
case SN_LessThanAny:
case SN_LessThanOrEqualAll:
case SN_LessThanOrEqualAny: {
if (!is_element_type_primitive (fsig->params [0]))
return NULL;
g_assert (fsig->param_count == 2 &&
fsig->ret->type == MONO_TYPE_BOOLEAN &&
mono_metadata_type_equal (fsig->params [0], fsig->params [1]));
MonoInst *cmp = emit_xcompare_for_intrinsic (cfg, klass, id, arg0_type, args [0], args [1]);
MonoClass *arg_class = mono_class_from_mono_type_internal (fsig->params [0]);
switch (id) {
case SN_GreaterThanAll:
case SN_GreaterThanOrEqualAll:
case SN_LessThanAll:
case SN_LessThanOrEqualAll: {
// for floating point numbers all ones is NaN and so
// they must be treated differently than integer types
if (type_enum_is_float (arg0_type)) {
MonoInst *zero = emit_xzero (cfg, arg_class);
MonoInst *inverted_cmp = emit_xcompare (cfg, klass, arg0_type, cmp, zero);
return emit_xequal (cfg, klass, inverted_cmp, zero);
}
MonoInst *ones = emit_xones (cfg, arg_class);
return emit_xequal (cfg, klass, cmp, ones);
}
case SN_GreaterThanAny:
case SN_GreaterThanOrEqualAny:
case SN_LessThanAny:
case SN_LessThanOrEqualAny: {
MonoInst *zero = emit_xzero (cfg, arg_class);
return emit_not_xequal (cfg, klass, cmp, zero);
}
default:
g_assert_not_reached ();
}
}
case SN_Narrow: {
#ifdef TARGET_ARM64
if (!is_element_type_primitive (fsig->params [0]))
return NULL;
MonoClass *arg_class = mono_class_from_mono_type_internal (fsig->params [0]);
int size = mono_class_value_size (arg_class, NULL);
if (size == 16) {
switch (arg0_type) {
case MONO_TYPE_R8: {
MonoInst *ins = emit_simd_ins (cfg, arg_class, OP_ARM64_FCVTN, args [0]->dreg, -1);
return emit_simd_ins (cfg, arg_class, OP_ARM64_FCVTN2, ins->dreg, args [1]->dreg);
}
case MONO_TYPE_I2:
case MONO_TYPE_I4:
case MONO_TYPE_I8:
case MONO_TYPE_U2:
case MONO_TYPE_U4:
case MONO_TYPE_U8: {
MonoInst *ins = emit_simd_ins (cfg, arg_class, OP_ARM64_XTN, args [0]->dreg, -1);
return emit_simd_ins (cfg, arg_class, OP_ARM64_XTN2, ins->dreg, args [1]->dreg);
}
default:
return NULL;
}
} else {
switch (arg0_type) {
case MONO_TYPE_R8: {
//Widen arg0
MonoInst *ins1 = emit_simd_ins (cfg, arg_class, OP_XWIDEN_UNSAFE, args [0]->dreg, -1);
//Insert arg1 to arg0
int tmp = alloc_ireg (cfg);
MONO_EMIT_NEW_ICONST (cfg, tmp, 1);
MonoInst *ins2 = emit_simd_ins (cfg, arg_class, OP_EXTRACT_R8, args [1]->dreg, -1);
ins2->inst_c0 = 0;
ins2->inst_c1 = arg0_type;
MonoClass *ivector128_inst = create_class_instance (cfg, fsig, "System.Runtime.Intrinsics", "Vector128`1", TRUE, NULL);
ins1 = emit_simd_ins (cfg, ivector128_inst, OP_XINSERT_R8, ins1->dreg, ins2->dreg);
ins1->sreg3 = tmp;
ins1->inst_c1 = arg0_type;
//ConvertToSingleLower
return emit_simd_ins (cfg, arg_class, OP_ARM64_FCVTN, ins1->dreg, -1);
}
case MONO_TYPE_I2:
case MONO_TYPE_I4:
case MONO_TYPE_I8:
case MONO_TYPE_U2:
case MONO_TYPE_U4:
case MONO_TYPE_U8: {
//Widen arg0
MonoInst *arg0 = emit_simd_ins (cfg, arg_class, OP_XWIDEN_UNSAFE, args [0]->dreg, -1);
//Cast arg0 and arg1 to u/int64
MonoType *type_new;
MonoTypeEnum type_enum_new;
if (type_enum_is_unsigned (arg0_type)) {
type_new = m_class_get_byval_arg (mono_defaults.uint64_class);
type_enum_new = MONO_TYPE_U8;
} else {
type_new = m_class_get_byval_arg (mono_defaults.int64_class);
type_enum_new = MONO_TYPE_I8;
}
MonoClass *ivector128_64_inst = create_class_instance (cfg, fsig, "System.Runtime.Intrinsics", "Vector128`1", FALSE, type_new);
arg0 = emit_simd_ins (cfg, ivector128_64_inst, OP_XCAST, arg0->dreg, -1);
MonoClass *ivector64_64_inst = create_class_instance (cfg, fsig, "System.Runtime.Intrinsics", "Vector64`1", FALSE, type_new);
MonoInst *arg1 = emit_simd_ins (cfg, ivector64_64_inst, OP_XCAST, args [1]->dreg, -1);
//Insert arg1 to arg0
int tmp = alloc_ireg (cfg);
MONO_EMIT_NEW_ICONST (cfg, tmp, 1);
arg1 = emit_simd_ins (cfg, ivector64_64_inst, OP_EXTRACT_I8, arg1->dreg, -1);
arg1->inst_c0 = 0;
arg1->inst_c1 = type_enum_new;
MonoClass *ivector128_inst = create_class_instance (cfg, fsig, "System.Runtime.Intrinsics", "Vector128`1", TRUE, NULL);
MonoInst *ins = emit_simd_ins (cfg, ivector128_64_inst, OP_XINSERT_I8, arg0->dreg, arg1->dreg);
ins->sreg3 = tmp;
ins->inst_c1 = type_enum_new;
//Cast arg0 back to its original element type (arg0_type)
ins = emit_simd_ins (cfg, ivector128_inst, OP_XCAST, ins->dreg, -1);
//ExtractNarrowingLower
return emit_simd_ins (cfg, ivector128_inst, OP_ARM64_XTN, ins->dreg, -1);
}
default:
return NULL;
}
}
#else
return NULL;
#endif
}
case SN_Negate:
case SN_OnesComplement: {
if (!is_element_type_primitive (fsig->params [0]))
return NULL;
return emit_simd_ins_for_unary_op (cfg, klass, fsig, args, arg0_type, id);
}
case SN_Sqrt: {
#ifdef TARGET_ARM64
if (!is_element_type_primitive (fsig->params [0]))
return NULL;
if (!type_enum_is_float (arg0_type))
return NULL;
return emit_simd_ins_for_sig (cfg, klass, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FSQRT, arg0_type, fsig, args);
#else
return NULL;
#endif
}
case SN_ToScalar: {
if (!is_element_type_primitive (fsig->params [0]))
return NULL;
int extract_op = type_to_extract_op (arg0_type);
return emit_simd_ins_for_sig (cfg, klass, extract_op, 0, arg0_type, fsig, args);
}
case SN_ToVector128:
case SN_ToVector128Unsafe: {
if (!is_element_type_primitive (fsig->params [0]))
return NULL;
int op = id == SN_ToVector128 ? OP_XWIDEN : OP_XWIDEN_UNSAFE;
return emit_simd_ins_for_sig (cfg, klass, op, 0, arg0_type, fsig, args);
}
case SN_WithElement: {
if (!is_element_type_primitive (fsig->params [0]))
return NULL;
MonoClass *arg_class = mono_class_from_mono_type_internal (fsig->params [0]);
MonoType *etype = mono_class_get_context (arg_class)->class_inst->type_argv [0];
int size = mono_class_value_size (arg_class, NULL);
int esize = mono_class_value_size (mono_class_from_mono_type_internal (etype), NULL);
int elems = size / esize;
MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, args [1]->dreg, elems);
MONO_EMIT_NEW_COND_EXC (cfg, GE_UN, "ArgumentOutOfRangeException");
int insert_op = type_to_xinsert_op (arg0_type);
MonoInst *ins = emit_simd_ins (cfg, klass, insert_op, args [0]->dreg, args [2]->dreg);
ins->sreg3 = args [1]->dreg;
ins->inst_c1 = arg0_type;
return ins;
}
case SN_WithLower:
case SN_WithUpper: {
if (!is_element_type_primitive (fsig->params [0]))
return NULL;
int op = id == SN_GetLower ? OP_XINSERT_LOWER : OP_XINSERT_UPPER;
return emit_simd_ins_for_sig (cfg, klass, op, 0, arg0_type, fsig, args);
}
default:
break;
}
return NULL;
}
static guint16 vector64_vector128_t_methods [] = {
SN_Equals,
SN_get_AllBitsSet,
SN_get_Count,
SN_get_IsSupported,
SN_get_Zero,
SN_op_Addition,
SN_op_BitwiseAnd,
SN_op_BitwiseOr,
SN_op_Division,
SN_op_Equality,
SN_op_ExclusiveOr,
SN_op_Inequality,
SN_op_Multiply,
SN_op_OnesComplement,
SN_op_Subtraction,
SN_op_UnaryNegation,
};
static MonoInst*
emit_vector64_vector128_t (MonoCompile *cfg, MonoMethod *cmethod, MonoMethodSignature *fsig, MonoInst **args)
{
int id = lookup_intrins (vector64_vector128_t_methods, sizeof (vector64_vector128_t_methods), cmethod);
if (id == -1) {
//check_no_intrinsic_cattr (cmethod);
return NULL;
}
MonoClass *klass = cmethod->klass;
MonoType *type = m_class_get_byval_arg (klass);
MonoType *etype = mono_class_get_context (klass)->class_inst->type_argv [0];
int size = mono_class_value_size (klass, NULL);
int esize = mono_class_value_size (mono_class_from_mono_type_internal (etype), NULL);
g_assert (size > 0);
g_assert (esize > 0);
int len = size / esize;
MonoTypeEnum arg0_type = fsig->param_count > 0 ? get_underlying_type (fsig->params [0]) : MONO_TYPE_VOID;
if (!MONO_TYPE_IS_INTRINSICS_VECTOR_PRIMITIVE (etype))
return NULL;
if (cfg->verbose_level > 1) {
char *name = mono_method_full_name (cmethod, TRUE);
printf (" SIMD intrinsic %s\n", name);
g_free (name);
}
switch (id) {
case SN_get_IsSupported: {
MonoInst *ins = NULL;
EMIT_NEW_ICONST (cfg, ins, 1);
return ins;
}
default:
break;
}
if (!COMPILE_LLVM (cfg))
return NULL;
switch (id) {
case SN_get_Count: {
MonoInst *ins = NULL;
if (!(fsig->param_count == 0 && fsig->ret->type == MONO_TYPE_I4))
break;
EMIT_NEW_ICONST (cfg, ins, len);
return ins;
}
case SN_get_Zero: {
return emit_xzero (cfg, klass);
}
case SN_get_AllBitsSet: {
return emit_xones (cfg, klass);
}
case SN_Equals: {
if (fsig->param_count == 1 && fsig->ret->type == MONO_TYPE_BOOLEAN && mono_metadata_type_equal (fsig->params [0], type)) {
int sreg1 = load_simd_vreg (cfg, cmethod, args [0], NULL);
return emit_simd_ins (cfg, klass, OP_XEQUAL, sreg1, args [1]->dreg);
}
break;
}
case SN_op_Addition:
case SN_op_BitwiseAnd:
case SN_op_BitwiseOr:
case SN_op_Division:
case SN_op_ExclusiveOr:
case SN_op_Multiply:
case SN_op_Subtraction: {
if (fsig->param_count != 2 )
return NULL;
MonoTypeEnum arg0_type = fsig->param_count > 0 ? get_underlying_type (fsig->params [0]) : MONO_TYPE_VOID;
return emit_simd_ins_for_binary_op (cfg, klass, fsig, args, arg0_type, id);
}
case SN_op_Equality:
case SN_op_Inequality:
if (fsig->param_count != 2 )
return NULL;
switch (id) {
case SN_op_Equality: return emit_xequal (cfg, klass, args [0], args [1]);
case SN_op_Inequality: return emit_not_xequal (cfg, klass, args [0], args [1]);
default: g_assert_not_reached ();
}
case SN_op_OnesComplement:
case SN_op_UnaryNegation:
if (fsig->param_count != 1 )
return NULL;
return emit_simd_ins_for_unary_op (cfg, klass, fsig, args, arg0_type, id);
default:
break;
}
return NULL;
}
#endif // defined(TARGET_AMD64) || defined(TARGET_ARM64)
#if defined(TARGET_AMD64)
static guint16 vector_methods [] = {
SN_ConvertToDouble,
SN_ConvertToInt32,
SN_ConvertToInt64,
SN_ConvertToSingle,
SN_ConvertToUInt32,
SN_ConvertToUInt64,
SN_Narrow,
SN_Widen,
SN_get_IsHardwareAccelerated,
};
static MonoInst*
emit_sys_numerics_vector (MonoCompile *cfg, MonoMethod *cmethod, MonoMethodSignature *fsig, MonoInst **args)
{
MonoInst *ins;
gboolean supported = FALSE;
int id;
MonoType *etype;
id = lookup_intrins (vector_methods, sizeof (vector_methods), cmethod);
if (id == -1) {
//check_no_intrinsic_cattr (cmethod);
return NULL;
}
//printf ("%s\n", mono_method_full_name (cmethod, 1));
#ifdef MONO_ARCH_SIMD_INTRINSICS
supported = TRUE;
#endif
if (cfg->verbose_level > 1) {
char *name = mono_method_full_name (cmethod, TRUE);
printf (" SIMD intrinsic %s\n", name);
g_free (name);
}
switch (id) {
case SN_get_IsHardwareAccelerated:
EMIT_NEW_ICONST (cfg, ins, supported ? 1 : 0);
ins->type = STACK_I4;
return ins;
case SN_ConvertToInt32:
etype = get_vector_t_elem_type (fsig->params [0]);
g_assert (etype->type == MONO_TYPE_R4);
return emit_simd_ins (cfg, mono_class_from_mono_type_internal (fsig->ret), OP_CVTPS2DQ, args [0]->dreg, -1);
case SN_ConvertToSingle:
etype = get_vector_t_elem_type (fsig->params [0]);
g_assert (etype->type == MONO_TYPE_I4 || etype->type == MONO_TYPE_U4);
// FIXME:
if (etype->type == MONO_TYPE_U4)
return NULL;
return emit_simd_ins (cfg, mono_class_from_mono_type_internal (fsig->ret), OP_CVTDQ2PS, args [0]->dreg, -1);
case SN_ConvertToDouble:
case SN_ConvertToInt64:
case SN_ConvertToUInt32:
case SN_ConvertToUInt64:
case SN_Narrow:
case SN_Widen:
// FIXME:
break;
default:
break;
}
return NULL;
}
static guint16 vector_t_methods [] = {
SN_ctor,
SN_CopyTo,
SN_Equals,
SN_GreaterThan,
SN_GreaterThanOrEqual,
SN_LessThan,
SN_LessThanOrEqual,
SN_Max,
SN_Min,
SN_get_AllBitsSet,
SN_get_Count,
SN_get_Item,
SN_get_One,
SN_get_Zero,
SN_op_Addition,
SN_op_BitwiseAnd,
SN_op_BitwiseOr,
SN_op_Division,
SN_op_Equality,
SN_op_ExclusiveOr,
SN_op_Explicit,
SN_op_Inequality,
SN_op_Multiply,
SN_op_Subtraction
};
static MonoInst*
emit_sys_numerics_vector_t (MonoCompile *cfg, MonoMethod *cmethod, MonoMethodSignature *fsig, MonoInst **args)
{
MonoInst *ins;
MonoType *type, *etype;
MonoClass *klass;
int size, len, id;
gboolean is_unsigned;
static const float r4_one = 1.0f;
static const double r8_one = 1.0;
id = lookup_intrins (vector_t_methods, sizeof (vector_t_methods), cmethod);
if (id == -1) {
//check_no_intrinsic_cattr (cmethod);
return NULL;
}
klass = cmethod->klass;
type = m_class_get_byval_arg (klass);
etype = mono_class_get_context (klass)->class_inst->type_argv [0];
size = mono_class_value_size (mono_class_from_mono_type_internal (etype), NULL);
g_assert (size);
len = register_size / size;
if (!MONO_TYPE_IS_PRIMITIVE (etype) || etype->type == MONO_TYPE_CHAR || etype->type == MONO_TYPE_BOOLEAN)
return NULL;
if (cfg->verbose_level > 1) {
char *name = mono_method_full_name (cmethod, TRUE);
printf (" SIMD intrinsic %s\n", name);
g_free (name);
}
switch (id) {
case SN_get_Count:
if (!(fsig->param_count == 0 && fsig->ret->type == MONO_TYPE_I4))
break;
EMIT_NEW_ICONST (cfg, ins, len);
return ins;
case SN_get_Zero:
g_assert (fsig->param_count == 0 && mono_metadata_type_equal (fsig->ret, type));
return emit_xzero (cfg, klass);
case SN_get_One: {
g_assert (fsig->param_count == 0 && mono_metadata_type_equal (fsig->ret, type));
MonoInst *one = NULL;
int expand_opcode = type_to_expand_op (etype);
MONO_INST_NEW (cfg, one, -1);
switch (expand_opcode) {
case OP_EXPAND_R4:
one->opcode = OP_R4CONST;
one->type = STACK_R4;
one->inst_p0 = (void *) &r4_one;
break;
case OP_EXPAND_R8:
one->opcode = OP_R8CONST;
one->type = STACK_R8;
one->inst_p0 = (void *) &r8_one;
break;
default:
one->opcode = OP_ICONST;
one->type = STACK_I4;
one->inst_c0 = 1;
break;
}
one->dreg = alloc_dreg (cfg, (MonoStackType)one->type);
MONO_ADD_INS (cfg->cbb, one);
return emit_simd_ins (cfg, klass, expand_opcode, one->dreg, -1);
}
case SN_get_AllBitsSet: {
return emit_xones (cfg, klass);
}
case SN_get_Item: {
if (!COMPILE_LLVM (cfg))
return NULL;
MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, args [1]->dreg, len);
MONO_EMIT_NEW_COND_EXC (cfg, GE_UN, "ArgumentOutOfRangeException");
MonoTypeEnum ty = etype->type;
int opcode = type_to_xextract_op (ty);
int src1 = load_simd_vreg (cfg, cmethod, args [0], NULL);
MonoInst *ins = emit_simd_ins (cfg, klass, opcode, src1, args [1]->dreg);
ins->inst_c1 = ty;
return ins;
}
case SN_ctor:
if (fsig->param_count == 1 && mono_metadata_type_equal (fsig->params [0], etype)) {
int dreg = load_simd_vreg (cfg, cmethod, args [0], NULL);
int opcode = type_to_expand_op (etype);
ins = emit_simd_ins (cfg, klass, opcode, args [1]->dreg, -1);
ins->dreg = dreg;
return ins;
}
if ((fsig->param_count == 1 || fsig->param_count == 2) && (fsig->params [0]->type == MONO_TYPE_SZARRAY)) {
MonoInst *array_ins = args [1];
MonoInst *index_ins;
MonoInst *ldelema_ins;
MonoInst *var;
int end_index_reg;
if (args [0]->opcode != OP_LDADDR)
return NULL;
/* .ctor (T[]) or .ctor (T[], index) */
if (fsig->param_count == 2) {
index_ins = args [2];
} else {
EMIT_NEW_ICONST (cfg, index_ins, 0);
}
/* Emit bounds check for the index (index >= 0) */
mini_emit_bounds_check_offset (cfg, array_ins->dreg, MONO_STRUCT_OFFSET (MonoArray, max_length), index_ins->dreg, "ArgumentOutOfRangeException");
/* Emit bounds check for the end (index + len - 1 < array length) */
end_index_reg = alloc_ireg (cfg);
EMIT_NEW_BIALU_IMM (cfg, ins, OP_IADD_IMM, end_index_reg, index_ins->dreg, len - 1);
mini_emit_bounds_check_offset (cfg, array_ins->dreg, MONO_STRUCT_OFFSET (MonoArray, max_length), end_index_reg, "ArgumentOutOfRangeException");
/* Load the array slice into the simd reg */
ldelema_ins = mini_emit_ldelema_1_ins (cfg, mono_class_from_mono_type_internal (etype), array_ins, index_ins, FALSE, FALSE);
g_assert (args [0]->opcode == OP_LDADDR);
var = (MonoInst*)args [0]->inst_p0;
EMIT_NEW_LOAD_MEMBASE (cfg, ins, OP_LOADX_MEMBASE, var->dreg, ldelema_ins->dreg, 0);
ins->klass = cmethod->klass;
return args [0];
}
break;
case SN_CopyTo:
if ((fsig->param_count == 1 || fsig->param_count == 2) && (fsig->params [0]->type == MONO_TYPE_SZARRAY)) {
MonoInst *array_ins = args [1];
MonoInst *index_ins;
MonoInst *ldelema_ins;
int val_vreg, end_index_reg;
val_vreg = load_simd_vreg (cfg, cmethod, args [0], NULL);
/* CopyTo (T[]) or CopyTo (T[], index) */
if (fsig->param_count == 2) {
index_ins = args [2];
} else {
EMIT_NEW_ICONST (cfg, index_ins, 0);
}
/* CopyTo () does complicated argument checks */
mini_emit_bounds_check_offset (cfg, array_ins->dreg, MONO_STRUCT_OFFSET (MonoArray, max_length), index_ins->dreg, "ArgumentOutOfRangeException");
end_index_reg = alloc_ireg (cfg);
int len_reg = alloc_ireg (cfg);
MONO_EMIT_NEW_LOAD_MEMBASE_OP_FLAGS (cfg, OP_LOADI4_MEMBASE, len_reg, array_ins->dreg, MONO_STRUCT_OFFSET (MonoArray, max_length), MONO_INST_INVARIANT_LOAD);
EMIT_NEW_BIALU (cfg, ins, OP_ISUB, end_index_reg, len_reg, index_ins->dreg);
MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, end_index_reg, len);
MONO_EMIT_NEW_COND_EXC (cfg, LT, "ArgumentException");
/* Load the array slice into the simd reg */
ldelema_ins = mini_emit_ldelema_1_ins (cfg, mono_class_from_mono_type_internal (etype), array_ins, index_ins, FALSE, FALSE);
EMIT_NEW_STORE_MEMBASE (cfg, ins, OP_STOREX_MEMBASE, ldelema_ins->dreg, 0, val_vreg);
ins->klass = cmethod->klass;
return ins;
}
break;
case SN_Equals:
if (fsig->param_count == 1 && fsig->ret->type == MONO_TYPE_BOOLEAN && mono_metadata_type_equal (fsig->params [0], type)) {
int sreg1 = load_simd_vreg (cfg, cmethod, args [0], NULL);
return emit_simd_ins (cfg, klass, OP_XEQUAL, sreg1, args [1]->dreg);
} else if (fsig->param_count == 2 && mono_metadata_type_equal (fsig->ret, type) && mono_metadata_type_equal (fsig->params [0], type) && mono_metadata_type_equal (fsig->params [1], type)) {
/* Per element equality */
return emit_xcompare (cfg, klass, etype->type, args [0], args [1]);
}
break;
case SN_op_Equality:
case SN_op_Inequality:
g_assert (fsig->param_count == 2 && fsig->ret->type == MONO_TYPE_BOOLEAN &&
mono_metadata_type_equal (fsig->params [0], type) &&
mono_metadata_type_equal (fsig->params [1], type));
switch (id) {
case SN_op_Equality: return emit_xequal (cfg, klass, args [0], args [1]);
case SN_op_Inequality: return emit_not_xequal (cfg, klass, args [0], args [1]);
default: g_assert_not_reached ();
}
case SN_GreaterThan:
case SN_GreaterThanOrEqual:
case SN_LessThan:
case SN_LessThanOrEqual:
g_assert (fsig->param_count == 2 && mono_metadata_type_equal (fsig->ret, type) && mono_metadata_type_equal (fsig->params [0], type) && mono_metadata_type_equal (fsig->params [1], type));
is_unsigned = etype->type == MONO_TYPE_U1 || etype->type == MONO_TYPE_U2 || etype->type == MONO_TYPE_U4 || etype->type == MONO_TYPE_U8 || etype->type == MONO_TYPE_U;
ins = emit_xcompare (cfg, klass, etype->type, args [0], args [1]);
switch (id) {
case SN_GreaterThan:
ins->inst_c0 = is_unsigned ? CMP_GT_UN : CMP_GT;
break;
case SN_GreaterThanOrEqual:
ins->inst_c0 = is_unsigned ? CMP_GE_UN : CMP_GE;
break;
case SN_LessThan:
ins->inst_c0 = is_unsigned ? CMP_LT_UN : CMP_LT;
break;
case SN_LessThanOrEqual:
ins->inst_c0 = is_unsigned ? CMP_LE_UN : CMP_LE;
break;
default:
g_assert_not_reached ();
}
return ins;
case SN_op_Explicit:
return emit_simd_ins (cfg, klass, OP_XCAST, args [0]->dreg, -1);
case SN_op_Addition:
case SN_op_Subtraction:
case SN_op_Division:
case SN_op_Multiply:
case SN_op_BitwiseAnd:
case SN_op_BitwiseOr:
case SN_op_ExclusiveOr:
case SN_Max:
case SN_Min:
if (!(fsig->param_count == 2 && mono_metadata_type_equal (fsig->ret, type) && mono_metadata_type_equal (fsig->params [0], type) && mono_metadata_type_equal (fsig->params [1], type)))
return NULL;
ins = emit_simd_ins (cfg, klass, OP_XBINOP, args [0]->dreg, args [1]->dreg);
ins->inst_c1 = etype->type;
if (type_enum_is_float (etype->type)) {
switch (id) {
case SN_op_Addition:
ins->inst_c0 = OP_FADD;
break;
case SN_op_Subtraction:
ins->inst_c0 = OP_FSUB;
break;
case SN_op_Multiply:
ins->inst_c0 = OP_FMUL;
break;
case SN_op_Division:
ins->inst_c0 = OP_FDIV;
break;
case SN_Max:
ins->inst_c0 = OP_FMAX;
break;
case SN_Min:
ins->inst_c0 = OP_FMIN;
break;
default:
NULLIFY_INS (ins);
return NULL;
}
} else {
switch (id) {
case SN_op_Addition:
ins->inst_c0 = OP_IADD;
break;
case SN_op_Subtraction:
ins->inst_c0 = OP_ISUB;
break;
/*
case SN_op_Division:
ins->inst_c0 = OP_IDIV;
break;
case SN_op_Multiply:
ins->inst_c0 = OP_IMUL;
break;
*/
case SN_op_BitwiseAnd:
ins->inst_c0 = OP_IAND;
break;
case SN_op_BitwiseOr:
ins->inst_c0 = OP_IOR;
break;
case SN_op_ExclusiveOr:
ins->inst_c0 = OP_IXOR;
break;
case SN_Max:
ins->inst_c0 = OP_IMAX;
break;
case SN_Min:
ins->inst_c0 = OP_IMIN;
break;
default:
NULLIFY_INS (ins);
return NULL;
}
}
return ins;
default:
break;
}
return NULL;
}
#endif // TARGET_AMD64
#ifdef TARGET_ARM64
static SimdIntrinsic armbase_methods [] = {
{SN_LeadingSignCount},
{SN_LeadingZeroCount},
{SN_MultiplyHigh},
{SN_ReverseElementBits},
{SN_get_IsSupported},
};
static SimdIntrinsic crc32_methods [] = {
{SN_ComputeCrc32},
{SN_ComputeCrc32C},
{SN_get_IsSupported}
};
static SimdIntrinsic crypto_aes_methods [] = {
{SN_Decrypt, OP_XOP_X_X_X, INTRINS_AARCH64_AESD},
{SN_Encrypt, OP_XOP_X_X_X, INTRINS_AARCH64_AESE},
{SN_InverseMixColumns, OP_XOP_X_X, INTRINS_AARCH64_AESIMC},
{SN_MixColumns, OP_XOP_X_X, INTRINS_AARCH64_AESMC},
{SN_PolynomialMultiplyWideningLower},
{SN_PolynomialMultiplyWideningUpper},
{SN_get_IsSupported},
};
static SimdIntrinsic sha1_methods [] = {
{SN_FixedRotate, OP_XOP_X_X, INTRINS_AARCH64_SHA1H},
{SN_HashUpdateChoose, OP_XOP_X_X_X_X, INTRINS_AARCH64_SHA1C},
{SN_HashUpdateMajority, OP_XOP_X_X_X_X, INTRINS_AARCH64_SHA1M},
{SN_HashUpdateParity, OP_XOP_X_X_X_X, INTRINS_AARCH64_SHA1P},
{SN_ScheduleUpdate0, OP_XOP_X_X_X_X, INTRINS_AARCH64_SHA1SU0},
{SN_ScheduleUpdate1, OP_XOP_X_X_X, INTRINS_AARCH64_SHA1SU1},
{SN_get_IsSupported}
};
static SimdIntrinsic sha256_methods [] = {
{SN_HashUpdate1, OP_XOP_X_X_X_X, INTRINS_AARCH64_SHA256H},
{SN_HashUpdate2, OP_XOP_X_X_X_X, INTRINS_AARCH64_SHA256H2},
{SN_ScheduleUpdate0, OP_XOP_X_X_X, INTRINS_AARCH64_SHA256SU0},
{SN_ScheduleUpdate1, OP_XOP_X_X_X_X, INTRINS_AARCH64_SHA256SU1},
{SN_get_IsSupported}
};
// This table must be kept in sorted order. ASCII } is sorted after alphanumeric
// characters, so blind use of your editor's "sort lines" facility will
// mis-order the lines.
//
// In Vim you can use `sort /.*{[0-9A-z]*/ r` to sort this table.
static SimdIntrinsic advsimd_methods [] = {
{SN_Abs, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_ABS, None, None, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FABS},
{SN_AbsSaturate, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_SQABS},
{SN_AbsSaturateScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_SQABS},
{SN_AbsScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_ABS, None, None, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FABS},
{SN_AbsoluteCompareGreaterThan},
{SN_AbsoluteCompareGreaterThanOrEqual},
{SN_AbsoluteCompareGreaterThanOrEqualScalar},
{SN_AbsoluteCompareGreaterThanScalar},
{SN_AbsoluteCompareLessThan},
{SN_AbsoluteCompareLessThanOrEqual},
{SN_AbsoluteCompareLessThanOrEqualScalar},
{SN_AbsoluteCompareLessThanScalar},
{SN_AbsoluteDifference, OP_ARM64_SABD, None, OP_ARM64_UABD, None, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_FABD},
{SN_AbsoluteDifferenceAdd, OP_ARM64_SABA, None, OP_ARM64_UABA},
{SN_AbsoluteDifferenceScalar, OP_XOP_OVR_SCALAR_X_X_X, INTRINS_AARCH64_ADV_SIMD_FABD_SCALAR},
{SN_AbsoluteDifferenceWideningLower, OP_ARM64_SABDL, None, OP_ARM64_UABDL},
{SN_AbsoluteDifferenceWideningLowerAndAdd, OP_ARM64_SABAL, None, OP_ARM64_UABAL},
{SN_AbsoluteDifferenceWideningUpper, OP_ARM64_SABDL2, None, OP_ARM64_UABDL2},
{SN_AbsoluteDifferenceWideningUpperAndAdd, OP_ARM64_SABAL2, None, OP_ARM64_UABAL2},
{SN_Add, OP_XBINOP, OP_IADD, None, None, OP_XBINOP, OP_FADD},
{SN_AddAcross, OP_ARM64_XHORIZ, INTRINS_AARCH64_ADV_SIMD_SADDV, OP_ARM64_XHORIZ, INTRINS_AARCH64_ADV_SIMD_UADDV},
{SN_AddAcrossWidening, OP_ARM64_SADDLV, None, OP_ARM64_UADDLV},
{SN_AddHighNarrowingLower, OP_ARM64_ADDHN},
{SN_AddHighNarrowingUpper, OP_ARM64_ADDHN2},
{SN_AddPairwise, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_ADDP, None, None, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_FADDP},
{SN_AddPairwiseScalar, OP_ARM64_ADDP_SCALAR, None, None, None, OP_ARM64_FADDP_SCALAR},
{SN_AddPairwiseWidening, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_SADDLP, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_UADDLP},
{SN_AddPairwiseWideningAndAdd, OP_ARM64_SADALP, None, OP_ARM64_UADALP},
{SN_AddPairwiseWideningAndAddScalar, OP_ARM64_SADALP, None, OP_ARM64_UADALP},
{SN_AddPairwiseWideningScalar, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_SADDLP, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_UADDLP},
{SN_AddRoundedHighNarrowingLower, OP_ARM64_RADDHN},
{SN_AddRoundedHighNarrowingUpper, OP_ARM64_RADDHN2},
{SN_AddSaturate},
{SN_AddSaturateScalar},
{SN_AddScalar, OP_XBINOP_SCALAR, OP_IADD, None, None, OP_XBINOP_SCALAR, OP_FADD},
{SN_AddWideningLower, OP_ARM64_SADD, None, OP_ARM64_UADD},
{SN_AddWideningUpper, OP_ARM64_SADD2, None, OP_ARM64_UADD2},
{SN_And, OP_XBINOP_FORCEINT, XBINOP_FORCEINT_AND},
{SN_BitwiseClear, OP_ARM64_BIC},
{SN_BitwiseSelect, OP_ARM64_BSL},
{SN_Ceiling, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FRINTP},
{SN_CeilingScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FRINTP},
{SN_CompareEqual, OP_XCOMPARE, CMP_EQ, OP_XCOMPARE, CMP_EQ, OP_XCOMPARE_FP, CMP_EQ},
{SN_CompareEqualScalar, OP_XCOMPARE_SCALAR, CMP_EQ, OP_XCOMPARE_SCALAR, CMP_EQ, OP_XCOMPARE_FP_SCALAR, CMP_EQ},
{SN_CompareGreaterThan, OP_XCOMPARE, CMP_GT, OP_XCOMPARE, CMP_GT_UN, OP_XCOMPARE_FP, CMP_GT},
{SN_CompareGreaterThanOrEqual, OP_XCOMPARE, CMP_GE, OP_XCOMPARE, CMP_GE_UN, OP_XCOMPARE_FP, CMP_GE},
{SN_CompareGreaterThanOrEqualScalar, OP_XCOMPARE_SCALAR, CMP_GE, OP_XCOMPARE_SCALAR, CMP_GE_UN, OP_XCOMPARE_FP_SCALAR, CMP_GE},
{SN_CompareGreaterThanScalar, OP_XCOMPARE_SCALAR, CMP_GT, OP_XCOMPARE_SCALAR, CMP_GT_UN, OP_XCOMPARE_FP_SCALAR, CMP_GT},
{SN_CompareLessThan, OP_XCOMPARE, CMP_LT, OP_XCOMPARE, CMP_LT_UN, OP_XCOMPARE_FP, CMP_LT},
{SN_CompareLessThanOrEqual, OP_XCOMPARE, CMP_LE, OP_XCOMPARE, CMP_LE_UN, OP_XCOMPARE_FP, CMP_LE},
{SN_CompareLessThanOrEqualScalar, OP_XCOMPARE_SCALAR, CMP_LE, OP_XCOMPARE_SCALAR, CMP_LE_UN, OP_XCOMPARE_FP_SCALAR, CMP_LE},
{SN_CompareLessThanScalar, OP_XCOMPARE_SCALAR, CMP_LT, OP_XCOMPARE_SCALAR, CMP_LT_UN, OP_XCOMPARE_FP_SCALAR, CMP_LT},
{SN_CompareTest, OP_ARM64_CMTST},
{SN_CompareTestScalar, OP_ARM64_CMTST},
{SN_ConvertToDouble, OP_ARM64_SCVTF, None, OP_ARM64_UCVTF, None, OP_ARM64_FCVTL},
{SN_ConvertToDoubleScalar, OP_ARM64_SCVTF_SCALAR, None, OP_ARM64_UCVTF_SCALAR},
{SN_ConvertToDoubleUpper, OP_ARM64_FCVTL2},
{SN_ConvertToInt32RoundAwayFromZero, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTAS},
{SN_ConvertToInt32RoundAwayFromZeroScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTAS},
{SN_ConvertToInt32RoundToEven, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTNS},
{SN_ConvertToInt32RoundToEvenScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTNS},
{SN_ConvertToInt32RoundToNegativeInfinity, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTMS},
{SN_ConvertToInt32RoundToNegativeInfinityScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTMS},
{SN_ConvertToInt32RoundToPositiveInfinity, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTPS},
{SN_ConvertToInt32RoundToPositiveInfinityScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTPS},
{SN_ConvertToInt32RoundToZero, OP_ARM64_FCVTZS},
{SN_ConvertToInt32RoundToZeroScalar, OP_ARM64_FCVTZS_SCALAR},
{SN_ConvertToInt64RoundAwayFromZero, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTAS},
{SN_ConvertToInt64RoundAwayFromZeroScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTAS},
{SN_ConvertToInt64RoundToEven, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTNS},
{SN_ConvertToInt64RoundToEvenScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTNS},
{SN_ConvertToInt64RoundToNegativeInfinity, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTMS},
{SN_ConvertToInt64RoundToNegativeInfinityScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTMS},
{SN_ConvertToInt64RoundToPositiveInfinity, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTPS},
{SN_ConvertToInt64RoundToPositiveInfinityScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTPS},
{SN_ConvertToInt64RoundToZero, OP_ARM64_FCVTZS},
{SN_ConvertToInt64RoundToZeroScalar, OP_ARM64_FCVTZS_SCALAR},
{SN_ConvertToSingle, OP_ARM64_SCVTF, None, OP_ARM64_UCVTF},
{SN_ConvertToSingleLower, OP_ARM64_FCVTN},
{SN_ConvertToSingleRoundToOddLower, OP_ARM64_FCVTXN},
{SN_ConvertToSingleRoundToOddUpper, OP_ARM64_FCVTXN2},
{SN_ConvertToSingleScalar, OP_ARM64_SCVTF_SCALAR, None, OP_ARM64_UCVTF_SCALAR},
{SN_ConvertToSingleUpper, OP_ARM64_FCVTN2},
{SN_ConvertToUInt32RoundAwayFromZero, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTAU},
{SN_ConvertToUInt32RoundAwayFromZeroScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTAU},
{SN_ConvertToUInt32RoundToEven, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTNU},
{SN_ConvertToUInt32RoundToEvenScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTNU},
{SN_ConvertToUInt32RoundToNegativeInfinity, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTMU},
{SN_ConvertToUInt32RoundToNegativeInfinityScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTMU},
{SN_ConvertToUInt32RoundToPositiveInfinity, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTPU},
{SN_ConvertToUInt32RoundToPositiveInfinityScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTPU},
{SN_ConvertToUInt32RoundToZero, OP_ARM64_FCVTZU},
{SN_ConvertToUInt32RoundToZeroScalar, OP_ARM64_FCVTZU_SCALAR},
{SN_ConvertToUInt64RoundAwayFromZero, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTAU},
{SN_ConvertToUInt64RoundAwayFromZeroScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTAU},
{SN_ConvertToUInt64RoundToEven, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTNU},
{SN_ConvertToUInt64RoundToEvenScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTNU},
{SN_ConvertToUInt64RoundToNegativeInfinity, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTMU},
{SN_ConvertToUInt64RoundToNegativeInfinityScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTMU},
{SN_ConvertToUInt64RoundToPositiveInfinity, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTPU},
{SN_ConvertToUInt64RoundToPositiveInfinityScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTPU},
{SN_ConvertToUInt64RoundToZero, OP_ARM64_FCVTZU},
{SN_ConvertToUInt64RoundToZeroScalar, OP_ARM64_FCVTZU_SCALAR},
{SN_Divide, OP_XBINOP, OP_FDIV},
{SN_DivideScalar, OP_XBINOP_SCALAR, OP_FDIV},
{SN_DuplicateSelectedScalarToVector128},
{SN_DuplicateSelectedScalarToVector64},
{SN_DuplicateToVector128},
{SN_DuplicateToVector64},
{SN_Extract},
{SN_ExtractNarrowingLower, OP_ARM64_XTN},
{SN_ExtractNarrowingSaturateLower, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_SQXTN, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_UQXTN},
{SN_ExtractNarrowingSaturateScalar, OP_ARM64_XNARROW_SCALAR, INTRINS_AARCH64_ADV_SIMD_SQXTN, OP_ARM64_XNARROW_SCALAR, INTRINS_AARCH64_ADV_SIMD_UQXTN},
{SN_ExtractNarrowingSaturateUnsignedLower, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_SQXTUN},
{SN_ExtractNarrowingSaturateUnsignedScalar, OP_ARM64_XNARROW_SCALAR, INTRINS_AARCH64_ADV_SIMD_SQXTUN},
{SN_ExtractNarrowingSaturateUnsignedUpper, OP_ARM64_SQXTUN2},
{SN_ExtractNarrowingSaturateUpper, OP_ARM64_SQXTN2, None, OP_ARM64_UQXTN2},
{SN_ExtractNarrowingUpper, OP_ARM64_XTN2},
{SN_ExtractVector128, OP_ARM64_EXT},
{SN_ExtractVector64, OP_ARM64_EXT},
{SN_Floor, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FRINTM},
{SN_FloorScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FRINTM},
{SN_FusedAddHalving, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_SHADD, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_UHADD},
{SN_FusedAddRoundedHalving, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_SRHADD, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_URHADD},
{SN_FusedMultiplyAdd, OP_ARM64_FMADD},
{SN_FusedMultiplyAddByScalar, OP_ARM64_FMADD_BYSCALAR},
{SN_FusedMultiplyAddBySelectedScalar},
{SN_FusedMultiplyAddNegatedScalar, OP_ARM64_FNMADD_SCALAR},
{SN_FusedMultiplyAddScalar, OP_ARM64_FMADD_SCALAR},
{SN_FusedMultiplyAddScalarBySelectedScalar},
{SN_FusedMultiplySubtract, OP_ARM64_FMSUB},
{SN_FusedMultiplySubtractByScalar, OP_ARM64_FMSUB_BYSCALAR},
{SN_FusedMultiplySubtractBySelectedScalar},
{SN_FusedMultiplySubtractNegatedScalar, OP_ARM64_FNMSUB_SCALAR},
{SN_FusedMultiplySubtractScalar, OP_ARM64_FMSUB_SCALAR},
{SN_FusedMultiplySubtractScalarBySelectedScalar},
{SN_FusedSubtractHalving, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_SHSUB, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_UHSUB},
{SN_Insert},
{SN_InsertScalar},
{SN_InsertSelectedScalar},
{SN_LeadingSignCount, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_CLS},
{SN_LeadingZeroCount, OP_ARM64_CLZ},
{SN_LoadAndInsertScalar, OP_ARM64_LD1_INSERT},
{SN_LoadAndReplicateToVector128, OP_ARM64_LD1R},
{SN_LoadAndReplicateToVector64, OP_ARM64_LD1R},
{SN_LoadPairScalarVector64, OP_ARM64_LDP_SCALAR},
{SN_LoadPairScalarVector64NonTemporal, OP_ARM64_LDNP_SCALAR},
{SN_LoadPairVector128, OP_ARM64_LDP},
{SN_LoadPairVector128NonTemporal, OP_ARM64_LDNP},
{SN_LoadPairVector64, OP_ARM64_LDP},
{SN_LoadPairVector64NonTemporal, OP_ARM64_LDNP},
{SN_LoadVector128, OP_ARM64_LD1},
{SN_LoadVector64, OP_ARM64_LD1},
{SN_Max, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_SMAX, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_UMAX, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_FMAX},
{SN_MaxAcross, OP_ARM64_XHORIZ, INTRINS_AARCH64_ADV_SIMD_SMAXV, OP_ARM64_XHORIZ, INTRINS_AARCH64_ADV_SIMD_UMAXV, OP_ARM64_XHORIZ, INTRINS_AARCH64_ADV_SIMD_FMAXV},
{SN_MaxNumber, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_FMAXNM},
{SN_MaxNumberAcross, OP_ARM64_XHORIZ, INTRINS_AARCH64_ADV_SIMD_FMAXNMV},
{SN_MaxNumberPairwise, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_FMAXNMP},
{SN_MaxNumberPairwiseScalar, OP_ARM64_XHORIZ, INTRINS_AARCH64_ADV_SIMD_FMAXNMV},
{SN_MaxNumberScalar, OP_XOP_OVR_SCALAR_X_X_X, INTRINS_AARCH64_ADV_SIMD_FMAXNM},
{SN_MaxPairwise, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_SMAXP, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_UMAXP, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_FMAXP},
{SN_MaxPairwiseScalar, OP_ARM64_XHORIZ, INTRINS_AARCH64_ADV_SIMD_FMAXV},
{SN_MaxScalar, OP_XOP_OVR_SCALAR_X_X_X, INTRINS_AARCH64_ADV_SIMD_FMAX},
{SN_Min, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_SMIN, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_UMIN, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_FMIN},
{SN_MinAcross, OP_ARM64_XHORIZ, INTRINS_AARCH64_ADV_SIMD_SMINV, OP_ARM64_XHORIZ, INTRINS_AARCH64_ADV_SIMD_UMINV, OP_ARM64_XHORIZ, INTRINS_AARCH64_ADV_SIMD_FMINV},
{SN_MinNumber, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_FMINNM},
{SN_MinNumberAcross, OP_ARM64_XHORIZ, INTRINS_AARCH64_ADV_SIMD_FMINNMV},
{SN_MinNumberPairwise, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_FMINNMP},
{SN_MinNumberPairwiseScalar, OP_ARM64_XHORIZ, INTRINS_AARCH64_ADV_SIMD_FMINNMV},
{SN_MinNumberScalar, OP_XOP_OVR_SCALAR_X_X_X, INTRINS_AARCH64_ADV_SIMD_FMINNM},
{SN_MinPairwise, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_SMINP, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_UMINP, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_FMINP},
{SN_MinPairwiseScalar, OP_ARM64_XHORIZ, INTRINS_AARCH64_ADV_SIMD_FMINV},
{SN_MinScalar, OP_XOP_OVR_SCALAR_X_X_X, INTRINS_AARCH64_ADV_SIMD_FMIN},
{SN_Multiply, OP_XBINOP, OP_IMUL, None, None, OP_XBINOP, OP_FMUL},
{SN_MultiplyAdd, OP_ARM64_MLA},
{SN_MultiplyAddByScalar, OP_ARM64_MLA_SCALAR},
{SN_MultiplyAddBySelectedScalar},
{SN_MultiplyByScalar, OP_XBINOP_BYSCALAR, OP_IMUL, None, None, OP_XBINOP_BYSCALAR, OP_FMUL},
{SN_MultiplyBySelectedScalar},
{SN_MultiplyBySelectedScalarWideningLower},
{SN_MultiplyBySelectedScalarWideningLowerAndAdd},
{SN_MultiplyBySelectedScalarWideningLowerAndSubtract},
{SN_MultiplyBySelectedScalarWideningUpper},
{SN_MultiplyBySelectedScalarWideningUpperAndAdd},
{SN_MultiplyBySelectedScalarWideningUpperAndSubtract},
{SN_MultiplyDoublingByScalarSaturateHigh, OP_XOP_OVR_BYSCALAR_X_X_X, INTRINS_AARCH64_ADV_SIMD_SQDMULH},
{SN_MultiplyDoublingBySelectedScalarSaturateHigh},
{SN_MultiplyDoublingSaturateHigh, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_SQDMULH},
{SN_MultiplyDoublingSaturateHighScalar, OP_XOP_OVR_SCALAR_X_X_X, INTRINS_AARCH64_ADV_SIMD_SQDMULH},
{SN_MultiplyDoublingScalarBySelectedScalarSaturateHigh},
{SN_MultiplyDoublingWideningAndAddSaturateScalar, OP_ARM64_SQDMLAL_SCALAR},
{SN_MultiplyDoublingWideningAndSubtractSaturateScalar, OP_ARM64_SQDMLSL_SCALAR},
{SN_MultiplyDoublingWideningLowerAndAddSaturate, OP_ARM64_SQDMLAL},
{SN_MultiplyDoublingWideningLowerAndSubtractSaturate, OP_ARM64_SQDMLSL},
{SN_MultiplyDoublingWideningLowerByScalarAndAddSaturate, OP_ARM64_SQDMLAL_BYSCALAR},
{SN_MultiplyDoublingWideningLowerByScalarAndSubtractSaturate, OP_ARM64_SQDMLSL_BYSCALAR},
{SN_MultiplyDoublingWideningLowerBySelectedScalarAndAddSaturate},
{SN_MultiplyDoublingWideningLowerBySelectedScalarAndSubtractSaturate},
{SN_MultiplyDoublingWideningSaturateLower, OP_ARM64_SQDMULL},
{SN_MultiplyDoublingWideningSaturateLowerByScalar, OP_ARM64_SQDMULL_BYSCALAR},
{SN_MultiplyDoublingWideningSaturateLowerBySelectedScalar},
{SN_MultiplyDoublingWideningSaturateScalar, OP_ARM64_SQDMULL_SCALAR},
{SN_MultiplyDoublingWideningSaturateScalarBySelectedScalar},
{SN_MultiplyDoublingWideningSaturateUpper, OP_ARM64_SQDMULL2},
{SN_MultiplyDoublingWideningSaturateUpperByScalar, OP_ARM64_SQDMULL2_BYSCALAR},
{SN_MultiplyDoublingWideningSaturateUpperBySelectedScalar},
{SN_MultiplyDoublingWideningScalarBySelectedScalarAndAddSaturate},
{SN_MultiplyDoublingWideningScalarBySelectedScalarAndSubtractSaturate},
{SN_MultiplyDoublingWideningUpperAndAddSaturate, OP_ARM64_SQDMLAL2},
{SN_MultiplyDoublingWideningUpperAndSubtractSaturate, OP_ARM64_SQDMLSL2},
{SN_MultiplyDoublingWideningUpperByScalarAndAddSaturate, OP_ARM64_SQDMLAL2_BYSCALAR},
{SN_MultiplyDoublingWideningUpperByScalarAndSubtractSaturate, OP_ARM64_SQDMLSL2_BYSCALAR},
{SN_MultiplyDoublingWideningUpperBySelectedScalarAndAddSaturate},
{SN_MultiplyDoublingWideningUpperBySelectedScalarAndSubtractSaturate},
{SN_MultiplyExtended, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_FMULX},
{SN_MultiplyExtendedByScalar, OP_XOP_OVR_BYSCALAR_X_X_X, INTRINS_AARCH64_ADV_SIMD_FMULX},
{SN_MultiplyExtendedBySelectedScalar},
{SN_MultiplyExtendedScalar, OP_XOP_OVR_SCALAR_X_X_X, INTRINS_AARCH64_ADV_SIMD_FMULX},
{SN_MultiplyExtendedScalarBySelectedScalar},
{SN_MultiplyRoundedDoublingByScalarSaturateHigh, OP_XOP_OVR_BYSCALAR_X_X_X, INTRINS_AARCH64_ADV_SIMD_SQRDMULH},
{SN_MultiplyRoundedDoublingBySelectedScalarSaturateHigh},
{SN_MultiplyRoundedDoublingSaturateHigh, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_SQRDMULH},
{SN_MultiplyRoundedDoublingSaturateHighScalar, OP_XOP_OVR_SCALAR_X_X_X, INTRINS_AARCH64_ADV_SIMD_SQRDMULH},
{SN_MultiplyRoundedDoublingScalarBySelectedScalarSaturateHigh},
{SN_MultiplyScalar, OP_XBINOP_SCALAR, OP_FMUL},
{SN_MultiplyScalarBySelectedScalar, OP_ARM64_FMUL_SEL},
{SN_MultiplySubtract, OP_ARM64_MLS},
{SN_MultiplySubtractByScalar, OP_ARM64_MLS_SCALAR},
{SN_MultiplySubtractBySelectedScalar},
{SN_MultiplyWideningLower, OP_ARM64_SMULL, None, OP_ARM64_UMULL},
{SN_MultiplyWideningLowerAndAdd, OP_ARM64_SMLAL, None, OP_ARM64_UMLAL},
{SN_MultiplyWideningLowerAndSubtract, OP_ARM64_SMLSL, None, OP_ARM64_UMLSL},
{SN_MultiplyWideningUpper, OP_ARM64_SMULL2, None, OP_ARM64_UMULL2},
{SN_MultiplyWideningUpperAndAdd, OP_ARM64_SMLAL2, None, OP_ARM64_UMLAL2},
{SN_MultiplyWideningUpperAndSubtract, OP_ARM64_SMLSL2, None, OP_ARM64_UMLSL2},
{SN_Negate, OP_ARM64_XNEG},
{SN_NegateSaturate, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_SQNEG},
{SN_NegateSaturateScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_SQNEG},
{SN_NegateScalar, OP_ARM64_XNEG_SCALAR},
{SN_Not, OP_ARM64_MVN},
{SN_Or, OP_XBINOP_FORCEINT, XBINOP_FORCEINT_OR},
{SN_OrNot, OP_XBINOP_FORCEINT, XBINOP_FORCEINT_ORNOT},
{SN_PolynomialMultiply, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_PMUL},
{SN_PolynomialMultiplyWideningLower, OP_ARM64_PMULL},
{SN_PolynomialMultiplyWideningUpper, OP_ARM64_PMULL2},
{SN_PopCount, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_CNT},
{SN_ReciprocalEstimate, None, None, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_URECPE, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FRECPE},
{SN_ReciprocalEstimateScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FRECPE},
{SN_ReciprocalExponentScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FRECPX},
{SN_ReciprocalSquareRootEstimate, None, None, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_URSQRTE, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FRSQRTE},
{SN_ReciprocalSquareRootEstimateScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FRSQRTE},
{SN_ReciprocalSquareRootStep, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_FRSQRTS},
{SN_ReciprocalSquareRootStepScalar, OP_XOP_OVR_SCALAR_X_X_X, INTRINS_AARCH64_ADV_SIMD_FRSQRTS},
{SN_ReciprocalStep, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_FRECPS},
{SN_ReciprocalStepScalar, OP_XOP_OVR_SCALAR_X_X_X, INTRINS_AARCH64_ADV_SIMD_FRECPS},
{SN_ReverseElement16, OP_ARM64_REVN, 16},
{SN_ReverseElement32, OP_ARM64_REVN, 32},
{SN_ReverseElement8, OP_ARM64_REVN, 8},
{SN_ReverseElementBits, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_RBIT},
{SN_RoundAwayFromZero, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FRINTA},
{SN_RoundAwayFromZeroScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FRINTA},
{SN_RoundToNearest, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FRINTN},
{SN_RoundToNearestScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FRINTN},
{SN_RoundToNegativeInfinity, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FRINTM},
{SN_RoundToNegativeInfinityScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FRINTM},
{SN_RoundToPositiveInfinity, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FRINTP},
{SN_RoundToPositiveInfinityScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FRINTP},
{SN_RoundToZero, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FRINTZ},
{SN_RoundToZeroScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FRINTZ},
{SN_ShiftArithmetic, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_SSHL},
{SN_ShiftArithmeticRounded, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_SRSHL},
{SN_ShiftArithmeticRoundedSaturate, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_SQRSHL},
{SN_ShiftArithmeticRoundedSaturateScalar, OP_XOP_OVR_SCALAR_X_X_X, INTRINS_AARCH64_ADV_SIMD_SQRSHL},
{SN_ShiftArithmeticRoundedScalar, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_SRSHL},
{SN_ShiftArithmeticSaturate, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_SQSHL},
{SN_ShiftArithmeticSaturateScalar, OP_XOP_OVR_SCALAR_X_X_X, INTRINS_AARCH64_ADV_SIMD_SQSHL},
{SN_ShiftArithmeticScalar, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_SSHL},
{SN_ShiftLeftAndInsert, OP_ARM64_SLI},
{SN_ShiftLeftAndInsertScalar, OP_ARM64_SLI},
{SN_ShiftLeftLogical, OP_ARM64_SHL},
{SN_ShiftLeftLogicalSaturate},
{SN_ShiftLeftLogicalSaturateScalar},
{SN_ShiftLeftLogicalSaturateUnsigned, OP_ARM64_SQSHLU},
{SN_ShiftLeftLogicalSaturateUnsignedScalar, OP_ARM64_SQSHLU_SCALAR},
{SN_ShiftLeftLogicalScalar, OP_ARM64_SHL},
{SN_ShiftLeftLogicalWideningLower, OP_ARM64_SSHLL, None, OP_ARM64_USHLL},
{SN_ShiftLeftLogicalWideningUpper, OP_ARM64_SSHLL2, None, OP_ARM64_USHLL2},
{SN_ShiftLogical, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_USHL},
{SN_ShiftLogicalRounded, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_URSHL},
{SN_ShiftLogicalRoundedSaturate, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_UQRSHL},
{SN_ShiftLogicalRoundedSaturateScalar, OP_XOP_OVR_SCALAR_X_X_X, INTRINS_AARCH64_ADV_SIMD_UQRSHL},
{SN_ShiftLogicalRoundedScalar, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_URSHL},
{SN_ShiftLogicalSaturate, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_UQSHL},
{SN_ShiftLogicalSaturateScalar, OP_XOP_OVR_SCALAR_X_X_X, INTRINS_AARCH64_ADV_SIMD_UQSHL},
{SN_ShiftLogicalScalar, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_USHL},
{SN_ShiftRightAndInsert, OP_ARM64_SRI},
{SN_ShiftRightAndInsertScalar, OP_ARM64_SRI},
{SN_ShiftRightArithmetic, OP_ARM64_SSHR},
{SN_ShiftRightArithmeticAdd, OP_ARM64_SSRA},
{SN_ShiftRightArithmeticAddScalar, OP_ARM64_SSRA},
{SN_ShiftRightArithmeticNarrowingSaturateLower, OP_ARM64_XNSHIFT, INTRINS_AARCH64_ADV_SIMD_SQSHRN},
{SN_ShiftRightArithmeticNarrowingSaturateScalar, OP_ARM64_XNSHIFT_SCALAR, INTRINS_AARCH64_ADV_SIMD_SQSHRN},
{SN_ShiftRightArithmeticNarrowingSaturateUnsignedLower, OP_ARM64_XNSHIFT, INTRINS_AARCH64_ADV_SIMD_SQSHRUN},
{SN_ShiftRightArithmeticNarrowingSaturateUnsignedScalar, OP_ARM64_XNSHIFT_SCALAR, INTRINS_AARCH64_ADV_SIMD_SQSHRUN},
{SN_ShiftRightArithmeticNarrowingSaturateUnsignedUpper, OP_ARM64_XNSHIFT2, INTRINS_AARCH64_ADV_SIMD_SQSHRUN},
{SN_ShiftRightArithmeticNarrowingSaturateUpper, OP_ARM64_XNSHIFT2, INTRINS_AARCH64_ADV_SIMD_SQSHRN},
{SN_ShiftRightArithmeticRounded, OP_ARM64_SRSHR},
{SN_ShiftRightArithmeticRoundedAdd, OP_ARM64_SRSRA},
{SN_ShiftRightArithmeticRoundedAddScalar, OP_ARM64_SRSRA},
{SN_ShiftRightArithmeticRoundedNarrowingSaturateLower, OP_ARM64_XNSHIFT, INTRINS_AARCH64_ADV_SIMD_SQRSHRN},
{SN_ShiftRightArithmeticRoundedNarrowingSaturateScalar, OP_ARM64_XNSHIFT_SCALAR, INTRINS_AARCH64_ADV_SIMD_SQRSHRN},
{SN_ShiftRightArithmeticRoundedNarrowingSaturateUnsignedLower, OP_ARM64_XNSHIFT, INTRINS_AARCH64_ADV_SIMD_SQRSHRUN},
{SN_ShiftRightArithmeticRoundedNarrowingSaturateUnsignedScalar, OP_ARM64_XNSHIFT_SCALAR, INTRINS_AARCH64_ADV_SIMD_SQRSHRUN},
{SN_ShiftRightArithmeticRoundedNarrowingSaturateUnsignedUpper, OP_ARM64_XNSHIFT2, INTRINS_AARCH64_ADV_SIMD_SQRSHRUN},
{SN_ShiftRightArithmeticRoundedNarrowingSaturateUpper, OP_ARM64_XNSHIFT2, INTRINS_AARCH64_ADV_SIMD_SQRSHRN},
{SN_ShiftRightArithmeticRoundedScalar, OP_ARM64_SRSHR},
{SN_ShiftRightArithmeticScalar, OP_ARM64_SSHR},
{SN_ShiftRightLogical, OP_ARM64_USHR},
{SN_ShiftRightLogicalAdd, OP_ARM64_USRA},
{SN_ShiftRightLogicalAddScalar, OP_ARM64_USRA},
{SN_ShiftRightLogicalNarrowingLower, OP_ARM64_SHRN},
{SN_ShiftRightLogicalNarrowingSaturateLower, OP_ARM64_XNSHIFT, INTRINS_AARCH64_ADV_SIMD_UQSHRN},
{SN_ShiftRightLogicalNarrowingSaturateScalar, OP_ARM64_XNSHIFT_SCALAR, INTRINS_AARCH64_ADV_SIMD_UQSHRN},
{SN_ShiftRightLogicalNarrowingSaturateUpper, OP_ARM64_XNSHIFT2, INTRINS_AARCH64_ADV_SIMD_UQSHRN},
{SN_ShiftRightLogicalNarrowingUpper, OP_ARM64_SHRN2},
{SN_ShiftRightLogicalRounded, OP_ARM64_URSHR},
{SN_ShiftRightLogicalRoundedAdd, OP_ARM64_URSRA},
{SN_ShiftRightLogicalRoundedAddScalar, OP_ARM64_URSRA},
{SN_ShiftRightLogicalRoundedNarrowingLower, OP_ARM64_XNSHIFT, INTRINS_AARCH64_ADV_SIMD_RSHRN},
{SN_ShiftRightLogicalRoundedNarrowingSaturateLower, OP_ARM64_XNSHIFT, INTRINS_AARCH64_ADV_SIMD_UQRSHRN},
{SN_ShiftRightLogicalRoundedNarrowingSaturateScalar, OP_ARM64_XNSHIFT_SCALAR, INTRINS_AARCH64_ADV_SIMD_UQRSHRN},
{SN_ShiftRightLogicalRoundedNarrowingSaturateUpper, OP_ARM64_XNSHIFT2, INTRINS_AARCH64_ADV_SIMD_UQRSHRN},
{SN_ShiftRightLogicalRoundedNarrowingUpper, OP_ARM64_XNSHIFT2, INTRINS_AARCH64_ADV_SIMD_RSHRN},
{SN_ShiftRightLogicalRoundedScalar, OP_ARM64_URSHR},
{SN_ShiftRightLogicalScalar, OP_ARM64_USHR},
{SN_SignExtendWideningLower, OP_ARM64_SXTL},
{SN_SignExtendWideningUpper, OP_ARM64_SXTL2},
{SN_Sqrt, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FSQRT},
{SN_SqrtScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FSQRT},
{SN_Store, OP_ARM64_ST1},
{SN_StorePair, OP_ARM64_STP},
{SN_StorePairNonTemporal, OP_ARM64_STNP},
{SN_StorePairScalar, OP_ARM64_STP_SCALAR},
{SN_StorePairScalarNonTemporal, OP_ARM64_STNP_SCALAR},
{SN_StoreSelectedScalar, OP_ARM64_ST1_SCALAR},
{SN_Subtract, OP_XBINOP, OP_ISUB, None, None, OP_XBINOP, OP_FSUB},
{SN_SubtractHighNarrowingLower, OP_ARM64_SUBHN},
{SN_SubtractHighNarrowingUpper, OP_ARM64_SUBHN2},
{SN_SubtractRoundedHighNarrowingLower, OP_ARM64_RSUBHN},
{SN_SubtractRoundedHighNarrowingUpper, OP_ARM64_RSUBHN2},
{SN_SubtractSaturate, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_SQSUB, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_UQSUB},
{SN_SubtractSaturateScalar, OP_XOP_OVR_SCALAR_X_X_X, INTRINS_AARCH64_ADV_SIMD_SQSUB, OP_XOP_OVR_SCALAR_X_X_X, INTRINS_AARCH64_ADV_SIMD_UQSUB},
{SN_SubtractScalar, OP_XBINOP_SCALAR, OP_ISUB, None, None, OP_XBINOP_SCALAR, OP_FSUB},
{SN_SubtractWideningLower, OP_ARM64_SSUB, None, OP_ARM64_USUB},
{SN_SubtractWideningUpper, OP_ARM64_SSUB2, None, OP_ARM64_USUB2},
{SN_TransposeEven, OP_ARM64_TRN1},
{SN_TransposeOdd, OP_ARM64_TRN2},
{SN_UnzipEven, OP_ARM64_UZP1},
{SN_UnzipOdd, OP_ARM64_UZP2},
{SN_VectorTableLookup, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_TBL1},
{SN_VectorTableLookupExtension, OP_XOP_OVR_X_X_X_X, INTRINS_AARCH64_ADV_SIMD_TBX1},
{SN_Xor, OP_XBINOP_FORCEINT, XBINOP_FORCEINT_XOR},
{SN_ZeroExtendWideningLower, OP_ARM64_UXTL},
{SN_ZeroExtendWideningUpper, OP_ARM64_UXTL2},
{SN_ZipHigh, OP_ARM64_ZIP2},
{SN_ZipLow, OP_ARM64_ZIP1},
{SN_get_IsSupported},
};
static const SimdIntrinsic rdm_methods [] = {
{SN_MultiplyRoundedDoublingAndAddSaturateHigh, OP_ARM64_SQRDMLAH},
{SN_MultiplyRoundedDoublingAndAddSaturateHighScalar, OP_ARM64_SQRDMLAH_SCALAR},
{SN_MultiplyRoundedDoublingAndSubtractSaturateHigh, OP_ARM64_SQRDMLSH},
{SN_MultiplyRoundedDoublingAndSubtractSaturateHighScalar, OP_ARM64_SQRDMLSH_SCALAR},
{SN_MultiplyRoundedDoublingBySelectedScalarAndAddSaturateHigh},
{SN_MultiplyRoundedDoublingBySelectedScalarAndSubtractSaturateHigh},
{SN_MultiplyRoundedDoublingScalarBySelectedScalarAndAddSaturateHigh},
{SN_MultiplyRoundedDoublingScalarBySelectedScalarAndSubtractSaturateHigh},
{SN_get_IsSupported},
};
static const SimdIntrinsic dp_methods [] = {
{SN_DotProduct, OP_XOP_OVR_X_X_X_X, INTRINS_AARCH64_ADV_SIMD_SDOT, OP_XOP_OVR_X_X_X_X, INTRINS_AARCH64_ADV_SIMD_UDOT},
{SN_DotProductBySelectedQuadruplet},
{SN_get_IsSupported},
};
static const IntrinGroup supported_arm_intrinsics [] = {
{ "AdvSimd", MONO_CPU_ARM64_NEON, advsimd_methods, sizeof (advsimd_methods) },
{ "Aes", MONO_CPU_ARM64_CRYPTO, crypto_aes_methods, sizeof (crypto_aes_methods) },
{ "ArmBase", MONO_CPU_ARM64_BASE, armbase_methods, sizeof (armbase_methods) },
{ "Crc32", MONO_CPU_ARM64_CRC, crc32_methods, sizeof (crc32_methods) },
{ "Dp", MONO_CPU_ARM64_DP, dp_methods, sizeof (dp_methods) },
{ "Rdm", MONO_CPU_ARM64_RDM, rdm_methods, sizeof (rdm_methods) },
{ "Sha1", MONO_CPU_ARM64_CRYPTO, sha1_methods, sizeof (sha1_methods) },
{ "Sha256", MONO_CPU_ARM64_CRYPTO, sha256_methods, sizeof (sha256_methods) },
};
static MonoInst*
emit_arm64_intrinsics (
MonoCompile *cfg, MonoMethodSignature *fsig, MonoInst **args,
MonoClass *klass, const IntrinGroup *intrin_group,
const SimdIntrinsic *info, int id, MonoTypeEnum arg0_type,
gboolean is_64bit)
{
MonoCPUFeatures feature = intrin_group->feature;
gboolean arg0_i32 = (arg0_type == MONO_TYPE_I4) || (arg0_type == MONO_TYPE_U4);
#if TARGET_SIZEOF_VOID_P == 4
arg0_i32 = arg0_i32 || (arg0_type == MONO_TYPE_I) || (arg0_type == MONO_TYPE_U);
#endif
if (feature == MONO_CPU_ARM64_BASE) {
switch (id) {
case SN_LeadingZeroCount:
return emit_simd_ins_for_sig (cfg, klass, arg0_i32 ? OP_LZCNT32 : OP_LZCNT64, 0, arg0_type, fsig, args);
case SN_LeadingSignCount:
return emit_simd_ins_for_sig (cfg, klass, arg0_i32 ? OP_LSCNT32 : OP_LSCNT64, 0, arg0_type, fsig, args);
case SN_MultiplyHigh:
return emit_simd_ins_for_sig (cfg, klass,
(arg0_type == MONO_TYPE_I8 ? OP_ARM64_SMULH : OP_ARM64_UMULH), 0, arg0_type, fsig, args);
case SN_ReverseElementBits:
return emit_simd_ins_for_sig (cfg, klass,
(is_64bit ? OP_XOP_I8_I8 : OP_XOP_I4_I4),
(is_64bit ? INTRINS_BITREVERSE_I64 : INTRINS_BITREVERSE_I32),
arg0_type, fsig, args);
default:
g_assert_not_reached (); // if a new API is added we need to either implement it or change IsSupported to false
}
}
if (feature == MONO_CPU_ARM64_CRC) {
switch (id) {
case SN_ComputeCrc32:
case SN_ComputeCrc32C: {
IntrinsicId op = (IntrinsicId)0;
gboolean is_c = info->id == SN_ComputeCrc32C;
switch (get_underlying_type (fsig->params [1])) {
case MONO_TYPE_U1: op = is_c ? INTRINS_AARCH64_CRC32CB : INTRINS_AARCH64_CRC32B; break;
case MONO_TYPE_U2: op = is_c ? INTRINS_AARCH64_CRC32CH : INTRINS_AARCH64_CRC32H; break;
case MONO_TYPE_U4: op = is_c ? INTRINS_AARCH64_CRC32CW : INTRINS_AARCH64_CRC32W; break;
case MONO_TYPE_U8: op = is_c ? INTRINS_AARCH64_CRC32CX : INTRINS_AARCH64_CRC32X; break;
default: g_assert_not_reached (); break;
}
return emit_simd_ins_for_sig (cfg, klass, is_64bit ? OP_XOP_I4_I4_I8 : OP_XOP_I4_I4_I4, op, arg0_type, fsig, args);
}
default:
g_assert_not_reached (); // if a new API is added we need to either implement it or change IsSupported to false
}
}
if (feature == MONO_CPU_ARM64_NEON) {
switch (id) {
case SN_AbsoluteCompareGreaterThan:
case SN_AbsoluteCompareGreaterThanOrEqual:
case SN_AbsoluteCompareLessThan:
case SN_AbsoluteCompareLessThanOrEqual:
case SN_AbsoluteCompareGreaterThanScalar:
case SN_AbsoluteCompareGreaterThanOrEqualScalar:
case SN_AbsoluteCompareLessThanScalar:
case SN_AbsoluteCompareLessThanOrEqualScalar: {
gboolean reverse_args = FALSE;
gboolean use_geq = FALSE;
gboolean scalar = FALSE;
MonoInst *cmp_args [] = { args [0], args [1] };
switch (id) {
case SN_AbsoluteCompareGreaterThanScalar: scalar = TRUE;
case SN_AbsoluteCompareGreaterThan: break;
case SN_AbsoluteCompareGreaterThanOrEqualScalar: scalar = TRUE;
case SN_AbsoluteCompareGreaterThanOrEqual: use_geq = TRUE; break;
case SN_AbsoluteCompareLessThanScalar: scalar = TRUE;
case SN_AbsoluteCompareLessThan: reverse_args = TRUE; break;
case SN_AbsoluteCompareLessThanOrEqualScalar: scalar = TRUE;
case SN_AbsoluteCompareLessThanOrEqual: reverse_args = TRUE; use_geq = TRUE; break;
}
if (reverse_args) {
cmp_args [0] = args [1];
cmp_args [1] = args [0];
}
int iid = use_geq ? INTRINS_AARCH64_ADV_SIMD_FACGE : INTRINS_AARCH64_ADV_SIMD_FACGT;
return emit_simd_ins_for_sig (cfg, klass, OP_ARM64_ABSCOMPARE, iid, scalar, fsig, cmp_args);
}
case SN_AddSaturate:
case SN_AddSaturateScalar: {
gboolean arg0_unsigned = type_is_unsigned (fsig->params [0]);
gboolean arg1_unsigned = type_is_unsigned (fsig->params [1]);
int iid = 0;
if (arg0_unsigned && arg1_unsigned)
iid = INTRINS_AARCH64_ADV_SIMD_UQADD;
else if (arg0_unsigned && !arg1_unsigned)
iid = INTRINS_AARCH64_ADV_SIMD_USQADD;
else if (!arg0_unsigned && arg1_unsigned)
iid = INTRINS_AARCH64_ADV_SIMD_SUQADD;
else
iid = INTRINS_AARCH64_ADV_SIMD_SQADD;
int op = id == SN_AddSaturateScalar ? OP_XOP_OVR_SCALAR_X_X_X : OP_XOP_OVR_X_X_X;
return emit_simd_ins_for_sig (cfg, klass, op, iid, arg0_type, fsig, args);
}
case SN_DuplicateSelectedScalarToVector128:
case SN_DuplicateSelectedScalarToVector64:
case SN_DuplicateToVector64:
case SN_DuplicateToVector128: {
MonoClass *ret_klass = mono_class_from_mono_type_internal (fsig->ret);
MonoType *rtype = get_vector_t_elem_type (fsig->ret);
int scalar_src_reg = args [0]->dreg;
switch (id) {
case SN_DuplicateSelectedScalarToVector128:
case SN_DuplicateSelectedScalarToVector64: {
MonoInst *ins = emit_simd_ins (cfg, ret_klass, type_to_xextract_op (rtype->type), args [0]->dreg, args [1]->dreg);
ins->inst_c1 = arg0_type;
scalar_src_reg = ins->dreg;
break;
}
}
return emit_simd_ins (cfg, ret_klass, type_to_expand_op (rtype), scalar_src_reg, -1);
}
case SN_Extract: {
int extract_op = type_to_xextract_op (arg0_type);
MonoInst *ins = emit_simd_ins (cfg, klass, extract_op, args [0]->dreg, args [1]->dreg);
ins->inst_c1 = arg0_type;
return ins;
}
case SN_InsertSelectedScalar:
case SN_InsertScalar:
case SN_Insert: {
MonoClass *ret_klass = mono_class_from_mono_type_internal (fsig->ret);
int insert_op = type_to_xinsert_op (arg0_type);
int extract_op = type_to_extract_op (arg0_type);
int val_src_reg = args [2]->dreg;
switch (id) {
case SN_InsertSelectedScalar: {
MonoInst *scalar = emit_simd_ins (cfg, klass, OP_ARM64_SELECT_SCALAR, args [2]->dreg, args [3]->dreg);
val_src_reg = scalar->dreg;
// fallthrough
}
case SN_InsertScalar: {
MonoInst *ins = emit_simd_ins (cfg, klass, extract_op, val_src_reg, -1);
ins->inst_c0 = 0;
ins->inst_c1 = arg0_type;
val_src_reg = ins->dreg;
break;
}
}
MonoInst *ins = emit_simd_ins (cfg, ret_klass, insert_op, args [0]->dreg, val_src_reg);
ins->sreg3 = args [1]->dreg;
ins->inst_c1 = arg0_type;
return ins;
}
case SN_ShiftLeftLogicalSaturate:
case SN_ShiftLeftLogicalSaturateScalar: {
MonoClass *ret_klass = mono_class_from_mono_type_internal (fsig->ret);
MonoType *etype = get_vector_t_elem_type (fsig->ret);
gboolean is_unsigned = type_is_unsigned (fsig->ret);
gboolean scalar = id == SN_ShiftLeftLogicalSaturateScalar;
int s2v = scalar ? OP_CREATE_SCALAR_UNSAFE : type_to_expand_op (etype);
int xop = scalar ? OP_XOP_OVR_SCALAR_X_X_X : OP_XOP_OVR_X_X_X;
int iid = is_unsigned ? INTRINS_AARCH64_ADV_SIMD_UQSHL : INTRINS_AARCH64_ADV_SIMD_SQSHL;
MonoInst *shift_vector = emit_simd_ins (cfg, ret_klass, s2v, args [1]->dreg, -1);
shift_vector->inst_c1 = etype->type;
MonoInst *ret = emit_simd_ins (cfg, ret_klass, xop, args [0]->dreg, shift_vector->dreg);
ret->inst_c0 = iid;
ret->inst_c1 = etype->type;
return ret;
}
case SN_MultiplyRoundedDoublingBySelectedScalarSaturateHigh:
case SN_MultiplyRoundedDoublingScalarBySelectedScalarSaturateHigh:
case SN_MultiplyDoublingScalarBySelectedScalarSaturateHigh:
case SN_MultiplyDoublingWideningSaturateScalarBySelectedScalar:
case SN_MultiplyExtendedBySelectedScalar:
case SN_MultiplyExtendedScalarBySelectedScalar:
case SN_MultiplyBySelectedScalar:
case SN_MultiplyBySelectedScalarWideningLower:
case SN_MultiplyBySelectedScalarWideningUpper:
case SN_MultiplyDoublingBySelectedScalarSaturateHigh:
case SN_MultiplyDoublingWideningSaturateLowerBySelectedScalar:
case SN_MultiplyDoublingWideningSaturateUpperBySelectedScalar: {
MonoClass *ret_klass = mono_class_from_mono_type_internal (fsig->ret);
gboolean is_unsigned = type_is_unsigned (fsig->ret);
gboolean is_float = type_is_float (fsig->ret);
int opcode = 0;
int c0 = 0;
switch (id) {
case SN_MultiplyRoundedDoublingBySelectedScalarSaturateHigh: opcode = OP_XOP_OVR_BYSCALAR_X_X_X; c0 = INTRINS_AARCH64_ADV_SIMD_SQRDMULH; break;
case SN_MultiplyRoundedDoublingScalarBySelectedScalarSaturateHigh: opcode = OP_XOP_OVR_SCALAR_X_X_X; c0 = INTRINS_AARCH64_ADV_SIMD_SQRDMULH; break;
case SN_MultiplyDoublingScalarBySelectedScalarSaturateHigh: opcode = OP_XOP_OVR_SCALAR_X_X_X; c0 = INTRINS_AARCH64_ADV_SIMD_SQDMULH; break;
case SN_MultiplyDoublingWideningSaturateScalarBySelectedScalar: opcode = OP_ARM64_SQDMULL_SCALAR; break;
case SN_MultiplyExtendedBySelectedScalar: opcode = OP_XOP_OVR_BYSCALAR_X_X_X; c0 = INTRINS_AARCH64_ADV_SIMD_FMULX; break;
case SN_MultiplyExtendedScalarBySelectedScalar: opcode = OP_XOP_OVR_SCALAR_X_X_X; c0 = INTRINS_AARCH64_ADV_SIMD_FMULX; break;
case SN_MultiplyBySelectedScalar: opcode = OP_XBINOP_BYSCALAR; c0 = OP_IMUL; break;
case SN_MultiplyBySelectedScalarWideningLower: opcode = OP_ARM64_SMULL_SCALAR; break;
case SN_MultiplyBySelectedScalarWideningUpper: opcode = OP_ARM64_SMULL2_SCALAR; break;
case SN_MultiplyDoublingBySelectedScalarSaturateHigh: opcode = OP_XOP_OVR_BYSCALAR_X_X_X; c0 = INTRINS_AARCH64_ADV_SIMD_SQDMULH; break;
case SN_MultiplyDoublingWideningSaturateLowerBySelectedScalar: opcode = OP_ARM64_SQDMULL_BYSCALAR; break;
case SN_MultiplyDoublingWideningSaturateUpperBySelectedScalar: opcode = OP_ARM64_SQDMULL2_BYSCALAR; break;
default: g_assert_not_reached();
}
if (is_unsigned)
switch (opcode) {
case OP_ARM64_SMULL_SCALAR: opcode = OP_ARM64_UMULL_SCALAR; break;
case OP_ARM64_SMULL2_SCALAR: opcode = OP_ARM64_UMULL2_SCALAR; break;
}
if (is_float)
switch (opcode) {
case OP_XBINOP_BYSCALAR: c0 = OP_FMUL;
}
MonoInst *scalar = emit_simd_ins (cfg, ret_klass, OP_ARM64_SELECT_SCALAR, args [1]->dreg, args [2]->dreg);
MonoInst *ret = emit_simd_ins (cfg, ret_klass, opcode, args [0]->dreg, scalar->dreg);
ret->inst_c0 = c0;
ret->inst_c1 = arg0_type;
return ret;
}
case SN_FusedMultiplyAddBySelectedScalar:
case SN_FusedMultiplyAddScalarBySelectedScalar:
case SN_FusedMultiplySubtractBySelectedScalar:
case SN_FusedMultiplySubtractScalarBySelectedScalar:
case SN_MultiplyDoublingWideningScalarBySelectedScalarAndAddSaturate:
case SN_MultiplyDoublingWideningScalarBySelectedScalarAndSubtractSaturate:
case SN_MultiplyAddBySelectedScalar:
case SN_MultiplySubtractBySelectedScalar:
case SN_MultiplyBySelectedScalarWideningLowerAndAdd:
case SN_MultiplyBySelectedScalarWideningLowerAndSubtract:
case SN_MultiplyBySelectedScalarWideningUpperAndAdd:
case SN_MultiplyBySelectedScalarWideningUpperAndSubtract:
case SN_MultiplyDoublingWideningLowerBySelectedScalarAndAddSaturate:
case SN_MultiplyDoublingWideningLowerBySelectedScalarAndSubtractSaturate:
case SN_MultiplyDoublingWideningUpperBySelectedScalarAndAddSaturate:
case SN_MultiplyDoublingWideningUpperBySelectedScalarAndSubtractSaturate: {
MonoClass *ret_klass = mono_class_from_mono_type_internal (fsig->ret);
gboolean is_unsigned = type_is_unsigned (fsig->ret);
int opcode = 0;
switch (id) {
case SN_FusedMultiplyAddBySelectedScalar: opcode = OP_ARM64_FMADD_BYSCALAR; break;
case SN_FusedMultiplyAddScalarBySelectedScalar: opcode = OP_ARM64_FMADD_SCALAR; break;
case SN_FusedMultiplySubtractBySelectedScalar: opcode = OP_ARM64_FMSUB_BYSCALAR; break;
case SN_FusedMultiplySubtractScalarBySelectedScalar: opcode = OP_ARM64_FMSUB_SCALAR; break;
case SN_MultiplyDoublingWideningScalarBySelectedScalarAndAddSaturate: opcode = OP_ARM64_SQDMLAL_SCALAR; break;
case SN_MultiplyDoublingWideningScalarBySelectedScalarAndSubtractSaturate: opcode = OP_ARM64_SQDMLSL_SCALAR; break;
case SN_MultiplyAddBySelectedScalar: opcode = OP_ARM64_MLA_SCALAR; break;
case SN_MultiplySubtractBySelectedScalar: opcode = OP_ARM64_MLS_SCALAR; break;
case SN_MultiplyBySelectedScalarWideningLowerAndAdd: opcode = OP_ARM64_SMLAL_SCALAR; break;
case SN_MultiplyBySelectedScalarWideningLowerAndSubtract: opcode = OP_ARM64_SMLSL_SCALAR; break;
case SN_MultiplyBySelectedScalarWideningUpperAndAdd: opcode = OP_ARM64_SMLAL2_SCALAR; break;
case SN_MultiplyBySelectedScalarWideningUpperAndSubtract: opcode = OP_ARM64_SMLSL2_SCALAR; break;
case SN_MultiplyDoublingWideningLowerBySelectedScalarAndAddSaturate: opcode = OP_ARM64_SQDMLAL_BYSCALAR; break;
case SN_MultiplyDoublingWideningLowerBySelectedScalarAndSubtractSaturate: opcode = OP_ARM64_SQDMLSL_BYSCALAR; break;
case SN_MultiplyDoublingWideningUpperBySelectedScalarAndAddSaturate: opcode = OP_ARM64_SQDMLAL2_BYSCALAR; break;
case SN_MultiplyDoublingWideningUpperBySelectedScalarAndSubtractSaturate: opcode = OP_ARM64_SQDMLSL2_BYSCALAR; break;
default: g_assert_not_reached();
}
if (is_unsigned)
switch (opcode) {
case OP_ARM64_SMLAL_SCALAR: opcode = OP_ARM64_UMLAL_SCALAR; break;
case OP_ARM64_SMLSL_SCALAR: opcode = OP_ARM64_UMLSL_SCALAR; break;
case OP_ARM64_SMLAL2_SCALAR: opcode = OP_ARM64_UMLAL2_SCALAR; break;
case OP_ARM64_SMLSL2_SCALAR: opcode = OP_ARM64_UMLSL2_SCALAR; break;
}
MonoInst *scalar = emit_simd_ins (cfg, ret_klass, OP_ARM64_SELECT_SCALAR, args [2]->dreg, args [3]->dreg);
MonoInst *ret = emit_simd_ins (cfg, ret_klass, opcode, args [0]->dreg, args [1]->dreg);
ret->sreg3 = scalar->dreg;
return ret;
}
default:
g_assert_not_reached ();
}
}
if (feature == MONO_CPU_ARM64_CRYPTO) {
switch (id) {
case SN_PolynomialMultiplyWideningLower:
return emit_simd_ins_for_sig (cfg, klass, OP_XOP_X_X_X, INTRINS_AARCH64_PMULL64, 0, fsig, args);
case SN_PolynomialMultiplyWideningUpper:
return emit_simd_ins_for_sig (cfg, klass, OP_XOP_X_X_X, INTRINS_AARCH64_PMULL64, 1, fsig, args);
default:
g_assert_not_reached ();
}
}
if (feature == MONO_CPU_ARM64_RDM) {
switch (id) {
case SN_MultiplyRoundedDoublingBySelectedScalarAndAddSaturateHigh:
case SN_MultiplyRoundedDoublingBySelectedScalarAndSubtractSaturateHigh:
case SN_MultiplyRoundedDoublingScalarBySelectedScalarAndAddSaturateHigh:
case SN_MultiplyRoundedDoublingScalarBySelectedScalarAndSubtractSaturateHigh: {
MonoClass *ret_klass = mono_class_from_mono_type_internal (fsig->ret);
int opcode = 0;
switch (id) {
case SN_MultiplyRoundedDoublingBySelectedScalarAndAddSaturateHigh: opcode = OP_ARM64_SQRDMLAH_BYSCALAR; break;
case SN_MultiplyRoundedDoublingBySelectedScalarAndSubtractSaturateHigh: opcode = OP_ARM64_SQRDMLSH_BYSCALAR; break;
case SN_MultiplyRoundedDoublingScalarBySelectedScalarAndAddSaturateHigh: opcode = OP_ARM64_SQRDMLAH_SCALAR; break;
case SN_MultiplyRoundedDoublingScalarBySelectedScalarAndSubtractSaturateHigh: opcode = OP_ARM64_SQRDMLSH_SCALAR; break;
}
MonoInst *scalar = emit_simd_ins (cfg, ret_klass, OP_ARM64_SELECT_SCALAR, args [2]->dreg, args [3]->dreg);
MonoInst *ret = emit_simd_ins (cfg, ret_klass, opcode, args [0]->dreg, args [1]->dreg);
ret->inst_c1 = arg0_type;
ret->sreg3 = scalar->dreg;
return ret;
}
default:
g_assert_not_reached ();
}
}
if (feature == MONO_CPU_ARM64_DP) {
switch (id) {
case SN_DotProductBySelectedQuadruplet: {
MonoClass *ret_klass = mono_class_from_mono_type_internal (fsig->ret);
MonoClass *arg_klass = mono_class_from_mono_type_internal (fsig->params [1]);
MonoClass *quad_klass = mono_class_from_mono_type_internal (fsig->params [2]);
gboolean is_unsigned = type_is_unsigned (fsig->ret);
int iid = is_unsigned ? INTRINS_AARCH64_ADV_SIMD_UDOT : INTRINS_AARCH64_ADV_SIMD_SDOT;
MonoInst *quad = emit_simd_ins (cfg, arg_klass, OP_ARM64_SELECT_QUAD, args [2]->dreg, args [3]->dreg);
quad->data.op [1].klass = quad_klass;
MonoInst *ret = emit_simd_ins (cfg, ret_klass, OP_XOP_OVR_X_X_X_X, args [0]->dreg, args [1]->dreg);
ret->sreg3 = quad->dreg;
ret->inst_c0 = iid;
return ret;
}
default:
g_assert_not_reached ();
}
}
return NULL;
}
#endif // TARGET_ARM64
#ifdef TARGET_AMD64
static SimdIntrinsic sse_methods [] = {
{SN_Add, OP_XBINOP, OP_FADD},
{SN_AddScalar, OP_SSE_ADDSS},
{SN_And, OP_SSE_AND},
{SN_AndNot, OP_SSE_ANDN},
{SN_CompareEqual, OP_XCOMPARE_FP, CMP_EQ},
{SN_CompareGreaterThan, OP_XCOMPARE_FP,CMP_GT},
{SN_CompareGreaterThanOrEqual, OP_XCOMPARE_FP, CMP_GE},
{SN_CompareLessThan, OP_XCOMPARE_FP, CMP_LT},
{SN_CompareLessThanOrEqual, OP_XCOMPARE_FP, CMP_LE},
{SN_CompareNotEqual, OP_XCOMPARE_FP, CMP_NE},
{SN_CompareNotGreaterThan, OP_XCOMPARE_FP, CMP_LE_UN},
{SN_CompareNotGreaterThanOrEqual, OP_XCOMPARE_FP, CMP_LT_UN},
{SN_CompareNotLessThan, OP_XCOMPARE_FP, CMP_GE_UN},
{SN_CompareNotLessThanOrEqual, OP_XCOMPARE_FP, CMP_GT_UN},
{SN_CompareOrdered, OP_XCOMPARE_FP, CMP_ORD},
{SN_CompareScalarEqual, OP_SSE_CMPSS, CMP_EQ},
{SN_CompareScalarGreaterThan, OP_SSE_CMPSS, CMP_GT},
{SN_CompareScalarGreaterThanOrEqual, OP_SSE_CMPSS, CMP_GE},
{SN_CompareScalarLessThan, OP_SSE_CMPSS, CMP_LT},
{SN_CompareScalarLessThanOrEqual, OP_SSE_CMPSS, CMP_LE},
{SN_CompareScalarNotEqual, OP_SSE_CMPSS, CMP_NE},
{SN_CompareScalarNotGreaterThan, OP_SSE_CMPSS, CMP_LE_UN},
{SN_CompareScalarNotGreaterThanOrEqual, OP_SSE_CMPSS, CMP_LT_UN},
{SN_CompareScalarNotLessThan, OP_SSE_CMPSS, CMP_GE_UN},
{SN_CompareScalarNotLessThanOrEqual, OP_SSE_CMPSS, CMP_GT_UN},
{SN_CompareScalarOrdered, OP_SSE_CMPSS, CMP_ORD},
{SN_CompareScalarOrderedEqual, OP_SSE_COMISS, CMP_EQ},
{SN_CompareScalarOrderedGreaterThan, OP_SSE_COMISS, CMP_GT},
{SN_CompareScalarOrderedGreaterThanOrEqual, OP_SSE_COMISS, CMP_GE},
{SN_CompareScalarOrderedLessThan, OP_SSE_COMISS, CMP_LT},
{SN_CompareScalarOrderedLessThanOrEqual, OP_SSE_COMISS, CMP_LE},
{SN_CompareScalarOrderedNotEqual, OP_SSE_COMISS, CMP_NE},
{SN_CompareScalarUnordered, OP_SSE_CMPSS, CMP_UNORD},
{SN_CompareScalarUnorderedEqual, OP_SSE_UCOMISS, CMP_EQ},
{SN_CompareScalarUnorderedGreaterThan, OP_SSE_UCOMISS, CMP_GT},
{SN_CompareScalarUnorderedGreaterThanOrEqual, OP_SSE_UCOMISS, CMP_GE},
{SN_CompareScalarUnorderedLessThan, OP_SSE_UCOMISS, CMP_LT},
{SN_CompareScalarUnorderedLessThanOrEqual, OP_SSE_UCOMISS, CMP_LE},
{SN_CompareScalarUnorderedNotEqual, OP_SSE_UCOMISS, CMP_NE},
{SN_CompareUnordered, OP_XCOMPARE_FP, CMP_UNORD},
{SN_ConvertScalarToVector128Single},
{SN_ConvertToInt32, OP_XOP_I4_X, INTRINS_SSE_CVTSS2SI},
{SN_ConvertToInt32WithTruncation, OP_XOP_I4_X, INTRINS_SSE_CVTTSS2SI},
{SN_ConvertToInt64, OP_XOP_I8_X, INTRINS_SSE_CVTSS2SI64},
{SN_ConvertToInt64WithTruncation, OP_XOP_I8_X, INTRINS_SSE_CVTTSS2SI64},
{SN_Divide, OP_XBINOP, OP_FDIV},
{SN_DivideScalar, OP_SSE_DIVSS},
{SN_LoadAlignedVector128, OP_SSE_LOADU, 16 /* alignment */},
{SN_LoadHigh, OP_SSE_MOVHPS_LOAD},
{SN_LoadLow, OP_SSE_MOVLPS_LOAD},
{SN_LoadScalarVector128, OP_SSE_MOVSS},
{SN_LoadVector128, OP_SSE_LOADU, 1 /* alignment */},
{SN_Max, OP_XOP_X_X_X, INTRINS_SSE_MAXPS},
{SN_MaxScalar, OP_XOP_X_X_X, INTRINS_SSE_MAXSS},
{SN_Min, OP_XOP_X_X_X, INTRINS_SSE_MINPS},
{SN_MinScalar, OP_XOP_X_X_X, INTRINS_SSE_MINSS},
{SN_MoveHighToLow, OP_SSE_MOVEHL},
{SN_MoveLowToHigh, OP_SSE_MOVELH},
{SN_MoveMask, OP_SSE_MOVMSK},
{SN_MoveScalar, OP_SSE_MOVS2},
{SN_Multiply, OP_XBINOP, OP_FMUL},
{SN_MultiplyScalar, OP_SSE_MULSS},
{SN_Or, OP_SSE_OR},
{SN_Prefetch0, OP_SSE_PREFETCHT0},
{SN_Prefetch1, OP_SSE_PREFETCHT1},
{SN_Prefetch2, OP_SSE_PREFETCHT2},
{SN_PrefetchNonTemporal, OP_SSE_PREFETCHNTA},
{SN_Reciprocal, OP_XOP_X_X, INTRINS_SSE_RCP_PS},
{SN_ReciprocalScalar},
{SN_ReciprocalSqrt, OP_XOP_X_X, INTRINS_SSE_RSQRT_PS},
{SN_ReciprocalSqrtScalar},
{SN_Shuffle},
{SN_Sqrt, OP_XOP_X_X, INTRINS_SSE_SQRT_PS},
{SN_SqrtScalar},
{SN_Store, OP_SSE_STORE, 1 /* alignment */},
{SN_StoreAligned, OP_SSE_STORE, 16 /* alignment */},
{SN_StoreAlignedNonTemporal, OP_SSE_MOVNTPS, 16 /* alignment */},
{SN_StoreFence, OP_XOP, INTRINS_SSE_SFENCE},
{SN_StoreHigh, OP_SSE_MOVHPS_STORE},
{SN_StoreLow, OP_SSE_MOVLPS_STORE},
{SN_StoreScalar, OP_SSE_MOVSS_STORE},
{SN_Subtract, OP_XBINOP, OP_FSUB},
{SN_SubtractScalar, OP_SSE_SUBSS},
{SN_UnpackHigh, OP_SSE_UNPACKHI},
{SN_UnpackLow, OP_SSE_UNPACKLO},
{SN_Xor, OP_SSE_XOR},
{SN_get_IsSupported}
};
static SimdIntrinsic sse2_methods [] = {
{SN_Add},
{SN_AddSaturate, OP_SSE2_ADDS},
{SN_AddScalar, OP_SSE2_ADDSD},
{SN_And, OP_SSE_AND},
{SN_AndNot, OP_SSE_ANDN},
{SN_Average},
{SN_CompareEqual},
{SN_CompareGreaterThan},
{SN_CompareGreaterThanOrEqual, OP_XCOMPARE_FP, CMP_GE},
{SN_CompareLessThan},
{SN_CompareLessThanOrEqual, OP_XCOMPARE_FP, CMP_LE},
{SN_CompareNotEqual, OP_XCOMPARE_FP, CMP_NE},
{SN_CompareNotGreaterThan, OP_XCOMPARE_FP, CMP_LE_UN},
{SN_CompareNotGreaterThanOrEqual, OP_XCOMPARE_FP, CMP_LT_UN},
{SN_CompareNotLessThan, OP_XCOMPARE_FP, CMP_GE_UN},
{SN_CompareNotLessThanOrEqual, OP_XCOMPARE_FP, CMP_GT_UN},
{SN_CompareOrdered, OP_XCOMPARE_FP, CMP_ORD},
{SN_CompareScalarEqual, OP_SSE2_CMPSD, CMP_EQ},
{SN_CompareScalarGreaterThan, OP_SSE2_CMPSD, CMP_GT},
{SN_CompareScalarGreaterThanOrEqual, OP_SSE2_CMPSD, CMP_GE},
{SN_CompareScalarLessThan, OP_SSE2_CMPSD, CMP_LT},
{SN_CompareScalarLessThanOrEqual, OP_SSE2_CMPSD, CMP_LE},
{SN_CompareScalarNotEqual, OP_SSE2_CMPSD, CMP_NE},
{SN_CompareScalarNotGreaterThan, OP_SSE2_CMPSD, CMP_LE_UN},
{SN_CompareScalarNotGreaterThanOrEqual, OP_SSE2_CMPSD, CMP_LT_UN},
{SN_CompareScalarNotLessThan, OP_SSE2_CMPSD, CMP_GE_UN},
{SN_CompareScalarNotLessThanOrEqual, OP_SSE2_CMPSD, CMP_GT_UN},
{SN_CompareScalarOrdered, OP_SSE2_CMPSD, CMP_ORD},
{SN_CompareScalarOrderedEqual, OP_SSE2_COMISD, CMP_EQ},
{SN_CompareScalarOrderedGreaterThan, OP_SSE2_COMISD, CMP_GT},
{SN_CompareScalarOrderedGreaterThanOrEqual, OP_SSE2_COMISD, CMP_GE},
{SN_CompareScalarOrderedLessThan, OP_SSE2_COMISD, CMP_LT},
{SN_CompareScalarOrderedLessThanOrEqual, OP_SSE2_COMISD, CMP_LE},
{SN_CompareScalarOrderedNotEqual, OP_SSE2_COMISD, CMP_NE},
{SN_CompareScalarUnordered, OP_SSE2_CMPSD, CMP_UNORD},
{SN_CompareScalarUnorderedEqual, OP_SSE2_UCOMISD, CMP_EQ},
{SN_CompareScalarUnorderedGreaterThan, OP_SSE2_UCOMISD, CMP_GT},
{SN_CompareScalarUnorderedGreaterThanOrEqual, OP_SSE2_UCOMISD, CMP_GE},
{SN_CompareScalarUnorderedLessThan, OP_SSE2_UCOMISD, CMP_LT},
{SN_CompareScalarUnorderedLessThanOrEqual, OP_SSE2_UCOMISD, CMP_LE},
{SN_CompareScalarUnorderedNotEqual, OP_SSE2_UCOMISD, CMP_NE},
{SN_CompareUnordered, OP_XCOMPARE_FP, CMP_UNORD},
{SN_ConvertScalarToVector128Double},
{SN_ConvertScalarToVector128Int32},
{SN_ConvertScalarToVector128Int64},
{SN_ConvertScalarToVector128Single, OP_XOP_X_X_X, INTRINS_SSE_CVTSD2SS},
{SN_ConvertScalarToVector128UInt32},
{SN_ConvertScalarToVector128UInt64},
{SN_ConvertToInt32},
{SN_ConvertToInt32WithTruncation, OP_XOP_I4_X, INTRINS_SSE_CVTTSD2SI},
{SN_ConvertToInt64},
{SN_ConvertToInt64WithTruncation, OP_XOP_I8_X, INTRINS_SSE_CVTTSD2SI64},
{SN_ConvertToUInt32},
{SN_ConvertToUInt64},
{SN_ConvertToVector128Double},
{SN_ConvertToVector128Int32},
{SN_ConvertToVector128Int32WithTruncation},
{SN_ConvertToVector128Single},
{SN_Divide, OP_XBINOP, OP_FDIV},
{SN_DivideScalar, OP_SSE2_DIVSD},
{SN_Extract},
{SN_Insert},
{SN_LoadAlignedVector128},
{SN_LoadFence, OP_XOP, INTRINS_SSE_LFENCE},
{SN_LoadHigh, OP_SSE2_MOVHPD_LOAD},
{SN_LoadLow, OP_SSE2_MOVLPD_LOAD},
{SN_LoadScalarVector128},
{SN_LoadVector128},
{SN_MaskMove, OP_SSE2_MASKMOVDQU},
{SN_Max},
{SN_MaxScalar, OP_XOP_X_X_X, INTRINS_SSE_MAXSD},
{SN_MemoryFence, OP_XOP, INTRINS_SSE_MFENCE},
{SN_Min}, // FIXME:
{SN_MinScalar, OP_XOP_X_X_X, INTRINS_SSE_MINSD},
{SN_MoveMask, OP_SSE_MOVMSK},
{SN_MoveScalar},
{SN_Multiply},
{SN_MultiplyAddAdjacent, OP_XOP_X_X_X, INTRINS_SSE_PMADDWD},
{SN_MultiplyHigh},
{SN_MultiplyLow, OP_PMULW},
{SN_MultiplyScalar, OP_SSE2_MULSD},
{SN_Or, OP_SSE_OR},
{SN_PackSignedSaturate},
{SN_PackUnsignedSaturate},
{SN_ShiftLeftLogical},
{SN_ShiftLeftLogical128BitLane},
{SN_ShiftRightArithmetic},
{SN_ShiftRightLogical},
{SN_ShiftRightLogical128BitLane},
{SN_Shuffle},
{SN_ShuffleHigh},
{SN_ShuffleLow},
{SN_Sqrt, OP_XOP_X_X, INTRINS_SSE_SQRT_PD},
{SN_SqrtScalar},
{SN_Store, OP_SSE_STORE, 1 /* alignment */},
{SN_StoreAligned, OP_SSE_STORE, 16 /* alignment */},
{SN_StoreAlignedNonTemporal, OP_SSE_MOVNTPS, 16 /* alignment */},
{SN_StoreHigh, OP_SSE2_MOVHPD_STORE},
{SN_StoreLow, OP_SSE2_MOVLPD_STORE},
{SN_StoreNonTemporal, OP_SSE_MOVNTPS, 1 /* alignment */},
{SN_StoreScalar, OP_SSE_STORES},
{SN_Subtract},
{SN_SubtractSaturate, OP_SSE2_SUBS},
{SN_SubtractScalar, OP_SSE2_SUBSD},
{SN_SumAbsoluteDifferences, OP_XOP_X_X_X, INTRINS_SSE_PSADBW},
{SN_UnpackHigh, OP_SSE_UNPACKHI},
{SN_UnpackLow, OP_SSE_UNPACKLO},
{SN_Xor, OP_SSE_XOR},
{SN_get_IsSupported}
};
static SimdIntrinsic sse3_methods [] = {
{SN_AddSubtract},
{SN_HorizontalAdd},
{SN_HorizontalSubtract},
{SN_LoadAndDuplicateToVector128, OP_SSE3_MOVDDUP_MEM},
{SN_LoadDquVector128, OP_XOP_X_I, INTRINS_SSE_LDU_DQ},
{SN_MoveAndDuplicate, OP_SSE3_MOVDDUP},
{SN_MoveHighAndDuplicate, OP_SSE3_MOVSHDUP},
{SN_MoveLowAndDuplicate, OP_SSE3_MOVSLDUP},
{SN_get_IsSupported}
};
static SimdIntrinsic ssse3_methods [] = {
{SN_Abs, OP_SSSE3_ABS},
{SN_AlignRight},
{SN_HorizontalAdd},
{SN_HorizontalAddSaturate, OP_XOP_X_X_X, INTRINS_SSE_PHADDSW},
{SN_HorizontalSubtract},
{SN_HorizontalSubtractSaturate, OP_XOP_X_X_X, INTRINS_SSE_PHSUBSW},
{SN_MultiplyAddAdjacent, OP_XOP_X_X_X, INTRINS_SSE_PMADDUBSW},
{SN_MultiplyHighRoundScale, OP_XOP_X_X_X, INTRINS_SSE_PMULHRSW},
{SN_Shuffle, OP_SSSE3_SHUFFLE},
{SN_Sign},
{SN_get_IsSupported}
};
static SimdIntrinsic sse41_methods [] = {
{SN_Blend},
{SN_BlendVariable},
{SN_Ceiling, OP_SSE41_ROUNDP, 10 /*round mode*/},
{SN_CeilingScalar, 0, 10 /*round mode*/},
{SN_CompareEqual, OP_XCOMPARE, CMP_EQ},
{SN_ConvertToVector128Int16, OP_SSE_CVTII, MONO_TYPE_I2},
{SN_ConvertToVector128Int32, OP_SSE_CVTII, MONO_TYPE_I4},
{SN_ConvertToVector128Int64, OP_SSE_CVTII, MONO_TYPE_I8},
{SN_DotProduct},
{SN_Extract},
{SN_Floor, OP_SSE41_ROUNDP, 9 /*round mode*/},
{SN_FloorScalar, 0, 9 /*round mode*/},
{SN_Insert},
{SN_LoadAlignedVector128NonTemporal, OP_SSE41_LOADANT},
{SN_Max, OP_XBINOP, OP_IMAX},
{SN_Min, OP_XBINOP, OP_IMIN},
{SN_MinHorizontal, OP_XOP_X_X, INTRINS_SSE_PHMINPOSUW},
{SN_MultipleSumAbsoluteDifferences},
{SN_Multiply, OP_SSE41_MUL},
{SN_MultiplyLow, OP_SSE41_MULLO},
{SN_PackUnsignedSaturate, OP_XOP_X_X_X, INTRINS_SSE_PACKUSDW},
{SN_RoundCurrentDirection, OP_SSE41_ROUNDP, 4 /*round mode*/},
{SN_RoundCurrentDirectionScalar, 0, 4 /*round mode*/},
{SN_RoundToNearestInteger, OP_SSE41_ROUNDP, 8 /*round mode*/},
{SN_RoundToNearestIntegerScalar, 0, 8 /*round mode*/},
{SN_RoundToNegativeInfinity, OP_SSE41_ROUNDP, 9 /*round mode*/},
{SN_RoundToNegativeInfinityScalar, 0, 9 /*round mode*/},
{SN_RoundToPositiveInfinity, OP_SSE41_ROUNDP, 10 /*round mode*/},
{SN_RoundToPositiveInfinityScalar, 0, 10 /*round mode*/},
{SN_RoundToZero, OP_SSE41_ROUNDP, 11 /*round mode*/},
{SN_RoundToZeroScalar, 0, 11 /*round mode*/},
{SN_TestC, OP_XOP_I4_X_X, INTRINS_SSE_TESTC},
{SN_TestNotZAndNotC, OP_XOP_I4_X_X, INTRINS_SSE_TESTNZ},
{SN_TestZ, OP_XOP_I4_X_X, INTRINS_SSE_TESTZ},
{SN_get_IsSupported}
};
static SimdIntrinsic sse42_methods [] = {
{SN_CompareGreaterThan, OP_XCOMPARE, CMP_GT},
{SN_Crc32},
{SN_get_IsSupported}
};
static SimdIntrinsic pclmulqdq_methods [] = {
{SN_CarrylessMultiply},
{SN_get_IsSupported}
};
static SimdIntrinsic aes_methods [] = {
{SN_Decrypt, OP_XOP_X_X_X, INTRINS_AESNI_AESDEC},
{SN_DecryptLast, OP_XOP_X_X_X, INTRINS_AESNI_AESDECLAST},
{SN_Encrypt, OP_XOP_X_X_X, INTRINS_AESNI_AESENC},
{SN_EncryptLast, OP_XOP_X_X_X, INTRINS_AESNI_AESENCLAST},
{SN_InverseMixColumns, OP_XOP_X_X, INTRINS_AESNI_AESIMC},
{SN_KeygenAssist},
{SN_get_IsSupported}
};
static SimdIntrinsic popcnt_methods [] = {
{SN_PopCount},
{SN_get_IsSupported}
};
static SimdIntrinsic lzcnt_methods [] = {
{SN_LeadingZeroCount},
{SN_get_IsSupported}
};
static SimdIntrinsic bmi1_methods [] = {
{SN_AndNot},
{SN_BitFieldExtract},
{SN_ExtractLowestSetBit},
{SN_GetMaskUpToLowestSetBit},
{SN_ResetLowestSetBit},
{SN_TrailingZeroCount},
{SN_get_IsSupported}
};
static SimdIntrinsic bmi2_methods [] = {
{SN_MultiplyNoFlags},
{SN_ParallelBitDeposit},
{SN_ParallelBitExtract},
{SN_ZeroHighBits},
{SN_get_IsSupported}
};
static SimdIntrinsic x86base_methods [] = {
{SN_BitScanForward},
{SN_BitScanReverse},
{SN_get_IsSupported}
};
static const IntrinGroup supported_x86_intrinsics [] = {
{ "Aes", MONO_CPU_X86_AES, aes_methods, sizeof (aes_methods) },
{ "Avx", MONO_CPU_X86_AVX, unsupported, sizeof (unsupported) },
{ "Avx2", MONO_CPU_X86_AVX2, unsupported, sizeof (unsupported) },
{ "AvxVnni", 0, unsupported, sizeof (unsupported) },
{ "Bmi1", MONO_CPU_X86_BMI1, bmi1_methods, sizeof (bmi1_methods) },
{ "Bmi2", MONO_CPU_X86_BMI2, bmi2_methods, sizeof (bmi2_methods) },
{ "Fma", MONO_CPU_X86_FMA, unsupported, sizeof (unsupported) },
{ "Lzcnt", MONO_CPU_X86_LZCNT, lzcnt_methods, sizeof (lzcnt_methods), TRUE },
{ "Pclmulqdq", MONO_CPU_X86_PCLMUL, pclmulqdq_methods, sizeof (pclmulqdq_methods) },
{ "Popcnt", MONO_CPU_X86_POPCNT, popcnt_methods, sizeof (popcnt_methods), TRUE },
{ "Sse", MONO_CPU_X86_SSE, sse_methods, sizeof (sse_methods) },
{ "Sse2", MONO_CPU_X86_SSE2, sse2_methods, sizeof (sse2_methods) },
{ "Sse3", MONO_CPU_X86_SSE3, sse3_methods, sizeof (sse3_methods) },
{ "Sse41", MONO_CPU_X86_SSE41, sse41_methods, sizeof (sse41_methods) },
{ "Sse42", MONO_CPU_X86_SSE42, sse42_methods, sizeof (sse42_methods) },
{ "Ssse3", MONO_CPU_X86_SSSE3, ssse3_methods, sizeof (ssse3_methods) },
{ "X86Base", 0, x86base_methods, sizeof (x86base_methods) },
};
static MonoInst*
emit_x86_intrinsics (
MonoCompile *cfg, MonoMethodSignature *fsig, MonoInst **args,
MonoClass *klass, const IntrinGroup *intrin_group,
const SimdIntrinsic *info, int id, MonoTypeEnum arg0_type,
gboolean is_64bit)
{
MonoCPUFeatures feature = intrin_group->feature;
const SimdIntrinsic *intrinsics = intrin_group->intrinsics;
if (feature == MONO_CPU_X86_SSE) {
switch (id) {
case SN_Shuffle:
return emit_simd_ins_for_sig (cfg, klass, OP_SSE_SHUFPS, 0, arg0_type, fsig, args);
case SN_ConvertScalarToVector128Single: {
int op = 0;
switch (fsig->params [1]->type) {
case MONO_TYPE_I4: op = OP_SSE_CVTSI2SS; break;
case MONO_TYPE_I8: op = OP_SSE_CVTSI2SS64; break;
default: g_assert_not_reached (); break;
}
return emit_simd_ins_for_sig (cfg, klass, op, 0, 0, fsig, args);
}
case SN_ReciprocalScalar:
case SN_ReciprocalSqrtScalar:
case SN_SqrtScalar: {
int op = 0;
switch (id) {
case SN_ReciprocalScalar: op = OP_SSE_RCPSS; break;
case SN_ReciprocalSqrtScalar: op = OP_SSE_RSQRTSS; break;
case SN_SqrtScalar: op = OP_SSE_SQRTSS; break;
};
if (fsig->param_count == 1)
return emit_simd_ins (cfg, klass, op, args [0]->dreg, args[0]->dreg);
else if (fsig->param_count == 2)
return emit_simd_ins (cfg, klass, op, args [0]->dreg, args[1]->dreg);
else
g_assert_not_reached ();
break;
}
case SN_LoadScalarVector128:
return NULL;
default:
return NULL;
}
}
if (feature == MONO_CPU_X86_SSE2) {
switch (id) {
case SN_Subtract:
return emit_simd_ins_for_sig (cfg, klass, OP_XBINOP, arg0_type == MONO_TYPE_R8 ? OP_FSUB : OP_ISUB, arg0_type, fsig, args);
case SN_Add:
return emit_simd_ins_for_sig (cfg, klass, OP_XBINOP, arg0_type == MONO_TYPE_R8 ? OP_FADD : OP_IADD, arg0_type, fsig, args);
case SN_Average:
if (arg0_type == MONO_TYPE_U1)
return emit_simd_ins_for_sig (cfg, klass, OP_PAVGB_UN, -1, arg0_type, fsig, args);
else if (arg0_type == MONO_TYPE_U2)
return emit_simd_ins_for_sig (cfg, klass, OP_PAVGW_UN, -1, arg0_type, fsig, args);
else
return NULL;
case SN_CompareNotEqual:
return emit_simd_ins_for_sig (cfg, klass, arg0_type == MONO_TYPE_R8 ? OP_XCOMPARE_FP : OP_XCOMPARE, CMP_NE, arg0_type, fsig, args);
case SN_CompareEqual:
return emit_simd_ins_for_sig (cfg, klass, arg0_type == MONO_TYPE_R8 ? OP_XCOMPARE_FP : OP_XCOMPARE, CMP_EQ, arg0_type, fsig, args);
case SN_CompareGreaterThan:
return emit_simd_ins_for_sig (cfg, klass, arg0_type == MONO_TYPE_R8 ? OP_XCOMPARE_FP : OP_XCOMPARE, CMP_GT, arg0_type, fsig, args);
case SN_CompareLessThan:
return emit_simd_ins_for_sig (cfg, klass, arg0_type == MONO_TYPE_R8 ? OP_XCOMPARE_FP : OP_XCOMPARE, CMP_LT, arg0_type, fsig, args);
case SN_ConvertToInt32:
if (arg0_type == MONO_TYPE_R8)
return emit_simd_ins_for_sig (cfg, klass, OP_XOP_I4_X, INTRINS_SSE_CVTSD2SI, arg0_type, fsig, args);
else if (arg0_type == MONO_TYPE_I4)
return emit_simd_ins_for_sig (cfg, klass, OP_EXTRACT_I4, 0, arg0_type, fsig, args);
else
return NULL;
case SN_ConvertToInt64:
if (arg0_type == MONO_TYPE_R8)
return emit_simd_ins_for_sig (cfg, klass, OP_XOP_I8_X, INTRINS_SSE_CVTSD2SI64, arg0_type, fsig, args);
else if (arg0_type == MONO_TYPE_I8)
return emit_simd_ins_for_sig (cfg, klass, OP_EXTRACT_I8, 0 /*element index*/, arg0_type, fsig, args);
else
g_assert_not_reached ();
break;
case SN_ConvertScalarToVector128Double: {
int op = OP_SSE2_CVTSS2SD;
switch (fsig->params [1]->type) {
case MONO_TYPE_I4: op = OP_SSE2_CVTSI2SD; break;
case MONO_TYPE_I8: op = OP_SSE2_CVTSI2SD64; break;
}
return emit_simd_ins_for_sig (cfg, klass, op, 0, 0, fsig, args);
}
case SN_ConvertScalarToVector128Int32:
case SN_ConvertScalarToVector128Int64:
case SN_ConvertScalarToVector128UInt32:
case SN_ConvertScalarToVector128UInt64:
return emit_simd_ins_for_sig (cfg, klass, OP_CREATE_SCALAR, -1, arg0_type, fsig, args);
case SN_ConvertToUInt32:
return emit_simd_ins_for_sig (cfg, klass, OP_EXTRACT_I4, 0 /*element index*/, arg0_type, fsig, args);
case SN_ConvertToUInt64:
return emit_simd_ins_for_sig (cfg, klass, OP_EXTRACT_I8, 0 /*element index*/, arg0_type, fsig, args);
case SN_ConvertToVector128Double:
if (arg0_type == MONO_TYPE_R4)
return emit_simd_ins_for_sig (cfg, klass, OP_CVTPS2PD, 0, arg0_type, fsig, args);
else if (arg0_type == MONO_TYPE_I4)
return emit_simd_ins_for_sig (cfg, klass, OP_CVTDQ2PD, 0, arg0_type, fsig, args);
else
return NULL;
case SN_ConvertToVector128Int32:
if (arg0_type == MONO_TYPE_R4)
return emit_simd_ins_for_sig (cfg, klass, OP_CVTPS2DQ, 0, arg0_type, fsig, args);
else if (arg0_type == MONO_TYPE_R8)
return emit_simd_ins_for_sig (cfg, klass, OP_CVTPD2DQ, 0, arg0_type, fsig, args);
else
return NULL;
case SN_ConvertToVector128Int32WithTruncation:
if (arg0_type == MONO_TYPE_R4)
return emit_simd_ins_for_sig (cfg, klass, OP_CVTTPS2DQ, 0, arg0_type, fsig, args);
else if (arg0_type == MONO_TYPE_R8)
return emit_simd_ins_for_sig (cfg, klass, OP_CVTTPD2DQ, 0, arg0_type, fsig, args);
else
return NULL;
case SN_ConvertToVector128Single:
if (arg0_type == MONO_TYPE_I4)
return emit_simd_ins_for_sig (cfg, klass, OP_CVTDQ2PS, 0, arg0_type, fsig, args);
else if (arg0_type == MONO_TYPE_R8)
return emit_simd_ins_for_sig (cfg, klass, OP_CVTPD2PS, 0, arg0_type, fsig, args);
else
return NULL;
case SN_LoadAlignedVector128:
return emit_simd_ins_for_sig (cfg, klass, OP_SSE_LOADU, 16 /*alignment*/, arg0_type, fsig, args);
case SN_LoadVector128:
return emit_simd_ins_for_sig (cfg, klass, OP_SSE_LOADU, 1 /*alignment*/, arg0_type, fsig, args);
case SN_MoveScalar:
return emit_simd_ins_for_sig (cfg, klass, fsig->param_count == 2 ? OP_SSE_MOVS2 : OP_SSE_MOVS, -1, arg0_type, fsig, args);
case SN_Max:
switch (arg0_type) {
case MONO_TYPE_U1:
return emit_simd_ins_for_sig (cfg, klass, OP_PMAXB_UN, 0, arg0_type, fsig, args);
case MONO_TYPE_I2:
return emit_simd_ins_for_sig (cfg, klass, OP_PMAXW, 0, arg0_type, fsig, args);
case MONO_TYPE_R8: return emit_simd_ins_for_sig (cfg, klass, OP_XOP_X_X_X, INTRINS_SSE_MAXPD, arg0_type, fsig, args);
default:
g_assert_not_reached ();
break;
}
break;
case SN_Min:
switch (arg0_type) {
case MONO_TYPE_U1:
return emit_simd_ins_for_sig (cfg, klass, OP_PMINB_UN, 0, arg0_type, fsig, args);
case MONO_TYPE_I2:
return emit_simd_ins_for_sig (cfg, klass, OP_PMINW, 0, arg0_type, fsig, args);
case MONO_TYPE_R8: return emit_simd_ins_for_sig (cfg, klass, OP_XOP_X_X_X, INTRINS_SSE_MINPD, arg0_type, fsig, args);
default:
g_assert_not_reached ();
break;
}
break;
case SN_Multiply:
if (arg0_type == MONO_TYPE_U4)
return emit_simd_ins_for_sig (cfg, klass, OP_SSE2_PMULUDQ, 0, arg0_type, fsig, args);
else if (arg0_type == MONO_TYPE_R8)
return emit_simd_ins_for_sig (cfg, klass, OP_MULPD, 0, arg0_type, fsig, args);
else
g_assert_not_reached ();
case SN_MultiplyHigh:
if (arg0_type == MONO_TYPE_I2)
return emit_simd_ins_for_sig (cfg, klass, OP_XOP_X_X_X, INTRINS_SSE_PMULHW, arg0_type, fsig, args);
else if (arg0_type == MONO_TYPE_U2)
return emit_simd_ins_for_sig (cfg, klass, OP_XOP_X_X_X, INTRINS_SSE_PMULHUW, arg0_type, fsig, args);
else
g_assert_not_reached ();
case SN_PackSignedSaturate:
if (arg0_type == MONO_TYPE_I2)
return emit_simd_ins_for_sig (cfg, klass, OP_XOP_X_X_X, INTRINS_SSE_PACKSSWB, arg0_type, fsig, args);
else if (arg0_type == MONO_TYPE_I4)
return emit_simd_ins_for_sig (cfg, klass, OP_XOP_X_X_X, INTRINS_SSE_PACKSSDW, arg0_type, fsig, args);
else
g_assert_not_reached ();
case SN_PackUnsignedSaturate:
return emit_simd_ins_for_sig (cfg, klass, OP_SSE2_PACKUS, -1, arg0_type, fsig, args);
case SN_Extract:
g_assert (arg0_type == MONO_TYPE_U2);
return emit_simd_ins_for_sig (cfg, klass, OP_XEXTRACT_I4, 0, arg0_type, fsig, args);
case SN_Insert:
g_assert (arg0_type == MONO_TYPE_I2 || arg0_type == MONO_TYPE_U2);
return emit_simd_ins_for_sig (cfg, klass, OP_XINSERT_I2, 0, arg0_type, fsig, args);
case SN_ShiftRightLogical: {
gboolean is_imm = fsig->params [1]->type == MONO_TYPE_U1;
IntrinsicId op = (IntrinsicId)0;
switch (arg0_type) {
case MONO_TYPE_I2:
case MONO_TYPE_U2:
op = is_imm ? INTRINS_SSE_PSRLI_W : INTRINS_SSE_PSRL_W;
break;
case MONO_TYPE_I4:
case MONO_TYPE_U4:
op = is_imm ? INTRINS_SSE_PSRLI_D : INTRINS_SSE_PSRL_D;
break;
case MONO_TYPE_I8:
case MONO_TYPE_U8:
op = is_imm ? INTRINS_SSE_PSRLI_Q : INTRINS_SSE_PSRL_Q;
break;
default: g_assert_not_reached (); break;
}
return emit_simd_ins_for_sig (cfg, klass, is_imm ? OP_XOP_X_X_I4 : OP_XOP_X_X_X, op, arg0_type, fsig, args);
}
case SN_ShiftRightArithmetic: {
gboolean is_imm = fsig->params [1]->type == MONO_TYPE_U1;
IntrinsicId op = (IntrinsicId)0;
switch (arg0_type) {
case MONO_TYPE_I2:
case MONO_TYPE_U2:
op = is_imm ? INTRINS_SSE_PSRAI_W : INTRINS_SSE_PSRA_W;
break;
case MONO_TYPE_I4:
case MONO_TYPE_U4:
op = is_imm ? INTRINS_SSE_PSRAI_D : INTRINS_SSE_PSRA_D;
break;
default: g_assert_not_reached (); break;
}
return emit_simd_ins_for_sig (cfg, klass, is_imm ? OP_XOP_X_X_I4 : OP_XOP_X_X_X, op, arg0_type, fsig, args);
}
case SN_ShiftLeftLogical: {
gboolean is_imm = fsig->params [1]->type == MONO_TYPE_U1;
IntrinsicId op = (IntrinsicId)0;
switch (arg0_type) {
case MONO_TYPE_I2:
case MONO_TYPE_U2:
op = is_imm ? INTRINS_SSE_PSLLI_W : INTRINS_SSE_PSLL_W;
break;
case MONO_TYPE_I4:
case MONO_TYPE_U4:
op = is_imm ? INTRINS_SSE_PSLLI_D : INTRINS_SSE_PSLL_D;
break;
case MONO_TYPE_I8:
case MONO_TYPE_U8:
op = is_imm ? INTRINS_SSE_PSLLI_Q : INTRINS_SSE_PSLL_Q;
break;
default: g_assert_not_reached (); break;
}
return emit_simd_ins_for_sig (cfg, klass, is_imm ? OP_XOP_X_X_I4 : OP_XOP_X_X_X, op, arg0_type, fsig, args);
}
case SN_ShiftLeftLogical128BitLane:
return emit_simd_ins_for_sig (cfg, klass, OP_SSE2_PSLLDQ, 0, arg0_type, fsig, args);
case SN_ShiftRightLogical128BitLane:
return emit_simd_ins_for_sig (cfg, klass, OP_SSE2_PSRLDQ, 0, arg0_type, fsig, args);
case SN_Shuffle: {
if (fsig->param_count == 2) {
g_assert (arg0_type == MONO_TYPE_I4 || arg0_type == MONO_TYPE_U4);
return emit_simd_ins_for_sig (cfg, klass, OP_SSE2_PSHUFD, 0, arg0_type, fsig, args);
} else if (fsig->param_count == 3) {
g_assert (arg0_type == MONO_TYPE_R8);
return emit_simd_ins_for_sig (cfg, klass, OP_SSE2_SHUFPD, 0, arg0_type, fsig, args);
} else {
g_assert_not_reached ();
break;
}
}
case SN_ShuffleHigh:
g_assert (fsig->param_count == 2);
return emit_simd_ins_for_sig (cfg, klass, OP_SSE2_PSHUFHW, 0, arg0_type, fsig, args);
case SN_ShuffleLow:
g_assert (fsig->param_count == 2);
return emit_simd_ins_for_sig (cfg, klass, OP_SSE2_PSHUFLW, 0, arg0_type, fsig, args);
case SN_SqrtScalar: {
if (fsig->param_count == 1)
return emit_simd_ins (cfg, klass, OP_SSE2_SQRTSD, args [0]->dreg, args[0]->dreg);
else if (fsig->param_count == 2)
return emit_simd_ins (cfg, klass, OP_SSE2_SQRTSD, args [0]->dreg, args[1]->dreg);
else {
g_assert_not_reached ();
break;
}
}
case SN_LoadScalarVector128: {
int op = 0;
switch (arg0_type) {
case MONO_TYPE_I4:
case MONO_TYPE_U4: op = OP_SSE2_MOVD; break;
case MONO_TYPE_I8:
case MONO_TYPE_U8: op = OP_SSE2_MOVQ; break;
case MONO_TYPE_R8: op = OP_SSE2_MOVUPD; break;
default: g_assert_not_reached(); break;
}
return emit_simd_ins_for_sig (cfg, klass, op, 0, 0, fsig, args);
}
default:
return NULL;
}
}
if (feature == MONO_CPU_X86_SSE3) {
switch (id) {
case SN_AddSubtract:
if (arg0_type == MONO_TYPE_R4)
return emit_simd_ins_for_sig (cfg, klass, OP_XOP_X_X_X, INTRINS_SSE_ADDSUBPS, arg0_type, fsig, args);
else if (arg0_type == MONO_TYPE_R8)
return emit_simd_ins_for_sig (cfg, klass, OP_XOP_X_X_X, INTRINS_SSE_ADDSUBPD, arg0_type, fsig, args);
else
g_assert_not_reached ();
break;
case SN_HorizontalAdd:
if (arg0_type == MONO_TYPE_R4)
return emit_simd_ins_for_sig (cfg, klass, OP_XOP_X_X_X, INTRINS_SSE_HADDPS, arg0_type, fsig, args);
else if (arg0_type == MONO_TYPE_R8)
return emit_simd_ins_for_sig (cfg, klass, OP_XOP_X_X_X, INTRINS_SSE_HADDPD, arg0_type, fsig, args);
else
g_assert_not_reached ();
break;
case SN_HorizontalSubtract:
if (arg0_type == MONO_TYPE_R4)
return emit_simd_ins_for_sig (cfg, klass, OP_XOP_X_X_X, INTRINS_SSE_HSUBPS, arg0_type, fsig, args);
else if (arg0_type == MONO_TYPE_R8)
return emit_simd_ins_for_sig (cfg, klass, OP_XOP_X_X_X, INTRINS_SSE_HSUBPD, arg0_type, fsig, args);
else
g_assert_not_reached ();
break;
default:
g_assert_not_reached ();
break;
}
}
if (feature == MONO_CPU_X86_SSSE3) {
switch (id) {
case SN_AlignRight:
return emit_simd_ins_for_sig (cfg, klass, OP_SSSE3_ALIGNR, 0, arg0_type, fsig, args);
case SN_HorizontalAdd:
if (arg0_type == MONO_TYPE_I2)
return emit_simd_ins_for_sig (cfg, klass, OP_XOP_X_X_X, INTRINS_SSE_PHADDW, arg0_type, fsig, args);
return emit_simd_ins_for_sig (cfg, klass, OP_XOP_X_X_X, INTRINS_SSE_PHADDD, arg0_type, fsig, args);
case SN_HorizontalSubtract:
if (arg0_type == MONO_TYPE_I2)
return emit_simd_ins_for_sig (cfg, klass, OP_XOP_X_X_X, INTRINS_SSE_PHSUBW, arg0_type, fsig, args);
return emit_simd_ins_for_sig (cfg, klass, OP_XOP_X_X_X, INTRINS_SSE_PHSUBD, arg0_type, fsig, args);
case SN_Sign:
if (arg0_type == MONO_TYPE_I1)
return emit_simd_ins_for_sig (cfg, klass, OP_XOP_X_X_X, INTRINS_SSE_PSIGNB, arg0_type, fsig, args);
if (arg0_type == MONO_TYPE_I2)
return emit_simd_ins_for_sig (cfg, klass, OP_XOP_X_X_X, INTRINS_SSE_PSIGNW, arg0_type, fsig, args);
return emit_simd_ins_for_sig (cfg, klass, OP_XOP_X_X_X, INTRINS_SSE_PSIGND, arg0_type, fsig, args);
default:
g_assert_not_reached ();
break;
}
}
if (feature == MONO_CPU_X86_SSE41) {
switch (id) {
case SN_DotProduct: {
int op = 0;
switch (arg0_type) {
case MONO_TYPE_R4: op = OP_SSE41_DPPS; break;
case MONO_TYPE_R8: op = OP_SSE41_DPPD; break;
default: g_assert_not_reached (); break;
}
return emit_simd_ins_for_sig (cfg, klass, op, 0, arg0_type, fsig, args);
}
case SN_MultipleSumAbsoluteDifferences:
return emit_simd_ins_for_sig (cfg, klass, OP_SSE41_MPSADBW, 0, arg0_type, fsig, args);
case SN_Blend:
return emit_simd_ins_for_sig (cfg, klass, OP_SSE41_BLEND, 0, arg0_type, fsig, args);
case SN_BlendVariable:
return emit_simd_ins_for_sig (cfg, klass, OP_SSE41_BLENDV, -1, arg0_type, fsig, args);
case SN_Extract: {
int op = 0;
switch (arg0_type) {
case MONO_TYPE_U1: op = OP_XEXTRACT_I1; break;
case MONO_TYPE_U4: case MONO_TYPE_I4: op = OP_XEXTRACT_I4; break;
case MONO_TYPE_U8: case MONO_TYPE_I8: op = OP_XEXTRACT_I8; break;
case MONO_TYPE_R4: op = OP_XEXTRACT_R4; break;
case MONO_TYPE_I:
case MONO_TYPE_U:
#if TARGET_SIZEOF_VOID_P == 8
op = OP_XEXTRACT_I8;
#else
op = OP_XEXTRACT_I4;
#endif
break;
default: g_assert_not_reached(); break;
}
return emit_simd_ins_for_sig (cfg, klass, op, 0, arg0_type, fsig, args);
}
case SN_Insert: {
int op = arg0_type == MONO_TYPE_R4 ? OP_SSE41_INSERTPS : type_to_xinsert_op (arg0_type);
return emit_simd_ins_for_sig (cfg, klass, op, -1, arg0_type, fsig, args);
}
case SN_CeilingScalar:
case SN_FloorScalar:
case SN_RoundCurrentDirectionScalar:
case SN_RoundToNearestIntegerScalar:
case SN_RoundToNegativeInfinityScalar:
case SN_RoundToPositiveInfinityScalar:
case SN_RoundToZeroScalar:
if (fsig->param_count == 2) {
return emit_simd_ins_for_sig (cfg, klass, OP_SSE41_ROUNDS, info->default_instc0, arg0_type, fsig, args);
} else {
MonoInst* ins = emit_simd_ins (cfg, klass, OP_SSE41_ROUNDS, args [0]->dreg, args [0]->dreg);
ins->inst_c0 = info->default_instc0;
ins->inst_c1 = arg0_type;
return ins;
}
break;
default:
g_assert_not_reached ();
break;
}
}
if (feature == MONO_CPU_X86_SSE42) {
switch (id) {
case SN_Crc32: {
MonoTypeEnum arg1_type = get_underlying_type (fsig->params [1]);
return emit_simd_ins_for_sig (cfg, klass,
arg1_type == MONO_TYPE_U8 ? OP_SSE42_CRC64 : OP_SSE42_CRC32,
arg1_type, arg0_type, fsig, args);
}
default:
g_assert_not_reached ();
break;
}
}
if (feature == MONO_CPU_X86_PCLMUL) {
switch (id) {
case SN_CarrylessMultiply: {
return emit_simd_ins_for_sig (cfg, klass, OP_PCLMULQDQ, 0, arg0_type, fsig, args);
}
default:
g_assert_not_reached ();
break;
}
}
if (feature == MONO_CPU_X86_AES) {
switch (id) {
case SN_KeygenAssist: {
return emit_simd_ins_for_sig (cfg, klass, OP_AES_KEYGENASSIST, 0, arg0_type, fsig, args);
}
default:
g_assert_not_reached ();
break;
}
}
MonoInst *ins = NULL;
if (feature == MONO_CPU_X86_POPCNT) {
switch (id) {
case SN_PopCount:
MONO_INST_NEW (cfg, ins, is_64bit ? OP_POPCNT64 : OP_POPCNT32);
ins->dreg = is_64bit ? alloc_lreg (cfg) : alloc_ireg (cfg);
ins->sreg1 = args [0]->dreg;
ins->type = is_64bit ? STACK_I8 : STACK_I4;
MONO_ADD_INS (cfg->cbb, ins);
return ins;
default:
return NULL;
}
}
if (feature == MONO_CPU_X86_LZCNT) {
switch (id) {
case SN_LeadingZeroCount:
return emit_simd_ins_for_sig (cfg, klass, is_64bit ? OP_LZCNT64 : OP_LZCNT32, 0, arg0_type, fsig, args);
default:
return NULL;
}
}
if (feature == MONO_CPU_X86_BMI1) {
switch (id) {
case SN_AndNot: {
// (a ^ -1) & b
// LLVM replaces it with `andn`
int tmp_reg = is_64bit ? alloc_lreg (cfg) : alloc_ireg (cfg);
int result_reg = is_64bit ? alloc_lreg (cfg) : alloc_ireg (cfg);
EMIT_NEW_BIALU_IMM (cfg, ins, is_64bit ? OP_LXOR_IMM : OP_IXOR_IMM, tmp_reg, args [0]->dreg, -1);
EMIT_NEW_BIALU (cfg, ins, is_64bit ? OP_LAND : OP_IAND, result_reg, tmp_reg, args [1]->dreg);
return ins;
}
case SN_BitFieldExtract: {
int ctlreg = args [1]->dreg;
if (fsig->param_count == 2) {
} else if (fsig->param_count == 3) {
MonoInst *ins = NULL;
/* This intrinsic is also implemented in managed code.
* TODO: remove this if cross-AOT-assembly inlining works
*/
int startreg = args [1]->dreg;
int lenreg = args [2]->dreg;
int dreg1 = alloc_ireg (cfg);
EMIT_NEW_BIALU_IMM (cfg, ins, OP_SHL_IMM, dreg1, lenreg, 8);
int dreg2 = alloc_ireg (cfg);
EMIT_NEW_BIALU (cfg, ins, OP_IOR, dreg2, startreg, dreg1);
ctlreg = dreg2;
} else {
g_assert_not_reached ();
}
return emit_simd_ins (cfg, klass, is_64bit ? OP_BMI1_BEXTR64 : OP_BMI1_BEXTR32, args [0]->dreg, ctlreg);
}
case SN_GetMaskUpToLowestSetBit: {
// x ^ (x - 1)
// LLVM replaces it with `blsmsk`
int tmp_reg = is_64bit ? alloc_lreg (cfg) : alloc_ireg (cfg);
int result_reg = is_64bit ? alloc_lreg (cfg) : alloc_ireg (cfg);
EMIT_NEW_BIALU_IMM (cfg, ins, is_64bit ? OP_LSUB_IMM : OP_ISUB_IMM, tmp_reg, args [0]->dreg, 1);
EMIT_NEW_BIALU (cfg, ins, is_64bit ? OP_LXOR : OP_IXOR, result_reg, args [0]->dreg, tmp_reg);
return ins;
}
case SN_ResetLowestSetBit: {
// x & (x - 1)
// LLVM replaces it with `blsr`
int tmp_reg = is_64bit ? alloc_lreg (cfg) : alloc_ireg (cfg);
int result_reg = is_64bit ? alloc_lreg (cfg) : alloc_ireg (cfg);
EMIT_NEW_BIALU_IMM (cfg, ins, is_64bit ? OP_LSUB_IMM : OP_ISUB_IMM, tmp_reg, args [0]->dreg, 1);
EMIT_NEW_BIALU (cfg, ins, is_64bit ? OP_LAND : OP_IAND, result_reg, args [0]->dreg, tmp_reg);
return ins;
}
case SN_ExtractLowestSetBit: {
// x & (0 - x)
// LLVM replaces it with `blsi`
int tmp_reg = is_64bit ? alloc_lreg (cfg) : alloc_ireg (cfg);
int result_reg = is_64bit ? alloc_lreg (cfg) : alloc_ireg (cfg);
int zero_reg = is_64bit ? alloc_lreg (cfg) : alloc_ireg (cfg);
MONO_EMIT_NEW_ICONST (cfg, zero_reg, 0);
EMIT_NEW_BIALU (cfg, ins, is_64bit ? OP_LSUB : OP_ISUB, tmp_reg, zero_reg, args [0]->dreg);
EMIT_NEW_BIALU (cfg, ins, is_64bit ? OP_LAND : OP_IAND, result_reg, args [0]->dreg, tmp_reg);
return ins;
}
case SN_TrailingZeroCount:
MONO_INST_NEW (cfg, ins, is_64bit ? OP_CTTZ64 : OP_CTTZ32);
ins->dreg = is_64bit ? alloc_lreg (cfg) : alloc_ireg (cfg);
ins->sreg1 = args [0]->dreg;
ins->type = is_64bit ? STACK_I8 : STACK_I4;
MONO_ADD_INS (cfg->cbb, ins);
return ins;
default:
g_assert_not_reached ();
}
}
if (feature == MONO_CPU_X86_BMI2) {
switch (id) {
case SN_MultiplyNoFlags: {
int op = 0;
if (fsig->param_count == 2) {
op = is_64bit ? OP_MULX_H64 : OP_MULX_H32;
} else if (fsig->param_count == 3) {
op = is_64bit ? OP_MULX_HL64 : OP_MULX_HL32;
} else {
g_assert_not_reached ();
}
return emit_simd_ins_for_sig (cfg, klass, op, 0, 0, fsig, args);
}
case SN_ZeroHighBits:
MONO_INST_NEW (cfg, ins, is_64bit ? OP_BZHI64 : OP_BZHI32);
ins->dreg = is_64bit ? alloc_lreg (cfg) : alloc_ireg (cfg);
ins->sreg1 = args [0]->dreg;
ins->sreg2 = args [1]->dreg;
ins->type = is_64bit ? STACK_I8 : STACK_I4;
MONO_ADD_INS (cfg->cbb, ins);
return ins;
case SN_ParallelBitExtract:
MONO_INST_NEW (cfg, ins, is_64bit ? OP_PEXT64 : OP_PEXT32);
ins->dreg = is_64bit ? alloc_lreg (cfg) : alloc_ireg (cfg);
ins->sreg1 = args [0]->dreg;
ins->sreg2 = args [1]->dreg;
ins->type = is_64bit ? STACK_I8 : STACK_I4;
MONO_ADD_INS (cfg->cbb, ins);
return ins;
case SN_ParallelBitDeposit:
MONO_INST_NEW (cfg, ins, is_64bit ? OP_PDEP64 : OP_PDEP32);
ins->dreg = is_64bit ? alloc_lreg (cfg) : alloc_ireg (cfg);
ins->sreg1 = args [0]->dreg;
ins->sreg2 = args [1]->dreg;
ins->type = is_64bit ? STACK_I8 : STACK_I4;
MONO_ADD_INS (cfg->cbb, ins);
return ins;
default:
g_assert_not_reached ();
}
}
if (intrinsics == x86base_methods) {
switch (id) {
case SN_BitScanForward:
MONO_INST_NEW (cfg, ins, is_64bit ? OP_X86_BSF64 : OP_X86_BSF32);
ins->dreg = is_64bit ? alloc_lreg (cfg) : alloc_ireg (cfg);
ins->sreg1 = args [0]->dreg;
ins->type = is_64bit ? STACK_I8 : STACK_I4;
MONO_ADD_INS (cfg->cbb, ins);
return ins;
case SN_BitScanReverse:
MONO_INST_NEW (cfg, ins, is_64bit ? OP_X86_BSR64 : OP_X86_BSR32);
ins->dreg = is_64bit ? alloc_lreg (cfg) : alloc_ireg (cfg);
ins->sreg1 = args [0]->dreg;
ins->type = is_64bit ? STACK_I8 : STACK_I4;
MONO_ADD_INS (cfg->cbb, ins);
return ins;
default:
g_assert_not_reached ();
}
}
return NULL;
}
static guint16 vector_256_t_methods [] = {
SN_get_Count,
};
static MonoInst*
emit_vector256_t (MonoCompile *cfg, MonoMethod *cmethod, MonoMethodSignature *fsig, MonoInst **args)
{
MonoInst *ins;
MonoType *etype;
MonoClass *klass;
int size, len, id;
id = lookup_intrins (vector_256_t_methods, sizeof (vector_256_t_methods), cmethod);
if (id == -1) {
//check_no_intrinsic_cattr (cmethod);
return NULL;
}
klass = cmethod->klass;
etype = mono_class_get_context (klass)->class_inst->type_argv [0];
size = mono_class_value_size (mono_class_from_mono_type_internal (etype), NULL);
g_assert (size);
len = 32 / size;
if (!MONO_TYPE_IS_PRIMITIVE (etype) || etype->type == MONO_TYPE_CHAR || etype->type == MONO_TYPE_BOOLEAN || etype->type == MONO_TYPE_I || etype->type == MONO_TYPE_U)
return NULL;
if (cfg->verbose_level > 1) {
char *name = mono_method_full_name (cmethod, TRUE);
printf (" SIMD intrinsic %s\n", name);
g_free (name);
}
switch (id) {
case SN_get_Count:
if (!(fsig->param_count == 0 && fsig->ret->type == MONO_TYPE_I4))
break;
EMIT_NEW_ICONST (cfg, ins, len);
return ins;
default:
break;
}
return NULL;
}
static
MonoInst*
emit_amd64_intrinsics (const char *class_ns, const char *class_name, MonoCompile *cfg, MonoMethod *cmethod, MonoMethodSignature *fsig, MonoInst **args)
{
if (!strcmp (class_ns, "System.Runtime.Intrinsics.X86")) {
return emit_hardware_intrinsics (cfg, cmethod, fsig, args,
supported_x86_intrinsics, sizeof (supported_x86_intrinsics),
emit_x86_intrinsics);
}
if (!strcmp (class_ns, "System.Runtime.Intrinsics")) {
if (!strcmp (class_name, "Vector256`1"))
return emit_vector256_t (cfg, cmethod, fsig, args);
}
if (!strcmp (class_ns, "System.Numerics")) {
if (!strcmp (class_name, "Vector"))
return emit_sys_numerics_vector (cfg, cmethod, fsig, args);
if (!strcmp (class_name, "Vector`1"))
return emit_sys_numerics_vector_t (cfg, cmethod, fsig, args);
}
return NULL;
}
#endif // !TARGET_ARM64
#ifdef TARGET_ARM64
static
MonoInst*
emit_simd_intrinsics (const char *class_ns, const char *class_name, MonoCompile *cfg, MonoMethod *cmethod, MonoMethodSignature *fsig, MonoInst **args)
{
// FIXME: implement Vector64<T>, Vector128<T> and Vector<T> for Arm64
if (!strcmp (class_ns, "System.Runtime.Intrinsics.Arm")) {
return emit_hardware_intrinsics(cfg, cmethod, fsig, args,
supported_arm_intrinsics, sizeof (supported_arm_intrinsics),
emit_arm64_intrinsics);
}
return NULL;
}
#elif TARGET_AMD64
// TODO: test and enable for x86 too
static
MonoInst*
emit_simd_intrinsics (const char *class_ns, const char *class_name, MonoCompile *cfg, MonoMethod *cmethod, MonoMethodSignature *fsig, MonoInst **args)
{
MonoInst *simd_inst = emit_amd64_intrinsics (class_ns, class_name, cfg, cmethod, fsig, args);
if (simd_inst != NULL)
cfg->uses_simd_intrinsics |= MONO_CFG_USES_SIMD_INTRINSICS;
return simd_inst;
}
#else
static
MonoInst*
emit_simd_intrinsics (const char *class_ns, const char *class_name, MonoCompile *cfg, MonoMethod *cmethod, MonoMethodSignature *fsig, MonoInst **args)
{
return NULL;
}
#endif
MonoInst*
mono_emit_simd_intrinsics (MonoCompile *cfg, MonoMethod *cmethod, MonoMethodSignature *fsig, MonoInst **args)
{
const char *class_name;
const char *class_ns;
MonoImage *image = m_class_get_image (cmethod->klass);
if (image != mono_get_corlib ())
return NULL;
class_ns = m_class_get_name_space (cmethod->klass);
class_name = m_class_get_name (cmethod->klass);
// If cmethod->klass is nested, the namespace is on the enclosing class.
if (m_class_get_nested_in (cmethod->klass))
class_ns = m_class_get_name_space (m_class_get_nested_in (cmethod->klass));
#if defined(TARGET_ARM64) || defined(TARGET_AMD64)
if (!strcmp (class_ns, "System.Runtime.Intrinsics")) {
if (!strcmp (class_name, "Vector128") || !strcmp (class_name, "Vector64"))
return emit_sri_vector (cfg, cmethod, fsig, args);
}
if (!strcmp (class_ns, "System.Runtime.Intrinsics")) {
if (!strcmp (class_name, "Vector128`1") || !strcmp (class_name, "Vector64`1"))
return emit_vector64_vector128_t (cfg, cmethod, fsig, args);
}
#endif // defined(TARGET_ARM64) || defined(TARGET_AMD64)
#if defined(TARGET_ARM64)
if (!strcmp (class_ns, "System.Numerics") && !strcmp (class_name, "Vector")){
return emit_sri_vector (cfg, cmethod, fsig, args);
}
#endif // defined(TARGET_ARM64)
return emit_simd_intrinsics (class_ns, class_name, cfg, cmethod, fsig, args);
}
/*
* Windows x64 value type ABI uses reg/stack references (ArgValuetypeAddrInIReg/ArgValuetypeAddrOnStack)
* for function arguments. When using SIMD intrinsics arguments optimized into OP_ARG needs to be decomposed
* into correspondig SIMD LOADX/STOREX instructions.
*/
#if defined(TARGET_WIN32) && defined(TARGET_AMD64)
static gboolean
decompose_vtype_opt_uses_simd_intrinsics (MonoCompile *cfg, MonoInst *ins)
{
if (cfg->uses_simd_intrinsics & MONO_CFG_USES_SIMD_INTRINSICS)
return TRUE;
switch (ins->opcode) {
case OP_XMOVE:
case OP_XZERO:
case OP_XPHI:
case OP_LOADX_MEMBASE:
case OP_LOADX_ALIGNED_MEMBASE:
case OP_STOREX_MEMBASE:
case OP_STOREX_ALIGNED_MEMBASE_REG:
return TRUE;
default:
return FALSE;
}
}
static void
decompose_vtype_opt_load_arg (MonoCompile *cfg, MonoBasicBlock *bb, MonoInst *ins, gint32 *sreg_int32)
{
guint32 *sreg = (guint32*)sreg_int32;
MonoInst *src_var = get_vreg_to_inst (cfg, *sreg);
if (src_var && src_var->opcode == OP_ARG && src_var->klass && MONO_CLASS_IS_SIMD (cfg, src_var->klass)) {
MonoInst *varload_ins, *load_ins;
NEW_VARLOADA (cfg, varload_ins, src_var, src_var->inst_vtype);
mono_bblock_insert_before_ins (bb, ins, varload_ins);
MONO_INST_NEW (cfg, load_ins, OP_LOADX_MEMBASE);
load_ins->klass = src_var->klass;
load_ins->type = STACK_VTYPE;
load_ins->sreg1 = varload_ins->dreg;
load_ins->dreg = alloc_xreg (cfg);
mono_bblock_insert_after_ins (bb, varload_ins, load_ins);
*sreg = load_ins->dreg;
}
}
static void
decompose_vtype_opt_store_arg (MonoCompile *cfg, MonoBasicBlock *bb, MonoInst *ins, gint32 *dreg_int32)
{
guint32 *dreg = (guint32*)dreg_int32;
MonoInst *dest_var = get_vreg_to_inst (cfg, *dreg);
if (dest_var && dest_var->opcode == OP_ARG && dest_var->klass && MONO_CLASS_IS_SIMD (cfg, dest_var->klass)) {
MonoInst *varload_ins, *store_ins;
*dreg = alloc_xreg (cfg);
NEW_VARLOADA (cfg, varload_ins, dest_var, dest_var->inst_vtype);
mono_bblock_insert_after_ins (bb, ins, varload_ins);
MONO_INST_NEW (cfg, store_ins, OP_STOREX_MEMBASE);
store_ins->klass = dest_var->klass;
store_ins->type = STACK_VTYPE;
store_ins->sreg1 = *dreg;
store_ins->dreg = varload_ins->dreg;
mono_bblock_insert_after_ins (bb, varload_ins, store_ins);
}
}
void
mono_simd_decompose_intrinsic (MonoCompile *cfg, MonoBasicBlock *bb, MonoInst *ins)
{
if ((cfg->opt & MONO_OPT_SIMD) && decompose_vtype_opt_uses_simd_intrinsics(cfg, ins)) {
const char *spec = INS_INFO (ins->opcode);
if (spec [MONO_INST_SRC1] == 'x')
decompose_vtype_opt_load_arg (cfg, bb, ins, &(ins->sreg1));
if (spec [MONO_INST_SRC2] == 'x')
decompose_vtype_opt_load_arg (cfg, bb, ins, &(ins->sreg2));
if (spec [MONO_INST_SRC3] == 'x')
decompose_vtype_opt_load_arg (cfg, bb, ins, &(ins->sreg3));
if (spec [MONO_INST_DEST] == 'x')
decompose_vtype_opt_store_arg (cfg, bb, ins, &(ins->dreg));
}
}
#else
void
mono_simd_decompose_intrinsic (MonoCompile *cfg, MonoBasicBlock *bb, MonoInst *ins)
{
}
#endif /*defined(TARGET_WIN32) && defined(TARGET_AMD64)*/
void
mono_simd_simplify_indirection (MonoCompile *cfg)
{
}
#endif /* DISABLE_JIT */
#endif /* MONO_ARCH_SIMD_INTRINSICS */
#if defined(TARGET_AMD64)
void
ves_icall_System_Runtime_Intrinsics_X86_X86Base___cpuidex (int abcd[4], int function_id, int subfunction_id)
{
#ifndef MONO_CROSS_COMPILE
mono_hwcap_x86_call_cpuidex (function_id, subfunction_id,
&abcd [0], &abcd [1], &abcd [2], &abcd [3]);
#endif
}
#endif
MONO_EMPTY_SOURCE_FILE (simd_intrinsics_netcore);
|
/**
* SIMD Intrinsics support for netcore.
* Only LLVM is supported as a backend.
*/
#include <config.h>
#include <mono/utils/mono-compiler.h>
#include <mono/metadata/icall-decl.h>
#include "mini.h"
#include "mini-runtime.h"
#include "ir-emit.h"
#include "llvm-intrinsics-types.h"
#ifdef ENABLE_LLVM
#include "mini-llvm.h"
#include "mini-llvm-cpp.h"
#endif
#include "mono/utils/bsearch.h"
#include <mono/metadata/abi-details.h>
#include <mono/metadata/reflection-internals.h>
#include <mono/utils/mono-hwcap.h>
#if defined (MONO_ARCH_SIMD_INTRINSICS)
#if defined(DISABLE_JIT)
void
mono_simd_intrinsics_init (void)
{
}
#else
#define MSGSTRFIELD(line) MSGSTRFIELD1(line)
#define MSGSTRFIELD1(line) str##line
static const struct msgstr_t {
#define METHOD(name) char MSGSTRFIELD(__LINE__) [sizeof (#name)];
#define METHOD2(str,name) char MSGSTRFIELD(__LINE__) [sizeof (str)];
#include "simd-methods.h"
#undef METHOD
#undef METHOD2
} method_names = {
#define METHOD(name) #name,
#define METHOD2(str,name) str,
#include "simd-methods.h"
#undef METHOD
#undef METHOD2
};
enum {
#define METHOD(name) SN_ ## name = offsetof (struct msgstr_t, MSGSTRFIELD(__LINE__)),
#define METHOD2(str,name) SN_ ## name = offsetof (struct msgstr_t, MSGSTRFIELD(__LINE__)),
#include "simd-methods.h"
};
#define method_name(idx) ((const char*)&method_names + (idx))
static int register_size;
#define None 0
typedef struct {
uint16_t id; // One of the SN_ constants
uint16_t default_op; // ins->opcode
uint16_t default_instc0; // ins->inst_c0
uint16_t unsigned_op;
uint16_t unsigned_instc0;
uint16_t floating_op;
uint16_t floating_instc0;
} SimdIntrinsic;
static const SimdIntrinsic unsupported [] = { {SN_get_IsSupported} };
void
mono_simd_intrinsics_init (void)
{
register_size = 16;
#if 0
if ((mini_get_cpu_features () & MONO_CPU_X86_AVX) != 0)
register_size = 32;
#endif
/* Tell the class init code the size of the System.Numerics.Register type */
mono_simd_register_size = register_size;
}
MonoInst*
mono_emit_simd_field_load (MonoCompile *cfg, MonoClassField *field, MonoInst *addr)
{
return NULL;
}
static int
simd_intrinsic_compare_by_name (const void *key, const void *value)
{
return strcmp ((const char*)key, method_name (*(guint16*)value));
}
static int
simd_intrinsic_info_compare_by_name (const void *key, const void *value)
{
SimdIntrinsic *info = (SimdIntrinsic*)value;
return strcmp ((const char*)key, method_name (info->id));
}
static int
lookup_intrins (guint16 *intrinsics, int size, MonoMethod *cmethod)
{
const guint16 *result = (const guint16 *)mono_binary_search (cmethod->name, intrinsics, size / sizeof (guint16), sizeof (guint16), &simd_intrinsic_compare_by_name);
if (result == NULL)
return -1;
else
return (int)*result;
}
static SimdIntrinsic*
lookup_intrins_info (SimdIntrinsic *intrinsics, int size, MonoMethod *cmethod)
{
#if 0
for (int i = 0; i < (size / sizeof (SimdIntrinsic)) - 1; ++i) {
const char *n1 = method_name (intrinsics [i].id);
const char *n2 = method_name (intrinsics [i + 1].id);
int len1 = strlen (n1);
int len2 = strlen (n2);
for (int j = 0; j < len1 && j < len2; ++j) {
if (n1 [j] > n2 [j]) {
printf ("%s %s\n", n1, n2);
g_assert_not_reached ();
} else if (n1 [j] < n2 [j]) {
break;
}
}
}
#endif
return (SimdIntrinsic *)mono_binary_search (cmethod->name, intrinsics, size / sizeof (SimdIntrinsic), sizeof (SimdIntrinsic), &simd_intrinsic_info_compare_by_name);
}
static gboolean
has_intrinsic_cattr (MonoMethod *method)
{
ERROR_DECL (error);
MonoCustomAttrInfo *cattr;
gboolean res = FALSE;
cattr = mono_custom_attrs_from_method_checked (method, error);
mono_error_assert_ok (error);
if (cattr) {
for (int i = 0; i < cattr->num_attrs; ++i) {
MonoCustomAttrEntry *attr = &cattr->attrs [i];
g_assert (attr->ctor);
if (!strcmp (m_class_get_name_space (attr->ctor->klass), "System.Runtime.CompilerServices") &&
!strcmp (m_class_get_name (attr->ctor->klass), "Intrinsic")) {
res = TRUE;
break;
}
}
mono_custom_attrs_free (cattr);
}
return res;
}
static G_GNUC_UNUSED void
check_no_intrinsic_cattr (MonoMethod *method)
{
if (has_intrinsic_cattr (method)) {
printf ("%s\n", mono_method_get_full_name (method));
g_assert_not_reached ();
}
}
/*
* Return a simd vreg for the simd value represented by SRC.
* SRC is the 'this' argument to methods.
* Set INDIRECT to TRUE if the value was loaded from memory.
*/
static int
load_simd_vreg_class (MonoCompile *cfg, MonoClass *klass, MonoInst *src, gboolean *indirect)
{
const char *spec = INS_INFO (src->opcode);
if (indirect)
*indirect = FALSE;
if (src->opcode == OP_XMOVE) {
return src->sreg1;
} else if (src->opcode == OP_LDADDR) {
int res = ((MonoInst*)src->inst_p0)->dreg;
return res;
} else if (spec [MONO_INST_DEST] == 'x') {
return src->dreg;
} else if (src->type == STACK_PTR || src->type == STACK_MP) {
MonoInst *ins;
if (indirect)
*indirect = TRUE;
MONO_INST_NEW (cfg, ins, OP_LOADX_MEMBASE);
ins->klass = klass;
ins->sreg1 = src->dreg;
ins->type = STACK_VTYPE;
ins->dreg = alloc_ireg (cfg);
MONO_ADD_INS (cfg->cbb, ins);
return ins->dreg;
}
g_warning ("load_simd_vreg:: could not infer source simd (%d) vreg for op", src->type);
mono_print_ins (src);
g_assert_not_reached ();
}
static int
load_simd_vreg (MonoCompile *cfg, MonoMethod *cmethod, MonoInst *src, gboolean *indirect)
{
return load_simd_vreg_class (cfg, cmethod->klass, src, indirect);
}
/* Create and emit a SIMD instruction, dreg is auto-allocated */
static MonoInst*
emit_simd_ins (MonoCompile *cfg, MonoClass *klass, int opcode, int sreg1, int sreg2)
{
const char *spec = INS_INFO (opcode);
MonoInst *ins;
MONO_INST_NEW (cfg, ins, opcode);
if (spec [MONO_INST_DEST] == 'x') {
ins->dreg = alloc_xreg (cfg);
ins->type = STACK_VTYPE;
} else if (spec [MONO_INST_DEST] == 'i') {
ins->dreg = alloc_ireg (cfg);
ins->type = STACK_I4;
} else if (spec [MONO_INST_DEST] == 'l') {
ins->dreg = alloc_lreg (cfg);
ins->type = STACK_I8;
} else if (spec [MONO_INST_DEST] == 'f') {
ins->dreg = alloc_freg (cfg);
ins->type = STACK_R8;
} else if (spec [MONO_INST_DEST] == 'v') {
ins->dreg = alloc_dreg (cfg, STACK_VTYPE);
ins->type = STACK_VTYPE;
}
ins->sreg1 = sreg1;
ins->sreg2 = sreg2;
ins->klass = klass;
MONO_ADD_INS (cfg->cbb, ins);
return ins;
}
static MonoInst*
emit_simd_ins_for_sig (MonoCompile *cfg, MonoClass *klass, int opcode, int instc0, int instc1, MonoMethodSignature *fsig, MonoInst **args)
{
g_assert (fsig->param_count <= 3);
MonoInst* ins = emit_simd_ins (cfg, klass, opcode,
fsig->param_count > 0 ? args [0]->dreg : -1,
fsig->param_count > 1 ? args [1]->dreg : -1);
if (instc0 != -1)
ins->inst_c0 = instc0;
if (instc1 != -1)
ins->inst_c1 = instc1;
if (fsig->param_count == 3)
ins->sreg3 = args [2]->dreg;
return ins;
}
static gboolean type_enum_is_unsigned (MonoTypeEnum type);
static gboolean type_enum_is_float (MonoTypeEnum type);
static MonoInst*
emit_simd_ins_for_binary_op (MonoCompile *cfg, MonoClass *klass, MonoMethodSignature *fsig, MonoInst **args, MonoTypeEnum arg_type, int id)
{
int instc0 = -1;
int op = OP_XBINOP;
if (id == SN_BitwiseAnd || id == SN_BitwiseOr || id == SN_Xor ||
id == SN_op_BitwiseAnd || id == SN_op_BitwiseOr || id == SN_op_ExclusiveOr) {
op = OP_XBINOP_FORCEINT;
switch (id) {
case SN_BitwiseAnd:
case SN_op_BitwiseAnd:
instc0 = XBINOP_FORCEINT_AND;
break;
case SN_BitwiseOr:
case SN_op_BitwiseOr:
instc0 = XBINOP_FORCEINT_OR;
break;
case SN_op_ExclusiveOr:
case SN_Xor:
instc0 = XBINOP_FORCEINT_XOR;
break;
}
} else {
if (type_enum_is_float (arg_type)) {
switch (id) {
case SN_Add:
case SN_op_Addition:
instc0 = OP_FADD;
break;
case SN_Divide:
case SN_op_Division:
instc0 = OP_FDIV;
break;
case SN_Max:
instc0 = OP_FMAX;
break;
case SN_Min:
instc0 = OP_FMIN;
break;
case SN_Multiply:
case SN_op_Multiply:
instc0 = OP_FMUL;
break;
case SN_Subtract:
case SN_op_Subtraction:
instc0 = OP_FSUB;
break;
default:
g_assert_not_reached ();
}
} else {
switch (id) {
case SN_Add:
case SN_op_Addition:
instc0 = OP_IADD;
break;
case SN_Divide:
case SN_op_Division:
return NULL;
case SN_Max:
instc0 = OP_IMAX;
break;
case SN_Min:
instc0 = OP_IMIN;
break;
case SN_Multiply:
case SN_op_Multiply:
instc0 = OP_IMUL;
break;
case SN_Subtract:
case SN_op_Subtraction:
instc0 = OP_ISUB;
break;
default:
g_assert_not_reached ();
}
}
}
return emit_simd_ins_for_sig (cfg, klass, op, instc0, arg_type, fsig, args);
}
static MonoInst*
emit_simd_ins_for_unary_op (MonoCompile *cfg, MonoClass *klass, MonoMethodSignature *fsig, MonoInst **args, MonoTypeEnum arg_type, int id)
{
#ifdef TARGET_ARM64
int op = -1;
switch (id){
case SN_Negate:
case SN_op_UnaryNegation:
op = OP_ARM64_XNEG;
break;
case SN_OnesComplement:
case SN_op_OnesComplement:
op = OP_ARM64_MVN;
break;
default:
g_assert_not_reached ();
}
return emit_simd_ins_for_sig (cfg, klass, op, -1, arg_type, fsig, args);
#else
return NULL;
#endif
}
static gboolean
is_hw_intrinsics_class (MonoClass *klass, const char *name, gboolean *is_64bit)
{
const char *class_name = m_class_get_name (klass);
if ((!strcmp (class_name, "X64") || !strcmp (class_name, "Arm64")) && m_class_get_nested_in (klass)) {
*is_64bit = TRUE;
return !strcmp (m_class_get_name (m_class_get_nested_in (klass)), name);
} else {
*is_64bit = FALSE;
return !strcmp (class_name, name);
}
}
static MonoTypeEnum
get_underlying_type (MonoType* type)
{
MonoClass* klass = mono_class_from_mono_type_internal (type);
if (type->type == MONO_TYPE_PTR) // e.g. int* => MONO_TYPE_I4
return m_class_get_byval_arg (m_class_get_element_class (klass))->type;
else if (type->type == MONO_TYPE_GENERICINST) // e.g. Vector128<int> => MONO_TYPE_I4
return mono_class_get_context (klass)->class_inst->type_argv [0]->type;
else
return type->type;
}
static MonoInst*
emit_xcompare (MonoCompile *cfg, MonoClass *klass, MonoTypeEnum etype, MonoInst *arg1, MonoInst *arg2)
{
MonoInst *ins;
int opcode = type_enum_is_float (etype) ? OP_XCOMPARE_FP : OP_XCOMPARE;
ins = emit_simd_ins (cfg, klass, opcode, arg1->dreg, arg2->dreg);
ins->inst_c0 = CMP_EQ;
ins->inst_c1 = etype;
return ins;
}
static MonoInst*
emit_xcompare_for_intrinsic (MonoCompile *cfg, MonoClass *klass, int intrinsic_id, MonoTypeEnum etype, MonoInst *arg1, MonoInst *arg2)
{
MonoInst *ins = emit_xcompare (cfg, klass, etype, arg1, arg2);
gboolean is_unsigned = type_enum_is_unsigned (etype);
switch (intrinsic_id) {
case SN_GreaterThan:
case SN_GreaterThanAll:
case SN_GreaterThanAny:
ins->inst_c0 = is_unsigned ? CMP_GT_UN : CMP_GT;
break;
case SN_GreaterThanOrEqual:
case SN_GreaterThanOrEqualAll:
case SN_GreaterThanOrEqualAny:
ins->inst_c0 = is_unsigned ? CMP_GE_UN : CMP_GE;
break;
case SN_LessThan:
case SN_LessThanAll:
case SN_LessThanAny:
ins->inst_c0 = is_unsigned ? CMP_LT_UN : CMP_LT;
break;
case SN_LessThanOrEqual:
case SN_LessThanOrEqualAll:
case SN_LessThanOrEqualAny:
ins->inst_c0 = is_unsigned ? CMP_LE_UN : CMP_LE;
break;
default:
g_assert_not_reached ();
}
return ins;
}
static MonoInst*
emit_xequal (MonoCompile *cfg, MonoClass *klass, MonoInst *arg1, MonoInst *arg2)
{
return emit_simd_ins (cfg, klass, OP_XEQUAL, arg1->dreg, arg2->dreg);
}
static MonoInst*
emit_not_xequal (MonoCompile *cfg, MonoClass *klass, MonoInst *arg1, MonoInst *arg2)
{
MonoInst *ins = emit_xequal (cfg, klass, arg1, arg2);
int sreg = ins->dreg;
int dreg = alloc_ireg (cfg);
MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, sreg, 0);
EMIT_NEW_UNALU (cfg, ins, OP_CEQ, dreg, -1);
return ins;
}
static MonoInst*
emit_xzero (MonoCompile *cfg, MonoClass *klass)
{
return emit_simd_ins (cfg, klass, OP_XZERO, -1, -1);
}
static MonoInst*
emit_xones (MonoCompile *cfg, MonoClass *klass)
{
return emit_simd_ins (cfg, klass, OP_XONES, -1, -1);
}
#ifdef TARGET_ARM64
static int type_to_extract_op (MonoTypeEnum type);
static MonoType* get_vector_t_elem_type (MonoType *vector_type);
static MonoInst*
emit_sum_vector (MonoCompile *cfg, MonoType *vector_type, MonoTypeEnum element_type, MonoInst *arg)
{
MonoClass *vector_class = mono_class_from_mono_type_internal (vector_type);
int vector_size = mono_class_value_size (vector_class, NULL);
MonoClass *element_class = mono_class_from_mono_type_internal (get_vector_t_elem_type (vector_type));
int element_size = mono_class_value_size (element_class, NULL);
gboolean has_single_element = vector_size == element_size;
// If there's just one element we need to extract it instead of summing the whole array
if (has_single_element) {
MonoInst *ins = emit_simd_ins (cfg, vector_class, type_to_extract_op (element_type), arg->dreg, -1);
ins->inst_c0 = 0;
ins->inst_c1 = element_type;
return ins;
}
MonoInst *ins = emit_simd_ins (cfg, vector_class, OP_ARM64_XADDV, arg->dreg, -1);
if (type_enum_is_float (element_type)) {
ins->inst_c0 = INTRINS_AARCH64_ADV_SIMD_FADDV;
} else {
ins->inst_c0 = type_enum_is_unsigned (element_type) ? INTRINS_AARCH64_ADV_SIMD_UADDV : INTRINS_AARCH64_ADV_SIMD_SADDV;
}
return ins;
}
#endif
static gboolean
is_intrinsics_vector_type (MonoType *vector_type)
{
if (vector_type->type != MONO_TYPE_GENERICINST) return FALSE;
MonoClass *klass = mono_class_from_mono_type_internal (vector_type);
const char *name = m_class_get_name (klass);
return !strcmp (name, "Vector64`1") || !strcmp (name, "Vector128`1") || !strcmp (name, "Vector256`1");
}
static MonoType*
get_vector_t_elem_type (MonoType *vector_type)
{
MonoClass *klass;
MonoType *etype;
g_assert (vector_type->type == MONO_TYPE_GENERICINST);
klass = mono_class_from_mono_type_internal (vector_type);
g_assert (
!strcmp (m_class_get_name (klass), "Vector`1") ||
!strcmp (m_class_get_name (klass), "Vector64`1") ||
!strcmp (m_class_get_name (klass), "Vector128`1") ||
!strcmp (m_class_get_name (klass), "Vector256`1"));
etype = mono_class_get_context (klass)->class_inst->type_argv [0];
return etype;
}
static gboolean
type_is_unsigned (MonoType *type) {
MonoClass *klass = mono_class_from_mono_type_internal (type);
MonoType *etype = mono_class_get_context (klass)->class_inst->type_argv [0];
return type_enum_is_unsigned (etype->type);
}
static gboolean
type_enum_is_unsigned (MonoTypeEnum type)
{
switch (type) {
case MONO_TYPE_U1:
case MONO_TYPE_U2:
case MONO_TYPE_U4:
case MONO_TYPE_U8:
case MONO_TYPE_U:
return TRUE;
}
return FALSE;
}
static gboolean
type_is_float (MonoType *type) {
MonoClass *klass = mono_class_from_mono_type_internal (type);
MonoType *etype = mono_class_get_context (klass)->class_inst->type_argv [0];
return type_enum_is_float (etype->type);
}
static gboolean
type_enum_is_float (MonoTypeEnum type)
{
return type == MONO_TYPE_R4 || type == MONO_TYPE_R8;
}
static int
type_to_expand_op (MonoType *type)
{
switch (type->type) {
case MONO_TYPE_I1:
case MONO_TYPE_U1:
return OP_EXPAND_I1;
case MONO_TYPE_I2:
case MONO_TYPE_U2:
return OP_EXPAND_I2;
case MONO_TYPE_I4:
case MONO_TYPE_U4:
return OP_EXPAND_I4;
case MONO_TYPE_I8:
case MONO_TYPE_U8:
return OP_EXPAND_I8;
case MONO_TYPE_R4:
return OP_EXPAND_R4;
case MONO_TYPE_R8:
return OP_EXPAND_R8;
case MONO_TYPE_I:
case MONO_TYPE_U:
#if TARGET_SIZEOF_VOID_P == 8
return OP_EXPAND_I8;
#else
return OP_EXPAND_I4;
#endif
default:
g_assert_not_reached ();
}
}
static int
type_to_insert_op (MonoType *type)
{
switch (type->type) {
case MONO_TYPE_I1:
case MONO_TYPE_U1:
return OP_INSERT_I1;
case MONO_TYPE_I2:
case MONO_TYPE_U2:
return OP_INSERT_I2;
case MONO_TYPE_I4:
case MONO_TYPE_U4:
return OP_INSERT_I4;
case MONO_TYPE_I8:
case MONO_TYPE_U8:
return OP_INSERT_I8;
case MONO_TYPE_R4:
return OP_INSERT_R4;
case MONO_TYPE_R8:
return OP_INSERT_R8;
case MONO_TYPE_I:
case MONO_TYPE_U:
#if TARGET_SIZEOF_VOID_P == 8
return OP_INSERT_I8;
#else
return OP_INSERT_I4;
#endif
default:
g_assert_not_reached ();
}
}
typedef struct {
const char *name;
MonoCPUFeatures feature;
const SimdIntrinsic *intrinsics;
int intrinsics_size;
gboolean jit_supported;
} IntrinGroup;
typedef MonoInst * (* EmitIntrinsicFn) (
MonoCompile *cfg, MonoMethodSignature *fsig, MonoInst **args,
MonoClass *klass, const IntrinGroup *intrin_group,
const SimdIntrinsic *info, int id, MonoTypeEnum arg0_type,
gboolean is_64bit);
static const IntrinGroup unsupported_intrin_group [] = {
{ "", 0, unsupported, sizeof (unsupported) },
};
static MonoInst *
emit_hardware_intrinsics (
MonoCompile *cfg, MonoMethod *cmethod, MonoMethodSignature *fsig,
MonoInst **args, const IntrinGroup *groups, int groups_size_bytes,
EmitIntrinsicFn custom_emit)
{
MonoClass *klass = cmethod->klass;
const IntrinGroup *intrin_group = unsupported_intrin_group;
gboolean is_64bit = FALSE;
int groups_size = groups_size_bytes / sizeof (groups [0]);
for (int i = 0; i < groups_size; ++i) {
const IntrinGroup *group = &groups [i];
if (is_hw_intrinsics_class (klass, group->name, &is_64bit)) {
intrin_group = group;
break;
}
}
gboolean supported = FALSE;
MonoTypeEnum arg0_type = fsig->param_count > 0 ? get_underlying_type (fsig->params [0]) : MONO_TYPE_VOID;
int id = -1;
uint16_t op = 0;
uint16_t c0 = 0;
const SimdIntrinsic *intrinsics = intrin_group->intrinsics;
int intrinsics_size = intrin_group->intrinsics_size;
MonoCPUFeatures feature = intrin_group->feature;
const SimdIntrinsic *info = lookup_intrins_info ((SimdIntrinsic *) intrinsics, intrinsics_size, cmethod);
{
if (!info)
goto support_probe_complete;
id = info->id;
// Hardware intrinsics are LLVM-only.
if (!COMPILE_LLVM (cfg) && !intrin_group->jit_supported)
goto support_probe_complete;
if (intrin_group->intrinsics == unsupported)
supported = FALSE;
else if (feature)
supported = (mini_get_cpu_features (cfg) & feature) != 0;
else
supported = TRUE;
op = info->default_op;
c0 = info->default_instc0;
gboolean is_unsigned = FALSE;
gboolean is_float = FALSE;
switch (arg0_type) {
case MONO_TYPE_U1:
case MONO_TYPE_U2:
case MONO_TYPE_U4:
case MONO_TYPE_U8:
case MONO_TYPE_U:
is_unsigned = TRUE;
break;
case MONO_TYPE_R4:
case MONO_TYPE_R8:
is_float = TRUE;
break;
}
if (is_unsigned && info->unsigned_op != 0) {
op = info->unsigned_op;
c0 = info->unsigned_instc0;
} else if (is_float && info->floating_op != 0) {
op = info->floating_op;
c0 = info->floating_instc0;
}
}
support_probe_complete:
if (id == SN_get_IsSupported) {
MonoInst *ins = NULL;
EMIT_NEW_ICONST (cfg, ins, supported ? 1 : 0);
return ins;
}
if (!supported) {
// Can't emit non-supported llvm intrinsics
if (cfg->method != cmethod) {
// Keep the original call so we end up in the intrinsic method
return NULL;
} else {
// Emit an exception from the intrinsic method
mono_emit_jit_icall (cfg, mono_throw_platform_not_supported, NULL);
return NULL;
}
}
if (op != 0)
return emit_simd_ins_for_sig (cfg, klass, op, c0, arg0_type, fsig, args);
return custom_emit (cfg, fsig, args, klass, intrin_group, info, id, arg0_type, is_64bit);
}
static MonoInst *
emit_vector_create_elementwise (
MonoCompile *cfg, MonoMethodSignature *fsig, MonoType *vtype,
MonoType *etype, MonoInst **args)
{
int op = type_to_insert_op (etype);
MonoClass *vklass = mono_class_from_mono_type_internal (vtype);
MonoInst *ins = emit_xzero (cfg, vklass);
for (int i = 0; i < fsig->param_count; ++i) {
ins = emit_simd_ins (cfg, vklass, op, ins->dreg, args [i]->dreg);
ins->inst_c0 = i;
}
return ins;
}
#if defined(TARGET_AMD64) || defined(TARGET_ARM64)
static int
type_to_xinsert_op (MonoTypeEnum type)
{
switch (type) {
case MONO_TYPE_I1: case MONO_TYPE_U1: return OP_XINSERT_I1;
case MONO_TYPE_I2: case MONO_TYPE_U2: return OP_XINSERT_I2;
case MONO_TYPE_I4: case MONO_TYPE_U4: return OP_XINSERT_I4;
case MONO_TYPE_I8: case MONO_TYPE_U8: return OP_XINSERT_I8;
case MONO_TYPE_R4: return OP_XINSERT_R4;
case MONO_TYPE_R8: return OP_XINSERT_R8;
case MONO_TYPE_I: case MONO_TYPE_U:
#if TARGET_SIZEOF_VOID_P == 8
return OP_XINSERT_I8;
#else
return OP_XINSERT_I4;
#endif
default: g_assert_not_reached ();
}
}
static int
type_to_xextract_op (MonoTypeEnum type)
{
switch (type) {
case MONO_TYPE_I1: case MONO_TYPE_U1: return OP_XEXTRACT_I1;
case MONO_TYPE_I2: case MONO_TYPE_U2: return OP_XEXTRACT_I2;
case MONO_TYPE_I4: case MONO_TYPE_U4: return OP_XEXTRACT_I4;
case MONO_TYPE_I8: case MONO_TYPE_U8: return OP_XEXTRACT_I8;
case MONO_TYPE_R4: return OP_XEXTRACT_R4;
case MONO_TYPE_R8: return OP_XEXTRACT_R8;
case MONO_TYPE_I: case MONO_TYPE_U:
#if TARGET_SIZEOF_VOID_P == 8
return OP_XEXTRACT_I8;
#else
return OP_XEXTRACT_I4;
#endif
default: g_assert_not_reached ();
}
}
static int
type_to_extract_op (MonoTypeEnum type)
{
switch (type) {
case MONO_TYPE_I1: case MONO_TYPE_U1: return OP_EXTRACT_I1;
case MONO_TYPE_I2: case MONO_TYPE_U2: return OP_EXTRACT_I2;
case MONO_TYPE_I4: case MONO_TYPE_U4: return OP_EXTRACT_I4;
case MONO_TYPE_I8: case MONO_TYPE_U8: return OP_EXTRACT_I8;
case MONO_TYPE_R4: return OP_EXTRACT_R4;
case MONO_TYPE_R8: return OP_EXTRACT_R8;
case MONO_TYPE_I: case MONO_TYPE_U:
#if TARGET_SIZEOF_VOID_P == 8
return OP_EXTRACT_I8;
#else
return OP_EXTRACT_I4;
#endif
default: g_assert_not_reached ();
}
}
static MonoClass *
create_class_instance (MonoCompile *cfg, MonoMethodSignature *fsig, const char* name_space, const char *name, gboolean same_type, MonoType *param_type)
{
MonoClass *ivector = mono_class_load_from_name (mono_defaults.corlib, name_space, name);
if (same_type) {
MonoClass *arg_class = mono_class_from_mono_type_internal (fsig->params [0]);
param_type = mono_class_get_generic_class (arg_class)->context.class_inst->type_argv [0];
} else {
g_assert(param_type != NULL);
}
MonoType *args [ ] = { param_type };
MonoGenericContext ctx;
memset (&ctx, 0, sizeof (ctx));
ctx.class_inst = mono_metadata_get_generic_inst (1, args);
ERROR_DECL (error);
MonoClass *ivector_inst = mono_class_inflate_generic_class_checked (ivector, &ctx, error);
mono_error_assert_ok (error); /* FIXME don't swallow the error */
return ivector_inst;
}
static guint16 sri_vector_methods [] = {
SN_Abs,
SN_Add,
SN_AndNot,
SN_As,
SN_AsByte,
SN_AsDouble,
SN_AsInt16,
SN_AsInt32,
SN_AsInt64,
SN_AsSByte,
SN_AsSingle,
SN_AsUInt16,
SN_AsUInt32,
SN_AsUInt64,
SN_AsVector128,
SN_AsVector2,
SN_AsVector256,
SN_AsVector3,
SN_AsVector4,
SN_BitwiseAnd,
SN_BitwiseOr,
SN_Ceiling,
SN_ConditionalSelect,
SN_ConvertToDouble,
SN_ConvertToInt32,
SN_ConvertToUInt32,
SN_Create,
SN_CreateScalar,
SN_CreateScalarUnsafe,
SN_Divide,
SN_Dot,
SN_Equals,
SN_EqualsAll,
SN_EqualsAny,
SN_Floor,
SN_GetElement,
SN_GetLower,
SN_GetUpper,
SN_GreaterThan,
SN_GreaterThanAll,
SN_GreaterThanAny,
SN_GreaterThanOrEqual,
SN_GreaterThanOrEqualAll,
SN_GreaterThanOrEqualAny,
SN_LessThan,
SN_LessThanAll,
SN_LessThanAny,
SN_LessThanOrEqual,
SN_LessThanOrEqualAll,
SN_LessThanOrEqualAny,
SN_Max,
SN_Min,
SN_Multiply,
SN_Narrow,
SN_Negate,
SN_OnesComplement,
SN_Sqrt,
SN_Subtract,
SN_Sum,
SN_ToScalar,
SN_ToVector128,
SN_ToVector128Unsafe,
SN_ToVector256,
SN_ToVector256Unsafe,
SN_WithElement,
SN_Xor,
};
/* nint and nuint haven't been enabled yet for System.Runtime.Intrinsics.
* Remove this once support has been added.
*/
#define MONO_TYPE_IS_INTRINSICS_VECTOR_PRIMITIVE(t) ((MONO_TYPE_IS_VECTOR_PRIMITIVE(t)) && ((t)->type != MONO_TYPE_I) && ((t)->type != MONO_TYPE_U))
static gboolean
is_elementwise_create_overload (MonoMethodSignature *fsig, MonoType *ret_type)
{
uint16_t param_count = fsig->param_count;
if (param_count < 1) return FALSE;
MonoType *type = fsig->params [0];
if (!MONO_TYPE_IS_INTRINSICS_VECTOR_PRIMITIVE (type)) return FALSE;
if (!mono_metadata_type_equal (ret_type, type)) return FALSE;
for (uint16_t i = 1; i < param_count; ++i)
if (!mono_metadata_type_equal (type, fsig->params [i])) return FALSE;
return TRUE;
}
static gboolean
is_create_from_half_vectors_overload (MonoMethodSignature *fsig)
{
if (fsig->param_count != 2) return FALSE;
if (!is_intrinsics_vector_type (fsig->params [0])) return FALSE;
return mono_metadata_type_equal (fsig->params [0], fsig->params [1]);
}
static gboolean
is_element_type_primitive (MonoType *vector_type)
{
MonoType *element_type = get_vector_t_elem_type (vector_type);
return MONO_TYPE_IS_INTRINSICS_VECTOR_PRIMITIVE (element_type);
}
static MonoInst*
emit_sri_vector (MonoCompile *cfg, MonoMethod *cmethod, MonoMethodSignature *fsig, MonoInst **args)
{
if (!COMPILE_LLVM (cfg))
return NULL;
int id = lookup_intrins (sri_vector_methods, sizeof (sri_vector_methods), cmethod);
if (id == -1) {
//check_no_intrinsic_cattr (cmethod);
return NULL;
}
if (!strcmp (m_class_get_name (cfg->method->klass), "Vector256"))
return NULL; // TODO: Fix Vector256.WithUpper/WithLower
MonoClass *klass = cmethod->klass;
MonoTypeEnum arg0_type = fsig->param_count > 0 ? get_underlying_type (fsig->params [0]) : MONO_TYPE_VOID;
switch (id) {
case SN_Abs: {
if (!is_element_type_primitive (fsig->params [0]))
return NULL;
#ifdef TARGET_ARM64
if (type_enum_is_unsigned (arg0_type))
return NULL;
int iid = type_enum_is_float (arg0_type) ? INTRINS_AARCH64_ADV_SIMD_FABS : INTRINS_AARCH64_ADV_SIMD_ABS;
return emit_simd_ins_for_sig (cfg, klass, OP_XOP_OVR_X_X, iid, arg0_type, fsig, args);
#else
return NULL;
#endif
}
case SN_Add:
case SN_BitwiseAnd:
case SN_BitwiseOr:
case SN_Divide:
case SN_Max:
case SN_Min:
case SN_Multiply:
case SN_Subtract:
case SN_Xor:
if (!is_element_type_primitive (fsig->params [0]))
return NULL;
return emit_simd_ins_for_binary_op (cfg, klass, fsig, args, arg0_type, id);
case SN_AndNot:
#ifdef TARGET_ARM64
if (!is_element_type_primitive (fsig->params [0]))
return NULL;
return emit_simd_ins_for_sig (cfg, klass, OP_ARM64_BIC, -1, arg0_type, fsig, args);
#else
return NULL;
#endif
case SN_As:
case SN_AsByte:
case SN_AsDouble:
case SN_AsInt16:
case SN_AsInt32:
case SN_AsInt64:
case SN_AsSByte:
case SN_AsSingle:
case SN_AsUInt16:
case SN_AsUInt32:
case SN_AsUInt64: {
if (!is_element_type_primitive (fsig->ret) || !is_element_type_primitive (fsig->params [0]))
return NULL;
return emit_simd_ins (cfg, klass, OP_XCAST, args [0]->dreg, -1);
}
case SN_Ceiling:
case SN_Floor: {
#ifdef TARGET_ARM64
if (!type_enum_is_float (arg0_type))
return NULL;
int ceil_or_floor = id == SN_Ceiling ? INTRINS_AARCH64_ADV_SIMD_FRINTP : INTRINS_AARCH64_ADV_SIMD_FRINTM;
return emit_simd_ins_for_sig (cfg, klass, OP_XOP_OVR_X_X, ceil_or_floor, arg0_type, fsig, args);
#else
return NULL;
#endif
}
case SN_ConditionalSelect: {
#ifdef TARGET_ARM64
if (!is_element_type_primitive (fsig->params [0]))
return NULL;
return emit_simd_ins_for_sig (cfg, klass, OP_ARM64_BSL, -1, arg0_type, fsig, args);
#else
return NULL;
#endif
}
case SN_ConvertToDouble: {
#ifdef TARGET_ARM64
if ((arg0_type != MONO_TYPE_I8) && (arg0_type != MONO_TYPE_U8))
return NULL;
MonoClass *arg_class = mono_class_from_mono_type_internal (fsig->params [0]);
int size = mono_class_value_size (arg_class, NULL);
int op = -1;
if (size == 8)
op = arg0_type == MONO_TYPE_I8 ? OP_ARM64_SCVTF_SCALAR : OP_ARM64_UCVTF_SCALAR;
else
op = arg0_type == MONO_TYPE_I8 ? OP_ARM64_SCVTF : OP_ARM64_UCVTF;
return emit_simd_ins_for_sig (cfg, klass, op, -1, arg0_type, fsig, args);
#else
return NULL;
#endif
}
case SN_ConvertToInt32:
case SN_ConvertToUInt32: {
#ifdef TARGET_ARM64
if (arg0_type != MONO_TYPE_R4)
return NULL;
int op = id == SN_ConvertToInt32 ? OP_ARM64_FCVTZS : OP_ARM64_FCVTZU;
return emit_simd_ins_for_sig (cfg, klass, op, -1, arg0_type, fsig, args);
#else
return NULL;
#endif
}
case SN_Create: {
MonoType *etype = get_vector_t_elem_type (fsig->ret);
if (fsig->param_count == 1 && mono_metadata_type_equal (fsig->params [0], etype))
return emit_simd_ins (cfg, klass, type_to_expand_op (etype), args [0]->dreg, -1);
else if (is_create_from_half_vectors_overload (fsig))
return emit_simd_ins (cfg, klass, OP_XCONCAT, args [0]->dreg, args [1]->dreg);
else if (is_elementwise_create_overload (fsig, etype))
return emit_vector_create_elementwise (cfg, fsig, fsig->ret, etype, args);
break;
}
case SN_CreateScalar:
return emit_simd_ins_for_sig (cfg, klass, OP_CREATE_SCALAR, -1, arg0_type, fsig, args);
case SN_CreateScalarUnsafe:
return emit_simd_ins_for_sig (cfg, klass, OP_CREATE_SCALAR_UNSAFE, -1, arg0_type, fsig, args);
case SN_Equals:
case SN_EqualsAll:
case SN_EqualsAny: {
if (!is_element_type_primitive (fsig->params [0]))
return NULL;
switch (id) {
case SN_Equals:
return emit_xcompare (cfg, klass, arg0_type, args [0], args [1]);
case SN_EqualsAll:
return emit_xequal (cfg, klass, args [0], args [1]);
case SN_EqualsAny: {
MonoClass *arg_class = mono_class_from_mono_type_internal (fsig->params [0]);
MonoInst *cmp_eq = emit_xcompare (cfg, arg_class, arg0_type, args [0], args [1]);
MonoInst *zero = emit_xzero (cfg, arg_class);
return emit_not_xequal (cfg, arg_class, cmp_eq, zero);
}
default: g_assert_not_reached ();
}
}
case SN_GetElement: {
if (!is_element_type_primitive (fsig->params [0]))
return NULL;
MonoClass *arg_class = mono_class_from_mono_type_internal (fsig->params [0]);
MonoType *etype = mono_class_get_context (arg_class)->class_inst->type_argv [0];
int size = mono_class_value_size (arg_class, NULL);
int esize = mono_class_value_size (mono_class_from_mono_type_internal (etype), NULL);
int elems = size / esize;
MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, args [1]->dreg, elems);
MONO_EMIT_NEW_COND_EXC (cfg, GE_UN, "ArgumentOutOfRangeException");
int extract_op = type_to_xextract_op (arg0_type);
return emit_simd_ins_for_sig (cfg, klass, extract_op, -1, arg0_type, fsig, args);
}
case SN_GetLower:
case SN_GetUpper: {
if (!is_element_type_primitive (fsig->params [0]))
return NULL;
int op = id == SN_GetLower ? OP_XLOWER : OP_XUPPER;
return emit_simd_ins_for_sig (cfg, klass, op, 0, arg0_type, fsig, args);
}
case SN_GreaterThan:
case SN_GreaterThanOrEqual:
case SN_LessThan:
case SN_LessThanOrEqual: {
if (!is_element_type_primitive (fsig->params [0]))
return NULL;
return emit_xcompare_for_intrinsic (cfg, klass, id, arg0_type, args [0], args [1]);
}
case SN_GreaterThanAll:
case SN_GreaterThanAny:
case SN_GreaterThanOrEqualAll:
case SN_GreaterThanOrEqualAny:
case SN_LessThanAll:
case SN_LessThanAny:
case SN_LessThanOrEqualAll:
case SN_LessThanOrEqualAny: {
if (!is_element_type_primitive (fsig->params [0]))
return NULL;
g_assert (fsig->param_count == 2 &&
fsig->ret->type == MONO_TYPE_BOOLEAN &&
mono_metadata_type_equal (fsig->params [0], fsig->params [1]));
MonoInst *cmp = emit_xcompare_for_intrinsic (cfg, klass, id, arg0_type, args [0], args [1]);
MonoClass *arg_class = mono_class_from_mono_type_internal (fsig->params [0]);
switch (id) {
case SN_GreaterThanAll:
case SN_GreaterThanOrEqualAll:
case SN_LessThanAll:
case SN_LessThanOrEqualAll: {
// for floating point numbers all ones is NaN and so
// they must be treated differently than integer types
if (type_enum_is_float (arg0_type)) {
MonoInst *zero = emit_xzero (cfg, arg_class);
MonoInst *inverted_cmp = emit_xcompare (cfg, klass, arg0_type, cmp, zero);
return emit_xequal (cfg, klass, inverted_cmp, zero);
}
MonoInst *ones = emit_xones (cfg, arg_class);
return emit_xequal (cfg, klass, cmp, ones);
}
case SN_GreaterThanAny:
case SN_GreaterThanOrEqualAny:
case SN_LessThanAny:
case SN_LessThanOrEqualAny: {
MonoInst *zero = emit_xzero (cfg, arg_class);
return emit_not_xequal (cfg, klass, cmp, zero);
}
default:
g_assert_not_reached ();
}
}
case SN_Narrow: {
#ifdef TARGET_ARM64
if (!is_element_type_primitive (fsig->params [0]))
return NULL;
MonoClass *arg_class = mono_class_from_mono_type_internal (fsig->params [0]);
int size = mono_class_value_size (arg_class, NULL);
if (size == 16) {
switch (arg0_type) {
case MONO_TYPE_R8: {
MonoInst *ins = emit_simd_ins (cfg, arg_class, OP_ARM64_FCVTN, args [0]->dreg, -1);
return emit_simd_ins (cfg, arg_class, OP_ARM64_FCVTN2, ins->dreg, args [1]->dreg);
}
case MONO_TYPE_I2:
case MONO_TYPE_I4:
case MONO_TYPE_I8:
case MONO_TYPE_U2:
case MONO_TYPE_U4:
case MONO_TYPE_U8: {
MonoInst *ins = emit_simd_ins (cfg, arg_class, OP_ARM64_XTN, args [0]->dreg, -1);
return emit_simd_ins (cfg, arg_class, OP_ARM64_XTN2, ins->dreg, args [1]->dreg);
}
default:
return NULL;
}
} else {
switch (arg0_type) {
case MONO_TYPE_R8: {
//Widen arg0
MonoInst *ins1 = emit_simd_ins (cfg, arg_class, OP_XWIDEN_UNSAFE, args [0]->dreg, -1);
//Insert arg1 to arg0
int tmp = alloc_ireg (cfg);
MONO_EMIT_NEW_ICONST (cfg, tmp, 1);
MonoInst *ins2 = emit_simd_ins (cfg, arg_class, OP_EXTRACT_R8, args [1]->dreg, -1);
ins2->inst_c0 = 0;
ins2->inst_c1 = arg0_type;
MonoClass *ivector128_inst = create_class_instance (cfg, fsig, "System.Runtime.Intrinsics", "Vector128`1", TRUE, NULL);
ins1 = emit_simd_ins (cfg, ivector128_inst, OP_XINSERT_R8, ins1->dreg, ins2->dreg);
ins1->sreg3 = tmp;
ins1->inst_c1 = arg0_type;
//ConvertToSingleLower
return emit_simd_ins (cfg, arg_class, OP_ARM64_FCVTN, ins1->dreg, -1);
}
case MONO_TYPE_I2:
case MONO_TYPE_I4:
case MONO_TYPE_I8:
case MONO_TYPE_U2:
case MONO_TYPE_U4:
case MONO_TYPE_U8: {
//Widen arg0
MonoInst *arg0 = emit_simd_ins (cfg, arg_class, OP_XWIDEN_UNSAFE, args [0]->dreg, -1);
//Cast arg0 and arg1 to u/int64
MonoType *type_new;
MonoTypeEnum type_enum_new;
if (type_enum_is_unsigned (arg0_type)) {
type_new = m_class_get_byval_arg (mono_defaults.uint64_class);
type_enum_new = MONO_TYPE_U8;
} else {
type_new = m_class_get_byval_arg (mono_defaults.int64_class);
type_enum_new = MONO_TYPE_I8;
}
MonoClass *ivector128_64_inst = create_class_instance (cfg, fsig, "System.Runtime.Intrinsics", "Vector128`1", FALSE, type_new);
arg0 = emit_simd_ins (cfg, ivector128_64_inst, OP_XCAST, arg0->dreg, -1);
MonoClass *ivector64_64_inst = create_class_instance (cfg, fsig, "System.Runtime.Intrinsics", "Vector64`1", FALSE, type_new);
MonoInst *arg1 = emit_simd_ins (cfg, ivector64_64_inst, OP_XCAST, args [1]->dreg, -1);
//Insert arg1 to arg0
int tmp = alloc_ireg (cfg);
MONO_EMIT_NEW_ICONST (cfg, tmp, 1);
arg1 = emit_simd_ins (cfg, ivector64_64_inst, OP_EXTRACT_I8, arg1->dreg, -1);
arg1->inst_c0 = 0;
arg1->inst_c1 = type_enum_new;
MonoClass *ivector128_inst = create_class_instance (cfg, fsig, "System.Runtime.Intrinsics", "Vector128`1", TRUE, NULL);
MonoInst *ins = emit_simd_ins (cfg, ivector128_64_inst, OP_XINSERT_I8, arg0->dreg, arg1->dreg);
ins->sreg3 = tmp;
ins->inst_c1 = type_enum_new;
//Cast arg0 back to its original element type (arg0_type)
ins = emit_simd_ins (cfg, ivector128_inst, OP_XCAST, ins->dreg, -1);
//ExtractNarrowingLower
return emit_simd_ins (cfg, ivector128_inst, OP_ARM64_XTN, ins->dreg, -1);
}
default:
return NULL;
}
}
#else
return NULL;
#endif
}
case SN_Negate:
case SN_OnesComplement: {
if (!is_element_type_primitive (fsig->params [0]))
return NULL;
return emit_simd_ins_for_unary_op (cfg, klass, fsig, args, arg0_type, id);
}
case SN_Sum: {
#ifdef TARGET_ARM64
if (!is_element_type_primitive (fsig->params [0]))
return NULL;
return emit_sum_vector (cfg, fsig->params [0], arg0_type, args [0]);
#else
return NULL;
#endif
}
case SN_Sqrt: {
#ifdef TARGET_ARM64
if (!is_element_type_primitive (fsig->params [0]))
return NULL;
if (!type_enum_is_float (arg0_type))
return NULL;
return emit_simd_ins_for_sig (cfg, klass, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FSQRT, arg0_type, fsig, args);
#else
return NULL;
#endif
}
case SN_ToScalar: {
if (!is_element_type_primitive (fsig->params [0]))
return NULL;
int extract_op = type_to_extract_op (arg0_type);
return emit_simd_ins_for_sig (cfg, klass, extract_op, 0, arg0_type, fsig, args);
}
case SN_ToVector128:
case SN_ToVector128Unsafe: {
if (!is_element_type_primitive (fsig->params [0]))
return NULL;
int op = id == SN_ToVector128 ? OP_XWIDEN : OP_XWIDEN_UNSAFE;
return emit_simd_ins_for_sig (cfg, klass, op, 0, arg0_type, fsig, args);
}
case SN_WithElement: {
if (!is_element_type_primitive (fsig->params [0]))
return NULL;
MonoClass *arg_class = mono_class_from_mono_type_internal (fsig->params [0]);
MonoType *etype = mono_class_get_context (arg_class)->class_inst->type_argv [0];
int size = mono_class_value_size (arg_class, NULL);
int esize = mono_class_value_size (mono_class_from_mono_type_internal (etype), NULL);
int elems = size / esize;
MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, args [1]->dreg, elems);
MONO_EMIT_NEW_COND_EXC (cfg, GE_UN, "ArgumentOutOfRangeException");
int insert_op = type_to_xinsert_op (arg0_type);
MonoInst *ins = emit_simd_ins (cfg, klass, insert_op, args [0]->dreg, args [2]->dreg);
ins->sreg3 = args [1]->dreg;
ins->inst_c1 = arg0_type;
return ins;
}
case SN_WithLower:
case SN_WithUpper: {
if (!is_element_type_primitive (fsig->params [0]))
return NULL;
int op = id == SN_GetLower ? OP_XINSERT_LOWER : OP_XINSERT_UPPER;
return emit_simd_ins_for_sig (cfg, klass, op, 0, arg0_type, fsig, args);
}
default:
break;
}
return NULL;
}
static guint16 vector64_vector128_t_methods [] = {
SN_Equals,
SN_get_AllBitsSet,
SN_get_Count,
SN_get_IsSupported,
SN_get_Zero,
SN_op_Addition,
SN_op_BitwiseAnd,
SN_op_BitwiseOr,
SN_op_Division,
SN_op_Equality,
SN_op_ExclusiveOr,
SN_op_Inequality,
SN_op_Multiply,
SN_op_OnesComplement,
SN_op_Subtraction,
SN_op_UnaryNegation,
};
static MonoInst*
emit_vector64_vector128_t (MonoCompile *cfg, MonoMethod *cmethod, MonoMethodSignature *fsig, MonoInst **args)
{
int id = lookup_intrins (vector64_vector128_t_methods, sizeof (vector64_vector128_t_methods), cmethod);
if (id == -1) {
//check_no_intrinsic_cattr (cmethod);
return NULL;
}
MonoClass *klass = cmethod->klass;
MonoType *type = m_class_get_byval_arg (klass);
MonoType *etype = mono_class_get_context (klass)->class_inst->type_argv [0];
int size = mono_class_value_size (klass, NULL);
int esize = mono_class_value_size (mono_class_from_mono_type_internal (etype), NULL);
g_assert (size > 0);
g_assert (esize > 0);
int len = size / esize;
MonoTypeEnum arg0_type = fsig->param_count > 0 ? get_underlying_type (fsig->params [0]) : MONO_TYPE_VOID;
if (!MONO_TYPE_IS_INTRINSICS_VECTOR_PRIMITIVE (etype))
return NULL;
if (cfg->verbose_level > 1) {
char *name = mono_method_full_name (cmethod, TRUE);
printf (" SIMD intrinsic %s\n", name);
g_free (name);
}
switch (id) {
case SN_get_IsSupported: {
MonoInst *ins = NULL;
EMIT_NEW_ICONST (cfg, ins, 1);
return ins;
}
default:
break;
}
if (!COMPILE_LLVM (cfg))
return NULL;
switch (id) {
case SN_get_Count: {
MonoInst *ins = NULL;
if (!(fsig->param_count == 0 && fsig->ret->type == MONO_TYPE_I4))
break;
EMIT_NEW_ICONST (cfg, ins, len);
return ins;
}
case SN_get_Zero: {
return emit_xzero (cfg, klass);
}
case SN_get_AllBitsSet: {
return emit_xones (cfg, klass);
}
case SN_Equals: {
if (fsig->param_count == 1 && fsig->ret->type == MONO_TYPE_BOOLEAN && mono_metadata_type_equal (fsig->params [0], type)) {
int sreg1 = load_simd_vreg (cfg, cmethod, args [0], NULL);
return emit_simd_ins (cfg, klass, OP_XEQUAL, sreg1, args [1]->dreg);
}
break;
}
case SN_op_Addition:
case SN_op_BitwiseAnd:
case SN_op_BitwiseOr:
case SN_op_Division:
case SN_op_ExclusiveOr:
case SN_op_Multiply:
case SN_op_Subtraction: {
if (fsig->param_count != 2 )
return NULL;
MonoTypeEnum arg0_type = fsig->param_count > 0 ? get_underlying_type (fsig->params [0]) : MONO_TYPE_VOID;
return emit_simd_ins_for_binary_op (cfg, klass, fsig, args, arg0_type, id);
}
case SN_op_Equality:
case SN_op_Inequality:
if (fsig->param_count != 2 )
return NULL;
switch (id) {
case SN_op_Equality: return emit_xequal (cfg, klass, args [0], args [1]);
case SN_op_Inequality: return emit_not_xequal (cfg, klass, args [0], args [1]);
default: g_assert_not_reached ();
}
case SN_op_OnesComplement:
case SN_op_UnaryNegation:
if (fsig->param_count != 1 )
return NULL;
return emit_simd_ins_for_unary_op (cfg, klass, fsig, args, arg0_type, id);
default:
break;
}
return NULL;
}
#endif // defined(TARGET_AMD64) || defined(TARGET_ARM64)
#if defined(TARGET_AMD64)
static guint16 vector_methods [] = {
SN_ConvertToDouble,
SN_ConvertToInt32,
SN_ConvertToInt64,
SN_ConvertToSingle,
SN_ConvertToUInt32,
SN_ConvertToUInt64,
SN_Narrow,
SN_Widen,
SN_get_IsHardwareAccelerated,
};
static MonoInst*
emit_sys_numerics_vector (MonoCompile *cfg, MonoMethod *cmethod, MonoMethodSignature *fsig, MonoInst **args)
{
MonoInst *ins;
gboolean supported = FALSE;
int id;
MonoType *etype;
id = lookup_intrins (vector_methods, sizeof (vector_methods), cmethod);
if (id == -1) {
//check_no_intrinsic_cattr (cmethod);
return NULL;
}
//printf ("%s\n", mono_method_full_name (cmethod, 1));
#ifdef MONO_ARCH_SIMD_INTRINSICS
supported = TRUE;
#endif
if (cfg->verbose_level > 1) {
char *name = mono_method_full_name (cmethod, TRUE);
printf (" SIMD intrinsic %s\n", name);
g_free (name);
}
switch (id) {
case SN_get_IsHardwareAccelerated:
EMIT_NEW_ICONST (cfg, ins, supported ? 1 : 0);
ins->type = STACK_I4;
return ins;
case SN_ConvertToInt32:
etype = get_vector_t_elem_type (fsig->params [0]);
g_assert (etype->type == MONO_TYPE_R4);
return emit_simd_ins (cfg, mono_class_from_mono_type_internal (fsig->ret), OP_CVTPS2DQ, args [0]->dreg, -1);
case SN_ConvertToSingle:
etype = get_vector_t_elem_type (fsig->params [0]);
g_assert (etype->type == MONO_TYPE_I4 || etype->type == MONO_TYPE_U4);
// FIXME:
if (etype->type == MONO_TYPE_U4)
return NULL;
return emit_simd_ins (cfg, mono_class_from_mono_type_internal (fsig->ret), OP_CVTDQ2PS, args [0]->dreg, -1);
case SN_ConvertToDouble:
case SN_ConvertToInt64:
case SN_ConvertToUInt32:
case SN_ConvertToUInt64:
case SN_Narrow:
case SN_Widen:
// FIXME:
break;
default:
break;
}
return NULL;
}
static guint16 vector_t_methods [] = {
SN_ctor,
SN_CopyTo,
SN_Equals,
SN_GreaterThan,
SN_GreaterThanOrEqual,
SN_LessThan,
SN_LessThanOrEqual,
SN_Max,
SN_Min,
SN_get_AllBitsSet,
SN_get_Count,
SN_get_Item,
SN_get_One,
SN_get_Zero,
SN_op_Addition,
SN_op_BitwiseAnd,
SN_op_BitwiseOr,
SN_op_Division,
SN_op_Equality,
SN_op_ExclusiveOr,
SN_op_Explicit,
SN_op_Inequality,
SN_op_Multiply,
SN_op_Subtraction
};
static MonoInst*
emit_sys_numerics_vector_t (MonoCompile *cfg, MonoMethod *cmethod, MonoMethodSignature *fsig, MonoInst **args)
{
MonoInst *ins;
MonoType *type, *etype;
MonoClass *klass;
int size, len, id;
gboolean is_unsigned;
static const float r4_one = 1.0f;
static const double r8_one = 1.0;
id = lookup_intrins (vector_t_methods, sizeof (vector_t_methods), cmethod);
if (id == -1) {
//check_no_intrinsic_cattr (cmethod);
return NULL;
}
klass = cmethod->klass;
type = m_class_get_byval_arg (klass);
etype = mono_class_get_context (klass)->class_inst->type_argv [0];
size = mono_class_value_size (mono_class_from_mono_type_internal (etype), NULL);
g_assert (size);
len = register_size / size;
if (!MONO_TYPE_IS_PRIMITIVE (etype) || etype->type == MONO_TYPE_CHAR || etype->type == MONO_TYPE_BOOLEAN)
return NULL;
if (cfg->verbose_level > 1) {
char *name = mono_method_full_name (cmethod, TRUE);
printf (" SIMD intrinsic %s\n", name);
g_free (name);
}
switch (id) {
case SN_get_Count:
if (!(fsig->param_count == 0 && fsig->ret->type == MONO_TYPE_I4))
break;
EMIT_NEW_ICONST (cfg, ins, len);
return ins;
case SN_get_Zero:
g_assert (fsig->param_count == 0 && mono_metadata_type_equal (fsig->ret, type));
return emit_xzero (cfg, klass);
case SN_get_One: {
g_assert (fsig->param_count == 0 && mono_metadata_type_equal (fsig->ret, type));
MonoInst *one = NULL;
int expand_opcode = type_to_expand_op (etype);
MONO_INST_NEW (cfg, one, -1);
switch (expand_opcode) {
case OP_EXPAND_R4:
one->opcode = OP_R4CONST;
one->type = STACK_R4;
one->inst_p0 = (void *) &r4_one;
break;
case OP_EXPAND_R8:
one->opcode = OP_R8CONST;
one->type = STACK_R8;
one->inst_p0 = (void *) &r8_one;
break;
default:
one->opcode = OP_ICONST;
one->type = STACK_I4;
one->inst_c0 = 1;
break;
}
one->dreg = alloc_dreg (cfg, (MonoStackType)one->type);
MONO_ADD_INS (cfg->cbb, one);
return emit_simd_ins (cfg, klass, expand_opcode, one->dreg, -1);
}
case SN_get_AllBitsSet: {
return emit_xones (cfg, klass);
}
case SN_get_Item: {
if (!COMPILE_LLVM (cfg))
return NULL;
MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, args [1]->dreg, len);
MONO_EMIT_NEW_COND_EXC (cfg, GE_UN, "ArgumentOutOfRangeException");
MonoTypeEnum ty = etype->type;
int opcode = type_to_xextract_op (ty);
int src1 = load_simd_vreg (cfg, cmethod, args [0], NULL);
MonoInst *ins = emit_simd_ins (cfg, klass, opcode, src1, args [1]->dreg);
ins->inst_c1 = ty;
return ins;
}
case SN_ctor:
if (fsig->param_count == 1 && mono_metadata_type_equal (fsig->params [0], etype)) {
int dreg = load_simd_vreg (cfg, cmethod, args [0], NULL);
int opcode = type_to_expand_op (etype);
ins = emit_simd_ins (cfg, klass, opcode, args [1]->dreg, -1);
ins->dreg = dreg;
return ins;
}
if ((fsig->param_count == 1 || fsig->param_count == 2) && (fsig->params [0]->type == MONO_TYPE_SZARRAY)) {
MonoInst *array_ins = args [1];
MonoInst *index_ins;
MonoInst *ldelema_ins;
MonoInst *var;
int end_index_reg;
if (args [0]->opcode != OP_LDADDR)
return NULL;
/* .ctor (T[]) or .ctor (T[], index) */
if (fsig->param_count == 2) {
index_ins = args [2];
} else {
EMIT_NEW_ICONST (cfg, index_ins, 0);
}
/* Emit bounds check for the index (index >= 0) */
mini_emit_bounds_check_offset (cfg, array_ins->dreg, MONO_STRUCT_OFFSET (MonoArray, max_length), index_ins->dreg, "ArgumentOutOfRangeException");
/* Emit bounds check for the end (index + len - 1 < array length) */
end_index_reg = alloc_ireg (cfg);
EMIT_NEW_BIALU_IMM (cfg, ins, OP_IADD_IMM, end_index_reg, index_ins->dreg, len - 1);
mini_emit_bounds_check_offset (cfg, array_ins->dreg, MONO_STRUCT_OFFSET (MonoArray, max_length), end_index_reg, "ArgumentOutOfRangeException");
/* Load the array slice into the simd reg */
ldelema_ins = mini_emit_ldelema_1_ins (cfg, mono_class_from_mono_type_internal (etype), array_ins, index_ins, FALSE, FALSE);
g_assert (args [0]->opcode == OP_LDADDR);
var = (MonoInst*)args [0]->inst_p0;
EMIT_NEW_LOAD_MEMBASE (cfg, ins, OP_LOADX_MEMBASE, var->dreg, ldelema_ins->dreg, 0);
ins->klass = cmethod->klass;
return args [0];
}
break;
case SN_CopyTo:
if ((fsig->param_count == 1 || fsig->param_count == 2) && (fsig->params [0]->type == MONO_TYPE_SZARRAY)) {
MonoInst *array_ins = args [1];
MonoInst *index_ins;
MonoInst *ldelema_ins;
int val_vreg, end_index_reg;
val_vreg = load_simd_vreg (cfg, cmethod, args [0], NULL);
/* CopyTo (T[]) or CopyTo (T[], index) */
if (fsig->param_count == 2) {
index_ins = args [2];
} else {
EMIT_NEW_ICONST (cfg, index_ins, 0);
}
/* CopyTo () does complicated argument checks */
mini_emit_bounds_check_offset (cfg, array_ins->dreg, MONO_STRUCT_OFFSET (MonoArray, max_length), index_ins->dreg, "ArgumentOutOfRangeException");
end_index_reg = alloc_ireg (cfg);
int len_reg = alloc_ireg (cfg);
MONO_EMIT_NEW_LOAD_MEMBASE_OP_FLAGS (cfg, OP_LOADI4_MEMBASE, len_reg, array_ins->dreg, MONO_STRUCT_OFFSET (MonoArray, max_length), MONO_INST_INVARIANT_LOAD);
EMIT_NEW_BIALU (cfg, ins, OP_ISUB, end_index_reg, len_reg, index_ins->dreg);
MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, end_index_reg, len);
MONO_EMIT_NEW_COND_EXC (cfg, LT, "ArgumentException");
/* Load the array slice into the simd reg */
ldelema_ins = mini_emit_ldelema_1_ins (cfg, mono_class_from_mono_type_internal (etype), array_ins, index_ins, FALSE, FALSE);
EMIT_NEW_STORE_MEMBASE (cfg, ins, OP_STOREX_MEMBASE, ldelema_ins->dreg, 0, val_vreg);
ins->klass = cmethod->klass;
return ins;
}
break;
case SN_Equals:
if (fsig->param_count == 1 && fsig->ret->type == MONO_TYPE_BOOLEAN && mono_metadata_type_equal (fsig->params [0], type)) {
int sreg1 = load_simd_vreg (cfg, cmethod, args [0], NULL);
return emit_simd_ins (cfg, klass, OP_XEQUAL, sreg1, args [1]->dreg);
} else if (fsig->param_count == 2 && mono_metadata_type_equal (fsig->ret, type) && mono_metadata_type_equal (fsig->params [0], type) && mono_metadata_type_equal (fsig->params [1], type)) {
/* Per element equality */
return emit_xcompare (cfg, klass, etype->type, args [0], args [1]);
}
break;
case SN_op_Equality:
case SN_op_Inequality:
g_assert (fsig->param_count == 2 && fsig->ret->type == MONO_TYPE_BOOLEAN &&
mono_metadata_type_equal (fsig->params [0], type) &&
mono_metadata_type_equal (fsig->params [1], type));
switch (id) {
case SN_op_Equality: return emit_xequal (cfg, klass, args [0], args [1]);
case SN_op_Inequality: return emit_not_xequal (cfg, klass, args [0], args [1]);
default: g_assert_not_reached ();
}
case SN_GreaterThan:
case SN_GreaterThanOrEqual:
case SN_LessThan:
case SN_LessThanOrEqual:
g_assert (fsig->param_count == 2 && mono_metadata_type_equal (fsig->ret, type) && mono_metadata_type_equal (fsig->params [0], type) && mono_metadata_type_equal (fsig->params [1], type));
is_unsigned = etype->type == MONO_TYPE_U1 || etype->type == MONO_TYPE_U2 || etype->type == MONO_TYPE_U4 || etype->type == MONO_TYPE_U8 || etype->type == MONO_TYPE_U;
ins = emit_xcompare (cfg, klass, etype->type, args [0], args [1]);
switch (id) {
case SN_GreaterThan:
ins->inst_c0 = is_unsigned ? CMP_GT_UN : CMP_GT;
break;
case SN_GreaterThanOrEqual:
ins->inst_c0 = is_unsigned ? CMP_GE_UN : CMP_GE;
break;
case SN_LessThan:
ins->inst_c0 = is_unsigned ? CMP_LT_UN : CMP_LT;
break;
case SN_LessThanOrEqual:
ins->inst_c0 = is_unsigned ? CMP_LE_UN : CMP_LE;
break;
default:
g_assert_not_reached ();
}
return ins;
case SN_op_Explicit:
return emit_simd_ins (cfg, klass, OP_XCAST, args [0]->dreg, -1);
case SN_op_Addition:
case SN_op_Subtraction:
case SN_op_Division:
case SN_op_Multiply:
case SN_op_BitwiseAnd:
case SN_op_BitwiseOr:
case SN_op_ExclusiveOr:
case SN_Max:
case SN_Min:
if (!(fsig->param_count == 2 && mono_metadata_type_equal (fsig->ret, type) && mono_metadata_type_equal (fsig->params [0], type) && mono_metadata_type_equal (fsig->params [1], type)))
return NULL;
ins = emit_simd_ins (cfg, klass, OP_XBINOP, args [0]->dreg, args [1]->dreg);
ins->inst_c1 = etype->type;
if (type_enum_is_float (etype->type)) {
switch (id) {
case SN_op_Addition:
ins->inst_c0 = OP_FADD;
break;
case SN_op_Subtraction:
ins->inst_c0 = OP_FSUB;
break;
case SN_op_Multiply:
ins->inst_c0 = OP_FMUL;
break;
case SN_op_Division:
ins->inst_c0 = OP_FDIV;
break;
case SN_Max:
ins->inst_c0 = OP_FMAX;
break;
case SN_Min:
ins->inst_c0 = OP_FMIN;
break;
default:
NULLIFY_INS (ins);
return NULL;
}
} else {
switch (id) {
case SN_op_Addition:
ins->inst_c0 = OP_IADD;
break;
case SN_op_Subtraction:
ins->inst_c0 = OP_ISUB;
break;
/*
case SN_op_Division:
ins->inst_c0 = OP_IDIV;
break;
case SN_op_Multiply:
ins->inst_c0 = OP_IMUL;
break;
*/
case SN_op_BitwiseAnd:
ins->inst_c0 = OP_IAND;
break;
case SN_op_BitwiseOr:
ins->inst_c0 = OP_IOR;
break;
case SN_op_ExclusiveOr:
ins->inst_c0 = OP_IXOR;
break;
case SN_Max:
ins->inst_c0 = OP_IMAX;
break;
case SN_Min:
ins->inst_c0 = OP_IMIN;
break;
default:
NULLIFY_INS (ins);
return NULL;
}
}
return ins;
default:
break;
}
return NULL;
}
#endif // TARGET_AMD64
#ifdef TARGET_ARM64
static SimdIntrinsic armbase_methods [] = {
{SN_LeadingSignCount},
{SN_LeadingZeroCount},
{SN_MultiplyHigh},
{SN_ReverseElementBits},
{SN_get_IsSupported},
};
static SimdIntrinsic crc32_methods [] = {
{SN_ComputeCrc32},
{SN_ComputeCrc32C},
{SN_get_IsSupported}
};
static SimdIntrinsic crypto_aes_methods [] = {
{SN_Decrypt, OP_XOP_X_X_X, INTRINS_AARCH64_AESD},
{SN_Encrypt, OP_XOP_X_X_X, INTRINS_AARCH64_AESE},
{SN_InverseMixColumns, OP_XOP_X_X, INTRINS_AARCH64_AESIMC},
{SN_MixColumns, OP_XOP_X_X, INTRINS_AARCH64_AESMC},
{SN_PolynomialMultiplyWideningLower},
{SN_PolynomialMultiplyWideningUpper},
{SN_get_IsSupported},
};
static SimdIntrinsic sha1_methods [] = {
{SN_FixedRotate, OP_XOP_X_X, INTRINS_AARCH64_SHA1H},
{SN_HashUpdateChoose, OP_XOP_X_X_X_X, INTRINS_AARCH64_SHA1C},
{SN_HashUpdateMajority, OP_XOP_X_X_X_X, INTRINS_AARCH64_SHA1M},
{SN_HashUpdateParity, OP_XOP_X_X_X_X, INTRINS_AARCH64_SHA1P},
{SN_ScheduleUpdate0, OP_XOP_X_X_X_X, INTRINS_AARCH64_SHA1SU0},
{SN_ScheduleUpdate1, OP_XOP_X_X_X, INTRINS_AARCH64_SHA1SU1},
{SN_get_IsSupported}
};
static SimdIntrinsic sha256_methods [] = {
{SN_HashUpdate1, OP_XOP_X_X_X_X, INTRINS_AARCH64_SHA256H},
{SN_HashUpdate2, OP_XOP_X_X_X_X, INTRINS_AARCH64_SHA256H2},
{SN_ScheduleUpdate0, OP_XOP_X_X_X, INTRINS_AARCH64_SHA256SU0},
{SN_ScheduleUpdate1, OP_XOP_X_X_X_X, INTRINS_AARCH64_SHA256SU1},
{SN_get_IsSupported}
};
// This table must be kept in sorted order. ASCII } is sorted after alphanumeric
// characters, so blind use of your editor's "sort lines" facility will
// mis-order the lines.
//
// In Vim you can use `sort /.*{[0-9A-z]*/ r` to sort this table.
static SimdIntrinsic advsimd_methods [] = {
{SN_Abs, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_ABS, None, None, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FABS},
{SN_AbsSaturate, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_SQABS},
{SN_AbsSaturateScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_SQABS},
{SN_AbsScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_ABS, None, None, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FABS},
{SN_AbsoluteCompareGreaterThan},
{SN_AbsoluteCompareGreaterThanOrEqual},
{SN_AbsoluteCompareGreaterThanOrEqualScalar},
{SN_AbsoluteCompareGreaterThanScalar},
{SN_AbsoluteCompareLessThan},
{SN_AbsoluteCompareLessThanOrEqual},
{SN_AbsoluteCompareLessThanOrEqualScalar},
{SN_AbsoluteCompareLessThanScalar},
{SN_AbsoluteDifference, OP_ARM64_SABD, None, OP_ARM64_UABD, None, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_FABD},
{SN_AbsoluteDifferenceAdd, OP_ARM64_SABA, None, OP_ARM64_UABA},
{SN_AbsoluteDifferenceScalar, OP_XOP_OVR_SCALAR_X_X_X, INTRINS_AARCH64_ADV_SIMD_FABD_SCALAR},
{SN_AbsoluteDifferenceWideningLower, OP_ARM64_SABDL, None, OP_ARM64_UABDL},
{SN_AbsoluteDifferenceWideningLowerAndAdd, OP_ARM64_SABAL, None, OP_ARM64_UABAL},
{SN_AbsoluteDifferenceWideningUpper, OP_ARM64_SABDL2, None, OP_ARM64_UABDL2},
{SN_AbsoluteDifferenceWideningUpperAndAdd, OP_ARM64_SABAL2, None, OP_ARM64_UABAL2},
{SN_Add, OP_XBINOP, OP_IADD, None, None, OP_XBINOP, OP_FADD},
{SN_AddAcross, OP_ARM64_XHORIZ, INTRINS_AARCH64_ADV_SIMD_SADDV, OP_ARM64_XHORIZ, INTRINS_AARCH64_ADV_SIMD_UADDV},
{SN_AddAcrossWidening, OP_ARM64_SADDLV, None, OP_ARM64_UADDLV},
{SN_AddHighNarrowingLower, OP_ARM64_ADDHN},
{SN_AddHighNarrowingUpper, OP_ARM64_ADDHN2},
{SN_AddPairwise, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_ADDP, None, None, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_FADDP},
{SN_AddPairwiseScalar, OP_ARM64_ADDP_SCALAR, None, None, None, OP_ARM64_FADDP_SCALAR},
{SN_AddPairwiseWidening, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_SADDLP, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_UADDLP},
{SN_AddPairwiseWideningAndAdd, OP_ARM64_SADALP, None, OP_ARM64_UADALP},
{SN_AddPairwiseWideningAndAddScalar, OP_ARM64_SADALP, None, OP_ARM64_UADALP},
{SN_AddPairwiseWideningScalar, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_SADDLP, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_UADDLP},
{SN_AddRoundedHighNarrowingLower, OP_ARM64_RADDHN},
{SN_AddRoundedHighNarrowingUpper, OP_ARM64_RADDHN2},
{SN_AddSaturate},
{SN_AddSaturateScalar},
{SN_AddScalar, OP_XBINOP_SCALAR, OP_IADD, None, None, OP_XBINOP_SCALAR, OP_FADD},
{SN_AddWideningLower, OP_ARM64_SADD, None, OP_ARM64_UADD},
{SN_AddWideningUpper, OP_ARM64_SADD2, None, OP_ARM64_UADD2},
{SN_And, OP_XBINOP_FORCEINT, XBINOP_FORCEINT_AND},
{SN_BitwiseClear, OP_ARM64_BIC},
{SN_BitwiseSelect, OP_ARM64_BSL},
{SN_Ceiling, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FRINTP},
{SN_CeilingScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FRINTP},
{SN_CompareEqual, OP_XCOMPARE, CMP_EQ, OP_XCOMPARE, CMP_EQ, OP_XCOMPARE_FP, CMP_EQ},
{SN_CompareEqualScalar, OP_XCOMPARE_SCALAR, CMP_EQ, OP_XCOMPARE_SCALAR, CMP_EQ, OP_XCOMPARE_FP_SCALAR, CMP_EQ},
{SN_CompareGreaterThan, OP_XCOMPARE, CMP_GT, OP_XCOMPARE, CMP_GT_UN, OP_XCOMPARE_FP, CMP_GT},
{SN_CompareGreaterThanOrEqual, OP_XCOMPARE, CMP_GE, OP_XCOMPARE, CMP_GE_UN, OP_XCOMPARE_FP, CMP_GE},
{SN_CompareGreaterThanOrEqualScalar, OP_XCOMPARE_SCALAR, CMP_GE, OP_XCOMPARE_SCALAR, CMP_GE_UN, OP_XCOMPARE_FP_SCALAR, CMP_GE},
{SN_CompareGreaterThanScalar, OP_XCOMPARE_SCALAR, CMP_GT, OP_XCOMPARE_SCALAR, CMP_GT_UN, OP_XCOMPARE_FP_SCALAR, CMP_GT},
{SN_CompareLessThan, OP_XCOMPARE, CMP_LT, OP_XCOMPARE, CMP_LT_UN, OP_XCOMPARE_FP, CMP_LT},
{SN_CompareLessThanOrEqual, OP_XCOMPARE, CMP_LE, OP_XCOMPARE, CMP_LE_UN, OP_XCOMPARE_FP, CMP_LE},
{SN_CompareLessThanOrEqualScalar, OP_XCOMPARE_SCALAR, CMP_LE, OP_XCOMPARE_SCALAR, CMP_LE_UN, OP_XCOMPARE_FP_SCALAR, CMP_LE},
{SN_CompareLessThanScalar, OP_XCOMPARE_SCALAR, CMP_LT, OP_XCOMPARE_SCALAR, CMP_LT_UN, OP_XCOMPARE_FP_SCALAR, CMP_LT},
{SN_CompareTest, OP_ARM64_CMTST},
{SN_CompareTestScalar, OP_ARM64_CMTST},
{SN_ConvertToDouble, OP_ARM64_SCVTF, None, OP_ARM64_UCVTF, None, OP_ARM64_FCVTL},
{SN_ConvertToDoubleScalar, OP_ARM64_SCVTF_SCALAR, None, OP_ARM64_UCVTF_SCALAR},
{SN_ConvertToDoubleUpper, OP_ARM64_FCVTL2},
{SN_ConvertToInt32RoundAwayFromZero, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTAS},
{SN_ConvertToInt32RoundAwayFromZeroScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTAS},
{SN_ConvertToInt32RoundToEven, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTNS},
{SN_ConvertToInt32RoundToEvenScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTNS},
{SN_ConvertToInt32RoundToNegativeInfinity, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTMS},
{SN_ConvertToInt32RoundToNegativeInfinityScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTMS},
{SN_ConvertToInt32RoundToPositiveInfinity, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTPS},
{SN_ConvertToInt32RoundToPositiveInfinityScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTPS},
{SN_ConvertToInt32RoundToZero, OP_ARM64_FCVTZS},
{SN_ConvertToInt32RoundToZeroScalar, OP_ARM64_FCVTZS_SCALAR},
{SN_ConvertToInt64RoundAwayFromZero, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTAS},
{SN_ConvertToInt64RoundAwayFromZeroScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTAS},
{SN_ConvertToInt64RoundToEven, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTNS},
{SN_ConvertToInt64RoundToEvenScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTNS},
{SN_ConvertToInt64RoundToNegativeInfinity, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTMS},
{SN_ConvertToInt64RoundToNegativeInfinityScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTMS},
{SN_ConvertToInt64RoundToPositiveInfinity, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTPS},
{SN_ConvertToInt64RoundToPositiveInfinityScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTPS},
{SN_ConvertToInt64RoundToZero, OP_ARM64_FCVTZS},
{SN_ConvertToInt64RoundToZeroScalar, OP_ARM64_FCVTZS_SCALAR},
{SN_ConvertToSingle, OP_ARM64_SCVTF, None, OP_ARM64_UCVTF},
{SN_ConvertToSingleLower, OP_ARM64_FCVTN},
{SN_ConvertToSingleRoundToOddLower, OP_ARM64_FCVTXN},
{SN_ConvertToSingleRoundToOddUpper, OP_ARM64_FCVTXN2},
{SN_ConvertToSingleScalar, OP_ARM64_SCVTF_SCALAR, None, OP_ARM64_UCVTF_SCALAR},
{SN_ConvertToSingleUpper, OP_ARM64_FCVTN2},
{SN_ConvertToUInt32RoundAwayFromZero, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTAU},
{SN_ConvertToUInt32RoundAwayFromZeroScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTAU},
{SN_ConvertToUInt32RoundToEven, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTNU},
{SN_ConvertToUInt32RoundToEvenScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTNU},
{SN_ConvertToUInt32RoundToNegativeInfinity, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTMU},
{SN_ConvertToUInt32RoundToNegativeInfinityScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTMU},
{SN_ConvertToUInt32RoundToPositiveInfinity, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTPU},
{SN_ConvertToUInt32RoundToPositiveInfinityScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTPU},
{SN_ConvertToUInt32RoundToZero, OP_ARM64_FCVTZU},
{SN_ConvertToUInt32RoundToZeroScalar, OP_ARM64_FCVTZU_SCALAR},
{SN_ConvertToUInt64RoundAwayFromZero, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTAU},
{SN_ConvertToUInt64RoundAwayFromZeroScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTAU},
{SN_ConvertToUInt64RoundToEven, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTNU},
{SN_ConvertToUInt64RoundToEvenScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTNU},
{SN_ConvertToUInt64RoundToNegativeInfinity, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTMU},
{SN_ConvertToUInt64RoundToNegativeInfinityScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTMU},
{SN_ConvertToUInt64RoundToPositiveInfinity, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTPU},
{SN_ConvertToUInt64RoundToPositiveInfinityScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FCVTPU},
{SN_ConvertToUInt64RoundToZero, OP_ARM64_FCVTZU},
{SN_ConvertToUInt64RoundToZeroScalar, OP_ARM64_FCVTZU_SCALAR},
{SN_Divide, OP_XBINOP, OP_FDIV},
{SN_DivideScalar, OP_XBINOP_SCALAR, OP_FDIV},
{SN_DuplicateSelectedScalarToVector128},
{SN_DuplicateSelectedScalarToVector64},
{SN_DuplicateToVector128},
{SN_DuplicateToVector64},
{SN_Extract},
{SN_ExtractNarrowingLower, OP_ARM64_XTN},
{SN_ExtractNarrowingSaturateLower, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_SQXTN, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_UQXTN},
{SN_ExtractNarrowingSaturateScalar, OP_ARM64_XNARROW_SCALAR, INTRINS_AARCH64_ADV_SIMD_SQXTN, OP_ARM64_XNARROW_SCALAR, INTRINS_AARCH64_ADV_SIMD_UQXTN},
{SN_ExtractNarrowingSaturateUnsignedLower, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_SQXTUN},
{SN_ExtractNarrowingSaturateUnsignedScalar, OP_ARM64_XNARROW_SCALAR, INTRINS_AARCH64_ADV_SIMD_SQXTUN},
{SN_ExtractNarrowingSaturateUnsignedUpper, OP_ARM64_SQXTUN2},
{SN_ExtractNarrowingSaturateUpper, OP_ARM64_SQXTN2, None, OP_ARM64_UQXTN2},
{SN_ExtractNarrowingUpper, OP_ARM64_XTN2},
{SN_ExtractVector128, OP_ARM64_EXT},
{SN_ExtractVector64, OP_ARM64_EXT},
{SN_Floor, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FRINTM},
{SN_FloorScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FRINTM},
{SN_FusedAddHalving, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_SHADD, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_UHADD},
{SN_FusedAddRoundedHalving, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_SRHADD, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_URHADD},
{SN_FusedMultiplyAdd, OP_ARM64_FMADD},
{SN_FusedMultiplyAddByScalar, OP_ARM64_FMADD_BYSCALAR},
{SN_FusedMultiplyAddBySelectedScalar},
{SN_FusedMultiplyAddNegatedScalar, OP_ARM64_FNMADD_SCALAR},
{SN_FusedMultiplyAddScalar, OP_ARM64_FMADD_SCALAR},
{SN_FusedMultiplyAddScalarBySelectedScalar},
{SN_FusedMultiplySubtract, OP_ARM64_FMSUB},
{SN_FusedMultiplySubtractByScalar, OP_ARM64_FMSUB_BYSCALAR},
{SN_FusedMultiplySubtractBySelectedScalar},
{SN_FusedMultiplySubtractNegatedScalar, OP_ARM64_FNMSUB_SCALAR},
{SN_FusedMultiplySubtractScalar, OP_ARM64_FMSUB_SCALAR},
{SN_FusedMultiplySubtractScalarBySelectedScalar},
{SN_FusedSubtractHalving, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_SHSUB, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_UHSUB},
{SN_Insert},
{SN_InsertScalar},
{SN_InsertSelectedScalar},
{SN_LeadingSignCount, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_CLS},
{SN_LeadingZeroCount, OP_ARM64_CLZ},
{SN_LoadAndInsertScalar, OP_ARM64_LD1_INSERT},
{SN_LoadAndReplicateToVector128, OP_ARM64_LD1R},
{SN_LoadAndReplicateToVector64, OP_ARM64_LD1R},
{SN_LoadPairScalarVector64, OP_ARM64_LDP_SCALAR},
{SN_LoadPairScalarVector64NonTemporal, OP_ARM64_LDNP_SCALAR},
{SN_LoadPairVector128, OP_ARM64_LDP},
{SN_LoadPairVector128NonTemporal, OP_ARM64_LDNP},
{SN_LoadPairVector64, OP_ARM64_LDP},
{SN_LoadPairVector64NonTemporal, OP_ARM64_LDNP},
{SN_LoadVector128, OP_ARM64_LD1},
{SN_LoadVector64, OP_ARM64_LD1},
{SN_Max, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_SMAX, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_UMAX, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_FMAX},
{SN_MaxAcross, OP_ARM64_XHORIZ, INTRINS_AARCH64_ADV_SIMD_SMAXV, OP_ARM64_XHORIZ, INTRINS_AARCH64_ADV_SIMD_UMAXV, OP_ARM64_XHORIZ, INTRINS_AARCH64_ADV_SIMD_FMAXV},
{SN_MaxNumber, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_FMAXNM},
{SN_MaxNumberAcross, OP_ARM64_XHORIZ, INTRINS_AARCH64_ADV_SIMD_FMAXNMV},
{SN_MaxNumberPairwise, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_FMAXNMP},
{SN_MaxNumberPairwiseScalar, OP_ARM64_XHORIZ, INTRINS_AARCH64_ADV_SIMD_FMAXNMV},
{SN_MaxNumberScalar, OP_XOP_OVR_SCALAR_X_X_X, INTRINS_AARCH64_ADV_SIMD_FMAXNM},
{SN_MaxPairwise, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_SMAXP, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_UMAXP, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_FMAXP},
{SN_MaxPairwiseScalar, OP_ARM64_XHORIZ, INTRINS_AARCH64_ADV_SIMD_FMAXV},
{SN_MaxScalar, OP_XOP_OVR_SCALAR_X_X_X, INTRINS_AARCH64_ADV_SIMD_FMAX},
{SN_Min, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_SMIN, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_UMIN, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_FMIN},
{SN_MinAcross, OP_ARM64_XHORIZ, INTRINS_AARCH64_ADV_SIMD_SMINV, OP_ARM64_XHORIZ, INTRINS_AARCH64_ADV_SIMD_UMINV, OP_ARM64_XHORIZ, INTRINS_AARCH64_ADV_SIMD_FMINV},
{SN_MinNumber, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_FMINNM},
{SN_MinNumberAcross, OP_ARM64_XHORIZ, INTRINS_AARCH64_ADV_SIMD_FMINNMV},
{SN_MinNumberPairwise, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_FMINNMP},
{SN_MinNumberPairwiseScalar, OP_ARM64_XHORIZ, INTRINS_AARCH64_ADV_SIMD_FMINNMV},
{SN_MinNumberScalar, OP_XOP_OVR_SCALAR_X_X_X, INTRINS_AARCH64_ADV_SIMD_FMINNM},
{SN_MinPairwise, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_SMINP, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_UMINP, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_FMINP},
{SN_MinPairwiseScalar, OP_ARM64_XHORIZ, INTRINS_AARCH64_ADV_SIMD_FMINV},
{SN_MinScalar, OP_XOP_OVR_SCALAR_X_X_X, INTRINS_AARCH64_ADV_SIMD_FMIN},
{SN_Multiply, OP_XBINOP, OP_IMUL, None, None, OP_XBINOP, OP_FMUL},
{SN_MultiplyAdd, OP_ARM64_MLA},
{SN_MultiplyAddByScalar, OP_ARM64_MLA_SCALAR},
{SN_MultiplyAddBySelectedScalar},
{SN_MultiplyByScalar, OP_XBINOP_BYSCALAR, OP_IMUL, None, None, OP_XBINOP_BYSCALAR, OP_FMUL},
{SN_MultiplyBySelectedScalar},
{SN_MultiplyBySelectedScalarWideningLower},
{SN_MultiplyBySelectedScalarWideningLowerAndAdd},
{SN_MultiplyBySelectedScalarWideningLowerAndSubtract},
{SN_MultiplyBySelectedScalarWideningUpper},
{SN_MultiplyBySelectedScalarWideningUpperAndAdd},
{SN_MultiplyBySelectedScalarWideningUpperAndSubtract},
{SN_MultiplyDoublingByScalarSaturateHigh, OP_XOP_OVR_BYSCALAR_X_X_X, INTRINS_AARCH64_ADV_SIMD_SQDMULH},
{SN_MultiplyDoublingBySelectedScalarSaturateHigh},
{SN_MultiplyDoublingSaturateHigh, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_SQDMULH},
{SN_MultiplyDoublingSaturateHighScalar, OP_XOP_OVR_SCALAR_X_X_X, INTRINS_AARCH64_ADV_SIMD_SQDMULH},
{SN_MultiplyDoublingScalarBySelectedScalarSaturateHigh},
{SN_MultiplyDoublingWideningAndAddSaturateScalar, OP_ARM64_SQDMLAL_SCALAR},
{SN_MultiplyDoublingWideningAndSubtractSaturateScalar, OP_ARM64_SQDMLSL_SCALAR},
{SN_MultiplyDoublingWideningLowerAndAddSaturate, OP_ARM64_SQDMLAL},
{SN_MultiplyDoublingWideningLowerAndSubtractSaturate, OP_ARM64_SQDMLSL},
{SN_MultiplyDoublingWideningLowerByScalarAndAddSaturate, OP_ARM64_SQDMLAL_BYSCALAR},
{SN_MultiplyDoublingWideningLowerByScalarAndSubtractSaturate, OP_ARM64_SQDMLSL_BYSCALAR},
{SN_MultiplyDoublingWideningLowerBySelectedScalarAndAddSaturate},
{SN_MultiplyDoublingWideningLowerBySelectedScalarAndSubtractSaturate},
{SN_MultiplyDoublingWideningSaturateLower, OP_ARM64_SQDMULL},
{SN_MultiplyDoublingWideningSaturateLowerByScalar, OP_ARM64_SQDMULL_BYSCALAR},
{SN_MultiplyDoublingWideningSaturateLowerBySelectedScalar},
{SN_MultiplyDoublingWideningSaturateScalar, OP_ARM64_SQDMULL_SCALAR},
{SN_MultiplyDoublingWideningSaturateScalarBySelectedScalar},
{SN_MultiplyDoublingWideningSaturateUpper, OP_ARM64_SQDMULL2},
{SN_MultiplyDoublingWideningSaturateUpperByScalar, OP_ARM64_SQDMULL2_BYSCALAR},
{SN_MultiplyDoublingWideningSaturateUpperBySelectedScalar},
{SN_MultiplyDoublingWideningScalarBySelectedScalarAndAddSaturate},
{SN_MultiplyDoublingWideningScalarBySelectedScalarAndSubtractSaturate},
{SN_MultiplyDoublingWideningUpperAndAddSaturate, OP_ARM64_SQDMLAL2},
{SN_MultiplyDoublingWideningUpperAndSubtractSaturate, OP_ARM64_SQDMLSL2},
{SN_MultiplyDoublingWideningUpperByScalarAndAddSaturate, OP_ARM64_SQDMLAL2_BYSCALAR},
{SN_MultiplyDoublingWideningUpperByScalarAndSubtractSaturate, OP_ARM64_SQDMLSL2_BYSCALAR},
{SN_MultiplyDoublingWideningUpperBySelectedScalarAndAddSaturate},
{SN_MultiplyDoublingWideningUpperBySelectedScalarAndSubtractSaturate},
{SN_MultiplyExtended, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_FMULX},
{SN_MultiplyExtendedByScalar, OP_XOP_OVR_BYSCALAR_X_X_X, INTRINS_AARCH64_ADV_SIMD_FMULX},
{SN_MultiplyExtendedBySelectedScalar},
{SN_MultiplyExtendedScalar, OP_XOP_OVR_SCALAR_X_X_X, INTRINS_AARCH64_ADV_SIMD_FMULX},
{SN_MultiplyExtendedScalarBySelectedScalar},
{SN_MultiplyRoundedDoublingByScalarSaturateHigh, OP_XOP_OVR_BYSCALAR_X_X_X, INTRINS_AARCH64_ADV_SIMD_SQRDMULH},
{SN_MultiplyRoundedDoublingBySelectedScalarSaturateHigh},
{SN_MultiplyRoundedDoublingSaturateHigh, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_SQRDMULH},
{SN_MultiplyRoundedDoublingSaturateHighScalar, OP_XOP_OVR_SCALAR_X_X_X, INTRINS_AARCH64_ADV_SIMD_SQRDMULH},
{SN_MultiplyRoundedDoublingScalarBySelectedScalarSaturateHigh},
{SN_MultiplyScalar, OP_XBINOP_SCALAR, OP_FMUL},
{SN_MultiplyScalarBySelectedScalar, OP_ARM64_FMUL_SEL},
{SN_MultiplySubtract, OP_ARM64_MLS},
{SN_MultiplySubtractByScalar, OP_ARM64_MLS_SCALAR},
{SN_MultiplySubtractBySelectedScalar},
{SN_MultiplyWideningLower, OP_ARM64_SMULL, None, OP_ARM64_UMULL},
{SN_MultiplyWideningLowerAndAdd, OP_ARM64_SMLAL, None, OP_ARM64_UMLAL},
{SN_MultiplyWideningLowerAndSubtract, OP_ARM64_SMLSL, None, OP_ARM64_UMLSL},
{SN_MultiplyWideningUpper, OP_ARM64_SMULL2, None, OP_ARM64_UMULL2},
{SN_MultiplyWideningUpperAndAdd, OP_ARM64_SMLAL2, None, OP_ARM64_UMLAL2},
{SN_MultiplyWideningUpperAndSubtract, OP_ARM64_SMLSL2, None, OP_ARM64_UMLSL2},
{SN_Negate, OP_ARM64_XNEG},
{SN_NegateSaturate, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_SQNEG},
{SN_NegateSaturateScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_SQNEG},
{SN_NegateScalar, OP_ARM64_XNEG_SCALAR},
{SN_Not, OP_ARM64_MVN},
{SN_Or, OP_XBINOP_FORCEINT, XBINOP_FORCEINT_OR},
{SN_OrNot, OP_XBINOP_FORCEINT, XBINOP_FORCEINT_ORNOT},
{SN_PolynomialMultiply, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_PMUL},
{SN_PolynomialMultiplyWideningLower, OP_ARM64_PMULL},
{SN_PolynomialMultiplyWideningUpper, OP_ARM64_PMULL2},
{SN_PopCount, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_CNT},
{SN_ReciprocalEstimate, None, None, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_URECPE, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FRECPE},
{SN_ReciprocalEstimateScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FRECPE},
{SN_ReciprocalExponentScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FRECPX},
{SN_ReciprocalSquareRootEstimate, None, None, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_URSQRTE, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FRSQRTE},
{SN_ReciprocalSquareRootEstimateScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FRSQRTE},
{SN_ReciprocalSquareRootStep, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_FRSQRTS},
{SN_ReciprocalSquareRootStepScalar, OP_XOP_OVR_SCALAR_X_X_X, INTRINS_AARCH64_ADV_SIMD_FRSQRTS},
{SN_ReciprocalStep, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_FRECPS},
{SN_ReciprocalStepScalar, OP_XOP_OVR_SCALAR_X_X_X, INTRINS_AARCH64_ADV_SIMD_FRECPS},
{SN_ReverseElement16, OP_ARM64_REVN, 16},
{SN_ReverseElement32, OP_ARM64_REVN, 32},
{SN_ReverseElement8, OP_ARM64_REVN, 8},
{SN_ReverseElementBits, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_RBIT},
{SN_RoundAwayFromZero, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FRINTA},
{SN_RoundAwayFromZeroScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FRINTA},
{SN_RoundToNearest, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FRINTN},
{SN_RoundToNearestScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FRINTN},
{SN_RoundToNegativeInfinity, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FRINTM},
{SN_RoundToNegativeInfinityScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FRINTM},
{SN_RoundToPositiveInfinity, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FRINTP},
{SN_RoundToPositiveInfinityScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FRINTP},
{SN_RoundToZero, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FRINTZ},
{SN_RoundToZeroScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FRINTZ},
{SN_ShiftArithmetic, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_SSHL},
{SN_ShiftArithmeticRounded, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_SRSHL},
{SN_ShiftArithmeticRoundedSaturate, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_SQRSHL},
{SN_ShiftArithmeticRoundedSaturateScalar, OP_XOP_OVR_SCALAR_X_X_X, INTRINS_AARCH64_ADV_SIMD_SQRSHL},
{SN_ShiftArithmeticRoundedScalar, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_SRSHL},
{SN_ShiftArithmeticSaturate, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_SQSHL},
{SN_ShiftArithmeticSaturateScalar, OP_XOP_OVR_SCALAR_X_X_X, INTRINS_AARCH64_ADV_SIMD_SQSHL},
{SN_ShiftArithmeticScalar, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_SSHL},
{SN_ShiftLeftAndInsert, OP_ARM64_SLI},
{SN_ShiftLeftAndInsertScalar, OP_ARM64_SLI},
{SN_ShiftLeftLogical, OP_ARM64_SHL},
{SN_ShiftLeftLogicalSaturate},
{SN_ShiftLeftLogicalSaturateScalar},
{SN_ShiftLeftLogicalSaturateUnsigned, OP_ARM64_SQSHLU},
{SN_ShiftLeftLogicalSaturateUnsignedScalar, OP_ARM64_SQSHLU_SCALAR},
{SN_ShiftLeftLogicalScalar, OP_ARM64_SHL},
{SN_ShiftLeftLogicalWideningLower, OP_ARM64_SSHLL, None, OP_ARM64_USHLL},
{SN_ShiftLeftLogicalWideningUpper, OP_ARM64_SSHLL2, None, OP_ARM64_USHLL2},
{SN_ShiftLogical, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_USHL},
{SN_ShiftLogicalRounded, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_URSHL},
{SN_ShiftLogicalRoundedSaturate, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_UQRSHL},
{SN_ShiftLogicalRoundedSaturateScalar, OP_XOP_OVR_SCALAR_X_X_X, INTRINS_AARCH64_ADV_SIMD_UQRSHL},
{SN_ShiftLogicalRoundedScalar, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_URSHL},
{SN_ShiftLogicalSaturate, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_UQSHL},
{SN_ShiftLogicalSaturateScalar, OP_XOP_OVR_SCALAR_X_X_X, INTRINS_AARCH64_ADV_SIMD_UQSHL},
{SN_ShiftLogicalScalar, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_USHL},
{SN_ShiftRightAndInsert, OP_ARM64_SRI},
{SN_ShiftRightAndInsertScalar, OP_ARM64_SRI},
{SN_ShiftRightArithmetic, OP_ARM64_SSHR},
{SN_ShiftRightArithmeticAdd, OP_ARM64_SSRA},
{SN_ShiftRightArithmeticAddScalar, OP_ARM64_SSRA},
{SN_ShiftRightArithmeticNarrowingSaturateLower, OP_ARM64_XNSHIFT, INTRINS_AARCH64_ADV_SIMD_SQSHRN},
{SN_ShiftRightArithmeticNarrowingSaturateScalar, OP_ARM64_XNSHIFT_SCALAR, INTRINS_AARCH64_ADV_SIMD_SQSHRN},
{SN_ShiftRightArithmeticNarrowingSaturateUnsignedLower, OP_ARM64_XNSHIFT, INTRINS_AARCH64_ADV_SIMD_SQSHRUN},
{SN_ShiftRightArithmeticNarrowingSaturateUnsignedScalar, OP_ARM64_XNSHIFT_SCALAR, INTRINS_AARCH64_ADV_SIMD_SQSHRUN},
{SN_ShiftRightArithmeticNarrowingSaturateUnsignedUpper, OP_ARM64_XNSHIFT2, INTRINS_AARCH64_ADV_SIMD_SQSHRUN},
{SN_ShiftRightArithmeticNarrowingSaturateUpper, OP_ARM64_XNSHIFT2, INTRINS_AARCH64_ADV_SIMD_SQSHRN},
{SN_ShiftRightArithmeticRounded, OP_ARM64_SRSHR},
{SN_ShiftRightArithmeticRoundedAdd, OP_ARM64_SRSRA},
{SN_ShiftRightArithmeticRoundedAddScalar, OP_ARM64_SRSRA},
{SN_ShiftRightArithmeticRoundedNarrowingSaturateLower, OP_ARM64_XNSHIFT, INTRINS_AARCH64_ADV_SIMD_SQRSHRN},
{SN_ShiftRightArithmeticRoundedNarrowingSaturateScalar, OP_ARM64_XNSHIFT_SCALAR, INTRINS_AARCH64_ADV_SIMD_SQRSHRN},
{SN_ShiftRightArithmeticRoundedNarrowingSaturateUnsignedLower, OP_ARM64_XNSHIFT, INTRINS_AARCH64_ADV_SIMD_SQRSHRUN},
{SN_ShiftRightArithmeticRoundedNarrowingSaturateUnsignedScalar, OP_ARM64_XNSHIFT_SCALAR, INTRINS_AARCH64_ADV_SIMD_SQRSHRUN},
{SN_ShiftRightArithmeticRoundedNarrowingSaturateUnsignedUpper, OP_ARM64_XNSHIFT2, INTRINS_AARCH64_ADV_SIMD_SQRSHRUN},
{SN_ShiftRightArithmeticRoundedNarrowingSaturateUpper, OP_ARM64_XNSHIFT2, INTRINS_AARCH64_ADV_SIMD_SQRSHRN},
{SN_ShiftRightArithmeticRoundedScalar, OP_ARM64_SRSHR},
{SN_ShiftRightArithmeticScalar, OP_ARM64_SSHR},
{SN_ShiftRightLogical, OP_ARM64_USHR},
{SN_ShiftRightLogicalAdd, OP_ARM64_USRA},
{SN_ShiftRightLogicalAddScalar, OP_ARM64_USRA},
{SN_ShiftRightLogicalNarrowingLower, OP_ARM64_SHRN},
{SN_ShiftRightLogicalNarrowingSaturateLower, OP_ARM64_XNSHIFT, INTRINS_AARCH64_ADV_SIMD_UQSHRN},
{SN_ShiftRightLogicalNarrowingSaturateScalar, OP_ARM64_XNSHIFT_SCALAR, INTRINS_AARCH64_ADV_SIMD_UQSHRN},
{SN_ShiftRightLogicalNarrowingSaturateUpper, OP_ARM64_XNSHIFT2, INTRINS_AARCH64_ADV_SIMD_UQSHRN},
{SN_ShiftRightLogicalNarrowingUpper, OP_ARM64_SHRN2},
{SN_ShiftRightLogicalRounded, OP_ARM64_URSHR},
{SN_ShiftRightLogicalRoundedAdd, OP_ARM64_URSRA},
{SN_ShiftRightLogicalRoundedAddScalar, OP_ARM64_URSRA},
{SN_ShiftRightLogicalRoundedNarrowingLower, OP_ARM64_XNSHIFT, INTRINS_AARCH64_ADV_SIMD_RSHRN},
{SN_ShiftRightLogicalRoundedNarrowingSaturateLower, OP_ARM64_XNSHIFT, INTRINS_AARCH64_ADV_SIMD_UQRSHRN},
{SN_ShiftRightLogicalRoundedNarrowingSaturateScalar, OP_ARM64_XNSHIFT_SCALAR, INTRINS_AARCH64_ADV_SIMD_UQRSHRN},
{SN_ShiftRightLogicalRoundedNarrowingSaturateUpper, OP_ARM64_XNSHIFT2, INTRINS_AARCH64_ADV_SIMD_UQRSHRN},
{SN_ShiftRightLogicalRoundedNarrowingUpper, OP_ARM64_XNSHIFT2, INTRINS_AARCH64_ADV_SIMD_RSHRN},
{SN_ShiftRightLogicalRoundedScalar, OP_ARM64_URSHR},
{SN_ShiftRightLogicalScalar, OP_ARM64_USHR},
{SN_SignExtendWideningLower, OP_ARM64_SXTL},
{SN_SignExtendWideningUpper, OP_ARM64_SXTL2},
{SN_Sqrt, OP_XOP_OVR_X_X, INTRINS_AARCH64_ADV_SIMD_FSQRT},
{SN_SqrtScalar, OP_XOP_OVR_SCALAR_X_X, INTRINS_AARCH64_ADV_SIMD_FSQRT},
{SN_Store, OP_ARM64_ST1},
{SN_StorePair, OP_ARM64_STP},
{SN_StorePairNonTemporal, OP_ARM64_STNP},
{SN_StorePairScalar, OP_ARM64_STP_SCALAR},
{SN_StorePairScalarNonTemporal, OP_ARM64_STNP_SCALAR},
{SN_StoreSelectedScalar, OP_ARM64_ST1_SCALAR},
{SN_Subtract, OP_XBINOP, OP_ISUB, None, None, OP_XBINOP, OP_FSUB},
{SN_SubtractHighNarrowingLower, OP_ARM64_SUBHN},
{SN_SubtractHighNarrowingUpper, OP_ARM64_SUBHN2},
{SN_SubtractRoundedHighNarrowingLower, OP_ARM64_RSUBHN},
{SN_SubtractRoundedHighNarrowingUpper, OP_ARM64_RSUBHN2},
{SN_SubtractSaturate, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_SQSUB, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_UQSUB},
{SN_SubtractSaturateScalar, OP_XOP_OVR_SCALAR_X_X_X, INTRINS_AARCH64_ADV_SIMD_SQSUB, OP_XOP_OVR_SCALAR_X_X_X, INTRINS_AARCH64_ADV_SIMD_UQSUB},
{SN_SubtractScalar, OP_XBINOP_SCALAR, OP_ISUB, None, None, OP_XBINOP_SCALAR, OP_FSUB},
{SN_SubtractWideningLower, OP_ARM64_SSUB, None, OP_ARM64_USUB},
{SN_SubtractWideningUpper, OP_ARM64_SSUB2, None, OP_ARM64_USUB2},
{SN_TransposeEven, OP_ARM64_TRN1},
{SN_TransposeOdd, OP_ARM64_TRN2},
{SN_UnzipEven, OP_ARM64_UZP1},
{SN_UnzipOdd, OP_ARM64_UZP2},
{SN_VectorTableLookup, OP_XOP_OVR_X_X_X, INTRINS_AARCH64_ADV_SIMD_TBL1},
{SN_VectorTableLookupExtension, OP_XOP_OVR_X_X_X_X, INTRINS_AARCH64_ADV_SIMD_TBX1},
{SN_Xor, OP_XBINOP_FORCEINT, XBINOP_FORCEINT_XOR},
{SN_ZeroExtendWideningLower, OP_ARM64_UXTL},
{SN_ZeroExtendWideningUpper, OP_ARM64_UXTL2},
{SN_ZipHigh, OP_ARM64_ZIP2},
{SN_ZipLow, OP_ARM64_ZIP1},
{SN_get_IsSupported},
};
static const SimdIntrinsic rdm_methods [] = {
{SN_MultiplyRoundedDoublingAndAddSaturateHigh, OP_ARM64_SQRDMLAH},
{SN_MultiplyRoundedDoublingAndAddSaturateHighScalar, OP_ARM64_SQRDMLAH_SCALAR},
{SN_MultiplyRoundedDoublingAndSubtractSaturateHigh, OP_ARM64_SQRDMLSH},
{SN_MultiplyRoundedDoublingAndSubtractSaturateHighScalar, OP_ARM64_SQRDMLSH_SCALAR},
{SN_MultiplyRoundedDoublingBySelectedScalarAndAddSaturateHigh},
{SN_MultiplyRoundedDoublingBySelectedScalarAndSubtractSaturateHigh},
{SN_MultiplyRoundedDoublingScalarBySelectedScalarAndAddSaturateHigh},
{SN_MultiplyRoundedDoublingScalarBySelectedScalarAndSubtractSaturateHigh},
{SN_get_IsSupported},
};
static const SimdIntrinsic dp_methods [] = {
{SN_DotProduct, OP_XOP_OVR_X_X_X_X, INTRINS_AARCH64_ADV_SIMD_SDOT, OP_XOP_OVR_X_X_X_X, INTRINS_AARCH64_ADV_SIMD_UDOT},
{SN_DotProductBySelectedQuadruplet},
{SN_get_IsSupported},
};
static const IntrinGroup supported_arm_intrinsics [] = {
{ "AdvSimd", MONO_CPU_ARM64_NEON, advsimd_methods, sizeof (advsimd_methods) },
{ "Aes", MONO_CPU_ARM64_CRYPTO, crypto_aes_methods, sizeof (crypto_aes_methods) },
{ "ArmBase", MONO_CPU_ARM64_BASE, armbase_methods, sizeof (armbase_methods) },
{ "Crc32", MONO_CPU_ARM64_CRC, crc32_methods, sizeof (crc32_methods) },
{ "Dp", MONO_CPU_ARM64_DP, dp_methods, sizeof (dp_methods) },
{ "Rdm", MONO_CPU_ARM64_RDM, rdm_methods, sizeof (rdm_methods) },
{ "Sha1", MONO_CPU_ARM64_CRYPTO, sha1_methods, sizeof (sha1_methods) },
{ "Sha256", MONO_CPU_ARM64_CRYPTO, sha256_methods, sizeof (sha256_methods) },
};
static MonoInst*
emit_arm64_intrinsics (
MonoCompile *cfg, MonoMethodSignature *fsig, MonoInst **args,
MonoClass *klass, const IntrinGroup *intrin_group,
const SimdIntrinsic *info, int id, MonoTypeEnum arg0_type,
gboolean is_64bit)
{
MonoCPUFeatures feature = intrin_group->feature;
gboolean arg0_i32 = (arg0_type == MONO_TYPE_I4) || (arg0_type == MONO_TYPE_U4);
#if TARGET_SIZEOF_VOID_P == 4
arg0_i32 = arg0_i32 || (arg0_type == MONO_TYPE_I) || (arg0_type == MONO_TYPE_U);
#endif
if (feature == MONO_CPU_ARM64_BASE) {
switch (id) {
case SN_LeadingZeroCount:
return emit_simd_ins_for_sig (cfg, klass, arg0_i32 ? OP_LZCNT32 : OP_LZCNT64, 0, arg0_type, fsig, args);
case SN_LeadingSignCount:
return emit_simd_ins_for_sig (cfg, klass, arg0_i32 ? OP_LSCNT32 : OP_LSCNT64, 0, arg0_type, fsig, args);
case SN_MultiplyHigh:
return emit_simd_ins_for_sig (cfg, klass,
(arg0_type == MONO_TYPE_I8 ? OP_ARM64_SMULH : OP_ARM64_UMULH), 0, arg0_type, fsig, args);
case SN_ReverseElementBits:
return emit_simd_ins_for_sig (cfg, klass,
(is_64bit ? OP_XOP_I8_I8 : OP_XOP_I4_I4),
(is_64bit ? INTRINS_BITREVERSE_I64 : INTRINS_BITREVERSE_I32),
arg0_type, fsig, args);
default:
g_assert_not_reached (); // if a new API is added we need to either implement it or change IsSupported to false
}
}
if (feature == MONO_CPU_ARM64_CRC) {
switch (id) {
case SN_ComputeCrc32:
case SN_ComputeCrc32C: {
IntrinsicId op = (IntrinsicId)0;
gboolean is_c = info->id == SN_ComputeCrc32C;
switch (get_underlying_type (fsig->params [1])) {
case MONO_TYPE_U1: op = is_c ? INTRINS_AARCH64_CRC32CB : INTRINS_AARCH64_CRC32B; break;
case MONO_TYPE_U2: op = is_c ? INTRINS_AARCH64_CRC32CH : INTRINS_AARCH64_CRC32H; break;
case MONO_TYPE_U4: op = is_c ? INTRINS_AARCH64_CRC32CW : INTRINS_AARCH64_CRC32W; break;
case MONO_TYPE_U8: op = is_c ? INTRINS_AARCH64_CRC32CX : INTRINS_AARCH64_CRC32X; break;
default: g_assert_not_reached (); break;
}
return emit_simd_ins_for_sig (cfg, klass, is_64bit ? OP_XOP_I4_I4_I8 : OP_XOP_I4_I4_I4, op, arg0_type, fsig, args);
}
default:
g_assert_not_reached (); // if a new API is added we need to either implement it or change IsSupported to false
}
}
if (feature == MONO_CPU_ARM64_NEON) {
switch (id) {
case SN_AbsoluteCompareGreaterThan:
case SN_AbsoluteCompareGreaterThanOrEqual:
case SN_AbsoluteCompareLessThan:
case SN_AbsoluteCompareLessThanOrEqual:
case SN_AbsoluteCompareGreaterThanScalar:
case SN_AbsoluteCompareGreaterThanOrEqualScalar:
case SN_AbsoluteCompareLessThanScalar:
case SN_AbsoluteCompareLessThanOrEqualScalar: {
gboolean reverse_args = FALSE;
gboolean use_geq = FALSE;
gboolean scalar = FALSE;
MonoInst *cmp_args [] = { args [0], args [1] };
switch (id) {
case SN_AbsoluteCompareGreaterThanScalar: scalar = TRUE;
case SN_AbsoluteCompareGreaterThan: break;
case SN_AbsoluteCompareGreaterThanOrEqualScalar: scalar = TRUE;
case SN_AbsoluteCompareGreaterThanOrEqual: use_geq = TRUE; break;
case SN_AbsoluteCompareLessThanScalar: scalar = TRUE;
case SN_AbsoluteCompareLessThan: reverse_args = TRUE; break;
case SN_AbsoluteCompareLessThanOrEqualScalar: scalar = TRUE;
case SN_AbsoluteCompareLessThanOrEqual: reverse_args = TRUE; use_geq = TRUE; break;
}
if (reverse_args) {
cmp_args [0] = args [1];
cmp_args [1] = args [0];
}
int iid = use_geq ? INTRINS_AARCH64_ADV_SIMD_FACGE : INTRINS_AARCH64_ADV_SIMD_FACGT;
return emit_simd_ins_for_sig (cfg, klass, OP_ARM64_ABSCOMPARE, iid, scalar, fsig, cmp_args);
}
case SN_AddSaturate:
case SN_AddSaturateScalar: {
gboolean arg0_unsigned = type_is_unsigned (fsig->params [0]);
gboolean arg1_unsigned = type_is_unsigned (fsig->params [1]);
int iid = 0;
if (arg0_unsigned && arg1_unsigned)
iid = INTRINS_AARCH64_ADV_SIMD_UQADD;
else if (arg0_unsigned && !arg1_unsigned)
iid = INTRINS_AARCH64_ADV_SIMD_USQADD;
else if (!arg0_unsigned && arg1_unsigned)
iid = INTRINS_AARCH64_ADV_SIMD_SUQADD;
else
iid = INTRINS_AARCH64_ADV_SIMD_SQADD;
int op = id == SN_AddSaturateScalar ? OP_XOP_OVR_SCALAR_X_X_X : OP_XOP_OVR_X_X_X;
return emit_simd_ins_for_sig (cfg, klass, op, iid, arg0_type, fsig, args);
}
case SN_DuplicateSelectedScalarToVector128:
case SN_DuplicateSelectedScalarToVector64:
case SN_DuplicateToVector64:
case SN_DuplicateToVector128: {
MonoClass *ret_klass = mono_class_from_mono_type_internal (fsig->ret);
MonoType *rtype = get_vector_t_elem_type (fsig->ret);
int scalar_src_reg = args [0]->dreg;
switch (id) {
case SN_DuplicateSelectedScalarToVector128:
case SN_DuplicateSelectedScalarToVector64: {
MonoInst *ins = emit_simd_ins (cfg, ret_klass, type_to_xextract_op (rtype->type), args [0]->dreg, args [1]->dreg);
ins->inst_c1 = arg0_type;
scalar_src_reg = ins->dreg;
break;
}
}
return emit_simd_ins (cfg, ret_klass, type_to_expand_op (rtype), scalar_src_reg, -1);
}
case SN_Extract: {
int extract_op = type_to_xextract_op (arg0_type);
MonoInst *ins = emit_simd_ins (cfg, klass, extract_op, args [0]->dreg, args [1]->dreg);
ins->inst_c1 = arg0_type;
return ins;
}
case SN_InsertSelectedScalar:
case SN_InsertScalar:
case SN_Insert: {
MonoClass *ret_klass = mono_class_from_mono_type_internal (fsig->ret);
int insert_op = type_to_xinsert_op (arg0_type);
int extract_op = type_to_extract_op (arg0_type);
int val_src_reg = args [2]->dreg;
switch (id) {
case SN_InsertSelectedScalar: {
MonoInst *scalar = emit_simd_ins (cfg, klass, OP_ARM64_SELECT_SCALAR, args [2]->dreg, args [3]->dreg);
val_src_reg = scalar->dreg;
// fallthrough
}
case SN_InsertScalar: {
MonoInst *ins = emit_simd_ins (cfg, klass, extract_op, val_src_reg, -1);
ins->inst_c0 = 0;
ins->inst_c1 = arg0_type;
val_src_reg = ins->dreg;
break;
}
}
MonoInst *ins = emit_simd_ins (cfg, ret_klass, insert_op, args [0]->dreg, val_src_reg);
ins->sreg3 = args [1]->dreg;
ins->inst_c1 = arg0_type;
return ins;
}
case SN_ShiftLeftLogicalSaturate:
case SN_ShiftLeftLogicalSaturateScalar: {
MonoClass *ret_klass = mono_class_from_mono_type_internal (fsig->ret);
MonoType *etype = get_vector_t_elem_type (fsig->ret);
gboolean is_unsigned = type_is_unsigned (fsig->ret);
gboolean scalar = id == SN_ShiftLeftLogicalSaturateScalar;
int s2v = scalar ? OP_CREATE_SCALAR_UNSAFE : type_to_expand_op (etype);
int xop = scalar ? OP_XOP_OVR_SCALAR_X_X_X : OP_XOP_OVR_X_X_X;
int iid = is_unsigned ? INTRINS_AARCH64_ADV_SIMD_UQSHL : INTRINS_AARCH64_ADV_SIMD_SQSHL;
MonoInst *shift_vector = emit_simd_ins (cfg, ret_klass, s2v, args [1]->dreg, -1);
shift_vector->inst_c1 = etype->type;
MonoInst *ret = emit_simd_ins (cfg, ret_klass, xop, args [0]->dreg, shift_vector->dreg);
ret->inst_c0 = iid;
ret->inst_c1 = etype->type;
return ret;
}
case SN_MultiplyRoundedDoublingBySelectedScalarSaturateHigh:
case SN_MultiplyRoundedDoublingScalarBySelectedScalarSaturateHigh:
case SN_MultiplyDoublingScalarBySelectedScalarSaturateHigh:
case SN_MultiplyDoublingWideningSaturateScalarBySelectedScalar:
case SN_MultiplyExtendedBySelectedScalar:
case SN_MultiplyExtendedScalarBySelectedScalar:
case SN_MultiplyBySelectedScalar:
case SN_MultiplyBySelectedScalarWideningLower:
case SN_MultiplyBySelectedScalarWideningUpper:
case SN_MultiplyDoublingBySelectedScalarSaturateHigh:
case SN_MultiplyDoublingWideningSaturateLowerBySelectedScalar:
case SN_MultiplyDoublingWideningSaturateUpperBySelectedScalar: {
MonoClass *ret_klass = mono_class_from_mono_type_internal (fsig->ret);
gboolean is_unsigned = type_is_unsigned (fsig->ret);
gboolean is_float = type_is_float (fsig->ret);
int opcode = 0;
int c0 = 0;
switch (id) {
case SN_MultiplyRoundedDoublingBySelectedScalarSaturateHigh: opcode = OP_XOP_OVR_BYSCALAR_X_X_X; c0 = INTRINS_AARCH64_ADV_SIMD_SQRDMULH; break;
case SN_MultiplyRoundedDoublingScalarBySelectedScalarSaturateHigh: opcode = OP_XOP_OVR_SCALAR_X_X_X; c0 = INTRINS_AARCH64_ADV_SIMD_SQRDMULH; break;
case SN_MultiplyDoublingScalarBySelectedScalarSaturateHigh: opcode = OP_XOP_OVR_SCALAR_X_X_X; c0 = INTRINS_AARCH64_ADV_SIMD_SQDMULH; break;
case SN_MultiplyDoublingWideningSaturateScalarBySelectedScalar: opcode = OP_ARM64_SQDMULL_SCALAR; break;
case SN_MultiplyExtendedBySelectedScalar: opcode = OP_XOP_OVR_BYSCALAR_X_X_X; c0 = INTRINS_AARCH64_ADV_SIMD_FMULX; break;
case SN_MultiplyExtendedScalarBySelectedScalar: opcode = OP_XOP_OVR_SCALAR_X_X_X; c0 = INTRINS_AARCH64_ADV_SIMD_FMULX; break;
case SN_MultiplyBySelectedScalar: opcode = OP_XBINOP_BYSCALAR; c0 = OP_IMUL; break;
case SN_MultiplyBySelectedScalarWideningLower: opcode = OP_ARM64_SMULL_SCALAR; break;
case SN_MultiplyBySelectedScalarWideningUpper: opcode = OP_ARM64_SMULL2_SCALAR; break;
case SN_MultiplyDoublingBySelectedScalarSaturateHigh: opcode = OP_XOP_OVR_BYSCALAR_X_X_X; c0 = INTRINS_AARCH64_ADV_SIMD_SQDMULH; break;
case SN_MultiplyDoublingWideningSaturateLowerBySelectedScalar: opcode = OP_ARM64_SQDMULL_BYSCALAR; break;
case SN_MultiplyDoublingWideningSaturateUpperBySelectedScalar: opcode = OP_ARM64_SQDMULL2_BYSCALAR; break;
default: g_assert_not_reached();
}
if (is_unsigned)
switch (opcode) {
case OP_ARM64_SMULL_SCALAR: opcode = OP_ARM64_UMULL_SCALAR; break;
case OP_ARM64_SMULL2_SCALAR: opcode = OP_ARM64_UMULL2_SCALAR; break;
}
if (is_float)
switch (opcode) {
case OP_XBINOP_BYSCALAR: c0 = OP_FMUL;
}
MonoInst *scalar = emit_simd_ins (cfg, ret_klass, OP_ARM64_SELECT_SCALAR, args [1]->dreg, args [2]->dreg);
MonoInst *ret = emit_simd_ins (cfg, ret_klass, opcode, args [0]->dreg, scalar->dreg);
ret->inst_c0 = c0;
ret->inst_c1 = arg0_type;
return ret;
}
case SN_FusedMultiplyAddBySelectedScalar:
case SN_FusedMultiplyAddScalarBySelectedScalar:
case SN_FusedMultiplySubtractBySelectedScalar:
case SN_FusedMultiplySubtractScalarBySelectedScalar:
case SN_MultiplyDoublingWideningScalarBySelectedScalarAndAddSaturate:
case SN_MultiplyDoublingWideningScalarBySelectedScalarAndSubtractSaturate:
case SN_MultiplyAddBySelectedScalar:
case SN_MultiplySubtractBySelectedScalar:
case SN_MultiplyBySelectedScalarWideningLowerAndAdd:
case SN_MultiplyBySelectedScalarWideningLowerAndSubtract:
case SN_MultiplyBySelectedScalarWideningUpperAndAdd:
case SN_MultiplyBySelectedScalarWideningUpperAndSubtract:
case SN_MultiplyDoublingWideningLowerBySelectedScalarAndAddSaturate:
case SN_MultiplyDoublingWideningLowerBySelectedScalarAndSubtractSaturate:
case SN_MultiplyDoublingWideningUpperBySelectedScalarAndAddSaturate:
case SN_MultiplyDoublingWideningUpperBySelectedScalarAndSubtractSaturate: {
MonoClass *ret_klass = mono_class_from_mono_type_internal (fsig->ret);
gboolean is_unsigned = type_is_unsigned (fsig->ret);
int opcode = 0;
switch (id) {
case SN_FusedMultiplyAddBySelectedScalar: opcode = OP_ARM64_FMADD_BYSCALAR; break;
case SN_FusedMultiplyAddScalarBySelectedScalar: opcode = OP_ARM64_FMADD_SCALAR; break;
case SN_FusedMultiplySubtractBySelectedScalar: opcode = OP_ARM64_FMSUB_BYSCALAR; break;
case SN_FusedMultiplySubtractScalarBySelectedScalar: opcode = OP_ARM64_FMSUB_SCALAR; break;
case SN_MultiplyDoublingWideningScalarBySelectedScalarAndAddSaturate: opcode = OP_ARM64_SQDMLAL_SCALAR; break;
case SN_MultiplyDoublingWideningScalarBySelectedScalarAndSubtractSaturate: opcode = OP_ARM64_SQDMLSL_SCALAR; break;
case SN_MultiplyAddBySelectedScalar: opcode = OP_ARM64_MLA_SCALAR; break;
case SN_MultiplySubtractBySelectedScalar: opcode = OP_ARM64_MLS_SCALAR; break;
case SN_MultiplyBySelectedScalarWideningLowerAndAdd: opcode = OP_ARM64_SMLAL_SCALAR; break;
case SN_MultiplyBySelectedScalarWideningLowerAndSubtract: opcode = OP_ARM64_SMLSL_SCALAR; break;
case SN_MultiplyBySelectedScalarWideningUpperAndAdd: opcode = OP_ARM64_SMLAL2_SCALAR; break;
case SN_MultiplyBySelectedScalarWideningUpperAndSubtract: opcode = OP_ARM64_SMLSL2_SCALAR; break;
case SN_MultiplyDoublingWideningLowerBySelectedScalarAndAddSaturate: opcode = OP_ARM64_SQDMLAL_BYSCALAR; break;
case SN_MultiplyDoublingWideningLowerBySelectedScalarAndSubtractSaturate: opcode = OP_ARM64_SQDMLSL_BYSCALAR; break;
case SN_MultiplyDoublingWideningUpperBySelectedScalarAndAddSaturate: opcode = OP_ARM64_SQDMLAL2_BYSCALAR; break;
case SN_MultiplyDoublingWideningUpperBySelectedScalarAndSubtractSaturate: opcode = OP_ARM64_SQDMLSL2_BYSCALAR; break;
default: g_assert_not_reached();
}
if (is_unsigned)
switch (opcode) {
case OP_ARM64_SMLAL_SCALAR: opcode = OP_ARM64_UMLAL_SCALAR; break;
case OP_ARM64_SMLSL_SCALAR: opcode = OP_ARM64_UMLSL_SCALAR; break;
case OP_ARM64_SMLAL2_SCALAR: opcode = OP_ARM64_UMLAL2_SCALAR; break;
case OP_ARM64_SMLSL2_SCALAR: opcode = OP_ARM64_UMLSL2_SCALAR; break;
}
MonoInst *scalar = emit_simd_ins (cfg, ret_klass, OP_ARM64_SELECT_SCALAR, args [2]->dreg, args [3]->dreg);
MonoInst *ret = emit_simd_ins (cfg, ret_klass, opcode, args [0]->dreg, args [1]->dreg);
ret->sreg3 = scalar->dreg;
return ret;
}
default:
g_assert_not_reached ();
}
}
if (feature == MONO_CPU_ARM64_CRYPTO) {
switch (id) {
case SN_PolynomialMultiplyWideningLower:
return emit_simd_ins_for_sig (cfg, klass, OP_XOP_X_X_X, INTRINS_AARCH64_PMULL64, 0, fsig, args);
case SN_PolynomialMultiplyWideningUpper:
return emit_simd_ins_for_sig (cfg, klass, OP_XOP_X_X_X, INTRINS_AARCH64_PMULL64, 1, fsig, args);
default:
g_assert_not_reached ();
}
}
if (feature == MONO_CPU_ARM64_RDM) {
switch (id) {
case SN_MultiplyRoundedDoublingBySelectedScalarAndAddSaturateHigh:
case SN_MultiplyRoundedDoublingBySelectedScalarAndSubtractSaturateHigh:
case SN_MultiplyRoundedDoublingScalarBySelectedScalarAndAddSaturateHigh:
case SN_MultiplyRoundedDoublingScalarBySelectedScalarAndSubtractSaturateHigh: {
MonoClass *ret_klass = mono_class_from_mono_type_internal (fsig->ret);
int opcode = 0;
switch (id) {
case SN_MultiplyRoundedDoublingBySelectedScalarAndAddSaturateHigh: opcode = OP_ARM64_SQRDMLAH_BYSCALAR; break;
case SN_MultiplyRoundedDoublingBySelectedScalarAndSubtractSaturateHigh: opcode = OP_ARM64_SQRDMLSH_BYSCALAR; break;
case SN_MultiplyRoundedDoublingScalarBySelectedScalarAndAddSaturateHigh: opcode = OP_ARM64_SQRDMLAH_SCALAR; break;
case SN_MultiplyRoundedDoublingScalarBySelectedScalarAndSubtractSaturateHigh: opcode = OP_ARM64_SQRDMLSH_SCALAR; break;
}
MonoInst *scalar = emit_simd_ins (cfg, ret_klass, OP_ARM64_SELECT_SCALAR, args [2]->dreg, args [3]->dreg);
MonoInst *ret = emit_simd_ins (cfg, ret_klass, opcode, args [0]->dreg, args [1]->dreg);
ret->inst_c1 = arg0_type;
ret->sreg3 = scalar->dreg;
return ret;
}
default:
g_assert_not_reached ();
}
}
if (feature == MONO_CPU_ARM64_DP) {
switch (id) {
case SN_DotProductBySelectedQuadruplet: {
MonoClass *ret_klass = mono_class_from_mono_type_internal (fsig->ret);
MonoClass *arg_klass = mono_class_from_mono_type_internal (fsig->params [1]);
MonoClass *quad_klass = mono_class_from_mono_type_internal (fsig->params [2]);
gboolean is_unsigned = type_is_unsigned (fsig->ret);
int iid = is_unsigned ? INTRINS_AARCH64_ADV_SIMD_UDOT : INTRINS_AARCH64_ADV_SIMD_SDOT;
MonoInst *quad = emit_simd_ins (cfg, arg_klass, OP_ARM64_SELECT_QUAD, args [2]->dreg, args [3]->dreg);
quad->data.op [1].klass = quad_klass;
MonoInst *ret = emit_simd_ins (cfg, ret_klass, OP_XOP_OVR_X_X_X_X, args [0]->dreg, args [1]->dreg);
ret->sreg3 = quad->dreg;
ret->inst_c0 = iid;
return ret;
}
default:
g_assert_not_reached ();
}
}
return NULL;
}
#endif // TARGET_ARM64
#ifdef TARGET_AMD64
static SimdIntrinsic sse_methods [] = {
{SN_Add, OP_XBINOP, OP_FADD},
{SN_AddScalar, OP_SSE_ADDSS},
{SN_And, OP_SSE_AND},
{SN_AndNot, OP_SSE_ANDN},
{SN_CompareEqual, OP_XCOMPARE_FP, CMP_EQ},
{SN_CompareGreaterThan, OP_XCOMPARE_FP,CMP_GT},
{SN_CompareGreaterThanOrEqual, OP_XCOMPARE_FP, CMP_GE},
{SN_CompareLessThan, OP_XCOMPARE_FP, CMP_LT},
{SN_CompareLessThanOrEqual, OP_XCOMPARE_FP, CMP_LE},
{SN_CompareNotEqual, OP_XCOMPARE_FP, CMP_NE},
{SN_CompareNotGreaterThan, OP_XCOMPARE_FP, CMP_LE_UN},
{SN_CompareNotGreaterThanOrEqual, OP_XCOMPARE_FP, CMP_LT_UN},
{SN_CompareNotLessThan, OP_XCOMPARE_FP, CMP_GE_UN},
{SN_CompareNotLessThanOrEqual, OP_XCOMPARE_FP, CMP_GT_UN},
{SN_CompareOrdered, OP_XCOMPARE_FP, CMP_ORD},
{SN_CompareScalarEqual, OP_SSE_CMPSS, CMP_EQ},
{SN_CompareScalarGreaterThan, OP_SSE_CMPSS, CMP_GT},
{SN_CompareScalarGreaterThanOrEqual, OP_SSE_CMPSS, CMP_GE},
{SN_CompareScalarLessThan, OP_SSE_CMPSS, CMP_LT},
{SN_CompareScalarLessThanOrEqual, OP_SSE_CMPSS, CMP_LE},
{SN_CompareScalarNotEqual, OP_SSE_CMPSS, CMP_NE},
{SN_CompareScalarNotGreaterThan, OP_SSE_CMPSS, CMP_LE_UN},
{SN_CompareScalarNotGreaterThanOrEqual, OP_SSE_CMPSS, CMP_LT_UN},
{SN_CompareScalarNotLessThan, OP_SSE_CMPSS, CMP_GE_UN},
{SN_CompareScalarNotLessThanOrEqual, OP_SSE_CMPSS, CMP_GT_UN},
{SN_CompareScalarOrdered, OP_SSE_CMPSS, CMP_ORD},
{SN_CompareScalarOrderedEqual, OP_SSE_COMISS, CMP_EQ},
{SN_CompareScalarOrderedGreaterThan, OP_SSE_COMISS, CMP_GT},
{SN_CompareScalarOrderedGreaterThanOrEqual, OP_SSE_COMISS, CMP_GE},
{SN_CompareScalarOrderedLessThan, OP_SSE_COMISS, CMP_LT},
{SN_CompareScalarOrderedLessThanOrEqual, OP_SSE_COMISS, CMP_LE},
{SN_CompareScalarOrderedNotEqual, OP_SSE_COMISS, CMP_NE},
{SN_CompareScalarUnordered, OP_SSE_CMPSS, CMP_UNORD},
{SN_CompareScalarUnorderedEqual, OP_SSE_UCOMISS, CMP_EQ},
{SN_CompareScalarUnorderedGreaterThan, OP_SSE_UCOMISS, CMP_GT},
{SN_CompareScalarUnorderedGreaterThanOrEqual, OP_SSE_UCOMISS, CMP_GE},
{SN_CompareScalarUnorderedLessThan, OP_SSE_UCOMISS, CMP_LT},
{SN_CompareScalarUnorderedLessThanOrEqual, OP_SSE_UCOMISS, CMP_LE},
{SN_CompareScalarUnorderedNotEqual, OP_SSE_UCOMISS, CMP_NE},
{SN_CompareUnordered, OP_XCOMPARE_FP, CMP_UNORD},
{SN_ConvertScalarToVector128Single},
{SN_ConvertToInt32, OP_XOP_I4_X, INTRINS_SSE_CVTSS2SI},
{SN_ConvertToInt32WithTruncation, OP_XOP_I4_X, INTRINS_SSE_CVTTSS2SI},
{SN_ConvertToInt64, OP_XOP_I8_X, INTRINS_SSE_CVTSS2SI64},
{SN_ConvertToInt64WithTruncation, OP_XOP_I8_X, INTRINS_SSE_CVTTSS2SI64},
{SN_Divide, OP_XBINOP, OP_FDIV},
{SN_DivideScalar, OP_SSE_DIVSS},
{SN_LoadAlignedVector128, OP_SSE_LOADU, 16 /* alignment */},
{SN_LoadHigh, OP_SSE_MOVHPS_LOAD},
{SN_LoadLow, OP_SSE_MOVLPS_LOAD},
{SN_LoadScalarVector128, OP_SSE_MOVSS},
{SN_LoadVector128, OP_SSE_LOADU, 1 /* alignment */},
{SN_Max, OP_XOP_X_X_X, INTRINS_SSE_MAXPS},
{SN_MaxScalar, OP_XOP_X_X_X, INTRINS_SSE_MAXSS},
{SN_Min, OP_XOP_X_X_X, INTRINS_SSE_MINPS},
{SN_MinScalar, OP_XOP_X_X_X, INTRINS_SSE_MINSS},
{SN_MoveHighToLow, OP_SSE_MOVEHL},
{SN_MoveLowToHigh, OP_SSE_MOVELH},
{SN_MoveMask, OP_SSE_MOVMSK},
{SN_MoveScalar, OP_SSE_MOVS2},
{SN_Multiply, OP_XBINOP, OP_FMUL},
{SN_MultiplyScalar, OP_SSE_MULSS},
{SN_Or, OP_SSE_OR},
{SN_Prefetch0, OP_SSE_PREFETCHT0},
{SN_Prefetch1, OP_SSE_PREFETCHT1},
{SN_Prefetch2, OP_SSE_PREFETCHT2},
{SN_PrefetchNonTemporal, OP_SSE_PREFETCHNTA},
{SN_Reciprocal, OP_XOP_X_X, INTRINS_SSE_RCP_PS},
{SN_ReciprocalScalar},
{SN_ReciprocalSqrt, OP_XOP_X_X, INTRINS_SSE_RSQRT_PS},
{SN_ReciprocalSqrtScalar},
{SN_Shuffle},
{SN_Sqrt, OP_XOP_X_X, INTRINS_SSE_SQRT_PS},
{SN_SqrtScalar},
{SN_Store, OP_SSE_STORE, 1 /* alignment */},
{SN_StoreAligned, OP_SSE_STORE, 16 /* alignment */},
{SN_StoreAlignedNonTemporal, OP_SSE_MOVNTPS, 16 /* alignment */},
{SN_StoreFence, OP_XOP, INTRINS_SSE_SFENCE},
{SN_StoreHigh, OP_SSE_MOVHPS_STORE},
{SN_StoreLow, OP_SSE_MOVLPS_STORE},
{SN_StoreScalar, OP_SSE_MOVSS_STORE},
{SN_Subtract, OP_XBINOP, OP_FSUB},
{SN_SubtractScalar, OP_SSE_SUBSS},
{SN_UnpackHigh, OP_SSE_UNPACKHI},
{SN_UnpackLow, OP_SSE_UNPACKLO},
{SN_Xor, OP_SSE_XOR},
{SN_get_IsSupported}
};
static SimdIntrinsic sse2_methods [] = {
{SN_Add},
{SN_AddSaturate, OP_SSE2_ADDS},
{SN_AddScalar, OP_SSE2_ADDSD},
{SN_And, OP_SSE_AND},
{SN_AndNot, OP_SSE_ANDN},
{SN_Average},
{SN_CompareEqual},
{SN_CompareGreaterThan},
{SN_CompareGreaterThanOrEqual, OP_XCOMPARE_FP, CMP_GE},
{SN_CompareLessThan},
{SN_CompareLessThanOrEqual, OP_XCOMPARE_FP, CMP_LE},
{SN_CompareNotEqual, OP_XCOMPARE_FP, CMP_NE},
{SN_CompareNotGreaterThan, OP_XCOMPARE_FP, CMP_LE_UN},
{SN_CompareNotGreaterThanOrEqual, OP_XCOMPARE_FP, CMP_LT_UN},
{SN_CompareNotLessThan, OP_XCOMPARE_FP, CMP_GE_UN},
{SN_CompareNotLessThanOrEqual, OP_XCOMPARE_FP, CMP_GT_UN},
{SN_CompareOrdered, OP_XCOMPARE_FP, CMP_ORD},
{SN_CompareScalarEqual, OP_SSE2_CMPSD, CMP_EQ},
{SN_CompareScalarGreaterThan, OP_SSE2_CMPSD, CMP_GT},
{SN_CompareScalarGreaterThanOrEqual, OP_SSE2_CMPSD, CMP_GE},
{SN_CompareScalarLessThan, OP_SSE2_CMPSD, CMP_LT},
{SN_CompareScalarLessThanOrEqual, OP_SSE2_CMPSD, CMP_LE},
{SN_CompareScalarNotEqual, OP_SSE2_CMPSD, CMP_NE},
{SN_CompareScalarNotGreaterThan, OP_SSE2_CMPSD, CMP_LE_UN},
{SN_CompareScalarNotGreaterThanOrEqual, OP_SSE2_CMPSD, CMP_LT_UN},
{SN_CompareScalarNotLessThan, OP_SSE2_CMPSD, CMP_GE_UN},
{SN_CompareScalarNotLessThanOrEqual, OP_SSE2_CMPSD, CMP_GT_UN},
{SN_CompareScalarOrdered, OP_SSE2_CMPSD, CMP_ORD},
{SN_CompareScalarOrderedEqual, OP_SSE2_COMISD, CMP_EQ},
{SN_CompareScalarOrderedGreaterThan, OP_SSE2_COMISD, CMP_GT},
{SN_CompareScalarOrderedGreaterThanOrEqual, OP_SSE2_COMISD, CMP_GE},
{SN_CompareScalarOrderedLessThan, OP_SSE2_COMISD, CMP_LT},
{SN_CompareScalarOrderedLessThanOrEqual, OP_SSE2_COMISD, CMP_LE},
{SN_CompareScalarOrderedNotEqual, OP_SSE2_COMISD, CMP_NE},
{SN_CompareScalarUnordered, OP_SSE2_CMPSD, CMP_UNORD},
{SN_CompareScalarUnorderedEqual, OP_SSE2_UCOMISD, CMP_EQ},
{SN_CompareScalarUnorderedGreaterThan, OP_SSE2_UCOMISD, CMP_GT},
{SN_CompareScalarUnorderedGreaterThanOrEqual, OP_SSE2_UCOMISD, CMP_GE},
{SN_CompareScalarUnorderedLessThan, OP_SSE2_UCOMISD, CMP_LT},
{SN_CompareScalarUnorderedLessThanOrEqual, OP_SSE2_UCOMISD, CMP_LE},
{SN_CompareScalarUnorderedNotEqual, OP_SSE2_UCOMISD, CMP_NE},
{SN_CompareUnordered, OP_XCOMPARE_FP, CMP_UNORD},
{SN_ConvertScalarToVector128Double},
{SN_ConvertScalarToVector128Int32},
{SN_ConvertScalarToVector128Int64},
{SN_ConvertScalarToVector128Single, OP_XOP_X_X_X, INTRINS_SSE_CVTSD2SS},
{SN_ConvertScalarToVector128UInt32},
{SN_ConvertScalarToVector128UInt64},
{SN_ConvertToInt32},
{SN_ConvertToInt32WithTruncation, OP_XOP_I4_X, INTRINS_SSE_CVTTSD2SI},
{SN_ConvertToInt64},
{SN_ConvertToInt64WithTruncation, OP_XOP_I8_X, INTRINS_SSE_CVTTSD2SI64},
{SN_ConvertToUInt32},
{SN_ConvertToUInt64},
{SN_ConvertToVector128Double},
{SN_ConvertToVector128Int32},
{SN_ConvertToVector128Int32WithTruncation},
{SN_ConvertToVector128Single},
{SN_Divide, OP_XBINOP, OP_FDIV},
{SN_DivideScalar, OP_SSE2_DIVSD},
{SN_Extract},
{SN_Insert},
{SN_LoadAlignedVector128},
{SN_LoadFence, OP_XOP, INTRINS_SSE_LFENCE},
{SN_LoadHigh, OP_SSE2_MOVHPD_LOAD},
{SN_LoadLow, OP_SSE2_MOVLPD_LOAD},
{SN_LoadScalarVector128},
{SN_LoadVector128},
{SN_MaskMove, OP_SSE2_MASKMOVDQU},
{SN_Max},
{SN_MaxScalar, OP_XOP_X_X_X, INTRINS_SSE_MAXSD},
{SN_MemoryFence, OP_XOP, INTRINS_SSE_MFENCE},
{SN_Min}, // FIXME:
{SN_MinScalar, OP_XOP_X_X_X, INTRINS_SSE_MINSD},
{SN_MoveMask, OP_SSE_MOVMSK},
{SN_MoveScalar},
{SN_Multiply},
{SN_MultiplyAddAdjacent, OP_XOP_X_X_X, INTRINS_SSE_PMADDWD},
{SN_MultiplyHigh},
{SN_MultiplyLow, OP_PMULW},
{SN_MultiplyScalar, OP_SSE2_MULSD},
{SN_Or, OP_SSE_OR},
{SN_PackSignedSaturate},
{SN_PackUnsignedSaturate},
{SN_ShiftLeftLogical},
{SN_ShiftLeftLogical128BitLane},
{SN_ShiftRightArithmetic},
{SN_ShiftRightLogical},
{SN_ShiftRightLogical128BitLane},
{SN_Shuffle},
{SN_ShuffleHigh},
{SN_ShuffleLow},
{SN_Sqrt, OP_XOP_X_X, INTRINS_SSE_SQRT_PD},
{SN_SqrtScalar},
{SN_Store, OP_SSE_STORE, 1 /* alignment */},
{SN_StoreAligned, OP_SSE_STORE, 16 /* alignment */},
{SN_StoreAlignedNonTemporal, OP_SSE_MOVNTPS, 16 /* alignment */},
{SN_StoreHigh, OP_SSE2_MOVHPD_STORE},
{SN_StoreLow, OP_SSE2_MOVLPD_STORE},
{SN_StoreNonTemporal, OP_SSE_MOVNTPS, 1 /* alignment */},
{SN_StoreScalar, OP_SSE_STORES},
{SN_Subtract},
{SN_SubtractSaturate, OP_SSE2_SUBS},
{SN_SubtractScalar, OP_SSE2_SUBSD},
{SN_SumAbsoluteDifferences, OP_XOP_X_X_X, INTRINS_SSE_PSADBW},
{SN_UnpackHigh, OP_SSE_UNPACKHI},
{SN_UnpackLow, OP_SSE_UNPACKLO},
{SN_Xor, OP_SSE_XOR},
{SN_get_IsSupported}
};
static SimdIntrinsic sse3_methods [] = {
{SN_AddSubtract},
{SN_HorizontalAdd},
{SN_HorizontalSubtract},
{SN_LoadAndDuplicateToVector128, OP_SSE3_MOVDDUP_MEM},
{SN_LoadDquVector128, OP_XOP_X_I, INTRINS_SSE_LDU_DQ},
{SN_MoveAndDuplicate, OP_SSE3_MOVDDUP},
{SN_MoveHighAndDuplicate, OP_SSE3_MOVSHDUP},
{SN_MoveLowAndDuplicate, OP_SSE3_MOVSLDUP},
{SN_get_IsSupported}
};
static SimdIntrinsic ssse3_methods [] = {
{SN_Abs, OP_SSSE3_ABS},
{SN_AlignRight},
{SN_HorizontalAdd},
{SN_HorizontalAddSaturate, OP_XOP_X_X_X, INTRINS_SSE_PHADDSW},
{SN_HorizontalSubtract},
{SN_HorizontalSubtractSaturate, OP_XOP_X_X_X, INTRINS_SSE_PHSUBSW},
{SN_MultiplyAddAdjacent, OP_XOP_X_X_X, INTRINS_SSE_PMADDUBSW},
{SN_MultiplyHighRoundScale, OP_XOP_X_X_X, INTRINS_SSE_PMULHRSW},
{SN_Shuffle, OP_SSSE3_SHUFFLE},
{SN_Sign},
{SN_get_IsSupported}
};
static SimdIntrinsic sse41_methods [] = {
{SN_Blend},
{SN_BlendVariable},
{SN_Ceiling, OP_SSE41_ROUNDP, 10 /*round mode*/},
{SN_CeilingScalar, 0, 10 /*round mode*/},
{SN_CompareEqual, OP_XCOMPARE, CMP_EQ},
{SN_ConvertToVector128Int16, OP_SSE_CVTII, MONO_TYPE_I2},
{SN_ConvertToVector128Int32, OP_SSE_CVTII, MONO_TYPE_I4},
{SN_ConvertToVector128Int64, OP_SSE_CVTII, MONO_TYPE_I8},
{SN_DotProduct},
{SN_Extract},
{SN_Floor, OP_SSE41_ROUNDP, 9 /*round mode*/},
{SN_FloorScalar, 0, 9 /*round mode*/},
{SN_Insert},
{SN_LoadAlignedVector128NonTemporal, OP_SSE41_LOADANT},
{SN_Max, OP_XBINOP, OP_IMAX},
{SN_Min, OP_XBINOP, OP_IMIN},
{SN_MinHorizontal, OP_XOP_X_X, INTRINS_SSE_PHMINPOSUW},
{SN_MultipleSumAbsoluteDifferences},
{SN_Multiply, OP_SSE41_MUL},
{SN_MultiplyLow, OP_SSE41_MULLO},
{SN_PackUnsignedSaturate, OP_XOP_X_X_X, INTRINS_SSE_PACKUSDW},
{SN_RoundCurrentDirection, OP_SSE41_ROUNDP, 4 /*round mode*/},
{SN_RoundCurrentDirectionScalar, 0, 4 /*round mode*/},
{SN_RoundToNearestInteger, OP_SSE41_ROUNDP, 8 /*round mode*/},
{SN_RoundToNearestIntegerScalar, 0, 8 /*round mode*/},
{SN_RoundToNegativeInfinity, OP_SSE41_ROUNDP, 9 /*round mode*/},
{SN_RoundToNegativeInfinityScalar, 0, 9 /*round mode*/},
{SN_RoundToPositiveInfinity, OP_SSE41_ROUNDP, 10 /*round mode*/},
{SN_RoundToPositiveInfinityScalar, 0, 10 /*round mode*/},
{SN_RoundToZero, OP_SSE41_ROUNDP, 11 /*round mode*/},
{SN_RoundToZeroScalar, 0, 11 /*round mode*/},
{SN_TestC, OP_XOP_I4_X_X, INTRINS_SSE_TESTC},
{SN_TestNotZAndNotC, OP_XOP_I4_X_X, INTRINS_SSE_TESTNZ},
{SN_TestZ, OP_XOP_I4_X_X, INTRINS_SSE_TESTZ},
{SN_get_IsSupported}
};
static SimdIntrinsic sse42_methods [] = {
{SN_CompareGreaterThan, OP_XCOMPARE, CMP_GT},
{SN_Crc32},
{SN_get_IsSupported}
};
static SimdIntrinsic pclmulqdq_methods [] = {
{SN_CarrylessMultiply},
{SN_get_IsSupported}
};
static SimdIntrinsic aes_methods [] = {
{SN_Decrypt, OP_XOP_X_X_X, INTRINS_AESNI_AESDEC},
{SN_DecryptLast, OP_XOP_X_X_X, INTRINS_AESNI_AESDECLAST},
{SN_Encrypt, OP_XOP_X_X_X, INTRINS_AESNI_AESENC},
{SN_EncryptLast, OP_XOP_X_X_X, INTRINS_AESNI_AESENCLAST},
{SN_InverseMixColumns, OP_XOP_X_X, INTRINS_AESNI_AESIMC},
{SN_KeygenAssist},
{SN_get_IsSupported}
};
static SimdIntrinsic popcnt_methods [] = {
{SN_PopCount},
{SN_get_IsSupported}
};
static SimdIntrinsic lzcnt_methods [] = {
{SN_LeadingZeroCount},
{SN_get_IsSupported}
};
static SimdIntrinsic bmi1_methods [] = {
{SN_AndNot},
{SN_BitFieldExtract},
{SN_ExtractLowestSetBit},
{SN_GetMaskUpToLowestSetBit},
{SN_ResetLowestSetBit},
{SN_TrailingZeroCount},
{SN_get_IsSupported}
};
static SimdIntrinsic bmi2_methods [] = {
{SN_MultiplyNoFlags},
{SN_ParallelBitDeposit},
{SN_ParallelBitExtract},
{SN_ZeroHighBits},
{SN_get_IsSupported}
};
static SimdIntrinsic x86base_methods [] = {
{SN_BitScanForward},
{SN_BitScanReverse},
{SN_get_IsSupported}
};
static const IntrinGroup supported_x86_intrinsics [] = {
{ "Aes", MONO_CPU_X86_AES, aes_methods, sizeof (aes_methods) },
{ "Avx", MONO_CPU_X86_AVX, unsupported, sizeof (unsupported) },
{ "Avx2", MONO_CPU_X86_AVX2, unsupported, sizeof (unsupported) },
{ "AvxVnni", 0, unsupported, sizeof (unsupported) },
{ "Bmi1", MONO_CPU_X86_BMI1, bmi1_methods, sizeof (bmi1_methods) },
{ "Bmi2", MONO_CPU_X86_BMI2, bmi2_methods, sizeof (bmi2_methods) },
{ "Fma", MONO_CPU_X86_FMA, unsupported, sizeof (unsupported) },
{ "Lzcnt", MONO_CPU_X86_LZCNT, lzcnt_methods, sizeof (lzcnt_methods), TRUE },
{ "Pclmulqdq", MONO_CPU_X86_PCLMUL, pclmulqdq_methods, sizeof (pclmulqdq_methods) },
{ "Popcnt", MONO_CPU_X86_POPCNT, popcnt_methods, sizeof (popcnt_methods), TRUE },
{ "Sse", MONO_CPU_X86_SSE, sse_methods, sizeof (sse_methods) },
{ "Sse2", MONO_CPU_X86_SSE2, sse2_methods, sizeof (sse2_methods) },
{ "Sse3", MONO_CPU_X86_SSE3, sse3_methods, sizeof (sse3_methods) },
{ "Sse41", MONO_CPU_X86_SSE41, sse41_methods, sizeof (sse41_methods) },
{ "Sse42", MONO_CPU_X86_SSE42, sse42_methods, sizeof (sse42_methods) },
{ "Ssse3", MONO_CPU_X86_SSSE3, ssse3_methods, sizeof (ssse3_methods) },
{ "X86Base", 0, x86base_methods, sizeof (x86base_methods) },
};
static MonoInst*
emit_x86_intrinsics (
MonoCompile *cfg, MonoMethodSignature *fsig, MonoInst **args,
MonoClass *klass, const IntrinGroup *intrin_group,
const SimdIntrinsic *info, int id, MonoTypeEnum arg0_type,
gboolean is_64bit)
{
MonoCPUFeatures feature = intrin_group->feature;
const SimdIntrinsic *intrinsics = intrin_group->intrinsics;
if (feature == MONO_CPU_X86_SSE) {
switch (id) {
case SN_Shuffle:
return emit_simd_ins_for_sig (cfg, klass, OP_SSE_SHUFPS, 0, arg0_type, fsig, args);
case SN_ConvertScalarToVector128Single: {
int op = 0;
switch (fsig->params [1]->type) {
case MONO_TYPE_I4: op = OP_SSE_CVTSI2SS; break;
case MONO_TYPE_I8: op = OP_SSE_CVTSI2SS64; break;
default: g_assert_not_reached (); break;
}
return emit_simd_ins_for_sig (cfg, klass, op, 0, 0, fsig, args);
}
case SN_ReciprocalScalar:
case SN_ReciprocalSqrtScalar:
case SN_SqrtScalar: {
int op = 0;
switch (id) {
case SN_ReciprocalScalar: op = OP_SSE_RCPSS; break;
case SN_ReciprocalSqrtScalar: op = OP_SSE_RSQRTSS; break;
case SN_SqrtScalar: op = OP_SSE_SQRTSS; break;
};
if (fsig->param_count == 1)
return emit_simd_ins (cfg, klass, op, args [0]->dreg, args[0]->dreg);
else if (fsig->param_count == 2)
return emit_simd_ins (cfg, klass, op, args [0]->dreg, args[1]->dreg);
else
g_assert_not_reached ();
break;
}
case SN_LoadScalarVector128:
return NULL;
default:
return NULL;
}
}
if (feature == MONO_CPU_X86_SSE2) {
switch (id) {
case SN_Subtract:
return emit_simd_ins_for_sig (cfg, klass, OP_XBINOP, arg0_type == MONO_TYPE_R8 ? OP_FSUB : OP_ISUB, arg0_type, fsig, args);
case SN_Add:
return emit_simd_ins_for_sig (cfg, klass, OP_XBINOP, arg0_type == MONO_TYPE_R8 ? OP_FADD : OP_IADD, arg0_type, fsig, args);
case SN_Average:
if (arg0_type == MONO_TYPE_U1)
return emit_simd_ins_for_sig (cfg, klass, OP_PAVGB_UN, -1, arg0_type, fsig, args);
else if (arg0_type == MONO_TYPE_U2)
return emit_simd_ins_for_sig (cfg, klass, OP_PAVGW_UN, -1, arg0_type, fsig, args);
else
return NULL;
case SN_CompareNotEqual:
return emit_simd_ins_for_sig (cfg, klass, arg0_type == MONO_TYPE_R8 ? OP_XCOMPARE_FP : OP_XCOMPARE, CMP_NE, arg0_type, fsig, args);
case SN_CompareEqual:
return emit_simd_ins_for_sig (cfg, klass, arg0_type == MONO_TYPE_R8 ? OP_XCOMPARE_FP : OP_XCOMPARE, CMP_EQ, arg0_type, fsig, args);
case SN_CompareGreaterThan:
return emit_simd_ins_for_sig (cfg, klass, arg0_type == MONO_TYPE_R8 ? OP_XCOMPARE_FP : OP_XCOMPARE, CMP_GT, arg0_type, fsig, args);
case SN_CompareLessThan:
return emit_simd_ins_for_sig (cfg, klass, arg0_type == MONO_TYPE_R8 ? OP_XCOMPARE_FP : OP_XCOMPARE, CMP_LT, arg0_type, fsig, args);
case SN_ConvertToInt32:
if (arg0_type == MONO_TYPE_R8)
return emit_simd_ins_for_sig (cfg, klass, OP_XOP_I4_X, INTRINS_SSE_CVTSD2SI, arg0_type, fsig, args);
else if (arg0_type == MONO_TYPE_I4)
return emit_simd_ins_for_sig (cfg, klass, OP_EXTRACT_I4, 0, arg0_type, fsig, args);
else
return NULL;
case SN_ConvertToInt64:
if (arg0_type == MONO_TYPE_R8)
return emit_simd_ins_for_sig (cfg, klass, OP_XOP_I8_X, INTRINS_SSE_CVTSD2SI64, arg0_type, fsig, args);
else if (arg0_type == MONO_TYPE_I8)
return emit_simd_ins_for_sig (cfg, klass, OP_EXTRACT_I8, 0 /*element index*/, arg0_type, fsig, args);
else
g_assert_not_reached ();
break;
case SN_ConvertScalarToVector128Double: {
int op = OP_SSE2_CVTSS2SD;
switch (fsig->params [1]->type) {
case MONO_TYPE_I4: op = OP_SSE2_CVTSI2SD; break;
case MONO_TYPE_I8: op = OP_SSE2_CVTSI2SD64; break;
}
return emit_simd_ins_for_sig (cfg, klass, op, 0, 0, fsig, args);
}
case SN_ConvertScalarToVector128Int32:
case SN_ConvertScalarToVector128Int64:
case SN_ConvertScalarToVector128UInt32:
case SN_ConvertScalarToVector128UInt64:
return emit_simd_ins_for_sig (cfg, klass, OP_CREATE_SCALAR, -1, arg0_type, fsig, args);
case SN_ConvertToUInt32:
return emit_simd_ins_for_sig (cfg, klass, OP_EXTRACT_I4, 0 /*element index*/, arg0_type, fsig, args);
case SN_ConvertToUInt64:
return emit_simd_ins_for_sig (cfg, klass, OP_EXTRACT_I8, 0 /*element index*/, arg0_type, fsig, args);
case SN_ConvertToVector128Double:
if (arg0_type == MONO_TYPE_R4)
return emit_simd_ins_for_sig (cfg, klass, OP_CVTPS2PD, 0, arg0_type, fsig, args);
else if (arg0_type == MONO_TYPE_I4)
return emit_simd_ins_for_sig (cfg, klass, OP_CVTDQ2PD, 0, arg0_type, fsig, args);
else
return NULL;
case SN_ConvertToVector128Int32:
if (arg0_type == MONO_TYPE_R4)
return emit_simd_ins_for_sig (cfg, klass, OP_CVTPS2DQ, 0, arg0_type, fsig, args);
else if (arg0_type == MONO_TYPE_R8)
return emit_simd_ins_for_sig (cfg, klass, OP_CVTPD2DQ, 0, arg0_type, fsig, args);
else
return NULL;
case SN_ConvertToVector128Int32WithTruncation:
if (arg0_type == MONO_TYPE_R4)
return emit_simd_ins_for_sig (cfg, klass, OP_CVTTPS2DQ, 0, arg0_type, fsig, args);
else if (arg0_type == MONO_TYPE_R8)
return emit_simd_ins_for_sig (cfg, klass, OP_CVTTPD2DQ, 0, arg0_type, fsig, args);
else
return NULL;
case SN_ConvertToVector128Single:
if (arg0_type == MONO_TYPE_I4)
return emit_simd_ins_for_sig (cfg, klass, OP_CVTDQ2PS, 0, arg0_type, fsig, args);
else if (arg0_type == MONO_TYPE_R8)
return emit_simd_ins_for_sig (cfg, klass, OP_CVTPD2PS, 0, arg0_type, fsig, args);
else
return NULL;
case SN_LoadAlignedVector128:
return emit_simd_ins_for_sig (cfg, klass, OP_SSE_LOADU, 16 /*alignment*/, arg0_type, fsig, args);
case SN_LoadVector128:
return emit_simd_ins_for_sig (cfg, klass, OP_SSE_LOADU, 1 /*alignment*/, arg0_type, fsig, args);
case SN_MoveScalar:
return emit_simd_ins_for_sig (cfg, klass, fsig->param_count == 2 ? OP_SSE_MOVS2 : OP_SSE_MOVS, -1, arg0_type, fsig, args);
case SN_Max:
switch (arg0_type) {
case MONO_TYPE_U1:
return emit_simd_ins_for_sig (cfg, klass, OP_PMAXB_UN, 0, arg0_type, fsig, args);
case MONO_TYPE_I2:
return emit_simd_ins_for_sig (cfg, klass, OP_PMAXW, 0, arg0_type, fsig, args);
case MONO_TYPE_R8: return emit_simd_ins_for_sig (cfg, klass, OP_XOP_X_X_X, INTRINS_SSE_MAXPD, arg0_type, fsig, args);
default:
g_assert_not_reached ();
break;
}
break;
case SN_Min:
switch (arg0_type) {
case MONO_TYPE_U1:
return emit_simd_ins_for_sig (cfg, klass, OP_PMINB_UN, 0, arg0_type, fsig, args);
case MONO_TYPE_I2:
return emit_simd_ins_for_sig (cfg, klass, OP_PMINW, 0, arg0_type, fsig, args);
case MONO_TYPE_R8: return emit_simd_ins_for_sig (cfg, klass, OP_XOP_X_X_X, INTRINS_SSE_MINPD, arg0_type, fsig, args);
default:
g_assert_not_reached ();
break;
}
break;
case SN_Multiply:
if (arg0_type == MONO_TYPE_U4)
return emit_simd_ins_for_sig (cfg, klass, OP_SSE2_PMULUDQ, 0, arg0_type, fsig, args);
else if (arg0_type == MONO_TYPE_R8)
return emit_simd_ins_for_sig (cfg, klass, OP_MULPD, 0, arg0_type, fsig, args);
else
g_assert_not_reached ();
case SN_MultiplyHigh:
if (arg0_type == MONO_TYPE_I2)
return emit_simd_ins_for_sig (cfg, klass, OP_XOP_X_X_X, INTRINS_SSE_PMULHW, arg0_type, fsig, args);
else if (arg0_type == MONO_TYPE_U2)
return emit_simd_ins_for_sig (cfg, klass, OP_XOP_X_X_X, INTRINS_SSE_PMULHUW, arg0_type, fsig, args);
else
g_assert_not_reached ();
case SN_PackSignedSaturate:
if (arg0_type == MONO_TYPE_I2)
return emit_simd_ins_for_sig (cfg, klass, OP_XOP_X_X_X, INTRINS_SSE_PACKSSWB, arg0_type, fsig, args);
else if (arg0_type == MONO_TYPE_I4)
return emit_simd_ins_for_sig (cfg, klass, OP_XOP_X_X_X, INTRINS_SSE_PACKSSDW, arg0_type, fsig, args);
else
g_assert_not_reached ();
case SN_PackUnsignedSaturate:
return emit_simd_ins_for_sig (cfg, klass, OP_SSE2_PACKUS, -1, arg0_type, fsig, args);
case SN_Extract:
g_assert (arg0_type == MONO_TYPE_U2);
return emit_simd_ins_for_sig (cfg, klass, OP_XEXTRACT_I4, 0, arg0_type, fsig, args);
case SN_Insert:
g_assert (arg0_type == MONO_TYPE_I2 || arg0_type == MONO_TYPE_U2);
return emit_simd_ins_for_sig (cfg, klass, OP_XINSERT_I2, 0, arg0_type, fsig, args);
case SN_ShiftRightLogical: {
gboolean is_imm = fsig->params [1]->type == MONO_TYPE_U1;
IntrinsicId op = (IntrinsicId)0;
switch (arg0_type) {
case MONO_TYPE_I2:
case MONO_TYPE_U2:
op = is_imm ? INTRINS_SSE_PSRLI_W : INTRINS_SSE_PSRL_W;
break;
case MONO_TYPE_I4:
case MONO_TYPE_U4:
op = is_imm ? INTRINS_SSE_PSRLI_D : INTRINS_SSE_PSRL_D;
break;
case MONO_TYPE_I8:
case MONO_TYPE_U8:
op = is_imm ? INTRINS_SSE_PSRLI_Q : INTRINS_SSE_PSRL_Q;
break;
default: g_assert_not_reached (); break;
}
return emit_simd_ins_for_sig (cfg, klass, is_imm ? OP_XOP_X_X_I4 : OP_XOP_X_X_X, op, arg0_type, fsig, args);
}
case SN_ShiftRightArithmetic: {
gboolean is_imm = fsig->params [1]->type == MONO_TYPE_U1;
IntrinsicId op = (IntrinsicId)0;
switch (arg0_type) {
case MONO_TYPE_I2:
case MONO_TYPE_U2:
op = is_imm ? INTRINS_SSE_PSRAI_W : INTRINS_SSE_PSRA_W;
break;
case MONO_TYPE_I4:
case MONO_TYPE_U4:
op = is_imm ? INTRINS_SSE_PSRAI_D : INTRINS_SSE_PSRA_D;
break;
default: g_assert_not_reached (); break;
}
return emit_simd_ins_for_sig (cfg, klass, is_imm ? OP_XOP_X_X_I4 : OP_XOP_X_X_X, op, arg0_type, fsig, args);
}
case SN_ShiftLeftLogical: {
gboolean is_imm = fsig->params [1]->type == MONO_TYPE_U1;
IntrinsicId op = (IntrinsicId)0;
switch (arg0_type) {
case MONO_TYPE_I2:
case MONO_TYPE_U2:
op = is_imm ? INTRINS_SSE_PSLLI_W : INTRINS_SSE_PSLL_W;
break;
case MONO_TYPE_I4:
case MONO_TYPE_U4:
op = is_imm ? INTRINS_SSE_PSLLI_D : INTRINS_SSE_PSLL_D;
break;
case MONO_TYPE_I8:
case MONO_TYPE_U8:
op = is_imm ? INTRINS_SSE_PSLLI_Q : INTRINS_SSE_PSLL_Q;
break;
default: g_assert_not_reached (); break;
}
return emit_simd_ins_for_sig (cfg, klass, is_imm ? OP_XOP_X_X_I4 : OP_XOP_X_X_X, op, arg0_type, fsig, args);
}
case SN_ShiftLeftLogical128BitLane:
return emit_simd_ins_for_sig (cfg, klass, OP_SSE2_PSLLDQ, 0, arg0_type, fsig, args);
case SN_ShiftRightLogical128BitLane:
return emit_simd_ins_for_sig (cfg, klass, OP_SSE2_PSRLDQ, 0, arg0_type, fsig, args);
case SN_Shuffle: {
if (fsig->param_count == 2) {
g_assert (arg0_type == MONO_TYPE_I4 || arg0_type == MONO_TYPE_U4);
return emit_simd_ins_for_sig (cfg, klass, OP_SSE2_PSHUFD, 0, arg0_type, fsig, args);
} else if (fsig->param_count == 3) {
g_assert (arg0_type == MONO_TYPE_R8);
return emit_simd_ins_for_sig (cfg, klass, OP_SSE2_SHUFPD, 0, arg0_type, fsig, args);
} else {
g_assert_not_reached ();
break;
}
}
case SN_ShuffleHigh:
g_assert (fsig->param_count == 2);
return emit_simd_ins_for_sig (cfg, klass, OP_SSE2_PSHUFHW, 0, arg0_type, fsig, args);
case SN_ShuffleLow:
g_assert (fsig->param_count == 2);
return emit_simd_ins_for_sig (cfg, klass, OP_SSE2_PSHUFLW, 0, arg0_type, fsig, args);
case SN_SqrtScalar: {
if (fsig->param_count == 1)
return emit_simd_ins (cfg, klass, OP_SSE2_SQRTSD, args [0]->dreg, args[0]->dreg);
else if (fsig->param_count == 2)
return emit_simd_ins (cfg, klass, OP_SSE2_SQRTSD, args [0]->dreg, args[1]->dreg);
else {
g_assert_not_reached ();
break;
}
}
case SN_LoadScalarVector128: {
int op = 0;
switch (arg0_type) {
case MONO_TYPE_I4:
case MONO_TYPE_U4: op = OP_SSE2_MOVD; break;
case MONO_TYPE_I8:
case MONO_TYPE_U8: op = OP_SSE2_MOVQ; break;
case MONO_TYPE_R8: op = OP_SSE2_MOVUPD; break;
default: g_assert_not_reached(); break;
}
return emit_simd_ins_for_sig (cfg, klass, op, 0, 0, fsig, args);
}
default:
return NULL;
}
}
if (feature == MONO_CPU_X86_SSE3) {
switch (id) {
case SN_AddSubtract:
if (arg0_type == MONO_TYPE_R4)
return emit_simd_ins_for_sig (cfg, klass, OP_XOP_X_X_X, INTRINS_SSE_ADDSUBPS, arg0_type, fsig, args);
else if (arg0_type == MONO_TYPE_R8)
return emit_simd_ins_for_sig (cfg, klass, OP_XOP_X_X_X, INTRINS_SSE_ADDSUBPD, arg0_type, fsig, args);
else
g_assert_not_reached ();
break;
case SN_HorizontalAdd:
if (arg0_type == MONO_TYPE_R4)
return emit_simd_ins_for_sig (cfg, klass, OP_XOP_X_X_X, INTRINS_SSE_HADDPS, arg0_type, fsig, args);
else if (arg0_type == MONO_TYPE_R8)
return emit_simd_ins_for_sig (cfg, klass, OP_XOP_X_X_X, INTRINS_SSE_HADDPD, arg0_type, fsig, args);
else
g_assert_not_reached ();
break;
case SN_HorizontalSubtract:
if (arg0_type == MONO_TYPE_R4)
return emit_simd_ins_for_sig (cfg, klass, OP_XOP_X_X_X, INTRINS_SSE_HSUBPS, arg0_type, fsig, args);
else if (arg0_type == MONO_TYPE_R8)
return emit_simd_ins_for_sig (cfg, klass, OP_XOP_X_X_X, INTRINS_SSE_HSUBPD, arg0_type, fsig, args);
else
g_assert_not_reached ();
break;
default:
g_assert_not_reached ();
break;
}
}
if (feature == MONO_CPU_X86_SSSE3) {
switch (id) {
case SN_AlignRight:
return emit_simd_ins_for_sig (cfg, klass, OP_SSSE3_ALIGNR, 0, arg0_type, fsig, args);
case SN_HorizontalAdd:
if (arg0_type == MONO_TYPE_I2)
return emit_simd_ins_for_sig (cfg, klass, OP_XOP_X_X_X, INTRINS_SSE_PHADDW, arg0_type, fsig, args);
return emit_simd_ins_for_sig (cfg, klass, OP_XOP_X_X_X, INTRINS_SSE_PHADDD, arg0_type, fsig, args);
case SN_HorizontalSubtract:
if (arg0_type == MONO_TYPE_I2)
return emit_simd_ins_for_sig (cfg, klass, OP_XOP_X_X_X, INTRINS_SSE_PHSUBW, arg0_type, fsig, args);
return emit_simd_ins_for_sig (cfg, klass, OP_XOP_X_X_X, INTRINS_SSE_PHSUBD, arg0_type, fsig, args);
case SN_Sign:
if (arg0_type == MONO_TYPE_I1)
return emit_simd_ins_for_sig (cfg, klass, OP_XOP_X_X_X, INTRINS_SSE_PSIGNB, arg0_type, fsig, args);
if (arg0_type == MONO_TYPE_I2)
return emit_simd_ins_for_sig (cfg, klass, OP_XOP_X_X_X, INTRINS_SSE_PSIGNW, arg0_type, fsig, args);
return emit_simd_ins_for_sig (cfg, klass, OP_XOP_X_X_X, INTRINS_SSE_PSIGND, arg0_type, fsig, args);
default:
g_assert_not_reached ();
break;
}
}
if (feature == MONO_CPU_X86_SSE41) {
switch (id) {
case SN_DotProduct: {
int op = 0;
switch (arg0_type) {
case MONO_TYPE_R4: op = OP_SSE41_DPPS; break;
case MONO_TYPE_R8: op = OP_SSE41_DPPD; break;
default: g_assert_not_reached (); break;
}
return emit_simd_ins_for_sig (cfg, klass, op, 0, arg0_type, fsig, args);
}
case SN_MultipleSumAbsoluteDifferences:
return emit_simd_ins_for_sig (cfg, klass, OP_SSE41_MPSADBW, 0, arg0_type, fsig, args);
case SN_Blend:
return emit_simd_ins_for_sig (cfg, klass, OP_SSE41_BLEND, 0, arg0_type, fsig, args);
case SN_BlendVariable:
return emit_simd_ins_for_sig (cfg, klass, OP_SSE41_BLENDV, -1, arg0_type, fsig, args);
case SN_Extract: {
int op = 0;
switch (arg0_type) {
case MONO_TYPE_U1: op = OP_XEXTRACT_I1; break;
case MONO_TYPE_U4: case MONO_TYPE_I4: op = OP_XEXTRACT_I4; break;
case MONO_TYPE_U8: case MONO_TYPE_I8: op = OP_XEXTRACT_I8; break;
case MONO_TYPE_R4: op = OP_XEXTRACT_R4; break;
case MONO_TYPE_I:
case MONO_TYPE_U:
#if TARGET_SIZEOF_VOID_P == 8
op = OP_XEXTRACT_I8;
#else
op = OP_XEXTRACT_I4;
#endif
break;
default: g_assert_not_reached(); break;
}
return emit_simd_ins_for_sig (cfg, klass, op, 0, arg0_type, fsig, args);
}
case SN_Insert: {
int op = arg0_type == MONO_TYPE_R4 ? OP_SSE41_INSERTPS : type_to_xinsert_op (arg0_type);
return emit_simd_ins_for_sig (cfg, klass, op, -1, arg0_type, fsig, args);
}
case SN_CeilingScalar:
case SN_FloorScalar:
case SN_RoundCurrentDirectionScalar:
case SN_RoundToNearestIntegerScalar:
case SN_RoundToNegativeInfinityScalar:
case SN_RoundToPositiveInfinityScalar:
case SN_RoundToZeroScalar:
if (fsig->param_count == 2) {
return emit_simd_ins_for_sig (cfg, klass, OP_SSE41_ROUNDS, info->default_instc0, arg0_type, fsig, args);
} else {
MonoInst* ins = emit_simd_ins (cfg, klass, OP_SSE41_ROUNDS, args [0]->dreg, args [0]->dreg);
ins->inst_c0 = info->default_instc0;
ins->inst_c1 = arg0_type;
return ins;
}
break;
default:
g_assert_not_reached ();
break;
}
}
if (feature == MONO_CPU_X86_SSE42) {
switch (id) {
case SN_Crc32: {
MonoTypeEnum arg1_type = get_underlying_type (fsig->params [1]);
return emit_simd_ins_for_sig (cfg, klass,
arg1_type == MONO_TYPE_U8 ? OP_SSE42_CRC64 : OP_SSE42_CRC32,
arg1_type, arg0_type, fsig, args);
}
default:
g_assert_not_reached ();
break;
}
}
if (feature == MONO_CPU_X86_PCLMUL) {
switch (id) {
case SN_CarrylessMultiply: {
return emit_simd_ins_for_sig (cfg, klass, OP_PCLMULQDQ, 0, arg0_type, fsig, args);
}
default:
g_assert_not_reached ();
break;
}
}
if (feature == MONO_CPU_X86_AES) {
switch (id) {
case SN_KeygenAssist: {
return emit_simd_ins_for_sig (cfg, klass, OP_AES_KEYGENASSIST, 0, arg0_type, fsig, args);
}
default:
g_assert_not_reached ();
break;
}
}
MonoInst *ins = NULL;
if (feature == MONO_CPU_X86_POPCNT) {
switch (id) {
case SN_PopCount:
MONO_INST_NEW (cfg, ins, is_64bit ? OP_POPCNT64 : OP_POPCNT32);
ins->dreg = is_64bit ? alloc_lreg (cfg) : alloc_ireg (cfg);
ins->sreg1 = args [0]->dreg;
ins->type = is_64bit ? STACK_I8 : STACK_I4;
MONO_ADD_INS (cfg->cbb, ins);
return ins;
default:
return NULL;
}
}
if (feature == MONO_CPU_X86_LZCNT) {
switch (id) {
case SN_LeadingZeroCount:
return emit_simd_ins_for_sig (cfg, klass, is_64bit ? OP_LZCNT64 : OP_LZCNT32, 0, arg0_type, fsig, args);
default:
return NULL;
}
}
if (feature == MONO_CPU_X86_BMI1) {
switch (id) {
case SN_AndNot: {
// (a ^ -1) & b
// LLVM replaces it with `andn`
int tmp_reg = is_64bit ? alloc_lreg (cfg) : alloc_ireg (cfg);
int result_reg = is_64bit ? alloc_lreg (cfg) : alloc_ireg (cfg);
EMIT_NEW_BIALU_IMM (cfg, ins, is_64bit ? OP_LXOR_IMM : OP_IXOR_IMM, tmp_reg, args [0]->dreg, -1);
EMIT_NEW_BIALU (cfg, ins, is_64bit ? OP_LAND : OP_IAND, result_reg, tmp_reg, args [1]->dreg);
return ins;
}
case SN_BitFieldExtract: {
int ctlreg = args [1]->dreg;
if (fsig->param_count == 2) {
} else if (fsig->param_count == 3) {
MonoInst *ins = NULL;
/* This intrinsic is also implemented in managed code.
* TODO: remove this if cross-AOT-assembly inlining works
*/
int startreg = args [1]->dreg;
int lenreg = args [2]->dreg;
int dreg1 = alloc_ireg (cfg);
EMIT_NEW_BIALU_IMM (cfg, ins, OP_SHL_IMM, dreg1, lenreg, 8);
int dreg2 = alloc_ireg (cfg);
EMIT_NEW_BIALU (cfg, ins, OP_IOR, dreg2, startreg, dreg1);
ctlreg = dreg2;
} else {
g_assert_not_reached ();
}
return emit_simd_ins (cfg, klass, is_64bit ? OP_BMI1_BEXTR64 : OP_BMI1_BEXTR32, args [0]->dreg, ctlreg);
}
case SN_GetMaskUpToLowestSetBit: {
// x ^ (x - 1)
// LLVM replaces it with `blsmsk`
int tmp_reg = is_64bit ? alloc_lreg (cfg) : alloc_ireg (cfg);
int result_reg = is_64bit ? alloc_lreg (cfg) : alloc_ireg (cfg);
EMIT_NEW_BIALU_IMM (cfg, ins, is_64bit ? OP_LSUB_IMM : OP_ISUB_IMM, tmp_reg, args [0]->dreg, 1);
EMIT_NEW_BIALU (cfg, ins, is_64bit ? OP_LXOR : OP_IXOR, result_reg, args [0]->dreg, tmp_reg);
return ins;
}
case SN_ResetLowestSetBit: {
// x & (x - 1)
// LLVM replaces it with `blsr`
int tmp_reg = is_64bit ? alloc_lreg (cfg) : alloc_ireg (cfg);
int result_reg = is_64bit ? alloc_lreg (cfg) : alloc_ireg (cfg);
EMIT_NEW_BIALU_IMM (cfg, ins, is_64bit ? OP_LSUB_IMM : OP_ISUB_IMM, tmp_reg, args [0]->dreg, 1);
EMIT_NEW_BIALU (cfg, ins, is_64bit ? OP_LAND : OP_IAND, result_reg, args [0]->dreg, tmp_reg);
return ins;
}
case SN_ExtractLowestSetBit: {
// x & (0 - x)
// LLVM replaces it with `blsi`
int tmp_reg = is_64bit ? alloc_lreg (cfg) : alloc_ireg (cfg);
int result_reg = is_64bit ? alloc_lreg (cfg) : alloc_ireg (cfg);
int zero_reg = is_64bit ? alloc_lreg (cfg) : alloc_ireg (cfg);
MONO_EMIT_NEW_ICONST (cfg, zero_reg, 0);
EMIT_NEW_BIALU (cfg, ins, is_64bit ? OP_LSUB : OP_ISUB, tmp_reg, zero_reg, args [0]->dreg);
EMIT_NEW_BIALU (cfg, ins, is_64bit ? OP_LAND : OP_IAND, result_reg, args [0]->dreg, tmp_reg);
return ins;
}
case SN_TrailingZeroCount:
MONO_INST_NEW (cfg, ins, is_64bit ? OP_CTTZ64 : OP_CTTZ32);
ins->dreg = is_64bit ? alloc_lreg (cfg) : alloc_ireg (cfg);
ins->sreg1 = args [0]->dreg;
ins->type = is_64bit ? STACK_I8 : STACK_I4;
MONO_ADD_INS (cfg->cbb, ins);
return ins;
default:
g_assert_not_reached ();
}
}
if (feature == MONO_CPU_X86_BMI2) {
switch (id) {
case SN_MultiplyNoFlags: {
int op = 0;
if (fsig->param_count == 2) {
op = is_64bit ? OP_MULX_H64 : OP_MULX_H32;
} else if (fsig->param_count == 3) {
op = is_64bit ? OP_MULX_HL64 : OP_MULX_HL32;
} else {
g_assert_not_reached ();
}
return emit_simd_ins_for_sig (cfg, klass, op, 0, 0, fsig, args);
}
case SN_ZeroHighBits:
MONO_INST_NEW (cfg, ins, is_64bit ? OP_BZHI64 : OP_BZHI32);
ins->dreg = is_64bit ? alloc_lreg (cfg) : alloc_ireg (cfg);
ins->sreg1 = args [0]->dreg;
ins->sreg2 = args [1]->dreg;
ins->type = is_64bit ? STACK_I8 : STACK_I4;
MONO_ADD_INS (cfg->cbb, ins);
return ins;
case SN_ParallelBitExtract:
MONO_INST_NEW (cfg, ins, is_64bit ? OP_PEXT64 : OP_PEXT32);
ins->dreg = is_64bit ? alloc_lreg (cfg) : alloc_ireg (cfg);
ins->sreg1 = args [0]->dreg;
ins->sreg2 = args [1]->dreg;
ins->type = is_64bit ? STACK_I8 : STACK_I4;
MONO_ADD_INS (cfg->cbb, ins);
return ins;
case SN_ParallelBitDeposit:
MONO_INST_NEW (cfg, ins, is_64bit ? OP_PDEP64 : OP_PDEP32);
ins->dreg = is_64bit ? alloc_lreg (cfg) : alloc_ireg (cfg);
ins->sreg1 = args [0]->dreg;
ins->sreg2 = args [1]->dreg;
ins->type = is_64bit ? STACK_I8 : STACK_I4;
MONO_ADD_INS (cfg->cbb, ins);
return ins;
default:
g_assert_not_reached ();
}
}
if (intrinsics == x86base_methods) {
switch (id) {
case SN_BitScanForward:
MONO_INST_NEW (cfg, ins, is_64bit ? OP_X86_BSF64 : OP_X86_BSF32);
ins->dreg = is_64bit ? alloc_lreg (cfg) : alloc_ireg (cfg);
ins->sreg1 = args [0]->dreg;
ins->type = is_64bit ? STACK_I8 : STACK_I4;
MONO_ADD_INS (cfg->cbb, ins);
return ins;
case SN_BitScanReverse:
MONO_INST_NEW (cfg, ins, is_64bit ? OP_X86_BSR64 : OP_X86_BSR32);
ins->dreg = is_64bit ? alloc_lreg (cfg) : alloc_ireg (cfg);
ins->sreg1 = args [0]->dreg;
ins->type = is_64bit ? STACK_I8 : STACK_I4;
MONO_ADD_INS (cfg->cbb, ins);
return ins;
default:
g_assert_not_reached ();
}
}
return NULL;
}
static guint16 vector_256_t_methods [] = {
SN_get_Count,
};
static MonoInst*
emit_vector256_t (MonoCompile *cfg, MonoMethod *cmethod, MonoMethodSignature *fsig, MonoInst **args)
{
MonoInst *ins;
MonoType *etype;
MonoClass *klass;
int size, len, id;
id = lookup_intrins (vector_256_t_methods, sizeof (vector_256_t_methods), cmethod);
if (id == -1) {
//check_no_intrinsic_cattr (cmethod);
return NULL;
}
klass = cmethod->klass;
etype = mono_class_get_context (klass)->class_inst->type_argv [0];
size = mono_class_value_size (mono_class_from_mono_type_internal (etype), NULL);
g_assert (size);
len = 32 / size;
if (!MONO_TYPE_IS_PRIMITIVE (etype) || etype->type == MONO_TYPE_CHAR || etype->type == MONO_TYPE_BOOLEAN || etype->type == MONO_TYPE_I || etype->type == MONO_TYPE_U)
return NULL;
if (cfg->verbose_level > 1) {
char *name = mono_method_full_name (cmethod, TRUE);
printf (" SIMD intrinsic %s\n", name);
g_free (name);
}
switch (id) {
case SN_get_Count:
if (!(fsig->param_count == 0 && fsig->ret->type == MONO_TYPE_I4))
break;
EMIT_NEW_ICONST (cfg, ins, len);
return ins;
default:
break;
}
return NULL;
}
static
MonoInst*
emit_amd64_intrinsics (const char *class_ns, const char *class_name, MonoCompile *cfg, MonoMethod *cmethod, MonoMethodSignature *fsig, MonoInst **args)
{
if (!strcmp (class_ns, "System.Runtime.Intrinsics.X86")) {
return emit_hardware_intrinsics (cfg, cmethod, fsig, args,
supported_x86_intrinsics, sizeof (supported_x86_intrinsics),
emit_x86_intrinsics);
}
if (!strcmp (class_ns, "System.Runtime.Intrinsics")) {
if (!strcmp (class_name, "Vector256`1"))
return emit_vector256_t (cfg, cmethod, fsig, args);
}
if (!strcmp (class_ns, "System.Numerics")) {
if (!strcmp (class_name, "Vector"))
return emit_sys_numerics_vector (cfg, cmethod, fsig, args);
if (!strcmp (class_name, "Vector`1"))
return emit_sys_numerics_vector_t (cfg, cmethod, fsig, args);
}
return NULL;
}
#endif // !TARGET_ARM64
#ifdef TARGET_ARM64
static
MonoInst*
emit_simd_intrinsics (const char *class_ns, const char *class_name, MonoCompile *cfg, MonoMethod *cmethod, MonoMethodSignature *fsig, MonoInst **args)
{
// FIXME: implement Vector64<T>, Vector128<T> and Vector<T> for Arm64
if (!strcmp (class_ns, "System.Runtime.Intrinsics.Arm")) {
return emit_hardware_intrinsics(cfg, cmethod, fsig, args,
supported_arm_intrinsics, sizeof (supported_arm_intrinsics),
emit_arm64_intrinsics);
}
return NULL;
}
#elif TARGET_AMD64
// TODO: test and enable for x86 too
static
MonoInst*
emit_simd_intrinsics (const char *class_ns, const char *class_name, MonoCompile *cfg, MonoMethod *cmethod, MonoMethodSignature *fsig, MonoInst **args)
{
MonoInst *simd_inst = emit_amd64_intrinsics (class_ns, class_name, cfg, cmethod, fsig, args);
if (simd_inst != NULL)
cfg->uses_simd_intrinsics |= MONO_CFG_USES_SIMD_INTRINSICS;
return simd_inst;
}
#else
static
MonoInst*
emit_simd_intrinsics (const char *class_ns, const char *class_name, MonoCompile *cfg, MonoMethod *cmethod, MonoMethodSignature *fsig, MonoInst **args)
{
return NULL;
}
#endif
MonoInst*
mono_emit_simd_intrinsics (MonoCompile *cfg, MonoMethod *cmethod, MonoMethodSignature *fsig, MonoInst **args)
{
const char *class_name;
const char *class_ns;
MonoImage *image = m_class_get_image (cmethod->klass);
if (image != mono_get_corlib ())
return NULL;
class_ns = m_class_get_name_space (cmethod->klass);
class_name = m_class_get_name (cmethod->klass);
// If cmethod->klass is nested, the namespace is on the enclosing class.
if (m_class_get_nested_in (cmethod->klass))
class_ns = m_class_get_name_space (m_class_get_nested_in (cmethod->klass));
#if defined(TARGET_ARM64) || defined(TARGET_AMD64)
if (!strcmp (class_ns, "System.Runtime.Intrinsics")) {
if (!strcmp (class_name, "Vector128") || !strcmp (class_name, "Vector64"))
return emit_sri_vector (cfg, cmethod, fsig, args);
}
if (!strcmp (class_ns, "System.Runtime.Intrinsics")) {
if (!strcmp (class_name, "Vector128`1") || !strcmp (class_name, "Vector64`1"))
return emit_vector64_vector128_t (cfg, cmethod, fsig, args);
}
#endif // defined(TARGET_ARM64) || defined(TARGET_AMD64)
#if defined(TARGET_ARM64)
if (!strcmp (class_ns, "System.Numerics") && !strcmp (class_name, "Vector")){
return emit_sri_vector (cfg, cmethod, fsig, args);
}
#endif // defined(TARGET_ARM64)
return emit_simd_intrinsics (class_ns, class_name, cfg, cmethod, fsig, args);
}
/*
* Windows x64 value type ABI uses reg/stack references (ArgValuetypeAddrInIReg/ArgValuetypeAddrOnStack)
* for function arguments. When using SIMD intrinsics arguments optimized into OP_ARG needs to be decomposed
* into correspondig SIMD LOADX/STOREX instructions.
*/
#if defined(TARGET_WIN32) && defined(TARGET_AMD64)
static gboolean
decompose_vtype_opt_uses_simd_intrinsics (MonoCompile *cfg, MonoInst *ins)
{
if (cfg->uses_simd_intrinsics & MONO_CFG_USES_SIMD_INTRINSICS)
return TRUE;
switch (ins->opcode) {
case OP_XMOVE:
case OP_XZERO:
case OP_XPHI:
case OP_LOADX_MEMBASE:
case OP_LOADX_ALIGNED_MEMBASE:
case OP_STOREX_MEMBASE:
case OP_STOREX_ALIGNED_MEMBASE_REG:
return TRUE;
default:
return FALSE;
}
}
static void
decompose_vtype_opt_load_arg (MonoCompile *cfg, MonoBasicBlock *bb, MonoInst *ins, gint32 *sreg_int32)
{
guint32 *sreg = (guint32*)sreg_int32;
MonoInst *src_var = get_vreg_to_inst (cfg, *sreg);
if (src_var && src_var->opcode == OP_ARG && src_var->klass && MONO_CLASS_IS_SIMD (cfg, src_var->klass)) {
MonoInst *varload_ins, *load_ins;
NEW_VARLOADA (cfg, varload_ins, src_var, src_var->inst_vtype);
mono_bblock_insert_before_ins (bb, ins, varload_ins);
MONO_INST_NEW (cfg, load_ins, OP_LOADX_MEMBASE);
load_ins->klass = src_var->klass;
load_ins->type = STACK_VTYPE;
load_ins->sreg1 = varload_ins->dreg;
load_ins->dreg = alloc_xreg (cfg);
mono_bblock_insert_after_ins (bb, varload_ins, load_ins);
*sreg = load_ins->dreg;
}
}
static void
decompose_vtype_opt_store_arg (MonoCompile *cfg, MonoBasicBlock *bb, MonoInst *ins, gint32 *dreg_int32)
{
guint32 *dreg = (guint32*)dreg_int32;
MonoInst *dest_var = get_vreg_to_inst (cfg, *dreg);
if (dest_var && dest_var->opcode == OP_ARG && dest_var->klass && MONO_CLASS_IS_SIMD (cfg, dest_var->klass)) {
MonoInst *varload_ins, *store_ins;
*dreg = alloc_xreg (cfg);
NEW_VARLOADA (cfg, varload_ins, dest_var, dest_var->inst_vtype);
mono_bblock_insert_after_ins (bb, ins, varload_ins);
MONO_INST_NEW (cfg, store_ins, OP_STOREX_MEMBASE);
store_ins->klass = dest_var->klass;
store_ins->type = STACK_VTYPE;
store_ins->sreg1 = *dreg;
store_ins->dreg = varload_ins->dreg;
mono_bblock_insert_after_ins (bb, varload_ins, store_ins);
}
}
void
mono_simd_decompose_intrinsic (MonoCompile *cfg, MonoBasicBlock *bb, MonoInst *ins)
{
if ((cfg->opt & MONO_OPT_SIMD) && decompose_vtype_opt_uses_simd_intrinsics(cfg, ins)) {
const char *spec = INS_INFO (ins->opcode);
if (spec [MONO_INST_SRC1] == 'x')
decompose_vtype_opt_load_arg (cfg, bb, ins, &(ins->sreg1));
if (spec [MONO_INST_SRC2] == 'x')
decompose_vtype_opt_load_arg (cfg, bb, ins, &(ins->sreg2));
if (spec [MONO_INST_SRC3] == 'x')
decompose_vtype_opt_load_arg (cfg, bb, ins, &(ins->sreg3));
if (spec [MONO_INST_DEST] == 'x')
decompose_vtype_opt_store_arg (cfg, bb, ins, &(ins->dreg));
}
}
#else
void
mono_simd_decompose_intrinsic (MonoCompile *cfg, MonoBasicBlock *bb, MonoInst *ins)
{
}
#endif /*defined(TARGET_WIN32) && defined(TARGET_AMD64)*/
void
mono_simd_simplify_indirection (MonoCompile *cfg)
{
}
#endif /* DISABLE_JIT */
#endif /* MONO_ARCH_SIMD_INTRINSICS */
#if defined(TARGET_AMD64)
void
ves_icall_System_Runtime_Intrinsics_X86_X86Base___cpuidex (int abcd[4], int function_id, int subfunction_id)
{
#ifndef MONO_CROSS_COMPILE
mono_hwcap_x86_call_cpuidex (function_id, subfunction_id,
&abcd [0], &abcd [1], &abcd [2], &abcd [3]);
#endif
}
#endif
MONO_EMPTY_SOURCE_FILE (simd_intrinsics_netcore);
| 1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/mono/mono/mini/simd-methods.h
|
METHOD2(".ctor", ctor)
METHOD(CopyTo)
METHOD(Equals)
METHOD(GreaterThan)
METHOD(GreaterThanAll)
METHOD(GreaterThanAny)
METHOD(GreaterThanOrEqual)
METHOD(GreaterThanOrEqualAll)
METHOD(GreaterThanOrEqualAny)
METHOD(LessThan)
METHOD(LessThanAll)
METHOD(LessThanAny)
METHOD(LessThanOrEqual)
METHOD(LessThanOrEqualAll)
METHOD(LessThanOrEqualAny)
METHOD(Min)
METHOD(Max)
METHOD(MinScalar)
METHOD(MaxScalar)
METHOD(PopCount)
METHOD(LeadingZeroCount)
METHOD(get_Count)
METHOD(get_IsHardwareAccelerated)
METHOD(get_IsSupported)
METHOD(get_AllBitsSet)
METHOD(get_Item)
METHOD(get_One)
METHOD(get_Zero)
METHOD(op_Addition)
METHOD(op_BitwiseAnd)
METHOD(op_BitwiseOr)
METHOD(op_Division)
METHOD(op_Equality)
METHOD(op_ExclusiveOr)
METHOD(op_Explicit)
METHOD(op_Inequality)
METHOD(op_Multiply)
METHOD(op_OnesComplement)
METHOD(op_Subtraction)
METHOD(op_UnaryNegation)
// Vector
METHOD(ConvertToInt32)
METHOD(ConvertToInt32WithTruncation)
METHOD(ConvertToUInt32)
METHOD(ConvertToInt64)
METHOD(ConvertToInt64WithTruncation)
METHOD(ConvertToUInt64)
METHOD(ConvertToSingle)
METHOD(ConvertToDouble)
METHOD(Narrow)
METHOD(Widen)
// Vector64, Vector128, Vector256
METHOD(As)
METHOD(AsByte)
METHOD(AsDouble)
METHOD(AsInt16)
METHOD(AsInt32)
METHOD(AsInt64)
METHOD(AsSByte)
METHOD(AsSingle)
METHOD(AsUInt16)
METHOD(AsUInt32)
METHOD(AsUInt64)
METHOD(AsVector128)
METHOD(AsVector2)
METHOD(AsVector256)
METHOD(AsVector3)
METHOD(AsVector4)
METHOD(BitwiseAnd)
METHOD(BitwiseOr)
METHOD(Create)
METHOD(CreateScalar)
METHOD(CreateScalarUnsafe)
METHOD(ConditionalSelect)
METHOD(EqualsAll)
METHOD(EqualsAny)
METHOD(GetElement)
METHOD(GetLower)
METHOD(GetUpper)
METHOD(ToScalar)
METHOD(ToVector128)
METHOD(ToVector128Unsafe)
METHOD(ToVector256)
METHOD(ToVector256Unsafe)
METHOD(WithElement)
METHOD(WithLower)
METHOD(WithUpper)
// Bmi1
METHOD(AndNot)
METHOD(BitFieldExtract)
METHOD(ExtractLowestSetBit)
METHOD(GetMaskUpToLowestSetBit)
METHOD(ResetLowestSetBit)
METHOD(TrailingZeroCount)
// Bmi2
METHOD(ZeroHighBits)
METHOD(MultiplyNoFlags)
METHOD(ParallelBitDeposit)
METHOD(ParallelBitExtract)
// Sse
METHOD(Add)
METHOD(CompareGreaterThanOrEqual)
METHOD(CompareLessThanOrEqual)
METHOD(CompareNotEqual)
METHOD(CompareNotGreaterThan)
METHOD(CompareNotGreaterThanOrEqual)
METHOD(CompareNotLessThan)
METHOD(CompareNotLessThanOrEqual)
METHOD(CompareScalarGreaterThan)
METHOD(CompareScalarGreaterThanOrEqual)
METHOD(CompareScalarLessThan)
METHOD(CompareScalarLessThanOrEqual)
METHOD(CompareScalarNotEqual)
METHOD(CompareScalarNotGreaterThan)
METHOD(CompareScalarNotGreaterThanOrEqual)
METHOD(CompareScalarNotLessThan)
METHOD(CompareScalarNotLessThanOrEqual)
METHOD(CompareScalarOrderedEqual)
METHOD(CompareScalarOrderedGreaterThan)
METHOD(CompareScalarOrderedGreaterThanOrEqual)
METHOD(CompareScalarOrderedLessThan)
METHOD(CompareScalarOrderedLessThanOrEqual)
METHOD(CompareScalarOrderedNotEqual)
METHOD(CompareScalarUnorderedEqual)
METHOD(CompareScalarUnorderedGreaterThan)
METHOD(CompareScalarUnorderedGreaterThanOrEqual)
METHOD(CompareScalarUnorderedLessThan)
METHOD(CompareScalarUnorderedLessThanOrEqual)
METHOD(CompareScalarUnorderedNotEqual)
METHOD(CompareOrdered)
METHOD(CompareUnordered)
METHOD(CompareScalarOrdered)
METHOD(CompareScalarUnordered)
METHOD(ConvertScalarToVector128Single)
METHOD(Divide)
METHOD(DivideScalar)
METHOD(Store)
METHOD(StoreFence)
METHOD(StoreHigh)
METHOD(StoreLow)
METHOD(Subtract)
METHOD(SubtractScalar)
METHOD(CompareEqual)
METHOD(Extract)
METHOD(LoadHigh)
METHOD(LoadLow)
METHOD(LoadVector128)
METHOD(LoadScalarVector128)
METHOD(MoveHighToLow)
METHOD(MoveLowToHigh)
METHOD(MoveMask)
METHOD(MoveScalar)
METHOD(Multiply)
METHOD(MultiplyAddAdjacent)
METHOD(MultiplyScalar)
METHOD(Shuffle)
METHOD(UnpackHigh)
METHOD(UnpackLow)
METHOD(Prefetch0)
METHOD(Prefetch1)
METHOD(Prefetch2)
METHOD(PrefetchNonTemporal)
METHOD(Reciprocal)
METHOD(ReciprocalScalar)
METHOD(ReciprocalSqrt)
METHOD(ReciprocalSqrtScalar)
METHOD(Sqrt)
METHOD(SqrtScalar)
// Sse2
METHOD(AddSaturate)
METHOD(AddScalar)
METHOD(And)
METHOD(Average)
METHOD(Or)
METHOD(LoadAlignedVector128)
METHOD(Xor)
METHOD(CompareGreaterThan)
METHOD(CompareScalarEqual)
METHOD(ConvertScalarToVector128Double)
METHOD(ConvertScalarToVector128Int32)
METHOD(ConvertScalarToVector128Int64)
METHOD(ConvertScalarToVector128UInt32)
METHOD(ConvertScalarToVector128UInt64)
METHOD(ConvertToVector128Double)
METHOD(ConvertToVector128Int32)
METHOD(ConvertToVector128Int32WithTruncation)
METHOD(ConvertToVector128Single)
METHOD(MaskMove)
METHOD(MultiplyHigh)
METHOD(MultiplyLow)
METHOD(PackSignedSaturate)
METHOD(PackUnsignedSaturate)
METHOD(ShuffleHigh)
METHOD(ShuffleLow)
METHOD(SubtractSaturate)
METHOD(SumAbsoluteDifferences)
METHOD(StoreScalar)
METHOD(StoreAligned)
METHOD(StoreAlignedNonTemporal)
METHOD(StoreNonTemporal)
METHOD(ShiftLeftLogical)
METHOD(ShiftLeftLogical128BitLane)
METHOD(ShiftRightArithmetic)
METHOD(ShiftRightLogical)
METHOD(ShiftRightLogical128BitLane)
METHOD(CompareLessThan)
METHOD(LoadFence)
METHOD(MemoryFence)
// Sse3
METHOD(HorizontalAdd)
METHOD(HorizontalSubtract)
METHOD(AddSubtract)
METHOD(LoadAndDuplicateToVector128)
METHOD(LoadDquVector128)
METHOD(MoveAndDuplicate)
METHOD(MoveHighAndDuplicate)
METHOD(MoveLowAndDuplicate)
// Ssse3
METHOD(Abs) // Also used by ARM64
METHOD(AlignRight)
METHOD(HorizontalAddSaturate)
METHOD(HorizontalSubtractSaturate)
METHOD(MultiplyHighRoundScale)
METHOD(Sign)
// Sse41
METHOD(Blend)
METHOD(BlendVariable)
METHOD(Ceiling)
METHOD(CeilingScalar)
METHOD(ConvertToVector128Int16)
METHOD(ConvertToVector128Int64)
METHOD(Floor)
METHOD(FloorScalar)
METHOD(Insert)
METHOD(LoadAlignedVector128NonTemporal)
METHOD(RoundCurrentDirectionScalar)
METHOD(RoundToNearestInteger)
METHOD(RoundToNearestIntegerScalar)
METHOD(RoundToNegativeInfinity)
METHOD(RoundToNegativeInfinityScalar)
METHOD(RoundToPositiveInfinity)
METHOD(RoundToPositiveInfinityScalar)
METHOD(RoundToZero)
METHOD(RoundToZeroScalar)
METHOD(RoundCurrentDirection)
METHOD(MinHorizontal)
METHOD(TestC)
METHOD(TestNotZAndNotC)
METHOD(TestZ)
METHOD(DotProduct)
METHOD(MultipleSumAbsoluteDifferences)
// Sse42
METHOD(Crc32)
// Aes
METHOD(Decrypt)
METHOD(DecryptLast)
METHOD(Encrypt)
METHOD(EncryptLast)
METHOD(InverseMixColumns)
METHOD(KeygenAssist)
METHOD(PolynomialMultiplyWideningLower)
METHOD(PolynomialMultiplyWideningUpper)
// Pclmulqdq
METHOD(CarrylessMultiply)
// ArmBase
METHOD(LeadingSignCount)
METHOD(ReverseElementBits)
// Crc32
METHOD(ComputeCrc32)
METHOD(ComputeCrc32C)
// X86Base
METHOD(BitScanForward)
METHOD(BitScanReverse)
// Crypto
METHOD(FixedRotate)
METHOD(HashUpdateChoose)
METHOD(HashUpdateMajority)
METHOD(HashUpdateParity)
METHOD(HashUpdate1)
METHOD(HashUpdate2)
METHOD(ScheduleUpdate0)
METHOD(ScheduleUpdate1)
METHOD(MixColumns)
// AdvSimd
METHOD(AbsSaturate)
METHOD(AbsSaturateScalar)
METHOD(AbsScalar)
METHOD(AbsoluteCompareGreaterThan)
METHOD(AbsoluteCompareGreaterThanOrEqual)
METHOD(AbsoluteCompareGreaterThanOrEqualScalar)
METHOD(AbsoluteCompareGreaterThanScalar)
METHOD(AbsoluteCompareLessThan)
METHOD(AbsoluteCompareLessThanOrEqual)
METHOD(AbsoluteCompareLessThanOrEqualScalar)
METHOD(AbsoluteCompareLessThanScalar)
METHOD(AbsoluteDifference)
METHOD(AbsoluteDifferenceAdd)
METHOD(AbsoluteDifferenceScalar)
METHOD(AbsoluteDifferenceWideningLower)
METHOD(AbsoluteDifferenceWideningLowerAndAdd)
METHOD(AbsoluteDifferenceWideningUpper)
METHOD(AbsoluteDifferenceWideningUpperAndAdd)
METHOD(AddAcross)
METHOD(AddAcrossWidening)
METHOD(AddHighNarrowingLower)
METHOD(AddHighNarrowingUpper)
METHOD(AddPairwise)
METHOD(AddPairwiseScalar)
METHOD(AddPairwiseWidening)
METHOD(AddPairwiseWideningAndAdd)
METHOD(AddPairwiseWideningAndAddScalar)
METHOD(AddPairwiseWideningScalar)
METHOD(AddRoundedHighNarrowingLower)
METHOD(AddRoundedHighNarrowingUpper)
METHOD(AddSaturateScalar)
METHOD(AddWideningLower)
METHOD(AddWideningUpper)
METHOD(BitwiseClear)
METHOD(BitwiseSelect)
METHOD(CompareEqualScalar)
METHOD(CompareGreaterThanOrEqualScalar)
METHOD(CompareGreaterThanScalar)
METHOD(CompareLessThanOrEqualScalar)
METHOD(CompareLessThanScalar)
METHOD(CompareTest)
METHOD(CompareTestScalar)
METHOD(ConvertToDoubleScalar)
METHOD(ConvertToDoubleUpper)
METHOD(ConvertToInt32RoundAwayFromZero)
METHOD(ConvertToInt32RoundAwayFromZeroScalar)
METHOD(ConvertToInt32RoundToEven)
METHOD(ConvertToInt32RoundToEvenScalar)
METHOD(ConvertToInt32RoundToNegativeInfinity)
METHOD(ConvertToInt32RoundToNegativeInfinityScalar)
METHOD(ConvertToInt32RoundToPositiveInfinity)
METHOD(ConvertToInt32RoundToPositiveInfinityScalar)
METHOD(ConvertToInt32RoundToZero)
METHOD(ConvertToInt32RoundToZeroScalar)
METHOD(ConvertToInt64RoundAwayFromZero)
METHOD(ConvertToInt64RoundAwayFromZeroScalar)
METHOD(ConvertToInt64RoundToEven)
METHOD(ConvertToInt64RoundToEvenScalar)
METHOD(ConvertToInt64RoundToNegativeInfinity)
METHOD(ConvertToInt64RoundToNegativeInfinityScalar)
METHOD(ConvertToInt64RoundToPositiveInfinity)
METHOD(ConvertToInt64RoundToPositiveInfinityScalar)
METHOD(ConvertToInt64RoundToZero)
METHOD(ConvertToInt64RoundToZeroScalar)
METHOD(ConvertToSingleLower)
METHOD(ConvertToSingleRoundToOddLower)
METHOD(ConvertToSingleRoundToOddUpper)
METHOD(ConvertToSingleScalar)
METHOD(ConvertToSingleUpper)
METHOD(ConvertToUInt32RoundAwayFromZero)
METHOD(ConvertToUInt32RoundAwayFromZeroScalar)
METHOD(ConvertToUInt32RoundToEven)
METHOD(ConvertToUInt32RoundToEvenScalar)
METHOD(ConvertToUInt32RoundToNegativeInfinity)
METHOD(ConvertToUInt32RoundToNegativeInfinityScalar)
METHOD(ConvertToUInt32RoundToPositiveInfinity)
METHOD(ConvertToUInt32RoundToPositiveInfinityScalar)
METHOD(ConvertToUInt32RoundToZero)
METHOD(ConvertToUInt32RoundToZeroScalar)
METHOD(ConvertToUInt64RoundAwayFromZero)
METHOD(ConvertToUInt64RoundAwayFromZeroScalar)
METHOD(ConvertToUInt64RoundToEven)
METHOD(ConvertToUInt64RoundToEvenScalar)
METHOD(ConvertToUInt64RoundToNegativeInfinity)
METHOD(ConvertToUInt64RoundToNegativeInfinityScalar)
METHOD(ConvertToUInt64RoundToPositiveInfinity)
METHOD(ConvertToUInt64RoundToPositiveInfinityScalar)
METHOD(ConvertToUInt64RoundToZero)
METHOD(ConvertToUInt64RoundToZeroScalar)
METHOD(DuplicateSelectedScalarToVector128)
METHOD(DuplicateSelectedScalarToVector64)
METHOD(DuplicateToVector128)
METHOD(DuplicateToVector64)
METHOD(ExtractNarrowingLower)
METHOD(ExtractNarrowingSaturateLower)
METHOD(ExtractNarrowingSaturateScalar)
METHOD(ExtractNarrowingSaturateUnsignedLower)
METHOD(ExtractNarrowingSaturateUnsignedScalar)
METHOD(ExtractNarrowingSaturateUnsignedUpper)
METHOD(ExtractNarrowingSaturateUpper)
METHOD(ExtractNarrowingUpper)
METHOD(ExtractVector128)
METHOD(ExtractVector64)
METHOD(FusedAddHalving)
METHOD(FusedAddRoundedHalving)
METHOD(FusedMultiplyAdd)
METHOD(FusedMultiplyAddByScalar)
METHOD(FusedMultiplyAddBySelectedScalar)
METHOD(FusedMultiplyAddNegatedScalar)
METHOD(FusedMultiplyAddScalar)
METHOD(FusedMultiplyAddScalarBySelectedScalar)
METHOD(FusedMultiplySubtract)
METHOD(FusedMultiplySubtractByScalar)
METHOD(FusedMultiplySubtractBySelectedScalar)
METHOD(FusedMultiplySubtractNegatedScalar)
METHOD(FusedMultiplySubtractScalar)
METHOD(FusedMultiplySubtractScalarBySelectedScalar)
METHOD(FusedSubtractHalving)
METHOD(InsertScalar)
METHOD(InsertSelectedScalar)
METHOD(LoadAndInsertScalar)
METHOD(LoadAndReplicateToVector128)
METHOD(LoadAndReplicateToVector64)
METHOD(LoadPairScalarVector64)
METHOD(LoadPairScalarVector64NonTemporal)
METHOD(LoadPairVector128)
METHOD(LoadPairVector128NonTemporal)
METHOD(LoadPairVector64)
METHOD(LoadPairVector64NonTemporal)
METHOD(LoadVector64)
METHOD(MaxAcross)
METHOD(MaxNumber)
METHOD(MaxNumberAcross)
METHOD(MaxNumberPairwise)
METHOD(MaxNumberPairwiseScalar)
METHOD(MaxNumberScalar)
METHOD(MaxPairwise)
METHOD(MaxPairwiseScalar)
METHOD(MinAcross)
METHOD(MinNumber)
METHOD(MinNumberAcross)
METHOD(MinNumberPairwise)
METHOD(MinNumberPairwiseScalar)
METHOD(MinNumberScalar)
METHOD(MinPairwise)
METHOD(MinPairwiseScalar)
METHOD(MultiplyAdd)
METHOD(MultiplyAddByScalar)
METHOD(MultiplyAddBySelectedScalar)
METHOD(MultiplyByScalar)
METHOD(MultiplyBySelectedScalar)
METHOD(MultiplyBySelectedScalarWideningLower)
METHOD(MultiplyBySelectedScalarWideningLowerAndAdd)
METHOD(MultiplyBySelectedScalarWideningLowerAndSubtract)
METHOD(MultiplyBySelectedScalarWideningUpper)
METHOD(MultiplyBySelectedScalarWideningUpperAndAdd)
METHOD(MultiplyBySelectedScalarWideningUpperAndSubtract)
METHOD(MultiplyDoublingByScalarSaturateHigh)
METHOD(MultiplyDoublingBySelectedScalarSaturateHigh)
METHOD(MultiplyDoublingSaturateHigh)
METHOD(MultiplyDoublingSaturateHighScalar)
METHOD(MultiplyDoublingScalarBySelectedScalarSaturateHigh)
METHOD(MultiplyDoublingWideningAndAddSaturateScalar)
METHOD(MultiplyDoublingWideningAndSubtractSaturateScalar)
METHOD(MultiplyDoublingWideningLowerAndAddSaturate)
METHOD(MultiplyDoublingWideningLowerAndSubtractSaturate)
METHOD(MultiplyDoublingWideningLowerByScalarAndAddSaturate)
METHOD(MultiplyDoublingWideningLowerByScalarAndSubtractSaturate)
METHOD(MultiplyDoublingWideningLowerBySelectedScalarAndAddSaturate)
METHOD(MultiplyDoublingWideningLowerBySelectedScalarAndSubtractSaturate)
METHOD(MultiplyDoublingWideningSaturateLower)
METHOD(MultiplyDoublingWideningSaturateLowerByScalar)
METHOD(MultiplyDoublingWideningSaturateLowerBySelectedScalar)
METHOD(MultiplyDoublingWideningSaturateScalar)
METHOD(MultiplyDoublingWideningSaturateScalarBySelectedScalar)
METHOD(MultiplyDoublingWideningSaturateUpper)
METHOD(MultiplyDoublingWideningSaturateUpperByScalar)
METHOD(MultiplyDoublingWideningSaturateUpperBySelectedScalar)
METHOD(MultiplyDoublingWideningScalarBySelectedScalarAndAddSaturate)
METHOD(MultiplyDoublingWideningScalarBySelectedScalarAndSubtractSaturate)
METHOD(MultiplyDoublingWideningUpperAndAddSaturate)
METHOD(MultiplyDoublingWideningUpperAndSubtractSaturate)
METHOD(MultiplyDoublingWideningUpperByScalarAndAddSaturate)
METHOD(MultiplyDoublingWideningUpperByScalarAndSubtractSaturate)
METHOD(MultiplyDoublingWideningUpperBySelectedScalarAndAddSaturate)
METHOD(MultiplyDoublingWideningUpperBySelectedScalarAndSubtractSaturate)
METHOD(MultiplyExtended)
METHOD(MultiplyExtendedByScalar)
METHOD(MultiplyExtendedBySelectedScalar)
METHOD(MultiplyExtendedScalar)
METHOD(MultiplyExtendedScalarBySelectedScalar)
METHOD(MultiplyRoundedDoublingByScalarSaturateHigh)
METHOD(MultiplyRoundedDoublingBySelectedScalarSaturateHigh)
METHOD(MultiplyRoundedDoublingSaturateHigh)
METHOD(MultiplyRoundedDoublingSaturateHighScalar)
METHOD(MultiplyRoundedDoublingScalarBySelectedScalarSaturateHigh)
METHOD(MultiplyScalarBySelectedScalar)
METHOD(MultiplySubtract)
METHOD(MultiplySubtractByScalar)
METHOD(MultiplySubtractBySelectedScalar)
METHOD(MultiplyWideningLower)
METHOD(MultiplyWideningLowerAndAdd)
METHOD(MultiplyWideningLowerAndSubtract)
METHOD(MultiplyWideningUpper)
METHOD(MultiplyWideningUpperAndAdd)
METHOD(MultiplyWideningUpperAndSubtract)
METHOD(Negate)
METHOD(NegateSaturate)
METHOD(NegateSaturateScalar)
METHOD(NegateScalar)
METHOD(Not)
METHOD(OrNot)
METHOD(OnesComplement)
METHOD(PolynomialMultiply)
METHOD(ReciprocalEstimate)
METHOD(ReciprocalEstimateScalar)
METHOD(ReciprocalExponentScalar)
METHOD(ReciprocalSquareRootEstimate)
METHOD(ReciprocalSquareRootEstimateScalar)
METHOD(ReciprocalSquareRootStep)
METHOD(ReciprocalSquareRootStepScalar)
METHOD(ReciprocalStep)
METHOD(ReciprocalStepScalar)
METHOD(ReverseElement16)
METHOD(ReverseElement32)
METHOD(ReverseElement8)
METHOD(RoundAwayFromZero)
METHOD(RoundAwayFromZeroScalar)
METHOD(RoundToNearest)
METHOD(RoundToNearestScalar)
METHOD(ShiftArithmetic)
METHOD(ShiftArithmeticRounded)
METHOD(ShiftArithmeticRoundedSaturate)
METHOD(ShiftArithmeticRoundedSaturateScalar)
METHOD(ShiftArithmeticRoundedScalar)
METHOD(ShiftArithmeticSaturate)
METHOD(ShiftArithmeticSaturateScalar)
METHOD(ShiftArithmeticScalar)
METHOD(ShiftLeftAndInsert)
METHOD(ShiftLeftAndInsertScalar)
METHOD(ShiftLeftLogicalSaturate)
METHOD(ShiftLeftLogicalSaturateScalar)
METHOD(ShiftLeftLogicalSaturateUnsigned)
METHOD(ShiftLeftLogicalSaturateUnsignedScalar)
METHOD(ShiftLeftLogicalScalar)
METHOD(ShiftLeftLogicalWideningLower)
METHOD(ShiftLeftLogicalWideningUpper)
METHOD(ShiftLogical)
METHOD(ShiftLogicalRounded)
METHOD(ShiftLogicalRoundedSaturate)
METHOD(ShiftLogicalRoundedSaturateScalar)
METHOD(ShiftLogicalRoundedScalar)
METHOD(ShiftLogicalSaturate)
METHOD(ShiftLogicalSaturateScalar)
METHOD(ShiftLogicalScalar)
METHOD(ShiftRightAndInsert)
METHOD(ShiftRightAndInsertScalar)
METHOD(ShiftRightArithmeticAdd)
METHOD(ShiftRightArithmeticAddScalar)
METHOD(ShiftRightArithmeticNarrowingSaturateLower)
METHOD(ShiftRightArithmeticNarrowingSaturateScalar)
METHOD(ShiftRightArithmeticNarrowingSaturateUnsignedLower)
METHOD(ShiftRightArithmeticNarrowingSaturateUnsignedScalar)
METHOD(ShiftRightArithmeticNarrowingSaturateUnsignedUpper)
METHOD(ShiftRightArithmeticNarrowingSaturateUpper)
METHOD(ShiftRightArithmeticRounded)
METHOD(ShiftRightArithmeticRoundedAdd)
METHOD(ShiftRightArithmeticRoundedAddScalar)
METHOD(ShiftRightArithmeticRoundedNarrowingSaturateLower)
METHOD(ShiftRightArithmeticRoundedNarrowingSaturateScalar)
METHOD(ShiftRightArithmeticRoundedNarrowingSaturateUnsignedLower)
METHOD(ShiftRightArithmeticRoundedNarrowingSaturateUnsignedScalar)
METHOD(ShiftRightArithmeticRoundedNarrowingSaturateUnsignedUpper)
METHOD(ShiftRightArithmeticRoundedNarrowingSaturateUpper)
METHOD(ShiftRightArithmeticRoundedScalar)
METHOD(ShiftRightArithmeticScalar)
METHOD(ShiftRightLogicalAdd)
METHOD(ShiftRightLogicalAddScalar)
METHOD(ShiftRightLogicalNarrowingLower)
METHOD(ShiftRightLogicalNarrowingSaturateLower)
METHOD(ShiftRightLogicalNarrowingSaturateScalar)
METHOD(ShiftRightLogicalNarrowingSaturateUpper)
METHOD(ShiftRightLogicalNarrowingUpper)
METHOD(ShiftRightLogicalRounded)
METHOD(ShiftRightLogicalRoundedAdd)
METHOD(ShiftRightLogicalRoundedAddScalar)
METHOD(ShiftRightLogicalRoundedNarrowingLower)
METHOD(ShiftRightLogicalRoundedNarrowingSaturateLower)
METHOD(ShiftRightLogicalRoundedNarrowingSaturateScalar)
METHOD(ShiftRightLogicalRoundedNarrowingSaturateUpper)
METHOD(ShiftRightLogicalRoundedNarrowingUpper)
METHOD(ShiftRightLogicalRoundedScalar)
METHOD(ShiftRightLogicalScalar)
METHOD(SignExtendWideningLower)
METHOD(SignExtendWideningUpper)
METHOD(StorePair)
METHOD(StorePairNonTemporal)
METHOD(StorePairScalar)
METHOD(StorePairScalarNonTemporal)
METHOD(StoreSelectedScalar)
METHOD(SubtractHighNarrowingLower)
METHOD(SubtractHighNarrowingUpper)
METHOD(SubtractRoundedHighNarrowingLower)
METHOD(SubtractRoundedHighNarrowingUpper)
METHOD(SubtractSaturateScalar)
METHOD(SubtractWideningLower)
METHOD(SubtractWideningUpper)
METHOD(TransposeEven)
METHOD(TransposeOdd)
METHOD(UnzipEven)
METHOD(UnzipOdd)
METHOD(VectorTableLookup)
METHOD(VectorTableLookupExtension)
METHOD(ZeroExtendWideningLower)
METHOD(ZeroExtendWideningUpper)
METHOD(ZipHigh)
METHOD(ZipLow)
// Arm.Rdm
METHOD(MultiplyRoundedDoublingAndAddSaturateHigh)
METHOD(MultiplyRoundedDoublingAndSubtractSaturateHigh)
METHOD(MultiplyRoundedDoublingBySelectedScalarAndAddSaturateHigh)
METHOD(MultiplyRoundedDoublingBySelectedScalarAndSubtractSaturateHigh)
// Arm.Rdm.Arm64
METHOD(MultiplyRoundedDoublingAndAddSaturateHighScalar)
METHOD(MultiplyRoundedDoublingAndSubtractSaturateHighScalar)
METHOD(MultiplyRoundedDoublingScalarBySelectedScalarAndAddSaturateHigh)
METHOD(MultiplyRoundedDoublingScalarBySelectedScalarAndSubtractSaturateHigh)
// Arm.Dp
METHOD(DotProductBySelectedQuadruplet)
|
METHOD2(".ctor", ctor)
METHOD(CopyTo)
METHOD(Equals)
METHOD(GreaterThan)
METHOD(GreaterThanAll)
METHOD(GreaterThanAny)
METHOD(GreaterThanOrEqual)
METHOD(GreaterThanOrEqualAll)
METHOD(GreaterThanOrEqualAny)
METHOD(LessThan)
METHOD(LessThanAll)
METHOD(LessThanAny)
METHOD(LessThanOrEqual)
METHOD(LessThanOrEqualAll)
METHOD(LessThanOrEqualAny)
METHOD(Min)
METHOD(Max)
METHOD(MinScalar)
METHOD(MaxScalar)
METHOD(PopCount)
METHOD(LeadingZeroCount)
METHOD(get_Count)
METHOD(get_IsHardwareAccelerated)
METHOD(get_IsSupported)
METHOD(get_AllBitsSet)
METHOD(get_Item)
METHOD(get_One)
METHOD(get_Zero)
METHOD(op_Addition)
METHOD(op_BitwiseAnd)
METHOD(op_BitwiseOr)
METHOD(op_Division)
METHOD(op_Equality)
METHOD(op_ExclusiveOr)
METHOD(op_Explicit)
METHOD(op_Inequality)
METHOD(op_Multiply)
METHOD(op_OnesComplement)
METHOD(op_Subtraction)
METHOD(op_UnaryNegation)
// Vector
METHOD(ConvertToInt32)
METHOD(ConvertToInt32WithTruncation)
METHOD(ConvertToUInt32)
METHOD(ConvertToInt64)
METHOD(ConvertToInt64WithTruncation)
METHOD(ConvertToUInt64)
METHOD(ConvertToSingle)
METHOD(ConvertToDouble)
METHOD(Narrow)
METHOD(Widen)
// Vector64, Vector128, Vector256
METHOD(As)
METHOD(AsByte)
METHOD(AsDouble)
METHOD(AsInt16)
METHOD(AsInt32)
METHOD(AsInt64)
METHOD(AsSByte)
METHOD(AsSingle)
METHOD(AsUInt16)
METHOD(AsUInt32)
METHOD(AsUInt64)
METHOD(AsVector128)
METHOD(AsVector2)
METHOD(AsVector256)
METHOD(AsVector3)
METHOD(AsVector4)
METHOD(BitwiseAnd)
METHOD(BitwiseOr)
METHOD(Create)
METHOD(CreateScalar)
METHOD(CreateScalarUnsafe)
METHOD(ConditionalSelect)
METHOD(Dot)
METHOD(EqualsAll)
METHOD(EqualsAny)
METHOD(GetElement)
METHOD(GetLower)
METHOD(GetUpper)
METHOD(Sum)
METHOD(ToScalar)
METHOD(ToVector128)
METHOD(ToVector128Unsafe)
METHOD(ToVector256)
METHOD(ToVector256Unsafe)
METHOD(WithElement)
METHOD(WithLower)
METHOD(WithUpper)
// Bmi1
METHOD(AndNot)
METHOD(BitFieldExtract)
METHOD(ExtractLowestSetBit)
METHOD(GetMaskUpToLowestSetBit)
METHOD(ResetLowestSetBit)
METHOD(TrailingZeroCount)
// Bmi2
METHOD(ZeroHighBits)
METHOD(MultiplyNoFlags)
METHOD(ParallelBitDeposit)
METHOD(ParallelBitExtract)
// Sse
METHOD(Add)
METHOD(CompareGreaterThanOrEqual)
METHOD(CompareLessThanOrEqual)
METHOD(CompareNotEqual)
METHOD(CompareNotGreaterThan)
METHOD(CompareNotGreaterThanOrEqual)
METHOD(CompareNotLessThan)
METHOD(CompareNotLessThanOrEqual)
METHOD(CompareScalarGreaterThan)
METHOD(CompareScalarGreaterThanOrEqual)
METHOD(CompareScalarLessThan)
METHOD(CompareScalarLessThanOrEqual)
METHOD(CompareScalarNotEqual)
METHOD(CompareScalarNotGreaterThan)
METHOD(CompareScalarNotGreaterThanOrEqual)
METHOD(CompareScalarNotLessThan)
METHOD(CompareScalarNotLessThanOrEqual)
METHOD(CompareScalarOrderedEqual)
METHOD(CompareScalarOrderedGreaterThan)
METHOD(CompareScalarOrderedGreaterThanOrEqual)
METHOD(CompareScalarOrderedLessThan)
METHOD(CompareScalarOrderedLessThanOrEqual)
METHOD(CompareScalarOrderedNotEqual)
METHOD(CompareScalarUnorderedEqual)
METHOD(CompareScalarUnorderedGreaterThan)
METHOD(CompareScalarUnorderedGreaterThanOrEqual)
METHOD(CompareScalarUnorderedLessThan)
METHOD(CompareScalarUnorderedLessThanOrEqual)
METHOD(CompareScalarUnorderedNotEqual)
METHOD(CompareOrdered)
METHOD(CompareUnordered)
METHOD(CompareScalarOrdered)
METHOD(CompareScalarUnordered)
METHOD(ConvertScalarToVector128Single)
METHOD(Divide)
METHOD(DivideScalar)
METHOD(Store)
METHOD(StoreFence)
METHOD(StoreHigh)
METHOD(StoreLow)
METHOD(Subtract)
METHOD(SubtractScalar)
METHOD(CompareEqual)
METHOD(Extract)
METHOD(LoadHigh)
METHOD(LoadLow)
METHOD(LoadVector128)
METHOD(LoadScalarVector128)
METHOD(MoveHighToLow)
METHOD(MoveLowToHigh)
METHOD(MoveMask)
METHOD(MoveScalar)
METHOD(Multiply)
METHOD(MultiplyAddAdjacent)
METHOD(MultiplyScalar)
METHOD(Shuffle)
METHOD(UnpackHigh)
METHOD(UnpackLow)
METHOD(Prefetch0)
METHOD(Prefetch1)
METHOD(Prefetch2)
METHOD(PrefetchNonTemporal)
METHOD(Reciprocal)
METHOD(ReciprocalScalar)
METHOD(ReciprocalSqrt)
METHOD(ReciprocalSqrtScalar)
METHOD(Sqrt)
METHOD(SqrtScalar)
// Sse2
METHOD(AddSaturate)
METHOD(AddScalar)
METHOD(And)
METHOD(Average)
METHOD(Or)
METHOD(LoadAlignedVector128)
METHOD(Xor)
METHOD(CompareGreaterThan)
METHOD(CompareScalarEqual)
METHOD(ConvertScalarToVector128Double)
METHOD(ConvertScalarToVector128Int32)
METHOD(ConvertScalarToVector128Int64)
METHOD(ConvertScalarToVector128UInt32)
METHOD(ConvertScalarToVector128UInt64)
METHOD(ConvertToVector128Double)
METHOD(ConvertToVector128Int32)
METHOD(ConvertToVector128Int32WithTruncation)
METHOD(ConvertToVector128Single)
METHOD(MaskMove)
METHOD(MultiplyHigh)
METHOD(MultiplyLow)
METHOD(PackSignedSaturate)
METHOD(PackUnsignedSaturate)
METHOD(ShuffleHigh)
METHOD(ShuffleLow)
METHOD(SubtractSaturate)
METHOD(SumAbsoluteDifferences)
METHOD(StoreScalar)
METHOD(StoreAligned)
METHOD(StoreAlignedNonTemporal)
METHOD(StoreNonTemporal)
METHOD(ShiftLeftLogical)
METHOD(ShiftLeftLogical128BitLane)
METHOD(ShiftRightArithmetic)
METHOD(ShiftRightLogical)
METHOD(ShiftRightLogical128BitLane)
METHOD(CompareLessThan)
METHOD(LoadFence)
METHOD(MemoryFence)
// Sse3
METHOD(HorizontalAdd)
METHOD(HorizontalSubtract)
METHOD(AddSubtract)
METHOD(LoadAndDuplicateToVector128)
METHOD(LoadDquVector128)
METHOD(MoveAndDuplicate)
METHOD(MoveHighAndDuplicate)
METHOD(MoveLowAndDuplicate)
// Ssse3
METHOD(Abs) // Also used by ARM64
METHOD(AlignRight)
METHOD(HorizontalAddSaturate)
METHOD(HorizontalSubtractSaturate)
METHOD(MultiplyHighRoundScale)
METHOD(Sign)
// Sse41
METHOD(Blend)
METHOD(BlendVariable)
METHOD(Ceiling)
METHOD(CeilingScalar)
METHOD(ConvertToVector128Int16)
METHOD(ConvertToVector128Int64)
METHOD(Floor)
METHOD(FloorScalar)
METHOD(Insert)
METHOD(LoadAlignedVector128NonTemporal)
METHOD(RoundCurrentDirectionScalar)
METHOD(RoundToNearestInteger)
METHOD(RoundToNearestIntegerScalar)
METHOD(RoundToNegativeInfinity)
METHOD(RoundToNegativeInfinityScalar)
METHOD(RoundToPositiveInfinity)
METHOD(RoundToPositiveInfinityScalar)
METHOD(RoundToZero)
METHOD(RoundToZeroScalar)
METHOD(RoundCurrentDirection)
METHOD(MinHorizontal)
METHOD(TestC)
METHOD(TestNotZAndNotC)
METHOD(TestZ)
METHOD(DotProduct)
METHOD(MultipleSumAbsoluteDifferences)
// Sse42
METHOD(Crc32)
// Aes
METHOD(Decrypt)
METHOD(DecryptLast)
METHOD(Encrypt)
METHOD(EncryptLast)
METHOD(InverseMixColumns)
METHOD(KeygenAssist)
METHOD(PolynomialMultiplyWideningLower)
METHOD(PolynomialMultiplyWideningUpper)
// Pclmulqdq
METHOD(CarrylessMultiply)
// ArmBase
METHOD(LeadingSignCount)
METHOD(ReverseElementBits)
// Crc32
METHOD(ComputeCrc32)
METHOD(ComputeCrc32C)
// X86Base
METHOD(BitScanForward)
METHOD(BitScanReverse)
// Crypto
METHOD(FixedRotate)
METHOD(HashUpdateChoose)
METHOD(HashUpdateMajority)
METHOD(HashUpdateParity)
METHOD(HashUpdate1)
METHOD(HashUpdate2)
METHOD(ScheduleUpdate0)
METHOD(ScheduleUpdate1)
METHOD(MixColumns)
// AdvSimd
METHOD(AbsSaturate)
METHOD(AbsSaturateScalar)
METHOD(AbsScalar)
METHOD(AbsoluteCompareGreaterThan)
METHOD(AbsoluteCompareGreaterThanOrEqual)
METHOD(AbsoluteCompareGreaterThanOrEqualScalar)
METHOD(AbsoluteCompareGreaterThanScalar)
METHOD(AbsoluteCompareLessThan)
METHOD(AbsoluteCompareLessThanOrEqual)
METHOD(AbsoluteCompareLessThanOrEqualScalar)
METHOD(AbsoluteCompareLessThanScalar)
METHOD(AbsoluteDifference)
METHOD(AbsoluteDifferenceAdd)
METHOD(AbsoluteDifferenceScalar)
METHOD(AbsoluteDifferenceWideningLower)
METHOD(AbsoluteDifferenceWideningLowerAndAdd)
METHOD(AbsoluteDifferenceWideningUpper)
METHOD(AbsoluteDifferenceWideningUpperAndAdd)
METHOD(AddAcross)
METHOD(AddAcrossWidening)
METHOD(AddHighNarrowingLower)
METHOD(AddHighNarrowingUpper)
METHOD(AddPairwise)
METHOD(AddPairwiseScalar)
METHOD(AddPairwiseWidening)
METHOD(AddPairwiseWideningAndAdd)
METHOD(AddPairwiseWideningAndAddScalar)
METHOD(AddPairwiseWideningScalar)
METHOD(AddRoundedHighNarrowingLower)
METHOD(AddRoundedHighNarrowingUpper)
METHOD(AddSaturateScalar)
METHOD(AddWideningLower)
METHOD(AddWideningUpper)
METHOD(BitwiseClear)
METHOD(BitwiseSelect)
METHOD(CompareEqualScalar)
METHOD(CompareGreaterThanOrEqualScalar)
METHOD(CompareGreaterThanScalar)
METHOD(CompareLessThanOrEqualScalar)
METHOD(CompareLessThanScalar)
METHOD(CompareTest)
METHOD(CompareTestScalar)
METHOD(ConvertToDoubleScalar)
METHOD(ConvertToDoubleUpper)
METHOD(ConvertToInt32RoundAwayFromZero)
METHOD(ConvertToInt32RoundAwayFromZeroScalar)
METHOD(ConvertToInt32RoundToEven)
METHOD(ConvertToInt32RoundToEvenScalar)
METHOD(ConvertToInt32RoundToNegativeInfinity)
METHOD(ConvertToInt32RoundToNegativeInfinityScalar)
METHOD(ConvertToInt32RoundToPositiveInfinity)
METHOD(ConvertToInt32RoundToPositiveInfinityScalar)
METHOD(ConvertToInt32RoundToZero)
METHOD(ConvertToInt32RoundToZeroScalar)
METHOD(ConvertToInt64RoundAwayFromZero)
METHOD(ConvertToInt64RoundAwayFromZeroScalar)
METHOD(ConvertToInt64RoundToEven)
METHOD(ConvertToInt64RoundToEvenScalar)
METHOD(ConvertToInt64RoundToNegativeInfinity)
METHOD(ConvertToInt64RoundToNegativeInfinityScalar)
METHOD(ConvertToInt64RoundToPositiveInfinity)
METHOD(ConvertToInt64RoundToPositiveInfinityScalar)
METHOD(ConvertToInt64RoundToZero)
METHOD(ConvertToInt64RoundToZeroScalar)
METHOD(ConvertToSingleLower)
METHOD(ConvertToSingleRoundToOddLower)
METHOD(ConvertToSingleRoundToOddUpper)
METHOD(ConvertToSingleScalar)
METHOD(ConvertToSingleUpper)
METHOD(ConvertToUInt32RoundAwayFromZero)
METHOD(ConvertToUInt32RoundAwayFromZeroScalar)
METHOD(ConvertToUInt32RoundToEven)
METHOD(ConvertToUInt32RoundToEvenScalar)
METHOD(ConvertToUInt32RoundToNegativeInfinity)
METHOD(ConvertToUInt32RoundToNegativeInfinityScalar)
METHOD(ConvertToUInt32RoundToPositiveInfinity)
METHOD(ConvertToUInt32RoundToPositiveInfinityScalar)
METHOD(ConvertToUInt32RoundToZero)
METHOD(ConvertToUInt32RoundToZeroScalar)
METHOD(ConvertToUInt64RoundAwayFromZero)
METHOD(ConvertToUInt64RoundAwayFromZeroScalar)
METHOD(ConvertToUInt64RoundToEven)
METHOD(ConvertToUInt64RoundToEvenScalar)
METHOD(ConvertToUInt64RoundToNegativeInfinity)
METHOD(ConvertToUInt64RoundToNegativeInfinityScalar)
METHOD(ConvertToUInt64RoundToPositiveInfinity)
METHOD(ConvertToUInt64RoundToPositiveInfinityScalar)
METHOD(ConvertToUInt64RoundToZero)
METHOD(ConvertToUInt64RoundToZeroScalar)
METHOD(DuplicateSelectedScalarToVector128)
METHOD(DuplicateSelectedScalarToVector64)
METHOD(DuplicateToVector128)
METHOD(DuplicateToVector64)
METHOD(ExtractNarrowingLower)
METHOD(ExtractNarrowingSaturateLower)
METHOD(ExtractNarrowingSaturateScalar)
METHOD(ExtractNarrowingSaturateUnsignedLower)
METHOD(ExtractNarrowingSaturateUnsignedScalar)
METHOD(ExtractNarrowingSaturateUnsignedUpper)
METHOD(ExtractNarrowingSaturateUpper)
METHOD(ExtractNarrowingUpper)
METHOD(ExtractVector128)
METHOD(ExtractVector64)
METHOD(FusedAddHalving)
METHOD(FusedAddRoundedHalving)
METHOD(FusedMultiplyAdd)
METHOD(FusedMultiplyAddByScalar)
METHOD(FusedMultiplyAddBySelectedScalar)
METHOD(FusedMultiplyAddNegatedScalar)
METHOD(FusedMultiplyAddScalar)
METHOD(FusedMultiplyAddScalarBySelectedScalar)
METHOD(FusedMultiplySubtract)
METHOD(FusedMultiplySubtractByScalar)
METHOD(FusedMultiplySubtractBySelectedScalar)
METHOD(FusedMultiplySubtractNegatedScalar)
METHOD(FusedMultiplySubtractScalar)
METHOD(FusedMultiplySubtractScalarBySelectedScalar)
METHOD(FusedSubtractHalving)
METHOD(InsertScalar)
METHOD(InsertSelectedScalar)
METHOD(LoadAndInsertScalar)
METHOD(LoadAndReplicateToVector128)
METHOD(LoadAndReplicateToVector64)
METHOD(LoadPairScalarVector64)
METHOD(LoadPairScalarVector64NonTemporal)
METHOD(LoadPairVector128)
METHOD(LoadPairVector128NonTemporal)
METHOD(LoadPairVector64)
METHOD(LoadPairVector64NonTemporal)
METHOD(LoadVector64)
METHOD(MaxAcross)
METHOD(MaxNumber)
METHOD(MaxNumberAcross)
METHOD(MaxNumberPairwise)
METHOD(MaxNumberPairwiseScalar)
METHOD(MaxNumberScalar)
METHOD(MaxPairwise)
METHOD(MaxPairwiseScalar)
METHOD(MinAcross)
METHOD(MinNumber)
METHOD(MinNumberAcross)
METHOD(MinNumberPairwise)
METHOD(MinNumberPairwiseScalar)
METHOD(MinNumberScalar)
METHOD(MinPairwise)
METHOD(MinPairwiseScalar)
METHOD(MultiplyAdd)
METHOD(MultiplyAddByScalar)
METHOD(MultiplyAddBySelectedScalar)
METHOD(MultiplyByScalar)
METHOD(MultiplyBySelectedScalar)
METHOD(MultiplyBySelectedScalarWideningLower)
METHOD(MultiplyBySelectedScalarWideningLowerAndAdd)
METHOD(MultiplyBySelectedScalarWideningLowerAndSubtract)
METHOD(MultiplyBySelectedScalarWideningUpper)
METHOD(MultiplyBySelectedScalarWideningUpperAndAdd)
METHOD(MultiplyBySelectedScalarWideningUpperAndSubtract)
METHOD(MultiplyDoublingByScalarSaturateHigh)
METHOD(MultiplyDoublingBySelectedScalarSaturateHigh)
METHOD(MultiplyDoublingSaturateHigh)
METHOD(MultiplyDoublingSaturateHighScalar)
METHOD(MultiplyDoublingScalarBySelectedScalarSaturateHigh)
METHOD(MultiplyDoublingWideningAndAddSaturateScalar)
METHOD(MultiplyDoublingWideningAndSubtractSaturateScalar)
METHOD(MultiplyDoublingWideningLowerAndAddSaturate)
METHOD(MultiplyDoublingWideningLowerAndSubtractSaturate)
METHOD(MultiplyDoublingWideningLowerByScalarAndAddSaturate)
METHOD(MultiplyDoublingWideningLowerByScalarAndSubtractSaturate)
METHOD(MultiplyDoublingWideningLowerBySelectedScalarAndAddSaturate)
METHOD(MultiplyDoublingWideningLowerBySelectedScalarAndSubtractSaturate)
METHOD(MultiplyDoublingWideningSaturateLower)
METHOD(MultiplyDoublingWideningSaturateLowerByScalar)
METHOD(MultiplyDoublingWideningSaturateLowerBySelectedScalar)
METHOD(MultiplyDoublingWideningSaturateScalar)
METHOD(MultiplyDoublingWideningSaturateScalarBySelectedScalar)
METHOD(MultiplyDoublingWideningSaturateUpper)
METHOD(MultiplyDoublingWideningSaturateUpperByScalar)
METHOD(MultiplyDoublingWideningSaturateUpperBySelectedScalar)
METHOD(MultiplyDoublingWideningScalarBySelectedScalarAndAddSaturate)
METHOD(MultiplyDoublingWideningScalarBySelectedScalarAndSubtractSaturate)
METHOD(MultiplyDoublingWideningUpperAndAddSaturate)
METHOD(MultiplyDoublingWideningUpperAndSubtractSaturate)
METHOD(MultiplyDoublingWideningUpperByScalarAndAddSaturate)
METHOD(MultiplyDoublingWideningUpperByScalarAndSubtractSaturate)
METHOD(MultiplyDoublingWideningUpperBySelectedScalarAndAddSaturate)
METHOD(MultiplyDoublingWideningUpperBySelectedScalarAndSubtractSaturate)
METHOD(MultiplyExtended)
METHOD(MultiplyExtendedByScalar)
METHOD(MultiplyExtendedBySelectedScalar)
METHOD(MultiplyExtendedScalar)
METHOD(MultiplyExtendedScalarBySelectedScalar)
METHOD(MultiplyRoundedDoublingByScalarSaturateHigh)
METHOD(MultiplyRoundedDoublingBySelectedScalarSaturateHigh)
METHOD(MultiplyRoundedDoublingSaturateHigh)
METHOD(MultiplyRoundedDoublingSaturateHighScalar)
METHOD(MultiplyRoundedDoublingScalarBySelectedScalarSaturateHigh)
METHOD(MultiplyScalarBySelectedScalar)
METHOD(MultiplySubtract)
METHOD(MultiplySubtractByScalar)
METHOD(MultiplySubtractBySelectedScalar)
METHOD(MultiplyWideningLower)
METHOD(MultiplyWideningLowerAndAdd)
METHOD(MultiplyWideningLowerAndSubtract)
METHOD(MultiplyWideningUpper)
METHOD(MultiplyWideningUpperAndAdd)
METHOD(MultiplyWideningUpperAndSubtract)
METHOD(Negate)
METHOD(NegateSaturate)
METHOD(NegateSaturateScalar)
METHOD(NegateScalar)
METHOD(Not)
METHOD(OrNot)
METHOD(OnesComplement)
METHOD(PolynomialMultiply)
METHOD(ReciprocalEstimate)
METHOD(ReciprocalEstimateScalar)
METHOD(ReciprocalExponentScalar)
METHOD(ReciprocalSquareRootEstimate)
METHOD(ReciprocalSquareRootEstimateScalar)
METHOD(ReciprocalSquareRootStep)
METHOD(ReciprocalSquareRootStepScalar)
METHOD(ReciprocalStep)
METHOD(ReciprocalStepScalar)
METHOD(ReverseElement16)
METHOD(ReverseElement32)
METHOD(ReverseElement8)
METHOD(RoundAwayFromZero)
METHOD(RoundAwayFromZeroScalar)
METHOD(RoundToNearest)
METHOD(RoundToNearestScalar)
METHOD(ShiftArithmetic)
METHOD(ShiftArithmeticRounded)
METHOD(ShiftArithmeticRoundedSaturate)
METHOD(ShiftArithmeticRoundedSaturateScalar)
METHOD(ShiftArithmeticRoundedScalar)
METHOD(ShiftArithmeticSaturate)
METHOD(ShiftArithmeticSaturateScalar)
METHOD(ShiftArithmeticScalar)
METHOD(ShiftLeftAndInsert)
METHOD(ShiftLeftAndInsertScalar)
METHOD(ShiftLeftLogicalSaturate)
METHOD(ShiftLeftLogicalSaturateScalar)
METHOD(ShiftLeftLogicalSaturateUnsigned)
METHOD(ShiftLeftLogicalSaturateUnsignedScalar)
METHOD(ShiftLeftLogicalScalar)
METHOD(ShiftLeftLogicalWideningLower)
METHOD(ShiftLeftLogicalWideningUpper)
METHOD(ShiftLogical)
METHOD(ShiftLogicalRounded)
METHOD(ShiftLogicalRoundedSaturate)
METHOD(ShiftLogicalRoundedSaturateScalar)
METHOD(ShiftLogicalRoundedScalar)
METHOD(ShiftLogicalSaturate)
METHOD(ShiftLogicalSaturateScalar)
METHOD(ShiftLogicalScalar)
METHOD(ShiftRightAndInsert)
METHOD(ShiftRightAndInsertScalar)
METHOD(ShiftRightArithmeticAdd)
METHOD(ShiftRightArithmeticAddScalar)
METHOD(ShiftRightArithmeticNarrowingSaturateLower)
METHOD(ShiftRightArithmeticNarrowingSaturateScalar)
METHOD(ShiftRightArithmeticNarrowingSaturateUnsignedLower)
METHOD(ShiftRightArithmeticNarrowingSaturateUnsignedScalar)
METHOD(ShiftRightArithmeticNarrowingSaturateUnsignedUpper)
METHOD(ShiftRightArithmeticNarrowingSaturateUpper)
METHOD(ShiftRightArithmeticRounded)
METHOD(ShiftRightArithmeticRoundedAdd)
METHOD(ShiftRightArithmeticRoundedAddScalar)
METHOD(ShiftRightArithmeticRoundedNarrowingSaturateLower)
METHOD(ShiftRightArithmeticRoundedNarrowingSaturateScalar)
METHOD(ShiftRightArithmeticRoundedNarrowingSaturateUnsignedLower)
METHOD(ShiftRightArithmeticRoundedNarrowingSaturateUnsignedScalar)
METHOD(ShiftRightArithmeticRoundedNarrowingSaturateUnsignedUpper)
METHOD(ShiftRightArithmeticRoundedNarrowingSaturateUpper)
METHOD(ShiftRightArithmeticRoundedScalar)
METHOD(ShiftRightArithmeticScalar)
METHOD(ShiftRightLogicalAdd)
METHOD(ShiftRightLogicalAddScalar)
METHOD(ShiftRightLogicalNarrowingLower)
METHOD(ShiftRightLogicalNarrowingSaturateLower)
METHOD(ShiftRightLogicalNarrowingSaturateScalar)
METHOD(ShiftRightLogicalNarrowingSaturateUpper)
METHOD(ShiftRightLogicalNarrowingUpper)
METHOD(ShiftRightLogicalRounded)
METHOD(ShiftRightLogicalRoundedAdd)
METHOD(ShiftRightLogicalRoundedAddScalar)
METHOD(ShiftRightLogicalRoundedNarrowingLower)
METHOD(ShiftRightLogicalRoundedNarrowingSaturateLower)
METHOD(ShiftRightLogicalRoundedNarrowingSaturateScalar)
METHOD(ShiftRightLogicalRoundedNarrowingSaturateUpper)
METHOD(ShiftRightLogicalRoundedNarrowingUpper)
METHOD(ShiftRightLogicalRoundedScalar)
METHOD(ShiftRightLogicalScalar)
METHOD(SignExtendWideningLower)
METHOD(SignExtendWideningUpper)
METHOD(StorePair)
METHOD(StorePairNonTemporal)
METHOD(StorePairScalar)
METHOD(StorePairScalarNonTemporal)
METHOD(StoreSelectedScalar)
METHOD(SubtractHighNarrowingLower)
METHOD(SubtractHighNarrowingUpper)
METHOD(SubtractRoundedHighNarrowingLower)
METHOD(SubtractRoundedHighNarrowingUpper)
METHOD(SubtractSaturateScalar)
METHOD(SubtractWideningLower)
METHOD(SubtractWideningUpper)
METHOD(TransposeEven)
METHOD(TransposeOdd)
METHOD(UnzipEven)
METHOD(UnzipOdd)
METHOD(VectorTableLookup)
METHOD(VectorTableLookupExtension)
METHOD(ZeroExtendWideningLower)
METHOD(ZeroExtendWideningUpper)
METHOD(ZipHigh)
METHOD(ZipLow)
// Arm.Rdm
METHOD(MultiplyRoundedDoublingAndAddSaturateHigh)
METHOD(MultiplyRoundedDoublingAndSubtractSaturateHigh)
METHOD(MultiplyRoundedDoublingBySelectedScalarAndAddSaturateHigh)
METHOD(MultiplyRoundedDoublingBySelectedScalarAndSubtractSaturateHigh)
// Arm.Rdm.Arm64
METHOD(MultiplyRoundedDoublingAndAddSaturateHighScalar)
METHOD(MultiplyRoundedDoublingAndSubtractSaturateHighScalar)
METHOD(MultiplyRoundedDoublingScalarBySelectedScalarAndAddSaturateHigh)
METHOD(MultiplyRoundedDoublingScalarBySelectedScalarAndSubtractSaturateHigh)
// Arm.Dp
METHOD(DotProductBySelectedQuadruplet)
| 1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/native/public/mono/metadata/tokentype.h
|
/**
* \file
*/
#ifndef _MONO_METADATA_TOKENTYPE_H_
#define _MONO_METADATA_TOKENTYPE_H_
/*
* These tokens match the table ID except for the last
* three (string, name and base type which are special)
*/
typedef enum {
MONO_TOKEN_MODULE = 0x00000000,
MONO_TOKEN_TYPE_REF = 0x01000000,
MONO_TOKEN_TYPE_DEF = 0x02000000,
MONO_TOKEN_FIELD_DEF = 0x04000000,
MONO_TOKEN_METHOD_DEF = 0x06000000,
MONO_TOKEN_PARAM_DEF = 0x08000000,
MONO_TOKEN_INTERFACE_IMPL = 0x09000000,
MONO_TOKEN_MEMBER_REF = 0x0a000000,
MONO_TOKEN_CUSTOM_ATTRIBUTE = 0x0c000000,
MONO_TOKEN_PERMISSION = 0x0e000000,
MONO_TOKEN_SIGNATURE = 0x11000000,
MONO_TOKEN_EVENT = 0x14000000,
MONO_TOKEN_PROPERTY = 0x17000000,
MONO_TOKEN_MODULE_REF = 0x1a000000,
MONO_TOKEN_TYPE_SPEC = 0x1b000000,
MONO_TOKEN_ASSEMBLY = 0x20000000,
MONO_TOKEN_ASSEMBLY_REF = 0x23000000,
MONO_TOKEN_FILE = 0x26000000,
MONO_TOKEN_EXPORTED_TYPE = 0x27000000,
MONO_TOKEN_MANIFEST_RESOURCE = 0x28000000,
MONO_TOKEN_GENERIC_PARAM = 0x2a000000,
MONO_TOKEN_METHOD_SPEC = 0x2b000000,
/*
* These do not match metadata tables directly
*/
MONO_TOKEN_STRING = 0x70000000,
MONO_TOKEN_NAME = 0x71000000,
MONO_TOKEN_BASE_TYPE = 0x72000000
} MonoTokenType;
#endif /* _MONO_METADATA_TOKENTYPE_H_ */
|
/**
* \file
*/
#ifndef _MONO_METADATA_TOKENTYPE_H_
#define _MONO_METADATA_TOKENTYPE_H_
/*
* These tokens match the table ID except for the last
* three (string, name and base type which are special)
*/
typedef enum {
MONO_TOKEN_MODULE = 0x00000000,
MONO_TOKEN_TYPE_REF = 0x01000000,
MONO_TOKEN_TYPE_DEF = 0x02000000,
MONO_TOKEN_FIELD_DEF = 0x04000000,
MONO_TOKEN_METHOD_DEF = 0x06000000,
MONO_TOKEN_PARAM_DEF = 0x08000000,
MONO_TOKEN_INTERFACE_IMPL = 0x09000000,
MONO_TOKEN_MEMBER_REF = 0x0a000000,
MONO_TOKEN_CUSTOM_ATTRIBUTE = 0x0c000000,
MONO_TOKEN_PERMISSION = 0x0e000000,
MONO_TOKEN_SIGNATURE = 0x11000000,
MONO_TOKEN_EVENT = 0x14000000,
MONO_TOKEN_PROPERTY = 0x17000000,
MONO_TOKEN_MODULE_REF = 0x1a000000,
MONO_TOKEN_TYPE_SPEC = 0x1b000000,
MONO_TOKEN_ASSEMBLY = 0x20000000,
MONO_TOKEN_ASSEMBLY_REF = 0x23000000,
MONO_TOKEN_FILE = 0x26000000,
MONO_TOKEN_EXPORTED_TYPE = 0x27000000,
MONO_TOKEN_MANIFEST_RESOURCE = 0x28000000,
MONO_TOKEN_GENERIC_PARAM = 0x2a000000,
MONO_TOKEN_METHOD_SPEC = 0x2b000000,
/*
* These do not match metadata tables directly
*/
MONO_TOKEN_STRING = 0x70000000,
MONO_TOKEN_NAME = 0x71000000,
MONO_TOKEN_BASE_TYPE = 0x72000000
} MonoTokenType;
#endif /* _MONO_METADATA_TOKENTYPE_H_ */
| -1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/coreclr/pal/src/libunwind/src/arm/Gos-freebsd.c
|
/* libunwind - a platform-independent unwind library
Copyright (C) 2008 CodeSourcery
Copyright 2011 Linaro Limited
Copyright (C) 2012 Tommi Rantala <[email protected]>
Copyright 2015 The FreeBSD Foundation
Portions of this software were developed by Konstantin Belousov
under sponsorship from the FreeBSD Foundation.
This file is part of libunwind.
Permission is hereby granted, free of charge, to any person obtaining
a copy of this software and associated documentation files (the
"Software"), to deal in the Software without restriction, including
without limitation the rights to use, copy, modify, merge, publish,
distribute, sublicense, and/or sell copies of the Software, and to
permit persons to whom the Software is furnished to do so, subject to
the following conditions:
The above copyright notice and this permission notice shall be
included in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */
#include <stdio.h>
#include <signal.h>
#include "unwind_i.h"
#include "offsets.h"
#include "ex_tables.h"
HIDDEN int
arm_handle_signal_frame (unw_cursor_t *cursor)
{
struct cursor *c = (struct cursor *) cursor;
int ret, fmt;
unw_word_t sc_addr, sp, sp_addr = c->dwarf.cfa;
struct dwarf_loc sp_loc = DWARF_LOC (sp_addr, 0);
if ((ret = dwarf_get (&c->dwarf, sp_loc, &sp)) < 0)
return -UNW_EUNSPEC;
fmt = unw_is_signal_frame(cursor);
c->dwarf.pi_valid = 0;
if (fmt == UNW_ARM_FRAME_SYSCALL)
{
c->sigcontext_format = ARM_SCF_FREEBSD_SYSCALL;
c->frame_info.frame_type = UNW_ARM_FRAME_SYSCALL;
c->frame_info.cfa_reg_offset = 0;
c->dwarf.loc[UNW_ARM_R7] = c->dwarf.loc[UNW_ARM_R12];
dwarf_get (&c->dwarf, c->dwarf.loc[UNW_ARM_R14], &c->dwarf.ip);
return 1;
}
c->sigcontext_format = ARM_SCF_FREEBSD_SIGFRAME;
sc_addr = sp_addr;
/* Save the SP and PC to be able to return execution at this point
later in time (unw_resume). */
c->sigcontext_sp = c->dwarf.cfa;
c->sigcontext_pc = c->dwarf.ip;
c->sigcontext_addr = sc_addr;
c->frame_info.frame_type = UNW_ARM_FRAME_SIGRETURN;
c->frame_info.cfa_reg_offset = sc_addr - sp_addr;
/* Update the dwarf cursor.
Set the location of the registers to the corresponding addresses of the
uc_mcontext / sigcontext structure contents. */
#define ROFF(n) (FREEBSD_SC_UCONTEXT_OFF + FREEBSD_UC_MCONTEXT_OFF + \
FREEBSD_MC_R0_OFF + (n) * 4)
#define SL(n) \
c->dwarf.loc[UNW_ARM_R ## n] = DWARF_LOC (sc_addr + ROFF(n), 0);
SL(0); SL(1); SL(2); SL(3); SL(4); SL(5); SL(6); SL(7);
SL(8); SL(9); SL(10); SL(11); SL(12); SL(13); SL(14); SL(15);
#undef SL
#undef ROFF
/* Set SP/CFA and PC/IP. */
dwarf_get (&c->dwarf, c->dwarf.loc[UNW_ARM_R13], &c->dwarf.cfa);
dwarf_get (&c->dwarf, c->dwarf.loc[UNW_ARM_R15], &c->dwarf.ip);
return 1;
}
/* Returns 1 in case of a non-RT signal frame and 2 in case of a RT signal
frame. */
int
unw_is_signal_frame (unw_cursor_t *cursor)
{
struct cursor *c = (struct cursor *) cursor;
unw_word_t w0, w1, w2, w3, ip;
unw_addr_space_t as;
unw_accessors_t *a;
void *arg;
int ret;
as = c->dwarf.as;
a = unw_get_accessors_int (as);
arg = c->dwarf.as_arg;
ip = c->dwarf.ip;
if ((ret = (*a->access_mem) (as, ip, &w0, 0, arg)) < 0)
return ret;
if ((ret = (*a->access_mem) (as, ip + 4, &w1, 0, arg)) < 0)
return ret;
if ((ret = (*a->access_mem) (as, ip + 8, &w2, 0, arg)) < 0)
return ret;
if ((ret = (*a->access_mem) (as, ip + 12, &w3, 0, arg)) < 0)
return ret;
if (w0 == 0xe1a0000d && w1 == 0xe2800040 && w2 == 0xe59f700c &&
w3 == 0xef0001a1)
return UNW_ARM_FRAME_SIGRETURN;
if ((ret = (*a->access_mem) (as, ip - 4, &w0, 0, arg)) < 0)
return ret;
if (w0 == 0xef000000)
return UNW_ARM_FRAME_SYSCALL;
return 0;
}
|
/* libunwind - a platform-independent unwind library
Copyright (C) 2008 CodeSourcery
Copyright 2011 Linaro Limited
Copyright (C) 2012 Tommi Rantala <[email protected]>
Copyright 2015 The FreeBSD Foundation
Portions of this software were developed by Konstantin Belousov
under sponsorship from the FreeBSD Foundation.
This file is part of libunwind.
Permission is hereby granted, free of charge, to any person obtaining
a copy of this software and associated documentation files (the
"Software"), to deal in the Software without restriction, including
without limitation the rights to use, copy, modify, merge, publish,
distribute, sublicense, and/or sell copies of the Software, and to
permit persons to whom the Software is furnished to do so, subject to
the following conditions:
The above copyright notice and this permission notice shall be
included in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */
#include <stdio.h>
#include <signal.h>
#include "unwind_i.h"
#include "offsets.h"
#include "ex_tables.h"
HIDDEN int
arm_handle_signal_frame (unw_cursor_t *cursor)
{
struct cursor *c = (struct cursor *) cursor;
int ret, fmt;
unw_word_t sc_addr, sp, sp_addr = c->dwarf.cfa;
struct dwarf_loc sp_loc = DWARF_LOC (sp_addr, 0);
if ((ret = dwarf_get (&c->dwarf, sp_loc, &sp)) < 0)
return -UNW_EUNSPEC;
fmt = unw_is_signal_frame(cursor);
c->dwarf.pi_valid = 0;
if (fmt == UNW_ARM_FRAME_SYSCALL)
{
c->sigcontext_format = ARM_SCF_FREEBSD_SYSCALL;
c->frame_info.frame_type = UNW_ARM_FRAME_SYSCALL;
c->frame_info.cfa_reg_offset = 0;
c->dwarf.loc[UNW_ARM_R7] = c->dwarf.loc[UNW_ARM_R12];
dwarf_get (&c->dwarf, c->dwarf.loc[UNW_ARM_R14], &c->dwarf.ip);
return 1;
}
c->sigcontext_format = ARM_SCF_FREEBSD_SIGFRAME;
sc_addr = sp_addr;
/* Save the SP and PC to be able to return execution at this point
later in time (unw_resume). */
c->sigcontext_sp = c->dwarf.cfa;
c->sigcontext_pc = c->dwarf.ip;
c->sigcontext_addr = sc_addr;
c->frame_info.frame_type = UNW_ARM_FRAME_SIGRETURN;
c->frame_info.cfa_reg_offset = sc_addr - sp_addr;
/* Update the dwarf cursor.
Set the location of the registers to the corresponding addresses of the
uc_mcontext / sigcontext structure contents. */
#define ROFF(n) (FREEBSD_SC_UCONTEXT_OFF + FREEBSD_UC_MCONTEXT_OFF + \
FREEBSD_MC_R0_OFF + (n) * 4)
#define SL(n) \
c->dwarf.loc[UNW_ARM_R ## n] = DWARF_LOC (sc_addr + ROFF(n), 0);
SL(0); SL(1); SL(2); SL(3); SL(4); SL(5); SL(6); SL(7);
SL(8); SL(9); SL(10); SL(11); SL(12); SL(13); SL(14); SL(15);
#undef SL
#undef ROFF
/* Set SP/CFA and PC/IP. */
dwarf_get (&c->dwarf, c->dwarf.loc[UNW_ARM_R13], &c->dwarf.cfa);
dwarf_get (&c->dwarf, c->dwarf.loc[UNW_ARM_R15], &c->dwarf.ip);
return 1;
}
/* Returns 1 in case of a non-RT signal frame and 2 in case of a RT signal
frame. */
int
unw_is_signal_frame (unw_cursor_t *cursor)
{
struct cursor *c = (struct cursor *) cursor;
unw_word_t w0, w1, w2, w3, ip;
unw_addr_space_t as;
unw_accessors_t *a;
void *arg;
int ret;
as = c->dwarf.as;
a = unw_get_accessors_int (as);
arg = c->dwarf.as_arg;
ip = c->dwarf.ip;
if ((ret = (*a->access_mem) (as, ip, &w0, 0, arg)) < 0)
return ret;
if ((ret = (*a->access_mem) (as, ip + 4, &w1, 0, arg)) < 0)
return ret;
if ((ret = (*a->access_mem) (as, ip + 8, &w2, 0, arg)) < 0)
return ret;
if ((ret = (*a->access_mem) (as, ip + 12, &w3, 0, arg)) < 0)
return ret;
if (w0 == 0xe1a0000d && w1 == 0xe2800040 && w2 == 0xe59f700c &&
w3 == 0xef0001a1)
return UNW_ARM_FRAME_SIGRETURN;
if ((ret = (*a->access_mem) (as, ip - 4, &w0, 0, arg)) < 0)
return ret;
if (w0 == 0xef000000)
return UNW_ARM_FRAME_SYSCALL;
return 0;
}
| -1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/coreclr/jit/bitsetops.h
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
BSOPNAME(BSOP_Assign)
BSOPNAME(BSOP_AssignAllowUninitRhs)
BSOPNAME(BSOP_AssignNocopy)
BSOPNAME(BSOP_OldStyleClearD)
BSOPNAME(BSOP_ClearD)
BSOPNAME(BSOP_MakeSingleton)
BSOPNAME(BSOP_MakeEmpty)
BSOPNAME(BSOP_MakeFull)
BSOPNAME(BSOP_MakeCopy)
BSOPNAME(BSOP_IsEmpty)
BSOPNAME(BSOP_Count)
BSOPNAME(BSOP_RemoveElemD)
BSOPNAME(BSOP_RemoveElem)
BSOPNAME(BSOP_AddElemD)
BSOPNAME(BSOP_AddElem)
BSOPNAME(BSOP_UnionD)
BSOPNAME(BSOP_Union)
BSOPNAME(BSOP_IntersectionD)
BSOPNAME(BSOP_Intersection)
BSOPNAME(BSOP_IsEmptyIntersection)
BSOPNAME(BSOP_DiffD)
BSOPNAME(BSOP_Diff)
BSOPNAME(BSOP_IsMember)
BSOPNAME(BSOP_IsNotMember)
BSOPNAME(BSOP_NoBitsAbove)
BSOPNAME(BSOP_LeftShiftSingletonByOneD)
BSOPNAME(BSOP_IsSubset)
BSOPNAME(BSOP_Equal)
BSOPNAME(BSOP_NotEqual)
BSOPNAME(BSOP_NextBit)
BSOPNAME(BSOP_ToString)
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
BSOPNAME(BSOP_Assign)
BSOPNAME(BSOP_AssignAllowUninitRhs)
BSOPNAME(BSOP_AssignNocopy)
BSOPNAME(BSOP_OldStyleClearD)
BSOPNAME(BSOP_ClearD)
BSOPNAME(BSOP_MakeSingleton)
BSOPNAME(BSOP_MakeEmpty)
BSOPNAME(BSOP_MakeFull)
BSOPNAME(BSOP_MakeCopy)
BSOPNAME(BSOP_IsEmpty)
BSOPNAME(BSOP_Count)
BSOPNAME(BSOP_RemoveElemD)
BSOPNAME(BSOP_RemoveElem)
BSOPNAME(BSOP_AddElemD)
BSOPNAME(BSOP_AddElem)
BSOPNAME(BSOP_UnionD)
BSOPNAME(BSOP_Union)
BSOPNAME(BSOP_IntersectionD)
BSOPNAME(BSOP_Intersection)
BSOPNAME(BSOP_IsEmptyIntersection)
BSOPNAME(BSOP_DiffD)
BSOPNAME(BSOP_Diff)
BSOPNAME(BSOP_IsMember)
BSOPNAME(BSOP_IsNotMember)
BSOPNAME(BSOP_NoBitsAbove)
BSOPNAME(BSOP_LeftShiftSingletonByOneD)
BSOPNAME(BSOP_IsSubset)
BSOPNAME(BSOP_Equal)
BSOPNAME(BSOP_NotEqual)
BSOPNAME(BSOP_NextBit)
BSOPNAME(BSOP_ToString)
| -1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/coreclr/gc/vxsort/machine_traits.h
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
//
// Created by dans on 6/1/20.
//
#ifndef VXSORT_MACHINE_TRAITS_H
#define VXSORT_MACHINE_TRAITS_H
namespace vxsort {
enum vector_machine {
NONE,
AVX2,
AVX512,
SVE,
};
template <typename T, vector_machine M>
struct vxsort_machine_traits {
public:
typedef T TV;
typedef T TMASK;
typedef T TPACK;
static constexpr bool supports_compress_writes() {
static_assert(sizeof(TV) != sizeof(TV), "func must be specialized!");
return false;
}
static constexpr bool supports_packing() {
static_assert(sizeof(TV) != sizeof(TV), "func must be specialized!");
return false;
}
template <int Shift>
static constexpr bool can_pack(T span) {
static_assert(sizeof(TV) != sizeof(TV), "func must be specialized!");
return false;
}
static TV load_vec(TV* ptr) {
static_assert(sizeof(TV) != sizeof(TV), "func must be specialized!");
}
static void store_vec(TV* ptr, TV v) {
static_assert(sizeof(TV) != sizeof(TV), "func must be specialized!");
}
static void store_compress_vec(TV* ptr, TV v, TMASK mask) {
static_assert(sizeof(TV) != sizeof(TV), "func must be specialized!");
}
static TV partition_vector(TV v, int mask);
static TV broadcast(T pivot);
static TMASK get_cmpgt_mask(TV a, TV b);
static TV shift_right(TV v, int i);
static TV shift_left(TV v, int i);
static TV add(TV a, TV b);
static TV sub(TV a, TV b);
static TV pack_ordered(TV a, TV b);
static TV pack_unordered(TV a, TV b);
static void unpack_ordered(TV p, TV& u1, TV& u2) {
static_assert(sizeof(TV) != sizeof(TV), "func must be specialized!");
}
template <int Shift>
static T shift_n_sub(T v, T sub) {
static_assert(sizeof(TV) != sizeof(TV), "func must be specialized!");
return v;
}
template <int Shift>
static T unshift_and_add(TPACK from, T add) {
static_assert(sizeof(TV) != sizeof(TV), "func must be specialized!");
return add;
}
};
}
#endif // VXSORT_MACHINE_TRAITS_H
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
//
// Created by dans on 6/1/20.
//
#ifndef VXSORT_MACHINE_TRAITS_H
#define VXSORT_MACHINE_TRAITS_H
namespace vxsort {
enum vector_machine {
NONE,
AVX2,
AVX512,
SVE,
};
template <typename T, vector_machine M>
struct vxsort_machine_traits {
public:
typedef T TV;
typedef T TMASK;
typedef T TPACK;
static constexpr bool supports_compress_writes() {
static_assert(sizeof(TV) != sizeof(TV), "func must be specialized!");
return false;
}
static constexpr bool supports_packing() {
static_assert(sizeof(TV) != sizeof(TV), "func must be specialized!");
return false;
}
template <int Shift>
static constexpr bool can_pack(T span) {
static_assert(sizeof(TV) != sizeof(TV), "func must be specialized!");
return false;
}
static TV load_vec(TV* ptr) {
static_assert(sizeof(TV) != sizeof(TV), "func must be specialized!");
}
static void store_vec(TV* ptr, TV v) {
static_assert(sizeof(TV) != sizeof(TV), "func must be specialized!");
}
static void store_compress_vec(TV* ptr, TV v, TMASK mask) {
static_assert(sizeof(TV) != sizeof(TV), "func must be specialized!");
}
static TV partition_vector(TV v, int mask);
static TV broadcast(T pivot);
static TMASK get_cmpgt_mask(TV a, TV b);
static TV shift_right(TV v, int i);
static TV shift_left(TV v, int i);
static TV add(TV a, TV b);
static TV sub(TV a, TV b);
static TV pack_ordered(TV a, TV b);
static TV pack_unordered(TV a, TV b);
static void unpack_ordered(TV p, TV& u1, TV& u2) {
static_assert(sizeof(TV) != sizeof(TV), "func must be specialized!");
}
template <int Shift>
static T shift_n_sub(T v, T sub) {
static_assert(sizeof(TV) != sizeof(TV), "func must be specialized!");
return v;
}
template <int Shift>
static T unshift_and_add(TPACK from, T add) {
static_assert(sizeof(TV) != sizeof(TV), "func must be specialized!");
return add;
}
};
}
#endif // VXSORT_MACHINE_TRAITS_H
| -1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/mono/mono/utils/mono-machine.h
|
/**
* \file
* machine definitions
*
* Authors:
* Rodrigo Kumpera ([email protected])
*
* Copyright (c) 2011 Novell, Inc (http://www.novell.com)
* Licensed under the MIT license. See LICENSE file in the project root for full license information.
*/
#ifndef __MONO_MONO_MACHINE_H__
#define __MONO_MONO_MACHINE_H__
/* C type matching the size of a machine register. Not always the same as 'int' */
/* Note that member 'p' of MonoInst must be the same type, as OP_PCONST is defined
* as one of the OP_ICONST types, so inst_c0 must be the same as inst_p0
*/
#include "config.h"
#include <glib.h>
// __ILP32__ means integer, long, and pointers are 32bits, and nothing about registers.
// MONO_ARCH_ILP32 means integer, long, and pointers are 32bits, and 64bit registers.
// This is for example x32, arm6432, mipsn32, Alpha/NT.
#ifdef MONO_ARCH_ILP32
typedef gint64 host_mgreg_t;
typedef guint64 host_umgreg_t;
#else
typedef gssize host_mgreg_t;
typedef gsize host_umgreg_t;
#endif
/* SIZEOF_REGISTER ... machine register size of target machine
* TARGET_SIZEOF_VOID_P ... pointer size of target machine
*
* SIZEOF_REGISTER is usually the same as TARGET_SIZEOF_VOID_P, except when MONO_ARCH_ILP32 is defined
*/
#if SIZEOF_REGISTER == 4
typedef gint32 target_mgreg_t;
#else
typedef gint64 target_mgreg_t;
#endif
/* Alignment for MonoArray.vector */
#if defined(_AIX)
/*
* HACK: doubles in structs always align to 4 on AIX... even on 64-bit,
* which is bad for aligned usage like what System.Array.FastCopy does
*/
typedef guint64 mono_64bitaligned_t;
#else
typedef double mono_64bitaligned_t;
#endif
#endif /* __MONO_MONO_MACHINE_H__ */
|
/**
* \file
* machine definitions
*
* Authors:
* Rodrigo Kumpera ([email protected])
*
* Copyright (c) 2011 Novell, Inc (http://www.novell.com)
* Licensed under the MIT license. See LICENSE file in the project root for full license information.
*/
#ifndef __MONO_MONO_MACHINE_H__
#define __MONO_MONO_MACHINE_H__
/* C type matching the size of a machine register. Not always the same as 'int' */
/* Note that member 'p' of MonoInst must be the same type, as OP_PCONST is defined
* as one of the OP_ICONST types, so inst_c0 must be the same as inst_p0
*/
#include "config.h"
#include <glib.h>
// __ILP32__ means integer, long, and pointers are 32bits, and nothing about registers.
// MONO_ARCH_ILP32 means integer, long, and pointers are 32bits, and 64bit registers.
// This is for example x32, arm6432, mipsn32, Alpha/NT.
#ifdef MONO_ARCH_ILP32
typedef gint64 host_mgreg_t;
typedef guint64 host_umgreg_t;
#else
typedef gssize host_mgreg_t;
typedef gsize host_umgreg_t;
#endif
/* SIZEOF_REGISTER ... machine register size of target machine
* TARGET_SIZEOF_VOID_P ... pointer size of target machine
*
* SIZEOF_REGISTER is usually the same as TARGET_SIZEOF_VOID_P, except when MONO_ARCH_ILP32 is defined
*/
#if SIZEOF_REGISTER == 4
typedef gint32 target_mgreg_t;
#else
typedef gint64 target_mgreg_t;
#endif
/* Alignment for MonoArray.vector */
#if defined(_AIX)
/*
* HACK: doubles in structs always align to 4 on AIX... even on 64-bit,
* which is bad for aligned usage like what System.Array.FastCopy does
*/
typedef guint64 mono_64bitaligned_t;
#else
typedef double mono_64bitaligned_t;
#endif
#endif /* __MONO_MONO_MACHINE_H__ */
| -1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/coreclr/pal/src/libunwind/src/coredump/_UPT_put_unwind_info.c
|
/* libunwind - a platform-independent unwind library
Copyright (C) 2003 Hewlett-Packard Co
Contributed by David Mosberger-Tang <[email protected]>
This file is part of libunwind.
Permission is hereby granted, free of charge, to any person obtaining
a copy of this software and associated documentation files (the
"Software"), to deal in the Software without restriction, including
without limitation the rights to use, copy, modify, merge, publish,
distribute, sublicense, and/or sell copies of the Software, and to
permit persons to whom the Software is furnished to do so, subject to
the following conditions:
The above copyright notice and this permission notice shall be
included in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */
#include "_UCD_lib.h"
#include "_UCD_internal.h"
void
_UCD_put_unwind_info (unw_addr_space_t as, unw_proc_info_t *pi, void *arg)
{
if (!pi->unwind_info)
return;
free (pi->unwind_info);
pi->unwind_info = NULL;
}
|
/* libunwind - a platform-independent unwind library
Copyright (C) 2003 Hewlett-Packard Co
Contributed by David Mosberger-Tang <[email protected]>
This file is part of libunwind.
Permission is hereby granted, free of charge, to any person obtaining
a copy of this software and associated documentation files (the
"Software"), to deal in the Software without restriction, including
without limitation the rights to use, copy, modify, merge, publish,
distribute, sublicense, and/or sell copies of the Software, and to
permit persons to whom the Software is furnished to do so, subject to
the following conditions:
The above copyright notice and this permission notice shall be
included in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */
#include "_UCD_lib.h"
#include "_UCD_internal.h"
void
_UCD_put_unwind_info (unw_addr_space_t as, unw_proc_info_t *pi, void *arg)
{
if (!pi->unwind_info)
return;
free (pi->unwind_info);
pi->unwind_info = NULL;
}
| -1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/mono/mono/mini/tramp-arm.c
|
/**
* \file
* JIT trampoline code for ARM
*
* Authors:
* Paolo Molaro ([email protected])
*
* (C) 2001-2003 Ximian, Inc.
* Copyright 2003-2011 Novell Inc
* Copyright 2011 Xamarin Inc
* Licensed under the MIT license. See LICENSE file in the project root for full license information.
*/
#include <config.h>
#include <glib.h>
#include <mono/metadata/abi-details.h>
#include <mono/metadata/marshal.h>
#include <mono/metadata/tabledefs.h>
#include <mono/metadata/profiler-private.h>
#include <mono/arch/arm/arm-codegen.h>
#include <mono/arch/arm/arm-vfp-codegen.h>
#include "mini.h"
#include "mini-arm.h"
#include "mini-runtime.h"
#include "jit-icalls.h"
#ifndef DISABLE_INTERPRETER
#include "interp/interp.h"
#endif
#include "mono/utils/mono-tls-inline.h"
#include <mono/metadata/components.h>
void
mono_arch_patch_callsite (guint8 *method_start, guint8 *code_ptr, guint8 *addr)
{
guint32 *code = (guint32*)code_ptr;
/* This is the 'bl' or the 'mov pc' instruction */
--code;
/*
* Note that methods are called also with the bl opcode.
*/
if ((((*code) >> 25) & 7) == 5) {
/*g_print ("direct patching\n");*/
arm_patch ((guint8*)code, addr);
mono_arch_flush_icache ((guint8*)code, 4);
return;
}
if ((((*code) >> 20) & 0xFF) == 0x12) {
/*g_print ("patching bx\n");*/
arm_patch ((guint8*)code, addr);
mono_arch_flush_icache ((guint8*)(code - 2), 4);
return;
}
g_assert_not_reached ();
}
void
mono_arch_patch_plt_entry (guint8 *code, gpointer *got, host_mgreg_t *regs, guint8 *addr)
{
guint8 *jump_entry;
/* Patch the jump table entry used by the plt entry */
if (*(guint32*)code == 0xe59fc000) {
/* ARM_LDR_IMM (code, ARMREG_IP, ARMREG_PC, 0); */
guint32 offset = ((guint32*)code)[2];
jump_entry = code + offset + 12;
} else if (*(guint16*)(code - 4) == 0xf8df) {
/*
* Thumb PLT entry, begins with ldr.w ip, [pc, #8], code points to entry + 4, see
* mono_arm_get_thumb_plt_entry ().
*/
guint32 offset;
code -= 4;
offset = *(guint32*)(code + 12);
jump_entry = code + offset + 8;
} else {
g_assert_not_reached ();
}
*(guint8**)jump_entry = addr;
}
#ifndef DISABLE_JIT
#define arm_is_imm12(v) ((int)(v) > -4096 && (int)(v) < 4096)
/*
* Return the instruction to jump from code to target, 0 if not
* reachable with a single instruction
*/
static guint32
branch_for_target_reachable (guint8 *branch, guint8 *target)
{
gint diff = target - branch - 8;
g_assert ((diff & 3) == 0);
if (diff >= 0) {
if (diff <= 33554431)
return (ARMCOND_AL << ARMCOND_SHIFT) | (ARM_BR_TAG) | (diff >> 2);
} else {
/* diff between 0 and -33554432 */
if (diff >= -33554432)
return (ARMCOND_AL << ARMCOND_SHIFT) | (ARM_BR_TAG) | ((diff >> 2) & ~0xff000000);
}
return 0;
}
static guint8*
emit_bx (guint8* code, int reg)
{
if (mono_arm_thumb_supported ())
ARM_BX (code, reg);
else
ARM_MOV_REG_REG (code, ARMREG_PC, reg);
return code;
}
/* Stack size for trampoline function
*/
#define STACK ALIGN_TO (MONO_ABI_SIZEOF (MonoLMF), MONO_ARCH_FRAME_ALIGNMENT)
/* Method-specific trampoline code fragment size */
#define METHOD_TRAMPOLINE_SIZE 64
/* Jump-specific trampoline code fragment size */
#define JUMP_TRAMPOLINE_SIZE 64
guchar*
mono_arch_create_generic_trampoline (MonoTrampolineType tramp_type, MonoTrampInfo **info, gboolean aot)
{
const char *tramp_name;
guint8 *buf, *code = NULL;
guint8 *load_get_lmf_addr = NULL, *load_trampoline = NULL;
guint8 *labels [16];
gpointer *constants;
int i, orig_cfa_offset, cfa_offset, regsave_size, lr_offset;
GSList *unwind_ops = NULL;
MonoJumpInfo *ji = NULL;
int buf_len;
/* Now we'll create in 'buf' the ARM trampoline code. This
is the trampoline code common to all methods */
buf_len = 272;
/* Add space for saving/restoring VFP regs. */
if (mono_arm_is_hard_float ())
buf_len += 8 * 2;
code = buf = mono_global_codeman_reserve (buf_len);
/*
* At this point lr points to the specific arg and sp points to the saved
* regs on the stack (all but PC and SP). The original LR value has been
* saved as sp + LR_OFFSET by the push in the specific trampoline
*/
/* The size of the area already allocated by the push in the specific trampoline */
regsave_size = 14 * sizeof (target_mgreg_t);
/* The offset where lr was saved inside the regsave area */
lr_offset = 13 * sizeof (target_mgreg_t);
// CFA = SP + (num registers pushed) * 4
cfa_offset = 14 * sizeof (target_mgreg_t);
mono_add_unwind_op_def_cfa (unwind_ops, code, buf, ARMREG_SP, cfa_offset);
// PC saved at sp+LR_OFFSET
mono_add_unwind_op_offset (unwind_ops, code, buf, ARMREG_LR, -4);
/* Callee saved regs */
for (i = 0; i < 8; ++i)
mono_add_unwind_op_offset (unwind_ops, code, buf, ARMREG_R4 + i, -regsave_size + ((4 + i) * 4));
if (aot) {
/*
* For page trampolines the data is in r1, so just move it, otherwise use the got slot as below.
* The trampoline contains a pc-relative offset to the got slot
* preceeding the got slot where the value is stored. The offset can be
* found at [lr + 0].
*/
/* See if emit_trampolines () in aot-compiler.c for the '2' */
if (aot == 2) {
ARM_MOV_REG_REG (code, ARMREG_V2, ARMREG_R1);
} else {
ARM_LDR_IMM (code, ARMREG_V2, ARMREG_LR, 0);
ARM_ADD_REG_IMM (code, ARMREG_V2, ARMREG_V2, 4, 0);
ARM_LDR_REG_REG (code, ARMREG_V2, ARMREG_V2, ARMREG_LR);
}
} else {
ARM_LDR_IMM (code, ARMREG_V2, ARMREG_LR, 0);
}
ARM_LDR_IMM (code, ARMREG_V3, ARMREG_SP, lr_offset);
/* we build the MonoLMF structure on the stack - see mini-arm.h
* The pointer to the struct is put in r1.
* the iregs array is already allocated on the stack by push.
*/
code = mono_arm_emit_load_imm (code, ARMREG_R2, STACK - regsave_size);
ARM_SUB_REG_REG (code, ARMREG_SP, ARMREG_SP, ARMREG_R2);
cfa_offset += STACK - regsave_size;
mono_add_unwind_op_def_cfa_offset (unwind_ops, code, buf, cfa_offset);
/* V1 == lmf */
code = mono_arm_emit_load_imm (code, ARMREG_R2, STACK - MONO_ABI_SIZEOF (MonoLMF));
ARM_ADD_REG_REG (code, ARMREG_V1, ARMREG_SP, ARMREG_R2);
/* ok, now we can continue with the MonoLMF setup, mostly untouched
* from emit_prolog in mini-arm.c
* This is a synthetized call to mono_get_lmf_addr ()
*/
if (aot) {
ji = mono_patch_info_list_prepend (ji, code - buf, MONO_PATCH_INFO_JIT_ICALL_ADDR, GUINT_TO_POINTER (MONO_JIT_ICALL_mono_get_lmf_addr));
ARM_LDR_IMM (code, ARMREG_R0, ARMREG_PC, 0);
ARM_B (code, 0);
*(gpointer*)code = NULL;
code += 4;
ARM_LDR_REG_REG (code, ARMREG_R0, ARMREG_PC, ARMREG_R0);
} else {
load_get_lmf_addr = code;
code += 4;
}
ARM_MOV_REG_REG (code, ARMREG_LR, ARMREG_PC);
code = emit_bx (code, ARMREG_R0);
/*
* The stack now looks like:
* <saved regs>
* v1 -> <rest of LMF>
* sp -> <alignment>
*/
/* r0 is the result from mono_get_lmf_addr () */
ARM_STR_IMM (code, ARMREG_R0, ARMREG_V1, MONO_STRUCT_OFFSET (MonoLMF, lmf_addr));
/* new_lmf->previous_lmf = *lmf_addr */
ARM_LDR_IMM (code, ARMREG_R2, ARMREG_R0, MONO_STRUCT_OFFSET (MonoLMF, previous_lmf));
ARM_STR_IMM (code, ARMREG_R2, ARMREG_V1, MONO_STRUCT_OFFSET (MonoLMF, previous_lmf));
/* *(lmf_addr) = r1 */
ARM_STR_IMM (code, ARMREG_V1, ARMREG_R0, MONO_STRUCT_OFFSET (MonoLMF, previous_lmf));
/* save method info (it's in v2) */
if ((tramp_type == MONO_TRAMPOLINE_JIT) || (tramp_type == MONO_TRAMPOLINE_JUMP))
ARM_STR_IMM (code, ARMREG_V2, ARMREG_V1, MONO_STRUCT_OFFSET (MonoLMF, method));
else {
ARM_MOV_REG_IMM8 (code, ARMREG_R2, 0);
ARM_STR_IMM (code, ARMREG_R2, ARMREG_V1, MONO_STRUCT_OFFSET (MonoLMF, method));
}
/* save caller SP */
code = mono_arm_emit_load_imm (code, ARMREG_R2, cfa_offset);
ARM_ADD_REG_REG (code, ARMREG_R2, ARMREG_SP, ARMREG_R2);
ARM_STR_IMM (code, ARMREG_R2, ARMREG_V1, MONO_STRUCT_OFFSET (MonoLMF, sp));
/* save caller FP */
ARM_LDR_IMM (code, ARMREG_R2, ARMREG_V1, (MONO_STRUCT_OFFSET (MonoLMF, iregs) + ARMREG_FP*4));
ARM_STR_IMM (code, ARMREG_R2, ARMREG_V1, MONO_STRUCT_OFFSET (MonoLMF, fp));
/* save the IP (caller ip) */
if (tramp_type == MONO_TRAMPOLINE_JUMP) {
ARM_MOV_REG_IMM8 (code, ARMREG_R2, 0);
} else {
ARM_LDR_IMM (code, ARMREG_R2, ARMREG_V1, (MONO_STRUCT_OFFSET (MonoLMF, iregs) + 13*4));
}
ARM_STR_IMM (code, ARMREG_R2, ARMREG_V1, MONO_STRUCT_OFFSET (MonoLMF, ip));
/* Save VFP registers. */
if (mono_arm_is_hard_float ()) {
/*
* Strictly speaking, we don't have to save d0-d7 in the LMF, but
* it's easier than attempting to store them on the stack since
* this trampoline code is pretty messy.
*/
ARM_ADD_REG_IMM8 (code, ARMREG_R0, ARMREG_V1, MONO_STRUCT_OFFSET (MonoLMF, fregs));
ARM_FSTMD (code, ARM_VFP_D0, 8, ARMREG_R0);
}
/*
* Now we're ready to call xxx_trampoline ().
*/
/* Arg 1: the saved registers */
ARM_ADD_REG_IMM (code, ARMREG_R0, ARMREG_V1, MONO_STRUCT_OFFSET (MonoLMF, iregs), 0);
/* Arg 2: code (next address to the instruction that called us) */
if (tramp_type == MONO_TRAMPOLINE_JUMP) {
ARM_MOV_REG_IMM8 (code, ARMREG_R1, 0);
} else {
ARM_MOV_REG_REG (code, ARMREG_R1, ARMREG_V3);
}
/* Arg 3: the specific argument, stored in v2
*/
ARM_MOV_REG_REG (code, ARMREG_R2, ARMREG_V2);
if (aot) {
ji = mono_patch_info_list_prepend (ji, code - buf, MONO_PATCH_INFO_JIT_ICALL_ADDR, GINT_TO_POINTER (mono_trampoline_type_to_jit_icall_id (tramp_type)));
ARM_LDR_IMM (code, ARMREG_IP, ARMREG_PC, 0);
ARM_B (code, 0);
*(gpointer*)code = NULL;
code += 4;
ARM_LDR_REG_REG (code, ARMREG_IP, ARMREG_PC, ARMREG_IP);
} else {
load_trampoline = code;
code += 4;
}
ARM_MOV_REG_REG (code, ARMREG_LR, ARMREG_PC);
code = emit_bx (code, ARMREG_IP);
/* OK, code address is now on r0. Move it to the place on the stack
* where IP was saved (it is now no more useful to us and it can be
* clobbered). This way we can just restore all the regs in one inst
* and branch to IP.
*/
ARM_STR_IMM (code, ARMREG_R0, ARMREG_V1, MONO_STRUCT_OFFSET (MonoLMF, iregs) + (ARMREG_R12 * sizeof (target_mgreg_t)));
/*
* Now we restore the MonoLMF (see emit_epilogue in mini-arm.c)
* and the rest of the registers, so the method called will see
* the same state as before we executed.
*/
/* ip = previous_lmf */
ARM_LDR_IMM (code, ARMREG_IP, ARMREG_V1, MONO_STRUCT_OFFSET (MonoLMF, previous_lmf));
/* lr = lmf_addr */
ARM_LDR_IMM (code, ARMREG_LR, ARMREG_V1, MONO_STRUCT_OFFSET (MonoLMF, lmf_addr));
/* *(lmf_addr) = previous_lmf */
ARM_STR_IMM (code, ARMREG_IP, ARMREG_LR, MONO_STRUCT_OFFSET (MonoLMF, previous_lmf));
/* Check for thread interruption */
/* This is not perf critical code so no need to check the interrupt flag */
if (aot) {
code = mono_arm_emit_aotconst (&ji, code, buf, ARMREG_IP, MONO_PATCH_INFO_JIT_ICALL_ADDR, GUINT_TO_POINTER (MONO_JIT_ICALL_mono_thread_force_interruption_checkpoint_noraise));
} else {
ARM_LDR_IMM (code, ARMREG_IP, ARMREG_PC, 0);
ARM_B (code, 0);
*(gpointer*)code = (gpointer)mono_thread_force_interruption_checkpoint_noraise;
code += 4;
}
ARM_MOV_REG_REG (code, ARMREG_LR, ARMREG_PC);
code = emit_bx (code, ARMREG_IP);
/* Check whenever an exception needs to be thrown */
ARM_CMP_REG_IMM (code, ARMREG_R0, 0, 0);
labels [0] = code;
ARM_B_COND (code, ARMCOND_NE, 0);
orig_cfa_offset = cfa_offset;
/* Normal case */
/* Restore VFP registers. */
if (mono_arm_is_hard_float ()) {
ARM_ADD_REG_IMM8 (code, ARMREG_R0, ARMREG_V1, MONO_STRUCT_OFFSET (MonoLMF, fregs));
ARM_FLDMD (code, ARM_VFP_D0, 8, ARMREG_R0);
}
/* Non-standard function epilogue. Instead of doing a proper
* return, we just jump to the compiled code.
*/
/* Restore the registers and jump to the code:
* Note that IP has been conveniently set to the method addr.
*/
ARM_ADD_REG_IMM8 (code, ARMREG_SP, ARMREG_SP, STACK - regsave_size);
cfa_offset -= STACK - regsave_size;
mono_add_unwind_op_def_cfa_offset (unwind_ops, code, buf, cfa_offset);
ARM_POP_NWB (code, 0x5fff);
mono_add_unwind_op_same_value (unwind_ops, code, buf, ARMREG_LR);
if (tramp_type == MONO_TRAMPOLINE_RGCTX_LAZY_FETCH)
ARM_MOV_REG_REG (code, ARMREG_R0, ARMREG_IP);
ARM_ADD_REG_IMM8 (code, ARMREG_SP, ARMREG_SP, regsave_size);
cfa_offset -= regsave_size;
g_assert (cfa_offset == 0);
mono_add_unwind_op_def_cfa_offset (unwind_ops, code, buf, cfa_offset);
if (MONO_TRAMPOLINE_TYPE_MUST_RETURN (tramp_type))
code = emit_bx (code, ARMREG_LR);
else
code = emit_bx (code, ARMREG_IP);
if (!aot) {
constants = (gpointer*)code;
constants [0] = (gpointer)mono_get_lmf_addr;
constants [1] = (gpointer)mono_get_trampoline_func (tramp_type);
/* backpatch by emitting the missing instructions skipped above */
ARM_LDR_IMM (load_get_lmf_addr, ARMREG_R0, ARMREG_PC, (code - load_get_lmf_addr - 8));
ARM_LDR_IMM (load_trampoline, ARMREG_IP, ARMREG_PC, (code + 4 - load_trampoline - 8));
code += 8;
}
/* Exception case */
arm_patch (labels [0], code);
cfa_offset = orig_cfa_offset;
/*
* We have an exception we want to throw in the caller's frame, so pop
* the trampoline frame and throw from the caller.
*/
/* Store the exception in place of IP */
ARM_STR_IMM (code, ARMREG_R0, ARMREG_V1, MONO_STRUCT_OFFSET (MonoLMF, iregs) + (ARMREG_R12 * sizeof (target_mgreg_t)));
ARM_ADD_REG_IMM8 (code, ARMREG_SP, ARMREG_SP, STACK - regsave_size);
cfa_offset -= STACK - regsave_size;
mono_add_unwind_op_def_cfa_offset (unwind_ops, code, buf, cfa_offset);
/* Restore all regs */
ARM_POP_NWB (code, 0x5fff);
mono_add_unwind_op_same_value (unwind_ops, code, buf, ARMREG_LR);
ARM_ADD_REG_IMM8 (code, ARMREG_SP, ARMREG_SP, regsave_size);
cfa_offset -= regsave_size;
g_assert (cfa_offset == 0);
mono_add_unwind_op_def_cfa_offset (unwind_ops, code, buf, cfa_offset);
/* We are in the parent frame, the exception is in ip */
ARM_MOV_REG_REG (code, ARMREG_R0, ARMREG_IP);
/*
* EH is initialized after trampolines, so get the address of the variable
* which contains throw_exception, and load it from there.
*/
if (aot) {
/* Not really a jit icall */
code = mono_arm_emit_aotconst (&ji, code, buf, ARMREG_IP, MONO_PATCH_INFO_JIT_ICALL_ADDR, GUINT_TO_POINTER (MONO_JIT_ICALL_mono_rethrow_preserve_exception));
} else {
ARM_LDR_IMM (code, ARMREG_IP, ARMREG_PC, 0);
ARM_B (code, 0);
*(gpointer*)code = mono_get_rethrow_preserve_exception_addr ();
code += 4;
}
ARM_LDR_IMM (code, ARMREG_IP, ARMREG_IP, 0);
/* Branch to the throw trampoline */
/* lr contains the return address, the trampoline will use it as the throw site */
code = emit_bx (code, ARMREG_IP);
/* Flush instruction cache, since we've generated code */
mono_arch_flush_icache (buf, code - buf);
MONO_PROFILER_RAISE (jit_code_buffer, (buf, code - buf, MONO_PROFILER_CODE_BUFFER_HELPER, NULL));
/* Sanity check */
g_assert ((code - buf) <= buf_len);
g_assert (info);
tramp_name = mono_get_generic_trampoline_name (tramp_type);
*info = mono_tramp_info_create (tramp_name, buf, code - buf, ji, unwind_ops);
return buf;
}
#define SPEC_TRAMP_SIZE 24
gpointer
mono_arch_create_specific_trampoline (gpointer arg1, MonoTrampolineType tramp_type, MonoMemoryManager *mem_manager, guint32 *code_len)
{
guint8 *code, *buf, *tramp;
guint32 *constants;
guint32 short_branch = FALSE;
guint32 size = SPEC_TRAMP_SIZE;
tramp = mono_get_trampoline_code (tramp_type);
if (mem_manager) {
code = buf = (guint8 *)mono_mem_manager_code_reserve_align (mem_manager, size, 4);
if ((short_branch = branch_for_target_reachable (code + 4, tramp))) {
size = 12;
mono_mem_manager_code_commit (mem_manager, code, SPEC_TRAMP_SIZE, size);
}
} else {
code = buf = mono_global_codeman_reserve (size);
short_branch = FALSE;
}
/* we could reduce this to 12 bytes if tramp is within reach:
* ARM_PUSH ()
* ARM_BL ()
* method-literal
* The called code can access method using the lr register
* A 20 byte sequence could be:
* ARM_PUSH ()
* ARM_MOV_REG_REG (lr, pc)
* ARM_LDR_IMM (pc, pc, 0)
* method-literal
* tramp-literal
*/
/* We save all the registers, except PC and SP */
ARM_PUSH (code, 0x5fff);
if (short_branch) {
constants = (guint32*)code;
constants [0] = short_branch | (1 << 24);
constants [1] = GPOINTER_TO_UINT (arg1);
code += 8;
} else {
ARM_LDR_IMM (code, ARMREG_R1, ARMREG_PC, 8); /* temp reg */
ARM_MOV_REG_REG (code, ARMREG_LR, ARMREG_PC);
code = emit_bx (code, ARMREG_R1);
constants = (guint32*)code;
constants [0] = GPOINTER_TO_UINT (arg1);
constants [1] = GPOINTER_TO_UINT (tramp);
code += 8;
}
/* Flush instruction cache, since we've generated code */
mono_arch_flush_icache (buf, code - buf);
MONO_PROFILER_RAISE (jit_code_buffer, (buf, code - buf, MONO_PROFILER_CODE_BUFFER_SPECIFIC_TRAMPOLINE, mono_get_generic_trampoline_simple_name (tramp_type)));
g_assert ((code - buf) <= size);
if (code_len)
*code_len = code - buf;
return buf;
}
/*
* mono_arch_get_unbox_trampoline:
* @m: method pointer
* @addr: pointer to native code for @m
*
* when value type methods are called through the vtable we need to unbox the
* this argument. This method returns a pointer to a trampoline which does
* unboxing before calling the method
*/
gpointer
mono_arch_get_unbox_trampoline (MonoMethod *m, gpointer addr)
{
guint8 *code, *start;
MonoMemoryManager *mem_manager = m_method_get_mem_manager (m);
GSList *unwind_ops;
guint32 size = 16;
start = code = mono_mem_manager_code_reserve (mem_manager, size);
unwind_ops = mono_arch_get_cie_program ();
ARM_LDR_IMM (code, ARMREG_IP, ARMREG_PC, 4);
ARM_ADD_REG_IMM8 (code, ARMREG_R0, ARMREG_R0, MONO_ABI_SIZEOF (MonoObject));
code = emit_bx (code, ARMREG_IP);
*(guint32*)code = (guint32)(gsize)addr;
code += 4;
mono_arch_flush_icache (start, code - start);
MONO_PROFILER_RAISE (jit_code_buffer, (start, code - start, MONO_PROFILER_CODE_BUFFER_UNBOX_TRAMPOLINE, m));
g_assert ((code - start) <= size);
/*g_print ("unbox trampoline at %d for %s:%s\n", this_pos, m->klass->name, m->name);
g_print ("unbox code is at %p for method at %p\n", start, addr);*/
mono_tramp_info_register (mono_tramp_info_create (NULL, start, code - start, NULL, unwind_ops), mem_manager);
return start;
}
gpointer
mono_arch_get_static_rgctx_trampoline (MonoMemoryManager *mem_manager, gpointer arg, gpointer addr)
{
guint8 *code, *start;
GSList *unwind_ops;
int buf_len = 16;
start = code = mono_mem_manager_code_reserve (mem_manager, buf_len);
unwind_ops = mono_arch_get_cie_program ();
ARM_LDR_IMM (code, MONO_ARCH_RGCTX_REG, ARMREG_PC, 0);
ARM_LDR_IMM (code, ARMREG_PC, ARMREG_PC, 0);
*(guint32*)code = (guint32)(gsize)arg;
code += 4;
*(guint32*)code = (guint32)(gsize)addr;
code += 4;
g_assert ((code - start) <= buf_len);
mono_arch_flush_icache (start, code - start);
MONO_PROFILER_RAISE (jit_code_buffer, (start, code - start, MONO_PROFILER_CODE_BUFFER_GENERICS_TRAMPOLINE, NULL));
mono_tramp_info_register (mono_tramp_info_create (NULL, start, code - start, NULL, unwind_ops), mem_manager);
return start;
}
/* Same as static rgctx trampoline, but clobbering ARMREG_IP, which is scratch */
gpointer
mono_arch_get_ftnptr_arg_trampoline (MonoMemoryManager *mem_manager, gpointer arg, gpointer addr)
{
guint8 *code, *start;
GSList *unwind_ops;
int buf_len = 16;
start = code = mono_mem_manager_code_reserve (mem_manager, buf_len);
unwind_ops = mono_arch_get_cie_program ();
ARM_LDR_IMM (code, ARMREG_IP, ARMREG_PC, 0);
ARM_LDR_IMM (code, ARMREG_PC, ARMREG_PC, 0);
*(guint32*)code = (guint32)(gsize)arg;
code += 4;
*(guint32*)code = (guint32)(gsize)addr;
code += 4;
g_assert ((code - start) <= buf_len);
mono_arch_flush_icache (start, code - start);
MONO_PROFILER_RAISE (jit_code_buffer, (start, code - start, MONO_PROFILER_CODE_BUFFER_GENERICS_TRAMPOLINE, NULL));
mono_tramp_info_register (mono_tramp_info_create (NULL, start, code - start, NULL, unwind_ops), mem_manager);
return start;
}
gpointer
mono_arch_create_rgctx_lazy_fetch_trampoline (guint32 slot, MonoTrampInfo **info, gboolean aot)
{
guint8 *tramp;
guint8 *code, *buf;
int tramp_size;
guint32 code_len;
guint8 **rgctx_null_jumps;
int depth, index;
int i, njumps;
gboolean mrgctx;
MonoJumpInfo *ji = NULL;
GSList *unwind_ops = NULL;
mrgctx = MONO_RGCTX_SLOT_IS_MRGCTX (slot);
index = MONO_RGCTX_SLOT_INDEX (slot);
if (mrgctx)
index += MONO_SIZEOF_METHOD_RUNTIME_GENERIC_CONTEXT / TARGET_SIZEOF_VOID_P;
for (depth = 0; ; ++depth) {
int size = mono_class_rgctx_get_array_size (depth, mrgctx);
if (index < size - 1)
break;
index -= size - 1;
}
tramp_size = 64 + 16 * depth;
code = buf = mono_global_codeman_reserve (tramp_size);
unwind_ops = mono_arch_get_cie_program ();
rgctx_null_jumps = g_malloc (sizeof (guint8*) * (depth + 2));
njumps = 0;
/* The vtable/mrgctx is in R0 */
g_assert (MONO_ARCH_VTABLE_REG == ARMREG_R0);
if (mrgctx) {
/* get mrgctx ptr */
ARM_MOV_REG_REG (code, ARMREG_R1, ARMREG_R0);
} else {
/* load rgctx ptr from vtable */
g_assert (arm_is_imm12 (MONO_STRUCT_OFFSET (MonoVTable, runtime_generic_context)));
ARM_LDR_IMM (code, ARMREG_R1, ARMREG_R0, MONO_STRUCT_OFFSET (MonoVTable, runtime_generic_context));
/* is the rgctx ptr null? */
ARM_CMP_REG_IMM (code, ARMREG_R1, 0, 0);
/* if yes, jump to actual trampoline */
rgctx_null_jumps [njumps ++] = code;
ARM_B_COND (code, ARMCOND_EQ, 0);
}
for (i = 0; i < depth; ++i) {
/* load ptr to next array */
if (mrgctx && i == 0) {
g_assert (arm_is_imm12 (MONO_SIZEOF_METHOD_RUNTIME_GENERIC_CONTEXT));
ARM_LDR_IMM (code, ARMREG_R1, ARMREG_R1, MONO_SIZEOF_METHOD_RUNTIME_GENERIC_CONTEXT);
} else {
ARM_LDR_IMM (code, ARMREG_R1, ARMREG_R1, 0);
}
/* is the ptr null? */
ARM_CMP_REG_IMM (code, ARMREG_R1, 0, 0);
/* if yes, jump to actual trampoline */
rgctx_null_jumps [njumps ++] = code;
ARM_B_COND (code, ARMCOND_EQ, 0);
}
/* fetch slot */
code = mono_arm_emit_load_imm (code, ARMREG_R2, TARGET_SIZEOF_VOID_P * (index + 1));
ARM_LDR_REG_REG (code, ARMREG_R1, ARMREG_R1, ARMREG_R2);
/* is the slot null? */
ARM_CMP_REG_IMM (code, ARMREG_R1, 0, 0);
/* if yes, jump to actual trampoline */
rgctx_null_jumps [njumps ++] = code;
ARM_B_COND (code, ARMCOND_EQ, 0);
/* otherwise return, result is in R1 */
ARM_MOV_REG_REG (code, ARMREG_R0, ARMREG_R1);
code = emit_bx (code, ARMREG_LR);
g_assert (njumps <= depth + 2);
for (i = 0; i < njumps; ++i)
arm_patch (rgctx_null_jumps [i], code);
g_free (rgctx_null_jumps);
/* Slowpath */
/* The vtable/mrgctx is still in R0 */
if (aot) {
ji = mono_patch_info_list_prepend (ji, code - buf, MONO_PATCH_INFO_SPECIFIC_TRAMPOLINE_LAZY_FETCH_ADDR, GUINT_TO_POINTER (slot));
ARM_LDR_IMM (code, ARMREG_R1, ARMREG_PC, 0);
ARM_B (code, 0);
*(gpointer*)code = NULL;
code += 4;
ARM_LDR_REG_REG (code, ARMREG_PC, ARMREG_PC, ARMREG_R1);
} else {
MonoMemoryManager *mem_manager = mini_get_default_mem_manager ();
tramp = (guint8*)mono_arch_create_specific_trampoline (GUINT_TO_POINTER (slot), MONO_TRAMPOLINE_RGCTX_LAZY_FETCH, mem_manager, &code_len);
/* Jump to the actual trampoline */
ARM_LDR_IMM (code, ARMREG_R1, ARMREG_PC, 0); /* temp reg */
code = emit_bx (code, ARMREG_R1);
*(gpointer*)code = tramp;
code += 4;
}
mono_arch_flush_icache (buf, code - buf);
MONO_PROFILER_RAISE (jit_code_buffer, (buf, code - buf, MONO_PROFILER_CODE_BUFFER_GENERICS_TRAMPOLINE, NULL));
g_assert (code - buf <= tramp_size);
char *name = mono_get_rgctx_fetch_trampoline_name (slot);
*info = mono_tramp_info_create (name, buf, code - buf, ji, unwind_ops);
g_free (name);
return buf;
}
gpointer
mono_arch_create_general_rgctx_lazy_fetch_trampoline (MonoTrampInfo **info, gboolean aot)
{
guint8 *code, *buf;
int tramp_size;
MonoJumpInfo *ji = NULL;
GSList *unwind_ops = NULL;
g_assert (aot);
tramp_size = 32;
code = buf = mono_global_codeman_reserve (tramp_size);
unwind_ops = mono_arch_get_cie_program ();
// FIXME: Currently, we always go to the slow path.
/* Load trampoline addr */
ARM_LDR_IMM (code, ARMREG_R1, MONO_ARCH_RGCTX_REG, 4);
/* The vtable/mrgctx is in R0 */
g_assert (MONO_ARCH_VTABLE_REG == ARMREG_R0);
code = emit_bx (code, ARMREG_R1);
mono_arch_flush_icache (buf, code - buf);
MONO_PROFILER_RAISE (jit_code_buffer, (buf, code - buf, MONO_PROFILER_CODE_BUFFER_GENERICS_TRAMPOLINE, NULL));
g_assert (code - buf <= tramp_size);
*info = mono_tramp_info_create ("rgctx_fetch_trampoline_general", buf, code - buf, ji, unwind_ops);
return buf;
}
guint8*
mono_arch_create_sdb_trampoline (gboolean single_step, MonoTrampInfo **info, gboolean aot)
{
guint8 *buf, *code;
GSList *unwind_ops = NULL;
MonoJumpInfo *ji = NULL;
int frame_size;
buf = code = mono_global_codeman_reserve (96);
/*
* Construct the MonoContext structure on the stack.
*/
frame_size = MONO_ABI_SIZEOF (MonoContext);
frame_size = ALIGN_TO (frame_size, MONO_ARCH_FRAME_ALIGNMENT);
ARM_SUB_REG_IMM8 (code, ARMREG_SP, ARMREG_SP, frame_size);
/* save ip, lr and pc into their correspodings ctx.regs slots. */
ARM_STR_IMM (code, ARMREG_IP, ARMREG_SP, MONO_STRUCT_OFFSET (MonoContext, regs) + sizeof (target_mgreg_t) * ARMREG_IP);
ARM_STR_IMM (code, ARMREG_LR, ARMREG_SP, MONO_STRUCT_OFFSET (MonoContext, regs) + 4 * ARMREG_LR);
ARM_STR_IMM (code, ARMREG_LR, ARMREG_SP, MONO_STRUCT_OFFSET (MonoContext, regs) + 4 * ARMREG_PC);
/* save r0..r10 and fp */
ARM_ADD_REG_IMM8 (code, ARMREG_IP, ARMREG_SP, MONO_STRUCT_OFFSET (MonoContext, regs));
ARM_STM (code, ARMREG_IP, 0x0fff);
/* now we can update fp. */
ARM_MOV_REG_REG (code, ARMREG_FP, ARMREG_SP);
/* make ctx.esp hold the actual value of sp at the beginning of this method. */
ARM_ADD_REG_IMM8 (code, ARMREG_R0, ARMREG_FP, frame_size);
ARM_STR_IMM (code, ARMREG_R0, ARMREG_IP, 4 * ARMREG_SP);
ARM_STR_IMM (code, ARMREG_R0, ARMREG_FP, MONO_STRUCT_OFFSET (MonoContext, regs) + 4 * ARMREG_SP);
/* make ctx.eip hold the address of the call. */
//ARM_SUB_REG_IMM8 (code, ARMREG_LR, ARMREG_LR, 4);
ARM_STR_IMM (code, ARMREG_LR, ARMREG_FP, MONO_STRUCT_OFFSET (MonoContext, pc));
/* r0 now points to the MonoContext */
ARM_MOV_REG_REG (code, ARMREG_R0, ARMREG_FP);
/* call */
if (aot) {
if (single_step)
ji = mono_patch_info_list_prepend (ji, code - buf, MONO_PATCH_INFO_JIT_ICALL_ADDR, GUINT_TO_POINTER (MONO_JIT_ICALL_mono_debugger_agent_single_step_from_context));
else
ji = mono_patch_info_list_prepend (ji, code - buf, MONO_PATCH_INFO_JIT_ICALL_ADDR, GUINT_TO_POINTER (MONO_JIT_ICALL_mono_debugger_agent_breakpoint_from_context));
ARM_LDR_IMM (code, ARMREG_IP, ARMREG_PC, 0);
ARM_B (code, 0);
*(gpointer*)code = NULL;
code += 4;
ARM_LDR_REG_REG (code, ARMREG_IP, ARMREG_PC, ARMREG_IP);
ARM_BLX_REG (code, ARMREG_IP);
} else {
ARM_LDR_IMM (code, ARMREG_IP, ARMREG_PC, 0);
ARM_B (code, 0);
if (single_step)
*(gpointer*)code = (gpointer)mono_component_debugger ()->single_step_from_context;
else
*(gpointer*)code = (gpointer)mono_component_debugger ()->breakpoint_from_context;
code += 4;
ARM_BLX_REG (code, ARMREG_IP);
}
/* we're back; save ctx.eip and ctx.esp into the corresponding regs slots. */
ARM_LDR_IMM (code, ARMREG_R0, ARMREG_FP, MONO_STRUCT_OFFSET (MonoContext, pc));
ARM_STR_IMM (code, ARMREG_R0, ARMREG_FP, MONO_STRUCT_OFFSET (MonoContext, regs) + 4 * ARMREG_LR);
ARM_STR_IMM (code, ARMREG_R0, ARMREG_FP, MONO_STRUCT_OFFSET (MonoContext, regs) + 4 * ARMREG_PC);
/* make ip point to the regs array, then restore everything, including pc. */
ARM_ADD_REG_IMM8 (code, ARMREG_IP, ARMREG_FP, MONO_STRUCT_OFFSET (MonoContext, regs));
ARM_LDM (code, ARMREG_IP, 0xffff);
mono_arch_flush_icache (buf, code - buf);
MONO_PROFILER_RAISE (jit_code_buffer, (buf, code - buf, MONO_PROFILER_CODE_BUFFER_HELPER, NULL));
const char *tramp_name = single_step ? "sdb_single_step_trampoline" : "sdb_breakpoint_trampoline";
*info = mono_tramp_info_create (tramp_name, buf, code - buf, ji, unwind_ops);
return buf;
}
/*
* mono_arch_get_interp_to_native_trampoline:
*
* See tramp-amd64.c for documentation.
*/
gpointer
mono_arch_get_interp_to_native_trampoline (MonoTrampInfo **info)
{
#ifndef DISABLE_INTERPRETER
guint8 *start = NULL, *code;
guint8 *label_start_copy, *label_exit_copy;
MonoJumpInfo *ji = NULL;
GSList *unwind_ops = NULL;
int buf_len, i, off_methodargs, off_targetaddr;
const int fp_reg = ARMREG_R7;
int framesize;
buf_len = 512 + 1024;
start = code = (guint8 *) mono_global_codeman_reserve (buf_len);
/*
* iOS ABI
*
* FIXME We save rgctx reg here so we don't regress tests. It should
* not be clobbered by native->interp transition.
*/
ARM_PUSH (code, (1 << MONO_ARCH_RGCTX_REG) | (1 << fp_reg) | (1 << ARMREG_LR));
ARM_MOV_REG_REG (code, fp_reg, ARMREG_SP);
/* allocate space for saving the target addr and the call context and align stack */
framesize = sizeof (target_mgreg_t) + ALIGN_TO (2 * sizeof (target_mgreg_t), MONO_ARCH_FRAME_ALIGNMENT);
ARM_SUB_REG_IMM8 (code, ARMREG_SP, ARMREG_SP, framesize);
/* save CallContext* onto stack */
off_methodargs = -4;
ARM_STR_IMM (code, ARMREG_R1, fp_reg, off_methodargs);
/* save target address onto stack */
off_targetaddr = -8;
ARM_STR_IMM (code, ARMREG_R0, fp_reg, off_targetaddr);
/* allocate the stack space necessary for the call */
ARM_LDR_IMM (code, ARMREG_R3, ARMREG_R1, MONO_STRUCT_OFFSET (CallContext, stack_size));
ARM_SUB_REG_REG (code, ARMREG_SP, ARMREG_SP, ARMREG_R3);
/* copy stack from the CallContext, R0 = dest, R1 = source */
ARM_MOV_REG_REG (code, ARMREG_R0, ARMREG_SP);
ARM_LDR_IMM (code, ARMREG_R1, ARMREG_R1, MONO_STRUCT_OFFSET (CallContext, stack));
label_start_copy = code;
ARM_CMP_REG_IMM (code, ARMREG_R3, 0, 0);
label_exit_copy = code;
ARM_B_COND (code, ARMCOND_EQ, 0);
ARM_LDR_IMM (code, ARMREG_R2, ARMREG_R1, 0);
ARM_STR_IMM (code, ARMREG_R2, ARMREG_R0, 0);
ARM_ADD_REG_IMM8 (code, ARMREG_R0, ARMREG_R0, sizeof (target_mgreg_t));
ARM_ADD_REG_IMM8 (code, ARMREG_R1, ARMREG_R1, sizeof (target_mgreg_t));
ARM_SUB_REG_IMM8 (code, ARMREG_R3, ARMREG_R3, sizeof (target_mgreg_t));
ARM_B (code, 0);
arm_patch (code - 4, label_start_copy);
arm_patch (label_exit_copy, code);
ARM_LDR_IMM (code, ARMREG_IP, fp_reg, off_methodargs);
/* set all general purpose registers from CallContext */
for (i = 0; i < PARAM_REGS; i++)
ARM_LDR_IMM (code, i, ARMREG_IP, MONO_STRUCT_OFFSET (CallContext, gregs) + i * sizeof (target_mgreg_t));
/* set all floating registers from CallContext */
for (i = 0; i < FP_PARAM_REGS; i++)
ARM_FLDD (code, i * 2, ARMREG_IP, MONO_STRUCT_OFFSET (CallContext, fregs) + i * sizeof (double));
/* load target addr */
ARM_LDR_IMM (code, ARMREG_IP, fp_reg, off_targetaddr);
/* call into native function */
ARM_BLX_REG (code, ARMREG_IP);
/* load CallContext*/
ARM_LDR_IMM (code, ARMREG_IP, fp_reg, off_methodargs);
/* set all general purpose registers to CallContext */
for (i = 0; i < PARAM_REGS; i++)
ARM_STR_IMM (code, i, ARMREG_IP, MONO_STRUCT_OFFSET (CallContext, gregs) + i * sizeof (target_mgreg_t));
/* set all floating registers to CallContext */
for (i = 0; i < FP_PARAM_REGS; i++)
ARM_FSTD (code, i * 2, ARMREG_IP, MONO_STRUCT_OFFSET (CallContext, fregs) + i * sizeof (double));
ARM_MOV_REG_REG (code, ARMREG_SP, fp_reg);
ARM_POP (code, (1 << MONO_ARCH_RGCTX_REG) | (1 << fp_reg) | (1 << ARMREG_PC));
g_assert (code - start < buf_len);
mono_arch_flush_icache (start, code - start);
MONO_PROFILER_RAISE (jit_code_buffer, (start, code - start, MONO_PROFILER_CODE_BUFFER_HELPER, NULL));
if (info)
*info = mono_tramp_info_create ("interp_to_native_trampoline", start, code - start, ji, unwind_ops);
return start;
#else
g_assert_not_reached ();
return NULL;
#endif /* DISABLE_INTERPRETER */
}
gpointer
mono_arch_get_native_to_interp_trampoline (MonoTrampInfo **info)
{
#ifndef DISABLE_INTERPRETER
guint8 *start = NULL, *code;
MonoJumpInfo *ji = NULL;
GSList *unwind_ops = NULL;
int buf_len, i;
const int fp_reg = ARMREG_R7;
int framesize;
buf_len = 512;
start = code = (guint8 *) mono_global_codeman_reserve (buf_len);
unwind_ops = mono_arch_get_cie_program ();
/* iOS ABI */
ARM_PUSH (code, (1 << fp_reg) | (1 << ARMREG_LR));
mono_add_unwind_op_def_cfa_offset (unwind_ops, code, start, 2 * sizeof (target_mgreg_t));
mono_add_unwind_op_offset (unwind_ops, code, start, ARMREG_LR, -4);
mono_add_unwind_op_offset (unwind_ops, code, start, fp_reg, -8);
ARM_MOV_REG_REG (code, fp_reg, ARMREG_SP);
mono_add_unwind_op_def_cfa_reg (unwind_ops, code, start, fp_reg);
/* allocate the CallContext on the stack */
framesize = ALIGN_TO (MONO_ABI_SIZEOF (CallContext), MONO_ARCH_FRAME_ALIGNMENT);
ARM_SUB_REG_IMM8 (code, ARMREG_SP, ARMREG_SP, framesize);
/* save all general purpose registers into the CallContext */
for (i = 0; i < PARAM_REGS; i++)
ARM_STR_IMM (code, i, ARMREG_SP, MONO_STRUCT_OFFSET (CallContext, gregs) + i * sizeof (target_mgreg_t));
/* save all floating registers into the CallContext */
for (i = 0; i < FP_PARAM_REGS; i++)
ARM_FSTD (code, i * 2, ARMREG_SP, MONO_STRUCT_OFFSET (CallContext, fregs) + i * sizeof (double));
/* set the stack pointer to the value at call site */
ARM_ADD_REG_IMM8 (code, ARMREG_R0, fp_reg, 2 * sizeof (target_mgreg_t));
ARM_STR_IMM (code, ARMREG_R0, ARMREG_SP, MONO_STRUCT_OFFSET (CallContext, stack));
/* call interp_entry with the ccontext and rmethod as arguments */
ARM_MOV_REG_REG (code, ARMREG_R0, ARMREG_SP);
ARM_LDR_IMM (code, ARMREG_R1, ARMREG_IP, MONO_STRUCT_OFFSET (MonoFtnDesc, arg));
ARM_LDR_IMM (code, ARMREG_IP, ARMREG_IP, MONO_STRUCT_OFFSET (MonoFtnDesc, addr));
ARM_BLX_REG (code, ARMREG_IP);
/* load the return values from the context */
for (i = 0; i < PARAM_REGS; i++)
ARM_LDR_IMM (code, i, ARMREG_SP, MONO_STRUCT_OFFSET (CallContext, gregs) + i * sizeof (target_mgreg_t));
for (i = 0; i < FP_PARAM_REGS; i++)
ARM_FLDD (code, i * 2, ARMREG_SP, MONO_STRUCT_OFFSET (CallContext, fregs) + i * sizeof (double));
/* reset stack and return */
ARM_MOV_REG_REG (code, ARMREG_SP, fp_reg);
ARM_POP (code, (1 << fp_reg) | (1 << ARMREG_PC));
g_assert (code - start < buf_len);
mono_arch_flush_icache (start, code - start);
MONO_PROFILER_RAISE (jit_code_buffer, (start, code - start, MONO_PROFILER_CODE_BUFFER_EXCEPTION_HANDLING, NULL));
if (info)
*info = mono_tramp_info_create ("native_to_interp_trampoline", start, code - start, ji, unwind_ops);
return start;
#else
g_assert_not_reached ();
return NULL;
#endif /* DISABLE_INTERPRETER */
}
#else
guchar*
mono_arch_create_generic_trampoline (MonoTrampolineType tramp_type, MonoTrampInfo **info, gboolean aot)
{
g_assert_not_reached ();
return NULL;
}
gpointer
mono_arch_create_specific_trampoline (gpointer arg1, MonoTrampolineType tramp_type, MonoMemoryManager *mem_manager, guint32 *code_len)
{
g_assert_not_reached ();
return NULL;
}
gpointer
mono_arch_get_unbox_trampoline (MonoMethod *m, gpointer addr)
{
g_assert_not_reached ();
return NULL;
}
gpointer
mono_arch_get_static_rgctx_trampoline (MonoMemoryManager *mem_manager, gpointer arg, gpointer addr)
{
g_assert_not_reached ();
return NULL;
}
gpointer
mono_arch_get_ftnptr_arg_trampoline (MonoMemoryManager *mem_manager, gpointer arg, gpointer addr)
{
g_assert_not_reached ();
return NULL;
}
gpointer
mono_arch_create_rgctx_lazy_fetch_trampoline (guint32 slot, MonoTrampInfo **info, gboolean aot)
{
g_assert_not_reached ();
return NULL;
}
guint8*
mono_arch_create_sdb_trampoline (gboolean single_step, MonoTrampInfo **info, gboolean aot)
{
g_assert_not_reached ();
return NULL;
}
gpointer
mono_arch_get_interp_to_native_trampoline (MonoTrampInfo **info)
{
g_assert_not_reached ();
return NULL;
}
gpointer
mono_arch_get_native_to_interp_trampoline (MonoTrampInfo **info)
{
g_assert_not_reached ();
return NULL;
}
#endif /* DISABLE_JIT */
guint8*
mono_arch_get_call_target (guint8 *code)
{
guint32 ins = ((guint32*)code) [-1];
/* Should be a 'bl' or a 'b' */
if (((ins >> 25) & 0x7) == 0x5) {
gint32 disp = ((((gint32)ins) & 0xffffff) << 8) >> 8;
guint8 *target = code - 4 + 8 + (disp * 4);
return target;
} else {
return NULL;
}
}
guint32
mono_arch_get_plt_info_offset (guint8 *plt_entry, host_mgreg_t *regs, guint8 *code)
{
/* The offset is stored as the 4th word of the plt entry */
return ((guint32*)plt_entry) [3];
}
/*
* Return the address of the PLT entry called by the thumb code CODE.
*/
guint8*
mono_arm_get_thumb_plt_entry (guint8 *code)
{
int s, j1, j2, imm10, imm11, i1, i2, imm32;
guint8 *bl, *base;
guint16 t1, t2;
guint8 *target;
/* code should be right after a BL */
code = (guint8*)((gsize)code & ~1);
base = (guint8*)((gsize)code & ~3);
bl = code - 4;
t1 = ((guint16*)bl) [0];
t2 = ((guint16*)bl) [1];
g_assert ((t1 >> 11) == 0x1e);
s = (t1 >> 10) & 0x1;
imm10 = (t1 >> 0) & 0x3ff;
j1 = (t2 >> 13) & 0x1;
j2 = (t2 >> 11) & 0x1;
imm11 = t2 & 0x7ff;
i1 = (s ^ j1) ? 0 : 1;
i2 = (s ^ j2) ? 0 : 1;
imm32 = (imm11 << 1) | (imm10 << 12) | (i2 << 22) | (i1 << 23) | (s << 24);
if (s)
/* Sign extend from 25 bits to 32 bits */
imm32 = ((gint32)imm32 << 7) >> 7;
target = code + imm32;
/* target now points to the thumb plt entry */
/* ldr.w r12, [pc, #8] */
g_assert (((guint16*)target) [0] == 0xf8df);
g_assert (((guint16*)target) [1] == 0xc008);
/*
* The PLT info offset is at offset 16, but mono_arch_get_plt_entry_offset () returns
* the 3rd word, so compensate by returning a different value.
*/
target += 4;
return target;
}
#ifndef DISABLE_JIT
/*
* mono_arch_get_gsharedvt_arg_trampoline:
*
* See tramp-x86.c for documentation.
*/
gpointer
mono_arch_get_gsharedvt_arg_trampoline (gpointer arg, gpointer addr)
{
guint8 *code, *buf;
int buf_len;
gpointer *constants;
MonoMemoryManager *mem_manager = mini_get_default_mem_manager ();
buf_len = 24;
buf = code = mono_mem_manager_code_reserve (mem_manager, buf_len);
/* Similar to the specialized trampoline code */
ARM_PUSH (code, (1 << ARMREG_R0) | (1 << ARMREG_R1) | (1 << ARMREG_R2) | (1 << ARMREG_R3) | (1 << ARMREG_LR));
ARM_LDR_IMM (code, ARMREG_IP, ARMREG_PC, 2 * sizeof (target_mgreg_t));
/* arg is passed in LR */
ARM_LDR_IMM (code, ARMREG_LR, ARMREG_PC, 0);
code = emit_bx (code, ARMREG_IP);
constants = (gpointer*)code;
constants [0] = arg;
constants [1] = addr;
code += 2 * sizeof (gpointer);
g_assert ((code - buf) <= buf_len);
mono_arch_flush_icache (buf, code - buf);
MONO_PROFILER_RAISE (jit_code_buffer, (buf, code - buf, MONO_PROFILER_CODE_BUFFER_GENERICS_TRAMPOLINE, NULL));
mono_tramp_info_register (mono_tramp_info_create (NULL, buf, code - buf, NULL, NULL), mem_manager);
return buf;
}
#else
gpointer
mono_arch_get_gsharedvt_arg_trampoline (gpointer arg, gpointer addr)
{
g_assert_not_reached ();
return NULL;
}
#endif
|
/**
* \file
* JIT trampoline code for ARM
*
* Authors:
* Paolo Molaro ([email protected])
*
* (C) 2001-2003 Ximian, Inc.
* Copyright 2003-2011 Novell Inc
* Copyright 2011 Xamarin Inc
* Licensed under the MIT license. See LICENSE file in the project root for full license information.
*/
#include <config.h>
#include <glib.h>
#include <mono/metadata/abi-details.h>
#include <mono/metadata/marshal.h>
#include <mono/metadata/tabledefs.h>
#include <mono/metadata/profiler-private.h>
#include <mono/arch/arm/arm-codegen.h>
#include <mono/arch/arm/arm-vfp-codegen.h>
#include "mini.h"
#include "mini-arm.h"
#include "mini-runtime.h"
#include "jit-icalls.h"
#ifndef DISABLE_INTERPRETER
#include "interp/interp.h"
#endif
#include "mono/utils/mono-tls-inline.h"
#include <mono/metadata/components.h>
void
mono_arch_patch_callsite (guint8 *method_start, guint8 *code_ptr, guint8 *addr)
{
guint32 *code = (guint32*)code_ptr;
/* This is the 'bl' or the 'mov pc' instruction */
--code;
/*
* Note that methods are called also with the bl opcode.
*/
if ((((*code) >> 25) & 7) == 5) {
/*g_print ("direct patching\n");*/
arm_patch ((guint8*)code, addr);
mono_arch_flush_icache ((guint8*)code, 4);
return;
}
if ((((*code) >> 20) & 0xFF) == 0x12) {
/*g_print ("patching bx\n");*/
arm_patch ((guint8*)code, addr);
mono_arch_flush_icache ((guint8*)(code - 2), 4);
return;
}
g_assert_not_reached ();
}
void
mono_arch_patch_plt_entry (guint8 *code, gpointer *got, host_mgreg_t *regs, guint8 *addr)
{
guint8 *jump_entry;
/* Patch the jump table entry used by the plt entry */
if (*(guint32*)code == 0xe59fc000) {
/* ARM_LDR_IMM (code, ARMREG_IP, ARMREG_PC, 0); */
guint32 offset = ((guint32*)code)[2];
jump_entry = code + offset + 12;
} else if (*(guint16*)(code - 4) == 0xf8df) {
/*
* Thumb PLT entry, begins with ldr.w ip, [pc, #8], code points to entry + 4, see
* mono_arm_get_thumb_plt_entry ().
*/
guint32 offset;
code -= 4;
offset = *(guint32*)(code + 12);
jump_entry = code + offset + 8;
} else {
g_assert_not_reached ();
}
*(guint8**)jump_entry = addr;
}
#ifndef DISABLE_JIT
#define arm_is_imm12(v) ((int)(v) > -4096 && (int)(v) < 4096)
/*
* Return the instruction to jump from code to target, 0 if not
* reachable with a single instruction
*/
static guint32
branch_for_target_reachable (guint8 *branch, guint8 *target)
{
gint diff = target - branch - 8;
g_assert ((diff & 3) == 0);
if (diff >= 0) {
if (diff <= 33554431)
return (ARMCOND_AL << ARMCOND_SHIFT) | (ARM_BR_TAG) | (diff >> 2);
} else {
/* diff between 0 and -33554432 */
if (diff >= -33554432)
return (ARMCOND_AL << ARMCOND_SHIFT) | (ARM_BR_TAG) | ((diff >> 2) & ~0xff000000);
}
return 0;
}
static guint8*
emit_bx (guint8* code, int reg)
{
if (mono_arm_thumb_supported ())
ARM_BX (code, reg);
else
ARM_MOV_REG_REG (code, ARMREG_PC, reg);
return code;
}
/* Stack size for trampoline function
*/
#define STACK ALIGN_TO (MONO_ABI_SIZEOF (MonoLMF), MONO_ARCH_FRAME_ALIGNMENT)
/* Method-specific trampoline code fragment size */
#define METHOD_TRAMPOLINE_SIZE 64
/* Jump-specific trampoline code fragment size */
#define JUMP_TRAMPOLINE_SIZE 64
guchar*
mono_arch_create_generic_trampoline (MonoTrampolineType tramp_type, MonoTrampInfo **info, gboolean aot)
{
const char *tramp_name;
guint8 *buf, *code = NULL;
guint8 *load_get_lmf_addr = NULL, *load_trampoline = NULL;
guint8 *labels [16];
gpointer *constants;
int i, orig_cfa_offset, cfa_offset, regsave_size, lr_offset;
GSList *unwind_ops = NULL;
MonoJumpInfo *ji = NULL;
int buf_len;
/* Now we'll create in 'buf' the ARM trampoline code. This
is the trampoline code common to all methods */
buf_len = 272;
/* Add space for saving/restoring VFP regs. */
if (mono_arm_is_hard_float ())
buf_len += 8 * 2;
code = buf = mono_global_codeman_reserve (buf_len);
/*
* At this point lr points to the specific arg and sp points to the saved
* regs on the stack (all but PC and SP). The original LR value has been
* saved as sp + LR_OFFSET by the push in the specific trampoline
*/
/* The size of the area already allocated by the push in the specific trampoline */
regsave_size = 14 * sizeof (target_mgreg_t);
/* The offset where lr was saved inside the regsave area */
lr_offset = 13 * sizeof (target_mgreg_t);
// CFA = SP + (num registers pushed) * 4
cfa_offset = 14 * sizeof (target_mgreg_t);
mono_add_unwind_op_def_cfa (unwind_ops, code, buf, ARMREG_SP, cfa_offset);
// PC saved at sp+LR_OFFSET
mono_add_unwind_op_offset (unwind_ops, code, buf, ARMREG_LR, -4);
/* Callee saved regs */
for (i = 0; i < 8; ++i)
mono_add_unwind_op_offset (unwind_ops, code, buf, ARMREG_R4 + i, -regsave_size + ((4 + i) * 4));
if (aot) {
/*
* For page trampolines the data is in r1, so just move it, otherwise use the got slot as below.
* The trampoline contains a pc-relative offset to the got slot
* preceeding the got slot where the value is stored. The offset can be
* found at [lr + 0].
*/
/* See if emit_trampolines () in aot-compiler.c for the '2' */
if (aot == 2) {
ARM_MOV_REG_REG (code, ARMREG_V2, ARMREG_R1);
} else {
ARM_LDR_IMM (code, ARMREG_V2, ARMREG_LR, 0);
ARM_ADD_REG_IMM (code, ARMREG_V2, ARMREG_V2, 4, 0);
ARM_LDR_REG_REG (code, ARMREG_V2, ARMREG_V2, ARMREG_LR);
}
} else {
ARM_LDR_IMM (code, ARMREG_V2, ARMREG_LR, 0);
}
ARM_LDR_IMM (code, ARMREG_V3, ARMREG_SP, lr_offset);
/* we build the MonoLMF structure on the stack - see mini-arm.h
* The pointer to the struct is put in r1.
* the iregs array is already allocated on the stack by push.
*/
code = mono_arm_emit_load_imm (code, ARMREG_R2, STACK - regsave_size);
ARM_SUB_REG_REG (code, ARMREG_SP, ARMREG_SP, ARMREG_R2);
cfa_offset += STACK - regsave_size;
mono_add_unwind_op_def_cfa_offset (unwind_ops, code, buf, cfa_offset);
/* V1 == lmf */
code = mono_arm_emit_load_imm (code, ARMREG_R2, STACK - MONO_ABI_SIZEOF (MonoLMF));
ARM_ADD_REG_REG (code, ARMREG_V1, ARMREG_SP, ARMREG_R2);
/* ok, now we can continue with the MonoLMF setup, mostly untouched
* from emit_prolog in mini-arm.c
* This is a synthetized call to mono_get_lmf_addr ()
*/
if (aot) {
ji = mono_patch_info_list_prepend (ji, code - buf, MONO_PATCH_INFO_JIT_ICALL_ADDR, GUINT_TO_POINTER (MONO_JIT_ICALL_mono_get_lmf_addr));
ARM_LDR_IMM (code, ARMREG_R0, ARMREG_PC, 0);
ARM_B (code, 0);
*(gpointer*)code = NULL;
code += 4;
ARM_LDR_REG_REG (code, ARMREG_R0, ARMREG_PC, ARMREG_R0);
} else {
load_get_lmf_addr = code;
code += 4;
}
ARM_MOV_REG_REG (code, ARMREG_LR, ARMREG_PC);
code = emit_bx (code, ARMREG_R0);
/*
* The stack now looks like:
* <saved regs>
* v1 -> <rest of LMF>
* sp -> <alignment>
*/
/* r0 is the result from mono_get_lmf_addr () */
ARM_STR_IMM (code, ARMREG_R0, ARMREG_V1, MONO_STRUCT_OFFSET (MonoLMF, lmf_addr));
/* new_lmf->previous_lmf = *lmf_addr */
ARM_LDR_IMM (code, ARMREG_R2, ARMREG_R0, MONO_STRUCT_OFFSET (MonoLMF, previous_lmf));
ARM_STR_IMM (code, ARMREG_R2, ARMREG_V1, MONO_STRUCT_OFFSET (MonoLMF, previous_lmf));
/* *(lmf_addr) = r1 */
ARM_STR_IMM (code, ARMREG_V1, ARMREG_R0, MONO_STRUCT_OFFSET (MonoLMF, previous_lmf));
/* save method info (it's in v2) */
if ((tramp_type == MONO_TRAMPOLINE_JIT) || (tramp_type == MONO_TRAMPOLINE_JUMP))
ARM_STR_IMM (code, ARMREG_V2, ARMREG_V1, MONO_STRUCT_OFFSET (MonoLMF, method));
else {
ARM_MOV_REG_IMM8 (code, ARMREG_R2, 0);
ARM_STR_IMM (code, ARMREG_R2, ARMREG_V1, MONO_STRUCT_OFFSET (MonoLMF, method));
}
/* save caller SP */
code = mono_arm_emit_load_imm (code, ARMREG_R2, cfa_offset);
ARM_ADD_REG_REG (code, ARMREG_R2, ARMREG_SP, ARMREG_R2);
ARM_STR_IMM (code, ARMREG_R2, ARMREG_V1, MONO_STRUCT_OFFSET (MonoLMF, sp));
/* save caller FP */
ARM_LDR_IMM (code, ARMREG_R2, ARMREG_V1, (MONO_STRUCT_OFFSET (MonoLMF, iregs) + ARMREG_FP*4));
ARM_STR_IMM (code, ARMREG_R2, ARMREG_V1, MONO_STRUCT_OFFSET (MonoLMF, fp));
/* save the IP (caller ip) */
if (tramp_type == MONO_TRAMPOLINE_JUMP) {
ARM_MOV_REG_IMM8 (code, ARMREG_R2, 0);
} else {
ARM_LDR_IMM (code, ARMREG_R2, ARMREG_V1, (MONO_STRUCT_OFFSET (MonoLMF, iregs) + 13*4));
}
ARM_STR_IMM (code, ARMREG_R2, ARMREG_V1, MONO_STRUCT_OFFSET (MonoLMF, ip));
/* Save VFP registers. */
if (mono_arm_is_hard_float ()) {
/*
* Strictly speaking, we don't have to save d0-d7 in the LMF, but
* it's easier than attempting to store them on the stack since
* this trampoline code is pretty messy.
*/
ARM_ADD_REG_IMM8 (code, ARMREG_R0, ARMREG_V1, MONO_STRUCT_OFFSET (MonoLMF, fregs));
ARM_FSTMD (code, ARM_VFP_D0, 8, ARMREG_R0);
}
/*
* Now we're ready to call xxx_trampoline ().
*/
/* Arg 1: the saved registers */
ARM_ADD_REG_IMM (code, ARMREG_R0, ARMREG_V1, MONO_STRUCT_OFFSET (MonoLMF, iregs), 0);
/* Arg 2: code (next address to the instruction that called us) */
if (tramp_type == MONO_TRAMPOLINE_JUMP) {
ARM_MOV_REG_IMM8 (code, ARMREG_R1, 0);
} else {
ARM_MOV_REG_REG (code, ARMREG_R1, ARMREG_V3);
}
/* Arg 3: the specific argument, stored in v2
*/
ARM_MOV_REG_REG (code, ARMREG_R2, ARMREG_V2);
if (aot) {
ji = mono_patch_info_list_prepend (ji, code - buf, MONO_PATCH_INFO_JIT_ICALL_ADDR, GINT_TO_POINTER (mono_trampoline_type_to_jit_icall_id (tramp_type)));
ARM_LDR_IMM (code, ARMREG_IP, ARMREG_PC, 0);
ARM_B (code, 0);
*(gpointer*)code = NULL;
code += 4;
ARM_LDR_REG_REG (code, ARMREG_IP, ARMREG_PC, ARMREG_IP);
} else {
load_trampoline = code;
code += 4;
}
ARM_MOV_REG_REG (code, ARMREG_LR, ARMREG_PC);
code = emit_bx (code, ARMREG_IP);
/* OK, code address is now on r0. Move it to the place on the stack
* where IP was saved (it is now no more useful to us and it can be
* clobbered). This way we can just restore all the regs in one inst
* and branch to IP.
*/
ARM_STR_IMM (code, ARMREG_R0, ARMREG_V1, MONO_STRUCT_OFFSET (MonoLMF, iregs) + (ARMREG_R12 * sizeof (target_mgreg_t)));
/*
* Now we restore the MonoLMF (see emit_epilogue in mini-arm.c)
* and the rest of the registers, so the method called will see
* the same state as before we executed.
*/
/* ip = previous_lmf */
ARM_LDR_IMM (code, ARMREG_IP, ARMREG_V1, MONO_STRUCT_OFFSET (MonoLMF, previous_lmf));
/* lr = lmf_addr */
ARM_LDR_IMM (code, ARMREG_LR, ARMREG_V1, MONO_STRUCT_OFFSET (MonoLMF, lmf_addr));
/* *(lmf_addr) = previous_lmf */
ARM_STR_IMM (code, ARMREG_IP, ARMREG_LR, MONO_STRUCT_OFFSET (MonoLMF, previous_lmf));
/* Check for thread interruption */
/* This is not perf critical code so no need to check the interrupt flag */
if (aot) {
code = mono_arm_emit_aotconst (&ji, code, buf, ARMREG_IP, MONO_PATCH_INFO_JIT_ICALL_ADDR, GUINT_TO_POINTER (MONO_JIT_ICALL_mono_thread_force_interruption_checkpoint_noraise));
} else {
ARM_LDR_IMM (code, ARMREG_IP, ARMREG_PC, 0);
ARM_B (code, 0);
*(gpointer*)code = (gpointer)mono_thread_force_interruption_checkpoint_noraise;
code += 4;
}
ARM_MOV_REG_REG (code, ARMREG_LR, ARMREG_PC);
code = emit_bx (code, ARMREG_IP);
/* Check whenever an exception needs to be thrown */
ARM_CMP_REG_IMM (code, ARMREG_R0, 0, 0);
labels [0] = code;
ARM_B_COND (code, ARMCOND_NE, 0);
orig_cfa_offset = cfa_offset;
/* Normal case */
/* Restore VFP registers. */
if (mono_arm_is_hard_float ()) {
ARM_ADD_REG_IMM8 (code, ARMREG_R0, ARMREG_V1, MONO_STRUCT_OFFSET (MonoLMF, fregs));
ARM_FLDMD (code, ARM_VFP_D0, 8, ARMREG_R0);
}
/* Non-standard function epilogue. Instead of doing a proper
* return, we just jump to the compiled code.
*/
/* Restore the registers and jump to the code:
* Note that IP has been conveniently set to the method addr.
*/
ARM_ADD_REG_IMM8 (code, ARMREG_SP, ARMREG_SP, STACK - regsave_size);
cfa_offset -= STACK - regsave_size;
mono_add_unwind_op_def_cfa_offset (unwind_ops, code, buf, cfa_offset);
ARM_POP_NWB (code, 0x5fff);
mono_add_unwind_op_same_value (unwind_ops, code, buf, ARMREG_LR);
if (tramp_type == MONO_TRAMPOLINE_RGCTX_LAZY_FETCH)
ARM_MOV_REG_REG (code, ARMREG_R0, ARMREG_IP);
ARM_ADD_REG_IMM8 (code, ARMREG_SP, ARMREG_SP, regsave_size);
cfa_offset -= regsave_size;
g_assert (cfa_offset == 0);
mono_add_unwind_op_def_cfa_offset (unwind_ops, code, buf, cfa_offset);
if (MONO_TRAMPOLINE_TYPE_MUST_RETURN (tramp_type))
code = emit_bx (code, ARMREG_LR);
else
code = emit_bx (code, ARMREG_IP);
if (!aot) {
constants = (gpointer*)code;
constants [0] = (gpointer)mono_get_lmf_addr;
constants [1] = (gpointer)mono_get_trampoline_func (tramp_type);
/* backpatch by emitting the missing instructions skipped above */
ARM_LDR_IMM (load_get_lmf_addr, ARMREG_R0, ARMREG_PC, (code - load_get_lmf_addr - 8));
ARM_LDR_IMM (load_trampoline, ARMREG_IP, ARMREG_PC, (code + 4 - load_trampoline - 8));
code += 8;
}
/* Exception case */
arm_patch (labels [0], code);
cfa_offset = orig_cfa_offset;
/*
* We have an exception we want to throw in the caller's frame, so pop
* the trampoline frame and throw from the caller.
*/
/* Store the exception in place of IP */
ARM_STR_IMM (code, ARMREG_R0, ARMREG_V1, MONO_STRUCT_OFFSET (MonoLMF, iregs) + (ARMREG_R12 * sizeof (target_mgreg_t)));
ARM_ADD_REG_IMM8 (code, ARMREG_SP, ARMREG_SP, STACK - regsave_size);
cfa_offset -= STACK - regsave_size;
mono_add_unwind_op_def_cfa_offset (unwind_ops, code, buf, cfa_offset);
/* Restore all regs */
ARM_POP_NWB (code, 0x5fff);
mono_add_unwind_op_same_value (unwind_ops, code, buf, ARMREG_LR);
ARM_ADD_REG_IMM8 (code, ARMREG_SP, ARMREG_SP, regsave_size);
cfa_offset -= regsave_size;
g_assert (cfa_offset == 0);
mono_add_unwind_op_def_cfa_offset (unwind_ops, code, buf, cfa_offset);
/* We are in the parent frame, the exception is in ip */
ARM_MOV_REG_REG (code, ARMREG_R0, ARMREG_IP);
/*
* EH is initialized after trampolines, so get the address of the variable
* which contains throw_exception, and load it from there.
*/
if (aot) {
/* Not really a jit icall */
code = mono_arm_emit_aotconst (&ji, code, buf, ARMREG_IP, MONO_PATCH_INFO_JIT_ICALL_ADDR, GUINT_TO_POINTER (MONO_JIT_ICALL_mono_rethrow_preserve_exception));
} else {
ARM_LDR_IMM (code, ARMREG_IP, ARMREG_PC, 0);
ARM_B (code, 0);
*(gpointer*)code = mono_get_rethrow_preserve_exception_addr ();
code += 4;
}
ARM_LDR_IMM (code, ARMREG_IP, ARMREG_IP, 0);
/* Branch to the throw trampoline */
/* lr contains the return address, the trampoline will use it as the throw site */
code = emit_bx (code, ARMREG_IP);
/* Flush instruction cache, since we've generated code */
mono_arch_flush_icache (buf, code - buf);
MONO_PROFILER_RAISE (jit_code_buffer, (buf, code - buf, MONO_PROFILER_CODE_BUFFER_HELPER, NULL));
/* Sanity check */
g_assert ((code - buf) <= buf_len);
g_assert (info);
tramp_name = mono_get_generic_trampoline_name (tramp_type);
*info = mono_tramp_info_create (tramp_name, buf, code - buf, ji, unwind_ops);
return buf;
}
#define SPEC_TRAMP_SIZE 24
gpointer
mono_arch_create_specific_trampoline (gpointer arg1, MonoTrampolineType tramp_type, MonoMemoryManager *mem_manager, guint32 *code_len)
{
guint8 *code, *buf, *tramp;
guint32 *constants;
guint32 short_branch = FALSE;
guint32 size = SPEC_TRAMP_SIZE;
tramp = mono_get_trampoline_code (tramp_type);
if (mem_manager) {
code = buf = (guint8 *)mono_mem_manager_code_reserve_align (mem_manager, size, 4);
if ((short_branch = branch_for_target_reachable (code + 4, tramp))) {
size = 12;
mono_mem_manager_code_commit (mem_manager, code, SPEC_TRAMP_SIZE, size);
}
} else {
code = buf = mono_global_codeman_reserve (size);
short_branch = FALSE;
}
/* we could reduce this to 12 bytes if tramp is within reach:
* ARM_PUSH ()
* ARM_BL ()
* method-literal
* The called code can access method using the lr register
* A 20 byte sequence could be:
* ARM_PUSH ()
* ARM_MOV_REG_REG (lr, pc)
* ARM_LDR_IMM (pc, pc, 0)
* method-literal
* tramp-literal
*/
/* We save all the registers, except PC and SP */
ARM_PUSH (code, 0x5fff);
if (short_branch) {
constants = (guint32*)code;
constants [0] = short_branch | (1 << 24);
constants [1] = GPOINTER_TO_UINT (arg1);
code += 8;
} else {
ARM_LDR_IMM (code, ARMREG_R1, ARMREG_PC, 8); /* temp reg */
ARM_MOV_REG_REG (code, ARMREG_LR, ARMREG_PC);
code = emit_bx (code, ARMREG_R1);
constants = (guint32*)code;
constants [0] = GPOINTER_TO_UINT (arg1);
constants [1] = GPOINTER_TO_UINT (tramp);
code += 8;
}
/* Flush instruction cache, since we've generated code */
mono_arch_flush_icache (buf, code - buf);
MONO_PROFILER_RAISE (jit_code_buffer, (buf, code - buf, MONO_PROFILER_CODE_BUFFER_SPECIFIC_TRAMPOLINE, mono_get_generic_trampoline_simple_name (tramp_type)));
g_assert ((code - buf) <= size);
if (code_len)
*code_len = code - buf;
return buf;
}
/*
* mono_arch_get_unbox_trampoline:
* @m: method pointer
* @addr: pointer to native code for @m
*
* when value type methods are called through the vtable we need to unbox the
* this argument. This method returns a pointer to a trampoline which does
* unboxing before calling the method
*/
gpointer
mono_arch_get_unbox_trampoline (MonoMethod *m, gpointer addr)
{
guint8 *code, *start;
MonoMemoryManager *mem_manager = m_method_get_mem_manager (m);
GSList *unwind_ops;
guint32 size = 16;
start = code = mono_mem_manager_code_reserve (mem_manager, size);
unwind_ops = mono_arch_get_cie_program ();
ARM_LDR_IMM (code, ARMREG_IP, ARMREG_PC, 4);
ARM_ADD_REG_IMM8 (code, ARMREG_R0, ARMREG_R0, MONO_ABI_SIZEOF (MonoObject));
code = emit_bx (code, ARMREG_IP);
*(guint32*)code = (guint32)(gsize)addr;
code += 4;
mono_arch_flush_icache (start, code - start);
MONO_PROFILER_RAISE (jit_code_buffer, (start, code - start, MONO_PROFILER_CODE_BUFFER_UNBOX_TRAMPOLINE, m));
g_assert ((code - start) <= size);
/*g_print ("unbox trampoline at %d for %s:%s\n", this_pos, m->klass->name, m->name);
g_print ("unbox code is at %p for method at %p\n", start, addr);*/
mono_tramp_info_register (mono_tramp_info_create (NULL, start, code - start, NULL, unwind_ops), mem_manager);
return start;
}
gpointer
mono_arch_get_static_rgctx_trampoline (MonoMemoryManager *mem_manager, gpointer arg, gpointer addr)
{
guint8 *code, *start;
GSList *unwind_ops;
int buf_len = 16;
start = code = mono_mem_manager_code_reserve (mem_manager, buf_len);
unwind_ops = mono_arch_get_cie_program ();
ARM_LDR_IMM (code, MONO_ARCH_RGCTX_REG, ARMREG_PC, 0);
ARM_LDR_IMM (code, ARMREG_PC, ARMREG_PC, 0);
*(guint32*)code = (guint32)(gsize)arg;
code += 4;
*(guint32*)code = (guint32)(gsize)addr;
code += 4;
g_assert ((code - start) <= buf_len);
mono_arch_flush_icache (start, code - start);
MONO_PROFILER_RAISE (jit_code_buffer, (start, code - start, MONO_PROFILER_CODE_BUFFER_GENERICS_TRAMPOLINE, NULL));
mono_tramp_info_register (mono_tramp_info_create (NULL, start, code - start, NULL, unwind_ops), mem_manager);
return start;
}
/* Same as static rgctx trampoline, but clobbering ARMREG_IP, which is scratch */
gpointer
mono_arch_get_ftnptr_arg_trampoline (MonoMemoryManager *mem_manager, gpointer arg, gpointer addr)
{
guint8 *code, *start;
GSList *unwind_ops;
int buf_len = 16;
start = code = mono_mem_manager_code_reserve (mem_manager, buf_len);
unwind_ops = mono_arch_get_cie_program ();
ARM_LDR_IMM (code, ARMREG_IP, ARMREG_PC, 0);
ARM_LDR_IMM (code, ARMREG_PC, ARMREG_PC, 0);
*(guint32*)code = (guint32)(gsize)arg;
code += 4;
*(guint32*)code = (guint32)(gsize)addr;
code += 4;
g_assert ((code - start) <= buf_len);
mono_arch_flush_icache (start, code - start);
MONO_PROFILER_RAISE (jit_code_buffer, (start, code - start, MONO_PROFILER_CODE_BUFFER_GENERICS_TRAMPOLINE, NULL));
mono_tramp_info_register (mono_tramp_info_create (NULL, start, code - start, NULL, unwind_ops), mem_manager);
return start;
}
gpointer
mono_arch_create_rgctx_lazy_fetch_trampoline (guint32 slot, MonoTrampInfo **info, gboolean aot)
{
guint8 *tramp;
guint8 *code, *buf;
int tramp_size;
guint32 code_len;
guint8 **rgctx_null_jumps;
int depth, index;
int i, njumps;
gboolean mrgctx;
MonoJumpInfo *ji = NULL;
GSList *unwind_ops = NULL;
mrgctx = MONO_RGCTX_SLOT_IS_MRGCTX (slot);
index = MONO_RGCTX_SLOT_INDEX (slot);
if (mrgctx)
index += MONO_SIZEOF_METHOD_RUNTIME_GENERIC_CONTEXT / TARGET_SIZEOF_VOID_P;
for (depth = 0; ; ++depth) {
int size = mono_class_rgctx_get_array_size (depth, mrgctx);
if (index < size - 1)
break;
index -= size - 1;
}
tramp_size = 64 + 16 * depth;
code = buf = mono_global_codeman_reserve (tramp_size);
unwind_ops = mono_arch_get_cie_program ();
rgctx_null_jumps = g_malloc (sizeof (guint8*) * (depth + 2));
njumps = 0;
/* The vtable/mrgctx is in R0 */
g_assert (MONO_ARCH_VTABLE_REG == ARMREG_R0);
if (mrgctx) {
/* get mrgctx ptr */
ARM_MOV_REG_REG (code, ARMREG_R1, ARMREG_R0);
} else {
/* load rgctx ptr from vtable */
g_assert (arm_is_imm12 (MONO_STRUCT_OFFSET (MonoVTable, runtime_generic_context)));
ARM_LDR_IMM (code, ARMREG_R1, ARMREG_R0, MONO_STRUCT_OFFSET (MonoVTable, runtime_generic_context));
/* is the rgctx ptr null? */
ARM_CMP_REG_IMM (code, ARMREG_R1, 0, 0);
/* if yes, jump to actual trampoline */
rgctx_null_jumps [njumps ++] = code;
ARM_B_COND (code, ARMCOND_EQ, 0);
}
for (i = 0; i < depth; ++i) {
/* load ptr to next array */
if (mrgctx && i == 0) {
g_assert (arm_is_imm12 (MONO_SIZEOF_METHOD_RUNTIME_GENERIC_CONTEXT));
ARM_LDR_IMM (code, ARMREG_R1, ARMREG_R1, MONO_SIZEOF_METHOD_RUNTIME_GENERIC_CONTEXT);
} else {
ARM_LDR_IMM (code, ARMREG_R1, ARMREG_R1, 0);
}
/* is the ptr null? */
ARM_CMP_REG_IMM (code, ARMREG_R1, 0, 0);
/* if yes, jump to actual trampoline */
rgctx_null_jumps [njumps ++] = code;
ARM_B_COND (code, ARMCOND_EQ, 0);
}
/* fetch slot */
code = mono_arm_emit_load_imm (code, ARMREG_R2, TARGET_SIZEOF_VOID_P * (index + 1));
ARM_LDR_REG_REG (code, ARMREG_R1, ARMREG_R1, ARMREG_R2);
/* is the slot null? */
ARM_CMP_REG_IMM (code, ARMREG_R1, 0, 0);
/* if yes, jump to actual trampoline */
rgctx_null_jumps [njumps ++] = code;
ARM_B_COND (code, ARMCOND_EQ, 0);
/* otherwise return, result is in R1 */
ARM_MOV_REG_REG (code, ARMREG_R0, ARMREG_R1);
code = emit_bx (code, ARMREG_LR);
g_assert (njumps <= depth + 2);
for (i = 0; i < njumps; ++i)
arm_patch (rgctx_null_jumps [i], code);
g_free (rgctx_null_jumps);
/* Slowpath */
/* The vtable/mrgctx is still in R0 */
if (aot) {
ji = mono_patch_info_list_prepend (ji, code - buf, MONO_PATCH_INFO_SPECIFIC_TRAMPOLINE_LAZY_FETCH_ADDR, GUINT_TO_POINTER (slot));
ARM_LDR_IMM (code, ARMREG_R1, ARMREG_PC, 0);
ARM_B (code, 0);
*(gpointer*)code = NULL;
code += 4;
ARM_LDR_REG_REG (code, ARMREG_PC, ARMREG_PC, ARMREG_R1);
} else {
MonoMemoryManager *mem_manager = mini_get_default_mem_manager ();
tramp = (guint8*)mono_arch_create_specific_trampoline (GUINT_TO_POINTER (slot), MONO_TRAMPOLINE_RGCTX_LAZY_FETCH, mem_manager, &code_len);
/* Jump to the actual trampoline */
ARM_LDR_IMM (code, ARMREG_R1, ARMREG_PC, 0); /* temp reg */
code = emit_bx (code, ARMREG_R1);
*(gpointer*)code = tramp;
code += 4;
}
mono_arch_flush_icache (buf, code - buf);
MONO_PROFILER_RAISE (jit_code_buffer, (buf, code - buf, MONO_PROFILER_CODE_BUFFER_GENERICS_TRAMPOLINE, NULL));
g_assert (code - buf <= tramp_size);
char *name = mono_get_rgctx_fetch_trampoline_name (slot);
*info = mono_tramp_info_create (name, buf, code - buf, ji, unwind_ops);
g_free (name);
return buf;
}
gpointer
mono_arch_create_general_rgctx_lazy_fetch_trampoline (MonoTrampInfo **info, gboolean aot)
{
guint8 *code, *buf;
int tramp_size;
MonoJumpInfo *ji = NULL;
GSList *unwind_ops = NULL;
g_assert (aot);
tramp_size = 32;
code = buf = mono_global_codeman_reserve (tramp_size);
unwind_ops = mono_arch_get_cie_program ();
// FIXME: Currently, we always go to the slow path.
/* Load trampoline addr */
ARM_LDR_IMM (code, ARMREG_R1, MONO_ARCH_RGCTX_REG, 4);
/* The vtable/mrgctx is in R0 */
g_assert (MONO_ARCH_VTABLE_REG == ARMREG_R0);
code = emit_bx (code, ARMREG_R1);
mono_arch_flush_icache (buf, code - buf);
MONO_PROFILER_RAISE (jit_code_buffer, (buf, code - buf, MONO_PROFILER_CODE_BUFFER_GENERICS_TRAMPOLINE, NULL));
g_assert (code - buf <= tramp_size);
*info = mono_tramp_info_create ("rgctx_fetch_trampoline_general", buf, code - buf, ji, unwind_ops);
return buf;
}
guint8*
mono_arch_create_sdb_trampoline (gboolean single_step, MonoTrampInfo **info, gboolean aot)
{
guint8 *buf, *code;
GSList *unwind_ops = NULL;
MonoJumpInfo *ji = NULL;
int frame_size;
buf = code = mono_global_codeman_reserve (96);
/*
* Construct the MonoContext structure on the stack.
*/
frame_size = MONO_ABI_SIZEOF (MonoContext);
frame_size = ALIGN_TO (frame_size, MONO_ARCH_FRAME_ALIGNMENT);
ARM_SUB_REG_IMM8 (code, ARMREG_SP, ARMREG_SP, frame_size);
/* save ip, lr and pc into their correspodings ctx.regs slots. */
ARM_STR_IMM (code, ARMREG_IP, ARMREG_SP, MONO_STRUCT_OFFSET (MonoContext, regs) + sizeof (target_mgreg_t) * ARMREG_IP);
ARM_STR_IMM (code, ARMREG_LR, ARMREG_SP, MONO_STRUCT_OFFSET (MonoContext, regs) + 4 * ARMREG_LR);
ARM_STR_IMM (code, ARMREG_LR, ARMREG_SP, MONO_STRUCT_OFFSET (MonoContext, regs) + 4 * ARMREG_PC);
/* save r0..r10 and fp */
ARM_ADD_REG_IMM8 (code, ARMREG_IP, ARMREG_SP, MONO_STRUCT_OFFSET (MonoContext, regs));
ARM_STM (code, ARMREG_IP, 0x0fff);
/* now we can update fp. */
ARM_MOV_REG_REG (code, ARMREG_FP, ARMREG_SP);
/* make ctx.esp hold the actual value of sp at the beginning of this method. */
ARM_ADD_REG_IMM8 (code, ARMREG_R0, ARMREG_FP, frame_size);
ARM_STR_IMM (code, ARMREG_R0, ARMREG_IP, 4 * ARMREG_SP);
ARM_STR_IMM (code, ARMREG_R0, ARMREG_FP, MONO_STRUCT_OFFSET (MonoContext, regs) + 4 * ARMREG_SP);
/* make ctx.eip hold the address of the call. */
//ARM_SUB_REG_IMM8 (code, ARMREG_LR, ARMREG_LR, 4);
ARM_STR_IMM (code, ARMREG_LR, ARMREG_FP, MONO_STRUCT_OFFSET (MonoContext, pc));
/* r0 now points to the MonoContext */
ARM_MOV_REG_REG (code, ARMREG_R0, ARMREG_FP);
/* call */
if (aot) {
if (single_step)
ji = mono_patch_info_list_prepend (ji, code - buf, MONO_PATCH_INFO_JIT_ICALL_ADDR, GUINT_TO_POINTER (MONO_JIT_ICALL_mono_debugger_agent_single_step_from_context));
else
ji = mono_patch_info_list_prepend (ji, code - buf, MONO_PATCH_INFO_JIT_ICALL_ADDR, GUINT_TO_POINTER (MONO_JIT_ICALL_mono_debugger_agent_breakpoint_from_context));
ARM_LDR_IMM (code, ARMREG_IP, ARMREG_PC, 0);
ARM_B (code, 0);
*(gpointer*)code = NULL;
code += 4;
ARM_LDR_REG_REG (code, ARMREG_IP, ARMREG_PC, ARMREG_IP);
ARM_BLX_REG (code, ARMREG_IP);
} else {
ARM_LDR_IMM (code, ARMREG_IP, ARMREG_PC, 0);
ARM_B (code, 0);
if (single_step)
*(gpointer*)code = (gpointer)mono_component_debugger ()->single_step_from_context;
else
*(gpointer*)code = (gpointer)mono_component_debugger ()->breakpoint_from_context;
code += 4;
ARM_BLX_REG (code, ARMREG_IP);
}
/* we're back; save ctx.eip and ctx.esp into the corresponding regs slots. */
ARM_LDR_IMM (code, ARMREG_R0, ARMREG_FP, MONO_STRUCT_OFFSET (MonoContext, pc));
ARM_STR_IMM (code, ARMREG_R0, ARMREG_FP, MONO_STRUCT_OFFSET (MonoContext, regs) + 4 * ARMREG_LR);
ARM_STR_IMM (code, ARMREG_R0, ARMREG_FP, MONO_STRUCT_OFFSET (MonoContext, regs) + 4 * ARMREG_PC);
/* make ip point to the regs array, then restore everything, including pc. */
ARM_ADD_REG_IMM8 (code, ARMREG_IP, ARMREG_FP, MONO_STRUCT_OFFSET (MonoContext, regs));
ARM_LDM (code, ARMREG_IP, 0xffff);
mono_arch_flush_icache (buf, code - buf);
MONO_PROFILER_RAISE (jit_code_buffer, (buf, code - buf, MONO_PROFILER_CODE_BUFFER_HELPER, NULL));
const char *tramp_name = single_step ? "sdb_single_step_trampoline" : "sdb_breakpoint_trampoline";
*info = mono_tramp_info_create (tramp_name, buf, code - buf, ji, unwind_ops);
return buf;
}
/*
* mono_arch_get_interp_to_native_trampoline:
*
* See tramp-amd64.c for documentation.
*/
gpointer
mono_arch_get_interp_to_native_trampoline (MonoTrampInfo **info)
{
#ifndef DISABLE_INTERPRETER
guint8 *start = NULL, *code;
guint8 *label_start_copy, *label_exit_copy;
MonoJumpInfo *ji = NULL;
GSList *unwind_ops = NULL;
int buf_len, i, off_methodargs, off_targetaddr;
const int fp_reg = ARMREG_R7;
int framesize;
buf_len = 512 + 1024;
start = code = (guint8 *) mono_global_codeman_reserve (buf_len);
/*
* iOS ABI
*
* FIXME We save rgctx reg here so we don't regress tests. It should
* not be clobbered by native->interp transition.
*/
ARM_PUSH (code, (1 << MONO_ARCH_RGCTX_REG) | (1 << fp_reg) | (1 << ARMREG_LR));
ARM_MOV_REG_REG (code, fp_reg, ARMREG_SP);
/* allocate space for saving the target addr and the call context and align stack */
framesize = sizeof (target_mgreg_t) + ALIGN_TO (2 * sizeof (target_mgreg_t), MONO_ARCH_FRAME_ALIGNMENT);
ARM_SUB_REG_IMM8 (code, ARMREG_SP, ARMREG_SP, framesize);
/* save CallContext* onto stack */
off_methodargs = -4;
ARM_STR_IMM (code, ARMREG_R1, fp_reg, off_methodargs);
/* save target address onto stack */
off_targetaddr = -8;
ARM_STR_IMM (code, ARMREG_R0, fp_reg, off_targetaddr);
/* allocate the stack space necessary for the call */
ARM_LDR_IMM (code, ARMREG_R3, ARMREG_R1, MONO_STRUCT_OFFSET (CallContext, stack_size));
ARM_SUB_REG_REG (code, ARMREG_SP, ARMREG_SP, ARMREG_R3);
/* copy stack from the CallContext, R0 = dest, R1 = source */
ARM_MOV_REG_REG (code, ARMREG_R0, ARMREG_SP);
ARM_LDR_IMM (code, ARMREG_R1, ARMREG_R1, MONO_STRUCT_OFFSET (CallContext, stack));
label_start_copy = code;
ARM_CMP_REG_IMM (code, ARMREG_R3, 0, 0);
label_exit_copy = code;
ARM_B_COND (code, ARMCOND_EQ, 0);
ARM_LDR_IMM (code, ARMREG_R2, ARMREG_R1, 0);
ARM_STR_IMM (code, ARMREG_R2, ARMREG_R0, 0);
ARM_ADD_REG_IMM8 (code, ARMREG_R0, ARMREG_R0, sizeof (target_mgreg_t));
ARM_ADD_REG_IMM8 (code, ARMREG_R1, ARMREG_R1, sizeof (target_mgreg_t));
ARM_SUB_REG_IMM8 (code, ARMREG_R3, ARMREG_R3, sizeof (target_mgreg_t));
ARM_B (code, 0);
arm_patch (code - 4, label_start_copy);
arm_patch (label_exit_copy, code);
ARM_LDR_IMM (code, ARMREG_IP, fp_reg, off_methodargs);
/* set all general purpose registers from CallContext */
for (i = 0; i < PARAM_REGS; i++)
ARM_LDR_IMM (code, i, ARMREG_IP, MONO_STRUCT_OFFSET (CallContext, gregs) + i * sizeof (target_mgreg_t));
/* set all floating registers from CallContext */
for (i = 0; i < FP_PARAM_REGS; i++)
ARM_FLDD (code, i * 2, ARMREG_IP, MONO_STRUCT_OFFSET (CallContext, fregs) + i * sizeof (double));
/* load target addr */
ARM_LDR_IMM (code, ARMREG_IP, fp_reg, off_targetaddr);
/* call into native function */
ARM_BLX_REG (code, ARMREG_IP);
/* load CallContext*/
ARM_LDR_IMM (code, ARMREG_IP, fp_reg, off_methodargs);
/* set all general purpose registers to CallContext */
for (i = 0; i < PARAM_REGS; i++)
ARM_STR_IMM (code, i, ARMREG_IP, MONO_STRUCT_OFFSET (CallContext, gregs) + i * sizeof (target_mgreg_t));
/* set all floating registers to CallContext */
for (i = 0; i < FP_PARAM_REGS; i++)
ARM_FSTD (code, i * 2, ARMREG_IP, MONO_STRUCT_OFFSET (CallContext, fregs) + i * sizeof (double));
ARM_MOV_REG_REG (code, ARMREG_SP, fp_reg);
ARM_POP (code, (1 << MONO_ARCH_RGCTX_REG) | (1 << fp_reg) | (1 << ARMREG_PC));
g_assert (code - start < buf_len);
mono_arch_flush_icache (start, code - start);
MONO_PROFILER_RAISE (jit_code_buffer, (start, code - start, MONO_PROFILER_CODE_BUFFER_HELPER, NULL));
if (info)
*info = mono_tramp_info_create ("interp_to_native_trampoline", start, code - start, ji, unwind_ops);
return start;
#else
g_assert_not_reached ();
return NULL;
#endif /* DISABLE_INTERPRETER */
}
gpointer
mono_arch_get_native_to_interp_trampoline (MonoTrampInfo **info)
{
#ifndef DISABLE_INTERPRETER
guint8 *start = NULL, *code;
MonoJumpInfo *ji = NULL;
GSList *unwind_ops = NULL;
int buf_len, i;
const int fp_reg = ARMREG_R7;
int framesize;
buf_len = 512;
start = code = (guint8 *) mono_global_codeman_reserve (buf_len);
unwind_ops = mono_arch_get_cie_program ();
/* iOS ABI */
ARM_PUSH (code, (1 << fp_reg) | (1 << ARMREG_LR));
mono_add_unwind_op_def_cfa_offset (unwind_ops, code, start, 2 * sizeof (target_mgreg_t));
mono_add_unwind_op_offset (unwind_ops, code, start, ARMREG_LR, -4);
mono_add_unwind_op_offset (unwind_ops, code, start, fp_reg, -8);
ARM_MOV_REG_REG (code, fp_reg, ARMREG_SP);
mono_add_unwind_op_def_cfa_reg (unwind_ops, code, start, fp_reg);
/* allocate the CallContext on the stack */
framesize = ALIGN_TO (MONO_ABI_SIZEOF (CallContext), MONO_ARCH_FRAME_ALIGNMENT);
ARM_SUB_REG_IMM8 (code, ARMREG_SP, ARMREG_SP, framesize);
/* save all general purpose registers into the CallContext */
for (i = 0; i < PARAM_REGS; i++)
ARM_STR_IMM (code, i, ARMREG_SP, MONO_STRUCT_OFFSET (CallContext, gregs) + i * sizeof (target_mgreg_t));
/* save all floating registers into the CallContext */
for (i = 0; i < FP_PARAM_REGS; i++)
ARM_FSTD (code, i * 2, ARMREG_SP, MONO_STRUCT_OFFSET (CallContext, fregs) + i * sizeof (double));
/* set the stack pointer to the value at call site */
ARM_ADD_REG_IMM8 (code, ARMREG_R0, fp_reg, 2 * sizeof (target_mgreg_t));
ARM_STR_IMM (code, ARMREG_R0, ARMREG_SP, MONO_STRUCT_OFFSET (CallContext, stack));
/* call interp_entry with the ccontext and rmethod as arguments */
ARM_MOV_REG_REG (code, ARMREG_R0, ARMREG_SP);
ARM_LDR_IMM (code, ARMREG_R1, ARMREG_IP, MONO_STRUCT_OFFSET (MonoFtnDesc, arg));
ARM_LDR_IMM (code, ARMREG_IP, ARMREG_IP, MONO_STRUCT_OFFSET (MonoFtnDesc, addr));
ARM_BLX_REG (code, ARMREG_IP);
/* load the return values from the context */
for (i = 0; i < PARAM_REGS; i++)
ARM_LDR_IMM (code, i, ARMREG_SP, MONO_STRUCT_OFFSET (CallContext, gregs) + i * sizeof (target_mgreg_t));
for (i = 0; i < FP_PARAM_REGS; i++)
ARM_FLDD (code, i * 2, ARMREG_SP, MONO_STRUCT_OFFSET (CallContext, fregs) + i * sizeof (double));
/* reset stack and return */
ARM_MOV_REG_REG (code, ARMREG_SP, fp_reg);
ARM_POP (code, (1 << fp_reg) | (1 << ARMREG_PC));
g_assert (code - start < buf_len);
mono_arch_flush_icache (start, code - start);
MONO_PROFILER_RAISE (jit_code_buffer, (start, code - start, MONO_PROFILER_CODE_BUFFER_EXCEPTION_HANDLING, NULL));
if (info)
*info = mono_tramp_info_create ("native_to_interp_trampoline", start, code - start, ji, unwind_ops);
return start;
#else
g_assert_not_reached ();
return NULL;
#endif /* DISABLE_INTERPRETER */
}
#else
guchar*
mono_arch_create_generic_trampoline (MonoTrampolineType tramp_type, MonoTrampInfo **info, gboolean aot)
{
g_assert_not_reached ();
return NULL;
}
gpointer
mono_arch_create_specific_trampoline (gpointer arg1, MonoTrampolineType tramp_type, MonoMemoryManager *mem_manager, guint32 *code_len)
{
g_assert_not_reached ();
return NULL;
}
gpointer
mono_arch_get_unbox_trampoline (MonoMethod *m, gpointer addr)
{
g_assert_not_reached ();
return NULL;
}
gpointer
mono_arch_get_static_rgctx_trampoline (MonoMemoryManager *mem_manager, gpointer arg, gpointer addr)
{
g_assert_not_reached ();
return NULL;
}
gpointer
mono_arch_get_ftnptr_arg_trampoline (MonoMemoryManager *mem_manager, gpointer arg, gpointer addr)
{
g_assert_not_reached ();
return NULL;
}
gpointer
mono_arch_create_rgctx_lazy_fetch_trampoline (guint32 slot, MonoTrampInfo **info, gboolean aot)
{
g_assert_not_reached ();
return NULL;
}
guint8*
mono_arch_create_sdb_trampoline (gboolean single_step, MonoTrampInfo **info, gboolean aot)
{
g_assert_not_reached ();
return NULL;
}
gpointer
mono_arch_get_interp_to_native_trampoline (MonoTrampInfo **info)
{
g_assert_not_reached ();
return NULL;
}
gpointer
mono_arch_get_native_to_interp_trampoline (MonoTrampInfo **info)
{
g_assert_not_reached ();
return NULL;
}
#endif /* DISABLE_JIT */
guint8*
mono_arch_get_call_target (guint8 *code)
{
guint32 ins = ((guint32*)code) [-1];
/* Should be a 'bl' or a 'b' */
if (((ins >> 25) & 0x7) == 0x5) {
gint32 disp = ((((gint32)ins) & 0xffffff) << 8) >> 8;
guint8 *target = code - 4 + 8 + (disp * 4);
return target;
} else {
return NULL;
}
}
guint32
mono_arch_get_plt_info_offset (guint8 *plt_entry, host_mgreg_t *regs, guint8 *code)
{
/* The offset is stored as the 4th word of the plt entry */
return ((guint32*)plt_entry) [3];
}
/*
* Return the address of the PLT entry called by the thumb code CODE.
*/
guint8*
mono_arm_get_thumb_plt_entry (guint8 *code)
{
int s, j1, j2, imm10, imm11, i1, i2, imm32;
guint8 *bl, *base;
guint16 t1, t2;
guint8 *target;
/* code should be right after a BL */
code = (guint8*)((gsize)code & ~1);
base = (guint8*)((gsize)code & ~3);
bl = code - 4;
t1 = ((guint16*)bl) [0];
t2 = ((guint16*)bl) [1];
g_assert ((t1 >> 11) == 0x1e);
s = (t1 >> 10) & 0x1;
imm10 = (t1 >> 0) & 0x3ff;
j1 = (t2 >> 13) & 0x1;
j2 = (t2 >> 11) & 0x1;
imm11 = t2 & 0x7ff;
i1 = (s ^ j1) ? 0 : 1;
i2 = (s ^ j2) ? 0 : 1;
imm32 = (imm11 << 1) | (imm10 << 12) | (i2 << 22) | (i1 << 23) | (s << 24);
if (s)
/* Sign extend from 25 bits to 32 bits */
imm32 = ((gint32)imm32 << 7) >> 7;
target = code + imm32;
/* target now points to the thumb plt entry */
/* ldr.w r12, [pc, #8] */
g_assert (((guint16*)target) [0] == 0xf8df);
g_assert (((guint16*)target) [1] == 0xc008);
/*
* The PLT info offset is at offset 16, but mono_arch_get_plt_entry_offset () returns
* the 3rd word, so compensate by returning a different value.
*/
target += 4;
return target;
}
#ifndef DISABLE_JIT
/*
* mono_arch_get_gsharedvt_arg_trampoline:
*
* See tramp-x86.c for documentation.
*/
gpointer
mono_arch_get_gsharedvt_arg_trampoline (gpointer arg, gpointer addr)
{
guint8 *code, *buf;
int buf_len;
gpointer *constants;
MonoMemoryManager *mem_manager = mini_get_default_mem_manager ();
buf_len = 24;
buf = code = mono_mem_manager_code_reserve (mem_manager, buf_len);
/* Similar to the specialized trampoline code */
ARM_PUSH (code, (1 << ARMREG_R0) | (1 << ARMREG_R1) | (1 << ARMREG_R2) | (1 << ARMREG_R3) | (1 << ARMREG_LR));
ARM_LDR_IMM (code, ARMREG_IP, ARMREG_PC, 2 * sizeof (target_mgreg_t));
/* arg is passed in LR */
ARM_LDR_IMM (code, ARMREG_LR, ARMREG_PC, 0);
code = emit_bx (code, ARMREG_IP);
constants = (gpointer*)code;
constants [0] = arg;
constants [1] = addr;
code += 2 * sizeof (gpointer);
g_assert ((code - buf) <= buf_len);
mono_arch_flush_icache (buf, code - buf);
MONO_PROFILER_RAISE (jit_code_buffer, (buf, code - buf, MONO_PROFILER_CODE_BUFFER_GENERICS_TRAMPOLINE, NULL));
mono_tramp_info_register (mono_tramp_info_create (NULL, buf, code - buf, NULL, NULL), mem_manager);
return buf;
}
#else
gpointer
mono_arch_get_gsharedvt_arg_trampoline (gpointer arg, gpointer addr)
{
g_assert_not_reached ();
return NULL;
}
#endif
| -1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/native/libs/System.Security.Cryptography.Native/pal_eckey.c
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
#include "pal_eckey.h"
#include <assert.h>
void CryptoNative_EcKeyDestroy(EC_KEY* r)
{
EC_KEY_free(r);
}
EC_KEY* CryptoNative_EcKeyCreateByOid(const char* oid)
{
ERR_clear_error();
// oid can be friendly name or value
int nid = OBJ_txt2nid(oid);
return EC_KEY_new_by_curve_name(nid);
}
int32_t CryptoNative_EcKeyGenerateKey(EC_KEY* eckey)
{
ERR_clear_error();
if (!EC_KEY_generate_key(eckey))
{
return 0;
}
return EC_KEY_check_key(eckey);
}
int32_t CryptoNative_EcKeyUpRef(EC_KEY* r)
{
// No error queue impact
return EC_KEY_up_ref(r);
}
int32_t CryptoNative_EcKeyGetSize(const EC_KEY* key, int32_t* keySize)
{
// No error queue impact
if (!keySize)
return 0;
*keySize = 0;
if (!key)
return 0;
const EC_GROUP* group = EC_KEY_get0_group(key);
if (!group)
return 0;
*keySize = EC_GROUP_get_degree(group);
return 1;
}
int32_t CryptoNative_EcKeyGetCurveName2(const EC_KEY* key, int32_t* nidName)
{
// No error queue impact.
if (!nidName)
return 0;
*nidName = NID_undef;
if (!key)
return 0;
const EC_GROUP* group = EC_KEY_get0_group(key);
if (!group)
return 0;
*nidName = EC_GROUP_get_curve_name(group);
return 1;
}
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
#include "pal_eckey.h"
#include <assert.h>
void CryptoNative_EcKeyDestroy(EC_KEY* r)
{
EC_KEY_free(r);
}
EC_KEY* CryptoNative_EcKeyCreateByOid(const char* oid)
{
ERR_clear_error();
// oid can be friendly name or value
int nid = OBJ_txt2nid(oid);
return EC_KEY_new_by_curve_name(nid);
}
int32_t CryptoNative_EcKeyGenerateKey(EC_KEY* eckey)
{
ERR_clear_error();
if (!EC_KEY_generate_key(eckey))
{
return 0;
}
return EC_KEY_check_key(eckey);
}
int32_t CryptoNative_EcKeyUpRef(EC_KEY* r)
{
// No error queue impact
return EC_KEY_up_ref(r);
}
int32_t CryptoNative_EcKeyGetSize(const EC_KEY* key, int32_t* keySize)
{
// No error queue impact
if (!keySize)
return 0;
*keySize = 0;
if (!key)
return 0;
const EC_GROUP* group = EC_KEY_get0_group(key);
if (!group)
return 0;
*keySize = EC_GROUP_get_degree(group);
return 1;
}
int32_t CryptoNative_EcKeyGetCurveName2(const EC_KEY* key, int32_t* nidName)
{
// No error queue impact.
if (!nidName)
return 0;
*nidName = NID_undef;
if (!key)
return 0;
const EC_GROUP* group = EC_KEY_get0_group(key);
if (!group)
return 0;
*nidName = EC_GROUP_get_curve_name(group);
return 1;
}
| -1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/coreclr/vm/domainassembly.h
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
// --------------------------------------------------------------------------------
// DomainAssembly.h
//
// --------------------------------------------------------------------------------
#ifndef _DOMAINASSEMBLY_H_
#define _DOMAINASSEMBLY_H_
// --------------------------------------------------------------------------------
// Required headers
// --------------------------------------------------------------------------------
// --------------------------------------------------------------------------------
// Forward class declarations
// --------------------------------------------------------------------------------
class AppDomain;
class DomainAssembly;
class Assembly;
class Module;
class DynamicMethodTable;
enum FileLoadLevel
{
// These states are tracked by FileLoadLock
// Note: This enum must match the static array fileLoadLevelName[]
// which contains the printable names of the enum values
// Note that semantics here are description is the LAST step done, not what is
// currently being done.
FILE_LOAD_CREATE,
FILE_LOAD_BEGIN,
FILE_LOAD_FIND_NATIVE_IMAGE,
FILE_LOAD_VERIFY_NATIVE_IMAGE_DEPENDENCIES,
FILE_LOAD_ALLOCATE,
FILE_LOAD_ADD_DEPENDENCIES,
FILE_LOAD_PRE_LOADLIBRARY,
FILE_LOAD_LOADLIBRARY,
FILE_LOAD_POST_LOADLIBRARY,
FILE_LOAD_EAGER_FIXUPS,
FILE_LOAD_DELIVER_EVENTS,
FILE_LOAD_VTABLE_FIXUPS,
FILE_LOADED, // Loaded by not yet active
FILE_ACTIVE // Fully active (constructors run & security checked)
};
enum NotificationStatus
{
NOT_NOTIFIED=0,
PROFILER_NOTIFIED=1,
DEBUGGER_NEEDNOTIFICATION=2,
DEBUGGER_NOTIFIED=4
};
// --------------------------------------------------------------------------------
// DomainAssembly represents an assembly loaded (or being loaded) into an app domain. It
// is guranteed to be unique per file per app domain.
// --------------------------------------------------------------------------------
class DomainAssembly final
{
public:
// ------------------------------------------------------------
// Public API
// ------------------------------------------------------------
#ifndef DACCESS_COMPILE
~DomainAssembly();
DomainAssembly() {LIMITED_METHOD_CONTRACT;};
#endif
PTR_AppDomain GetAppDomain()
{
LIMITED_METHOD_CONTRACT;
SUPPORTS_DAC;
return m_pDomain;
}
PEAssembly *GetPEAssembly()
{
LIMITED_METHOD_DAC_CONTRACT;
return PTR_PEAssembly(m_pPEAssembly);
}
Assembly* GetAssembly()
{
LIMITED_METHOD_DAC_CONTRACT;
CONSISTENCY_CHECK(CheckLoaded());
return m_pAssembly;
}
Module* GetModule()
{
LIMITED_METHOD_CONTRACT;
CONSISTENCY_CHECK(CheckLoaded());
return m_pModule;
}
IMDInternalImport *GetMDImport()
{
WRAPPER_NO_CONTRACT;
return m_pPEAssembly->GetMDImport();
}
OBJECTREF GetExposedAssemblyObjectIfExists()
{
LIMITED_METHOD_CONTRACT;
OBJECTREF objRet = NULL;
GET_LOADERHANDLE_VALUE_FAST(GetLoaderAllocator(), m_hExposedAssemblyObject, &objRet);
return objRet;
}
// Returns managed representation of the assembly (Assembly or AssemblyBuilder).
// Returns NULL if the managed scout was already collected (see code:LoaderAllocator#AssemblyPhases).
OBJECTREF GetExposedAssemblyObject();
OBJECTREF GetExposedModuleObjectIfExists()
{
LIMITED_METHOD_CONTRACT;
OBJECTREF objRet = NULL;
GET_LOADERHANDLE_VALUE_FAST(GetLoaderAllocator(), m_hExposedModuleObject, &objRet);
return objRet;
}
OBJECTREF GetExposedModuleObject();
BOOL IsSystem()
{
WRAPPER_NO_CONTRACT;
return GetPEAssembly()->IsSystem();
}
LPCUTF8 GetSimpleName()
{
WRAPPER_NO_CONTRACT;
return GetPEAssembly()->GetSimpleName();
}
#ifdef LOGGING
LPCWSTR GetDebugName()
{
WRAPPER_NO_CONTRACT;
return GetPEAssembly()->GetDebugName();
}
#endif
BOOL IsCollectible()
{
LIMITED_METHOD_CONTRACT;
return m_fCollectible;
}
ULONG HashIdentity()
{
WRAPPER_NO_CONTRACT;
return GetPEAssembly()->HashIdentity();
}
// ------------------------------------------------------------
// Loading state checks
// ------------------------------------------------------------
// Return the File's load level. Note that this is the last level actually successfully completed.
// Note that this is subtly different than the FileLoadLock's level, which is the last level
// which was triggered (but potentially skipped if error or inappropriate.)
FileLoadLevel GetLoadLevel() { LIMITED_METHOD_DAC_CONTRACT; return m_level; }
// Error means that a permanent x-appdomain load error has occurred.
BOOL IsError()
{
LIMITED_METHOD_DAC_CONTRACT;
DACCOP_IGNORE(FieldAccess, "No marshalling required");
return m_pError != NULL;
}
// Loading means that the load is still being tracked by a FileLoadLock.
BOOL IsLoading() { LIMITED_METHOD_CONTRACT; return m_loading; }
// Loaded means that the file can be used passively. This includes loading types, reflection, and
// jitting.
BOOL IsLoaded() { LIMITED_METHOD_DAC_CONTRACT; return m_level >= FILE_LOAD_DELIVER_EVENTS; }
// Active means that the file can be used actively in the current app domain. Note that a shared file
// may conditionally not be able to be made active on a per app domain basis.
BOOL IsActive() { LIMITED_METHOD_CONTRACT; return m_level >= FILE_ACTIVE; }
// Checks if the load has reached the point where profilers may be notified
// about the file. It's important that IF a profiler is notified, THEN this returns
// TRUE, otherwise there can be profiler-attach races where the profiler doesn't see
// the file via either enumeration or notification. As a result, this begins
// returning TRUE just before the profiler is actually notified. See
// code:ProfilerFunctionEnum::Init#ProfilerEnumAssemblies
BOOL IsAvailableToProfilers()
{
LIMITED_METHOD_DAC_CONTRACT;
return IsProfilerNotified(); // despite the name, this function returns TRUE just before we notify the profiler
}
// CheckLoaded is appropriate for asserts that the assembly can be passively used.
CHECK CheckLoaded();
// CheckActivated is appropriate for asserts that the assembly can be actively used. Note that
// it is slightly different from IsActive in that it deals with reentrancy cases properly.
CHECK CheckActivated();
// Ensure that an assembly has reached at least the IsLoaded state. Throw if not.
void EnsureLoaded()
{
WRAPPER_NO_CONTRACT;
return EnsureLoadLevel(FILE_LOADED);
}
// Ensure that an assembly has reached at least the IsActive state. Throw if not.
void EnsureActive()
{
WRAPPER_NO_CONTRACT;
return EnsureLoadLevel(FILE_ACTIVE);
}
// Ensure that an assembly has reached at least the Allocated state. Throw if not.
void EnsureAllocated()
{
WRAPPER_NO_CONTRACT;
return EnsureLoadLevel(FILE_LOAD_ALLOCATE);
}
void EnsureLibraryLoaded()
{
WRAPPER_NO_CONTRACT;
return EnsureLoadLevel(FILE_LOAD_LOADLIBRARY);
}
// EnsureLoadLevel is a generic routine used to ensure that the file is not in a delay loaded
// state (unless it needs to be.) This should be used when a particular level of loading
// is required for an operation. Note that deadlocks are tolerated so the level may be one
void EnsureLoadLevel(FileLoadLevel targetLevel) DAC_EMPTY();
// CheckLoadLevel is an assert predicate used to verify the load level of an assembly.
// deadlockOK indicates that the level is allowed to be one short if we are restricted
// by loader reentrancy.
CHECK CheckLoadLevel(FileLoadLevel requiredLevel, BOOL deadlockOK = TRUE) DAC_EMPTY_RET(CHECK::OK());
// RequireLoadLevel throws an exception if the domain file isn't loaded enough. Note
// that this is intolerant of deadlock related failures so is only really appropriate for
// checks inside the main loading loop.
void RequireLoadLevel(FileLoadLevel targetLevel) DAC_EMPTY();
// Throws if a load error has occurred
void ThrowIfError(FileLoadLevel targetLevel) DAC_EMPTY();
// Checks that a load error has not occurred before the given level
CHECK CheckNoError(FileLoadLevel targetLevel) DAC_EMPTY_RET(CHECK::OK());
// IsNotified means that the profiler API notification has been delivered
BOOL IsProfilerNotified() { LIMITED_METHOD_CONTRACT; return m_notifyflags & PROFILER_NOTIFIED; }
BOOL IsDebuggerNotified() { LIMITED_METHOD_CONTRACT; return m_notifyflags & DEBUGGER_NOTIFIED; }
BOOL ShouldNotifyDebugger() { LIMITED_METHOD_CONTRACT; return m_notifyflags & DEBUGGER_NEEDNOTIFICATION; }
// ------------------------------------------------------------
// Other public APIs
// ------------------------------------------------------------
#ifndef DACCESS_COMPILE
BOOL Equals(DomainAssembly *pAssembly) { WRAPPER_NO_CONTRACT; return GetPEAssembly()->Equals(pAssembly->GetPEAssembly()); }
BOOL Equals(PEAssembly *pPEAssembly) { WRAPPER_NO_CONTRACT; return GetPEAssembly()->Equals(pPEAssembly); }
#endif // DACCESS_COMPILE
#ifdef DACCESS_COMPILE
void EnumMemoryRegions(CLRDataEnumMemoryFlags flags);
#endif
#ifndef DACCESS_COMPILE
// light code gen. Keep the list of MethodTables needed for creating dynamic methods
DynamicMethodTable* GetDynamicMethodTable();
#endif
DomainAssembly* GetNextDomainAssemblyInSameALC()
{
return m_NextDomainAssemblyInSameALC;
}
void SetNextDomainAssemblyInSameALC(DomainAssembly* domainAssembly)
{
_ASSERTE(m_NextDomainAssemblyInSameALC == NULL);
m_NextDomainAssemblyInSameALC = domainAssembly;
}
LoaderAllocator* GetLoaderAllocator()
{
LIMITED_METHOD_CONTRACT;
return m_pLoaderAllocator;
}
// ------------------------------------------------------------
// Resource access
// ------------------------------------------------------------
BOOL GetResource(LPCSTR szName, DWORD* cbResource,
PBYTE* pbInMemoryResource, DomainAssembly** pAssemblyRef,
LPCSTR* szFileName, DWORD* dwLocation,
BOOL fSkipRaiseResolveEvent);
private:
// ------------------------------------------------------------
// Loader API
// ------------------------------------------------------------
friend class AppDomain;
friend class Assembly;
friend class Module;
friend class FileLoadLock;
DomainAssembly(AppDomain* pDomain, PEAssembly* pPEAssembly, LoaderAllocator* pLoaderAllocator);
BOOL DoIncrementalLoad(FileLoadLevel targetLevel);
void ClearLoading() { LIMITED_METHOD_CONTRACT; m_loading = FALSE; }
void SetLoadLevel(FileLoadLevel level) { LIMITED_METHOD_CONTRACT; m_level = level; }
#ifndef DACCESS_COMPILE
void Begin();
void Allocate();
void AddDependencies();
void PreLoadLibrary();
void LoadLibrary();
void PostLoadLibrary();
void EagerFixups();
void VtableFixups();
void DeliverSyncEvents();
void DeliverAsyncEvents();
void FinishLoad();
void Activate();
void RegisterWithHostAssembly();
void UnregisterFromHostAssembly();
#endif
// This should be used to permanently set the load to fail. Do not use with transient conditions
void SetError(Exception *ex);
void SetAssembly(Assembly* pAssembly);
void SetProfilerNotified() { LIMITED_METHOD_CONTRACT; m_notifyflags|= PROFILER_NOTIFIED; }
void SetDebuggerNotified() { LIMITED_METHOD_CONTRACT; m_notifyflags|=DEBUGGER_NOTIFIED; }
void SetShouldNotifyDebugger() { LIMITED_METHOD_CONTRACT; m_notifyflags|=DEBUGGER_NEEDNOTIFICATION; }
class ExInfo
{
enum
{
ExType_ClrEx,
ExType_HR
}
m_type;
union
{
Exception* m_pEx;
HRESULT m_hr;
};
public:
void Throw()
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_ANY;
}
CONTRACTL_END;
if (m_type == ExType_ClrEx)
{
PAL_CPP_THROW(Exception*, m_pEx->DomainBoundClone());
}
if (m_type == ExType_HR)
ThrowHR(m_hr);
_ASSERTE(!"Bad exception type");
ThrowHR(E_UNEXPECTED);
};
ExInfo(Exception* pEx)
{
LIMITED_METHOD_CONTRACT;
m_type = ExType_ClrEx;
m_pEx = pEx;
};
~ExInfo()
{
LIMITED_METHOD_CONTRACT;
if (m_type == ExType_ClrEx)
delete m_pEx;
}
};
public:
// ------------------------------------------------------------
// Debugger control API
// ------------------------------------------------------------
DebuggerAssemblyControlFlags GetDebuggerInfoBits(void)
{
LIMITED_METHOD_CONTRACT;
return m_debuggerFlags;
}
void SetDebuggerInfoBits(DebuggerAssemblyControlFlags newBits)
{
LIMITED_METHOD_CONTRACT;
m_debuggerFlags = newBits;
}
void SetupDebuggingConfig(void);
DWORD ComputeDebuggingConfig(void);
HRESULT GetDebuggingCustomAttributes(DWORD* pdwFlags);
BOOL IsVisibleToDebugger();
BOOL NotifyDebuggerLoad(int flags, BOOL attaching);
void NotifyDebuggerUnload();
private:
// ------------------------------------------------------------
// Instance data
// ------------------------------------------------------------
PTR_Assembly m_pAssembly;
PTR_AppDomain m_pDomain;
PTR_PEAssembly m_pPEAssembly;
PTR_Module m_pModule;
BOOL m_fCollectible;
DomainAssembly* m_NextDomainAssemblyInSameALC;
PTR_LoaderAllocator m_pLoaderAllocator;
FileLoadLevel m_level;
BOOL m_loading;
LOADERHANDLE m_hExposedModuleObject;
LOADERHANDLE m_hExposedAssemblyObject;
ExInfo* m_pError;
BOOL m_bDisableActivationCheck;
BOOL m_fHostAssemblyPublished;
// m_pDynamicMethodTable is used by the light code generation to allow method
// generation on the fly. They are lazily created when/if a dynamic method is requested
// for this specific module
DynamicMethodTable* m_pDynamicMethodTable;
DebuggerAssemblyControlFlags m_debuggerFlags;
DWORD m_notifyflags;
BOOL m_fDebuggerUnloadStarted;
};
#endif // _DOMAINASSEMBLY_H_
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
// --------------------------------------------------------------------------------
// DomainAssembly.h
//
// --------------------------------------------------------------------------------
#ifndef _DOMAINASSEMBLY_H_
#define _DOMAINASSEMBLY_H_
// --------------------------------------------------------------------------------
// Required headers
// --------------------------------------------------------------------------------
// --------------------------------------------------------------------------------
// Forward class declarations
// --------------------------------------------------------------------------------
class AppDomain;
class DomainAssembly;
class Assembly;
class Module;
class DynamicMethodTable;
enum FileLoadLevel
{
// These states are tracked by FileLoadLock
// Note: This enum must match the static array fileLoadLevelName[]
// which contains the printable names of the enum values
// Note that semantics here are description is the LAST step done, not what is
// currently being done.
FILE_LOAD_CREATE,
FILE_LOAD_BEGIN,
FILE_LOAD_FIND_NATIVE_IMAGE,
FILE_LOAD_VERIFY_NATIVE_IMAGE_DEPENDENCIES,
FILE_LOAD_ALLOCATE,
FILE_LOAD_ADD_DEPENDENCIES,
FILE_LOAD_PRE_LOADLIBRARY,
FILE_LOAD_LOADLIBRARY,
FILE_LOAD_POST_LOADLIBRARY,
FILE_LOAD_EAGER_FIXUPS,
FILE_LOAD_DELIVER_EVENTS,
FILE_LOAD_VTABLE_FIXUPS,
FILE_LOADED, // Loaded by not yet active
FILE_ACTIVE // Fully active (constructors run & security checked)
};
enum NotificationStatus
{
NOT_NOTIFIED=0,
PROFILER_NOTIFIED=1,
DEBUGGER_NEEDNOTIFICATION=2,
DEBUGGER_NOTIFIED=4
};
// --------------------------------------------------------------------------------
// DomainAssembly represents an assembly loaded (or being loaded) into an app domain. It
// is guranteed to be unique per file per app domain.
// --------------------------------------------------------------------------------
class DomainAssembly final
{
public:
// ------------------------------------------------------------
// Public API
// ------------------------------------------------------------
#ifndef DACCESS_COMPILE
~DomainAssembly();
DomainAssembly() {LIMITED_METHOD_CONTRACT;};
#endif
PTR_AppDomain GetAppDomain()
{
LIMITED_METHOD_CONTRACT;
SUPPORTS_DAC;
return m_pDomain;
}
PEAssembly *GetPEAssembly()
{
LIMITED_METHOD_DAC_CONTRACT;
return PTR_PEAssembly(m_pPEAssembly);
}
Assembly* GetAssembly()
{
LIMITED_METHOD_DAC_CONTRACT;
CONSISTENCY_CHECK(CheckLoaded());
return m_pAssembly;
}
Module* GetModule()
{
LIMITED_METHOD_CONTRACT;
CONSISTENCY_CHECK(CheckLoaded());
return m_pModule;
}
IMDInternalImport *GetMDImport()
{
WRAPPER_NO_CONTRACT;
return m_pPEAssembly->GetMDImport();
}
OBJECTREF GetExposedAssemblyObjectIfExists()
{
LIMITED_METHOD_CONTRACT;
OBJECTREF objRet = NULL;
GET_LOADERHANDLE_VALUE_FAST(GetLoaderAllocator(), m_hExposedAssemblyObject, &objRet);
return objRet;
}
// Returns managed representation of the assembly (Assembly or AssemblyBuilder).
// Returns NULL if the managed scout was already collected (see code:LoaderAllocator#AssemblyPhases).
OBJECTREF GetExposedAssemblyObject();
OBJECTREF GetExposedModuleObjectIfExists()
{
LIMITED_METHOD_CONTRACT;
OBJECTREF objRet = NULL;
GET_LOADERHANDLE_VALUE_FAST(GetLoaderAllocator(), m_hExposedModuleObject, &objRet);
return objRet;
}
OBJECTREF GetExposedModuleObject();
BOOL IsSystem()
{
WRAPPER_NO_CONTRACT;
return GetPEAssembly()->IsSystem();
}
LPCUTF8 GetSimpleName()
{
WRAPPER_NO_CONTRACT;
return GetPEAssembly()->GetSimpleName();
}
#ifdef LOGGING
LPCWSTR GetDebugName()
{
WRAPPER_NO_CONTRACT;
return GetPEAssembly()->GetDebugName();
}
#endif
BOOL IsCollectible()
{
LIMITED_METHOD_CONTRACT;
return m_fCollectible;
}
ULONG HashIdentity()
{
WRAPPER_NO_CONTRACT;
return GetPEAssembly()->HashIdentity();
}
// ------------------------------------------------------------
// Loading state checks
// ------------------------------------------------------------
// Return the File's load level. Note that this is the last level actually successfully completed.
// Note that this is subtly different than the FileLoadLock's level, which is the last level
// which was triggered (but potentially skipped if error or inappropriate.)
FileLoadLevel GetLoadLevel() { LIMITED_METHOD_DAC_CONTRACT; return m_level; }
// Error means that a permanent x-appdomain load error has occurred.
BOOL IsError()
{
LIMITED_METHOD_DAC_CONTRACT;
DACCOP_IGNORE(FieldAccess, "No marshalling required");
return m_pError != NULL;
}
// Loading means that the load is still being tracked by a FileLoadLock.
BOOL IsLoading() { LIMITED_METHOD_CONTRACT; return m_loading; }
// Loaded means that the file can be used passively. This includes loading types, reflection, and
// jitting.
BOOL IsLoaded() { LIMITED_METHOD_DAC_CONTRACT; return m_level >= FILE_LOAD_DELIVER_EVENTS; }
// Active means that the file can be used actively in the current app domain. Note that a shared file
// may conditionally not be able to be made active on a per app domain basis.
BOOL IsActive() { LIMITED_METHOD_CONTRACT; return m_level >= FILE_ACTIVE; }
// Checks if the load has reached the point where profilers may be notified
// about the file. It's important that IF a profiler is notified, THEN this returns
// TRUE, otherwise there can be profiler-attach races where the profiler doesn't see
// the file via either enumeration or notification. As a result, this begins
// returning TRUE just before the profiler is actually notified. See
// code:ProfilerFunctionEnum::Init#ProfilerEnumAssemblies
BOOL IsAvailableToProfilers()
{
LIMITED_METHOD_DAC_CONTRACT;
return IsProfilerNotified(); // despite the name, this function returns TRUE just before we notify the profiler
}
// CheckLoaded is appropriate for asserts that the assembly can be passively used.
CHECK CheckLoaded();
// CheckActivated is appropriate for asserts that the assembly can be actively used. Note that
// it is slightly different from IsActive in that it deals with reentrancy cases properly.
CHECK CheckActivated();
// Ensure that an assembly has reached at least the IsLoaded state. Throw if not.
void EnsureLoaded()
{
WRAPPER_NO_CONTRACT;
return EnsureLoadLevel(FILE_LOADED);
}
// Ensure that an assembly has reached at least the IsActive state. Throw if not.
void EnsureActive()
{
WRAPPER_NO_CONTRACT;
return EnsureLoadLevel(FILE_ACTIVE);
}
// Ensure that an assembly has reached at least the Allocated state. Throw if not.
void EnsureAllocated()
{
WRAPPER_NO_CONTRACT;
return EnsureLoadLevel(FILE_LOAD_ALLOCATE);
}
void EnsureLibraryLoaded()
{
WRAPPER_NO_CONTRACT;
return EnsureLoadLevel(FILE_LOAD_LOADLIBRARY);
}
// EnsureLoadLevel is a generic routine used to ensure that the file is not in a delay loaded
// state (unless it needs to be.) This should be used when a particular level of loading
// is required for an operation. Note that deadlocks are tolerated so the level may be one
void EnsureLoadLevel(FileLoadLevel targetLevel) DAC_EMPTY();
// CheckLoadLevel is an assert predicate used to verify the load level of an assembly.
// deadlockOK indicates that the level is allowed to be one short if we are restricted
// by loader reentrancy.
CHECK CheckLoadLevel(FileLoadLevel requiredLevel, BOOL deadlockOK = TRUE) DAC_EMPTY_RET(CHECK::OK());
// RequireLoadLevel throws an exception if the domain file isn't loaded enough. Note
// that this is intolerant of deadlock related failures so is only really appropriate for
// checks inside the main loading loop.
void RequireLoadLevel(FileLoadLevel targetLevel) DAC_EMPTY();
// Throws if a load error has occurred
void ThrowIfError(FileLoadLevel targetLevel) DAC_EMPTY();
// Checks that a load error has not occurred before the given level
CHECK CheckNoError(FileLoadLevel targetLevel) DAC_EMPTY_RET(CHECK::OK());
// IsNotified means that the profiler API notification has been delivered
BOOL IsProfilerNotified() { LIMITED_METHOD_CONTRACT; return m_notifyflags & PROFILER_NOTIFIED; }
BOOL IsDebuggerNotified() { LIMITED_METHOD_CONTRACT; return m_notifyflags & DEBUGGER_NOTIFIED; }
BOOL ShouldNotifyDebugger() { LIMITED_METHOD_CONTRACT; return m_notifyflags & DEBUGGER_NEEDNOTIFICATION; }
// ------------------------------------------------------------
// Other public APIs
// ------------------------------------------------------------
#ifndef DACCESS_COMPILE
BOOL Equals(DomainAssembly *pAssembly) { WRAPPER_NO_CONTRACT; return GetPEAssembly()->Equals(pAssembly->GetPEAssembly()); }
BOOL Equals(PEAssembly *pPEAssembly) { WRAPPER_NO_CONTRACT; return GetPEAssembly()->Equals(pPEAssembly); }
#endif // DACCESS_COMPILE
#ifdef DACCESS_COMPILE
void EnumMemoryRegions(CLRDataEnumMemoryFlags flags);
#endif
#ifndef DACCESS_COMPILE
// light code gen. Keep the list of MethodTables needed for creating dynamic methods
DynamicMethodTable* GetDynamicMethodTable();
#endif
DomainAssembly* GetNextDomainAssemblyInSameALC()
{
return m_NextDomainAssemblyInSameALC;
}
void SetNextDomainAssemblyInSameALC(DomainAssembly* domainAssembly)
{
_ASSERTE(m_NextDomainAssemblyInSameALC == NULL);
m_NextDomainAssemblyInSameALC = domainAssembly;
}
LoaderAllocator* GetLoaderAllocator()
{
LIMITED_METHOD_CONTRACT;
return m_pLoaderAllocator;
}
// ------------------------------------------------------------
// Resource access
// ------------------------------------------------------------
BOOL GetResource(LPCSTR szName, DWORD* cbResource,
PBYTE* pbInMemoryResource, DomainAssembly** pAssemblyRef,
LPCSTR* szFileName, DWORD* dwLocation,
BOOL fSkipRaiseResolveEvent);
private:
// ------------------------------------------------------------
// Loader API
// ------------------------------------------------------------
friend class AppDomain;
friend class Assembly;
friend class Module;
friend class FileLoadLock;
DomainAssembly(AppDomain* pDomain, PEAssembly* pPEAssembly, LoaderAllocator* pLoaderAllocator);
BOOL DoIncrementalLoad(FileLoadLevel targetLevel);
void ClearLoading() { LIMITED_METHOD_CONTRACT; m_loading = FALSE; }
void SetLoadLevel(FileLoadLevel level) { LIMITED_METHOD_CONTRACT; m_level = level; }
#ifndef DACCESS_COMPILE
void Begin();
void Allocate();
void AddDependencies();
void PreLoadLibrary();
void LoadLibrary();
void PostLoadLibrary();
void EagerFixups();
void VtableFixups();
void DeliverSyncEvents();
void DeliverAsyncEvents();
void FinishLoad();
void Activate();
void RegisterWithHostAssembly();
void UnregisterFromHostAssembly();
#endif
// This should be used to permanently set the load to fail. Do not use with transient conditions
void SetError(Exception *ex);
void SetAssembly(Assembly* pAssembly);
void SetProfilerNotified() { LIMITED_METHOD_CONTRACT; m_notifyflags|= PROFILER_NOTIFIED; }
void SetDebuggerNotified() { LIMITED_METHOD_CONTRACT; m_notifyflags|=DEBUGGER_NOTIFIED; }
void SetShouldNotifyDebugger() { LIMITED_METHOD_CONTRACT; m_notifyflags|=DEBUGGER_NEEDNOTIFICATION; }
class ExInfo
{
enum
{
ExType_ClrEx,
ExType_HR
}
m_type;
union
{
Exception* m_pEx;
HRESULT m_hr;
};
public:
void Throw()
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_ANY;
}
CONTRACTL_END;
if (m_type == ExType_ClrEx)
{
PAL_CPP_THROW(Exception*, m_pEx->DomainBoundClone());
}
if (m_type == ExType_HR)
ThrowHR(m_hr);
_ASSERTE(!"Bad exception type");
ThrowHR(E_UNEXPECTED);
};
ExInfo(Exception* pEx)
{
LIMITED_METHOD_CONTRACT;
m_type = ExType_ClrEx;
m_pEx = pEx;
};
~ExInfo()
{
LIMITED_METHOD_CONTRACT;
if (m_type == ExType_ClrEx)
delete m_pEx;
}
};
public:
// ------------------------------------------------------------
// Debugger control API
// ------------------------------------------------------------
DebuggerAssemblyControlFlags GetDebuggerInfoBits(void)
{
LIMITED_METHOD_CONTRACT;
return m_debuggerFlags;
}
void SetDebuggerInfoBits(DebuggerAssemblyControlFlags newBits)
{
LIMITED_METHOD_CONTRACT;
m_debuggerFlags = newBits;
}
void SetupDebuggingConfig(void);
DWORD ComputeDebuggingConfig(void);
HRESULT GetDebuggingCustomAttributes(DWORD* pdwFlags);
BOOL IsVisibleToDebugger();
BOOL NotifyDebuggerLoad(int flags, BOOL attaching);
void NotifyDebuggerUnload();
private:
// ------------------------------------------------------------
// Instance data
// ------------------------------------------------------------
PTR_Assembly m_pAssembly;
PTR_AppDomain m_pDomain;
PTR_PEAssembly m_pPEAssembly;
PTR_Module m_pModule;
BOOL m_fCollectible;
DomainAssembly* m_NextDomainAssemblyInSameALC;
PTR_LoaderAllocator m_pLoaderAllocator;
FileLoadLevel m_level;
BOOL m_loading;
LOADERHANDLE m_hExposedModuleObject;
LOADERHANDLE m_hExposedAssemblyObject;
ExInfo* m_pError;
BOOL m_bDisableActivationCheck;
BOOL m_fHostAssemblyPublished;
// m_pDynamicMethodTable is used by the light code generation to allow method
// generation on the fly. They are lazily created when/if a dynamic method is requested
// for this specific module
DynamicMethodTable* m_pDynamicMethodTable;
DebuggerAssemblyControlFlags m_debuggerFlags;
DWORD m_notifyflags;
BOOL m_fDebuggerUnloadStarted;
};
#endif // _DOMAINASSEMBLY_H_
| -1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/mono/mono/utils/mono-internal-hash.c
|
/**
* \file
* A hash table which uses the values themselves as nodes.
*
* Author:
* Mark Probst ([email protected])
*
* (C) 2007 Novell, Inc.
*
*/
#include <config.h>
#include <glib.h>
#include <mono/utils/mono-compiler.h>
#include <mono/utils/mono-internal-hash.h>
#define MIN_SIZE 11
#define HASH(k,f,s) ((f)((k)) % (s))
void
mono_internal_hash_table_init (MonoInternalHashTable *table,
GHashFunc hash_func,
MonoInternalHashKeyExtractFunc key_extract,
MonoInternalHashNextValueFunc next_value)
{
table->hash_func = hash_func;
table->key_extract = key_extract;
table->next_value = next_value;
table->size = MIN_SIZE;
table->num_entries = 0;
table->table = g_new0 (gpointer, table->size);
}
void
mono_internal_hash_table_destroy (MonoInternalHashTable *table)
{
g_free (table->table);
table->table = NULL;
}
gpointer
mono_internal_hash_table_lookup (MonoInternalHashTable *table, gpointer key)
{
gpointer value;
g_assert (table->table != NULL);
for (value = table->table [HASH (key, table->hash_func, table->size)];
value != NULL;
value = *(table->next_value (value))) {
if (table->key_extract (value) == key)
return value;
}
return NULL;
}
static void
resize_if_needed (MonoInternalHashTable *table)
{
gpointer *new_table;
gint new_size;
gint i;
if (table->num_entries < table->size * 3)
return;
new_size = g_spaced_primes_closest (table->num_entries);
new_table = g_new0 (gpointer, new_size);
for (i = 0; i < table->size; ++i) {
while (table->table[i] != NULL) {
gpointer value;
gint hash;
value = table->table [i];
table->table [i] = *(table->next_value (value));
hash = HASH (table->key_extract (value), table->hash_func, new_size);
*(table->next_value (value)) = new_table [hash];
new_table [hash] = value;
}
}
g_free (table->table);
table->size = new_size;
table->table = new_table;
}
void
mono_internal_hash_table_insert (MonoInternalHashTable *table,
gpointer key, gpointer value)
{
gint hash = HASH (key, table->hash_func, table->size);
g_assert (table->key_extract(value) == key);
g_assert (*(table->next_value (value)) == NULL);
g_assert (mono_internal_hash_table_lookup (table, key) == NULL);
*(table->next_value (value)) = table->table[hash];
table->table [hash] = value;
++table->num_entries;
resize_if_needed (table);
}
void
mono_internal_hash_table_apply (MonoInternalHashTable *table, MonoInternalHashApplyFunc func, gpointer user_data)
{
for (gint i = 0; i < table->size; i++) {
gpointer head = table->table [i];
while (head) {
func (head, user_data);
head = *(table->next_value (head));
}
}
}
gboolean
mono_internal_hash_table_remove (MonoInternalHashTable *table, gpointer key)
{
gint hash = HASH (key, table->hash_func, table->size);
gpointer *value;
for (value = &table->table [hash];
*value != NULL;
value = table->next_value (*value)) {
if (table->key_extract (*value) == key)
{
*value = *(table->next_value (*value));
--table->num_entries;
return TRUE;
}
}
return FALSE;
}
|
/**
* \file
* A hash table which uses the values themselves as nodes.
*
* Author:
* Mark Probst ([email protected])
*
* (C) 2007 Novell, Inc.
*
*/
#include <config.h>
#include <glib.h>
#include <mono/utils/mono-compiler.h>
#include <mono/utils/mono-internal-hash.h>
#define MIN_SIZE 11
#define HASH(k,f,s) ((f)((k)) % (s))
void
mono_internal_hash_table_init (MonoInternalHashTable *table,
GHashFunc hash_func,
MonoInternalHashKeyExtractFunc key_extract,
MonoInternalHashNextValueFunc next_value)
{
table->hash_func = hash_func;
table->key_extract = key_extract;
table->next_value = next_value;
table->size = MIN_SIZE;
table->num_entries = 0;
table->table = g_new0 (gpointer, table->size);
}
void
mono_internal_hash_table_destroy (MonoInternalHashTable *table)
{
g_free (table->table);
table->table = NULL;
}
gpointer
mono_internal_hash_table_lookup (MonoInternalHashTable *table, gpointer key)
{
gpointer value;
g_assert (table->table != NULL);
for (value = table->table [HASH (key, table->hash_func, table->size)];
value != NULL;
value = *(table->next_value (value))) {
if (table->key_extract (value) == key)
return value;
}
return NULL;
}
static void
resize_if_needed (MonoInternalHashTable *table)
{
gpointer *new_table;
gint new_size;
gint i;
if (table->num_entries < table->size * 3)
return;
new_size = g_spaced_primes_closest (table->num_entries);
new_table = g_new0 (gpointer, new_size);
for (i = 0; i < table->size; ++i) {
while (table->table[i] != NULL) {
gpointer value;
gint hash;
value = table->table [i];
table->table [i] = *(table->next_value (value));
hash = HASH (table->key_extract (value), table->hash_func, new_size);
*(table->next_value (value)) = new_table [hash];
new_table [hash] = value;
}
}
g_free (table->table);
table->size = new_size;
table->table = new_table;
}
void
mono_internal_hash_table_insert (MonoInternalHashTable *table,
gpointer key, gpointer value)
{
gint hash = HASH (key, table->hash_func, table->size);
g_assert (table->key_extract(value) == key);
g_assert (*(table->next_value (value)) == NULL);
g_assert (mono_internal_hash_table_lookup (table, key) == NULL);
*(table->next_value (value)) = table->table[hash];
table->table [hash] = value;
++table->num_entries;
resize_if_needed (table);
}
void
mono_internal_hash_table_apply (MonoInternalHashTable *table, MonoInternalHashApplyFunc func, gpointer user_data)
{
for (gint i = 0; i < table->size; i++) {
gpointer head = table->table [i];
while (head) {
func (head, user_data);
head = *(table->next_value (head));
}
}
}
gboolean
mono_internal_hash_table_remove (MonoInternalHashTable *table, gpointer key)
{
gint hash = HASH (key, table->hash_func, table->size);
gpointer *value;
for (value = &table->table [hash];
*value != NULL;
value = table->next_value (*value)) {
if (table->key_extract (*value) == key)
{
*value = *(table->next_value (*value));
--table->num_entries;
return TRUE;
}
}
return FALSE;
}
| -1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/coreclr/binder/inc/customassemblybinder.h
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
#ifndef __CUSTOM_ASSEMBLY_BINDER_H__
#define __CUSTOM_ASSEMBLY_BINDER_H__
#include "applicationcontext.hpp"
#include "defaultassemblybinder.h"
#if !defined(DACCESS_COMPILE)
class AssemblyLoaderAllocator;
class PEImage;
class CustomAssemblyBinder final : public AssemblyBinder
{
public:
HRESULT BindUsingPEImage(PEImage* pPEImage,
BINDER_SPACE::Assembly** ppAssembly) override;
HRESULT BindUsingAssemblyName(BINDER_SPACE::AssemblyName* pAssemblyName,
BINDER_SPACE::Assembly** ppAssembly) override;
AssemblyLoaderAllocator* GetLoaderAllocator() override;
bool IsDefault() override
{
return false;
}
public:
//=========================================================================
// Class functions
//-------------------------------------------------------------------------
CustomAssemblyBinder();
static HRESULT SetupContext(DefaultAssemblyBinder *pDefaultBinder,
AssemblyLoaderAllocator* pLoaderAllocator,
void* loaderAllocatorHandle,
UINT_PTR ptrAssemblyLoadContext,
CustomAssemblyBinder **ppBindContext);
void PrepareForLoadContextRelease(INT_PTR ptrManagedStrongAssemblyLoadContext);
void ReleaseLoadContext();
private:
HRESULT BindAssemblyByNameWorker(BINDER_SPACE::AssemblyName *pAssemblyName, BINDER_SPACE::Assembly **ppCoreCLRFoundAssembly);
DefaultAssemblyBinder *m_pDefaultBinder;
// A strong GC handle to the managed AssemblyLoadContext. This handle is set when the unload of the AssemblyLoadContext is initiated
// to keep the managed AssemblyLoadContext alive until the unload is finished.
// We still keep the weak handle pointing to the same managed AssemblyLoadContext so that native code can use the handle above
// to refer to it during the whole lifetime of the AssemblyLoadContext.
INT_PTR m_ptrManagedStrongAssemblyLoadContext;
AssemblyLoaderAllocator* m_pAssemblyLoaderAllocator;
void* m_loaderAllocatorHandle;
};
#endif // !defined(DACCESS_COMPILE)
#endif // __CUSTOM_ASSEMBLY_BINDER_H__
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
#ifndef __CUSTOM_ASSEMBLY_BINDER_H__
#define __CUSTOM_ASSEMBLY_BINDER_H__
#include "applicationcontext.hpp"
#include "defaultassemblybinder.h"
#if !defined(DACCESS_COMPILE)
class AssemblyLoaderAllocator;
class PEImage;
class CustomAssemblyBinder final : public AssemblyBinder
{
public:
HRESULT BindUsingPEImage(PEImage* pPEImage,
BINDER_SPACE::Assembly** ppAssembly) override;
HRESULT BindUsingAssemblyName(BINDER_SPACE::AssemblyName* pAssemblyName,
BINDER_SPACE::Assembly** ppAssembly) override;
AssemblyLoaderAllocator* GetLoaderAllocator() override;
bool IsDefault() override
{
return false;
}
public:
//=========================================================================
// Class functions
//-------------------------------------------------------------------------
CustomAssemblyBinder();
static HRESULT SetupContext(DefaultAssemblyBinder *pDefaultBinder,
AssemblyLoaderAllocator* pLoaderAllocator,
void* loaderAllocatorHandle,
UINT_PTR ptrAssemblyLoadContext,
CustomAssemblyBinder **ppBindContext);
void PrepareForLoadContextRelease(INT_PTR ptrManagedStrongAssemblyLoadContext);
void ReleaseLoadContext();
private:
HRESULT BindAssemblyByNameWorker(BINDER_SPACE::AssemblyName *pAssemblyName, BINDER_SPACE::Assembly **ppCoreCLRFoundAssembly);
DefaultAssemblyBinder *m_pDefaultBinder;
// A strong GC handle to the managed AssemblyLoadContext. This handle is set when the unload of the AssemblyLoadContext is initiated
// to keep the managed AssemblyLoadContext alive until the unload is finished.
// We still keep the weak handle pointing to the same managed AssemblyLoadContext so that native code can use the handle above
// to refer to it during the whole lifetime of the AssemblyLoadContext.
INT_PTR m_ptrManagedStrongAssemblyLoadContext;
AssemblyLoaderAllocator* m_pAssemblyLoaderAllocator;
void* m_loaderAllocatorHandle;
};
#endif // !defined(DACCESS_COMPILE)
#endif // __CUSTOM_ASSEMBLY_BINDER_H__
| -1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/mono/mono/sgen/sgen-debug.c
|
/**
* \file
* Collector debugging
*
* Author:
* Paolo Molaro ([email protected])
* Rodrigo Kumpera ([email protected])
*
* Copyright 2005-2011 Novell, Inc (http://www.novell.com)
* Copyright 2011 Xamarin Inc (http://www.xamarin.com)
* Copyright 2011 Xamarin, Inc.
* Copyright (C) 2012 Xamarin Inc
*
* Licensed under the MIT license. See LICENSE file in the project root for full license information.
*/
#include "config.h"
#ifdef HAVE_SGEN_GC
#include <string.h>
#include "mono/sgen/sgen-gc.h"
#include "mono/sgen/sgen-cardtable.h"
#include "mono/sgen/sgen-protocol.h"
#include "mono/sgen/sgen-memory-governor.h"
#include "mono/sgen/sgen-pinning.h"
#include "mono/sgen/sgen-client.h"
#if _MSC_VER
#pragma warning(disable:4312) // FIXME pointer cast to different size
#endif
#ifndef DISABLE_SGEN_DEBUG_HELPERS
#define LOAD_VTABLE SGEN_LOAD_VTABLE
#define object_is_forwarded SGEN_OBJECT_IS_FORWARDED
#define object_is_pinned SGEN_OBJECT_IS_PINNED
#define safe_object_get_size sgen_safe_object_get_size
void sgen_describe_ptr (char *ptr);
void sgen_check_object (GCObject *obj);
/*
* ######################################################################
* ######## Collector debugging
* ######################################################################
*/
static const char*descriptor_types [] = {
"INVALID",
"run length",
"bitmap",
"small pointer-free",
"complex",
"vector",
"complex arrray",
"complex pointer-free"
};
static char* describe_nursery_ptr (char *ptr, gboolean need_setup);
static void
describe_pointer (char *ptr, gboolean need_setup)
{
GCVTable vtable;
SgenDescriptor desc;
int type;
char *start;
char *forwarded;
mword size;
restart:
if (sgen_ptr_in_nursery (ptr)) {
start = describe_nursery_ptr (ptr, need_setup);
if (!start)
return;
ptr = start;
vtable = LOAD_VTABLE ((GCObject*)ptr);
} else {
if (sgen_ptr_is_in_los (ptr, &start)) {
if (ptr == start)
printf ("Pointer is the start of object %p in LOS space.\n", start);
else
printf ("Pointer is at offset 0x%x of object %p in LOS space.\n", (int)(ptr - start), start);
ptr = start;
mono_sgen_los_describe_pointer (ptr);
vtable = LOAD_VTABLE ((GCObject*)ptr);
} else if (sgen_major_collector.ptr_is_in_non_pinned_space (ptr, &start)) {
if (ptr == start)
printf ("Pointer is the start of object %p in oldspace.\n", start);
else if (start)
printf ("Pointer is at offset 0x%x of object %p in oldspace.\n", (int)(ptr - start), start);
else
printf ("Pointer inside oldspace.\n");
if (start)
ptr = start;
vtable = (GCVTable)sgen_major_collector.describe_pointer (ptr);
} else if (sgen_major_collector.ptr_is_from_pinned_alloc (ptr)) {
// FIXME: Handle pointers to the inside of objects
printf ("Pointer is inside a pinned chunk.\n");
vtable = LOAD_VTABLE ((GCObject*)ptr);
} else {
printf ("Pointer unknown.\n");
return;
}
}
if (object_is_pinned (ptr))
printf ("Object is pinned.\n");
if ((forwarded = (char *)object_is_forwarded (ptr))) {
printf ("Object is forwarded to %p:\n", forwarded);
ptr = forwarded;
goto restart;
}
printf ("VTable: %p\n", vtable);
if (vtable == NULL) {
printf ("VTable is invalid (empty).\n");
goto invalid_vtable;
}
if (sgen_ptr_in_nursery (vtable)) {
printf ("VTable is invalid (points inside nursery).\n");
goto invalid_vtable;
}
printf ("Class: %s.%s\n", sgen_client_vtable_get_namespace (vtable), sgen_client_vtable_get_name (vtable));
desc = sgen_vtable_get_descriptor (vtable);
printf ("Descriptor: %lx\n", (long)desc);
type = desc & DESC_TYPE_MASK;
printf ("Descriptor type: %d (%s)\n", type, descriptor_types [type]);
size = sgen_safe_object_get_size ((GCObject*)ptr);
printf ("Size: %d\n", (int)size);
invalid_vtable:
;
sgen_client_describe_invalid_pointer ((GCObject *) ptr);
}
void
sgen_describe_ptr (char *ptr)
{
describe_pointer (ptr, TRUE);
}
static gboolean missing_remsets;
/*
* We let a missing remset slide if the target object is pinned,
* because the store might have happened but the remset not yet added,
* but in that case the target must be pinned. We might theoretically
* miss some missing remsets this way, but it's very unlikely.
*/
#undef HANDLE_PTR
#define HANDLE_PTR(ptr,obj) do { \
if (*(ptr) && sgen_ptr_in_nursery ((char*)*(ptr))) { \
if (!sgen_get_remset ()->find_address ((char*)(ptr)) && !sgen_cement_lookup (*(ptr))) { \
GCVTable __vt = SGEN_LOAD_VTABLE (obj); \
gboolean is_pinned = object_is_pinned (*(ptr)); \
SGEN_LOG (0, "Oldspace->newspace reference %p at offset %ld in object %p (%s.%s) not found in remsets%s.", *(ptr), (long)((char*)(ptr) - (char*)(obj)), (obj), sgen_client_vtable_get_namespace (__vt), sgen_client_vtable_get_name (__vt), is_pinned ? ", but object is pinned" : ""); \
sgen_binary_protocol_missing_remset ((obj), __vt, (int) ((char*)(ptr) - (char*)(obj)), *(ptr), (gpointer)LOAD_VTABLE(*(ptr)), is_pinned); \
if (!is_pinned) \
missing_remsets = TRUE; \
} \
} \
} while (0)
/*
* Check that each object reference which points into the nursery can
* be found in the remembered sets.
*/
static void
check_consistency_callback (GCObject *obj, size_t size, void *dummy)
{
char *start = (char*)obj;
GCVTable vt = LOAD_VTABLE (obj);
SgenDescriptor desc = sgen_vtable_get_descriptor (vt);
SGEN_LOG (8, "Scanning object %p, vtable: %p (%s)", start, vt, sgen_client_vtable_get_name (vt));
#include "sgen-scan-object.h"
}
/*
* Perform consistency check of the heap.
*
* Assumes the world is stopped.
*/
void
sgen_check_remset_consistency (void)
{
// Need to add more checks
missing_remsets = FALSE;
SGEN_LOG (1, "Begin heap consistency check...");
// Check that oldspace->newspace pointers are registered with the collector
sgen_major_collector.iterate_objects (ITERATE_OBJECTS_SWEEP_ALL, (IterateObjectCallbackFunc)check_consistency_callback, NULL);
sgen_los_iterate_objects ((IterateObjectCallbackFunc)check_consistency_callback, NULL);
SGEN_LOG (1, "Heap consistency check done.");
if (missing_remsets)
sgen_binary_protocol_flush_buffers (TRUE);
if (!sgen_binary_protocol_is_enabled ())
g_assert (!missing_remsets);
}
static gboolean
is_major_or_los_object_marked (GCObject *obj)
{
if (sgen_safe_object_get_size ((GCObject*)obj) > SGEN_MAX_SMALL_OBJ_SIZE) {
return sgen_los_object_is_pinned (obj);
} else {
return sgen_get_major_collector ()->is_object_live (obj);
}
}
#undef HANDLE_PTR
#define HANDLE_PTR(ptr,obj) do { \
if (*(ptr) && !sgen_ptr_in_nursery ((char*)*(ptr)) && !is_major_or_los_object_marked ((GCObject*)*(ptr))) { \
if (!cards || !sgen_get_remset ()->find_address_with_cards (start, cards, (char*)(ptr))) { \
GCVTable __vt = SGEN_LOAD_VTABLE (obj); \
SGEN_LOG (0, "major->major reference %p at offset %ld in object %p (%s.%s) not found in remsets.", *(ptr), (long)((char*)(ptr) - (char*)(obj)), (obj), sgen_client_vtable_get_namespace (__vt), sgen_client_vtable_get_name (__vt)); \
sgen_binary_protocol_missing_remset ((obj), __vt, (int) ((char*)(ptr) - (char*)(obj)), *(ptr), (gpointer)LOAD_VTABLE(*(ptr)), object_is_pinned (*(ptr))); \
missing_remsets = TRUE; \
} \
} \
} while (0)
static void
check_mod_union_callback (GCObject *obj, size_t size, void *dummy)
{
char *start = (char*)obj;
gboolean in_los = (gboolean) (size_t) dummy;
GCVTable vt = LOAD_VTABLE (obj);
SgenDescriptor desc = sgen_vtable_get_descriptor (vt);
guint8 *cards;
SGEN_LOG (8, "Scanning object %p, vtable: %p (%s)", obj, vt, sgen_client_vtable_get_name (vt));
if (!is_major_or_los_object_marked (obj))
return;
if (in_los)
cards = sgen_los_header_for_object (obj)->cardtable_mod_union;
else
cards = sgen_get_major_collector ()->get_cardtable_mod_union_for_reference (start);
#include "sgen-scan-object.h"
}
void
sgen_check_mod_union_consistency (void)
{
missing_remsets = FALSE;
sgen_major_collector.iterate_objects (ITERATE_OBJECTS_SWEEP_ALL, (IterateObjectCallbackFunc)check_mod_union_callback, (void*)FALSE);
sgen_los_iterate_objects ((IterateObjectCallbackFunc)check_mod_union_callback, (void*)TRUE);
if (!sgen_binary_protocol_is_enabled ())
g_assert (!missing_remsets);
}
#undef HANDLE_PTR
#define HANDLE_PTR(ptr,obj) do { \
if (*(ptr) && !LOAD_VTABLE (*(ptr))) \
g_error ("Could not load vtable for obj %p slot %ld (size %ld)", obj, (long)((char*)ptr - (char*)obj), (long)safe_object_get_size ((GCObject*)obj)); \
} while (0)
static void
check_major_refs_callback (GCObject *obj, size_t size, void *dummy)
{
char *start = (char*)obj;
SgenDescriptor desc = sgen_obj_get_descriptor (obj);
#include "sgen-scan-object.h"
}
void
sgen_check_major_refs (void)
{
sgen_major_collector.iterate_objects (ITERATE_OBJECTS_SWEEP_ALL, (IterateObjectCallbackFunc)check_major_refs_callback, NULL);
sgen_los_iterate_objects ((IterateObjectCallbackFunc)check_major_refs_callback, NULL);
}
/* Check that the reference is valid */
#undef HANDLE_PTR
#define HANDLE_PTR(ptr,obj) do { \
if (*(ptr)) { \
g_assert (sgen_client_vtable_get_namespace (SGEN_LOAD_VTABLE_UNCHECKED (*(ptr)))); \
} \
} while (0)
/*
* sgen_check_object:
*
* Perform consistency check on an object. Currently we only check that the
* reference fields are valid.
*/
void
sgen_check_object (GCObject *obj)
{
char *start = (char*)obj;
SgenDescriptor desc;
if (!start)
return;
desc = sgen_obj_get_descriptor (obj);
#include "sgen-scan-object.h"
}
static GCObject **valid_nursery_objects;
static int valid_nursery_object_count;
static gboolean broken_heap;
static void
setup_mono_sgen_scan_area_with_callback (GCObject *object, size_t size, void *data)
{
valid_nursery_objects [valid_nursery_object_count++] = object;
}
static void
setup_valid_nursery_objects (void)
{
if (!valid_nursery_objects)
valid_nursery_objects = (GCObject **)sgen_alloc_os_memory (sgen_nursery_max_size, (SgenAllocFlags)(SGEN_ALLOC_INTERNAL | SGEN_ALLOC_ACTIVATE), "debugging data", MONO_MEM_ACCOUNT_SGEN_DEBUGGING);
valid_nursery_object_count = 0;
sgen_scan_area_with_callback (sgen_nursery_section->data, sgen_nursery_section->end_data, setup_mono_sgen_scan_area_with_callback, NULL, FALSE, FALSE);
}
static gboolean
find_object_in_nursery_dump (char *object)
{
int first = 0, last = valid_nursery_object_count;
while (first < last) {
int middle = first + ((last - first) >> 1);
if (object == (char*)valid_nursery_objects [middle])
return TRUE;
if (object < (char*)valid_nursery_objects [middle])
last = middle;
else
first = middle + 1;
}
g_assert (first == last);
return FALSE;
}
static void
iterate_valid_nursery_objects (IterateObjectCallbackFunc callback, void *data)
{
int i;
for (i = 0; i < valid_nursery_object_count; ++i) {
GCObject *obj = valid_nursery_objects [i];
callback (obj, safe_object_get_size (obj), data);
}
}
static char*
describe_nursery_ptr (char *ptr, gboolean need_setup)
{
int i;
if (need_setup)
setup_valid_nursery_objects ();
for (i = 0; i < valid_nursery_object_count - 1; ++i) {
if ((char*)valid_nursery_objects [i + 1] > ptr)
break;
}
if (i >= valid_nursery_object_count || (char*)valid_nursery_objects [i] + safe_object_get_size (valid_nursery_objects [i]) < ptr) {
SGEN_LOG (0, "nursery-ptr (unalloc'd-memory)");
return NULL;
} else {
GCObject *obj = valid_nursery_objects [i];
if ((char*)obj == ptr)
SGEN_LOG (0, "nursery-ptr %p", obj);
else
SGEN_LOG (0, "nursery-ptr %p (interior-ptr offset %ld)", obj, (long)(ptr - (char*)obj));
return (char*)obj;
}
}
static gboolean
is_valid_object_pointer (char *object)
{
if (sgen_ptr_in_nursery (object))
return find_object_in_nursery_dump (object);
if (sgen_los_is_valid_object (object))
return TRUE;
if (sgen_major_collector.is_valid_object (object))
return TRUE;
return FALSE;
}
static void
bad_pointer_spew (char *obj, char **slot)
{
char *ptr = *slot;
GCVTable vtable = LOAD_VTABLE ((GCObject*)obj);
SGEN_LOG (0, "Invalid object pointer %p at offset %ld in object %p (%s.%s):", ptr,
(long)((char*)slot - obj),
obj, sgen_client_vtable_get_namespace (vtable), sgen_client_vtable_get_name (vtable));
describe_pointer (ptr, FALSE);
broken_heap = TRUE;
}
static void
missing_remset_spew (char *obj, char **slot)
{
char *ptr = *slot;
GCVTable vtable = LOAD_VTABLE ((GCObject*)obj);
SGEN_LOG (0, "Oldspace->newspace reference %p at offset %ld in object %p (%s.%s) not found in remsets.",
ptr, (long)((char*)slot - obj), obj,
sgen_client_vtable_get_namespace (vtable), sgen_client_vtable_get_name (vtable));
broken_heap = TRUE;
}
/*
FIXME Flag missing remsets due to pinning as non fatal
*/
#undef HANDLE_PTR
#define HANDLE_PTR(ptr,obj) do { \
if (*(char**)ptr) { \
if (!is_valid_object_pointer (*(char**)ptr)) { \
bad_pointer_spew ((char*)obj, (char**)ptr); \
} else if (!sgen_ptr_in_nursery (obj) && sgen_ptr_in_nursery ((char*)*ptr)) { \
if (!allow_missing_pinned && !SGEN_OBJECT_IS_PINNED (*(ptr)) && !sgen_get_remset ()->find_address ((char*)(ptr)) && !sgen_cement_lookup (*(ptr))) \
missing_remset_spew ((char*)obj, (char**)ptr); \
} \
} \
} while (0)
static void
verify_object_pointers_callback (GCObject *obj, size_t size, void *data)
{
char *start = (char*)obj;
gboolean allow_missing_pinned = (gboolean) (size_t) data;
SgenDescriptor desc = sgen_obj_get_descriptor_safe (obj);
#include "sgen-scan-object.h"
}
/*
FIXME:
-This heap checker is racy regarding inlined write barriers and other JIT tricks that
depend on OP_DUMMY_USE.
*/
void
sgen_check_whole_heap (gboolean allow_missing_pinned)
{
setup_valid_nursery_objects ();
broken_heap = FALSE;
sgen_scan_area_with_callback (sgen_nursery_section->data, sgen_nursery_section->end_data, verify_object_pointers_callback, (void*) (size_t) allow_missing_pinned, FALSE, TRUE);
sgen_major_collector.iterate_objects (ITERATE_OBJECTS_SWEEP_ALL, verify_object_pointers_callback, (void*) (size_t) allow_missing_pinned);
sgen_los_iterate_objects (verify_object_pointers_callback, (void*) (size_t) allow_missing_pinned);
g_assert (!broken_heap);
}
static gboolean
ptr_in_heap (char *object)
{
if (sgen_ptr_in_nursery (object))
return TRUE;
if (sgen_los_is_valid_object (object))
return TRUE;
if (sgen_major_collector.is_valid_object (object))
return TRUE;
return FALSE;
}
/*
* sgen_check_objref:
* Do consistency checks on the object reference OBJ. Assert on failure.
*/
void
sgen_check_objref (char *obj)
{
g_assert (ptr_in_heap (obj));
}
static void
find_pinning_ref_from_thread (char *obj, size_t size)
{
#ifndef SGEN_WITHOUT_MONO
char *endobj = obj + size;
FOREACH_THREAD_EXCLUDE (info, MONO_THREAD_INFO_FLAGS_NO_GC) {
mword *ctxstart, *ctxcurrent, *ctxend;
char **start = (char**)info->client_info.stack_start;
if (info->client_info.skip)
continue;
while (start < (char**)info->client_info.info.stack_end) {
if (*start >= obj && *start < endobj)
SGEN_LOG (0, "Object %p referenced in thread %p (id %p) at %p, stack: %p-%p", obj, info, (gpointer)(gsize) mono_thread_info_get_tid (info), start, info->client_info.stack_start, info->client_info.info.stack_end);
start++;
}
for (ctxstart = ctxcurrent = (mword*) &info->client_info.ctx, ctxend = (mword*) (&info->client_info.ctx + 1); ctxcurrent < ctxend; ctxcurrent ++) {
mword w = *ctxcurrent;
if (w >= (mword)obj && w < (mword)obj + size)
SGEN_LOG (0, "Object %p referenced in saved reg %d of thread %p (id %p)", obj, (int) (ctxcurrent - ctxstart), info, (gpointer)(gsize) mono_thread_info_get_tid (info));
}
} FOREACH_THREAD_END
#endif
}
/*
* Debugging function: find in the conservative roots where @obj is being pinned.
*/
static G_GNUC_UNUSED void
find_pinning_reference (char *obj, size_t size)
{
char **start;
RootRecord *root;
char *endobj = obj + size;
SGEN_HASH_TABLE_FOREACH (&sgen_roots_hash [ROOT_TYPE_NORMAL], char **, start, RootRecord *, root) {
/* if desc is non-null it has precise info */
if (!root->root_desc) {
while (start < (char**)root->end_root) {
if (*start >= obj && *start < endobj) {
SGEN_LOG (0, "Object %p referenced in pinned roots %p-%p\n", obj, start, root->end_root);
}
start++;
}
}
} SGEN_HASH_TABLE_FOREACH_END;
find_pinning_ref_from_thread (obj, size);
}
#undef HANDLE_PTR
#define HANDLE_PTR(ptr,obj) do { \
char* __target = *(char**)ptr; \
if (__target) { \
if (sgen_ptr_in_nursery (__target)) { \
g_assert (!SGEN_OBJECT_IS_FORWARDED (__target)); \
} else { \
mword __size = sgen_safe_object_get_size ((GCObject*)__target); \
if (__size <= SGEN_MAX_SMALL_OBJ_SIZE) \
g_assert (sgen_major_collector.is_object_live ((GCObject*)__target)); \
else \
g_assert (sgen_los_object_is_pinned ((GCObject*)__target)); \
} \
} \
} while (0)
static void
check_marked_callback (GCObject *obj, size_t size, void *dummy)
{
char *start = (char*)obj;
gboolean flag = (gboolean) (size_t) dummy;
SgenDescriptor desc;
if (sgen_ptr_in_nursery (start)) {
if (flag)
SGEN_ASSERT (0, SGEN_OBJECT_IS_PINNED (obj), "All objects remaining in the nursery must be pinned");
} else if (flag) {
if (!sgen_los_object_is_pinned (obj))
return;
} else {
if (!sgen_major_collector.is_object_live (obj))
return;
}
desc = sgen_obj_get_descriptor_safe (obj);
#include "sgen-scan-object.h"
}
void
sgen_check_heap_marked (gboolean nursery_must_be_pinned)
{
setup_valid_nursery_objects ();
iterate_valid_nursery_objects (check_marked_callback, (void*)(size_t)nursery_must_be_pinned);
sgen_major_collector.iterate_objects (ITERATE_OBJECTS_SWEEP_ALL, check_marked_callback, (void*)FALSE);
sgen_los_iterate_objects (check_marked_callback, (void*)TRUE);
}
static void
check_nursery_objects_untag_callback (char *obj, size_t size, void *data)
{
g_assert (!SGEN_OBJECT_IS_FORWARDED (obj));
g_assert (!SGEN_OBJECT_IS_PINNED (obj));
}
void
sgen_check_nursery_objects_untag (void)
{
sgen_clear_nursery_fragments ();
sgen_scan_area_with_callback (sgen_nursery_section->data, sgen_nursery_section->end_data,
(IterateObjectCallbackFunc)check_nursery_objects_untag_callback, NULL, FALSE, TRUE);
}
static void
verify_scan_starts (char *start, char *end)
{
size_t i;
for (i = 0; i < sgen_nursery_section->num_scan_start; ++i) {
char *addr = sgen_nursery_section->scan_starts [i];
if (addr > start && addr < end)
SGEN_LOG (0, "NFC-BAD SCAN START [%lu] %p for obj [%p %p]", (unsigned long)i, addr, start, end);
}
}
void
sgen_debug_verify_nursery (gboolean do_dump_nursery_content)
{
char *start, *end, *cur, *hole_start;
if (sgen_nursery_canaries_enabled ())
SGEN_LOG (0, "Checking nursery canaries...");
/*This cleans up unused fragments */
sgen_nursery_allocator_prepare_for_pinning ();
hole_start = start = cur = sgen_get_nursery_start ();
end = sgen_get_nursery_end ();
while (cur < end) {
size_t ss, size;
gboolean is_array_fill;
if (!*(void**)cur) {
cur += sizeof (void*);
continue;
}
if (object_is_forwarded (cur))
SGEN_LOG (0, "FORWARDED OBJ %p", cur);
else if (object_is_pinned (cur))
SGEN_LOG (0, "PINNED OBJ %p", cur);
ss = safe_object_get_size ((GCObject*)cur);
size = SGEN_ALIGN_UP (ss);
verify_scan_starts (cur, cur + size);
is_array_fill = sgen_client_object_is_array_fill ((GCObject*)cur);
if (do_dump_nursery_content) {
GCVTable vtable = SGEN_LOAD_VTABLE ((GCObject*)cur);
if (cur > hole_start)
SGEN_LOG (0, "HOLE [%p %p %d]", hole_start, cur, (int)(cur - hole_start));
SGEN_LOG (0, "OBJ [%p %p %d %d %s.%s %d]", cur, cur + size, (int)size, (int)ss,
sgen_client_vtable_get_namespace (vtable), sgen_client_vtable_get_name (vtable),
is_array_fill);
}
if (sgen_nursery_canaries_enabled () && !is_array_fill) {
CHECK_CANARY_FOR_OBJECT ((GCObject*)cur, TRUE);
CANARIFY_SIZE (size);
}
cur += size;
hole_start = cur;
}
}
/*
* Checks that no objects in the nursery are fowarded or pinned. This
* is a precondition to restarting the mutator while doing a
* concurrent collection. Note that we don't clear fragments because
* we depend on that having happened earlier.
*/
void
sgen_debug_check_nursery_is_clean (void)
{
char *end, *cur;
cur = sgen_get_nursery_start ();
end = sgen_get_nursery_end ();
while (cur < end) {
size_t size;
if (!*(void**)cur) {
cur += sizeof (void*);
continue;
}
g_assert (!object_is_forwarded (cur));
g_assert (!object_is_pinned (cur));
size = SGEN_ALIGN_UP (safe_object_get_size ((GCObject*)cur));
verify_scan_starts (cur, cur + size);
cur += size;
}
}
static gboolean scan_object_for_specific_ref_precise = TRUE;
#undef HANDLE_PTR
#define HANDLE_PTR(ptr,obj) do { \
if ((GCObject*)*(ptr) == key) { \
GCVTable vtable = SGEN_LOAD_VTABLE (*(ptr)); \
g_print ("found ref to %p in object %p (%s.%s) at offset %ld\n", \
key, (obj), sgen_client_vtable_get_namespace (vtable), sgen_client_vtable_get_name (vtable), (long)(((char*)(ptr) - (char*)(obj)))); \
} \
} while (0)
static void
scan_object_for_specific_ref (GCObject *obj, GCObject *key)
{
GCObject *forwarded;
if ((forwarded = SGEN_OBJECT_IS_FORWARDED (obj)))
obj = forwarded;
if (scan_object_for_specific_ref_precise) {
char *start = (char*)obj;
SgenDescriptor desc = sgen_obj_get_descriptor_safe (obj);
#include "sgen-scan-object.h"
} else {
mword *words = (mword*)obj;
size_t size = safe_object_get_size (obj);
int i;
for (i = 0; i < size / sizeof (mword); ++i) {
if (words [i] == (mword)key) {
GCVTable vtable = SGEN_LOAD_VTABLE (obj);
g_print ("found possible ref to %p in object %p (%s.%s) at offset %ld\n",
key, obj, sgen_client_vtable_get_namespace (vtable), sgen_client_vtable_get_name (vtable), (long)(i * sizeof (mword)));
}
}
}
}
static void
scan_object_for_specific_ref_callback (GCObject *obj, size_t size, GCObject *key)
{
scan_object_for_specific_ref (obj, key);
}
static void
check_root_obj_specific_ref (RootRecord *root, GCObject *key, GCObject *obj)
{
if (key != obj)
return;
g_print ("found ref to %p in root record %p\n", key, root);
}
static GCObject *check_key = NULL;
static RootRecord *check_root = NULL;
static void
check_root_obj_specific_ref_from_marker (GCObject **obj, void *gc_data)
{
check_root_obj_specific_ref (check_root, check_key, *obj);
}
static void
scan_roots_for_specific_ref (GCObject *key, int root_type)
{
void **start_root;
RootRecord *root;
check_key = key;
SGEN_HASH_TABLE_FOREACH (&sgen_roots_hash [root_type], void **, start_root, RootRecord *, root) {
SgenDescriptor desc = root->root_desc;
check_root = root;
switch (desc & ROOT_DESC_TYPE_MASK) {
case ROOT_DESC_BITMAP:
desc >>= ROOT_DESC_TYPE_SHIFT;
while (desc) {
if (desc & 1)
check_root_obj_specific_ref (root, key, (GCObject *)*start_root);
desc >>= 1;
start_root++;
}
return;
case ROOT_DESC_COMPLEX: {
gsize *bitmap_data = (gsize *)sgen_get_complex_descriptor_bitmap (desc);
int bwords = (int) ((*bitmap_data) - 1);
void **start_run = start_root;
bitmap_data++;
while (bwords-- > 0) {
gsize bmap = *bitmap_data++;
void **objptr = start_run;
while (bmap) {
if (bmap & 1)
check_root_obj_specific_ref (root, key, (GCObject *)*objptr);
bmap >>= 1;
++objptr;
}
start_run += GC_BITS_PER_WORD;
}
break;
}
case ROOT_DESC_VECTOR: {
void **p;
for (p = start_root; p < (void**)root->end_root; p++) {
if (*p)
check_root_obj_specific_ref (root, key, (GCObject *)*p);
}
break;
}
case ROOT_DESC_USER: {
SgenUserRootMarkFunc marker = sgen_get_user_descriptor_func (desc);
marker (start_root, check_root_obj_specific_ref_from_marker, NULL);
break;
}
case ROOT_DESC_RUN_LEN:
g_assert_not_reached ();
default:
g_assert_not_reached ();
}
} SGEN_HASH_TABLE_FOREACH_END;
check_key = NULL;
check_root = NULL;
}
void
mono_gc_scan_for_specific_ref (GCObject *key, gboolean precise)
{
void **ptr;
RootRecord *root;
scan_object_for_specific_ref_precise = precise;
sgen_scan_area_with_callback (sgen_nursery_section->data, sgen_nursery_section->end_data,
(IterateObjectCallbackFunc)scan_object_for_specific_ref_callback, key, TRUE, FALSE);
sgen_major_collector.iterate_objects (ITERATE_OBJECTS_SWEEP_ALL, (IterateObjectCallbackFunc)scan_object_for_specific_ref_callback, key);
sgen_los_iterate_objects ((IterateObjectCallbackFunc)scan_object_for_specific_ref_callback, key);
scan_roots_for_specific_ref (key, ROOT_TYPE_NORMAL);
scan_roots_for_specific_ref (key, ROOT_TYPE_WBARRIER);
SGEN_HASH_TABLE_FOREACH (&sgen_roots_hash [ROOT_TYPE_PINNED], void **, ptr, RootRecord *, root) {
while (ptr < (void**)root->end_root) {
check_root_obj_specific_ref (root, (GCObject *)*ptr, key);
++ptr;
}
} SGEN_HASH_TABLE_FOREACH_END;
if (sgen_is_world_stopped ())
find_pinning_ref_from_thread ((char*)key, sizeof (GCObject));
}
#ifndef SGEN_WITHOUT_MONO
static MonoDomain *check_domain = NULL;
static void
check_obj_not_in_domain (MonoObject **o)
{
g_assert (((*o))->vtable->domain != check_domain);
}
static void
check_obj_not_in_domain_callback (GCObject **o, void *gc_data)
{
g_assert ((*o)->vtable->domain != check_domain);
}
void
sgen_scan_for_registered_roots_in_domain (MonoDomain *domain, int root_type)
{
void **start_root;
RootRecord *root;
check_domain = domain;
SGEN_HASH_TABLE_FOREACH (&sgen_roots_hash [root_type], void **, start_root, RootRecord *, root) {
SgenDescriptor desc = root->root_desc;
/* The MonoDomain struct is allowed to hold
references to objects in its own domain. */
if (start_root == (void**)domain)
continue;
switch (desc & ROOT_DESC_TYPE_MASK) {
case ROOT_DESC_BITMAP:
desc >>= ROOT_DESC_TYPE_SHIFT;
while (desc) {
if ((desc & 1) && *start_root)
check_obj_not_in_domain ((MonoObject **)*start_root);
desc >>= 1;
start_root++;
}
break;
case ROOT_DESC_COMPLEX: {
gsize *bitmap_data = (gsize *)sgen_get_complex_descriptor_bitmap (desc);
int bwords = (int)((*bitmap_data) - 1);
void **start_run = start_root;
bitmap_data++;
while (bwords-- > 0) {
gsize bmap = *bitmap_data++;
void **objptr = start_run;
while (bmap) {
if ((bmap & 1) && *objptr)
check_obj_not_in_domain ((MonoObject **)*objptr);
bmap >>= 1;
++objptr;
}
start_run += GC_BITS_PER_WORD;
}
break;
}
case ROOT_DESC_VECTOR: {
void **p;
for (p = start_root; p < (void**)root->end_root; p++) {
if (*p)
check_obj_not_in_domain ((MonoObject **)*p);
}
break;
}
case ROOT_DESC_USER: {
SgenUserRootMarkFunc marker = sgen_get_user_descriptor_func (desc);
marker (start_root, check_obj_not_in_domain_callback, NULL);
break;
}
case ROOT_DESC_RUN_LEN:
g_assert_not_reached ();
default:
g_assert_not_reached ();
}
} SGEN_HASH_TABLE_FOREACH_END;
check_domain = NULL;
}
static gboolean
is_xdomain_ref_allowed (GCObject **ptr, GCObject *obj, MonoDomain *domain)
{
return FALSE;
}
static void
check_reference_for_xdomain (GCObject **ptr, GCObject *obj, MonoDomain *domain)
{
MonoObject *ref = *ptr;
size_t offset = (char*)(ptr) - (char*)obj;
MonoClass *klass;
MonoClassField *field;
char *str;
if (!ref || ref->vtable->domain == domain)
return;
if (is_xdomain_ref_allowed (ptr, obj, domain))
return;
field = NULL;
for (klass = obj->vtable->klass; klass; klass = m_class_get_parent (klass)) {
int i;
int fcount = mono_class_get_field_count (klass);
MonoClassField *klass_fields = m_class_get_fields (klass);
for (i = 0; i < fcount; ++i) {
if (klass_fields[i].offset == offset) {
field = &klass_fields[i];
break;
}
}
if (field)
break;
}
if (ref->vtable->klass == mono_defaults.string_class) {
ERROR_DECL (error);
str = mono_string_to_utf8_checked_internal ((MonoString*)ref, error);
mono_error_cleanup (error);
} else
str = NULL;
g_print ("xdomain reference in %p (%s.%s) at offset %zu (%s) to %p (%s.%s) (%s) - pointed to by:\n",
obj, m_class_get_name_space (obj->vtable->klass), m_class_get_name (obj->vtable->klass),
offset, field ? field->name : "",
ref, m_class_get_name_space (ref->vtable->klass), m_class_get_name (ref->vtable->klass), str ? str : "");
mono_gc_scan_for_specific_ref (obj, TRUE);
if (str)
g_free (str);
}
#undef HANDLE_PTR
#define HANDLE_PTR(ptr,obj) check_reference_for_xdomain ((ptr), (obj), domain)
static void
scan_object_for_xdomain_refs (GCObject *obj, mword size, void *data)
{
char *start = (char*)obj;
MonoVTable *vt = SGEN_LOAD_VTABLE (obj);
MonoDomain *domain = vt->domain;
SgenDescriptor desc = sgen_vtable_get_descriptor (vt);
#include "sgen-scan-object.h"
}
void
sgen_check_for_xdomain_refs (void)
{
sgen_scan_area_with_callback (sgen_nursery_section->data, sgen_nursery_section->end_data,
(IterateObjectCallbackFunc)scan_object_for_xdomain_refs, NULL, FALSE, TRUE);
sgen_major_collector.iterate_objects (ITERATE_OBJECTS_SWEEP_ALL, (IterateObjectCallbackFunc)scan_object_for_xdomain_refs, NULL);
sgen_los_iterate_objects ((IterateObjectCallbackFunc)scan_object_for_xdomain_refs, NULL);
}
#endif
/* If not null, dump the heap after each collection into this file */
static FILE *heap_dump_file = NULL;
void
sgen_dump_occupied (char *start, char *end, char *section_start)
{
fprintf (heap_dump_file, "<occupied offset=\"%ld\" size=\"%ld\"/>\n", (long)(start - section_start), (long)(end - start));
}
void
sgen_dump_section (GCMemSection *section, const char *type)
{
char *start = section->data;
char *end = section->end_data;
char *occ_start = NULL;
fprintf (heap_dump_file, "<section type=\"%s\" size=\"%lu\">\n", type, (unsigned long)(section->end_data - section->data));
while (start < end) {
guint size;
//GCVTable vt;
//MonoClass *class;
if (!*(void**)start) {
if (occ_start) {
sgen_dump_occupied (occ_start, start, section->data);
occ_start = NULL;
}
start += sizeof (void*); /* should be ALLOC_ALIGN, really */
continue;
}
if (!occ_start)
occ_start = start;
//vt = SGEN_LOAD_VTABLE (start);
//class = vt->klass;
size = SGEN_ALIGN_UP (safe_object_get_size ((GCObject*) start));
/*
fprintf (heap_dump_file, "<object offset=\"%d\" class=\"%s.%s\" size=\"%d\"/>\n",
start - section->data,
vt->klass->name_space, vt->klass->name,
size);
*/
start += size;
}
if (occ_start)
sgen_dump_occupied (occ_start, start, section->data);
fprintf (heap_dump_file, "</section>\n");
}
static void
dump_object (GCObject *obj, gboolean dump_location)
{
#ifndef SGEN_WITHOUT_MONO
static char class_name [1024];
MonoClass *klass = mono_object_class (obj);
int i, j;
/*
* Python's XML parser is too stupid to parse angle brackets
* in strings, so we just ignore them;
*/
i = j = 0;
while (m_class_get_name (klass) [i] && j < sizeof (class_name) - 1) {
if (!strchr ("<>\"", m_class_get_name (klass) [i]))
class_name [j++] = m_class_get_name (klass) [i];
++i;
}
g_assert (j < sizeof (class_name));
class_name [j] = 0;
fprintf (heap_dump_file, "<object class=\"%s.%s\" size=\"%ld\"",
m_class_get_name_space (klass), class_name,
(long)safe_object_get_size (obj));
if (dump_location) {
const char *location;
if (sgen_ptr_in_nursery (obj))
location = "nursery";
else if (safe_object_get_size (obj) <= SGEN_MAX_SMALL_OBJ_SIZE)
location = "major";
else
location = "LOS";
fprintf (heap_dump_file, " location=\"%s\"", location);
}
fprintf (heap_dump_file, "/>\n");
#endif
}
static void
dump_object_callback (GCObject *obj, size_t size, gboolean dump_location)
{
dump_object (obj, dump_location);
}
void
sgen_debug_enable_heap_dump (const char *filename)
{
heap_dump_file = fopen (filename, "w");
if (heap_dump_file) {
fprintf (heap_dump_file, "<sgen-dump>\n");
sgen_pin_stats_enable ();
}
}
void
sgen_debug_dump_heap (const char *type, int num, const char *reason)
{
SgenPointerQueue *pinned_objects;
int i;
if (!heap_dump_file)
return;
fprintf (heap_dump_file, "<collection type=\"%s\" num=\"%d\"", type, num);
if (reason)
fprintf (heap_dump_file, " reason=\"%s\"", reason);
fprintf (heap_dump_file, ">\n");
#ifndef SGEN_WITHOUT_MONO
fprintf (heap_dump_file, "<other-mem-usage type=\"mempools\" size=\"%ld\"/>\n", mono_mempool_get_bytes_allocated ());
#endif
sgen_dump_internal_mem_usage (heap_dump_file);
fprintf (heap_dump_file, "<pinned type=\"stack\" bytes=\"%lu\"/>\n", (unsigned long)sgen_pin_stats_get_pinned_byte_count (PIN_TYPE_STACK));
/* fprintf (heap_dump_file, "<pinned type=\"static-data\" bytes=\"%d\"/>\n", pinned_byte_counts [PIN_TYPE_STATIC_DATA]); */
fprintf (heap_dump_file, "<pinned type=\"other\" bytes=\"%lu\"/>\n", (unsigned long)sgen_pin_stats_get_pinned_byte_count (PIN_TYPE_OTHER));
fprintf (heap_dump_file, "<pinned-objects>\n");
pinned_objects = sgen_pin_stats_get_object_list ();
for (i = 0; i < pinned_objects->next_slot; ++i)
dump_object ((GCObject *)pinned_objects->data [i], TRUE);
fprintf (heap_dump_file, "</pinned-objects>\n");
sgen_dump_section (sgen_nursery_section, "nursery");
sgen_major_collector.dump_heap (heap_dump_file);
fprintf (heap_dump_file, "<los>\n");
sgen_los_iterate_objects ((IterateObjectCallbackFunc)dump_object_callback, (void*)FALSE);
fprintf (heap_dump_file, "</los>\n");
fprintf (heap_dump_file, "</collection>\n");
}
static GCObject *found_obj;
static void
find_object_for_ptr_callback (GCObject *obj, size_t size, void *user_data)
{
char *ptr = (char *)user_data;
if (ptr >= (char*)obj && ptr < (char*)obj + size) {
g_assert (!found_obj);
found_obj = obj;
}
}
/* for use in the debugger */
GCObject*
sgen_find_object_for_ptr (char *ptr)
{
if (ptr >= sgen_nursery_section->data && ptr < sgen_nursery_section->end_data) {
found_obj = NULL;
sgen_scan_area_with_callback (sgen_nursery_section->data, sgen_nursery_section->end_data,
find_object_for_ptr_callback, ptr, TRUE, FALSE);
if (found_obj)
return found_obj;
}
found_obj = NULL;
sgen_los_iterate_objects (find_object_for_ptr_callback, ptr);
if (found_obj)
return found_obj;
/*
* Very inefficient, but this is debugging code, supposed to
* be called from gdb, so we don't care.
*/
found_obj = NULL;
sgen_major_collector.iterate_objects (ITERATE_OBJECTS_SWEEP_ALL, find_object_for_ptr_callback, ptr);
return found_obj;
}
#else
void
sgen_check_for_xdomain_refs (void)
{
}
void
sgen_check_heap_marked (gboolean nursery_must_be_pinned)
{
}
void
sgen_check_major_refs (void)
{
}
void
sgen_check_mod_union_consistency (void)
{
}
void
sgen_check_nursery_objects_untag (void)
{
}
void
sgen_check_remset_consistency (void)
{
}
void
sgen_check_whole_heap (gboolean allow_missing_pinned)
{
}
void
sgen_debug_check_nursery_is_clean (void)
{
}
void
sgen_debug_dump_heap (const char *type, int num, const char *reason)
{
}
void
sgen_debug_enable_heap_dump (const char *filename)
{
}
void
sgen_debug_verify_nursery (gboolean do_dump_nursery_content)
{
}
void
sgen_dump_occupied (char *start, char *end, char *section_start)
{
}
void
sgen_scan_for_registered_roots_in_domain (MonoDomain *domain, int root_type)
{
}
#endif /*DISABLE_SGEN_DEBUG_HELPERS */
#endif /*HAVE_SGEN_GC*/
|
/**
* \file
* Collector debugging
*
* Author:
* Paolo Molaro ([email protected])
* Rodrigo Kumpera ([email protected])
*
* Copyright 2005-2011 Novell, Inc (http://www.novell.com)
* Copyright 2011 Xamarin Inc (http://www.xamarin.com)
* Copyright 2011 Xamarin, Inc.
* Copyright (C) 2012 Xamarin Inc
*
* Licensed under the MIT license. See LICENSE file in the project root for full license information.
*/
#include "config.h"
#ifdef HAVE_SGEN_GC
#include <string.h>
#include "mono/sgen/sgen-gc.h"
#include "mono/sgen/sgen-cardtable.h"
#include "mono/sgen/sgen-protocol.h"
#include "mono/sgen/sgen-memory-governor.h"
#include "mono/sgen/sgen-pinning.h"
#include "mono/sgen/sgen-client.h"
#if _MSC_VER
#pragma warning(disable:4312) // FIXME pointer cast to different size
#endif
#ifndef DISABLE_SGEN_DEBUG_HELPERS
#define LOAD_VTABLE SGEN_LOAD_VTABLE
#define object_is_forwarded SGEN_OBJECT_IS_FORWARDED
#define object_is_pinned SGEN_OBJECT_IS_PINNED
#define safe_object_get_size sgen_safe_object_get_size
void sgen_describe_ptr (char *ptr);
void sgen_check_object (GCObject *obj);
/*
* ######################################################################
* ######## Collector debugging
* ######################################################################
*/
static const char*descriptor_types [] = {
"INVALID",
"run length",
"bitmap",
"small pointer-free",
"complex",
"vector",
"complex arrray",
"complex pointer-free"
};
static char* describe_nursery_ptr (char *ptr, gboolean need_setup);
static void
describe_pointer (char *ptr, gboolean need_setup)
{
GCVTable vtable;
SgenDescriptor desc;
int type;
char *start;
char *forwarded;
mword size;
restart:
if (sgen_ptr_in_nursery (ptr)) {
start = describe_nursery_ptr (ptr, need_setup);
if (!start)
return;
ptr = start;
vtable = LOAD_VTABLE ((GCObject*)ptr);
} else {
if (sgen_ptr_is_in_los (ptr, &start)) {
if (ptr == start)
printf ("Pointer is the start of object %p in LOS space.\n", start);
else
printf ("Pointer is at offset 0x%x of object %p in LOS space.\n", (int)(ptr - start), start);
ptr = start;
mono_sgen_los_describe_pointer (ptr);
vtable = LOAD_VTABLE ((GCObject*)ptr);
} else if (sgen_major_collector.ptr_is_in_non_pinned_space (ptr, &start)) {
if (ptr == start)
printf ("Pointer is the start of object %p in oldspace.\n", start);
else if (start)
printf ("Pointer is at offset 0x%x of object %p in oldspace.\n", (int)(ptr - start), start);
else
printf ("Pointer inside oldspace.\n");
if (start)
ptr = start;
vtable = (GCVTable)sgen_major_collector.describe_pointer (ptr);
} else if (sgen_major_collector.ptr_is_from_pinned_alloc (ptr)) {
// FIXME: Handle pointers to the inside of objects
printf ("Pointer is inside a pinned chunk.\n");
vtable = LOAD_VTABLE ((GCObject*)ptr);
} else {
printf ("Pointer unknown.\n");
return;
}
}
if (object_is_pinned (ptr))
printf ("Object is pinned.\n");
if ((forwarded = (char *)object_is_forwarded (ptr))) {
printf ("Object is forwarded to %p:\n", forwarded);
ptr = forwarded;
goto restart;
}
printf ("VTable: %p\n", vtable);
if (vtable == NULL) {
printf ("VTable is invalid (empty).\n");
goto invalid_vtable;
}
if (sgen_ptr_in_nursery (vtable)) {
printf ("VTable is invalid (points inside nursery).\n");
goto invalid_vtable;
}
printf ("Class: %s.%s\n", sgen_client_vtable_get_namespace (vtable), sgen_client_vtable_get_name (vtable));
desc = sgen_vtable_get_descriptor (vtable);
printf ("Descriptor: %lx\n", (long)desc);
type = desc & DESC_TYPE_MASK;
printf ("Descriptor type: %d (%s)\n", type, descriptor_types [type]);
size = sgen_safe_object_get_size ((GCObject*)ptr);
printf ("Size: %d\n", (int)size);
invalid_vtable:
;
sgen_client_describe_invalid_pointer ((GCObject *) ptr);
}
void
sgen_describe_ptr (char *ptr)
{
describe_pointer (ptr, TRUE);
}
static gboolean missing_remsets;
/*
* We let a missing remset slide if the target object is pinned,
* because the store might have happened but the remset not yet added,
* but in that case the target must be pinned. We might theoretically
* miss some missing remsets this way, but it's very unlikely.
*/
#undef HANDLE_PTR
#define HANDLE_PTR(ptr,obj) do { \
if (*(ptr) && sgen_ptr_in_nursery ((char*)*(ptr))) { \
if (!sgen_get_remset ()->find_address ((char*)(ptr)) && !sgen_cement_lookup (*(ptr))) { \
GCVTable __vt = SGEN_LOAD_VTABLE (obj); \
gboolean is_pinned = object_is_pinned (*(ptr)); \
SGEN_LOG (0, "Oldspace->newspace reference %p at offset %ld in object %p (%s.%s) not found in remsets%s.", *(ptr), (long)((char*)(ptr) - (char*)(obj)), (obj), sgen_client_vtable_get_namespace (__vt), sgen_client_vtable_get_name (__vt), is_pinned ? ", but object is pinned" : ""); \
sgen_binary_protocol_missing_remset ((obj), __vt, (int) ((char*)(ptr) - (char*)(obj)), *(ptr), (gpointer)LOAD_VTABLE(*(ptr)), is_pinned); \
if (!is_pinned) \
missing_remsets = TRUE; \
} \
} \
} while (0)
/*
* Check that each object reference which points into the nursery can
* be found in the remembered sets.
*/
static void
check_consistency_callback (GCObject *obj, size_t size, void *dummy)
{
char *start = (char*)obj;
GCVTable vt = LOAD_VTABLE (obj);
SgenDescriptor desc = sgen_vtable_get_descriptor (vt);
SGEN_LOG (8, "Scanning object %p, vtable: %p (%s)", start, vt, sgen_client_vtable_get_name (vt));
#include "sgen-scan-object.h"
}
/*
* Perform consistency check of the heap.
*
* Assumes the world is stopped.
*/
void
sgen_check_remset_consistency (void)
{
// Need to add more checks
missing_remsets = FALSE;
SGEN_LOG (1, "Begin heap consistency check...");
// Check that oldspace->newspace pointers are registered with the collector
sgen_major_collector.iterate_objects (ITERATE_OBJECTS_SWEEP_ALL, (IterateObjectCallbackFunc)check_consistency_callback, NULL);
sgen_los_iterate_objects ((IterateObjectCallbackFunc)check_consistency_callback, NULL);
SGEN_LOG (1, "Heap consistency check done.");
if (missing_remsets)
sgen_binary_protocol_flush_buffers (TRUE);
if (!sgen_binary_protocol_is_enabled ())
g_assert (!missing_remsets);
}
static gboolean
is_major_or_los_object_marked (GCObject *obj)
{
if (sgen_safe_object_get_size ((GCObject*)obj) > SGEN_MAX_SMALL_OBJ_SIZE) {
return sgen_los_object_is_pinned (obj);
} else {
return sgen_get_major_collector ()->is_object_live (obj);
}
}
#undef HANDLE_PTR
#define HANDLE_PTR(ptr,obj) do { \
if (*(ptr) && !sgen_ptr_in_nursery ((char*)*(ptr)) && !is_major_or_los_object_marked ((GCObject*)*(ptr))) { \
if (!cards || !sgen_get_remset ()->find_address_with_cards (start, cards, (char*)(ptr))) { \
GCVTable __vt = SGEN_LOAD_VTABLE (obj); \
SGEN_LOG (0, "major->major reference %p at offset %ld in object %p (%s.%s) not found in remsets.", *(ptr), (long)((char*)(ptr) - (char*)(obj)), (obj), sgen_client_vtable_get_namespace (__vt), sgen_client_vtable_get_name (__vt)); \
sgen_binary_protocol_missing_remset ((obj), __vt, (int) ((char*)(ptr) - (char*)(obj)), *(ptr), (gpointer)LOAD_VTABLE(*(ptr)), object_is_pinned (*(ptr))); \
missing_remsets = TRUE; \
} \
} \
} while (0)
static void
check_mod_union_callback (GCObject *obj, size_t size, void *dummy)
{
char *start = (char*)obj;
gboolean in_los = (gboolean) (size_t) dummy;
GCVTable vt = LOAD_VTABLE (obj);
SgenDescriptor desc = sgen_vtable_get_descriptor (vt);
guint8 *cards;
SGEN_LOG (8, "Scanning object %p, vtable: %p (%s)", obj, vt, sgen_client_vtable_get_name (vt));
if (!is_major_or_los_object_marked (obj))
return;
if (in_los)
cards = sgen_los_header_for_object (obj)->cardtable_mod_union;
else
cards = sgen_get_major_collector ()->get_cardtable_mod_union_for_reference (start);
#include "sgen-scan-object.h"
}
void
sgen_check_mod_union_consistency (void)
{
missing_remsets = FALSE;
sgen_major_collector.iterate_objects (ITERATE_OBJECTS_SWEEP_ALL, (IterateObjectCallbackFunc)check_mod_union_callback, (void*)FALSE);
sgen_los_iterate_objects ((IterateObjectCallbackFunc)check_mod_union_callback, (void*)TRUE);
if (!sgen_binary_protocol_is_enabled ())
g_assert (!missing_remsets);
}
#undef HANDLE_PTR
#define HANDLE_PTR(ptr,obj) do { \
if (*(ptr) && !LOAD_VTABLE (*(ptr))) \
g_error ("Could not load vtable for obj %p slot %ld (size %ld)", obj, (long)((char*)ptr - (char*)obj), (long)safe_object_get_size ((GCObject*)obj)); \
} while (0)
static void
check_major_refs_callback (GCObject *obj, size_t size, void *dummy)
{
char *start = (char*)obj;
SgenDescriptor desc = sgen_obj_get_descriptor (obj);
#include "sgen-scan-object.h"
}
void
sgen_check_major_refs (void)
{
sgen_major_collector.iterate_objects (ITERATE_OBJECTS_SWEEP_ALL, (IterateObjectCallbackFunc)check_major_refs_callback, NULL);
sgen_los_iterate_objects ((IterateObjectCallbackFunc)check_major_refs_callback, NULL);
}
/* Check that the reference is valid */
#undef HANDLE_PTR
#define HANDLE_PTR(ptr,obj) do { \
if (*(ptr)) { \
g_assert (sgen_client_vtable_get_namespace (SGEN_LOAD_VTABLE_UNCHECKED (*(ptr)))); \
} \
} while (0)
/*
* sgen_check_object:
*
* Perform consistency check on an object. Currently we only check that the
* reference fields are valid.
*/
void
sgen_check_object (GCObject *obj)
{
char *start = (char*)obj;
SgenDescriptor desc;
if (!start)
return;
desc = sgen_obj_get_descriptor (obj);
#include "sgen-scan-object.h"
}
static GCObject **valid_nursery_objects;
static int valid_nursery_object_count;
static gboolean broken_heap;
static void
setup_mono_sgen_scan_area_with_callback (GCObject *object, size_t size, void *data)
{
valid_nursery_objects [valid_nursery_object_count++] = object;
}
static void
setup_valid_nursery_objects (void)
{
if (!valid_nursery_objects)
valid_nursery_objects = (GCObject **)sgen_alloc_os_memory (sgen_nursery_max_size, (SgenAllocFlags)(SGEN_ALLOC_INTERNAL | SGEN_ALLOC_ACTIVATE), "debugging data", MONO_MEM_ACCOUNT_SGEN_DEBUGGING);
valid_nursery_object_count = 0;
sgen_scan_area_with_callback (sgen_nursery_section->data, sgen_nursery_section->end_data, setup_mono_sgen_scan_area_with_callback, NULL, FALSE, FALSE);
}
static gboolean
find_object_in_nursery_dump (char *object)
{
int first = 0, last = valid_nursery_object_count;
while (first < last) {
int middle = first + ((last - first) >> 1);
if (object == (char*)valid_nursery_objects [middle])
return TRUE;
if (object < (char*)valid_nursery_objects [middle])
last = middle;
else
first = middle + 1;
}
g_assert (first == last);
return FALSE;
}
static void
iterate_valid_nursery_objects (IterateObjectCallbackFunc callback, void *data)
{
int i;
for (i = 0; i < valid_nursery_object_count; ++i) {
GCObject *obj = valid_nursery_objects [i];
callback (obj, safe_object_get_size (obj), data);
}
}
static char*
describe_nursery_ptr (char *ptr, gboolean need_setup)
{
int i;
if (need_setup)
setup_valid_nursery_objects ();
for (i = 0; i < valid_nursery_object_count - 1; ++i) {
if ((char*)valid_nursery_objects [i + 1] > ptr)
break;
}
if (i >= valid_nursery_object_count || (char*)valid_nursery_objects [i] + safe_object_get_size (valid_nursery_objects [i]) < ptr) {
SGEN_LOG (0, "nursery-ptr (unalloc'd-memory)");
return NULL;
} else {
GCObject *obj = valid_nursery_objects [i];
if ((char*)obj == ptr)
SGEN_LOG (0, "nursery-ptr %p", obj);
else
SGEN_LOG (0, "nursery-ptr %p (interior-ptr offset %ld)", obj, (long)(ptr - (char*)obj));
return (char*)obj;
}
}
static gboolean
is_valid_object_pointer (char *object)
{
if (sgen_ptr_in_nursery (object))
return find_object_in_nursery_dump (object);
if (sgen_los_is_valid_object (object))
return TRUE;
if (sgen_major_collector.is_valid_object (object))
return TRUE;
return FALSE;
}
static void
bad_pointer_spew (char *obj, char **slot)
{
char *ptr = *slot;
GCVTable vtable = LOAD_VTABLE ((GCObject*)obj);
SGEN_LOG (0, "Invalid object pointer %p at offset %ld in object %p (%s.%s):", ptr,
(long)((char*)slot - obj),
obj, sgen_client_vtable_get_namespace (vtable), sgen_client_vtable_get_name (vtable));
describe_pointer (ptr, FALSE);
broken_heap = TRUE;
}
static void
missing_remset_spew (char *obj, char **slot)
{
char *ptr = *slot;
GCVTable vtable = LOAD_VTABLE ((GCObject*)obj);
SGEN_LOG (0, "Oldspace->newspace reference %p at offset %ld in object %p (%s.%s) not found in remsets.",
ptr, (long)((char*)slot - obj), obj,
sgen_client_vtable_get_namespace (vtable), sgen_client_vtable_get_name (vtable));
broken_heap = TRUE;
}
/*
FIXME Flag missing remsets due to pinning as non fatal
*/
#undef HANDLE_PTR
#define HANDLE_PTR(ptr,obj) do { \
if (*(char**)ptr) { \
if (!is_valid_object_pointer (*(char**)ptr)) { \
bad_pointer_spew ((char*)obj, (char**)ptr); \
} else if (!sgen_ptr_in_nursery (obj) && sgen_ptr_in_nursery ((char*)*ptr)) { \
if (!allow_missing_pinned && !SGEN_OBJECT_IS_PINNED (*(ptr)) && !sgen_get_remset ()->find_address ((char*)(ptr)) && !sgen_cement_lookup (*(ptr))) \
missing_remset_spew ((char*)obj, (char**)ptr); \
} \
} \
} while (0)
static void
verify_object_pointers_callback (GCObject *obj, size_t size, void *data)
{
char *start = (char*)obj;
gboolean allow_missing_pinned = (gboolean) (size_t) data;
SgenDescriptor desc = sgen_obj_get_descriptor_safe (obj);
#include "sgen-scan-object.h"
}
/*
FIXME:
-This heap checker is racy regarding inlined write barriers and other JIT tricks that
depend on OP_DUMMY_USE.
*/
void
sgen_check_whole_heap (gboolean allow_missing_pinned)
{
setup_valid_nursery_objects ();
broken_heap = FALSE;
sgen_scan_area_with_callback (sgen_nursery_section->data, sgen_nursery_section->end_data, verify_object_pointers_callback, (void*) (size_t) allow_missing_pinned, FALSE, TRUE);
sgen_major_collector.iterate_objects (ITERATE_OBJECTS_SWEEP_ALL, verify_object_pointers_callback, (void*) (size_t) allow_missing_pinned);
sgen_los_iterate_objects (verify_object_pointers_callback, (void*) (size_t) allow_missing_pinned);
g_assert (!broken_heap);
}
static gboolean
ptr_in_heap (char *object)
{
if (sgen_ptr_in_nursery (object))
return TRUE;
if (sgen_los_is_valid_object (object))
return TRUE;
if (sgen_major_collector.is_valid_object (object))
return TRUE;
return FALSE;
}
/*
* sgen_check_objref:
* Do consistency checks on the object reference OBJ. Assert on failure.
*/
void
sgen_check_objref (char *obj)
{
g_assert (ptr_in_heap (obj));
}
static void
find_pinning_ref_from_thread (char *obj, size_t size)
{
#ifndef SGEN_WITHOUT_MONO
char *endobj = obj + size;
FOREACH_THREAD_EXCLUDE (info, MONO_THREAD_INFO_FLAGS_NO_GC) {
mword *ctxstart, *ctxcurrent, *ctxend;
char **start = (char**)info->client_info.stack_start;
if (info->client_info.skip)
continue;
while (start < (char**)info->client_info.info.stack_end) {
if (*start >= obj && *start < endobj)
SGEN_LOG (0, "Object %p referenced in thread %p (id %p) at %p, stack: %p-%p", obj, info, (gpointer)(gsize) mono_thread_info_get_tid (info), start, info->client_info.stack_start, info->client_info.info.stack_end);
start++;
}
for (ctxstart = ctxcurrent = (mword*) &info->client_info.ctx, ctxend = (mword*) (&info->client_info.ctx + 1); ctxcurrent < ctxend; ctxcurrent ++) {
mword w = *ctxcurrent;
if (w >= (mword)obj && w < (mword)obj + size)
SGEN_LOG (0, "Object %p referenced in saved reg %d of thread %p (id %p)", obj, (int) (ctxcurrent - ctxstart), info, (gpointer)(gsize) mono_thread_info_get_tid (info));
}
} FOREACH_THREAD_END
#endif
}
/*
* Debugging function: find in the conservative roots where @obj is being pinned.
*/
static G_GNUC_UNUSED void
find_pinning_reference (char *obj, size_t size)
{
char **start;
RootRecord *root;
char *endobj = obj + size;
SGEN_HASH_TABLE_FOREACH (&sgen_roots_hash [ROOT_TYPE_NORMAL], char **, start, RootRecord *, root) {
/* if desc is non-null it has precise info */
if (!root->root_desc) {
while (start < (char**)root->end_root) {
if (*start >= obj && *start < endobj) {
SGEN_LOG (0, "Object %p referenced in pinned roots %p-%p\n", obj, start, root->end_root);
}
start++;
}
}
} SGEN_HASH_TABLE_FOREACH_END;
find_pinning_ref_from_thread (obj, size);
}
#undef HANDLE_PTR
#define HANDLE_PTR(ptr,obj) do { \
char* __target = *(char**)ptr; \
if (__target) { \
if (sgen_ptr_in_nursery (__target)) { \
g_assert (!SGEN_OBJECT_IS_FORWARDED (__target)); \
} else { \
mword __size = sgen_safe_object_get_size ((GCObject*)__target); \
if (__size <= SGEN_MAX_SMALL_OBJ_SIZE) \
g_assert (sgen_major_collector.is_object_live ((GCObject*)__target)); \
else \
g_assert (sgen_los_object_is_pinned ((GCObject*)__target)); \
} \
} \
} while (0)
static void
check_marked_callback (GCObject *obj, size_t size, void *dummy)
{
char *start = (char*)obj;
gboolean flag = (gboolean) (size_t) dummy;
SgenDescriptor desc;
if (sgen_ptr_in_nursery (start)) {
if (flag)
SGEN_ASSERT (0, SGEN_OBJECT_IS_PINNED (obj), "All objects remaining in the nursery must be pinned");
} else if (flag) {
if (!sgen_los_object_is_pinned (obj))
return;
} else {
if (!sgen_major_collector.is_object_live (obj))
return;
}
desc = sgen_obj_get_descriptor_safe (obj);
#include "sgen-scan-object.h"
}
void
sgen_check_heap_marked (gboolean nursery_must_be_pinned)
{
setup_valid_nursery_objects ();
iterate_valid_nursery_objects (check_marked_callback, (void*)(size_t)nursery_must_be_pinned);
sgen_major_collector.iterate_objects (ITERATE_OBJECTS_SWEEP_ALL, check_marked_callback, (void*)FALSE);
sgen_los_iterate_objects (check_marked_callback, (void*)TRUE);
}
static void
check_nursery_objects_untag_callback (char *obj, size_t size, void *data)
{
g_assert (!SGEN_OBJECT_IS_FORWARDED (obj));
g_assert (!SGEN_OBJECT_IS_PINNED (obj));
}
void
sgen_check_nursery_objects_untag (void)
{
sgen_clear_nursery_fragments ();
sgen_scan_area_with_callback (sgen_nursery_section->data, sgen_nursery_section->end_data,
(IterateObjectCallbackFunc)check_nursery_objects_untag_callback, NULL, FALSE, TRUE);
}
static void
verify_scan_starts (char *start, char *end)
{
size_t i;
for (i = 0; i < sgen_nursery_section->num_scan_start; ++i) {
char *addr = sgen_nursery_section->scan_starts [i];
if (addr > start && addr < end)
SGEN_LOG (0, "NFC-BAD SCAN START [%lu] %p for obj [%p %p]", (unsigned long)i, addr, start, end);
}
}
void
sgen_debug_verify_nursery (gboolean do_dump_nursery_content)
{
char *start, *end, *cur, *hole_start;
if (sgen_nursery_canaries_enabled ())
SGEN_LOG (0, "Checking nursery canaries...");
/*This cleans up unused fragments */
sgen_nursery_allocator_prepare_for_pinning ();
hole_start = start = cur = sgen_get_nursery_start ();
end = sgen_get_nursery_end ();
while (cur < end) {
size_t ss, size;
gboolean is_array_fill;
if (!*(void**)cur) {
cur += sizeof (void*);
continue;
}
if (object_is_forwarded (cur))
SGEN_LOG (0, "FORWARDED OBJ %p", cur);
else if (object_is_pinned (cur))
SGEN_LOG (0, "PINNED OBJ %p", cur);
ss = safe_object_get_size ((GCObject*)cur);
size = SGEN_ALIGN_UP (ss);
verify_scan_starts (cur, cur + size);
is_array_fill = sgen_client_object_is_array_fill ((GCObject*)cur);
if (do_dump_nursery_content) {
GCVTable vtable = SGEN_LOAD_VTABLE ((GCObject*)cur);
if (cur > hole_start)
SGEN_LOG (0, "HOLE [%p %p %d]", hole_start, cur, (int)(cur - hole_start));
SGEN_LOG (0, "OBJ [%p %p %d %d %s.%s %d]", cur, cur + size, (int)size, (int)ss,
sgen_client_vtable_get_namespace (vtable), sgen_client_vtable_get_name (vtable),
is_array_fill);
}
if (sgen_nursery_canaries_enabled () && !is_array_fill) {
CHECK_CANARY_FOR_OBJECT ((GCObject*)cur, TRUE);
CANARIFY_SIZE (size);
}
cur += size;
hole_start = cur;
}
}
/*
* Checks that no objects in the nursery are fowarded or pinned. This
* is a precondition to restarting the mutator while doing a
* concurrent collection. Note that we don't clear fragments because
* we depend on that having happened earlier.
*/
void
sgen_debug_check_nursery_is_clean (void)
{
char *end, *cur;
cur = sgen_get_nursery_start ();
end = sgen_get_nursery_end ();
while (cur < end) {
size_t size;
if (!*(void**)cur) {
cur += sizeof (void*);
continue;
}
g_assert (!object_is_forwarded (cur));
g_assert (!object_is_pinned (cur));
size = SGEN_ALIGN_UP (safe_object_get_size ((GCObject*)cur));
verify_scan_starts (cur, cur + size);
cur += size;
}
}
static gboolean scan_object_for_specific_ref_precise = TRUE;
#undef HANDLE_PTR
#define HANDLE_PTR(ptr,obj) do { \
if ((GCObject*)*(ptr) == key) { \
GCVTable vtable = SGEN_LOAD_VTABLE (*(ptr)); \
g_print ("found ref to %p in object %p (%s.%s) at offset %ld\n", \
key, (obj), sgen_client_vtable_get_namespace (vtable), sgen_client_vtable_get_name (vtable), (long)(((char*)(ptr) - (char*)(obj)))); \
} \
} while (0)
static void
scan_object_for_specific_ref (GCObject *obj, GCObject *key)
{
GCObject *forwarded;
if ((forwarded = SGEN_OBJECT_IS_FORWARDED (obj)))
obj = forwarded;
if (scan_object_for_specific_ref_precise) {
char *start = (char*)obj;
SgenDescriptor desc = sgen_obj_get_descriptor_safe (obj);
#include "sgen-scan-object.h"
} else {
mword *words = (mword*)obj;
size_t size = safe_object_get_size (obj);
int i;
for (i = 0; i < size / sizeof (mword); ++i) {
if (words [i] == (mword)key) {
GCVTable vtable = SGEN_LOAD_VTABLE (obj);
g_print ("found possible ref to %p in object %p (%s.%s) at offset %ld\n",
key, obj, sgen_client_vtable_get_namespace (vtable), sgen_client_vtable_get_name (vtable), (long)(i * sizeof (mword)));
}
}
}
}
static void
scan_object_for_specific_ref_callback (GCObject *obj, size_t size, GCObject *key)
{
scan_object_for_specific_ref (obj, key);
}
static void
check_root_obj_specific_ref (RootRecord *root, GCObject *key, GCObject *obj)
{
if (key != obj)
return;
g_print ("found ref to %p in root record %p\n", key, root);
}
static GCObject *check_key = NULL;
static RootRecord *check_root = NULL;
static void
check_root_obj_specific_ref_from_marker (GCObject **obj, void *gc_data)
{
check_root_obj_specific_ref (check_root, check_key, *obj);
}
static void
scan_roots_for_specific_ref (GCObject *key, int root_type)
{
void **start_root;
RootRecord *root;
check_key = key;
SGEN_HASH_TABLE_FOREACH (&sgen_roots_hash [root_type], void **, start_root, RootRecord *, root) {
SgenDescriptor desc = root->root_desc;
check_root = root;
switch (desc & ROOT_DESC_TYPE_MASK) {
case ROOT_DESC_BITMAP:
desc >>= ROOT_DESC_TYPE_SHIFT;
while (desc) {
if (desc & 1)
check_root_obj_specific_ref (root, key, (GCObject *)*start_root);
desc >>= 1;
start_root++;
}
return;
case ROOT_DESC_COMPLEX: {
gsize *bitmap_data = (gsize *)sgen_get_complex_descriptor_bitmap (desc);
int bwords = (int) ((*bitmap_data) - 1);
void **start_run = start_root;
bitmap_data++;
while (bwords-- > 0) {
gsize bmap = *bitmap_data++;
void **objptr = start_run;
while (bmap) {
if (bmap & 1)
check_root_obj_specific_ref (root, key, (GCObject *)*objptr);
bmap >>= 1;
++objptr;
}
start_run += GC_BITS_PER_WORD;
}
break;
}
case ROOT_DESC_VECTOR: {
void **p;
for (p = start_root; p < (void**)root->end_root; p++) {
if (*p)
check_root_obj_specific_ref (root, key, (GCObject *)*p);
}
break;
}
case ROOT_DESC_USER: {
SgenUserRootMarkFunc marker = sgen_get_user_descriptor_func (desc);
marker (start_root, check_root_obj_specific_ref_from_marker, NULL);
break;
}
case ROOT_DESC_RUN_LEN:
g_assert_not_reached ();
default:
g_assert_not_reached ();
}
} SGEN_HASH_TABLE_FOREACH_END;
check_key = NULL;
check_root = NULL;
}
void
mono_gc_scan_for_specific_ref (GCObject *key, gboolean precise)
{
void **ptr;
RootRecord *root;
scan_object_for_specific_ref_precise = precise;
sgen_scan_area_with_callback (sgen_nursery_section->data, sgen_nursery_section->end_data,
(IterateObjectCallbackFunc)scan_object_for_specific_ref_callback, key, TRUE, FALSE);
sgen_major_collector.iterate_objects (ITERATE_OBJECTS_SWEEP_ALL, (IterateObjectCallbackFunc)scan_object_for_specific_ref_callback, key);
sgen_los_iterate_objects ((IterateObjectCallbackFunc)scan_object_for_specific_ref_callback, key);
scan_roots_for_specific_ref (key, ROOT_TYPE_NORMAL);
scan_roots_for_specific_ref (key, ROOT_TYPE_WBARRIER);
SGEN_HASH_TABLE_FOREACH (&sgen_roots_hash [ROOT_TYPE_PINNED], void **, ptr, RootRecord *, root) {
while (ptr < (void**)root->end_root) {
check_root_obj_specific_ref (root, (GCObject *)*ptr, key);
++ptr;
}
} SGEN_HASH_TABLE_FOREACH_END;
if (sgen_is_world_stopped ())
find_pinning_ref_from_thread ((char*)key, sizeof (GCObject));
}
#ifndef SGEN_WITHOUT_MONO
static MonoDomain *check_domain = NULL;
static void
check_obj_not_in_domain (MonoObject **o)
{
g_assert (((*o))->vtable->domain != check_domain);
}
static void
check_obj_not_in_domain_callback (GCObject **o, void *gc_data)
{
g_assert ((*o)->vtable->domain != check_domain);
}
void
sgen_scan_for_registered_roots_in_domain (MonoDomain *domain, int root_type)
{
void **start_root;
RootRecord *root;
check_domain = domain;
SGEN_HASH_TABLE_FOREACH (&sgen_roots_hash [root_type], void **, start_root, RootRecord *, root) {
SgenDescriptor desc = root->root_desc;
/* The MonoDomain struct is allowed to hold
references to objects in its own domain. */
if (start_root == (void**)domain)
continue;
switch (desc & ROOT_DESC_TYPE_MASK) {
case ROOT_DESC_BITMAP:
desc >>= ROOT_DESC_TYPE_SHIFT;
while (desc) {
if ((desc & 1) && *start_root)
check_obj_not_in_domain ((MonoObject **)*start_root);
desc >>= 1;
start_root++;
}
break;
case ROOT_DESC_COMPLEX: {
gsize *bitmap_data = (gsize *)sgen_get_complex_descriptor_bitmap (desc);
int bwords = (int)((*bitmap_data) - 1);
void **start_run = start_root;
bitmap_data++;
while (bwords-- > 0) {
gsize bmap = *bitmap_data++;
void **objptr = start_run;
while (bmap) {
if ((bmap & 1) && *objptr)
check_obj_not_in_domain ((MonoObject **)*objptr);
bmap >>= 1;
++objptr;
}
start_run += GC_BITS_PER_WORD;
}
break;
}
case ROOT_DESC_VECTOR: {
void **p;
for (p = start_root; p < (void**)root->end_root; p++) {
if (*p)
check_obj_not_in_domain ((MonoObject **)*p);
}
break;
}
case ROOT_DESC_USER: {
SgenUserRootMarkFunc marker = sgen_get_user_descriptor_func (desc);
marker (start_root, check_obj_not_in_domain_callback, NULL);
break;
}
case ROOT_DESC_RUN_LEN:
g_assert_not_reached ();
default:
g_assert_not_reached ();
}
} SGEN_HASH_TABLE_FOREACH_END;
check_domain = NULL;
}
static gboolean
is_xdomain_ref_allowed (GCObject **ptr, GCObject *obj, MonoDomain *domain)
{
return FALSE;
}
static void
check_reference_for_xdomain (GCObject **ptr, GCObject *obj, MonoDomain *domain)
{
MonoObject *ref = *ptr;
size_t offset = (char*)(ptr) - (char*)obj;
MonoClass *klass;
MonoClassField *field;
char *str;
if (!ref || ref->vtable->domain == domain)
return;
if (is_xdomain_ref_allowed (ptr, obj, domain))
return;
field = NULL;
for (klass = obj->vtable->klass; klass; klass = m_class_get_parent (klass)) {
int i;
int fcount = mono_class_get_field_count (klass);
MonoClassField *klass_fields = m_class_get_fields (klass);
for (i = 0; i < fcount; ++i) {
if (klass_fields[i].offset == offset) {
field = &klass_fields[i];
break;
}
}
if (field)
break;
}
if (ref->vtable->klass == mono_defaults.string_class) {
ERROR_DECL (error);
str = mono_string_to_utf8_checked_internal ((MonoString*)ref, error);
mono_error_cleanup (error);
} else
str = NULL;
g_print ("xdomain reference in %p (%s.%s) at offset %zu (%s) to %p (%s.%s) (%s) - pointed to by:\n",
obj, m_class_get_name_space (obj->vtable->klass), m_class_get_name (obj->vtable->klass),
offset, field ? field->name : "",
ref, m_class_get_name_space (ref->vtable->klass), m_class_get_name (ref->vtable->klass), str ? str : "");
mono_gc_scan_for_specific_ref (obj, TRUE);
if (str)
g_free (str);
}
#undef HANDLE_PTR
#define HANDLE_PTR(ptr,obj) check_reference_for_xdomain ((ptr), (obj), domain)
static void
scan_object_for_xdomain_refs (GCObject *obj, mword size, void *data)
{
char *start = (char*)obj;
MonoVTable *vt = SGEN_LOAD_VTABLE (obj);
MonoDomain *domain = vt->domain;
SgenDescriptor desc = sgen_vtable_get_descriptor (vt);
#include "sgen-scan-object.h"
}
void
sgen_check_for_xdomain_refs (void)
{
sgen_scan_area_with_callback (sgen_nursery_section->data, sgen_nursery_section->end_data,
(IterateObjectCallbackFunc)scan_object_for_xdomain_refs, NULL, FALSE, TRUE);
sgen_major_collector.iterate_objects (ITERATE_OBJECTS_SWEEP_ALL, (IterateObjectCallbackFunc)scan_object_for_xdomain_refs, NULL);
sgen_los_iterate_objects ((IterateObjectCallbackFunc)scan_object_for_xdomain_refs, NULL);
}
#endif
/* If not null, dump the heap after each collection into this file */
static FILE *heap_dump_file = NULL;
void
sgen_dump_occupied (char *start, char *end, char *section_start)
{
fprintf (heap_dump_file, "<occupied offset=\"%ld\" size=\"%ld\"/>\n", (long)(start - section_start), (long)(end - start));
}
void
sgen_dump_section (GCMemSection *section, const char *type)
{
char *start = section->data;
char *end = section->end_data;
char *occ_start = NULL;
fprintf (heap_dump_file, "<section type=\"%s\" size=\"%lu\">\n", type, (unsigned long)(section->end_data - section->data));
while (start < end) {
guint size;
//GCVTable vt;
//MonoClass *class;
if (!*(void**)start) {
if (occ_start) {
sgen_dump_occupied (occ_start, start, section->data);
occ_start = NULL;
}
start += sizeof (void*); /* should be ALLOC_ALIGN, really */
continue;
}
if (!occ_start)
occ_start = start;
//vt = SGEN_LOAD_VTABLE (start);
//class = vt->klass;
size = SGEN_ALIGN_UP (safe_object_get_size ((GCObject*) start));
/*
fprintf (heap_dump_file, "<object offset=\"%d\" class=\"%s.%s\" size=\"%d\"/>\n",
start - section->data,
vt->klass->name_space, vt->klass->name,
size);
*/
start += size;
}
if (occ_start)
sgen_dump_occupied (occ_start, start, section->data);
fprintf (heap_dump_file, "</section>\n");
}
static void
dump_object (GCObject *obj, gboolean dump_location)
{
#ifndef SGEN_WITHOUT_MONO
static char class_name [1024];
MonoClass *klass = mono_object_class (obj);
int i, j;
/*
* Python's XML parser is too stupid to parse angle brackets
* in strings, so we just ignore them;
*/
i = j = 0;
while (m_class_get_name (klass) [i] && j < sizeof (class_name) - 1) {
if (!strchr ("<>\"", m_class_get_name (klass) [i]))
class_name [j++] = m_class_get_name (klass) [i];
++i;
}
g_assert (j < sizeof (class_name));
class_name [j] = 0;
fprintf (heap_dump_file, "<object class=\"%s.%s\" size=\"%ld\"",
m_class_get_name_space (klass), class_name,
(long)safe_object_get_size (obj));
if (dump_location) {
const char *location;
if (sgen_ptr_in_nursery (obj))
location = "nursery";
else if (safe_object_get_size (obj) <= SGEN_MAX_SMALL_OBJ_SIZE)
location = "major";
else
location = "LOS";
fprintf (heap_dump_file, " location=\"%s\"", location);
}
fprintf (heap_dump_file, "/>\n");
#endif
}
static void
dump_object_callback (GCObject *obj, size_t size, gboolean dump_location)
{
dump_object (obj, dump_location);
}
void
sgen_debug_enable_heap_dump (const char *filename)
{
heap_dump_file = fopen (filename, "w");
if (heap_dump_file) {
fprintf (heap_dump_file, "<sgen-dump>\n");
sgen_pin_stats_enable ();
}
}
void
sgen_debug_dump_heap (const char *type, int num, const char *reason)
{
SgenPointerQueue *pinned_objects;
int i;
if (!heap_dump_file)
return;
fprintf (heap_dump_file, "<collection type=\"%s\" num=\"%d\"", type, num);
if (reason)
fprintf (heap_dump_file, " reason=\"%s\"", reason);
fprintf (heap_dump_file, ">\n");
#ifndef SGEN_WITHOUT_MONO
fprintf (heap_dump_file, "<other-mem-usage type=\"mempools\" size=\"%ld\"/>\n", mono_mempool_get_bytes_allocated ());
#endif
sgen_dump_internal_mem_usage (heap_dump_file);
fprintf (heap_dump_file, "<pinned type=\"stack\" bytes=\"%lu\"/>\n", (unsigned long)sgen_pin_stats_get_pinned_byte_count (PIN_TYPE_STACK));
/* fprintf (heap_dump_file, "<pinned type=\"static-data\" bytes=\"%d\"/>\n", pinned_byte_counts [PIN_TYPE_STATIC_DATA]); */
fprintf (heap_dump_file, "<pinned type=\"other\" bytes=\"%lu\"/>\n", (unsigned long)sgen_pin_stats_get_pinned_byte_count (PIN_TYPE_OTHER));
fprintf (heap_dump_file, "<pinned-objects>\n");
pinned_objects = sgen_pin_stats_get_object_list ();
for (i = 0; i < pinned_objects->next_slot; ++i)
dump_object ((GCObject *)pinned_objects->data [i], TRUE);
fprintf (heap_dump_file, "</pinned-objects>\n");
sgen_dump_section (sgen_nursery_section, "nursery");
sgen_major_collector.dump_heap (heap_dump_file);
fprintf (heap_dump_file, "<los>\n");
sgen_los_iterate_objects ((IterateObjectCallbackFunc)dump_object_callback, (void*)FALSE);
fprintf (heap_dump_file, "</los>\n");
fprintf (heap_dump_file, "</collection>\n");
}
static GCObject *found_obj;
static void
find_object_for_ptr_callback (GCObject *obj, size_t size, void *user_data)
{
char *ptr = (char *)user_data;
if (ptr >= (char*)obj && ptr < (char*)obj + size) {
g_assert (!found_obj);
found_obj = obj;
}
}
/* for use in the debugger */
GCObject*
sgen_find_object_for_ptr (char *ptr)
{
if (ptr >= sgen_nursery_section->data && ptr < sgen_nursery_section->end_data) {
found_obj = NULL;
sgen_scan_area_with_callback (sgen_nursery_section->data, sgen_nursery_section->end_data,
find_object_for_ptr_callback, ptr, TRUE, FALSE);
if (found_obj)
return found_obj;
}
found_obj = NULL;
sgen_los_iterate_objects (find_object_for_ptr_callback, ptr);
if (found_obj)
return found_obj;
/*
* Very inefficient, but this is debugging code, supposed to
* be called from gdb, so we don't care.
*/
found_obj = NULL;
sgen_major_collector.iterate_objects (ITERATE_OBJECTS_SWEEP_ALL, find_object_for_ptr_callback, ptr);
return found_obj;
}
#else
void
sgen_check_for_xdomain_refs (void)
{
}
void
sgen_check_heap_marked (gboolean nursery_must_be_pinned)
{
}
void
sgen_check_major_refs (void)
{
}
void
sgen_check_mod_union_consistency (void)
{
}
void
sgen_check_nursery_objects_untag (void)
{
}
void
sgen_check_remset_consistency (void)
{
}
void
sgen_check_whole_heap (gboolean allow_missing_pinned)
{
}
void
sgen_debug_check_nursery_is_clean (void)
{
}
void
sgen_debug_dump_heap (const char *type, int num, const char *reason)
{
}
void
sgen_debug_enable_heap_dump (const char *filename)
{
}
void
sgen_debug_verify_nursery (gboolean do_dump_nursery_content)
{
}
void
sgen_dump_occupied (char *start, char *end, char *section_start)
{
}
void
sgen_scan_for_registered_roots_in_domain (MonoDomain *domain, int root_type)
{
}
#endif /*DISABLE_SGEN_DEBUG_HELPERS */
#endif /*HAVE_SGEN_GC*/
| -1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/coreclr/debug/ee/walker.h
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
//*****************************************************************************
// File: walker.h
//
//
// Debugger code stream analysis routines
//
//*****************************************************************************
#ifndef WALKER_H_
#define WALKER_H_
/* ========================================================================= */
/* ------------------------------------------------------------------------- *
* Constants
* ------------------------------------------------------------------------- */
enum WALK_TYPE
{
WALK_NEXT,
WALK_BRANCH,
WALK_COND_BRANCH,
WALK_CALL,
WALK_RETURN,
WALK_BREAK,
WALK_THROW,
WALK_META,
WALK_UNKNOWN
};
// struct holding information for the instruction being skipped over
struct InstructionAttribute
{
bool m_fIsCall; // is this a call instruction?
bool m_fIsCond; // is this a conditional jump?
bool m_fIsAbsBranch; // is this an absolute branch (either a call or a jump)?
bool m_fIsRelBranch; // is this a relative branch (either a call or a jump)?
bool m_fIsWrite; // does the instruction write to an address?
DWORD m_cbInstr; // the size of the instruction
DWORD m_cbDisp; // the size of the displacement
DWORD m_dwOffsetToDisp; // the offset from the beginning of the instruction
// to the beginning of the displacement
BYTE m_cOperandSize; // the size of the operand
void Reset()
{
m_fIsCall = false;
m_fIsCond = false;
m_fIsAbsBranch = false;
m_fIsRelBranch = false;
m_fIsWrite = false;
m_cbInstr = 0;
m_cbDisp = 0;
m_dwOffsetToDisp = 0;
m_cOperandSize = 0;
}
};
/* ------------------------------------------------------------------------- *
* Classes
* ------------------------------------------------------------------------- */
class Walker
{
protected:
Walker()
: m_type(WALK_UNKNOWN), m_registers(NULL), m_ip(0), m_skipIP(0), m_nextIP(0), m_isAbsoluteBranch(false)
{LIMITED_METHOD_CONTRACT; }
public:
virtual void Init(const BYTE *ip, REGDISPLAY *pregisters)
{
PREFIX_ASSUME(pregisters != NULL);
_ASSERTE(GetControlPC(pregisters) == (PCODE)ip);
m_registers = pregisters;
SetIP(ip);
}
const BYTE *GetIP()
{ return m_ip; }
WALK_TYPE GetOpcodeWalkType()
{ return m_type; }
const BYTE *GetSkipIP()
{ return m_skipIP; }
bool IsAbsoluteBranch()
{ return m_isAbsoluteBranch; }
const BYTE *GetNextIP()
{ return m_nextIP; }
// We don't currently keep the registers up to date
// <TODO> Check if it really works on IA64. </TODO>
virtual void Next() { m_registers = NULL; SetIP(m_nextIP); }
virtual void Skip() { m_registers = NULL; LOG((LF_CORDB, LL_INFO10000, "skipping over to %p \n", m_skipIP)); SetIP(m_skipIP); }
// Decode the instruction
virtual void Decode() = 0;
private:
void SetIP(const BYTE *ip)
{ m_ip = ip; Decode(); }
protected:
WALK_TYPE m_type; // Type of instructions
REGDISPLAY *m_registers; // Registers
const BYTE *m_ip; // Current IP
const BYTE *m_skipIP; // IP if we skip the instruction
const BYTE *m_nextIP; // IP if the instruction is taken
bool m_isAbsoluteBranch; // Is it an obsolute branch or not
};
#ifdef TARGET_X86
class NativeWalker : public Walker
{
public:
void Init(const BYTE *ip, REGDISPLAY *pregisters)
{
m_opcode = 0;
Walker::Init(ip, pregisters);
}
DWORD GetOpcode()
{ return m_opcode; }
/*
void SetRegDisplay(REGDISPLAY *registers)
{ m_registers = registers; }
*/
REGDISPLAY *GetRegDisplay()
{ return m_registers; }
void Decode();
void DecodeModRM(BYTE mod, BYTE reg, BYTE rm, const BYTE *ip);
static void DecodeInstructionForPatchSkip(const BYTE *address, InstructionAttribute * pInstrAttrib);
private:
DWORD GetRegisterValue(int registerNumber);
DWORD m_opcode; // Current instruction or opcode
};
#elif defined (TARGET_ARM)
class NativeWalker : public Walker
{
public:
void Init(const BYTE *ip, REGDISPLAY *pregisters)
{
Walker::Init(ip, pregisters);
}
void Decode();
private:
bool ConditionHolds(DWORD cond);
DWORD GetReg(DWORD reg);
};
#elif defined(TARGET_AMD64)
class NativeWalker : public Walker
{
public:
void Init(const BYTE *ip, REGDISPLAY *pregisters)
{
m_opcode = 0;
Walker::Init(ip, pregisters);
}
DWORD GetOpcode()
{ return m_opcode; }
/*
void SetRegDisplay(REGDISPLAY *registers)
{ m_registers = registers; }
*/
REGDISPLAY *GetRegDisplay()
{ return m_registers; }
void Decode();
void DecodeModRM(BYTE mod, BYTE reg, BYTE rm, const BYTE *ip);
static void DecodeInstructionForPatchSkip(const BYTE *address, InstructionAttribute * pInstrAttrib);
private:
UINT64 GetRegisterValue(int registerNumber);
DWORD m_opcode; // Current instruction or opcode
};
#elif defined (TARGET_ARM64)
#include "controller.h"
class NativeWalker : public Walker
{
public:
void Init(const BYTE *ip, REGDISPLAY *pregisters)
{
Walker::Init(ip, pregisters);
}
void Decode();
static void DecodeInstructionForPatchSkip(const BYTE *address, InstructionAttribute * pInstrAttrib)
{
pInstrAttrib->Reset();
}
static BOOL DecodePCRelativeBranchInst(PT_CONTEXT context,const PRD_TYPE& opcode, PCODE& offset, WALK_TYPE& walk);
static BOOL DecodeCallInst(const PRD_TYPE& opcode, int& RegNum, WALK_TYPE& walk);
static BYTE* SetupOrSimulateInstructionForPatchSkip(T_CONTEXT * context, SharedPatchBypassBuffer * m_pSharedPatchBypassBuffer, const BYTE *address, PRD_TYPE opcode);
};
#else
PORTABILITY_WARNING("NativeWalker not implemented on this platform");
class NativeWalker : public Walker
{
public:
void Init(const BYTE *ip, REGDISPLAY *pregisters)
{
m_opcode = 0;
Walker::Init(ip, pregisters);
}
DWORD GetOpcode()
{ return m_opcode; }
void Next()
{ Walker::Next(); }
void Skip()
{ Walker::Skip(); }
void Decode()
{
PORTABILITY_ASSERT("NativeWalker not implemented on this platform");
m_type = WALK_UNKNOWN;
m_skipIP = m_ip++;
m_nextIP = m_ip++;
}
static void DecodeInstructionForPatchSkip(const BYTE *address, InstructionAttribute * pInstrAttrib)
{
PORTABILITY_ASSERT("NativeWalker not implemented on this platform");
}
private:
DWORD m_opcode; // Current instruction or opcode
};
#endif
#endif // WALKER_H_
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
//*****************************************************************************
// File: walker.h
//
//
// Debugger code stream analysis routines
//
//*****************************************************************************
#ifndef WALKER_H_
#define WALKER_H_
/* ========================================================================= */
/* ------------------------------------------------------------------------- *
* Constants
* ------------------------------------------------------------------------- */
enum WALK_TYPE
{
WALK_NEXT,
WALK_BRANCH,
WALK_COND_BRANCH,
WALK_CALL,
WALK_RETURN,
WALK_BREAK,
WALK_THROW,
WALK_META,
WALK_UNKNOWN
};
// struct holding information for the instruction being skipped over
struct InstructionAttribute
{
bool m_fIsCall; // is this a call instruction?
bool m_fIsCond; // is this a conditional jump?
bool m_fIsAbsBranch; // is this an absolute branch (either a call or a jump)?
bool m_fIsRelBranch; // is this a relative branch (either a call or a jump)?
bool m_fIsWrite; // does the instruction write to an address?
DWORD m_cbInstr; // the size of the instruction
DWORD m_cbDisp; // the size of the displacement
DWORD m_dwOffsetToDisp; // the offset from the beginning of the instruction
// to the beginning of the displacement
BYTE m_cOperandSize; // the size of the operand
void Reset()
{
m_fIsCall = false;
m_fIsCond = false;
m_fIsAbsBranch = false;
m_fIsRelBranch = false;
m_fIsWrite = false;
m_cbInstr = 0;
m_cbDisp = 0;
m_dwOffsetToDisp = 0;
m_cOperandSize = 0;
}
};
/* ------------------------------------------------------------------------- *
* Classes
* ------------------------------------------------------------------------- */
class Walker
{
protected:
Walker()
: m_type(WALK_UNKNOWN), m_registers(NULL), m_ip(0), m_skipIP(0), m_nextIP(0), m_isAbsoluteBranch(false)
{LIMITED_METHOD_CONTRACT; }
public:
virtual void Init(const BYTE *ip, REGDISPLAY *pregisters)
{
PREFIX_ASSUME(pregisters != NULL);
_ASSERTE(GetControlPC(pregisters) == (PCODE)ip);
m_registers = pregisters;
SetIP(ip);
}
const BYTE *GetIP()
{ return m_ip; }
WALK_TYPE GetOpcodeWalkType()
{ return m_type; }
const BYTE *GetSkipIP()
{ return m_skipIP; }
bool IsAbsoluteBranch()
{ return m_isAbsoluteBranch; }
const BYTE *GetNextIP()
{ return m_nextIP; }
// We don't currently keep the registers up to date
// <TODO> Check if it really works on IA64. </TODO>
virtual void Next() { m_registers = NULL; SetIP(m_nextIP); }
virtual void Skip() { m_registers = NULL; LOG((LF_CORDB, LL_INFO10000, "skipping over to %p \n", m_skipIP)); SetIP(m_skipIP); }
// Decode the instruction
virtual void Decode() = 0;
private:
void SetIP(const BYTE *ip)
{ m_ip = ip; Decode(); }
protected:
WALK_TYPE m_type; // Type of instructions
REGDISPLAY *m_registers; // Registers
const BYTE *m_ip; // Current IP
const BYTE *m_skipIP; // IP if we skip the instruction
const BYTE *m_nextIP; // IP if the instruction is taken
bool m_isAbsoluteBranch; // Is it an obsolute branch or not
};
#ifdef TARGET_X86
class NativeWalker : public Walker
{
public:
void Init(const BYTE *ip, REGDISPLAY *pregisters)
{
m_opcode = 0;
Walker::Init(ip, pregisters);
}
DWORD GetOpcode()
{ return m_opcode; }
/*
void SetRegDisplay(REGDISPLAY *registers)
{ m_registers = registers; }
*/
REGDISPLAY *GetRegDisplay()
{ return m_registers; }
void Decode();
void DecodeModRM(BYTE mod, BYTE reg, BYTE rm, const BYTE *ip);
static void DecodeInstructionForPatchSkip(const BYTE *address, InstructionAttribute * pInstrAttrib);
private:
DWORD GetRegisterValue(int registerNumber);
DWORD m_opcode; // Current instruction or opcode
};
#elif defined (TARGET_ARM)
class NativeWalker : public Walker
{
public:
void Init(const BYTE *ip, REGDISPLAY *pregisters)
{
Walker::Init(ip, pregisters);
}
void Decode();
private:
bool ConditionHolds(DWORD cond);
DWORD GetReg(DWORD reg);
};
#elif defined(TARGET_AMD64)
class NativeWalker : public Walker
{
public:
void Init(const BYTE *ip, REGDISPLAY *pregisters)
{
m_opcode = 0;
Walker::Init(ip, pregisters);
}
DWORD GetOpcode()
{ return m_opcode; }
/*
void SetRegDisplay(REGDISPLAY *registers)
{ m_registers = registers; }
*/
REGDISPLAY *GetRegDisplay()
{ return m_registers; }
void Decode();
void DecodeModRM(BYTE mod, BYTE reg, BYTE rm, const BYTE *ip);
static void DecodeInstructionForPatchSkip(const BYTE *address, InstructionAttribute * pInstrAttrib);
private:
UINT64 GetRegisterValue(int registerNumber);
DWORD m_opcode; // Current instruction or opcode
};
#elif defined (TARGET_ARM64)
#include "controller.h"
class NativeWalker : public Walker
{
public:
void Init(const BYTE *ip, REGDISPLAY *pregisters)
{
Walker::Init(ip, pregisters);
}
void Decode();
static void DecodeInstructionForPatchSkip(const BYTE *address, InstructionAttribute * pInstrAttrib)
{
pInstrAttrib->Reset();
}
static BOOL DecodePCRelativeBranchInst(PT_CONTEXT context,const PRD_TYPE& opcode, PCODE& offset, WALK_TYPE& walk);
static BOOL DecodeCallInst(const PRD_TYPE& opcode, int& RegNum, WALK_TYPE& walk);
static BYTE* SetupOrSimulateInstructionForPatchSkip(T_CONTEXT * context, SharedPatchBypassBuffer * m_pSharedPatchBypassBuffer, const BYTE *address, PRD_TYPE opcode);
};
#else
PORTABILITY_WARNING("NativeWalker not implemented on this platform");
class NativeWalker : public Walker
{
public:
void Init(const BYTE *ip, REGDISPLAY *pregisters)
{
m_opcode = 0;
Walker::Init(ip, pregisters);
}
DWORD GetOpcode()
{ return m_opcode; }
void Next()
{ Walker::Next(); }
void Skip()
{ Walker::Skip(); }
void Decode()
{
PORTABILITY_ASSERT("NativeWalker not implemented on this platform");
m_type = WALK_UNKNOWN;
m_skipIP = m_ip++;
m_nextIP = m_ip++;
}
static void DecodeInstructionForPatchSkip(const BYTE *address, InstructionAttribute * pInstrAttrib)
{
PORTABILITY_ASSERT("NativeWalker not implemented on this platform");
}
private:
DWORD m_opcode; // Current instruction or opcode
};
#endif
#endif // WALKER_H_
| -1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/native/external/zlib/zutil.c
|
/* zutil.c -- target dependent utility functions for the compression library
* Copyright (C) 1995-2017 Jean-loup Gailly
* For conditions of distribution and use, see copyright notice in zlib.h
*/
/* @(#) $Id$ */
#include "zutil.h"
#ifndef Z_SOLO
# include "gzguts.h"
#endif
z_const char * const z_errmsg[10] = {
(z_const char *)"need dictionary", /* Z_NEED_DICT 2 */
(z_const char *)"stream end", /* Z_STREAM_END 1 */
(z_const char *)"", /* Z_OK 0 */
(z_const char *)"file error", /* Z_ERRNO (-1) */
(z_const char *)"stream error", /* Z_STREAM_ERROR (-2) */
(z_const char *)"data error", /* Z_DATA_ERROR (-3) */
(z_const char *)"insufficient memory", /* Z_MEM_ERROR (-4) */
(z_const char *)"buffer error", /* Z_BUF_ERROR (-5) */
(z_const char *)"incompatible version",/* Z_VERSION_ERROR (-6) */
(z_const char *)""
};
const char * ZEXPORT zlibVersion()
{
return ZLIB_VERSION;
}
uLong ZEXPORT zlibCompileFlags()
{
uLong flags;
flags = 0;
switch ((int)(sizeof(uInt))) {
case 2: break;
case 4: flags += 1; break;
case 8: flags += 2; break;
default: flags += 3;
}
switch ((int)(sizeof(uLong))) {
case 2: break;
case 4: flags += 1 << 2; break;
case 8: flags += 2 << 2; break;
default: flags += 3 << 2;
}
switch ((int)(sizeof(voidpf))) {
case 2: break;
case 4: flags += 1 << 4; break;
case 8: flags += 2 << 4; break;
default: flags += 3 << 4;
}
switch ((int)(sizeof(z_off_t))) {
case 2: break;
case 4: flags += 1 << 6; break;
case 8: flags += 2 << 6; break;
default: flags += 3 << 6;
}
#ifdef ZLIB_DEBUG
flags += 1 << 8;
#endif
#if defined(ASMV) || defined(ASMINF)
flags += 1 << 9;
#endif
#ifdef ZLIB_WINAPI
flags += 1 << 10;
#endif
#ifdef BUILDFIXED
flags += 1 << 12;
#endif
#ifdef DYNAMIC_CRC_TABLE
flags += 1 << 13;
#endif
#ifdef NO_GZCOMPRESS
flags += 1L << 16;
#endif
#ifdef NO_GZIP
flags += 1L << 17;
#endif
#ifdef PKZIP_BUG_WORKAROUND
flags += 1L << 20;
#endif
#ifdef FASTEST
flags += 1L << 21;
#endif
#if defined(STDC) || defined(Z_HAVE_STDARG_H)
# ifdef NO_vsnprintf
flags += 1L << 25;
# ifdef HAS_vsprintf_void
flags += 1L << 26;
# endif
# else
# ifdef HAS_vsnprintf_void
flags += 1L << 26;
# endif
# endif
#else
flags += 1L << 24;
# ifdef NO_snprintf
flags += 1L << 25;
# ifdef HAS_sprintf_void
flags += 1L << 26;
# endif
# else
# ifdef HAS_snprintf_void
flags += 1L << 26;
# endif
# endif
#endif
return flags;
}
#ifdef ZLIB_DEBUG
#include <stdlib.h>
# ifndef verbose
# define verbose 0
# endif
int ZLIB_INTERNAL z_verbose = verbose;
void ZLIB_INTERNAL z_error (m)
char *m;
{
fprintf(stderr, "%s\n", m);
exit(1);
}
#endif
/* exported to allow conversion of error code to string for compress() and
* uncompress()
*/
const char * ZEXPORT zError(err)
int err;
{
return ERR_MSG(err);
}
#if defined(_WIN32_WCE)
/* The Microsoft C Run-Time Library for Windows CE doesn't have
* errno. We define it as a global variable to simplify porting.
* Its value is always 0 and should not be used.
*/
int errno = 0;
#endif
#ifndef HAVE_MEMCPY
void ZLIB_INTERNAL zmemcpy(dest, source, len)
Bytef* dest;
const Bytef* source;
uInt len;
{
if (len == 0) return;
do {
*dest++ = *source++; /* ??? to be unrolled */
} while (--len != 0);
}
int ZLIB_INTERNAL zmemcmp(s1, s2, len)
const Bytef* s1;
const Bytef* s2;
uInt len;
{
uInt j;
for (j = 0; j < len; j++) {
if (s1[j] != s2[j]) return 2*(s1[j] > s2[j])-1;
}
return 0;
}
void ZLIB_INTERNAL zmemzero(dest, len)
Bytef* dest;
uInt len;
{
if (len == 0) return;
do {
*dest++ = 0; /* ??? to be unrolled */
} while (--len != 0);
}
#endif
#ifndef Z_SOLO
#ifdef SYS16BIT
#ifdef __TURBOC__
/* Turbo C in 16-bit mode */
# define MY_ZCALLOC
/* Turbo C malloc() does not allow dynamic allocation of 64K bytes
* and farmalloc(64K) returns a pointer with an offset of 8, so we
* must fix the pointer. Warning: the pointer must be put back to its
* original form in order to free it, use zcfree().
*/
#define MAX_PTR 10
/* 10*64K = 640K */
local int next_ptr = 0;
typedef struct ptr_table_s {
voidpf org_ptr;
voidpf new_ptr;
} ptr_table;
local ptr_table table[MAX_PTR];
/* This table is used to remember the original form of pointers
* to large buffers (64K). Such pointers are normalized with a zero offset.
* Since MSDOS is not a preemptive multitasking OS, this table is not
* protected from concurrent access. This hack doesn't work anyway on
* a protected system like OS/2. Use Microsoft C instead.
*/
voidpf ZLIB_INTERNAL zcalloc (voidpf opaque, unsigned items, unsigned size)
{
voidpf buf;
ulg bsize = (ulg)items*size;
(void)opaque;
/* If we allocate less than 65520 bytes, we assume that farmalloc
* will return a usable pointer which doesn't have to be normalized.
*/
if (bsize < 65520L) {
buf = farmalloc(bsize);
if (*(ush*)&buf != 0) return buf;
} else {
buf = farmalloc(bsize + 16L);
}
if (buf == NULL || next_ptr >= MAX_PTR) return NULL;
table[next_ptr].org_ptr = buf;
/* Normalize the pointer to seg:0 */
*((ush*)&buf+1) += ((ush)((uch*)buf-0) + 15) >> 4;
*(ush*)&buf = 0;
table[next_ptr++].new_ptr = buf;
return buf;
}
void ZLIB_INTERNAL zcfree (voidpf opaque, voidpf ptr)
{
int n;
(void)opaque;
if (*(ush*)&ptr != 0) { /* object < 64K */
farfree(ptr);
return;
}
/* Find the original pointer */
for (n = 0; n < next_ptr; n++) {
if (ptr != table[n].new_ptr) continue;
farfree(table[n].org_ptr);
while (++n < next_ptr) {
table[n-1] = table[n];
}
next_ptr--;
return;
}
Assert(0, "zcfree: ptr not found");
}
#endif /* __TURBOC__ */
#ifdef M_I86
/* Microsoft C in 16-bit mode */
# define MY_ZCALLOC
#if (!defined(_MSC_VER) || (_MSC_VER <= 600))
# define _halloc halloc
# define _hfree hfree
#endif
voidpf ZLIB_INTERNAL zcalloc (voidpf opaque, uInt items, uInt size)
{
(void)opaque;
return _halloc((long)items, size);
}
void ZLIB_INTERNAL zcfree (voidpf opaque, voidpf ptr)
{
(void)opaque;
_hfree(ptr);
}
#endif /* M_I86 */
#endif /* SYS16BIT */
#ifndef MY_ZCALLOC /* Any system without a special alloc function */
#ifndef STDC
extern voidp malloc OF((uInt size));
extern voidp calloc OF((uInt items, uInt size));
extern void free OF((voidpf ptr));
#endif
voidpf ZLIB_INTERNAL zcalloc (opaque, items, size)
voidpf opaque;
unsigned items;
unsigned size;
{
(void)opaque;
return sizeof(uInt) > 2 ? (voidpf)malloc(items * size) :
(voidpf)calloc(items, size);
}
void ZLIB_INTERNAL zcfree (opaque, ptr)
voidpf opaque;
voidpf ptr;
{
(void)opaque;
free(ptr);
}
#endif /* MY_ZCALLOC */
#endif /* !Z_SOLO */
|
/* zutil.c -- target dependent utility functions for the compression library
* Copyright (C) 1995-2017 Jean-loup Gailly
* For conditions of distribution and use, see copyright notice in zlib.h
*/
/* @(#) $Id$ */
#include "zutil.h"
#ifndef Z_SOLO
# include "gzguts.h"
#endif
z_const char * const z_errmsg[10] = {
(z_const char *)"need dictionary", /* Z_NEED_DICT 2 */
(z_const char *)"stream end", /* Z_STREAM_END 1 */
(z_const char *)"", /* Z_OK 0 */
(z_const char *)"file error", /* Z_ERRNO (-1) */
(z_const char *)"stream error", /* Z_STREAM_ERROR (-2) */
(z_const char *)"data error", /* Z_DATA_ERROR (-3) */
(z_const char *)"insufficient memory", /* Z_MEM_ERROR (-4) */
(z_const char *)"buffer error", /* Z_BUF_ERROR (-5) */
(z_const char *)"incompatible version",/* Z_VERSION_ERROR (-6) */
(z_const char *)""
};
const char * ZEXPORT zlibVersion()
{
return ZLIB_VERSION;
}
uLong ZEXPORT zlibCompileFlags()
{
uLong flags;
flags = 0;
switch ((int)(sizeof(uInt))) {
case 2: break;
case 4: flags += 1; break;
case 8: flags += 2; break;
default: flags += 3;
}
switch ((int)(sizeof(uLong))) {
case 2: break;
case 4: flags += 1 << 2; break;
case 8: flags += 2 << 2; break;
default: flags += 3 << 2;
}
switch ((int)(sizeof(voidpf))) {
case 2: break;
case 4: flags += 1 << 4; break;
case 8: flags += 2 << 4; break;
default: flags += 3 << 4;
}
switch ((int)(sizeof(z_off_t))) {
case 2: break;
case 4: flags += 1 << 6; break;
case 8: flags += 2 << 6; break;
default: flags += 3 << 6;
}
#ifdef ZLIB_DEBUG
flags += 1 << 8;
#endif
#if defined(ASMV) || defined(ASMINF)
flags += 1 << 9;
#endif
#ifdef ZLIB_WINAPI
flags += 1 << 10;
#endif
#ifdef BUILDFIXED
flags += 1 << 12;
#endif
#ifdef DYNAMIC_CRC_TABLE
flags += 1 << 13;
#endif
#ifdef NO_GZCOMPRESS
flags += 1L << 16;
#endif
#ifdef NO_GZIP
flags += 1L << 17;
#endif
#ifdef PKZIP_BUG_WORKAROUND
flags += 1L << 20;
#endif
#ifdef FASTEST
flags += 1L << 21;
#endif
#if defined(STDC) || defined(Z_HAVE_STDARG_H)
# ifdef NO_vsnprintf
flags += 1L << 25;
# ifdef HAS_vsprintf_void
flags += 1L << 26;
# endif
# else
# ifdef HAS_vsnprintf_void
flags += 1L << 26;
# endif
# endif
#else
flags += 1L << 24;
# ifdef NO_snprintf
flags += 1L << 25;
# ifdef HAS_sprintf_void
flags += 1L << 26;
# endif
# else
# ifdef HAS_snprintf_void
flags += 1L << 26;
# endif
# endif
#endif
return flags;
}
#ifdef ZLIB_DEBUG
#include <stdlib.h>
# ifndef verbose
# define verbose 0
# endif
int ZLIB_INTERNAL z_verbose = verbose;
void ZLIB_INTERNAL z_error (m)
char *m;
{
fprintf(stderr, "%s\n", m);
exit(1);
}
#endif
/* exported to allow conversion of error code to string for compress() and
* uncompress()
*/
const char * ZEXPORT zError(err)
int err;
{
return ERR_MSG(err);
}
#if defined(_WIN32_WCE)
/* The Microsoft C Run-Time Library for Windows CE doesn't have
* errno. We define it as a global variable to simplify porting.
* Its value is always 0 and should not be used.
*/
int errno = 0;
#endif
#ifndef HAVE_MEMCPY
void ZLIB_INTERNAL zmemcpy(dest, source, len)
Bytef* dest;
const Bytef* source;
uInt len;
{
if (len == 0) return;
do {
*dest++ = *source++; /* ??? to be unrolled */
} while (--len != 0);
}
int ZLIB_INTERNAL zmemcmp(s1, s2, len)
const Bytef* s1;
const Bytef* s2;
uInt len;
{
uInt j;
for (j = 0; j < len; j++) {
if (s1[j] != s2[j]) return 2*(s1[j] > s2[j])-1;
}
return 0;
}
void ZLIB_INTERNAL zmemzero(dest, len)
Bytef* dest;
uInt len;
{
if (len == 0) return;
do {
*dest++ = 0; /* ??? to be unrolled */
} while (--len != 0);
}
#endif
#ifndef Z_SOLO
#ifdef SYS16BIT
#ifdef __TURBOC__
/* Turbo C in 16-bit mode */
# define MY_ZCALLOC
/* Turbo C malloc() does not allow dynamic allocation of 64K bytes
* and farmalloc(64K) returns a pointer with an offset of 8, so we
* must fix the pointer. Warning: the pointer must be put back to its
* original form in order to free it, use zcfree().
*/
#define MAX_PTR 10
/* 10*64K = 640K */
local int next_ptr = 0;
typedef struct ptr_table_s {
voidpf org_ptr;
voidpf new_ptr;
} ptr_table;
local ptr_table table[MAX_PTR];
/* This table is used to remember the original form of pointers
* to large buffers (64K). Such pointers are normalized with a zero offset.
* Since MSDOS is not a preemptive multitasking OS, this table is not
* protected from concurrent access. This hack doesn't work anyway on
* a protected system like OS/2. Use Microsoft C instead.
*/
voidpf ZLIB_INTERNAL zcalloc (voidpf opaque, unsigned items, unsigned size)
{
voidpf buf;
ulg bsize = (ulg)items*size;
(void)opaque;
/* If we allocate less than 65520 bytes, we assume that farmalloc
* will return a usable pointer which doesn't have to be normalized.
*/
if (bsize < 65520L) {
buf = farmalloc(bsize);
if (*(ush*)&buf != 0) return buf;
} else {
buf = farmalloc(bsize + 16L);
}
if (buf == NULL || next_ptr >= MAX_PTR) return NULL;
table[next_ptr].org_ptr = buf;
/* Normalize the pointer to seg:0 */
*((ush*)&buf+1) += ((ush)((uch*)buf-0) + 15) >> 4;
*(ush*)&buf = 0;
table[next_ptr++].new_ptr = buf;
return buf;
}
void ZLIB_INTERNAL zcfree (voidpf opaque, voidpf ptr)
{
int n;
(void)opaque;
if (*(ush*)&ptr != 0) { /* object < 64K */
farfree(ptr);
return;
}
/* Find the original pointer */
for (n = 0; n < next_ptr; n++) {
if (ptr != table[n].new_ptr) continue;
farfree(table[n].org_ptr);
while (++n < next_ptr) {
table[n-1] = table[n];
}
next_ptr--;
return;
}
Assert(0, "zcfree: ptr not found");
}
#endif /* __TURBOC__ */
#ifdef M_I86
/* Microsoft C in 16-bit mode */
# define MY_ZCALLOC
#if (!defined(_MSC_VER) || (_MSC_VER <= 600))
# define _halloc halloc
# define _hfree hfree
#endif
voidpf ZLIB_INTERNAL zcalloc (voidpf opaque, uInt items, uInt size)
{
(void)opaque;
return _halloc((long)items, size);
}
void ZLIB_INTERNAL zcfree (voidpf opaque, voidpf ptr)
{
(void)opaque;
_hfree(ptr);
}
#endif /* M_I86 */
#endif /* SYS16BIT */
#ifndef MY_ZCALLOC /* Any system without a special alloc function */
#ifndef STDC
extern voidp malloc OF((uInt size));
extern voidp calloc OF((uInt items, uInt size));
extern void free OF((voidpf ptr));
#endif
voidpf ZLIB_INTERNAL zcalloc (opaque, items, size)
voidpf opaque;
unsigned items;
unsigned size;
{
(void)opaque;
return sizeof(uInt) > 2 ? (voidpf)malloc(items * size) :
(voidpf)calloc(items, size);
}
void ZLIB_INTERNAL zcfree (opaque, ptr)
voidpf opaque;
voidpf ptr;
{
(void)opaque;
free(ptr);
}
#endif /* MY_ZCALLOC */
#endif /* !Z_SOLO */
| -1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/coreclr/pal/src/libunwind/src/dwarf/Lfind_proc_info-lsb.c
|
#define UNW_LOCAL_ONLY
#include <libunwind.h>
#if defined(UNW_LOCAL_ONLY) && !defined(UNW_REMOTE_ONLY)
#include "Gfind_proc_info-lsb.c"
#endif
|
#define UNW_LOCAL_ONLY
#include <libunwind.h>
#if defined(UNW_LOCAL_ONLY) && !defined(UNW_REMOTE_ONLY)
#include "Gfind_proc_info-lsb.c"
#endif
| -1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/native/libs/System.Native/pal_uid.c
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
#include "pal_config.h"
#include "pal_uid.h"
#include "pal_utilities.h"
#include <assert.h>
#include <errno.h>
#include <stdlib.h>
#include <unistd.h>
#include <sys/types.h>
#include <grp.h>
#include <pwd.h>
// Linux c-libraries (glibc, musl) provide a thread-safe getgrouplist.
// OSX man page mentions explicitly the implementation is not thread safe,
// due to using getgrent.
#ifndef __linux__
#define USE_GROUPLIST_LOCK
#endif
#ifdef USE_GROUPLIST_LOCK
#include <pthread.h>
#endif
static int32_t ConvertNativePasswdToPalPasswd(int error, struct passwd* nativePwd, struct passwd* result, Passwd* pwd)
{
// positive error number returned -> failure other than entry-not-found
if (error != 0)
{
assert(error > 0);
memset(pwd, 0, sizeof(Passwd)); // managed out param must be initialized
return error;
}
// 0 returned with null result -> entry-not-found
if (result == NULL)
{
memset(pwd, 0, sizeof(Passwd)); // managed out param must be initialized
return -1; // shim convention for entry-not-found
}
// 0 returned with non-null result (guaranteed to be set to pwd arg) -> success
assert(result == nativePwd);
pwd->Name = nativePwd->pw_name;
pwd->Password = nativePwd->pw_passwd;
pwd->UserId = nativePwd->pw_uid;
pwd->GroupId = nativePwd->pw_gid;
pwd->UserInfo = nativePwd->pw_gecos;
pwd->HomeDirectory = nativePwd->pw_dir;
pwd->Shell = nativePwd->pw_shell;
return 0;
}
int32_t SystemNative_GetPwUidR(uint32_t uid, Passwd* pwd, char* buf, int32_t buflen)
{
assert(pwd != NULL);
assert(buf != NULL);
assert(buflen >= 0);
if (buflen < 0)
return EINVAL;
struct passwd nativePwd;
struct passwd* result;
int error;
while ((error = getpwuid_r(uid, &nativePwd, buf, Int32ToSizeT(buflen), &result)) == EINTR);
return ConvertNativePasswdToPalPasswd(error, &nativePwd, result, pwd);
}
int32_t SystemNative_GetPwNamR(const char* name, Passwd* pwd, char* buf, int32_t buflen)
{
assert(pwd != NULL);
assert(buf != NULL);
assert(buflen >= 0);
if (buflen < 0)
return EINVAL;
struct passwd nativePwd;
struct passwd* result;
int error;
while ((error = getpwnam_r(name, &nativePwd, buf, Int32ToSizeT(buflen), &result)) == EINTR);
return ConvertNativePasswdToPalPasswd(error, &nativePwd, result, pwd);
}
uint32_t SystemNative_GetEUid()
{
return geteuid();
}
uint32_t SystemNative_GetEGid()
{
return getegid();
}
int32_t SystemNative_SetEUid(uint32_t euid)
{
return seteuid(euid);
}
#ifdef USE_GROUPLIST_LOCK
static pthread_mutex_t s_groupLock = PTHREAD_MUTEX_INITIALIZER;
#endif
#if !HAVE_GETGROUPLIST
int getgrouplist(const char *uname, gid_t agroup, gid_t *groups, int *groupCount)
{
int ngroups = 1;
int maxgroups = *groupCount;
if (groups)
{
groups[ngroups] = agroup;
}
if (maxgroups > 1)
{
if (groups)
groups[ngroups++] = agroup;
else
ngroups++;
}
setgrent();
int i;
int result = 0;
const struct group *group;
while ((group = getgrent()) != NULL)
{
if (groups)
{
bool found = false;
for (i = 0; i < ngroups; i++)
{
if (group->gr_gid == groups[i])
{
found = true;
break;
}
}
if (found)
break;
}
for (i = 0; group->gr_mem[i]; i++)
{
if (!strcmp(group->gr_mem[i], uname))
{
if (ngroups >= maxgroups)
{
result = -1;
break;
}
if (groups)
groups[ngroups++] = group->gr_gid;
else
ngroups++;
break;
}
}
}
endgrent();
*groupCount = ngroups;
return result;
}
#endif
int32_t SystemNative_GetGroupList(const char* name, uint32_t group, uint32_t* groups, int32_t* ngroups)
{
assert(name != NULL);
assert(groups != NULL);
assert(ngroups != NULL);
assert(*ngroups >= 0);
// The man page of getgrouplist doesn't explicitly mention the use of errno on error.
// glibc and musl implementation look like they return -1 for functions that fail with errno set.
// To be safe, we'll assume errno is set on error and handle EINTR.
int rv;
int groupsAvailable;
do
{
errno = 0;
groupsAvailable = *ngroups;
#ifdef USE_GROUPLIST_LOCK
rv = pthread_mutex_lock(&s_groupLock);
if (rv != 0)
{
errno = rv;
rv = -1;
break;
}
#endif
#ifdef __APPLE__
// On OSX groups are passed as a signed int.
rv = getgrouplist(name, (int)group, (int*)groups, &groupsAvailable);
#else
rv = getgrouplist(name, group, groups, &groupsAvailable);
#endif
#ifdef USE_GROUPLIST_LOCK
pthread_mutex_unlock(&s_groupLock);
#endif
// Check if the buffer is too small.
if (rv == -1 &&
(// if ngroups was updated to a higher value, the buffer was too small.
(groupsAvailable > *ngroups) ||
// OSX doesn't update ngroups when the buffer is too small.
// musl doesn't update ngroups when it encounters an error.
(groupsAvailable == *ngroups && errno == 0)))
{
// return an increased value for ngroups.
*ngroups = groupsAvailable > *ngroups ? groupsAvailable : *ngroups * 2;
return rv;
}
} while (rv == -1 && errno == EINTR);
*ngroups = rv >= 0 ? groupsAvailable : -1;
return rv;
}
int32_t SystemNative_GetGroups(int32_t ngroups, uint32_t* groups)
{
assert(ngroups >= 0);
assert(groups != NULL);
return getgroups(ngroups, groups);
}
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
#include "pal_config.h"
#include "pal_uid.h"
#include "pal_utilities.h"
#include <assert.h>
#include <errno.h>
#include <stdlib.h>
#include <unistd.h>
#include <sys/types.h>
#include <grp.h>
#include <pwd.h>
// Linux c-libraries (glibc, musl) provide a thread-safe getgrouplist.
// OSX man page mentions explicitly the implementation is not thread safe,
// due to using getgrent.
#ifndef __linux__
#define USE_GROUPLIST_LOCK
#endif
#ifdef USE_GROUPLIST_LOCK
#include <pthread.h>
#endif
static int32_t ConvertNativePasswdToPalPasswd(int error, struct passwd* nativePwd, struct passwd* result, Passwd* pwd)
{
// positive error number returned -> failure other than entry-not-found
if (error != 0)
{
assert(error > 0);
memset(pwd, 0, sizeof(Passwd)); // managed out param must be initialized
return error;
}
// 0 returned with null result -> entry-not-found
if (result == NULL)
{
memset(pwd, 0, sizeof(Passwd)); // managed out param must be initialized
return -1; // shim convention for entry-not-found
}
// 0 returned with non-null result (guaranteed to be set to pwd arg) -> success
assert(result == nativePwd);
pwd->Name = nativePwd->pw_name;
pwd->Password = nativePwd->pw_passwd;
pwd->UserId = nativePwd->pw_uid;
pwd->GroupId = nativePwd->pw_gid;
pwd->UserInfo = nativePwd->pw_gecos;
pwd->HomeDirectory = nativePwd->pw_dir;
pwd->Shell = nativePwd->pw_shell;
return 0;
}
int32_t SystemNative_GetPwUidR(uint32_t uid, Passwd* pwd, char* buf, int32_t buflen)
{
assert(pwd != NULL);
assert(buf != NULL);
assert(buflen >= 0);
if (buflen < 0)
return EINVAL;
struct passwd nativePwd;
struct passwd* result;
int error;
while ((error = getpwuid_r(uid, &nativePwd, buf, Int32ToSizeT(buflen), &result)) == EINTR);
return ConvertNativePasswdToPalPasswd(error, &nativePwd, result, pwd);
}
int32_t SystemNative_GetPwNamR(const char* name, Passwd* pwd, char* buf, int32_t buflen)
{
assert(pwd != NULL);
assert(buf != NULL);
assert(buflen >= 0);
if (buflen < 0)
return EINVAL;
struct passwd nativePwd;
struct passwd* result;
int error;
while ((error = getpwnam_r(name, &nativePwd, buf, Int32ToSizeT(buflen), &result)) == EINTR);
return ConvertNativePasswdToPalPasswd(error, &nativePwd, result, pwd);
}
uint32_t SystemNative_GetEUid()
{
return geteuid();
}
uint32_t SystemNative_GetEGid()
{
return getegid();
}
int32_t SystemNative_SetEUid(uint32_t euid)
{
return seteuid(euid);
}
#ifdef USE_GROUPLIST_LOCK
static pthread_mutex_t s_groupLock = PTHREAD_MUTEX_INITIALIZER;
#endif
#if !HAVE_GETGROUPLIST
int getgrouplist(const char *uname, gid_t agroup, gid_t *groups, int *groupCount)
{
int ngroups = 1;
int maxgroups = *groupCount;
if (groups)
{
groups[ngroups] = agroup;
}
if (maxgroups > 1)
{
if (groups)
groups[ngroups++] = agroup;
else
ngroups++;
}
setgrent();
int i;
int result = 0;
const struct group *group;
while ((group = getgrent()) != NULL)
{
if (groups)
{
bool found = false;
for (i = 0; i < ngroups; i++)
{
if (group->gr_gid == groups[i])
{
found = true;
break;
}
}
if (found)
break;
}
for (i = 0; group->gr_mem[i]; i++)
{
if (!strcmp(group->gr_mem[i], uname))
{
if (ngroups >= maxgroups)
{
result = -1;
break;
}
if (groups)
groups[ngroups++] = group->gr_gid;
else
ngroups++;
break;
}
}
}
endgrent();
*groupCount = ngroups;
return result;
}
#endif
int32_t SystemNative_GetGroupList(const char* name, uint32_t group, uint32_t* groups, int32_t* ngroups)
{
assert(name != NULL);
assert(groups != NULL);
assert(ngroups != NULL);
assert(*ngroups >= 0);
// The man page of getgrouplist doesn't explicitly mention the use of errno on error.
// glibc and musl implementation look like they return -1 for functions that fail with errno set.
// To be safe, we'll assume errno is set on error and handle EINTR.
int rv;
int groupsAvailable;
do
{
errno = 0;
groupsAvailable = *ngroups;
#ifdef USE_GROUPLIST_LOCK
rv = pthread_mutex_lock(&s_groupLock);
if (rv != 0)
{
errno = rv;
rv = -1;
break;
}
#endif
#ifdef __APPLE__
// On OSX groups are passed as a signed int.
rv = getgrouplist(name, (int)group, (int*)groups, &groupsAvailable);
#else
rv = getgrouplist(name, group, groups, &groupsAvailable);
#endif
#ifdef USE_GROUPLIST_LOCK
pthread_mutex_unlock(&s_groupLock);
#endif
// Check if the buffer is too small.
if (rv == -1 &&
(// if ngroups was updated to a higher value, the buffer was too small.
(groupsAvailable > *ngroups) ||
// OSX doesn't update ngroups when the buffer is too small.
// musl doesn't update ngroups when it encounters an error.
(groupsAvailable == *ngroups && errno == 0)))
{
// return an increased value for ngroups.
*ngroups = groupsAvailable > *ngroups ? groupsAvailable : *ngroups * 2;
return rv;
}
} while (rv == -1 && errno == EINTR);
*ngroups = rv >= 0 ? groupsAvailable : -1;
return rv;
}
int32_t SystemNative_GetGroups(int32_t ngroups, uint32_t* groups)
{
assert(ngroups >= 0);
assert(groups != NULL);
return getgroups(ngroups, groups);
}
| -1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/coreclr/pal/src/libunwind/include/tdep-x86_64/dwarf-config.h
|
/* libunwind - a platform-independent unwind library
Copyright (c) 2003, 2005 Hewlett-Packard Development Company, L.P.
Contributed by David Mosberger-Tang <[email protected]>
Modified for x86_64 by Max Asbock <[email protected]>
This file is part of libunwind.
Permission is hereby granted, free of charge, to any person obtaining
a copy of this software and associated documentation files (the
"Software"), to deal in the Software without restriction, including
without limitation the rights to use, copy, modify, merge, publish,
distribute, sublicense, and/or sell copies of the Software, and to
permit persons to whom the Software is furnished to do so, subject to
the following conditions:
The above copyright notice and this permission notice shall be
included in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */
/* copy of include/tdep-x86/dwarf-config.h, modified slightly for x86-64
some consolidation is possible here */
#ifndef dwarf_config_h
#define dwarf_config_h
/* XXX need to verify if this value is correct */
#ifdef CONFIG_MSABI_SUPPORT
#define DWARF_NUM_PRESERVED_REGS 33
#else
#define DWARF_NUM_PRESERVED_REGS 17
#endif
#define DWARF_REGNUM_MAP_LENGTH DWARF_NUM_PRESERVED_REGS
/* Return TRUE if the ADDR_SPACE uses big-endian byte-order. */
#define dwarf_is_big_endian(addr_space) 0
/* Convert a pointer to a dwarf_cursor structure to a pointer to
unw_cursor_t. */
#define dwarf_to_cursor(c) ((unw_cursor_t *) (c))
typedef struct dwarf_loc
{
unw_word_t val;
unw_word_t type; /* see X86_LOC_TYPE_* macros. */
}
dwarf_loc_t;
#endif /* dwarf_config_h */
|
/* libunwind - a platform-independent unwind library
Copyright (c) 2003, 2005 Hewlett-Packard Development Company, L.P.
Contributed by David Mosberger-Tang <[email protected]>
Modified for x86_64 by Max Asbock <[email protected]>
This file is part of libunwind.
Permission is hereby granted, free of charge, to any person obtaining
a copy of this software and associated documentation files (the
"Software"), to deal in the Software without restriction, including
without limitation the rights to use, copy, modify, merge, publish,
distribute, sublicense, and/or sell copies of the Software, and to
permit persons to whom the Software is furnished to do so, subject to
the following conditions:
The above copyright notice and this permission notice shall be
included in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */
/* copy of include/tdep-x86/dwarf-config.h, modified slightly for x86-64
some consolidation is possible here */
#ifndef dwarf_config_h
#define dwarf_config_h
/* XXX need to verify if this value is correct */
#ifdef CONFIG_MSABI_SUPPORT
#define DWARF_NUM_PRESERVED_REGS 33
#else
#define DWARF_NUM_PRESERVED_REGS 17
#endif
#define DWARF_REGNUM_MAP_LENGTH DWARF_NUM_PRESERVED_REGS
/* Return TRUE if the ADDR_SPACE uses big-endian byte-order. */
#define dwarf_is_big_endian(addr_space) 0
/* Convert a pointer to a dwarf_cursor structure to a pointer to
unw_cursor_t. */
#define dwarf_to_cursor(c) ((unw_cursor_t *) (c))
typedef struct dwarf_loc
{
unw_word_t val;
unw_word_t type; /* see X86_LOC_TYPE_* macros. */
}
dwarf_loc_t;
#endif /* dwarf_config_h */
| -1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/native/external/zlib/uncompr.c
|
/* uncompr.c -- decompress a memory buffer
* Copyright (C) 1995-2003, 2010, 2014, 2016 Jean-loup Gailly, Mark Adler
* For conditions of distribution and use, see copyright notice in zlib.h
*/
/* @(#) $Id$ */
#define ZLIB_INTERNAL
#include "zlib.h"
/* ===========================================================================
Decompresses the source buffer into the destination buffer. *sourceLen is
the byte length of the source buffer. Upon entry, *destLen is the total size
of the destination buffer, which must be large enough to hold the entire
uncompressed data. (The size of the uncompressed data must have been saved
previously by the compressor and transmitted to the decompressor by some
mechanism outside the scope of this compression library.) Upon exit,
*destLen is the size of the decompressed data and *sourceLen is the number
of source bytes consumed. Upon return, source + *sourceLen points to the
first unused input byte.
uncompress returns Z_OK if success, Z_MEM_ERROR if there was not enough
memory, Z_BUF_ERROR if there was not enough room in the output buffer, or
Z_DATA_ERROR if the input data was corrupted, including if the input data is
an incomplete zlib stream.
*/
int ZEXPORT uncompress2 (dest, destLen, source, sourceLen)
Bytef *dest;
uLongf *destLen;
const Bytef *source;
uLong *sourceLen;
{
z_stream stream;
int err;
const uInt max = (uInt)-1;
uLong len, left;
Byte buf[1]; /* for detection of incomplete stream when *destLen == 0 */
len = *sourceLen;
if (*destLen) {
left = *destLen;
*destLen = 0;
}
else {
left = 1;
dest = buf;
}
stream.next_in = (z_const Bytef *)source;
stream.avail_in = 0;
stream.zalloc = (alloc_func)0;
stream.zfree = (free_func)0;
stream.opaque = (voidpf)0;
err = inflateInit(&stream);
if (err != Z_OK) return err;
stream.next_out = dest;
stream.avail_out = 0;
do {
if (stream.avail_out == 0) {
stream.avail_out = left > (uLong)max ? max : (uInt)left;
left -= stream.avail_out;
}
if (stream.avail_in == 0) {
stream.avail_in = len > (uLong)max ? max : (uInt)len;
len -= stream.avail_in;
}
err = inflate(&stream, Z_NO_FLUSH);
} while (err == Z_OK);
*sourceLen -= len + stream.avail_in;
if (dest != buf)
*destLen = stream.total_out;
else if (stream.total_out && err == Z_BUF_ERROR)
left = 1;
inflateEnd(&stream);
return err == Z_STREAM_END ? Z_OK :
err == Z_NEED_DICT ? Z_DATA_ERROR :
err == Z_BUF_ERROR && left + stream.avail_out ? Z_DATA_ERROR :
err;
}
int ZEXPORT uncompress (dest, destLen, source, sourceLen)
Bytef *dest;
uLongf *destLen;
const Bytef *source;
uLong sourceLen;
{
return uncompress2(dest, destLen, source, &sourceLen);
}
|
/* uncompr.c -- decompress a memory buffer
* Copyright (C) 1995-2003, 2010, 2014, 2016 Jean-loup Gailly, Mark Adler
* For conditions of distribution and use, see copyright notice in zlib.h
*/
/* @(#) $Id$ */
#define ZLIB_INTERNAL
#include "zlib.h"
/* ===========================================================================
Decompresses the source buffer into the destination buffer. *sourceLen is
the byte length of the source buffer. Upon entry, *destLen is the total size
of the destination buffer, which must be large enough to hold the entire
uncompressed data. (The size of the uncompressed data must have been saved
previously by the compressor and transmitted to the decompressor by some
mechanism outside the scope of this compression library.) Upon exit,
*destLen is the size of the decompressed data and *sourceLen is the number
of source bytes consumed. Upon return, source + *sourceLen points to the
first unused input byte.
uncompress returns Z_OK if success, Z_MEM_ERROR if there was not enough
memory, Z_BUF_ERROR if there was not enough room in the output buffer, or
Z_DATA_ERROR if the input data was corrupted, including if the input data is
an incomplete zlib stream.
*/
int ZEXPORT uncompress2 (dest, destLen, source, sourceLen)
Bytef *dest;
uLongf *destLen;
const Bytef *source;
uLong *sourceLen;
{
z_stream stream;
int err;
const uInt max = (uInt)-1;
uLong len, left;
Byte buf[1]; /* for detection of incomplete stream when *destLen == 0 */
len = *sourceLen;
if (*destLen) {
left = *destLen;
*destLen = 0;
}
else {
left = 1;
dest = buf;
}
stream.next_in = (z_const Bytef *)source;
stream.avail_in = 0;
stream.zalloc = (alloc_func)0;
stream.zfree = (free_func)0;
stream.opaque = (voidpf)0;
err = inflateInit(&stream);
if (err != Z_OK) return err;
stream.next_out = dest;
stream.avail_out = 0;
do {
if (stream.avail_out == 0) {
stream.avail_out = left > (uLong)max ? max : (uInt)left;
left -= stream.avail_out;
}
if (stream.avail_in == 0) {
stream.avail_in = len > (uLong)max ? max : (uInt)len;
len -= stream.avail_in;
}
err = inflate(&stream, Z_NO_FLUSH);
} while (err == Z_OK);
*sourceLen -= len + stream.avail_in;
if (dest != buf)
*destLen = stream.total_out;
else if (stream.total_out && err == Z_BUF_ERROR)
left = 1;
inflateEnd(&stream);
return err == Z_STREAM_END ? Z_OK :
err == Z_NEED_DICT ? Z_DATA_ERROR :
err == Z_BUF_ERROR && left + stream.avail_out ? Z_DATA_ERROR :
err;
}
int ZEXPORT uncompress (dest, destLen, source, sourceLen)
Bytef *dest;
uLongf *destLen;
const Bytef *source;
uLong sourceLen;
{
return uncompress2(dest, destLen, source, &sourceLen);
}
| -1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/coreclr/md/export.h
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
//
// File: export.h
//
//
// Popular types/macros defined in MetaData directory (no subdirectories).
// It's supposed to be included from other subcomponents (i.e. subdirectories), not from this directory.
//
// ======================================================================================
#pragma once
#include "debug_metadata.h"
#include "errors_metadata.h"
#include "datablob.h"
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
//
// File: export.h
//
//
// Popular types/macros defined in MetaData directory (no subdirectories).
// It's supposed to be included from other subcomponents (i.e. subdirectories), not from this directory.
//
// ======================================================================================
#pragma once
#include "debug_metadata.h"
#include "errors_metadata.h"
#include "datablob.h"
| -1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/coreclr/vm/delegateinfo.h
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
/*============================================================
**
** Header: DelegateInfo.h
**
**
** Purpose: Native methods on System.ThreadPool
** and its inner classes
**
**
===========================================================*/
#ifndef DELEGATE_INFO
#define DELEGATE_INFO
struct DelegateInfo;
typedef DelegateInfo* DelegateInfoPtr;
struct DelegateInfo
{
OBJECTHANDLE m_stateHandle;
OBJECTHANDLE m_eventHandle;
OBJECTHANDLE m_registeredWaitHandle;
#ifndef DACCESS_COMPILE
void Release()
{
CONTRACTL {
// m_compressedStack->Release() can actually throw today because it has got a call
// to new down the stack. However that is recent and the semantic of that api is such
// it should not throw. I am expecting clenup of that function to take care of that
// so I am adding this comment to make sure the issue is document.
// Remove this comment once that work is done
NOTHROW;
GC_TRIGGERS;
MODE_COOPERATIVE;
FORBID_FAULT;
}
CONTRACTL_END;
if (m_stateHandle)
DestroyHandle(m_stateHandle);
if (m_eventHandle)
DestroyHandle(m_eventHandle);
if (m_registeredWaitHandle)
DestroyHandle(m_registeredWaitHandle);
}
#endif
static DelegateInfo *MakeDelegateInfo(OBJECTREF *state,
OBJECTREF *waitEvent,
OBJECTREF *registeredWaitObject);
};
#endif // DELEGATE_INFO
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
/*============================================================
**
** Header: DelegateInfo.h
**
**
** Purpose: Native methods on System.ThreadPool
** and its inner classes
**
**
===========================================================*/
#ifndef DELEGATE_INFO
#define DELEGATE_INFO
struct DelegateInfo;
typedef DelegateInfo* DelegateInfoPtr;
struct DelegateInfo
{
OBJECTHANDLE m_stateHandle;
OBJECTHANDLE m_eventHandle;
OBJECTHANDLE m_registeredWaitHandle;
#ifndef DACCESS_COMPILE
void Release()
{
CONTRACTL {
// m_compressedStack->Release() can actually throw today because it has got a call
// to new down the stack. However that is recent and the semantic of that api is such
// it should not throw. I am expecting clenup of that function to take care of that
// so I am adding this comment to make sure the issue is document.
// Remove this comment once that work is done
NOTHROW;
GC_TRIGGERS;
MODE_COOPERATIVE;
FORBID_FAULT;
}
CONTRACTL_END;
if (m_stateHandle)
DestroyHandle(m_stateHandle);
if (m_eventHandle)
DestroyHandle(m_eventHandle);
if (m_registeredWaitHandle)
DestroyHandle(m_registeredWaitHandle);
}
#endif
static DelegateInfo *MakeDelegateInfo(OBJECTREF *state,
OBJECTREF *waitEvent,
OBJECTREF *registeredWaitObject);
};
#endif // DELEGATE_INFO
| -1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/native/libs/System.Native/pal_dynamicload.h
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
#pragma once
#include "pal_compiler.h"
#include "pal_types.h"
PALEXPORT void* SystemNative_LoadLibrary(const char* filename);
PALEXPORT void* SystemNative_GetProcAddress(void* handle, const char* symbol);
PALEXPORT void SystemNative_FreeLibrary(void* handle);
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
#pragma once
#include "pal_compiler.h"
#include "pal_types.h"
PALEXPORT void* SystemNative_LoadLibrary(const char* filename);
PALEXPORT void* SystemNative_GetProcAddress(void* handle, const char* symbol);
PALEXPORT void SystemNative_FreeLibrary(void* handle);
| -1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/mono/mono/component/debugger-engine.c
|
/**
* \file
* Debugger Engine shared code.
*
* Author:
* Zoltan Varga ([email protected])
* Rodrigo Kumpera ([email protected])
*
* Licensed under the MIT license. See LICENSE file in the project root for full license information.
*/
#include <config.h>
#include <mono/mini/mini-runtime.h>
#if !defined (DISABLE_SDB) || defined(TARGET_WASM)
#include <glib.h>
#include <mono/mini/seq-points.h>
#include <mono/mini/aot-runtime.h>
#include "debugger-engine.h"
#include "debugger-state-machine.h"
#include <mono/metadata/debug-internals.h>
static void mono_de_ss_start (SingleStepReq *ss_req, SingleStepArgs *ss_args);
static gboolean mono_de_ss_update (SingleStepReq *req, MonoJitInfo *ji, SeqPoint *sp, void *tls, MonoContext *ctx, MonoMethod* method);
static gpointer get_this_addr(DbgEngineStackFrame* the_frame);
static MonoMethod* get_set_notification_method(MonoClass* async_builder_class);
static DebuggerEngineCallbacks rt_callbacks;
/*
* Logging support
*/
static int log_level;
static FILE *log_file;
/*
* Locking
*/
#define dbg_lock() mono_coop_mutex_lock (&debug_mutex)
#define dbg_unlock() mono_coop_mutex_unlock (&debug_mutex)
static MonoCoopMutex debug_mutex;
void
mono_de_lock (void)
{
dbg_lock ();
}
void
mono_de_unlock (void)
{
dbg_unlock ();
}
/*
* Domain support
*/
/* A hash table containing all active domains */
/* Protected by the loader lock */
static GHashTable *domains;
static void
domains_init (void)
{
domains = g_hash_table_new (mono_aligned_addr_hash, NULL);
}
static void
domains_cleanup (void)
{
//FIXME can we safely destroy `domains`?
}
/*
* mono_de_foreach_domain:
*
* Iterate over all domains under debugging. Caller must take the loader lock.
*
* FIXME can we move the locking to here? Callers in sdb must be properly audited.
*/
void
mono_de_foreach_domain (GHFunc func, gpointer user_data)
{
g_hash_table_foreach (domains, func, user_data);
}
/*
* LOCKING: Takes the loader lock
*/
void
mono_de_domain_add (MonoDomain *domain)
{
mono_loader_lock ();
g_hash_table_insert (domains, domain, domain);
mono_loader_unlock ();
}
/*
* BREAKPOINTS
*/
/* List of breakpoints */
/* Protected by the loader lock */
static GPtrArray *breakpoints;
/* Maps breakpoint locations to the number of breakpoints at that location */
static GHashTable *bp_locs;
static void
breakpoints_init (void)
{
breakpoints = g_ptr_array_new ();
bp_locs = g_hash_table_new (NULL, NULL);
}
/*
* insert_breakpoint:
*
* Insert the breakpoint described by BP into the method described by
* JI.
*/
static void
insert_breakpoint (MonoSeqPointInfo *seq_points, MonoDomain *domain, MonoJitInfo *ji, MonoBreakpoint *bp, MonoError *error)
{
int count;
BreakpointInstance *inst;
SeqPointIterator it;
gboolean it_has_sp = FALSE;
if (error)
error_init (error);
mono_seq_point_iterator_init (&it, seq_points);
while (mono_seq_point_iterator_next (&it)) {
if (it.seq_point.il_offset == bp->il_offset) {
it_has_sp = TRUE;
break;
}
}
if (!it_has_sp) {
/*
* The set of IL offsets with seq points doesn't completely match the
* info returned by CMD_METHOD_GET_DEBUG_INFO (#407).
*/
mono_seq_point_iterator_init (&it, seq_points);
while (mono_seq_point_iterator_next (&it)) {
if (it.seq_point.il_offset != METHOD_ENTRY_IL_OFFSET &&
it.seq_point.il_offset != METHOD_EXIT_IL_OFFSET &&
it.seq_point.il_offset + 1 == bp->il_offset) {
it_has_sp = TRUE;
break;
}
}
}
if (!it_has_sp) {
char *s = g_strdup_printf ("Unable to insert breakpoint at %s:%ld", mono_method_full_name (jinfo_get_method (ji), TRUE), bp->il_offset);
mono_seq_point_iterator_init (&it, seq_points);
while (mono_seq_point_iterator_next (&it))
PRINT_DEBUG_MSG (1, "%d\n", it.seq_point.il_offset);
if (error) {
mono_error_set_error (error, MONO_ERROR_GENERIC, "%s", s);
g_warning ("%s", s);
g_free (s);
return;
} else {
g_warning ("%s", s);
g_free (s);
return;
}
}
inst = g_new0 (BreakpointInstance, 1);
inst->il_offset = it.seq_point.il_offset;
inst->native_offset = it.seq_point.native_offset;
inst->ip = (guint8*)ji->code_start + it.seq_point.native_offset;
inst->ji = ji;
inst->domain = domain;
mono_loader_lock ();
g_ptr_array_add (bp->children, inst);
mono_loader_unlock ();
dbg_lock ();
count = GPOINTER_TO_INT (g_hash_table_lookup (bp_locs, inst->ip));
g_hash_table_insert (bp_locs, inst->ip, GINT_TO_POINTER (count + 1));
dbg_unlock ();
if (it.seq_point.native_offset == SEQ_POINT_NATIVE_OFFSET_DEAD_CODE) {
PRINT_DEBUG_MSG (1, "[dbg] Attempting to insert seq point at dead IL offset %d, ignoring.\n", (int)bp->il_offset);
} else if (count == 0) {
if (ji->is_interp) {
mini_get_interp_callbacks_api ()->set_breakpoint (ji, inst->ip);
} else {
#ifdef MONO_ARCH_SOFT_DEBUG_SUPPORTED
mono_arch_set_breakpoint (ji, inst->ip);
#else
NOT_IMPLEMENTED;
#endif
}
}
PRINT_DEBUG_MSG (1, "[dbg] Inserted breakpoint at %s:[il=0x%x,native=0x%x] [%p](%d).\n", mono_method_full_name (jinfo_get_method (ji), TRUE), (int)it.seq_point.il_offset, (int)it.seq_point.native_offset, inst->ip, count);
}
static void
remove_breakpoint (BreakpointInstance *inst)
{
int count;
MonoJitInfo *ji = inst->ji;
guint8 *ip = inst->ip;
dbg_lock ();
count = GPOINTER_TO_INT (g_hash_table_lookup (bp_locs, ip));
g_hash_table_insert (bp_locs, ip, GINT_TO_POINTER (count - 1));
dbg_unlock ();
g_assert (count > 0);
if (count == 1 && inst->native_offset != SEQ_POINT_NATIVE_OFFSET_DEAD_CODE) {
if (ji->is_interp) {
mini_get_interp_callbacks_api ()->clear_breakpoint (ji, ip);
} else {
#ifdef MONO_ARCH_SOFT_DEBUG_SUPPORTED
mono_arch_clear_breakpoint (ji, ip);
#else
NOT_IMPLEMENTED;
#endif
}
PRINT_DEBUG_MSG (1, "[dbg] Clear breakpoint at %s [%p].\n", mono_method_full_name (jinfo_get_method (ji), TRUE), ip);
}
}
/*
* This doesn't take any locks.
*/
static gboolean
bp_matches_method (MonoBreakpoint *bp, MonoMethod *method)
{
int i;
if (!bp->method)
return TRUE;
if (method == bp->method)
return TRUE;
if (method->is_inflated && ((MonoMethodInflated*)method)->declaring == bp->method)
return TRUE;
if (bp->method->is_inflated && method->is_inflated) {
MonoMethodInflated *bpimethod = (MonoMethodInflated*)bp->method;
MonoMethodInflated *imethod = (MonoMethodInflated*)method;
/* Open generic methods should match closed generic methods of the same class */
if (bpimethod->declaring == imethod->declaring && bpimethod->context.class_inst == imethod->context.class_inst && bpimethod->context.method_inst && bpimethod->context.method_inst->is_open) {
for (i = 0; i < bpimethod->context.method_inst->type_argc; ++i) {
MonoType *t1 = bpimethod->context.method_inst->type_argv [i];
/* FIXME: Handle !mvar */
if (t1->type != MONO_TYPE_MVAR)
return FALSE;
}
return TRUE;
}
}
return FALSE;
}
/*
* mono_de_add_pending_breakpoints:
*
* Insert pending breakpoints into the newly JITted method METHOD.
*/
void
mono_de_add_pending_breakpoints (MonoMethod *method, MonoJitInfo *ji)
{
int i, j;
MonoSeqPointInfo *seq_points;
MonoDomain *domain;
if (!breakpoints)
return;
domain = mono_domain_get ();
mono_loader_lock ();
for (i = 0; i < breakpoints->len; ++i) {
MonoBreakpoint *bp = (MonoBreakpoint *)g_ptr_array_index (breakpoints, i);
gboolean found = FALSE;
if (!bp_matches_method (bp, method))
continue;
for (j = 0; j < bp->children->len; ++j) {
BreakpointInstance *inst = (BreakpointInstance *)g_ptr_array_index (bp->children, j);
if (inst->ji == ji)
found = TRUE;
}
if (!found) {
seq_points = (MonoSeqPointInfo *) ji->seq_points;
if (!seq_points) {
MonoMethod *jmethod = jinfo_get_method (ji);
if (jmethod->is_inflated) {
MonoJitInfo *seq_ji;
MonoMethod *declaring = mono_method_get_declaring_generic_method (jmethod);
mono_jit_search_all_backends_for_jit_info (declaring, &seq_ji);
seq_points = (MonoSeqPointInfo *) seq_ji->seq_points;
}
}
if (!seq_points)
/* Could be AOT code, or above "search_all_backends" call could have failed */
continue;
insert_breakpoint (seq_points, domain, ji, bp, NULL);
}
}
mono_loader_unlock ();
}
static void
set_bp_in_method (MonoDomain *domain, MonoMethod *method, MonoSeqPointInfo *seq_points, MonoBreakpoint *bp, MonoError *error)
{
MonoJitInfo *ji;
if (error)
error_init (error);
(void)mono_jit_search_all_backends_for_jit_info (method, &ji);
g_assert (ji);
insert_breakpoint (seq_points, domain, ji, bp, error);
}
typedef struct {
MonoBreakpoint *bp;
GPtrArray *methods;
GPtrArray *method_domains;
GPtrArray *method_seq_points;
} CollectDomainData;
static void
collect_domain_bp (gpointer key, gpointer value, gpointer user_data)
{
GHashTableIter iter;
MonoSeqPointInfo *seq_points;
MonoDomain *domain = (MonoDomain*)key;
CollectDomainData *ud = (CollectDomainData*)user_data;
MonoMethod *m;
// FIXME:
MonoJitMemoryManager *jit_mm = get_default_jit_mm ();
jit_mm_lock (jit_mm);
g_hash_table_iter_init (&iter, jit_mm->seq_points);
while (g_hash_table_iter_next (&iter, (void**)&m, (void**)&seq_points)) {
if (bp_matches_method (ud->bp, m)) {
/* Save the info locally to simplify the code inside the domain lock */
g_ptr_array_add (ud->methods, m);
g_ptr_array_add (ud->method_domains, domain);
g_ptr_array_add (ud->method_seq_points, seq_points);
}
}
jit_mm_unlock (jit_mm);
}
/*
* mono_de_set_breakpoint:
*
* Set a breakpoint at IL_OFFSET in METHOD.
* METHOD can be NULL, in which case a breakpoint is placed in all methods.
* METHOD can also be a generic method definition, in which case a breakpoint
* is placed in all instances of the method.
* If ERROR is non-NULL, then it is set and NULL is returnd if some breakpoints couldn't be
* inserted.
*/
MonoBreakpoint*
mono_de_set_breakpoint (MonoMethod *method, long il_offset, EventRequest *req, MonoError *error)
{
MonoBreakpoint *bp;
MonoDomain *domain;
MonoMethod *m;
MonoSeqPointInfo *seq_points;
GPtrArray *methods;
GPtrArray *method_domains;
GPtrArray *method_seq_points;
int i;
if (error)
error_init (error);
// FIXME:
// - suspend/resume the vm to prevent code patching problems
// - multiple breakpoints on the same location
// - dynamic methods
// - races
bp = g_new0 (MonoBreakpoint, 1);
bp->method = method;
bp->il_offset = il_offset;
bp->req = req;
bp->children = g_ptr_array_new ();
PRINT_DEBUG_MSG (1, "[dbg] Setting %sbreakpoint at %s:0x%x.\n", (req->event_kind == EVENT_KIND_STEP) ? "single step " : "", method ? mono_method_full_name (method, TRUE) : "<all>", (int)il_offset);
methods = g_ptr_array_new ();
method_domains = g_ptr_array_new ();
method_seq_points = g_ptr_array_new ();
mono_loader_lock ();
CollectDomainData user_data;
memset (&user_data, 0, sizeof (user_data));
user_data.bp = bp;
user_data.methods = methods;
user_data.method_domains = method_domains;
user_data.method_seq_points = method_seq_points;
mono_de_foreach_domain (collect_domain_bp, &user_data);
for (i = 0; i < methods->len; ++i) {
m = (MonoMethod *)g_ptr_array_index (methods, i);
domain = (MonoDomain *)g_ptr_array_index (method_domains, i);
seq_points = (MonoSeqPointInfo *)g_ptr_array_index (method_seq_points, i);
set_bp_in_method (domain, m, seq_points, bp, error);
}
g_ptr_array_add (breakpoints, bp);
mono_debugger_log_add_bp (bp, bp->method, bp->il_offset);
mono_loader_unlock ();
g_ptr_array_free (methods, TRUE);
g_ptr_array_free (method_domains, TRUE);
g_ptr_array_free (method_seq_points, TRUE);
if (error && !is_ok (error)) {
mono_de_clear_breakpoint (bp);
return NULL;
}
return bp;
}
void
mono_de_clear_breakpoint (MonoBreakpoint *bp)
{
int i;
// FIXME: locking, races
for (i = 0; i < bp->children->len; ++i) {
BreakpointInstance *inst = (BreakpointInstance *)g_ptr_array_index (bp->children, i);
remove_breakpoint (inst);
g_free (inst);
}
mono_loader_lock ();
mono_debugger_log_remove_bp (bp, bp->method, bp->il_offset);
g_ptr_array_remove (breakpoints, bp);
mono_loader_unlock ();
g_ptr_array_free (bp->children, TRUE);
g_free (bp);
}
void
mono_de_collect_breakpoints_by_sp (SeqPoint *sp, MonoJitInfo *ji, GPtrArray *ss_reqs, GPtrArray *bp_reqs)
{
for (int i = 0; i < breakpoints->len; ++i) {
MonoBreakpoint *bp = (MonoBreakpoint *)g_ptr_array_index (breakpoints, i);
if (!bp->method)
continue;
for (int j = 0; j < bp->children->len; ++j) {
BreakpointInstance *inst = (BreakpointInstance *)g_ptr_array_index (bp->children, j);
if (inst->ji == ji && inst->il_offset == sp->il_offset && inst->native_offset == sp->native_offset) {
if (bp->req->event_kind == EVENT_KIND_STEP) {
if (ss_reqs)
g_ptr_array_add (ss_reqs, bp->req);
} else {
if (bp_reqs)
g_ptr_array_add (bp_reqs, bp->req);
}
}
}
}
}
static void
breakpoints_cleanup (void)
{
int i;
mono_loader_lock ();
for (i = 0; i < breakpoints->len; ++i)
g_free (g_ptr_array_index (breakpoints, i));
g_ptr_array_free (breakpoints, TRUE);
g_hash_table_destroy (bp_locs);
breakpoints = NULL;
bp_locs = NULL;
mono_loader_unlock ();
}
/*
* mono_de_clear_breakpoints_for_domain:
*
* Clear breakpoint instances which reference DOMAIN.
*/
void
mono_de_clear_breakpoints_for_domain (MonoDomain *domain)
{
int i, j;
/* This could be called after shutdown */
if (!breakpoints)
return;
mono_loader_lock ();
for (i = 0; i < breakpoints->len; ++i) {
MonoBreakpoint *bp = (MonoBreakpoint *)g_ptr_array_index (breakpoints, i);
j = 0;
while (j < bp->children->len) {
BreakpointInstance *inst = (BreakpointInstance *)g_ptr_array_index (bp->children, j);
if (inst->domain == domain) {
remove_breakpoint (inst);
g_free (inst);
g_ptr_array_remove_index_fast (bp->children, j);
} else {
j ++;
}
}
}
mono_loader_unlock ();
}
/* Single stepping engine */
/* Number of single stepping operations in progress */
static int ss_count;
/* The single step request instances */
static GPtrArray *the_ss_reqs;
static void
ss_req_init (void)
{
the_ss_reqs = g_ptr_array_new ();
}
static void
ss_req_cleanup (void)
{
dbg_lock ();
g_ptr_array_free (the_ss_reqs, TRUE);
the_ss_reqs = NULL;
dbg_unlock ();
}
/*
* mono_de_start_single_stepping:
*
* Turn on single stepping. Can be called multiple times, for example,
* by a single step event request + a suspend.
*/
void
mono_de_start_single_stepping (void)
{
int val = mono_atomic_inc_i32 (&ss_count);
if (val == 1) {
#ifdef MONO_ARCH_SOFT_DEBUG_SUPPORTED
mono_arch_start_single_stepping ();
#endif
mini_get_interp_callbacks_api ()->start_single_stepping ();
}
}
void
mono_de_stop_single_stepping (void)
{
int val = mono_atomic_dec_i32 (&ss_count);
if (val == 0) {
#ifdef MONO_ARCH_SOFT_DEBUG_SUPPORTED
mono_arch_stop_single_stepping ();
#endif
mini_get_interp_callbacks_api ()->stop_single_stepping ();
}
}
static MonoJitInfo*
get_top_method_ji (gpointer ip, MonoDomain **domain, gpointer *out_ip)
{
MonoJitInfo *ji;
if (out_ip)
*out_ip = ip;
if (domain)
*domain = mono_get_root_domain ();
ji = mini_jit_info_table_find (ip);
if (!ji) {
/* Could be an interpreter method */
MonoLMF *lmf = mono_get_lmf ();
MonoInterpFrameHandle *frame;
g_assert (((gsize)lmf->previous_lmf) & 2);
MonoLMFExt *ext = (MonoLMFExt*)lmf;
g_assert (ext->kind == MONO_LMFEXT_INTERP_EXIT || ext->kind == MONO_LMFEXT_INTERP_EXIT_WITH_CTX);
frame = (MonoInterpFrameHandle*)ext->interp_exit_data;
ji = mini_get_interp_callbacks_api ()->frame_get_jit_info (frame);
if (domain)
*domain = mono_domain_get ();
if (out_ip)
*out_ip = mini_get_interp_callbacks_api ()->frame_get_ip (frame);
}
return ji;
}
static void
no_seq_points_found (MonoMethod *method, int offset)
{
/*
* This can happen in full-aot mode with assemblies AOTed without the 'soft-debug' option to save space.
*/
PRINT_MSG ("Unable to find seq points for method '%s', offset 0x%x.\n", mono_method_full_name (method, TRUE), offset);
}
static const char*
ss_depth_to_string (StepDepth depth)
{
switch (depth) {
case STEP_DEPTH_OVER:
return "over";
case STEP_DEPTH_OUT:
return "out";
case STEP_DEPTH_INTO:
return "into";
default:
g_assert_not_reached ();
return NULL;
}
}
/*
* ss_stop:
*
* Stop the single stepping operation given by SS_REQ.
*/
static void
ss_stop (SingleStepReq *ss_req)
{
if (ss_req->bps) {
GSList *l;
for (l = ss_req->bps; l; l = l->next) {
mono_de_clear_breakpoint ((MonoBreakpoint *)l->data);
}
g_slist_free (ss_req->bps);
ss_req->bps = NULL;
}
ss_req->async_id = 0;
ss_req->async_stepout_method = NULL;
if (ss_req->global) {
mono_de_stop_single_stepping ();
ss_req->global = FALSE;
}
}
static void
ss_destroy (SingleStepReq *req)
{
PRINT_DEBUG_MSG (1, "[dbg] ss_destroy.\n");
ss_stop (req);
g_free (req);
}
static SingleStepReq*
ss_req_acquire (MonoInternalThread *thread)
{
SingleStepReq *req = NULL;
dbg_lock ();
int i;
for (i = 0; i < the_ss_reqs->len; ++i) {
SingleStepReq *current_req = (SingleStepReq *)g_ptr_array_index (the_ss_reqs, i);
if (current_req->thread == thread) {
current_req->refcount ++;
req = current_req;
}
}
dbg_unlock ();
return req;
}
static int
ss_req_count (void)
{
return the_ss_reqs->len;
}
static void
mono_de_ss_req_release (SingleStepReq *req)
{
gboolean free = FALSE;
dbg_lock ();
g_assert (req->refcount);
req->refcount --;
if (req->refcount == 0)
free = TRUE;
if (free) {
g_ptr_array_remove (the_ss_reqs, req);
ss_destroy (req);
}
dbg_unlock ();
}
void
mono_de_cancel_ss (SingleStepReq *req)
{
if (the_ss_reqs) {
mono_de_ss_req_release (req);
}
}
void
mono_de_cancel_all_ss (void)
{
int i;
for (i = 0; i < the_ss_reqs->len; ++i) {
SingleStepReq *current_req = (SingleStepReq *)g_ptr_array_index (the_ss_reqs, i);
mono_de_ss_req_release (current_req);
}
}
void
mono_de_process_single_step (void *tls, gboolean from_signal)
{
MonoJitInfo *ji;
guint8 *ip;
GPtrArray *reqs;
int il_offset;
MonoDomain *domain;
MonoContext *ctx = rt_callbacks.tls_get_restore_state (tls);
MonoMethod *method;
SeqPoint sp;
MonoSeqPointInfo *info;
SingleStepReq *ss_req;
/* Skip the instruction causing the single step */
rt_callbacks.begin_single_step_processing (ctx, from_signal);
if (rt_callbacks.try_process_suspend (tls, ctx, FALSE))
return;
/*
* This can run concurrently with a clear_event_request () call, so needs locking/reference counts.
*/
ss_req = ss_req_acquire (mono_thread_internal_current ());
if (!ss_req)
// FIXME: A suspend race
return;
ip = (guint8 *)MONO_CONTEXT_GET_IP (ctx);
ji = get_top_method_ji (ip, &domain, (gpointer*)&ip);
g_assert (ji && !ji->is_trampoline);
if (log_level > 0) {
PRINT_DEBUG_MSG (1, "[%p] Single step event (depth=%s) at %s (%p)[0x%x], sp %p, last sp %p\n", (gpointer) (gsize) mono_native_thread_id_get (), ss_depth_to_string (ss_req->depth), mono_method_full_name (jinfo_get_method (ji), TRUE), MONO_CONTEXT_GET_IP (ctx), (int)((guint8*)MONO_CONTEXT_GET_IP (ctx) - (guint8*)ji->code_start), MONO_CONTEXT_GET_SP (ctx), ss_req->last_sp);
}
method = jinfo_get_method (ji);
g_assert (method);
if (method->wrapper_type && method->wrapper_type != MONO_WRAPPER_DYNAMIC_METHOD)
goto exit;
/*
* FIXME:
* Stopping in memset makes half-initialized vtypes visible.
* Stopping in memcpy makes half-copied vtypes visible.
*/
if (method->klass == mono_get_string_class () && (!strcmp (method->name, "memset") || strstr (method->name, "memcpy")))
goto exit;
/*
* This could be in mono_de_ss_update method, but mono_find_next_seq_point_for_native_offset is pretty expensive method,
* hence we prefer this check here.
*/
if (ss_req->user_assemblies) {
gboolean found = FALSE;
for (int k = 0; ss_req->user_assemblies[k]; k++)
if (ss_req->user_assemblies[k] == m_class_get_image (method->klass)->assembly) {
found = TRUE;
break;
}
if (!found)
goto exit;
}
/*
* The ip points to the instruction causing the single step event, which is before
* the offset recorded in the seq point map, so find the next seq point after ip.
*/
if (!mono_find_next_seq_point_for_native_offset (method, (guint8*)ip - (guint8*)ji->code_start, &info, &sp)) {
g_assert_not_reached ();
goto exit;
}
il_offset = sp.il_offset;
if (!mono_de_ss_update (ss_req, ji, &sp, tls, ctx, method))
goto exit;
/* Start single stepping again from the current sequence point */
SingleStepArgs args;
memset (&args, 0, sizeof (args));
args.method = method;
args.ctx = ctx;
args.tls = tls;
args.step_to_catch = FALSE;
args.sp = sp;
args.info = info;
args.frames = NULL;
args.nframes = 0;
mono_de_ss_start (ss_req, &args);
if ((ss_req->filter & STEP_FILTER_STATIC_CTOR) &&
(method->flags & METHOD_ATTRIBUTE_SPECIAL_NAME) &&
!strcmp (method->name, ".cctor"))
goto exit;
// FIXME: Has to lock earlier
reqs = g_ptr_array_new ();
mono_loader_lock ();
g_ptr_array_add (reqs, ss_req->req);
void *bp_events;
bp_events = mono_dbg_create_breakpoint_events (reqs, NULL, ji, EVENT_KIND_BREAKPOINT);
g_ptr_array_free (reqs, TRUE);
mono_loader_unlock ();
mono_dbg_process_breakpoint_events (bp_events, method, ctx, il_offset);
exit:
mono_de_ss_req_release (ss_req);
}
/*
* mono_de_ss_update:
*
* Return FALSE if single stepping needs to continue.
*/
static gboolean
mono_de_ss_update (SingleStepReq *req, MonoJitInfo *ji, SeqPoint *sp, void *tls, MonoContext *ctx, MonoMethod* method)
{
MonoDebugMethodInfo *minfo;
MonoDebugSourceLocation *loc = NULL;
gboolean hit = TRUE;
if ((req->filter & STEP_FILTER_STATIC_CTOR)) {
DbgEngineStackFrame **frames;
int nframes;
rt_callbacks.ss_calculate_framecount (tls, ctx, TRUE, &frames, &nframes);
gboolean ret = FALSE;
gboolean method_in_stack = FALSE;
for (int i = 0; i < nframes; i++) {
MonoMethod *external_method = frames [i]->method;
if (method == external_method)
method_in_stack = TRUE;
if (!ret) {
ret = (external_method->flags & METHOD_ATTRIBUTE_SPECIAL_NAME);
ret = ret && !strcmp (external_method->name, ".cctor");
ret = ret && (external_method != req->start_method);
}
}
if (!method_in_stack) {
PRINT_ERROR_MSG ("[%p] The instruction pointer of the currently executing method(%s) is not on the recorded stack. This is likely due to a runtime bug. The %d frames are as follow: \n", (gpointer)(gsize)mono_native_thread_id_get (), mono_method_full_name (method, TRUE), nframes);
/*PRINT_DEBUG_MSG (1, "[%p] The instruction pointer of the currently executing method(%s) is not on the recorded stack. This is likely due to a runtime bug. The %d frames are as follow: \n", (gpointer)(gsize)mono_native_thread_id_get (), mono_method_full_name (method, TRUE), tls->frame_count);*/
for (int i=0; i < nframes; i++)
PRINT_ERROR_MSG ("\t [%p] Frame (%d / %d): %s\n", (gpointer)(gsize)mono_native_thread_id_get (), i, nframes, mono_method_full_name (frames [i]->method, TRUE));
}
rt_callbacks.ss_discard_frame_context (tls);
if (ret)
return FALSE;
}
if (req->async_stepout_method == method) {
PRINT_DEBUG_MSG (1, "[%p] Breakpoint hit during async step-out at %s hit, continuing stepping out.\n", (gpointer)(gsize)mono_native_thread_id_get (), method->name);
return FALSE;
}
if (req->depth == STEP_DEPTH_OVER && (sp->flags & MONO_SEQ_POINT_FLAG_NONEMPTY_STACK) && !(sp->flags & MONO_SEQ_POINT_FLAG_NESTED_CALL)) {
/*
* These seq points are inserted by the JIT after calls, step over needs to skip them.
*/
PRINT_DEBUG_MSG (1, "[%p] Seq point at nonempty stack %x while stepping over, continuing single stepping.\n", (gpointer) (gsize) mono_native_thread_id_get (), sp->il_offset);
return FALSE;
}
if ((req->depth == STEP_DEPTH_OVER || req->depth == STEP_DEPTH_OUT) && hit && !req->async_stepout_method) {
gboolean is_step_out = req->depth == STEP_DEPTH_OUT;
int nframes;
rt_callbacks.ss_calculate_framecount (tls, ctx, FALSE, NULL, &nframes);
// Because functions can call themselves recursively, we need to make sure we're stopping at the right stack depth.
// In case of step out, the target is the frame *enclosing* the one where the request was made.
int target_frames = req->nframes + (is_step_out ? -1 : 0);
if (req->nframes > 0 && nframes > 0 && nframes > target_frames) {
/* Hit the breakpoint in a recursive call, don't halt */
PRINT_DEBUG_MSG (1, "[%p] Breakpoint at lower frame while stepping %s, continuing single stepping.\n", (gpointer) (gsize) mono_native_thread_id_get (), is_step_out ? "out" : "over");
return FALSE;
}
}
if (req->depth == STEP_DEPTH_INTO && req->size == STEP_SIZE_MIN && (sp->flags & MONO_SEQ_POINT_FLAG_NONEMPTY_STACK) && req->start_method) {
int nframes;
rt_callbacks.ss_calculate_framecount (tls, ctx, FALSE, NULL, &nframes);
if (req->start_method == method && req->nframes && nframes == req->nframes) { //Check also frame count(could be recursion)
PRINT_DEBUG_MSG (1, "[%p] Seq point at nonempty stack %x while stepping in, continuing single stepping.\n", (gpointer) (gsize) mono_native_thread_id_get (), sp->il_offset);
return FALSE;
}
}
MonoDebugMethodAsyncInfo* async_method = mono_debug_lookup_method_async_debug_info (method);
if (async_method) {
for (int i = 0; i < async_method->num_awaits; i++) {
if (async_method->yield_offsets[i] == sp->il_offset || async_method->resume_offsets[i] == sp->il_offset) {
mono_debug_free_method_async_debug_info (async_method);
return FALSE;
}
}
mono_debug_free_method_async_debug_info (async_method);
}
if (req->size != STEP_SIZE_LINE)
return TRUE;
/* Have to check whenever a different source line was reached */
minfo = mono_debug_lookup_method (method);
if (minfo)
loc = mono_debug_method_lookup_location (minfo, sp->il_offset);
if (!loc) {
PRINT_DEBUG_MSG (1, "[%p] No line number info for il offset %x, continuing single stepping.\n", (gpointer) (gsize) mono_native_thread_id_get (), sp->il_offset);
req->last_method = method;
hit = FALSE;
} else if (loc && method == req->last_method && loc->row == req->last_line) {
int nframes;
rt_callbacks.ss_calculate_framecount (tls, ctx, FALSE, NULL, &nframes);
if (nframes == req->nframes) { // If the frame has changed we're clearly not on the same source line.
PRINT_DEBUG_MSG (1, "[%p] Same source line (%d), continuing single stepping.\n", (gpointer) (gsize) mono_native_thread_id_get (), loc->row);
hit = FALSE;
}
}
if (loc) {
req->last_method = method;
req->last_line = loc->row;
mono_debug_free_source_location (loc);
}
return hit;
}
void
mono_de_process_breakpoint (void *void_tls, gboolean from_signal)
{
DebuggerTlsData *tls = (DebuggerTlsData*)void_tls;
MonoJitInfo *ji;
guint8 *ip;
int i;
guint32 native_offset;
GPtrArray *bp_reqs, *ss_reqs_orig, *ss_reqs;
EventKind kind = EVENT_KIND_BREAKPOINT;
MonoContext *ctx = rt_callbacks.tls_get_restore_state (tls);
MonoMethod *method;
MonoSeqPointInfo *info;
SeqPoint sp;
gboolean found_sp;
if (rt_callbacks.try_process_suspend (tls, ctx, TRUE))
return;
ip = (guint8 *)MONO_CONTEXT_GET_IP (ctx);
ji = get_top_method_ji (ip, NULL, (gpointer*)&ip);
g_assert (ji && !ji->is_trampoline);
method = jinfo_get_method (ji);
/* Compute the native offset of the breakpoint from the ip */
native_offset = ip - (guint8*)ji->code_start;
if (!rt_callbacks.begin_breakpoint_processing (tls, ctx, ji, from_signal))
return;
if (method->wrapper_type)
return;
bp_reqs = g_ptr_array_new ();
ss_reqs = g_ptr_array_new ();
ss_reqs_orig = g_ptr_array_new ();
mono_loader_lock ();
/*
* The ip points to the instruction causing the breakpoint event, which is after
* the offset recorded in the seq point map, so find the prev seq point before ip.
*/
found_sp = mono_find_prev_seq_point_for_native_offset (method, native_offset, &info, &sp);
if (!found_sp)
no_seq_points_found (method, native_offset);
g_assert (found_sp);
PRINT_DEBUG_MSG (1, "[%p] Breakpoint hit, method=%s, ip=%p, [il=0x%x,native=0x%x].\n", (gpointer) (gsize) mono_native_thread_id_get (), method->name, ip, sp.il_offset, native_offset);
mono_debugger_log_bp_hit (tls, method, sp.il_offset);
mono_de_collect_breakpoints_by_sp (&sp, ji, ss_reqs_orig, bp_reqs);
if (bp_reqs->len == 0 && ss_reqs_orig->len == 0) {
/* Maybe a method entry/exit event */
if (sp.il_offset == METHOD_ENTRY_IL_OFFSET)
kind = EVENT_KIND_METHOD_ENTRY;
else if (sp.il_offset == METHOD_EXIT_IL_OFFSET)
kind = EVENT_KIND_METHOD_EXIT;
}
/* Process single step requests */
for (i = 0; i < ss_reqs_orig->len; ++i) {
EventRequest *req = (EventRequest *)g_ptr_array_index (ss_reqs_orig, i);
SingleStepReq *ss_req = (SingleStepReq *)req->info;
gboolean hit;
//if we hit async_stepout_method, it's our no matter which thread
if ((ss_req->async_stepout_method != method) && (ss_req->async_id || mono_thread_internal_current () != ss_req->thread)) {
DbgEngineStackFrame **frames;
int nframes;
//We have different thread and we don't have async stepping in progress
//it's breakpoint in parallel thread, ignore it
if (ss_req->async_id == 0)
continue;
rt_callbacks.ss_discard_frame_context (tls);
rt_callbacks.ss_calculate_framecount (tls, ctx, FALSE, &frames, &nframes);
//make sure we have enough data to get current async method instance id
if (nframes == 0 || !rt_callbacks.ensure_jit (frames [0]))
continue;
//Check method is async before calling get_this_async_id
MonoDebugMethodAsyncInfo* asyncMethod = mono_debug_lookup_method_async_debug_info (method);
if (!asyncMethod)
continue;
else
mono_debug_free_method_async_debug_info (asyncMethod);
//breakpoint was hit in parallelly executing async method, ignore it
if (ss_req->async_id != mono_de_frame_async_id (frames [0]))
continue;
}
//Update stepping request to new thread/frame_count that we are continuing on
//so continuing with normal stepping works as expected
if (ss_req->async_stepout_method || ss_req->async_id) {
int nframes;
rt_callbacks.ss_discard_frame_context (tls);
rt_callbacks.ss_calculate_framecount (tls, ctx, FALSE, NULL, &nframes);
ss_req->thread = mono_thread_internal_current ();
ss_req->nframes = nframes;
}
hit = mono_de_ss_update (ss_req, ji, &sp, tls, ctx, method);
if (hit)
g_ptr_array_add (ss_reqs, req);
SingleStepArgs args;
memset (&args, 0, sizeof (args));
args.method = method;
args.ctx = ctx;
args.tls = tls;
args.step_to_catch = FALSE;
args.sp = sp;
args.info = info;
args.frames = NULL;
args.nframes = 0;
mono_de_ss_start (ss_req, &args);
}
void *bp_events = mono_dbg_create_breakpoint_events (ss_reqs, bp_reqs, ji, kind);
mono_loader_unlock ();
g_ptr_array_free (bp_reqs, TRUE);
g_ptr_array_free (ss_reqs, TRUE);
mono_dbg_process_breakpoint_events (bp_events, method, ctx, sp.il_offset);
}
/*
* ss_bp_is_unique:
*
* Reject breakpoint if it is a duplicate of one already in list or hash table.
*/
static gboolean
ss_bp_is_unique (GSList *bps, GHashTable *ss_req_bp_cache, MonoMethod *method, guint32 il_offset)
{
if (ss_req_bp_cache) {
MonoBreakpoint dummy = {method, (long)il_offset, NULL, NULL};
return !g_hash_table_lookup (ss_req_bp_cache, &dummy);
}
for (GSList *l = bps; l; l = l->next) {
MonoBreakpoint *bp = (MonoBreakpoint *)l->data;
if (bp->method == method && bp->il_offset == il_offset)
return FALSE;
}
return TRUE;
}
/*
* ss_bp_eq:
*
* GHashTable equality for a MonoBreakpoint (only care about method and il_offset fields)
*/
static gint
ss_bp_eq (gconstpointer ka, gconstpointer kb)
{
const MonoBreakpoint *s1 = (const MonoBreakpoint *)ka;
const MonoBreakpoint *s2 = (const MonoBreakpoint *)kb;
return (s1->method == s2->method && s1->il_offset == s2->il_offset) ? 1 : 0;
}
/*
* ss_bp_eq:
*
* GHashTable hash for a MonoBreakpoint (only care about method and il_offset fields)
*/
static guint
ss_bp_hash (gconstpointer data)
{
const MonoBreakpoint *s = (const MonoBreakpoint *)data;
guint hash = (guint) (uintptr_t) s->method;
hash ^= ((guint)s->il_offset) << 16; // Assume low bits are more interesting
hash ^= ((guint)s->il_offset) >> 16;
return hash;
}
#define MAX_LINEAR_SCAN_BPS 7
/*
* ss_bp_add_one:
*
* Create a new breakpoint and add it to a step request.
* Will adjust the bp count and cache used by mono_de_ss_start.
*/
static void
ss_bp_add_one (SingleStepReq *ss_req, int *ss_req_bp_count, GHashTable **ss_req_bp_cache,
MonoMethod *method, guint32 il_offset)
{
// This list is getting too long, switch to using the hash table
if (!*ss_req_bp_cache && *ss_req_bp_count > MAX_LINEAR_SCAN_BPS) {
*ss_req_bp_cache = g_hash_table_new (ss_bp_hash, ss_bp_eq);
for (GSList *l = ss_req->bps; l; l = l->next)
g_hash_table_insert (*ss_req_bp_cache, l->data, l->data);
}
if (ss_bp_is_unique (ss_req->bps, *ss_req_bp_cache, method, il_offset)) {
// Create and add breakpoint
MonoBreakpoint *bp = mono_de_set_breakpoint (method, il_offset, ss_req->req, NULL);
ss_req->bps = g_slist_append (ss_req->bps, bp);
if (*ss_req_bp_cache)
g_hash_table_insert (*ss_req_bp_cache, bp, bp);
(*ss_req_bp_count)++;
} else {
PRINT_DEBUG_MSG (1, "[dbg] Candidate breakpoint at %s:[il=0x%x] is a duplicate for this step request, will not add.\n", mono_method_full_name (method, TRUE), (int)il_offset);
}
}
static gboolean
is_last_non_empty (SeqPoint* sp, MonoSeqPointInfo *info)
{
if (!sp->next_len)
return TRUE;
SeqPoint* next = g_new (SeqPoint, sp->next_len);
mono_seq_point_init_next (info, *sp, next);
for (int i = 0; i < sp->next_len; i++) {
if (next [i].flags & MONO_SEQ_POINT_FLAG_NONEMPTY_STACK && !(next [i].flags & MONO_SEQ_POINT_FLAG_NESTED_CALL)) {
if (!is_last_non_empty (&next [i], info)) {
g_free (next);
return FALSE;
}
} else {
g_free (next);
return FALSE;
}
}
g_free (next);
return TRUE;
}
/*
* mono_de_ss_start:
*
* Start the single stepping operation given by SS_REQ from the sequence point SP.
* If CTX is not set, then this can target any thread. If CTX is set, then TLS should
* belong to the same thread as CTX.
* If FRAMES is not-null, use that instead of tls->frames for placing breakpoints etc.
*/
static void
mono_de_ss_start (SingleStepReq *ss_req, SingleStepArgs *ss_args)
{
int i, j, frame_index;
SeqPoint *next_sp, *parent_sp = NULL;
SeqPoint local_sp, local_parent_sp;
gboolean found_sp;
MonoSeqPointInfo *parent_info;
MonoMethod *parent_sp_method = NULL;
gboolean enable_global = FALSE;
// When 8 or more entries are in bps, we build a hash table to serve as a set of breakpoints.
// Recreating this on each pass is a little wasteful but at least keeps behavior linear.
int ss_req_bp_count = g_slist_length (ss_req->bps);
GHashTable *ss_req_bp_cache = NULL;
/* Stop the previous operation */
ss_stop (ss_req);
gboolean locked = FALSE;
void *tls = ss_args->tls;
MonoMethod *method = ss_args->method;
DbgEngineStackFrame **frames = ss_args->frames;
int nframes = ss_args->nframes;
SeqPoint *sp = &ss_args->sp;
/* this can happen on a single step in a exception on android (Mono_UnhandledException_internal) and on IOS */
if (!method)
return;
/*
* Implement single stepping using breakpoints if possible.
*/
if (ss_args->step_to_catch) {
ss_bp_add_one (ss_req, &ss_req_bp_count, &ss_req_bp_cache, method, sp->il_offset);
} else {
frame_index = 1;
#ifndef TARGET_WASM
if (ss_args->ctx && !frames) {
#else
if (!frames) {
#endif
mono_loader_lock ();
locked = TRUE;
/* Need parent frames */
rt_callbacks.ss_calculate_framecount (tls, ss_args->ctx, FALSE, &frames, &nframes);
}
MonoDebugMethodAsyncInfo* asyncMethod = mono_debug_lookup_method_async_debug_info (method);
/* Need to stop in catch clauses as well */
for (i = ss_req->depth == STEP_DEPTH_OUT ? 1 : 0; i < nframes; ++i) {
DbgEngineStackFrame *frame = frames [i];
if (frame->ji) {
MonoJitInfo *jinfo = frame->ji;
for (j = 0; j < jinfo->num_clauses; ++j) {
// In case of async method we don't want to place breakpoint on last catch handler(which state machine added for whole method)
if (asyncMethod && asyncMethod->num_awaits && i == 0 && j + 1 == jinfo->num_clauses)
break;
MonoJitExceptionInfo *ei = &jinfo->clauses [j];
if (mono_find_next_seq_point_for_native_offset (frame->method, (char*)ei->handler_start - (char*)jinfo->code_start, NULL, &local_sp))
ss_bp_add_one (ss_req, &ss_req_bp_count, &ss_req_bp_cache, frame->method, local_sp.il_offset);
}
}
}
if (asyncMethod && asyncMethod->num_awaits && nframes && rt_callbacks.ensure_jit (frames [0])) {
//asyncMethod has value and num_awaits > 0, this means we are inside async method with awaits
// Check if we hit yield_offset during normal stepping, because if we did...
// Go into special async stepping mode which places breakpoint on resumeOffset
// of this await call and sets async_id so we can distinguish it from parallel executions
for (i = 0; i < asyncMethod->num_awaits; i++) {
if (sp->il_offset == asyncMethod->yield_offsets [i]) {
ss_req->async_id = mono_de_frame_async_id (frames [0]);
ss_bp_add_one (ss_req, &ss_req_bp_count, &ss_req_bp_cache, method, asyncMethod->resume_offsets [i]);
g_hash_table_destroy (ss_req_bp_cache);
mono_debug_free_method_async_debug_info (asyncMethod);
if (locked)
mono_loader_unlock ();
goto cleanup;
}
}
//If we are at end of async method and doing step-in or step-over...
//Switch to step-out, so whole NotifyDebuggerOfWaitCompletion magic happens...
if (is_last_non_empty (sp, ss_args->info)) {
ss_req->depth = STEP_DEPTH_OUT;//setting depth to step-out is important, don't inline IF, because code later depends on this
}
if (ss_req->depth == STEP_DEPTH_OUT) {
//If we are inside `async void` method, do normal step-out
if (set_set_notification_for_wait_completion_flag (frames [0])) {
ss_req->async_id = mono_de_frame_async_id (frames [0]);
ss_req->async_stepout_method = get_notify_debugger_of_wait_completion_method ();
ss_bp_add_one (ss_req, &ss_req_bp_count, &ss_req_bp_cache, ss_req->async_stepout_method, 0);
g_hash_table_destroy (ss_req_bp_cache);
mono_debug_free_method_async_debug_info (asyncMethod);
if (locked)
mono_loader_unlock ();
goto cleanup;
}
}
}
if (asyncMethod)
mono_debug_free_method_async_debug_info (asyncMethod);
/*
* Find the first sequence point in the current or in a previous frame which
* is not the last in its method.
*/
if (ss_req->depth == STEP_DEPTH_OUT) {
/* Ignore seq points in current method */
while (frame_index < nframes) {
DbgEngineStackFrame *frame = frames [frame_index];
method = frame->method;
found_sp = mono_find_prev_seq_point_for_native_offset (frame->method, frame->native_offset, &ss_args->info, &local_sp);
sp = (found_sp)? &local_sp : NULL;
frame_index ++;
if (sp && sp->next_len != 0)
break;
}
// There could be method calls before the next seq point in the caller when using nested calls
//enable_global = TRUE;
} else {
if (sp && sp->next_len == 0) {
sp = NULL;
while (frame_index < nframes) {
DbgEngineStackFrame *frame = frames [frame_index];
method = frame->method;
found_sp = mono_find_prev_seq_point_for_native_offset (frame->method, frame->native_offset, &ss_args->info, &local_sp);
sp = (found_sp)? &local_sp : NULL;
if (sp && sp->next_len != 0)
break;
sp = NULL;
frame_index ++;
}
} else {
/* Have to put a breakpoint into a parent frame since the seq points might not cover all control flow out of the method */
while (frame_index < nframes) {
DbgEngineStackFrame *frame = frames [frame_index];
parent_sp_method = frame->method;
found_sp = mono_find_prev_seq_point_for_native_offset (frame->method, frame->native_offset, &parent_info, &local_parent_sp);
parent_sp = found_sp ? &local_parent_sp : NULL;
if (found_sp && parent_sp->next_len != 0)
break;
parent_sp = NULL;
frame_index ++;
}
}
}
if (sp && sp->next_len > 0) {
SeqPoint* next = g_new(SeqPoint, sp->next_len);
mono_seq_point_init_next (ss_args->info, *sp, next);
for (i = 0; i < sp->next_len; i++) {
next_sp = &next[i];
ss_bp_add_one (ss_req, &ss_req_bp_count, &ss_req_bp_cache, method, next_sp->il_offset);
}
g_free (next);
}
if (parent_sp) {
SeqPoint* next = g_new(SeqPoint, parent_sp->next_len);
mono_seq_point_init_next (parent_info, *parent_sp, next);
for (i = 0; i < parent_sp->next_len; i++) {
next_sp = &next[i];
ss_bp_add_one (ss_req, &ss_req_bp_count, &ss_req_bp_cache, parent_sp_method, next_sp->il_offset);
}
g_free (next);
}
if (ss_req->nframes == 0)
ss_req->nframes = nframes;
if ((ss_req->depth == STEP_DEPTH_OVER) && (!sp && !parent_sp)) {
PRINT_DEBUG_MSG (1, "[dbg] No parent frame for step over, transition to step into.\n");
/*
* This is needed since if we leave managed code, and later return to it, step over
* is not going to stop.
* This approach is a bit ugly, since we change the step depth, but it only affects
* clients who reuse the same step request, and only in this special case.
*/
ss_req->depth = STEP_DEPTH_INTO;
}
if (ss_req->depth == STEP_DEPTH_INTO) {
/* Enable global stepping so we stop at method entry too */
enable_global = TRUE;
}
/*
* The ctx/frame info computed above will become invalid when we continue.
*/
rt_callbacks.ss_discard_frame_context (tls);
}
if (enable_global) {
PRINT_DEBUG_MSG (1, "[dbg] Turning on global single stepping.\n");
ss_req->global = TRUE;
mono_de_start_single_stepping ();
} else if (!ss_req->bps) {
PRINT_DEBUG_MSG (1, "[dbg] Turning on global single stepping.\n");
ss_req->global = TRUE;
mono_de_start_single_stepping ();
} else {
ss_req->global = FALSE;
}
g_hash_table_destroy (ss_req_bp_cache);
if (locked)
mono_loader_unlock ();
cleanup:
mono_ss_args_destroy (ss_args);
}
/*
* Start single stepping of thread THREAD
*/
DbgEngineErrorCode
mono_de_ss_create (MonoInternalThread *thread, StepSize size, StepDepth depth, StepFilter filter, EventRequest *req)
{
int err = rt_callbacks.ensure_runtime_is_suspended ();
if (err)
return err;
// FIXME: Multiple requests
if (ss_req_count () > 1) {
err = rt_callbacks.handle_multiple_ss_requests ();
if (err == DE_ERR_NOT_IMPLEMENTED) {
PRINT_DEBUG_MSG (0, "Received a single step request while the previous one was still active.\n");
return DE_ERR_NOT_IMPLEMENTED;
}
}
PRINT_DEBUG_MSG (1, "[dbg] Starting single step of thread %p (depth=%s).\n", thread, ss_depth_to_string (depth));
SingleStepReq *ss_req = g_new0 (SingleStepReq, 1);
ss_req->req = req;
ss_req->thread = thread;
ss_req->size = size;
ss_req->depth = depth;
ss_req->filter = filter;
ss_req->refcount = 1;
req->info = ss_req;
for (int i = 0; i < req->nmodifiers; i++) {
if (req->modifiers[i].kind == MOD_KIND_ASSEMBLY_ONLY) {
ss_req->user_assemblies = req->modifiers[i].data.assemblies;
break;
}
}
SingleStepArgs args;
err = mono_ss_create_init_args (ss_req, &args);
if (err)
return err;
g_ptr_array_add (the_ss_reqs, ss_req);
mono_de_ss_start (ss_req, &args);
return DE_ERR_NONE;
}
/*
* mono_de_set_log_level:
*
* Configures logging level and output file. Must be called together with mono_de_init.
*/
void
mono_de_set_log_level (int level, FILE *file)
{
log_level = level;
log_file = file;
}
/*
* mono_de_init:
*
* Inits the shared debugger engine. Not reentrant.
*/
void
mono_de_init (DebuggerEngineCallbacks *cbs)
{
rt_callbacks = *cbs;
mono_coop_mutex_init_recursive (&debug_mutex);
domains_init ();
breakpoints_init ();
ss_req_init ();
mono_debugger_log_init ();
}
void
mono_de_cleanup (void)
{
breakpoints_cleanup ();
domains_cleanup ();
ss_req_cleanup ();
}
void
mono_debugger_free_objref (gpointer value)
{
ObjRef *o = (ObjRef *)value;
mono_gchandle_free_internal (o->handle);
g_free (o);
}
// Returns true if TaskBuilder has NotifyDebuggerOfWaitCompletion method
// false if not(AsyncVoidBuilder)
MonoClass *
get_class_to_get_builder_field (DbgEngineStackFrame *frame)
{
ERROR_DECL (error);
StackFrame *the_frame = (StackFrame *)frame;
gpointer this_addr = get_this_addr (frame);
MonoClass *original_class = frame->method->klass;
MonoClass *ret;
if (mono_class_is_open_constructed_type (m_class_get_byval_arg (original_class))) {
MonoObject *this_obj = *(MonoObject**)this_addr;
MonoGenericContext context;
MonoType *inflated_type;
if (!this_obj)
return NULL;
context = mono_get_generic_context_from_stack_frame (frame->ji, mono_get_generic_info_from_stack_frame (frame->ji, &the_frame->ctx));
inflated_type = mono_class_inflate_generic_type_checked (m_class_get_byval_arg (original_class), &context, error);
mono_error_assert_ok (error); /* FIXME don't swallow the error */
ret = mono_class_from_mono_type_internal (inflated_type);
mono_metadata_free_type (inflated_type);
return ret;
}
return original_class;
}
gboolean
set_set_notification_for_wait_completion_flag (DbgEngineStackFrame *frame)
{
MonoClassField *builder_field = mono_class_get_field_from_name_full (get_class_to_get_builder_field(frame), "<>t__builder", NULL);
if (!builder_field)
return FALSE;
gpointer builder = get_async_method_builder (frame);
if (!builder)
return FALSE;
MonoMethod* method = get_set_notification_method (mono_class_from_mono_type_internal (builder_field->type));
if (method == NULL)
return FALSE;
gboolean arg = TRUE;
ERROR_DECL (error);
void *args [ ] = { &arg };
mono_runtime_invoke_checked (method, builder, args, error);
mono_error_assert_ok (error);
return TRUE;
}
MonoMethod*
get_object_id_for_debugger_method (MonoClass* async_builder_class)
{
ERROR_DECL (error);
GPtrArray *array = mono_class_get_methods_by_name (async_builder_class, "get_ObjectIdForDebugger", 0x24, 1, FALSE, error);
mono_error_assert_ok (error);
if (array->len != 1) {
g_ptr_array_free (array, TRUE);
//if we don't find method get_ObjectIdForDebugger we try to find the property Task to continue async debug.
MonoProperty *prop = mono_class_get_property_from_name_internal (async_builder_class, "Task");
if (!prop) {
PRINT_DEBUG_MSG (1, "Impossible to debug async methods.\n");
return NULL;
}
return prop->get;
}
MonoMethod *method = (MonoMethod *)g_ptr_array_index (array, 0);
g_ptr_array_free (array, TRUE);
return method;
}
static gpointer
get_this_addr (DbgEngineStackFrame *the_frame)
{
StackFrame *frame = (StackFrame *)the_frame;
if (frame->de.ji->is_interp)
return mini_get_interp_callbacks_api ()->frame_get_this (frame->interp_frame);
MonoDebugVarInfo *var = frame->jit->this_var;
if ((var->index & MONO_DEBUG_VAR_ADDRESS_MODE_FLAGS) != MONO_DEBUG_VAR_ADDRESS_MODE_REGOFFSET)
return NULL;
guint8 *addr = (guint8 *)mono_arch_context_get_int_reg (&frame->ctx, var->index & ~MONO_DEBUG_VAR_ADDRESS_MODE_FLAGS);
addr += (gint32)var->offset;
return addr;
}
/* Return the address of the AsyncMethodBuilder struct belonging to the state machine method pointed to by FRAME */
gpointer
get_async_method_builder (DbgEngineStackFrame *frame)
{
MonoObject *this_obj;
MonoClassField *builder_field;
gpointer builder;
gpointer this_addr;
MonoClass* klass = frame->method->klass;
klass = get_class_to_get_builder_field(frame);
builder_field = mono_class_get_field_from_name_full (klass, "<>t__builder", NULL);
if (!builder_field)
return NULL;
this_addr = get_this_addr (frame);
if (!this_addr)
return NULL;
if (m_class_is_valuetype (klass)) {
builder = mono_vtype_get_field_addr (*(guint8**)this_addr, builder_field);
} else {
this_obj = *(MonoObject**)this_addr;
builder = (char*)this_obj + builder_field->offset;
}
return builder;
}
static MonoMethod*
get_set_notification_method (MonoClass* async_builder_class)
{
ERROR_DECL (error);
GPtrArray* array = mono_class_get_methods_by_name (async_builder_class, "SetNotificationForWaitCompletion", 0x24, 1, FALSE, error);
mono_error_assert_ok (error);
if (array->len == 0) {
g_ptr_array_free (array, TRUE);
return NULL;
}
MonoMethod* set_notification_method = (MonoMethod *)g_ptr_array_index (array, 0);
g_ptr_array_free (array, TRUE);
return set_notification_method;
}
static MonoMethod* notify_debugger_of_wait_completion_method_cache;
MonoMethod*
get_notify_debugger_of_wait_completion_method (void)
{
if (notify_debugger_of_wait_completion_method_cache != NULL)
return notify_debugger_of_wait_completion_method_cache;
ERROR_DECL (error);
MonoClass* task_class = mono_class_load_from_name (mono_get_corlib (), "System.Threading.Tasks", "Task");
GPtrArray* array = mono_class_get_methods_by_name (task_class, "NotifyDebuggerOfWaitCompletion", 0x24, 1, FALSE, error);
mono_error_assert_ok (error);
g_assert (array->len == 1);
notify_debugger_of_wait_completion_method_cache = (MonoMethod *)g_ptr_array_index (array, 0);
g_ptr_array_free (array, TRUE);
return notify_debugger_of_wait_completion_method_cache;
}
DbgEngineErrorCode
mono_de_set_interp_var (MonoType *t, gpointer addr, guint8 *val_buf)
{
int size;
if (m_type_is_byref (t)) {
addr = *(gpointer*)addr;
if (!addr)
return ERR_INVALID_OBJECT;
}
if (MONO_TYPE_IS_REFERENCE (t))
size = sizeof (gpointer);
else
size = mono_class_value_size (mono_class_from_mono_type_internal (t), NULL);
memcpy (addr, val_buf, size);
return ERR_NONE;
}
#endif
|
/**
* \file
* Debugger Engine shared code.
*
* Author:
* Zoltan Varga ([email protected])
* Rodrigo Kumpera ([email protected])
*
* Licensed under the MIT license. See LICENSE file in the project root for full license information.
*/
#include <config.h>
#include <mono/mini/mini-runtime.h>
#if !defined (DISABLE_SDB) || defined(TARGET_WASM)
#include <glib.h>
#include <mono/mini/seq-points.h>
#include <mono/mini/aot-runtime.h>
#include "debugger-engine.h"
#include "debugger-state-machine.h"
#include <mono/metadata/debug-internals.h>
static void mono_de_ss_start (SingleStepReq *ss_req, SingleStepArgs *ss_args);
static gboolean mono_de_ss_update (SingleStepReq *req, MonoJitInfo *ji, SeqPoint *sp, void *tls, MonoContext *ctx, MonoMethod* method);
static gpointer get_this_addr(DbgEngineStackFrame* the_frame);
static MonoMethod* get_set_notification_method(MonoClass* async_builder_class);
static DebuggerEngineCallbacks rt_callbacks;
/*
* Logging support
*/
static int log_level;
static FILE *log_file;
/*
* Locking
*/
#define dbg_lock() mono_coop_mutex_lock (&debug_mutex)
#define dbg_unlock() mono_coop_mutex_unlock (&debug_mutex)
static MonoCoopMutex debug_mutex;
void
mono_de_lock (void)
{
dbg_lock ();
}
void
mono_de_unlock (void)
{
dbg_unlock ();
}
/*
* Domain support
*/
/* A hash table containing all active domains */
/* Protected by the loader lock */
static GHashTable *domains;
static void
domains_init (void)
{
domains = g_hash_table_new (mono_aligned_addr_hash, NULL);
}
static void
domains_cleanup (void)
{
//FIXME can we safely destroy `domains`?
}
/*
* mono_de_foreach_domain:
*
* Iterate over all domains under debugging. Caller must take the loader lock.
*
* FIXME can we move the locking to here? Callers in sdb must be properly audited.
*/
void
mono_de_foreach_domain (GHFunc func, gpointer user_data)
{
g_hash_table_foreach (domains, func, user_data);
}
/*
* LOCKING: Takes the loader lock
*/
void
mono_de_domain_add (MonoDomain *domain)
{
mono_loader_lock ();
g_hash_table_insert (domains, domain, domain);
mono_loader_unlock ();
}
/*
* BREAKPOINTS
*/
/* List of breakpoints */
/* Protected by the loader lock */
static GPtrArray *breakpoints;
/* Maps breakpoint locations to the number of breakpoints at that location */
static GHashTable *bp_locs;
static void
breakpoints_init (void)
{
breakpoints = g_ptr_array_new ();
bp_locs = g_hash_table_new (NULL, NULL);
}
/*
* insert_breakpoint:
*
* Insert the breakpoint described by BP into the method described by
* JI.
*/
static void
insert_breakpoint (MonoSeqPointInfo *seq_points, MonoDomain *domain, MonoJitInfo *ji, MonoBreakpoint *bp, MonoError *error)
{
int count;
BreakpointInstance *inst;
SeqPointIterator it;
gboolean it_has_sp = FALSE;
if (error)
error_init (error);
mono_seq_point_iterator_init (&it, seq_points);
while (mono_seq_point_iterator_next (&it)) {
if (it.seq_point.il_offset == bp->il_offset) {
it_has_sp = TRUE;
break;
}
}
if (!it_has_sp) {
/*
* The set of IL offsets with seq points doesn't completely match the
* info returned by CMD_METHOD_GET_DEBUG_INFO (#407).
*/
mono_seq_point_iterator_init (&it, seq_points);
while (mono_seq_point_iterator_next (&it)) {
if (it.seq_point.il_offset != METHOD_ENTRY_IL_OFFSET &&
it.seq_point.il_offset != METHOD_EXIT_IL_OFFSET &&
it.seq_point.il_offset + 1 == bp->il_offset) {
it_has_sp = TRUE;
break;
}
}
}
if (!it_has_sp) {
char *s = g_strdup_printf ("Unable to insert breakpoint at %s:%ld", mono_method_full_name (jinfo_get_method (ji), TRUE), bp->il_offset);
mono_seq_point_iterator_init (&it, seq_points);
while (mono_seq_point_iterator_next (&it))
PRINT_DEBUG_MSG (1, "%d\n", it.seq_point.il_offset);
if (error) {
mono_error_set_error (error, MONO_ERROR_GENERIC, "%s", s);
g_warning ("%s", s);
g_free (s);
return;
} else {
g_warning ("%s", s);
g_free (s);
return;
}
}
inst = g_new0 (BreakpointInstance, 1);
inst->il_offset = it.seq_point.il_offset;
inst->native_offset = it.seq_point.native_offset;
inst->ip = (guint8*)ji->code_start + it.seq_point.native_offset;
inst->ji = ji;
inst->domain = domain;
mono_loader_lock ();
g_ptr_array_add (bp->children, inst);
mono_loader_unlock ();
dbg_lock ();
count = GPOINTER_TO_INT (g_hash_table_lookup (bp_locs, inst->ip));
g_hash_table_insert (bp_locs, inst->ip, GINT_TO_POINTER (count + 1));
dbg_unlock ();
if (it.seq_point.native_offset == SEQ_POINT_NATIVE_OFFSET_DEAD_CODE) {
PRINT_DEBUG_MSG (1, "[dbg] Attempting to insert seq point at dead IL offset %d, ignoring.\n", (int)bp->il_offset);
} else if (count == 0) {
if (ji->is_interp) {
mini_get_interp_callbacks_api ()->set_breakpoint (ji, inst->ip);
} else {
#ifdef MONO_ARCH_SOFT_DEBUG_SUPPORTED
mono_arch_set_breakpoint (ji, inst->ip);
#else
NOT_IMPLEMENTED;
#endif
}
}
PRINT_DEBUG_MSG (1, "[dbg] Inserted breakpoint at %s:[il=0x%x,native=0x%x] [%p](%d).\n", mono_method_full_name (jinfo_get_method (ji), TRUE), (int)it.seq_point.il_offset, (int)it.seq_point.native_offset, inst->ip, count);
}
static void
remove_breakpoint (BreakpointInstance *inst)
{
int count;
MonoJitInfo *ji = inst->ji;
guint8 *ip = inst->ip;
dbg_lock ();
count = GPOINTER_TO_INT (g_hash_table_lookup (bp_locs, ip));
g_hash_table_insert (bp_locs, ip, GINT_TO_POINTER (count - 1));
dbg_unlock ();
g_assert (count > 0);
if (count == 1 && inst->native_offset != SEQ_POINT_NATIVE_OFFSET_DEAD_CODE) {
if (ji->is_interp) {
mini_get_interp_callbacks_api ()->clear_breakpoint (ji, ip);
} else {
#ifdef MONO_ARCH_SOFT_DEBUG_SUPPORTED
mono_arch_clear_breakpoint (ji, ip);
#else
NOT_IMPLEMENTED;
#endif
}
PRINT_DEBUG_MSG (1, "[dbg] Clear breakpoint at %s [%p].\n", mono_method_full_name (jinfo_get_method (ji), TRUE), ip);
}
}
/*
* This doesn't take any locks.
*/
static gboolean
bp_matches_method (MonoBreakpoint *bp, MonoMethod *method)
{
int i;
if (!bp->method)
return TRUE;
if (method == bp->method)
return TRUE;
if (method->is_inflated && ((MonoMethodInflated*)method)->declaring == bp->method)
return TRUE;
if (bp->method->is_inflated && method->is_inflated) {
MonoMethodInflated *bpimethod = (MonoMethodInflated*)bp->method;
MonoMethodInflated *imethod = (MonoMethodInflated*)method;
/* Open generic methods should match closed generic methods of the same class */
if (bpimethod->declaring == imethod->declaring && bpimethod->context.class_inst == imethod->context.class_inst && bpimethod->context.method_inst && bpimethod->context.method_inst->is_open) {
for (i = 0; i < bpimethod->context.method_inst->type_argc; ++i) {
MonoType *t1 = bpimethod->context.method_inst->type_argv [i];
/* FIXME: Handle !mvar */
if (t1->type != MONO_TYPE_MVAR)
return FALSE;
}
return TRUE;
}
}
return FALSE;
}
/*
* mono_de_add_pending_breakpoints:
*
* Insert pending breakpoints into the newly JITted method METHOD.
*/
void
mono_de_add_pending_breakpoints (MonoMethod *method, MonoJitInfo *ji)
{
int i, j;
MonoSeqPointInfo *seq_points;
MonoDomain *domain;
if (!breakpoints)
return;
domain = mono_domain_get ();
mono_loader_lock ();
for (i = 0; i < breakpoints->len; ++i) {
MonoBreakpoint *bp = (MonoBreakpoint *)g_ptr_array_index (breakpoints, i);
gboolean found = FALSE;
if (!bp_matches_method (bp, method))
continue;
for (j = 0; j < bp->children->len; ++j) {
BreakpointInstance *inst = (BreakpointInstance *)g_ptr_array_index (bp->children, j);
if (inst->ji == ji)
found = TRUE;
}
if (!found) {
seq_points = (MonoSeqPointInfo *) ji->seq_points;
if (!seq_points) {
MonoMethod *jmethod = jinfo_get_method (ji);
if (jmethod->is_inflated) {
MonoJitInfo *seq_ji;
MonoMethod *declaring = mono_method_get_declaring_generic_method (jmethod);
mono_jit_search_all_backends_for_jit_info (declaring, &seq_ji);
seq_points = (MonoSeqPointInfo *) seq_ji->seq_points;
}
}
if (!seq_points)
/* Could be AOT code, or above "search_all_backends" call could have failed */
continue;
insert_breakpoint (seq_points, domain, ji, bp, NULL);
}
}
mono_loader_unlock ();
}
static void
set_bp_in_method (MonoDomain *domain, MonoMethod *method, MonoSeqPointInfo *seq_points, MonoBreakpoint *bp, MonoError *error)
{
MonoJitInfo *ji;
if (error)
error_init (error);
(void)mono_jit_search_all_backends_for_jit_info (method, &ji);
g_assert (ji);
insert_breakpoint (seq_points, domain, ji, bp, error);
}
typedef struct {
MonoBreakpoint *bp;
GPtrArray *methods;
GPtrArray *method_domains;
GPtrArray *method_seq_points;
} CollectDomainData;
static void
collect_domain_bp (gpointer key, gpointer value, gpointer user_data)
{
GHashTableIter iter;
MonoSeqPointInfo *seq_points;
MonoDomain *domain = (MonoDomain*)key;
CollectDomainData *ud = (CollectDomainData*)user_data;
MonoMethod *m;
// FIXME:
MonoJitMemoryManager *jit_mm = get_default_jit_mm ();
jit_mm_lock (jit_mm);
g_hash_table_iter_init (&iter, jit_mm->seq_points);
while (g_hash_table_iter_next (&iter, (void**)&m, (void**)&seq_points)) {
if (bp_matches_method (ud->bp, m)) {
/* Save the info locally to simplify the code inside the domain lock */
g_ptr_array_add (ud->methods, m);
g_ptr_array_add (ud->method_domains, domain);
g_ptr_array_add (ud->method_seq_points, seq_points);
}
}
jit_mm_unlock (jit_mm);
}
/*
* mono_de_set_breakpoint:
*
* Set a breakpoint at IL_OFFSET in METHOD.
* METHOD can be NULL, in which case a breakpoint is placed in all methods.
* METHOD can also be a generic method definition, in which case a breakpoint
* is placed in all instances of the method.
* If ERROR is non-NULL, then it is set and NULL is returnd if some breakpoints couldn't be
* inserted.
*/
MonoBreakpoint*
mono_de_set_breakpoint (MonoMethod *method, long il_offset, EventRequest *req, MonoError *error)
{
MonoBreakpoint *bp;
MonoDomain *domain;
MonoMethod *m;
MonoSeqPointInfo *seq_points;
GPtrArray *methods;
GPtrArray *method_domains;
GPtrArray *method_seq_points;
int i;
if (error)
error_init (error);
// FIXME:
// - suspend/resume the vm to prevent code patching problems
// - multiple breakpoints on the same location
// - dynamic methods
// - races
bp = g_new0 (MonoBreakpoint, 1);
bp->method = method;
bp->il_offset = il_offset;
bp->req = req;
bp->children = g_ptr_array_new ();
PRINT_DEBUG_MSG (1, "[dbg] Setting %sbreakpoint at %s:0x%x.\n", (req->event_kind == EVENT_KIND_STEP) ? "single step " : "", method ? mono_method_full_name (method, TRUE) : "<all>", (int)il_offset);
methods = g_ptr_array_new ();
method_domains = g_ptr_array_new ();
method_seq_points = g_ptr_array_new ();
mono_loader_lock ();
CollectDomainData user_data;
memset (&user_data, 0, sizeof (user_data));
user_data.bp = bp;
user_data.methods = methods;
user_data.method_domains = method_domains;
user_data.method_seq_points = method_seq_points;
mono_de_foreach_domain (collect_domain_bp, &user_data);
for (i = 0; i < methods->len; ++i) {
m = (MonoMethod *)g_ptr_array_index (methods, i);
domain = (MonoDomain *)g_ptr_array_index (method_domains, i);
seq_points = (MonoSeqPointInfo *)g_ptr_array_index (method_seq_points, i);
set_bp_in_method (domain, m, seq_points, bp, error);
}
g_ptr_array_add (breakpoints, bp);
mono_debugger_log_add_bp (bp, bp->method, bp->il_offset);
mono_loader_unlock ();
g_ptr_array_free (methods, TRUE);
g_ptr_array_free (method_domains, TRUE);
g_ptr_array_free (method_seq_points, TRUE);
if (error && !is_ok (error)) {
mono_de_clear_breakpoint (bp);
return NULL;
}
return bp;
}
void
mono_de_clear_breakpoint (MonoBreakpoint *bp)
{
int i;
// FIXME: locking, races
for (i = 0; i < bp->children->len; ++i) {
BreakpointInstance *inst = (BreakpointInstance *)g_ptr_array_index (bp->children, i);
remove_breakpoint (inst);
g_free (inst);
}
mono_loader_lock ();
mono_debugger_log_remove_bp (bp, bp->method, bp->il_offset);
g_ptr_array_remove (breakpoints, bp);
mono_loader_unlock ();
g_ptr_array_free (bp->children, TRUE);
g_free (bp);
}
void
mono_de_collect_breakpoints_by_sp (SeqPoint *sp, MonoJitInfo *ji, GPtrArray *ss_reqs, GPtrArray *bp_reqs)
{
for (int i = 0; i < breakpoints->len; ++i) {
MonoBreakpoint *bp = (MonoBreakpoint *)g_ptr_array_index (breakpoints, i);
if (!bp->method)
continue;
for (int j = 0; j < bp->children->len; ++j) {
BreakpointInstance *inst = (BreakpointInstance *)g_ptr_array_index (bp->children, j);
if (inst->ji == ji && inst->il_offset == sp->il_offset && inst->native_offset == sp->native_offset) {
if (bp->req->event_kind == EVENT_KIND_STEP) {
if (ss_reqs)
g_ptr_array_add (ss_reqs, bp->req);
} else {
if (bp_reqs)
g_ptr_array_add (bp_reqs, bp->req);
}
}
}
}
}
static void
breakpoints_cleanup (void)
{
int i;
mono_loader_lock ();
for (i = 0; i < breakpoints->len; ++i)
g_free (g_ptr_array_index (breakpoints, i));
g_ptr_array_free (breakpoints, TRUE);
g_hash_table_destroy (bp_locs);
breakpoints = NULL;
bp_locs = NULL;
mono_loader_unlock ();
}
/*
* mono_de_clear_breakpoints_for_domain:
*
* Clear breakpoint instances which reference DOMAIN.
*/
void
mono_de_clear_breakpoints_for_domain (MonoDomain *domain)
{
int i, j;
/* This could be called after shutdown */
if (!breakpoints)
return;
mono_loader_lock ();
for (i = 0; i < breakpoints->len; ++i) {
MonoBreakpoint *bp = (MonoBreakpoint *)g_ptr_array_index (breakpoints, i);
j = 0;
while (j < bp->children->len) {
BreakpointInstance *inst = (BreakpointInstance *)g_ptr_array_index (bp->children, j);
if (inst->domain == domain) {
remove_breakpoint (inst);
g_free (inst);
g_ptr_array_remove_index_fast (bp->children, j);
} else {
j ++;
}
}
}
mono_loader_unlock ();
}
/* Single stepping engine */
/* Number of single stepping operations in progress */
static int ss_count;
/* The single step request instances */
static GPtrArray *the_ss_reqs;
static void
ss_req_init (void)
{
the_ss_reqs = g_ptr_array_new ();
}
static void
ss_req_cleanup (void)
{
dbg_lock ();
g_ptr_array_free (the_ss_reqs, TRUE);
the_ss_reqs = NULL;
dbg_unlock ();
}
/*
* mono_de_start_single_stepping:
*
* Turn on single stepping. Can be called multiple times, for example,
* by a single step event request + a suspend.
*/
void
mono_de_start_single_stepping (void)
{
int val = mono_atomic_inc_i32 (&ss_count);
if (val == 1) {
#ifdef MONO_ARCH_SOFT_DEBUG_SUPPORTED
mono_arch_start_single_stepping ();
#endif
mini_get_interp_callbacks_api ()->start_single_stepping ();
}
}
void
mono_de_stop_single_stepping (void)
{
int val = mono_atomic_dec_i32 (&ss_count);
if (val == 0) {
#ifdef MONO_ARCH_SOFT_DEBUG_SUPPORTED
mono_arch_stop_single_stepping ();
#endif
mini_get_interp_callbacks_api ()->stop_single_stepping ();
}
}
static MonoJitInfo*
get_top_method_ji (gpointer ip, MonoDomain **domain, gpointer *out_ip)
{
MonoJitInfo *ji;
if (out_ip)
*out_ip = ip;
if (domain)
*domain = mono_get_root_domain ();
ji = mini_jit_info_table_find (ip);
if (!ji) {
/* Could be an interpreter method */
MonoLMF *lmf = mono_get_lmf ();
MonoInterpFrameHandle *frame;
g_assert (((gsize)lmf->previous_lmf) & 2);
MonoLMFExt *ext = (MonoLMFExt*)lmf;
g_assert (ext->kind == MONO_LMFEXT_INTERP_EXIT || ext->kind == MONO_LMFEXT_INTERP_EXIT_WITH_CTX);
frame = (MonoInterpFrameHandle*)ext->interp_exit_data;
ji = mini_get_interp_callbacks_api ()->frame_get_jit_info (frame);
if (domain)
*domain = mono_domain_get ();
if (out_ip)
*out_ip = mini_get_interp_callbacks_api ()->frame_get_ip (frame);
}
return ji;
}
static void
no_seq_points_found (MonoMethod *method, int offset)
{
/*
* This can happen in full-aot mode with assemblies AOTed without the 'soft-debug' option to save space.
*/
PRINT_MSG ("Unable to find seq points for method '%s', offset 0x%x.\n", mono_method_full_name (method, TRUE), offset);
}
static const char*
ss_depth_to_string (StepDepth depth)
{
switch (depth) {
case STEP_DEPTH_OVER:
return "over";
case STEP_DEPTH_OUT:
return "out";
case STEP_DEPTH_INTO:
return "into";
default:
g_assert_not_reached ();
return NULL;
}
}
/*
* ss_stop:
*
* Stop the single stepping operation given by SS_REQ.
*/
static void
ss_stop (SingleStepReq *ss_req)
{
if (ss_req->bps) {
GSList *l;
for (l = ss_req->bps; l; l = l->next) {
mono_de_clear_breakpoint ((MonoBreakpoint *)l->data);
}
g_slist_free (ss_req->bps);
ss_req->bps = NULL;
}
ss_req->async_id = 0;
ss_req->async_stepout_method = NULL;
if (ss_req->global) {
mono_de_stop_single_stepping ();
ss_req->global = FALSE;
}
}
static void
ss_destroy (SingleStepReq *req)
{
PRINT_DEBUG_MSG (1, "[dbg] ss_destroy.\n");
ss_stop (req);
g_free (req);
}
static SingleStepReq*
ss_req_acquire (MonoInternalThread *thread)
{
SingleStepReq *req = NULL;
dbg_lock ();
int i;
for (i = 0; i < the_ss_reqs->len; ++i) {
SingleStepReq *current_req = (SingleStepReq *)g_ptr_array_index (the_ss_reqs, i);
if (current_req->thread == thread) {
current_req->refcount ++;
req = current_req;
}
}
dbg_unlock ();
return req;
}
static int
ss_req_count (void)
{
return the_ss_reqs->len;
}
static void
mono_de_ss_req_release (SingleStepReq *req)
{
gboolean free = FALSE;
dbg_lock ();
g_assert (req->refcount);
req->refcount --;
if (req->refcount == 0)
free = TRUE;
if (free) {
g_ptr_array_remove (the_ss_reqs, req);
ss_destroy (req);
}
dbg_unlock ();
}
void
mono_de_cancel_ss (SingleStepReq *req)
{
if (the_ss_reqs) {
mono_de_ss_req_release (req);
}
}
void
mono_de_cancel_all_ss (void)
{
int i;
for (i = 0; i < the_ss_reqs->len; ++i) {
SingleStepReq *current_req = (SingleStepReq *)g_ptr_array_index (the_ss_reqs, i);
mono_de_ss_req_release (current_req);
}
}
void
mono_de_process_single_step (void *tls, gboolean from_signal)
{
MonoJitInfo *ji;
guint8 *ip;
GPtrArray *reqs;
int il_offset;
MonoDomain *domain;
MonoContext *ctx = rt_callbacks.tls_get_restore_state (tls);
MonoMethod *method;
SeqPoint sp;
MonoSeqPointInfo *info;
SingleStepReq *ss_req;
/* Skip the instruction causing the single step */
rt_callbacks.begin_single_step_processing (ctx, from_signal);
if (rt_callbacks.try_process_suspend (tls, ctx, FALSE))
return;
/*
* This can run concurrently with a clear_event_request () call, so needs locking/reference counts.
*/
ss_req = ss_req_acquire (mono_thread_internal_current ());
if (!ss_req)
// FIXME: A suspend race
return;
ip = (guint8 *)MONO_CONTEXT_GET_IP (ctx);
ji = get_top_method_ji (ip, &domain, (gpointer*)&ip);
g_assert (ji && !ji->is_trampoline);
if (log_level > 0) {
PRINT_DEBUG_MSG (1, "[%p] Single step event (depth=%s) at %s (%p)[0x%x], sp %p, last sp %p\n", (gpointer) (gsize) mono_native_thread_id_get (), ss_depth_to_string (ss_req->depth), mono_method_full_name (jinfo_get_method (ji), TRUE), MONO_CONTEXT_GET_IP (ctx), (int)((guint8*)MONO_CONTEXT_GET_IP (ctx) - (guint8*)ji->code_start), MONO_CONTEXT_GET_SP (ctx), ss_req->last_sp);
}
method = jinfo_get_method (ji);
g_assert (method);
if (method->wrapper_type && method->wrapper_type != MONO_WRAPPER_DYNAMIC_METHOD)
goto exit;
/*
* FIXME:
* Stopping in memset makes half-initialized vtypes visible.
* Stopping in memcpy makes half-copied vtypes visible.
*/
if (method->klass == mono_get_string_class () && (!strcmp (method->name, "memset") || strstr (method->name, "memcpy")))
goto exit;
/*
* This could be in mono_de_ss_update method, but mono_find_next_seq_point_for_native_offset is pretty expensive method,
* hence we prefer this check here.
*/
if (ss_req->user_assemblies) {
gboolean found = FALSE;
for (int k = 0; ss_req->user_assemblies[k]; k++)
if (ss_req->user_assemblies[k] == m_class_get_image (method->klass)->assembly) {
found = TRUE;
break;
}
if (!found)
goto exit;
}
/*
* The ip points to the instruction causing the single step event, which is before
* the offset recorded in the seq point map, so find the next seq point after ip.
*/
if (!mono_find_next_seq_point_for_native_offset (method, (guint8*)ip - (guint8*)ji->code_start, &info, &sp)) {
g_assert_not_reached ();
goto exit;
}
il_offset = sp.il_offset;
if (!mono_de_ss_update (ss_req, ji, &sp, tls, ctx, method))
goto exit;
/* Start single stepping again from the current sequence point */
SingleStepArgs args;
memset (&args, 0, sizeof (args));
args.method = method;
args.ctx = ctx;
args.tls = tls;
args.step_to_catch = FALSE;
args.sp = sp;
args.info = info;
args.frames = NULL;
args.nframes = 0;
mono_de_ss_start (ss_req, &args);
if ((ss_req->filter & STEP_FILTER_STATIC_CTOR) &&
(method->flags & METHOD_ATTRIBUTE_SPECIAL_NAME) &&
!strcmp (method->name, ".cctor"))
goto exit;
// FIXME: Has to lock earlier
reqs = g_ptr_array_new ();
mono_loader_lock ();
g_ptr_array_add (reqs, ss_req->req);
void *bp_events;
bp_events = mono_dbg_create_breakpoint_events (reqs, NULL, ji, EVENT_KIND_BREAKPOINT);
g_ptr_array_free (reqs, TRUE);
mono_loader_unlock ();
mono_dbg_process_breakpoint_events (bp_events, method, ctx, il_offset);
exit:
mono_de_ss_req_release (ss_req);
}
/*
* mono_de_ss_update:
*
* Return FALSE if single stepping needs to continue.
*/
static gboolean
mono_de_ss_update (SingleStepReq *req, MonoJitInfo *ji, SeqPoint *sp, void *tls, MonoContext *ctx, MonoMethod* method)
{
MonoDebugMethodInfo *minfo;
MonoDebugSourceLocation *loc = NULL;
gboolean hit = TRUE;
if ((req->filter & STEP_FILTER_STATIC_CTOR)) {
DbgEngineStackFrame **frames;
int nframes;
rt_callbacks.ss_calculate_framecount (tls, ctx, TRUE, &frames, &nframes);
gboolean ret = FALSE;
gboolean method_in_stack = FALSE;
for (int i = 0; i < nframes; i++) {
MonoMethod *external_method = frames [i]->method;
if (method == external_method)
method_in_stack = TRUE;
if (!ret) {
ret = (external_method->flags & METHOD_ATTRIBUTE_SPECIAL_NAME);
ret = ret && !strcmp (external_method->name, ".cctor");
ret = ret && (external_method != req->start_method);
}
}
if (!method_in_stack) {
PRINT_ERROR_MSG ("[%p] The instruction pointer of the currently executing method(%s) is not on the recorded stack. This is likely due to a runtime bug. The %d frames are as follow: \n", (gpointer)(gsize)mono_native_thread_id_get (), mono_method_full_name (method, TRUE), nframes);
/*PRINT_DEBUG_MSG (1, "[%p] The instruction pointer of the currently executing method(%s) is not on the recorded stack. This is likely due to a runtime bug. The %d frames are as follow: \n", (gpointer)(gsize)mono_native_thread_id_get (), mono_method_full_name (method, TRUE), tls->frame_count);*/
for (int i=0; i < nframes; i++)
PRINT_ERROR_MSG ("\t [%p] Frame (%d / %d): %s\n", (gpointer)(gsize)mono_native_thread_id_get (), i, nframes, mono_method_full_name (frames [i]->method, TRUE));
}
rt_callbacks.ss_discard_frame_context (tls);
if (ret)
return FALSE;
}
if (req->async_stepout_method == method) {
PRINT_DEBUG_MSG (1, "[%p] Breakpoint hit during async step-out at %s hit, continuing stepping out.\n", (gpointer)(gsize)mono_native_thread_id_get (), method->name);
return FALSE;
}
if (req->depth == STEP_DEPTH_OVER && (sp->flags & MONO_SEQ_POINT_FLAG_NONEMPTY_STACK) && !(sp->flags & MONO_SEQ_POINT_FLAG_NESTED_CALL)) {
/*
* These seq points are inserted by the JIT after calls, step over needs to skip them.
*/
PRINT_DEBUG_MSG (1, "[%p] Seq point at nonempty stack %x while stepping over, continuing single stepping.\n", (gpointer) (gsize) mono_native_thread_id_get (), sp->il_offset);
return FALSE;
}
if ((req->depth == STEP_DEPTH_OVER || req->depth == STEP_DEPTH_OUT) && hit && !req->async_stepout_method) {
gboolean is_step_out = req->depth == STEP_DEPTH_OUT;
int nframes;
rt_callbacks.ss_calculate_framecount (tls, ctx, FALSE, NULL, &nframes);
// Because functions can call themselves recursively, we need to make sure we're stopping at the right stack depth.
// In case of step out, the target is the frame *enclosing* the one where the request was made.
int target_frames = req->nframes + (is_step_out ? -1 : 0);
if (req->nframes > 0 && nframes > 0 && nframes > target_frames) {
/* Hit the breakpoint in a recursive call, don't halt */
PRINT_DEBUG_MSG (1, "[%p] Breakpoint at lower frame while stepping %s, continuing single stepping.\n", (gpointer) (gsize) mono_native_thread_id_get (), is_step_out ? "out" : "over");
return FALSE;
}
}
if (req->depth == STEP_DEPTH_INTO && req->size == STEP_SIZE_MIN && (sp->flags & MONO_SEQ_POINT_FLAG_NONEMPTY_STACK) && req->start_method) {
int nframes;
rt_callbacks.ss_calculate_framecount (tls, ctx, FALSE, NULL, &nframes);
if (req->start_method == method && req->nframes && nframes == req->nframes) { //Check also frame count(could be recursion)
PRINT_DEBUG_MSG (1, "[%p] Seq point at nonempty stack %x while stepping in, continuing single stepping.\n", (gpointer) (gsize) mono_native_thread_id_get (), sp->il_offset);
return FALSE;
}
}
MonoDebugMethodAsyncInfo* async_method = mono_debug_lookup_method_async_debug_info (method);
if (async_method) {
for (int i = 0; i < async_method->num_awaits; i++) {
if (async_method->yield_offsets[i] == sp->il_offset || async_method->resume_offsets[i] == sp->il_offset) {
mono_debug_free_method_async_debug_info (async_method);
return FALSE;
}
}
mono_debug_free_method_async_debug_info (async_method);
}
if (req->size != STEP_SIZE_LINE)
return TRUE;
/* Have to check whenever a different source line was reached */
minfo = mono_debug_lookup_method (method);
if (minfo)
loc = mono_debug_method_lookup_location (minfo, sp->il_offset);
if (!loc) {
PRINT_DEBUG_MSG (1, "[%p] No line number info for il offset %x, continuing single stepping.\n", (gpointer) (gsize) mono_native_thread_id_get (), sp->il_offset);
req->last_method = method;
hit = FALSE;
} else if (loc && method == req->last_method && loc->row == req->last_line) {
int nframes;
rt_callbacks.ss_calculate_framecount (tls, ctx, FALSE, NULL, &nframes);
if (nframes == req->nframes) { // If the frame has changed we're clearly not on the same source line.
PRINT_DEBUG_MSG (1, "[%p] Same source line (%d), continuing single stepping.\n", (gpointer) (gsize) mono_native_thread_id_get (), loc->row);
hit = FALSE;
}
}
if (loc) {
req->last_method = method;
req->last_line = loc->row;
mono_debug_free_source_location (loc);
}
return hit;
}
void
mono_de_process_breakpoint (void *void_tls, gboolean from_signal)
{
DebuggerTlsData *tls = (DebuggerTlsData*)void_tls;
MonoJitInfo *ji;
guint8 *ip;
int i;
guint32 native_offset;
GPtrArray *bp_reqs, *ss_reqs_orig, *ss_reqs;
EventKind kind = EVENT_KIND_BREAKPOINT;
MonoContext *ctx = rt_callbacks.tls_get_restore_state (tls);
MonoMethod *method;
MonoSeqPointInfo *info;
SeqPoint sp;
gboolean found_sp;
if (rt_callbacks.try_process_suspend (tls, ctx, TRUE))
return;
ip = (guint8 *)MONO_CONTEXT_GET_IP (ctx);
ji = get_top_method_ji (ip, NULL, (gpointer*)&ip);
g_assert (ji && !ji->is_trampoline);
method = jinfo_get_method (ji);
/* Compute the native offset of the breakpoint from the ip */
native_offset = ip - (guint8*)ji->code_start;
if (!rt_callbacks.begin_breakpoint_processing (tls, ctx, ji, from_signal))
return;
if (method->wrapper_type)
return;
bp_reqs = g_ptr_array_new ();
ss_reqs = g_ptr_array_new ();
ss_reqs_orig = g_ptr_array_new ();
mono_loader_lock ();
/*
* The ip points to the instruction causing the breakpoint event, which is after
* the offset recorded in the seq point map, so find the prev seq point before ip.
*/
found_sp = mono_find_prev_seq_point_for_native_offset (method, native_offset, &info, &sp);
if (!found_sp)
no_seq_points_found (method, native_offset);
g_assert (found_sp);
PRINT_DEBUG_MSG (1, "[%p] Breakpoint hit, method=%s, ip=%p, [il=0x%x,native=0x%x].\n", (gpointer) (gsize) mono_native_thread_id_get (), method->name, ip, sp.il_offset, native_offset);
mono_debugger_log_bp_hit (tls, method, sp.il_offset);
mono_de_collect_breakpoints_by_sp (&sp, ji, ss_reqs_orig, bp_reqs);
if (bp_reqs->len == 0 && ss_reqs_orig->len == 0) {
/* Maybe a method entry/exit event */
if (sp.il_offset == METHOD_ENTRY_IL_OFFSET)
kind = EVENT_KIND_METHOD_ENTRY;
else if (sp.il_offset == METHOD_EXIT_IL_OFFSET)
kind = EVENT_KIND_METHOD_EXIT;
}
/* Process single step requests */
for (i = 0; i < ss_reqs_orig->len; ++i) {
EventRequest *req = (EventRequest *)g_ptr_array_index (ss_reqs_orig, i);
SingleStepReq *ss_req = (SingleStepReq *)req->info;
gboolean hit;
//if we hit async_stepout_method, it's our no matter which thread
if ((ss_req->async_stepout_method != method) && (ss_req->async_id || mono_thread_internal_current () != ss_req->thread)) {
DbgEngineStackFrame **frames;
int nframes;
//We have different thread and we don't have async stepping in progress
//it's breakpoint in parallel thread, ignore it
if (ss_req->async_id == 0)
continue;
rt_callbacks.ss_discard_frame_context (tls);
rt_callbacks.ss_calculate_framecount (tls, ctx, FALSE, &frames, &nframes);
//make sure we have enough data to get current async method instance id
if (nframes == 0 || !rt_callbacks.ensure_jit (frames [0]))
continue;
//Check method is async before calling get_this_async_id
MonoDebugMethodAsyncInfo* asyncMethod = mono_debug_lookup_method_async_debug_info (method);
if (!asyncMethod)
continue;
else
mono_debug_free_method_async_debug_info (asyncMethod);
//breakpoint was hit in parallelly executing async method, ignore it
if (ss_req->async_id != mono_de_frame_async_id (frames [0]))
continue;
}
//Update stepping request to new thread/frame_count that we are continuing on
//so continuing with normal stepping works as expected
if (ss_req->async_stepout_method || ss_req->async_id) {
int nframes;
rt_callbacks.ss_discard_frame_context (tls);
rt_callbacks.ss_calculate_framecount (tls, ctx, FALSE, NULL, &nframes);
ss_req->thread = mono_thread_internal_current ();
ss_req->nframes = nframes;
}
hit = mono_de_ss_update (ss_req, ji, &sp, tls, ctx, method);
if (hit)
g_ptr_array_add (ss_reqs, req);
SingleStepArgs args;
memset (&args, 0, sizeof (args));
args.method = method;
args.ctx = ctx;
args.tls = tls;
args.step_to_catch = FALSE;
args.sp = sp;
args.info = info;
args.frames = NULL;
args.nframes = 0;
mono_de_ss_start (ss_req, &args);
}
void *bp_events = mono_dbg_create_breakpoint_events (ss_reqs, bp_reqs, ji, kind);
mono_loader_unlock ();
g_ptr_array_free (bp_reqs, TRUE);
g_ptr_array_free (ss_reqs, TRUE);
mono_dbg_process_breakpoint_events (bp_events, method, ctx, sp.il_offset);
}
/*
* ss_bp_is_unique:
*
* Reject breakpoint if it is a duplicate of one already in list or hash table.
*/
static gboolean
ss_bp_is_unique (GSList *bps, GHashTable *ss_req_bp_cache, MonoMethod *method, guint32 il_offset)
{
if (ss_req_bp_cache) {
MonoBreakpoint dummy = {method, (long)il_offset, NULL, NULL};
return !g_hash_table_lookup (ss_req_bp_cache, &dummy);
}
for (GSList *l = bps; l; l = l->next) {
MonoBreakpoint *bp = (MonoBreakpoint *)l->data;
if (bp->method == method && bp->il_offset == il_offset)
return FALSE;
}
return TRUE;
}
/*
* ss_bp_eq:
*
* GHashTable equality for a MonoBreakpoint (only care about method and il_offset fields)
*/
static gint
ss_bp_eq (gconstpointer ka, gconstpointer kb)
{
const MonoBreakpoint *s1 = (const MonoBreakpoint *)ka;
const MonoBreakpoint *s2 = (const MonoBreakpoint *)kb;
return (s1->method == s2->method && s1->il_offset == s2->il_offset) ? 1 : 0;
}
/*
* ss_bp_eq:
*
* GHashTable hash for a MonoBreakpoint (only care about method and il_offset fields)
*/
static guint
ss_bp_hash (gconstpointer data)
{
const MonoBreakpoint *s = (const MonoBreakpoint *)data;
guint hash = (guint) (uintptr_t) s->method;
hash ^= ((guint)s->il_offset) << 16; // Assume low bits are more interesting
hash ^= ((guint)s->il_offset) >> 16;
return hash;
}
#define MAX_LINEAR_SCAN_BPS 7
/*
* ss_bp_add_one:
*
* Create a new breakpoint and add it to a step request.
* Will adjust the bp count and cache used by mono_de_ss_start.
*/
static void
ss_bp_add_one (SingleStepReq *ss_req, int *ss_req_bp_count, GHashTable **ss_req_bp_cache,
MonoMethod *method, guint32 il_offset)
{
// This list is getting too long, switch to using the hash table
if (!*ss_req_bp_cache && *ss_req_bp_count > MAX_LINEAR_SCAN_BPS) {
*ss_req_bp_cache = g_hash_table_new (ss_bp_hash, ss_bp_eq);
for (GSList *l = ss_req->bps; l; l = l->next)
g_hash_table_insert (*ss_req_bp_cache, l->data, l->data);
}
if (ss_bp_is_unique (ss_req->bps, *ss_req_bp_cache, method, il_offset)) {
// Create and add breakpoint
MonoBreakpoint *bp = mono_de_set_breakpoint (method, il_offset, ss_req->req, NULL);
ss_req->bps = g_slist_append (ss_req->bps, bp);
if (*ss_req_bp_cache)
g_hash_table_insert (*ss_req_bp_cache, bp, bp);
(*ss_req_bp_count)++;
} else {
PRINT_DEBUG_MSG (1, "[dbg] Candidate breakpoint at %s:[il=0x%x] is a duplicate for this step request, will not add.\n", mono_method_full_name (method, TRUE), (int)il_offset);
}
}
static gboolean
is_last_non_empty (SeqPoint* sp, MonoSeqPointInfo *info)
{
if (!sp->next_len)
return TRUE;
SeqPoint* next = g_new (SeqPoint, sp->next_len);
mono_seq_point_init_next (info, *sp, next);
for (int i = 0; i < sp->next_len; i++) {
if (next [i].flags & MONO_SEQ_POINT_FLAG_NONEMPTY_STACK && !(next [i].flags & MONO_SEQ_POINT_FLAG_NESTED_CALL)) {
if (!is_last_non_empty (&next [i], info)) {
g_free (next);
return FALSE;
}
} else {
g_free (next);
return FALSE;
}
}
g_free (next);
return TRUE;
}
/*
* mono_de_ss_start:
*
* Start the single stepping operation given by SS_REQ from the sequence point SP.
* If CTX is not set, then this can target any thread. If CTX is set, then TLS should
* belong to the same thread as CTX.
* If FRAMES is not-null, use that instead of tls->frames for placing breakpoints etc.
*/
static void
mono_de_ss_start (SingleStepReq *ss_req, SingleStepArgs *ss_args)
{
int i, j, frame_index;
SeqPoint *next_sp, *parent_sp = NULL;
SeqPoint local_sp, local_parent_sp;
gboolean found_sp;
MonoSeqPointInfo *parent_info;
MonoMethod *parent_sp_method = NULL;
gboolean enable_global = FALSE;
// When 8 or more entries are in bps, we build a hash table to serve as a set of breakpoints.
// Recreating this on each pass is a little wasteful but at least keeps behavior linear.
int ss_req_bp_count = g_slist_length (ss_req->bps);
GHashTable *ss_req_bp_cache = NULL;
/* Stop the previous operation */
ss_stop (ss_req);
gboolean locked = FALSE;
void *tls = ss_args->tls;
MonoMethod *method = ss_args->method;
DbgEngineStackFrame **frames = ss_args->frames;
int nframes = ss_args->nframes;
SeqPoint *sp = &ss_args->sp;
/* this can happen on a single step in a exception on android (Mono_UnhandledException_internal) and on IOS */
if (!method)
return;
/*
* Implement single stepping using breakpoints if possible.
*/
if (ss_args->step_to_catch) {
ss_bp_add_one (ss_req, &ss_req_bp_count, &ss_req_bp_cache, method, sp->il_offset);
} else {
frame_index = 1;
#ifndef TARGET_WASM
if (ss_args->ctx && !frames) {
#else
if (!frames) {
#endif
mono_loader_lock ();
locked = TRUE;
/* Need parent frames */
rt_callbacks.ss_calculate_framecount (tls, ss_args->ctx, FALSE, &frames, &nframes);
}
MonoDebugMethodAsyncInfo* asyncMethod = mono_debug_lookup_method_async_debug_info (method);
/* Need to stop in catch clauses as well */
for (i = ss_req->depth == STEP_DEPTH_OUT ? 1 : 0; i < nframes; ++i) {
DbgEngineStackFrame *frame = frames [i];
if (frame->ji) {
MonoJitInfo *jinfo = frame->ji;
for (j = 0; j < jinfo->num_clauses; ++j) {
// In case of async method we don't want to place breakpoint on last catch handler(which state machine added for whole method)
if (asyncMethod && asyncMethod->num_awaits && i == 0 && j + 1 == jinfo->num_clauses)
break;
MonoJitExceptionInfo *ei = &jinfo->clauses [j];
if (mono_find_next_seq_point_for_native_offset (frame->method, (char*)ei->handler_start - (char*)jinfo->code_start, NULL, &local_sp))
ss_bp_add_one (ss_req, &ss_req_bp_count, &ss_req_bp_cache, frame->method, local_sp.il_offset);
}
}
}
if (asyncMethod && asyncMethod->num_awaits && nframes && rt_callbacks.ensure_jit (frames [0])) {
//asyncMethod has value and num_awaits > 0, this means we are inside async method with awaits
// Check if we hit yield_offset during normal stepping, because if we did...
// Go into special async stepping mode which places breakpoint on resumeOffset
// of this await call and sets async_id so we can distinguish it from parallel executions
for (i = 0; i < asyncMethod->num_awaits; i++) {
if (sp->il_offset == asyncMethod->yield_offsets [i]) {
ss_req->async_id = mono_de_frame_async_id (frames [0]);
ss_bp_add_one (ss_req, &ss_req_bp_count, &ss_req_bp_cache, method, asyncMethod->resume_offsets [i]);
g_hash_table_destroy (ss_req_bp_cache);
mono_debug_free_method_async_debug_info (asyncMethod);
if (locked)
mono_loader_unlock ();
goto cleanup;
}
}
//If we are at end of async method and doing step-in or step-over...
//Switch to step-out, so whole NotifyDebuggerOfWaitCompletion magic happens...
if (is_last_non_empty (sp, ss_args->info)) {
ss_req->depth = STEP_DEPTH_OUT;//setting depth to step-out is important, don't inline IF, because code later depends on this
}
if (ss_req->depth == STEP_DEPTH_OUT) {
//If we are inside `async void` method, do normal step-out
if (set_set_notification_for_wait_completion_flag (frames [0])) {
ss_req->async_id = mono_de_frame_async_id (frames [0]);
ss_req->async_stepout_method = get_notify_debugger_of_wait_completion_method ();
ss_bp_add_one (ss_req, &ss_req_bp_count, &ss_req_bp_cache, ss_req->async_stepout_method, 0);
g_hash_table_destroy (ss_req_bp_cache);
mono_debug_free_method_async_debug_info (asyncMethod);
if (locked)
mono_loader_unlock ();
goto cleanup;
}
}
}
if (asyncMethod)
mono_debug_free_method_async_debug_info (asyncMethod);
/*
* Find the first sequence point in the current or in a previous frame which
* is not the last in its method.
*/
if (ss_req->depth == STEP_DEPTH_OUT) {
/* Ignore seq points in current method */
while (frame_index < nframes) {
DbgEngineStackFrame *frame = frames [frame_index];
method = frame->method;
found_sp = mono_find_prev_seq_point_for_native_offset (frame->method, frame->native_offset, &ss_args->info, &local_sp);
sp = (found_sp)? &local_sp : NULL;
frame_index ++;
if (sp && sp->next_len != 0)
break;
}
// There could be method calls before the next seq point in the caller when using nested calls
//enable_global = TRUE;
} else {
if (sp && sp->next_len == 0) {
sp = NULL;
while (frame_index < nframes) {
DbgEngineStackFrame *frame = frames [frame_index];
method = frame->method;
found_sp = mono_find_prev_seq_point_for_native_offset (frame->method, frame->native_offset, &ss_args->info, &local_sp);
sp = (found_sp)? &local_sp : NULL;
if (sp && sp->next_len != 0)
break;
sp = NULL;
frame_index ++;
}
} else {
/* Have to put a breakpoint into a parent frame since the seq points might not cover all control flow out of the method */
while (frame_index < nframes) {
DbgEngineStackFrame *frame = frames [frame_index];
parent_sp_method = frame->method;
found_sp = mono_find_prev_seq_point_for_native_offset (frame->method, frame->native_offset, &parent_info, &local_parent_sp);
parent_sp = found_sp ? &local_parent_sp : NULL;
if (found_sp && parent_sp->next_len != 0)
break;
parent_sp = NULL;
frame_index ++;
}
}
}
if (sp && sp->next_len > 0) {
SeqPoint* next = g_new(SeqPoint, sp->next_len);
mono_seq_point_init_next (ss_args->info, *sp, next);
for (i = 0; i < sp->next_len; i++) {
next_sp = &next[i];
ss_bp_add_one (ss_req, &ss_req_bp_count, &ss_req_bp_cache, method, next_sp->il_offset);
}
g_free (next);
}
if (parent_sp) {
SeqPoint* next = g_new(SeqPoint, parent_sp->next_len);
mono_seq_point_init_next (parent_info, *parent_sp, next);
for (i = 0; i < parent_sp->next_len; i++) {
next_sp = &next[i];
ss_bp_add_one (ss_req, &ss_req_bp_count, &ss_req_bp_cache, parent_sp_method, next_sp->il_offset);
}
g_free (next);
}
if (ss_req->nframes == 0)
ss_req->nframes = nframes;
if ((ss_req->depth == STEP_DEPTH_OVER) && (!sp && !parent_sp)) {
PRINT_DEBUG_MSG (1, "[dbg] No parent frame for step over, transition to step into.\n");
/*
* This is needed since if we leave managed code, and later return to it, step over
* is not going to stop.
* This approach is a bit ugly, since we change the step depth, but it only affects
* clients who reuse the same step request, and only in this special case.
*/
ss_req->depth = STEP_DEPTH_INTO;
}
if (ss_req->depth == STEP_DEPTH_INTO) {
/* Enable global stepping so we stop at method entry too */
enable_global = TRUE;
}
/*
* The ctx/frame info computed above will become invalid when we continue.
*/
rt_callbacks.ss_discard_frame_context (tls);
}
if (enable_global) {
PRINT_DEBUG_MSG (1, "[dbg] Turning on global single stepping.\n");
ss_req->global = TRUE;
mono_de_start_single_stepping ();
} else if (!ss_req->bps) {
PRINT_DEBUG_MSG (1, "[dbg] Turning on global single stepping.\n");
ss_req->global = TRUE;
mono_de_start_single_stepping ();
} else {
ss_req->global = FALSE;
}
g_hash_table_destroy (ss_req_bp_cache);
if (locked)
mono_loader_unlock ();
cleanup:
mono_ss_args_destroy (ss_args);
}
/*
* Start single stepping of thread THREAD
*/
DbgEngineErrorCode
mono_de_ss_create (MonoInternalThread *thread, StepSize size, StepDepth depth, StepFilter filter, EventRequest *req)
{
int err = rt_callbacks.ensure_runtime_is_suspended ();
if (err)
return err;
// FIXME: Multiple requests
if (ss_req_count () > 1) {
err = rt_callbacks.handle_multiple_ss_requests ();
if (err == DE_ERR_NOT_IMPLEMENTED) {
PRINT_DEBUG_MSG (0, "Received a single step request while the previous one was still active.\n");
return DE_ERR_NOT_IMPLEMENTED;
}
}
PRINT_DEBUG_MSG (1, "[dbg] Starting single step of thread %p (depth=%s).\n", thread, ss_depth_to_string (depth));
SingleStepReq *ss_req = g_new0 (SingleStepReq, 1);
ss_req->req = req;
ss_req->thread = thread;
ss_req->size = size;
ss_req->depth = depth;
ss_req->filter = filter;
ss_req->refcount = 1;
req->info = ss_req;
for (int i = 0; i < req->nmodifiers; i++) {
if (req->modifiers[i].kind == MOD_KIND_ASSEMBLY_ONLY) {
ss_req->user_assemblies = req->modifiers[i].data.assemblies;
break;
}
}
SingleStepArgs args;
err = mono_ss_create_init_args (ss_req, &args);
if (err)
return err;
g_ptr_array_add (the_ss_reqs, ss_req);
mono_de_ss_start (ss_req, &args);
return DE_ERR_NONE;
}
/*
* mono_de_set_log_level:
*
* Configures logging level and output file. Must be called together with mono_de_init.
*/
void
mono_de_set_log_level (int level, FILE *file)
{
log_level = level;
log_file = file;
}
/*
* mono_de_init:
*
* Inits the shared debugger engine. Not reentrant.
*/
void
mono_de_init (DebuggerEngineCallbacks *cbs)
{
rt_callbacks = *cbs;
mono_coop_mutex_init_recursive (&debug_mutex);
domains_init ();
breakpoints_init ();
ss_req_init ();
mono_debugger_log_init ();
}
void
mono_de_cleanup (void)
{
breakpoints_cleanup ();
domains_cleanup ();
ss_req_cleanup ();
}
void
mono_debugger_free_objref (gpointer value)
{
ObjRef *o = (ObjRef *)value;
mono_gchandle_free_internal (o->handle);
g_free (o);
}
// Returns true if TaskBuilder has NotifyDebuggerOfWaitCompletion method
// false if not(AsyncVoidBuilder)
MonoClass *
get_class_to_get_builder_field (DbgEngineStackFrame *frame)
{
ERROR_DECL (error);
StackFrame *the_frame = (StackFrame *)frame;
gpointer this_addr = get_this_addr (frame);
MonoClass *original_class = frame->method->klass;
MonoClass *ret;
if (mono_class_is_open_constructed_type (m_class_get_byval_arg (original_class))) {
MonoObject *this_obj = *(MonoObject**)this_addr;
MonoGenericContext context;
MonoType *inflated_type;
if (!this_obj)
return NULL;
context = mono_get_generic_context_from_stack_frame (frame->ji, mono_get_generic_info_from_stack_frame (frame->ji, &the_frame->ctx));
inflated_type = mono_class_inflate_generic_type_checked (m_class_get_byval_arg (original_class), &context, error);
mono_error_assert_ok (error); /* FIXME don't swallow the error */
ret = mono_class_from_mono_type_internal (inflated_type);
mono_metadata_free_type (inflated_type);
return ret;
}
return original_class;
}
gboolean
set_set_notification_for_wait_completion_flag (DbgEngineStackFrame *frame)
{
MonoClassField *builder_field = mono_class_get_field_from_name_full (get_class_to_get_builder_field(frame), "<>t__builder", NULL);
if (!builder_field)
return FALSE;
gpointer builder = get_async_method_builder (frame);
if (!builder)
return FALSE;
MonoMethod* method = get_set_notification_method (mono_class_from_mono_type_internal (builder_field->type));
if (method == NULL)
return FALSE;
gboolean arg = TRUE;
ERROR_DECL (error);
void *args [ ] = { &arg };
mono_runtime_invoke_checked (method, builder, args, error);
mono_error_assert_ok (error);
return TRUE;
}
MonoMethod*
get_object_id_for_debugger_method (MonoClass* async_builder_class)
{
ERROR_DECL (error);
GPtrArray *array = mono_class_get_methods_by_name (async_builder_class, "get_ObjectIdForDebugger", 0x24, 1, FALSE, error);
mono_error_assert_ok (error);
if (array->len != 1) {
g_ptr_array_free (array, TRUE);
//if we don't find method get_ObjectIdForDebugger we try to find the property Task to continue async debug.
MonoProperty *prop = mono_class_get_property_from_name_internal (async_builder_class, "Task");
if (!prop) {
PRINT_DEBUG_MSG (1, "Impossible to debug async methods.\n");
return NULL;
}
return prop->get;
}
MonoMethod *method = (MonoMethod *)g_ptr_array_index (array, 0);
g_ptr_array_free (array, TRUE);
return method;
}
static gpointer
get_this_addr (DbgEngineStackFrame *the_frame)
{
StackFrame *frame = (StackFrame *)the_frame;
if (frame->de.ji->is_interp)
return mini_get_interp_callbacks_api ()->frame_get_this (frame->interp_frame);
MonoDebugVarInfo *var = frame->jit->this_var;
if ((var->index & MONO_DEBUG_VAR_ADDRESS_MODE_FLAGS) != MONO_DEBUG_VAR_ADDRESS_MODE_REGOFFSET)
return NULL;
guint8 *addr = (guint8 *)mono_arch_context_get_int_reg (&frame->ctx, var->index & ~MONO_DEBUG_VAR_ADDRESS_MODE_FLAGS);
addr += (gint32)var->offset;
return addr;
}
/* Return the address of the AsyncMethodBuilder struct belonging to the state machine method pointed to by FRAME */
gpointer
get_async_method_builder (DbgEngineStackFrame *frame)
{
MonoObject *this_obj;
MonoClassField *builder_field;
gpointer builder;
gpointer this_addr;
MonoClass* klass = frame->method->klass;
klass = get_class_to_get_builder_field(frame);
builder_field = mono_class_get_field_from_name_full (klass, "<>t__builder", NULL);
if (!builder_field)
return NULL;
this_addr = get_this_addr (frame);
if (!this_addr)
return NULL;
if (m_class_is_valuetype (klass)) {
builder = mono_vtype_get_field_addr (*(guint8**)this_addr, builder_field);
} else {
this_obj = *(MonoObject**)this_addr;
builder = (char*)this_obj + builder_field->offset;
}
return builder;
}
static MonoMethod*
get_set_notification_method (MonoClass* async_builder_class)
{
ERROR_DECL (error);
GPtrArray* array = mono_class_get_methods_by_name (async_builder_class, "SetNotificationForWaitCompletion", 0x24, 1, FALSE, error);
mono_error_assert_ok (error);
if (array->len == 0) {
g_ptr_array_free (array, TRUE);
return NULL;
}
MonoMethod* set_notification_method = (MonoMethod *)g_ptr_array_index (array, 0);
g_ptr_array_free (array, TRUE);
return set_notification_method;
}
static MonoMethod* notify_debugger_of_wait_completion_method_cache;
MonoMethod*
get_notify_debugger_of_wait_completion_method (void)
{
if (notify_debugger_of_wait_completion_method_cache != NULL)
return notify_debugger_of_wait_completion_method_cache;
ERROR_DECL (error);
MonoClass* task_class = mono_class_load_from_name (mono_get_corlib (), "System.Threading.Tasks", "Task");
GPtrArray* array = mono_class_get_methods_by_name (task_class, "NotifyDebuggerOfWaitCompletion", 0x24, 1, FALSE, error);
mono_error_assert_ok (error);
g_assert (array->len == 1);
notify_debugger_of_wait_completion_method_cache = (MonoMethod *)g_ptr_array_index (array, 0);
g_ptr_array_free (array, TRUE);
return notify_debugger_of_wait_completion_method_cache;
}
DbgEngineErrorCode
mono_de_set_interp_var (MonoType *t, gpointer addr, guint8 *val_buf)
{
int size;
if (m_type_is_byref (t)) {
addr = *(gpointer*)addr;
if (!addr)
return ERR_INVALID_OBJECT;
}
if (MONO_TYPE_IS_REFERENCE (t))
size = sizeof (gpointer);
else
size = mono_class_value_size (mono_class_from_mono_type_internal (t), NULL);
memcpy (addr, val_buf, size);
return ERR_NONE;
}
#endif
| -1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/coreclr/pal/src/libunwind/src/x86_64/Lstep.c
|
#define UNW_LOCAL_ONLY
#include <libunwind.h>
#if defined(UNW_LOCAL_ONLY) && !defined(UNW_REMOTE_ONLY)
#include "Gstep.c"
#endif
|
#define UNW_LOCAL_ONLY
#include <libunwind.h>
#if defined(UNW_LOCAL_ONLY) && !defined(UNW_REMOTE_ONLY)
#include "Gstep.c"
#endif
| -1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/coreclr/pal/src/libunwind/src/aarch64/Gregs.c
|
/* libunwind - a platform-independent unwind library
Copyright (C) 2008 CodeSourcery
Copyright (C) 2012 Tommi Rantala <[email protected]>
Copyright (C) 2013 Linaro Limited
This file is part of libunwind.
Permission is hereby granted, free of charge, to any person obtaining
a copy of this software and associated documentation files (the
"Software"), to deal in the Software without restriction, including
without limitation the rights to use, copy, modify, merge, publish,
distribute, sublicense, and/or sell copies of the Software, and to
permit persons to whom the Software is furnished to do so, subject to
the following conditions:
The above copyright notice and this permission notice shall be
included in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */
#include "unwind_i.h"
HIDDEN int
tdep_access_reg (struct cursor *c, unw_regnum_t reg, unw_word_t *valp,
int write)
{
dwarf_loc_t loc = DWARF_NULL_LOC;
unsigned int mask;
switch (reg)
{
case UNW_AARCH64_X0:
case UNW_AARCH64_X1:
case UNW_AARCH64_X2:
case UNW_AARCH64_X3:
mask = 1 << reg;
if (write)
{
c->dwarf.eh_args[reg] = *valp;
c->dwarf.eh_valid_mask |= mask;
return 0;
}
else if ((c->dwarf.eh_valid_mask & mask) != 0)
{
*valp = c->dwarf.eh_args[reg];
return 0;
}
else
loc = c->dwarf.loc[reg];
break;
case UNW_AARCH64_X30:
if (write)
c->dwarf.ip = *valp; /* update the IP cache */
case UNW_AARCH64_X4:
case UNW_AARCH64_X5:
case UNW_AARCH64_X6:
case UNW_AARCH64_X7:
case UNW_AARCH64_X8:
case UNW_AARCH64_X9:
case UNW_AARCH64_X10:
case UNW_AARCH64_X11:
case UNW_AARCH64_X12:
case UNW_AARCH64_X13:
case UNW_AARCH64_X14:
case UNW_AARCH64_X15:
case UNW_AARCH64_X16:
case UNW_AARCH64_X17:
case UNW_AARCH64_X18:
case UNW_AARCH64_X19:
case UNW_AARCH64_X20:
case UNW_AARCH64_X21:
case UNW_AARCH64_X22:
case UNW_AARCH64_X23:
case UNW_AARCH64_X24:
case UNW_AARCH64_X25:
case UNW_AARCH64_X26:
case UNW_AARCH64_X27:
case UNW_AARCH64_X28:
case UNW_AARCH64_X29:
case UNW_AARCH64_PC:
case UNW_AARCH64_PSTATE:
loc = c->dwarf.loc[reg];
break;
case UNW_AARCH64_SP:
if (write)
return -UNW_EREADONLYREG;
*valp = c->dwarf.cfa;
return 0;
default:
Debug (1, "bad register number %u\n", reg);
return -UNW_EBADREG;
}
if (write)
return dwarf_put (&c->dwarf, loc, *valp);
else
return dwarf_get (&c->dwarf, loc, valp);
}
HIDDEN int
tdep_access_fpreg (struct cursor *c, unw_regnum_t reg, unw_fpreg_t *valp,
int write)
{
dwarf_loc_t loc = c->dwarf.loc[reg];
if (write)
return dwarf_putfp (&c->dwarf, loc, *valp);
else
return dwarf_getfp (&c->dwarf, loc, valp);
}
|
/* libunwind - a platform-independent unwind library
Copyright (C) 2008 CodeSourcery
Copyright (C) 2012 Tommi Rantala <[email protected]>
Copyright (C) 2013 Linaro Limited
This file is part of libunwind.
Permission is hereby granted, free of charge, to any person obtaining
a copy of this software and associated documentation files (the
"Software"), to deal in the Software without restriction, including
without limitation the rights to use, copy, modify, merge, publish,
distribute, sublicense, and/or sell copies of the Software, and to
permit persons to whom the Software is furnished to do so, subject to
the following conditions:
The above copyright notice and this permission notice shall be
included in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */
#include "unwind_i.h"
HIDDEN int
tdep_access_reg (struct cursor *c, unw_regnum_t reg, unw_word_t *valp,
int write)
{
dwarf_loc_t loc = DWARF_NULL_LOC;
unsigned int mask;
switch (reg)
{
case UNW_AARCH64_X0:
case UNW_AARCH64_X1:
case UNW_AARCH64_X2:
case UNW_AARCH64_X3:
mask = 1 << reg;
if (write)
{
c->dwarf.eh_args[reg] = *valp;
c->dwarf.eh_valid_mask |= mask;
return 0;
}
else if ((c->dwarf.eh_valid_mask & mask) != 0)
{
*valp = c->dwarf.eh_args[reg];
return 0;
}
else
loc = c->dwarf.loc[reg];
break;
case UNW_AARCH64_X30:
if (write)
c->dwarf.ip = *valp; /* update the IP cache */
case UNW_AARCH64_X4:
case UNW_AARCH64_X5:
case UNW_AARCH64_X6:
case UNW_AARCH64_X7:
case UNW_AARCH64_X8:
case UNW_AARCH64_X9:
case UNW_AARCH64_X10:
case UNW_AARCH64_X11:
case UNW_AARCH64_X12:
case UNW_AARCH64_X13:
case UNW_AARCH64_X14:
case UNW_AARCH64_X15:
case UNW_AARCH64_X16:
case UNW_AARCH64_X17:
case UNW_AARCH64_X18:
case UNW_AARCH64_X19:
case UNW_AARCH64_X20:
case UNW_AARCH64_X21:
case UNW_AARCH64_X22:
case UNW_AARCH64_X23:
case UNW_AARCH64_X24:
case UNW_AARCH64_X25:
case UNW_AARCH64_X26:
case UNW_AARCH64_X27:
case UNW_AARCH64_X28:
case UNW_AARCH64_X29:
case UNW_AARCH64_PC:
case UNW_AARCH64_PSTATE:
loc = c->dwarf.loc[reg];
break;
case UNW_AARCH64_SP:
if (write)
return -UNW_EREADONLYREG;
*valp = c->dwarf.cfa;
return 0;
default:
Debug (1, "bad register number %u\n", reg);
return -UNW_EBADREG;
}
if (write)
return dwarf_put (&c->dwarf, loc, *valp);
else
return dwarf_get (&c->dwarf, loc, valp);
}
HIDDEN int
tdep_access_fpreg (struct cursor *c, unw_regnum_t reg, unw_fpreg_t *valp,
int write)
{
dwarf_loc_t loc = c->dwarf.loc[reg];
if (write)
return dwarf_putfp (&c->dwarf, loc, *valp);
else
return dwarf_getfp (&c->dwarf, loc, valp);
}
| -1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/coreclr/md/inc/mdinternalrw.h
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
//*****************************************************************************
// MDInternalRW.h
//
//
// Contains utility code for MD directory
//
//*****************************************************************************
#ifndef __MDInternalRW__h__
#define __MDInternalRW__h__
#ifdef FEATURE_METADATA_INTERNAL_APIS
#include "../inc/mdlog.h"
class UTSemReadWrite;
class MDInternalRW : public IMDInternalImportENC, public IMDCommon
{
friend class VerifyLayoutsMD;
public:
MDInternalRW();
virtual ~MDInternalRW();
__checkReturn
HRESULT Init(LPVOID pData, ULONG cbData, int bReadOnly);
__checkReturn
HRESULT InitWithStgdb(IUnknown *pUnk, CLiteWeightStgdbRW *pStgdb);
__checkReturn
HRESULT InitWithRO(MDInternalRO *pRO, int bReadOnly);
// *** IUnknown methods ***
__checkReturn
STDMETHODIMP QueryInterface(REFIID riid, void** ppv);
STDMETHODIMP_(ULONG) AddRef(void);
STDMETHODIMP_(ULONG) Release(void);
__checkReturn
STDMETHODIMP TranslateSigWithScope(
IMDInternalImport *pAssemImport, // [IN] import assembly scope.
const void *pbHashValue, // [IN] hash value for the import assembly.
ULONG cbHashValue, // [IN] count of bytes in the hash value.
PCCOR_SIGNATURE pbSigBlob, // [IN] signature in the importing scope
ULONG cbSigBlob, // [IN] count of bytes of signature
IMetaDataAssemblyEmit *pAssemEmit, // [IN] assembly emit scope.
IMetaDataEmit *emit, // [IN] emit interface
CQuickBytes *pqkSigEmit, // [OUT] buffer to hold translated signature
ULONG *pcbSig) // [OUT] count of bytes in the translated signature
DAC_UNEXPECTED();
__checkReturn
STDMETHODIMP GetTypeDefRefTokenInTypeSpec(// return S_FALSE if enclosing type does not have a token
mdTypeSpec tkTypeSpec, // [IN] TypeSpec token to look at
mdToken *tkEnclosedToken) // [OUT] The enclosed type token
DAC_UNEXPECTED();
STDMETHODIMP_(IMetaModelCommon*) GetMetaModelCommon()
{
return static_cast<IMetaModelCommon*>(&m_pStgdb->m_MiniMd);
}
STDMETHODIMP_(IMetaModelCommonRO*) GetMetaModelCommonRO()
{
if (m_pStgdb->m_MiniMd.IsWritable())
{
_ASSERTE(!"IMetaModelCommonRO methods cannot be used because this importer is writable.");
return NULL;
}
return static_cast<IMetaModelCommonRO*>(&m_pStgdb->m_MiniMd);
}
__checkReturn
STDMETHODIMP SetOptimizeAccessForSpeed(// return hresult
BOOL fOptSpeed)
{
// If there is any optional work we can avoid (for example, because we have
// traded space for speed) this is the place to turn it off or on.
return S_OK;
}
//*****************************************************************************
// return the count of entries of a given kind in a scope
// For example, pass in mdtMethodDef will tell you how many MethodDef
// contained in a scope
//*****************************************************************************
STDMETHODIMP_(ULONG) GetCountWithTokenKind(// return hresult
DWORD tkKind) // [IN] pass in the kind of token.
DAC_UNEXPECTED();
//*****************************************************************************
// enumerator for typedef
//*****************************************************************************
__checkReturn
STDMETHODIMP EnumTypeDefInit( // return hresult
HENUMInternal *phEnum); // [OUT] buffer to fill for enumerator data
//*****************************************************************************
// enumerator for MethodImpl
//*****************************************************************************
__checkReturn
STDMETHODIMP EnumMethodImplInit( // return hresult
mdTypeDef td, // [IN] TypeDef over which to scope the enumeration.
HENUMInternal *phEnumBody, // [OUT] buffer to fill for enumerator data for MethodBody tokens.
HENUMInternal *phEnumDecl) // [OUT] buffer to fill for enumerator data for MethodDecl tokens.
DAC_UNEXPECTED();
STDMETHODIMP_(ULONG) EnumMethodImplGetCount(
HENUMInternal *phEnumBody, // [IN] MethodBody enumerator.
HENUMInternal *phEnumDecl) // [IN] MethodDecl enumerator.
DAC_UNEXPECTED();
STDMETHODIMP_(void) EnumMethodImplReset(
HENUMInternal *phEnumBody, // [IN] MethodBody enumerator.
HENUMInternal *phEnumDecl) // [IN] MethodDecl enumerator.
DAC_UNEXPECTED();
__checkReturn
STDMETHODIMP EnumMethodImplNext( // return hresult (S_OK = TRUE, S_FALSE = FALSE or error code)
HENUMInternal *phEnumBody, // [IN] input enum for MethodBody
HENUMInternal *phEnumDecl, // [IN] input enum for MethodDecl
mdToken *ptkBody, // [OUT] return token for MethodBody
mdToken *ptkDecl) // [OUT] return token for MethodDecl
DAC_UNEXPECTED();
STDMETHODIMP_(void) EnumMethodImplClose(
HENUMInternal *phEnumBody, // [IN] MethodBody enumerator.
HENUMInternal *phEnumDecl) // [IN] MethodDecl enumerator.
DAC_UNEXPECTED();
//*****************************************
// Enumerator helpers for memberdef, memberref, interfaceimp,
// event, property, param, methodimpl
//*****************************************
__checkReturn
STDMETHODIMP EnumGlobalFunctionsInit( // return hresult
HENUMInternal *phEnum); // [OUT] buffer to fill for enumerator data
__checkReturn
STDMETHODIMP EnumGlobalFieldsInit( // return hresult
HENUMInternal *phEnum); // [OUT] buffer to fill for enumerator data
__checkReturn
STDMETHODIMP EnumInit( // return S_FALSE if record not found
DWORD tkKind, // [IN] which table to work on
mdToken tkParent, // [IN] token to scope the search
HENUMInternal *phEnum); // [OUT] the enumerator to fill
__checkReturn
STDMETHODIMP EnumAllInit( // return S_FALSE if record not found
DWORD tkKind, // [IN] which table to work on
HENUMInternal *phEnum); // [OUT] the enumerator to fill
__checkReturn
STDMETHODIMP EnumCustomAttributeByNameInit(// return S_FALSE if record not found
mdToken tkParent, // [IN] token to scope the search
LPCSTR szName, // [IN] CustomAttribute's name to scope the search
HENUMInternal *phEnum); // [OUT] the enumerator to fill
__checkReturn
STDMETHODIMP GetParentToken(
mdToken tkChild, // [IN] given child token
mdToken *ptkParent); // [OUT] returning parent
__checkReturn
STDMETHODIMP GetCustomAttributeProps(
mdCustomAttribute at, // The attribute.
mdToken *ptkType); // Put attribute type here.
__checkReturn
STDMETHODIMP GetCustomAttributeAsBlob(
mdCustomAttribute cv, // [IN] given custom attribute token
void const **ppBlob, // [OUT] return the pointer to internal blob
ULONG *pcbSize); // [OUT] return the size of the blob
__checkReturn
STDMETHODIMP GetCustomAttributeByName( // S_OK or error.
mdToken tkObj, // [IN] Object with Custom Attribute.
LPCUTF8 szName, // [IN] Name of desired Custom Attribute.
const void **ppData, // [OUT] Put pointer to data here.
ULONG *pcbData); // [OUT] Put size of data here.
__checkReturn
STDMETHODIMP GetNameOfCustomAttribute( // S_OK or error.
mdCustomAttribute mdAttribute, // [IN] The Custom Attribute
LPCUTF8 *pszNamespace, // [OUT] Namespace of Custom Attribute.
LPCUTF8 *pszName); // [OUT] Name of Custom Attribute.
// returned void in v1.0/v1.1
__checkReturn
STDMETHODIMP GetScopeProps(
LPCSTR *pszName, // [OUT] scope name
GUID *pmvid); // [OUT] version id
// finding a particular method
__checkReturn
STDMETHODIMP FindMethodDef(
mdTypeDef classdef, // [IN] given typedef
LPCSTR szName, // [IN] member name
PCCOR_SIGNATURE pvSigBlob, // [IN] point to a blob value of COM+ signature
ULONG cbSigBlob, // [IN] count of bytes in the signature blob
mdMethodDef *pmd); // [OUT] matching memberdef
// return a iSeq's param given a MethodDef
__checkReturn
STDMETHODIMP FindParamOfMethod( // S_OK or error.
mdMethodDef md, // [IN] The owning method of the param.
ULONG iSeq, // [IN} The sequence # of the param.
mdParamDef *pparamdef); // [OUT] Put ParamDef token here.
//*****************************************
//
// GetName* functions
//
//*****************************************
// return the name and namespace of typedef
__checkReturn
STDMETHODIMP GetNameOfTypeDef(
mdTypeDef classdef, // given classdef
LPCSTR *pszname, // return class name(unqualified)
LPCSTR *psznamespace); // return the name space name
__checkReturn
STDMETHODIMP GetIsDualOfTypeDef(
mdTypeDef classdef, // [IN] given classdef.
ULONG *pDual); // [OUT] return dual flag here.
__checkReturn
STDMETHODIMP GetIfaceTypeOfTypeDef(
mdTypeDef tkTypeDef,
ULONG * pIface); // [OUT] 0=dual, 1=vtable, 2=dispinterface
__checkReturn
STDMETHODIMP GetNameOfMethodDef(
mdMethodDef tkMethodDef,
LPCSTR * pszName);
__checkReturn
STDMETHODIMP GetNameAndSigOfMethodDef(
mdMethodDef methoddef, // [IN] given memberdef
PCCOR_SIGNATURE *ppvSigBlob, // [OUT] point to a blob value of COM+ signature
ULONG *pcbSigBlob, // [OUT] count of bytes in the signature blob
LPCSTR *pszName);
// return the name of a FieldDef
__checkReturn
STDMETHODIMP GetNameOfFieldDef(
mdFieldDef fd, // given memberdef
LPCSTR *pszName);
// return the name of typeref
__checkReturn
STDMETHODIMP GetNameOfTypeRef(
mdTypeRef classref, // [IN] given typeref
LPCSTR *psznamespace, // [OUT] return typeref name
LPCSTR *pszname); // [OUT] return typeref namespace
// return the resolutionscope of typeref
__checkReturn
STDMETHODIMP GetResolutionScopeOfTypeRef(
mdTypeRef classref, // given classref
mdToken *ptkResolutionScope);
// return the typeref token given the name.
__checkReturn
STDMETHODIMP FindTypeRefByName(
LPCSTR szNamespace, // [IN] Namespace for the TypeRef.
LPCSTR szName, // [IN] Name of the TypeRef.
mdToken tkResolutionScope, // [IN] Resolution Scope fo the TypeRef.
mdTypeRef *ptk); // [OUT] TypeRef token returned.
// return the TypeDef properties
__checkReturn
STDMETHODIMP GetTypeDefProps( // return hresult
mdTypeDef classdef, // given classdef
DWORD *pdwAttr, // return flags on class, tdPublic, tdAbstract
mdToken *ptkExtends); // [OUT] Put base class TypeDef/TypeRef here.
// return the item's guid
__checkReturn
STDMETHODIMP GetItemGuid( // return hresult
mdToken tkObj, // [IN] given item.
CLSID *pGuid); // [OUT] Put guid here.
// get enclosing class of NestedClass.
__checkReturn
STDMETHODIMP GetNestedClassProps( // S_OK or error
mdTypeDef tkNestedClass, // [IN] NestedClass token.
mdTypeDef *ptkEnclosingClass); // [OUT] EnclosingClass token.
// Get count of Nested classes given the enclosing class.
__checkReturn
STDMETHODIMP GetCountNestedClasses( // return count of Nested classes.
mdTypeDef tkEnclosingClass, // [IN]Enclosing class.
ULONG *pcNestedClassesCount);
// Return array of Nested classes given the enclosing class.
__checkReturn
STDMETHODIMP GetNestedClasses( // Return actual count.
mdTypeDef tkEnclosingClass, // [IN] Enclosing class.
mdTypeDef *rNestedClasses, // [OUT] Array of nested class tokens.
ULONG ulNestedClasses, // [IN] Size of array.
ULONG *pcNestedClasses);
// return the ModuleRef properties
__checkReturn
STDMETHODIMP GetModuleRefProps(
mdModuleRef mur, // [IN] moduleref token
LPCSTR *pszName); // [OUT] buffer to fill with the moduleref name
//*****************************************
//
// GetSig* functions
//
//*****************************************
__checkReturn
STDMETHODIMP GetSigOfMethodDef(
mdMethodDef methoddef, // [IN] given memberdef
ULONG *pcbSigBlob, // [OUT] count of bytes in the signature blob
PCCOR_SIGNATURE *ppSig);
__checkReturn
STDMETHODIMP GetSigOfFieldDef(
mdMethodDef methoddef, // [IN] given memberdef
ULONG *pcbSigBlob, // [OUT] count of bytes in the signature blob
PCCOR_SIGNATURE *ppSig);
__checkReturn
STDMETHODIMP GetSigFromToken(
mdToken tk, // FieldDef, MethodDef, Signature or TypeSpec token
ULONG * pcbSig,
PCCOR_SIGNATURE * ppSig);
//*****************************************
// get method property
//*****************************************
__checkReturn
STDMETHODIMP GetMethodDefProps(
mdMethodDef md, // The method for which to get props.
DWORD *pdwFlags);
STDMETHODIMP_(ULONG) GetMethodDefSlot(
mdMethodDef mb); // The method for which to get props.
//*****************************************
// return method implementation informaiton, like RVA and implflags
//*****************************************
__checkReturn
STDMETHODIMP GetMethodImplProps(
mdToken tk, // [IN] MethodDef or MethodImpl
DWORD *pulCodeRVA, // [OUT] CodeRVA
DWORD *pdwImplFlags); // [OUT] Impl. Flags
//*****************************************************************************
// return the field RVA
//*****************************************************************************
__checkReturn
STDMETHODIMP GetFieldRVA(
mdToken fd, // [IN] FieldDef
ULONG *pulCodeRVA); // [OUT] CodeRVA
//*****************************************************************************
// return the field offset for a given field
//*****************************************************************************
__checkReturn
STDMETHODIMP GetFieldOffset(
mdFieldDef fd, // [IN] fielddef
ULONG *pulOffset); // [OUT] FieldOffset
//*****************************************
// get field property
//*****************************************
__checkReturn
STDMETHODIMP GetFieldDefProps(
mdFieldDef fd, // [IN] given fielddef
DWORD *pdwFlags); // [OUT] return fdPublic, fdPrive, etc flags
//*****************************************************************************
// return default value of a token(could be paramdef, fielddef, or property
//*****************************************************************************
__checkReturn
STDMETHODIMP GetDefaultValue(
mdToken tk, // [IN] given FieldDef, ParamDef, or Property
MDDefaultValue *pDefaultValue); // [OUT] default value to fill
//*****************************************
// get dispid of a MethodDef or a FieldDef
//*****************************************
__checkReturn
STDMETHODIMP GetDispIdOfMemberDef( // return hresult
mdToken tk, // [IN] given methoddef or fielddef
ULONG *pDispid); // [OUT] Put the dispid here.
//*****************************************
// return TypeRef/TypeDef given an InterfaceImpl token
//*****************************************
__checkReturn
STDMETHODIMP GetTypeOfInterfaceImpl( // return the TypeRef/typedef token for the interfaceimpl
mdInterfaceImpl iiImpl, // given a interfaceimpl
mdToken *ptkType);
__checkReturn
STDMETHODIMP GetMethodSpecProps(
mdMethodSpec mi, // [IN] The method instantiation
mdToken *tkParent, // [OUT] MethodDef or MemberRef
PCCOR_SIGNATURE *ppvSigBlob, // [OUT] point to the blob value of meta data
ULONG *pcbSigBlob); // [OUT] actual size of signature blob
//*****************************************
// look up function for TypeDef
//*****************************************
__checkReturn
STDMETHODIMP FindTypeDef(
LPCSTR szNamespace, // [IN] Namespace for the TypeDef.
LPCSTR szName, // [IN] Name of the TypeDef.
mdToken tkEnclosingClass, // [IN] TypeDef/TypeRef of enclosing class.
mdTypeDef *ptypedef); // [OUT] return typedef
__checkReturn
STDMETHODIMP FindTypeDefByGUID(
REFGUID guid, // guid to look up
mdTypeDef *ptypedef); // return typedef
//*****************************************
// return name and sig of a memberref
//*****************************************
__checkReturn
STDMETHODIMP GetNameAndSigOfMemberRef( // return name here
mdMemberRef memberref, // given memberref
PCCOR_SIGNATURE *ppvSigBlob, // [OUT] point to a blob value of COM+ signature
ULONG *pcbSigBlob, // [OUT] count of bytes in the signature blob
LPCSTR *pszName);
//*****************************************************************************
// Given memberref, return the parent. It can be TypeRef, ModuleRef, MethodDef
//*****************************************************************************
__checkReturn
STDMETHODIMP GetParentOfMemberRef(
mdMemberRef memberref, // given memberref
mdToken *ptkParent); // return the parent token
__checkReturn
STDMETHODIMP GetParamDefProps(
mdParamDef paramdef, // given a paramdef
USHORT *pusSequence, // [OUT] slot number for this parameter
DWORD *pdwAttr, // [OUT] flags
LPCSTR *pszName); // [OUT] return the name of the parameter
//******************************************
// property info for method.
//******************************************
__checkReturn
STDMETHODIMP GetPropertyInfoForMethodDef( // Result.
mdMethodDef md, // [IN] memberdef
mdProperty *ppd, // [OUT] put property token here
LPCSTR *pName, // [OUT] put pointer to name here
ULONG *pSemantic); // [OUT] put semantic here
//*****************************************
// class layout/sequence information
//*****************************************
__checkReturn
STDMETHODIMP GetClassPackSize( // [OUT] return error if a class doesn't have packsize info
mdTypeDef td, // [IN] give typedef
ULONG *pdwPackSize); // [OUT] return the pack size of the class. 1, 2, 4, 8 or 16
__checkReturn
STDMETHODIMP GetClassTotalSize( // [OUT] return error if a class doesn't have total size info
mdTypeDef td, // [IN] give typedef
ULONG *pdwClassSize); // [OUT] return the total size of the class
__checkReturn
STDMETHODIMP GetClassLayoutInit(
mdTypeDef td, // [IN] give typedef
MD_CLASS_LAYOUT *pLayout); // [OUT] set up the status of query here
__checkReturn
STDMETHODIMP GetClassLayoutNext(
MD_CLASS_LAYOUT *pLayout, // [IN|OUT] set up the status of query here
mdFieldDef *pfd, // [OUT] return the fielddef
ULONG *pulOffset); // [OUT] return the offset/ulSequence associate with it
//*****************************************
// marshal information of a field
//*****************************************
__checkReturn
STDMETHODIMP GetFieldMarshal( // return error if no native type associate with the token
mdFieldDef fd, // [IN] given fielddef
PCCOR_SIGNATURE *pSigNativeType, // [OUT] the native type signature
ULONG *pcbNativeType); // [OUT] the count of bytes of *ppvNativeType
//*****************************************
// property APIs
//*****************************************
// find a property by name
__checkReturn
STDMETHODIMP FindProperty(
mdTypeDef td, // [IN] given a typdef
LPCSTR szPropName, // [IN] property name
mdProperty *pProp); // [OUT] return property token
__checkReturn
STDMETHODIMP GetPropertyProps(
mdProperty prop, // [IN] property token
LPCSTR *szProperty, // [OUT] property name
DWORD *pdwPropFlags, // [OUT] property flags.
PCCOR_SIGNATURE *ppvSig, // [OUT] property type. pointing to meta data internal blob
ULONG *pcbSig); // [OUT] count of bytes in *ppvSig
//**********************************
// Event APIs
//**********************************
__checkReturn
STDMETHODIMP FindEvent(
mdTypeDef td, // [IN] given a typdef
LPCSTR szEventName, // [IN] event name
mdEvent *pEvent); // [OUT] return event token
__checkReturn
STDMETHODIMP GetEventProps( // S_OK, S_FALSE, or error.
mdEvent ev, // [IN] event token
LPCSTR *pszEvent, // [OUT] Event name
DWORD *pdwEventFlags, // [OUT] Event flags.
mdToken *ptkEventType); // [OUT] EventType class
//**********************************
// Generics APIs
//**********************************
__checkReturn
STDMETHODIMP GetGenericParamProps( // S_OK or error.
mdGenericParam rd, // [IN] The type parameter
ULONG* pulSequence, // [OUT] Parameter sequence number
DWORD* pdwAttr, // [OUT] Type parameter flags (for future use)
mdToken *ptOwner, // [OUT] The owner (TypeDef or MethodDef)
DWORD *reserved, // [OUT] The kind (TypeDef/Ref/Spec, for future use)
LPCSTR *szName); // [OUT] The name
__checkReturn
STDMETHODIMP GetGenericParamConstraintProps( // S_OK or error.
mdGenericParamConstraint rd, // [IN] The constraint token
mdGenericParam *ptGenericParam, // [OUT] GenericParam that is constrained
mdToken *ptkConstraintType); // [OUT] TypeDef/Ref/Spec constraint
//**********************************
// find a particular associate of a property or an event
//**********************************
__checkReturn
STDMETHODIMP FindAssociate(
mdToken evprop, // [IN] given a property or event token
DWORD associate, // [IN] given a associate semantics(setter, getter, testdefault, reset, AddOn, RemoveOn, Fire)
mdMethodDef *pmd); // [OUT] return method def token
__checkReturn
STDMETHODIMP EnumAssociateInit(
mdToken evprop, // [IN] given a property or an event token
HENUMInternal *phEnum); // [OUT] cursor to hold the query result
__checkReturn
STDMETHODIMP GetAllAssociates(
HENUMInternal *phEnum, // [IN] query result form GetPropertyAssociateCounts
ASSOCIATE_RECORD *pAssociateRec, // [OUT] struct to fill for output
ULONG cAssociateRec); // [IN] size of the buffer
//**********************************
// Get info about a PermissionSet.
//**********************************
__checkReturn
STDMETHODIMP GetPermissionSetProps(
mdPermission pm, // [IN] the permission token.
DWORD *pdwAction, // [OUT] CorDeclSecurity.
void const **ppvPermission, // [OUT] permission blob.
ULONG *pcbPermission); // [OUT] count of bytes of pvPermission.
//****************************************
// Get the String given the String token.
// Returns a pointer to the string, or NULL in case of error.
//****************************************
__checkReturn
STDMETHODIMP GetUserString(
mdString stk, // [IN] the string token.
ULONG *pchString, // [OUT] count of characters in the string.
BOOL *pbIs80Plus, // [OUT] specifies where there are extended characters >= 0x80.
LPCWSTR *pwszUserString);
//*****************************************************************************
// p-invoke APIs.
//*****************************************************************************
__checkReturn
STDMETHODIMP GetPinvokeMap(
mdToken tk, // [IN] FieldDef or MethodDef.
DWORD *pdwMappingFlags, // [OUT] Flags used for mapping.
LPCSTR *pszImportName, // [OUT] Import name.
mdModuleRef *pmrImportDLL); // [OUT] ModuleRef token for the target DLL.
//*****************************************************************************
// Assembly MetaData APIs.
//*****************************************************************************
__checkReturn
STDMETHODIMP GetAssemblyProps(
mdAssembly mda, // [IN] The Assembly for which to get the properties.
const void **ppbPublicKey, // [OUT] Pointer to the public key.
ULONG *pcbPublicKey, // [OUT] Count of bytes in the public key.
ULONG *pulHashAlgId, // [OUT] Hash Algorithm.
LPCSTR *pszName, // [OUT] Buffer to fill with name.
AssemblyMetaDataInternal *pMetaData,// [OUT] Assembly MetaData.
DWORD *pdwAssemblyFlags); // [OUT] Flags.
__checkReturn
STDMETHODIMP GetAssemblyRefProps(
mdAssemblyRef mdar, // [IN] The AssemblyRef for which to get the properties.
const void **ppbPublicKeyOrToken, // [OUT] Pointer to the public key or token.
ULONG *pcbPublicKeyOrToken, // [OUT] Count of bytes in the public key or token.
LPCSTR *pszName, // [OUT] Buffer to fill with name.
AssemblyMetaDataInternal *pMetaData,// [OUT] Assembly MetaData.
const void **ppbHashValue, // [OUT] Hash blob.
ULONG *pcbHashValue, // [OUT] Count of bytes in the hash blob.
DWORD *pdwAssemblyRefFlags); // [OUT] Flags.
__checkReturn
STDMETHODIMP GetFileProps(
mdFile mdf, // [IN] The File for which to get the properties.
LPCSTR *pszName, // [OUT] Buffer to fill with name.
const void **ppbHashValue, // [OUT] Pointer to the Hash Value Blob.
ULONG *pcbHashValue, // [OUT] Count of bytes in the Hash Value Blob.
DWORD *pdwFileFlags); // [OUT] Flags.
__checkReturn
STDMETHODIMP GetExportedTypeProps(
mdExportedType mdct, // [IN] The ExportedType for which to get the properties.
LPCSTR *pszNamespace, // [OUT] Buffer to fill with namespace.
LPCSTR *pszName, // [OUT] Buffer to fill with name.
mdToken *ptkImplementation, // [OUT] mdFile or mdAssemblyRef that provides the ExportedType.
mdTypeDef *ptkTypeDef, // [OUT] TypeDef token within the file.
DWORD *pdwExportedTypeFlags); // [OUT] Flags.
__checkReturn
STDMETHODIMP GetManifestResourceProps(
mdManifestResource mdmr, // [IN] The ManifestResource for which to get the properties.
LPCSTR *pszName, // [OUT] Buffer to fill with name.
mdToken *ptkImplementation, // [OUT] mdFile or mdAssemblyRef that provides the ExportedType.
DWORD *pdwOffset, // [OUT] Offset to the beginning of the resource within the file.
DWORD *pdwResourceFlags); // [OUT] Flags.
__checkReturn
STDMETHODIMP FindExportedTypeByName( // S_OK or error
LPCSTR szNamespace, // [IN] Namespace of the ExportedType.
LPCSTR szName, // [IN] Name of the ExportedType.
mdExportedType tkEnclosingType, // [IN] Token for the enclosing Type.
mdExportedType *pmct); // [OUT] Put ExportedType token here.
__checkReturn
STDMETHODIMP FindManifestResourceByName(// S_OK or error
LPCSTR szName, // [IN] Name of the resource.
mdManifestResource *pmmr); // [OUT] Put ManifestResource token here.
__checkReturn
STDMETHODIMP GetAssemblyFromScope( // S_OK or error
mdAssembly *ptkAssembly); // [OUT] Put token here.
//***************************************************************************
// return properties regarding a TypeSpec
//***************************************************************************
__checkReturn
STDMETHODIMP GetTypeSpecFromToken( // S_OK or error.
mdTypeSpec typespec, // [IN] Signature token.
PCCOR_SIGNATURE *ppvSig, // [OUT] return pointer to token.
ULONG *pcbSig); // [OUT] return size of signature.
//*****************************************************************************
// This function gets the "built for" version of a metadata scope.
// NOTE: if the scope has never been saved, it will not have a built-for
// version, and an empty string will be returned.
//*****************************************************************************
__checkReturn
STDMETHODIMP GetVersionString( // S_OK or error.
LPCSTR *pVer); // [OUT] Put version string here.
//*****************************************************************************
// helpers to convert a text signature to a com format
//*****************************************************************************
__checkReturn
STDMETHODIMP ConvertTextSigToComSig( // Return hresult.
BOOL fCreateTrIfNotFound, // [IN] create typeref if not found
LPCSTR pSignature, // [IN] class file format signature
CQuickBytes *pqbNewSig, // [OUT] place holder for COM+ signature
ULONG *pcbCount); // [OUT] the result size of signature
__checkReturn
STDMETHODIMP SetUserContextData( // S_OK or E_NOTIMPL
IUnknown *pIUnk); // The user context.
STDMETHODIMP_(BOOL) IsValidToken( // True or False.
mdToken tk); // [IN] Given token.
STDMETHODIMP_(IUnknown *) GetCachedPublicInterface(BOOL fWithLock); // return the cached public interface
__checkReturn
STDMETHODIMP SetCachedPublicInterface(IUnknown *pUnk); // return hresult
STDMETHODIMP_(UTSemReadWrite*) GetReaderWriterLock(); // return the reader writer lock
__checkReturn
STDMETHODIMP SetReaderWriterLock(UTSemReadWrite *pSem)
{
_ASSERTE(m_pSemReadWrite == NULL);
m_pSemReadWrite = pSem;
INDEBUG(m_pStgdb->m_MiniMd.Debug_SetLock(m_pSemReadWrite);)
return NOERROR;
}
// *** IMDInternalImportENC methods ***
__checkReturn
STDMETHODIMP ApplyEditAndContinue( // S_OK or error.
MDInternalRW *pDelta); // MD with the ENC delta.
__checkReturn
STDMETHODIMP EnumDeltaTokensInit( // return hresult
HENUMInternal *phEnum); // [OUT] buffer to fill for enumerator data
STDMETHODIMP_(mdModule) GetModuleFromScope(void);
// finding a particular method
__checkReturn
STDMETHODIMP FindMethodDefUsingCompare(
mdTypeDef classdef, // [IN] given typedef
LPCSTR szName, // [IN] member name
PCCOR_SIGNATURE pvSigBlob, // [IN] point to a blob value of COM+ signature
ULONG cbSigBlob, // [IN] count of bytes in the signature blob
PSIGCOMPARE pSignatureCompare, // [IN] Routine to compare signatures
void* pSignatureArgs, // [IN] Additional info to supply the compare function
mdMethodDef *pmd); // [OUT] matching memberdef
//*****************************************************************************
// return the table pointer and size for a given table index
//*****************************************************************************
__checkReturn
STDMETHODIMP GetTableInfoWithIndex(
ULONG index, // [IN] pass in the index
void **pTable, // [OUT] pointer to table at index
void **pTableSize); // [OUT] size of table at index
__checkReturn
STDMETHODIMP ApplyEditAndContinue(
void *pData, // [IN] the delta metadata
ULONG cbData, // [IN] length of pData
IMDInternalImport **ppv); // [OUT] the resulting metadata interface
FORCEINLINE CLiteWeightStgdbRW* GetMiniStgdb() { return m_pStgdb; }
FORCEINLINE UTSemReadWrite *getReaderWriterLock() { return m_pSemReadWrite; }
CLiteWeightStgdbRW *m_pStgdb;
private:
mdTypeDef m_tdModule; // <Module> typedef value.
LONG m_cRefs; // Ref count.
bool m_fOwnStgdb;
IUnknown *m_pUnk;
IUnknown *m_pUserUnk; // Release at shutdown.
IMetaDataHelper *m_pIMetaDataHelper;// pointer to cached public interface
UTSemReadWrite *m_pSemReadWrite; // read write lock for multi-threading.
bool m_fOwnSem; // Does MDInternalRW own this read write lock object?
public:
STDMETHODIMP_(DWORD) GetMetadataStreamVersion()
{
return (DWORD)m_pStgdb->m_MiniMd.m_Schema.m_minor |
((DWORD)m_pStgdb->m_MiniMd.m_Schema.m_major << 16);
};
__checkReturn
STDMETHODIMP SetVerifiedByTrustedSource(// return hresult
BOOL fVerified)
{
m_pStgdb->m_MiniMd.SetVerifiedByTrustedSource(fVerified);
return S_OK;
}
STDMETHODIMP GetRvaOffsetData(// S_OK or error
DWORD *pFirstMethodRvaOffset, // [OUT] Offset (from start of metadata) to the first RVA field in MethodDef table.
DWORD *pMethodDefRecordSize, // [OUT] Size of each record in MethodDef table.
DWORD *pMethodDefCount, // [OUT] Number of records in MethodDef table.
DWORD *pFirstFieldRvaOffset, // [OUT] Offset (from start of metadata) to the first RVA field in FieldRVA table.
DWORD *pFieldRvaRecordSize, // [OUT] Size of each record in FieldRVA table.
DWORD *pFieldRvaCount) // [OUT] Number of records in FieldRVA table.
{
return m_pStgdb->m_MiniMd.GetRvaOffsetData(
pFirstMethodRvaOffset,
pMethodDefRecordSize,
pMethodDefCount,
pFirstFieldRvaOffset,
pFieldRvaRecordSize,
pFieldRvaCount);
}
}; // class MDInternalRW
#endif //FEATURE_METADATA_INTERNAL_APIS
#endif // __MDInternalRW__h__
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
//*****************************************************************************
// MDInternalRW.h
//
//
// Contains utility code for MD directory
//
//*****************************************************************************
#ifndef __MDInternalRW__h__
#define __MDInternalRW__h__
#ifdef FEATURE_METADATA_INTERNAL_APIS
#include "../inc/mdlog.h"
class UTSemReadWrite;
class MDInternalRW : public IMDInternalImportENC, public IMDCommon
{
friend class VerifyLayoutsMD;
public:
MDInternalRW();
virtual ~MDInternalRW();
__checkReturn
HRESULT Init(LPVOID pData, ULONG cbData, int bReadOnly);
__checkReturn
HRESULT InitWithStgdb(IUnknown *pUnk, CLiteWeightStgdbRW *pStgdb);
__checkReturn
HRESULT InitWithRO(MDInternalRO *pRO, int bReadOnly);
// *** IUnknown methods ***
__checkReturn
STDMETHODIMP QueryInterface(REFIID riid, void** ppv);
STDMETHODIMP_(ULONG) AddRef(void);
STDMETHODIMP_(ULONG) Release(void);
__checkReturn
STDMETHODIMP TranslateSigWithScope(
IMDInternalImport *pAssemImport, // [IN] import assembly scope.
const void *pbHashValue, // [IN] hash value for the import assembly.
ULONG cbHashValue, // [IN] count of bytes in the hash value.
PCCOR_SIGNATURE pbSigBlob, // [IN] signature in the importing scope
ULONG cbSigBlob, // [IN] count of bytes of signature
IMetaDataAssemblyEmit *pAssemEmit, // [IN] assembly emit scope.
IMetaDataEmit *emit, // [IN] emit interface
CQuickBytes *pqkSigEmit, // [OUT] buffer to hold translated signature
ULONG *pcbSig) // [OUT] count of bytes in the translated signature
DAC_UNEXPECTED();
__checkReturn
STDMETHODIMP GetTypeDefRefTokenInTypeSpec(// return S_FALSE if enclosing type does not have a token
mdTypeSpec tkTypeSpec, // [IN] TypeSpec token to look at
mdToken *tkEnclosedToken) // [OUT] The enclosed type token
DAC_UNEXPECTED();
STDMETHODIMP_(IMetaModelCommon*) GetMetaModelCommon()
{
return static_cast<IMetaModelCommon*>(&m_pStgdb->m_MiniMd);
}
STDMETHODIMP_(IMetaModelCommonRO*) GetMetaModelCommonRO()
{
if (m_pStgdb->m_MiniMd.IsWritable())
{
_ASSERTE(!"IMetaModelCommonRO methods cannot be used because this importer is writable.");
return NULL;
}
return static_cast<IMetaModelCommonRO*>(&m_pStgdb->m_MiniMd);
}
__checkReturn
STDMETHODIMP SetOptimizeAccessForSpeed(// return hresult
BOOL fOptSpeed)
{
// If there is any optional work we can avoid (for example, because we have
// traded space for speed) this is the place to turn it off or on.
return S_OK;
}
//*****************************************************************************
// return the count of entries of a given kind in a scope
// For example, pass in mdtMethodDef will tell you how many MethodDef
// contained in a scope
//*****************************************************************************
STDMETHODIMP_(ULONG) GetCountWithTokenKind(// return hresult
DWORD tkKind) // [IN] pass in the kind of token.
DAC_UNEXPECTED();
//*****************************************************************************
// enumerator for typedef
//*****************************************************************************
__checkReturn
STDMETHODIMP EnumTypeDefInit( // return hresult
HENUMInternal *phEnum); // [OUT] buffer to fill for enumerator data
//*****************************************************************************
// enumerator for MethodImpl
//*****************************************************************************
__checkReturn
STDMETHODIMP EnumMethodImplInit( // return hresult
mdTypeDef td, // [IN] TypeDef over which to scope the enumeration.
HENUMInternal *phEnumBody, // [OUT] buffer to fill for enumerator data for MethodBody tokens.
HENUMInternal *phEnumDecl) // [OUT] buffer to fill for enumerator data for MethodDecl tokens.
DAC_UNEXPECTED();
STDMETHODIMP_(ULONG) EnumMethodImplGetCount(
HENUMInternal *phEnumBody, // [IN] MethodBody enumerator.
HENUMInternal *phEnumDecl) // [IN] MethodDecl enumerator.
DAC_UNEXPECTED();
STDMETHODIMP_(void) EnumMethodImplReset(
HENUMInternal *phEnumBody, // [IN] MethodBody enumerator.
HENUMInternal *phEnumDecl) // [IN] MethodDecl enumerator.
DAC_UNEXPECTED();
__checkReturn
STDMETHODIMP EnumMethodImplNext( // return hresult (S_OK = TRUE, S_FALSE = FALSE or error code)
HENUMInternal *phEnumBody, // [IN] input enum for MethodBody
HENUMInternal *phEnumDecl, // [IN] input enum for MethodDecl
mdToken *ptkBody, // [OUT] return token for MethodBody
mdToken *ptkDecl) // [OUT] return token for MethodDecl
DAC_UNEXPECTED();
STDMETHODIMP_(void) EnumMethodImplClose(
HENUMInternal *phEnumBody, // [IN] MethodBody enumerator.
HENUMInternal *phEnumDecl) // [IN] MethodDecl enumerator.
DAC_UNEXPECTED();
//*****************************************
// Enumerator helpers for memberdef, memberref, interfaceimp,
// event, property, param, methodimpl
//*****************************************
__checkReturn
STDMETHODIMP EnumGlobalFunctionsInit( // return hresult
HENUMInternal *phEnum); // [OUT] buffer to fill for enumerator data
__checkReturn
STDMETHODIMP EnumGlobalFieldsInit( // return hresult
HENUMInternal *phEnum); // [OUT] buffer to fill for enumerator data
__checkReturn
STDMETHODIMP EnumInit( // return S_FALSE if record not found
DWORD tkKind, // [IN] which table to work on
mdToken tkParent, // [IN] token to scope the search
HENUMInternal *phEnum); // [OUT] the enumerator to fill
__checkReturn
STDMETHODIMP EnumAllInit( // return S_FALSE if record not found
DWORD tkKind, // [IN] which table to work on
HENUMInternal *phEnum); // [OUT] the enumerator to fill
__checkReturn
STDMETHODIMP EnumCustomAttributeByNameInit(// return S_FALSE if record not found
mdToken tkParent, // [IN] token to scope the search
LPCSTR szName, // [IN] CustomAttribute's name to scope the search
HENUMInternal *phEnum); // [OUT] the enumerator to fill
__checkReturn
STDMETHODIMP GetParentToken(
mdToken tkChild, // [IN] given child token
mdToken *ptkParent); // [OUT] returning parent
__checkReturn
STDMETHODIMP GetCustomAttributeProps(
mdCustomAttribute at, // The attribute.
mdToken *ptkType); // Put attribute type here.
__checkReturn
STDMETHODIMP GetCustomAttributeAsBlob(
mdCustomAttribute cv, // [IN] given custom attribute token
void const **ppBlob, // [OUT] return the pointer to internal blob
ULONG *pcbSize); // [OUT] return the size of the blob
__checkReturn
STDMETHODIMP GetCustomAttributeByName( // S_OK or error.
mdToken tkObj, // [IN] Object with Custom Attribute.
LPCUTF8 szName, // [IN] Name of desired Custom Attribute.
const void **ppData, // [OUT] Put pointer to data here.
ULONG *pcbData); // [OUT] Put size of data here.
__checkReturn
STDMETHODIMP GetNameOfCustomAttribute( // S_OK or error.
mdCustomAttribute mdAttribute, // [IN] The Custom Attribute
LPCUTF8 *pszNamespace, // [OUT] Namespace of Custom Attribute.
LPCUTF8 *pszName); // [OUT] Name of Custom Attribute.
// returned void in v1.0/v1.1
__checkReturn
STDMETHODIMP GetScopeProps(
LPCSTR *pszName, // [OUT] scope name
GUID *pmvid); // [OUT] version id
// finding a particular method
__checkReturn
STDMETHODIMP FindMethodDef(
mdTypeDef classdef, // [IN] given typedef
LPCSTR szName, // [IN] member name
PCCOR_SIGNATURE pvSigBlob, // [IN] point to a blob value of COM+ signature
ULONG cbSigBlob, // [IN] count of bytes in the signature blob
mdMethodDef *pmd); // [OUT] matching memberdef
// return a iSeq's param given a MethodDef
__checkReturn
STDMETHODIMP FindParamOfMethod( // S_OK or error.
mdMethodDef md, // [IN] The owning method of the param.
ULONG iSeq, // [IN} The sequence # of the param.
mdParamDef *pparamdef); // [OUT] Put ParamDef token here.
//*****************************************
//
// GetName* functions
//
//*****************************************
// return the name and namespace of typedef
__checkReturn
STDMETHODIMP GetNameOfTypeDef(
mdTypeDef classdef, // given classdef
LPCSTR *pszname, // return class name(unqualified)
LPCSTR *psznamespace); // return the name space name
__checkReturn
STDMETHODIMP GetIsDualOfTypeDef(
mdTypeDef classdef, // [IN] given classdef.
ULONG *pDual); // [OUT] return dual flag here.
__checkReturn
STDMETHODIMP GetIfaceTypeOfTypeDef(
mdTypeDef tkTypeDef,
ULONG * pIface); // [OUT] 0=dual, 1=vtable, 2=dispinterface
__checkReturn
STDMETHODIMP GetNameOfMethodDef(
mdMethodDef tkMethodDef,
LPCSTR * pszName);
__checkReturn
STDMETHODIMP GetNameAndSigOfMethodDef(
mdMethodDef methoddef, // [IN] given memberdef
PCCOR_SIGNATURE *ppvSigBlob, // [OUT] point to a blob value of COM+ signature
ULONG *pcbSigBlob, // [OUT] count of bytes in the signature blob
LPCSTR *pszName);
// return the name of a FieldDef
__checkReturn
STDMETHODIMP GetNameOfFieldDef(
mdFieldDef fd, // given memberdef
LPCSTR *pszName);
// return the name of typeref
__checkReturn
STDMETHODIMP GetNameOfTypeRef(
mdTypeRef classref, // [IN] given typeref
LPCSTR *psznamespace, // [OUT] return typeref name
LPCSTR *pszname); // [OUT] return typeref namespace
// return the resolutionscope of typeref
__checkReturn
STDMETHODIMP GetResolutionScopeOfTypeRef(
mdTypeRef classref, // given classref
mdToken *ptkResolutionScope);
// return the typeref token given the name.
__checkReturn
STDMETHODIMP FindTypeRefByName(
LPCSTR szNamespace, // [IN] Namespace for the TypeRef.
LPCSTR szName, // [IN] Name of the TypeRef.
mdToken tkResolutionScope, // [IN] Resolution Scope fo the TypeRef.
mdTypeRef *ptk); // [OUT] TypeRef token returned.
// return the TypeDef properties
__checkReturn
STDMETHODIMP GetTypeDefProps( // return hresult
mdTypeDef classdef, // given classdef
DWORD *pdwAttr, // return flags on class, tdPublic, tdAbstract
mdToken *ptkExtends); // [OUT] Put base class TypeDef/TypeRef here.
// return the item's guid
__checkReturn
STDMETHODIMP GetItemGuid( // return hresult
mdToken tkObj, // [IN] given item.
CLSID *pGuid); // [OUT] Put guid here.
// get enclosing class of NestedClass.
__checkReturn
STDMETHODIMP GetNestedClassProps( // S_OK or error
mdTypeDef tkNestedClass, // [IN] NestedClass token.
mdTypeDef *ptkEnclosingClass); // [OUT] EnclosingClass token.
// Get count of Nested classes given the enclosing class.
__checkReturn
STDMETHODIMP GetCountNestedClasses( // return count of Nested classes.
mdTypeDef tkEnclosingClass, // [IN]Enclosing class.
ULONG *pcNestedClassesCount);
// Return array of Nested classes given the enclosing class.
__checkReturn
STDMETHODIMP GetNestedClasses( // Return actual count.
mdTypeDef tkEnclosingClass, // [IN] Enclosing class.
mdTypeDef *rNestedClasses, // [OUT] Array of nested class tokens.
ULONG ulNestedClasses, // [IN] Size of array.
ULONG *pcNestedClasses);
// return the ModuleRef properties
__checkReturn
STDMETHODIMP GetModuleRefProps(
mdModuleRef mur, // [IN] moduleref token
LPCSTR *pszName); // [OUT] buffer to fill with the moduleref name
//*****************************************
//
// GetSig* functions
//
//*****************************************
__checkReturn
STDMETHODIMP GetSigOfMethodDef(
mdMethodDef methoddef, // [IN] given memberdef
ULONG *pcbSigBlob, // [OUT] count of bytes in the signature blob
PCCOR_SIGNATURE *ppSig);
__checkReturn
STDMETHODIMP GetSigOfFieldDef(
mdMethodDef methoddef, // [IN] given memberdef
ULONG *pcbSigBlob, // [OUT] count of bytes in the signature blob
PCCOR_SIGNATURE *ppSig);
__checkReturn
STDMETHODIMP GetSigFromToken(
mdToken tk, // FieldDef, MethodDef, Signature or TypeSpec token
ULONG * pcbSig,
PCCOR_SIGNATURE * ppSig);
//*****************************************
// get method property
//*****************************************
__checkReturn
STDMETHODIMP GetMethodDefProps(
mdMethodDef md, // The method for which to get props.
DWORD *pdwFlags);
STDMETHODIMP_(ULONG) GetMethodDefSlot(
mdMethodDef mb); // The method for which to get props.
//*****************************************
// return method implementation informaiton, like RVA and implflags
//*****************************************
__checkReturn
STDMETHODIMP GetMethodImplProps(
mdToken tk, // [IN] MethodDef or MethodImpl
DWORD *pulCodeRVA, // [OUT] CodeRVA
DWORD *pdwImplFlags); // [OUT] Impl. Flags
//*****************************************************************************
// return the field RVA
//*****************************************************************************
__checkReturn
STDMETHODIMP GetFieldRVA(
mdToken fd, // [IN] FieldDef
ULONG *pulCodeRVA); // [OUT] CodeRVA
//*****************************************************************************
// return the field offset for a given field
//*****************************************************************************
__checkReturn
STDMETHODIMP GetFieldOffset(
mdFieldDef fd, // [IN] fielddef
ULONG *pulOffset); // [OUT] FieldOffset
//*****************************************
// get field property
//*****************************************
__checkReturn
STDMETHODIMP GetFieldDefProps(
mdFieldDef fd, // [IN] given fielddef
DWORD *pdwFlags); // [OUT] return fdPublic, fdPrive, etc flags
//*****************************************************************************
// return default value of a token(could be paramdef, fielddef, or property
//*****************************************************************************
__checkReturn
STDMETHODIMP GetDefaultValue(
mdToken tk, // [IN] given FieldDef, ParamDef, or Property
MDDefaultValue *pDefaultValue); // [OUT] default value to fill
//*****************************************
// get dispid of a MethodDef or a FieldDef
//*****************************************
__checkReturn
STDMETHODIMP GetDispIdOfMemberDef( // return hresult
mdToken tk, // [IN] given methoddef or fielddef
ULONG *pDispid); // [OUT] Put the dispid here.
//*****************************************
// return TypeRef/TypeDef given an InterfaceImpl token
//*****************************************
__checkReturn
STDMETHODIMP GetTypeOfInterfaceImpl( // return the TypeRef/typedef token for the interfaceimpl
mdInterfaceImpl iiImpl, // given a interfaceimpl
mdToken *ptkType);
__checkReturn
STDMETHODIMP GetMethodSpecProps(
mdMethodSpec mi, // [IN] The method instantiation
mdToken *tkParent, // [OUT] MethodDef or MemberRef
PCCOR_SIGNATURE *ppvSigBlob, // [OUT] point to the blob value of meta data
ULONG *pcbSigBlob); // [OUT] actual size of signature blob
//*****************************************
// look up function for TypeDef
//*****************************************
__checkReturn
STDMETHODIMP FindTypeDef(
LPCSTR szNamespace, // [IN] Namespace for the TypeDef.
LPCSTR szName, // [IN] Name of the TypeDef.
mdToken tkEnclosingClass, // [IN] TypeDef/TypeRef of enclosing class.
mdTypeDef *ptypedef); // [OUT] return typedef
__checkReturn
STDMETHODIMP FindTypeDefByGUID(
REFGUID guid, // guid to look up
mdTypeDef *ptypedef); // return typedef
//*****************************************
// return name and sig of a memberref
//*****************************************
__checkReturn
STDMETHODIMP GetNameAndSigOfMemberRef( // return name here
mdMemberRef memberref, // given memberref
PCCOR_SIGNATURE *ppvSigBlob, // [OUT] point to a blob value of COM+ signature
ULONG *pcbSigBlob, // [OUT] count of bytes in the signature blob
LPCSTR *pszName);
//*****************************************************************************
// Given memberref, return the parent. It can be TypeRef, ModuleRef, MethodDef
//*****************************************************************************
__checkReturn
STDMETHODIMP GetParentOfMemberRef(
mdMemberRef memberref, // given memberref
mdToken *ptkParent); // return the parent token
__checkReturn
STDMETHODIMP GetParamDefProps(
mdParamDef paramdef, // given a paramdef
USHORT *pusSequence, // [OUT] slot number for this parameter
DWORD *pdwAttr, // [OUT] flags
LPCSTR *pszName); // [OUT] return the name of the parameter
//******************************************
// property info for method.
//******************************************
__checkReturn
STDMETHODIMP GetPropertyInfoForMethodDef( // Result.
mdMethodDef md, // [IN] memberdef
mdProperty *ppd, // [OUT] put property token here
LPCSTR *pName, // [OUT] put pointer to name here
ULONG *pSemantic); // [OUT] put semantic here
//*****************************************
// class layout/sequence information
//*****************************************
__checkReturn
STDMETHODIMP GetClassPackSize( // [OUT] return error if a class doesn't have packsize info
mdTypeDef td, // [IN] give typedef
ULONG *pdwPackSize); // [OUT] return the pack size of the class. 1, 2, 4, 8 or 16
__checkReturn
STDMETHODIMP GetClassTotalSize( // [OUT] return error if a class doesn't have total size info
mdTypeDef td, // [IN] give typedef
ULONG *pdwClassSize); // [OUT] return the total size of the class
__checkReturn
STDMETHODIMP GetClassLayoutInit(
mdTypeDef td, // [IN] give typedef
MD_CLASS_LAYOUT *pLayout); // [OUT] set up the status of query here
__checkReturn
STDMETHODIMP GetClassLayoutNext(
MD_CLASS_LAYOUT *pLayout, // [IN|OUT] set up the status of query here
mdFieldDef *pfd, // [OUT] return the fielddef
ULONG *pulOffset); // [OUT] return the offset/ulSequence associate with it
//*****************************************
// marshal information of a field
//*****************************************
__checkReturn
STDMETHODIMP GetFieldMarshal( // return error if no native type associate with the token
mdFieldDef fd, // [IN] given fielddef
PCCOR_SIGNATURE *pSigNativeType, // [OUT] the native type signature
ULONG *pcbNativeType); // [OUT] the count of bytes of *ppvNativeType
//*****************************************
// property APIs
//*****************************************
// find a property by name
__checkReturn
STDMETHODIMP FindProperty(
mdTypeDef td, // [IN] given a typdef
LPCSTR szPropName, // [IN] property name
mdProperty *pProp); // [OUT] return property token
__checkReturn
STDMETHODIMP GetPropertyProps(
mdProperty prop, // [IN] property token
LPCSTR *szProperty, // [OUT] property name
DWORD *pdwPropFlags, // [OUT] property flags.
PCCOR_SIGNATURE *ppvSig, // [OUT] property type. pointing to meta data internal blob
ULONG *pcbSig); // [OUT] count of bytes in *ppvSig
//**********************************
// Event APIs
//**********************************
__checkReturn
STDMETHODIMP FindEvent(
mdTypeDef td, // [IN] given a typdef
LPCSTR szEventName, // [IN] event name
mdEvent *pEvent); // [OUT] return event token
__checkReturn
STDMETHODIMP GetEventProps( // S_OK, S_FALSE, or error.
mdEvent ev, // [IN] event token
LPCSTR *pszEvent, // [OUT] Event name
DWORD *pdwEventFlags, // [OUT] Event flags.
mdToken *ptkEventType); // [OUT] EventType class
//**********************************
// Generics APIs
//**********************************
__checkReturn
STDMETHODIMP GetGenericParamProps( // S_OK or error.
mdGenericParam rd, // [IN] The type parameter
ULONG* pulSequence, // [OUT] Parameter sequence number
DWORD* pdwAttr, // [OUT] Type parameter flags (for future use)
mdToken *ptOwner, // [OUT] The owner (TypeDef or MethodDef)
DWORD *reserved, // [OUT] The kind (TypeDef/Ref/Spec, for future use)
LPCSTR *szName); // [OUT] The name
__checkReturn
STDMETHODIMP GetGenericParamConstraintProps( // S_OK or error.
mdGenericParamConstraint rd, // [IN] The constraint token
mdGenericParam *ptGenericParam, // [OUT] GenericParam that is constrained
mdToken *ptkConstraintType); // [OUT] TypeDef/Ref/Spec constraint
//**********************************
// find a particular associate of a property or an event
//**********************************
__checkReturn
STDMETHODIMP FindAssociate(
mdToken evprop, // [IN] given a property or event token
DWORD associate, // [IN] given a associate semantics(setter, getter, testdefault, reset, AddOn, RemoveOn, Fire)
mdMethodDef *pmd); // [OUT] return method def token
__checkReturn
STDMETHODIMP EnumAssociateInit(
mdToken evprop, // [IN] given a property or an event token
HENUMInternal *phEnum); // [OUT] cursor to hold the query result
__checkReturn
STDMETHODIMP GetAllAssociates(
HENUMInternal *phEnum, // [IN] query result form GetPropertyAssociateCounts
ASSOCIATE_RECORD *pAssociateRec, // [OUT] struct to fill for output
ULONG cAssociateRec); // [IN] size of the buffer
//**********************************
// Get info about a PermissionSet.
//**********************************
__checkReturn
STDMETHODIMP GetPermissionSetProps(
mdPermission pm, // [IN] the permission token.
DWORD *pdwAction, // [OUT] CorDeclSecurity.
void const **ppvPermission, // [OUT] permission blob.
ULONG *pcbPermission); // [OUT] count of bytes of pvPermission.
//****************************************
// Get the String given the String token.
// Returns a pointer to the string, or NULL in case of error.
//****************************************
__checkReturn
STDMETHODIMP GetUserString(
mdString stk, // [IN] the string token.
ULONG *pchString, // [OUT] count of characters in the string.
BOOL *pbIs80Plus, // [OUT] specifies where there are extended characters >= 0x80.
LPCWSTR *pwszUserString);
//*****************************************************************************
// p-invoke APIs.
//*****************************************************************************
__checkReturn
STDMETHODIMP GetPinvokeMap(
mdToken tk, // [IN] FieldDef or MethodDef.
DWORD *pdwMappingFlags, // [OUT] Flags used for mapping.
LPCSTR *pszImportName, // [OUT] Import name.
mdModuleRef *pmrImportDLL); // [OUT] ModuleRef token for the target DLL.
//*****************************************************************************
// Assembly MetaData APIs.
//*****************************************************************************
__checkReturn
STDMETHODIMP GetAssemblyProps(
mdAssembly mda, // [IN] The Assembly for which to get the properties.
const void **ppbPublicKey, // [OUT] Pointer to the public key.
ULONG *pcbPublicKey, // [OUT] Count of bytes in the public key.
ULONG *pulHashAlgId, // [OUT] Hash Algorithm.
LPCSTR *pszName, // [OUT] Buffer to fill with name.
AssemblyMetaDataInternal *pMetaData,// [OUT] Assembly MetaData.
DWORD *pdwAssemblyFlags); // [OUT] Flags.
__checkReturn
STDMETHODIMP GetAssemblyRefProps(
mdAssemblyRef mdar, // [IN] The AssemblyRef for which to get the properties.
const void **ppbPublicKeyOrToken, // [OUT] Pointer to the public key or token.
ULONG *pcbPublicKeyOrToken, // [OUT] Count of bytes in the public key or token.
LPCSTR *pszName, // [OUT] Buffer to fill with name.
AssemblyMetaDataInternal *pMetaData,// [OUT] Assembly MetaData.
const void **ppbHashValue, // [OUT] Hash blob.
ULONG *pcbHashValue, // [OUT] Count of bytes in the hash blob.
DWORD *pdwAssemblyRefFlags); // [OUT] Flags.
__checkReturn
STDMETHODIMP GetFileProps(
mdFile mdf, // [IN] The File for which to get the properties.
LPCSTR *pszName, // [OUT] Buffer to fill with name.
const void **ppbHashValue, // [OUT] Pointer to the Hash Value Blob.
ULONG *pcbHashValue, // [OUT] Count of bytes in the Hash Value Blob.
DWORD *pdwFileFlags); // [OUT] Flags.
__checkReturn
STDMETHODIMP GetExportedTypeProps(
mdExportedType mdct, // [IN] The ExportedType for which to get the properties.
LPCSTR *pszNamespace, // [OUT] Buffer to fill with namespace.
LPCSTR *pszName, // [OUT] Buffer to fill with name.
mdToken *ptkImplementation, // [OUT] mdFile or mdAssemblyRef that provides the ExportedType.
mdTypeDef *ptkTypeDef, // [OUT] TypeDef token within the file.
DWORD *pdwExportedTypeFlags); // [OUT] Flags.
__checkReturn
STDMETHODIMP GetManifestResourceProps(
mdManifestResource mdmr, // [IN] The ManifestResource for which to get the properties.
LPCSTR *pszName, // [OUT] Buffer to fill with name.
mdToken *ptkImplementation, // [OUT] mdFile or mdAssemblyRef that provides the ExportedType.
DWORD *pdwOffset, // [OUT] Offset to the beginning of the resource within the file.
DWORD *pdwResourceFlags); // [OUT] Flags.
__checkReturn
STDMETHODIMP FindExportedTypeByName( // S_OK or error
LPCSTR szNamespace, // [IN] Namespace of the ExportedType.
LPCSTR szName, // [IN] Name of the ExportedType.
mdExportedType tkEnclosingType, // [IN] Token for the enclosing Type.
mdExportedType *pmct); // [OUT] Put ExportedType token here.
__checkReturn
STDMETHODIMP FindManifestResourceByName(// S_OK or error
LPCSTR szName, // [IN] Name of the resource.
mdManifestResource *pmmr); // [OUT] Put ManifestResource token here.
__checkReturn
STDMETHODIMP GetAssemblyFromScope( // S_OK or error
mdAssembly *ptkAssembly); // [OUT] Put token here.
//***************************************************************************
// return properties regarding a TypeSpec
//***************************************************************************
__checkReturn
STDMETHODIMP GetTypeSpecFromToken( // S_OK or error.
mdTypeSpec typespec, // [IN] Signature token.
PCCOR_SIGNATURE *ppvSig, // [OUT] return pointer to token.
ULONG *pcbSig); // [OUT] return size of signature.
//*****************************************************************************
// This function gets the "built for" version of a metadata scope.
// NOTE: if the scope has never been saved, it will not have a built-for
// version, and an empty string will be returned.
//*****************************************************************************
__checkReturn
STDMETHODIMP GetVersionString( // S_OK or error.
LPCSTR *pVer); // [OUT] Put version string here.
//*****************************************************************************
// helpers to convert a text signature to a com format
//*****************************************************************************
__checkReturn
STDMETHODIMP ConvertTextSigToComSig( // Return hresult.
BOOL fCreateTrIfNotFound, // [IN] create typeref if not found
LPCSTR pSignature, // [IN] class file format signature
CQuickBytes *pqbNewSig, // [OUT] place holder for COM+ signature
ULONG *pcbCount); // [OUT] the result size of signature
__checkReturn
STDMETHODIMP SetUserContextData( // S_OK or E_NOTIMPL
IUnknown *pIUnk); // The user context.
STDMETHODIMP_(BOOL) IsValidToken( // True or False.
mdToken tk); // [IN] Given token.
STDMETHODIMP_(IUnknown *) GetCachedPublicInterface(BOOL fWithLock); // return the cached public interface
__checkReturn
STDMETHODIMP SetCachedPublicInterface(IUnknown *pUnk); // return hresult
STDMETHODIMP_(UTSemReadWrite*) GetReaderWriterLock(); // return the reader writer lock
__checkReturn
STDMETHODIMP SetReaderWriterLock(UTSemReadWrite *pSem)
{
_ASSERTE(m_pSemReadWrite == NULL);
m_pSemReadWrite = pSem;
INDEBUG(m_pStgdb->m_MiniMd.Debug_SetLock(m_pSemReadWrite);)
return NOERROR;
}
// *** IMDInternalImportENC methods ***
__checkReturn
STDMETHODIMP ApplyEditAndContinue( // S_OK or error.
MDInternalRW *pDelta); // MD with the ENC delta.
__checkReturn
STDMETHODIMP EnumDeltaTokensInit( // return hresult
HENUMInternal *phEnum); // [OUT] buffer to fill for enumerator data
STDMETHODIMP_(mdModule) GetModuleFromScope(void);
// finding a particular method
__checkReturn
STDMETHODIMP FindMethodDefUsingCompare(
mdTypeDef classdef, // [IN] given typedef
LPCSTR szName, // [IN] member name
PCCOR_SIGNATURE pvSigBlob, // [IN] point to a blob value of COM+ signature
ULONG cbSigBlob, // [IN] count of bytes in the signature blob
PSIGCOMPARE pSignatureCompare, // [IN] Routine to compare signatures
void* pSignatureArgs, // [IN] Additional info to supply the compare function
mdMethodDef *pmd); // [OUT] matching memberdef
//*****************************************************************************
// return the table pointer and size for a given table index
//*****************************************************************************
__checkReturn
STDMETHODIMP GetTableInfoWithIndex(
ULONG index, // [IN] pass in the index
void **pTable, // [OUT] pointer to table at index
void **pTableSize); // [OUT] size of table at index
__checkReturn
STDMETHODIMP ApplyEditAndContinue(
void *pData, // [IN] the delta metadata
ULONG cbData, // [IN] length of pData
IMDInternalImport **ppv); // [OUT] the resulting metadata interface
FORCEINLINE CLiteWeightStgdbRW* GetMiniStgdb() { return m_pStgdb; }
FORCEINLINE UTSemReadWrite *getReaderWriterLock() { return m_pSemReadWrite; }
CLiteWeightStgdbRW *m_pStgdb;
private:
mdTypeDef m_tdModule; // <Module> typedef value.
LONG m_cRefs; // Ref count.
bool m_fOwnStgdb;
IUnknown *m_pUnk;
IUnknown *m_pUserUnk; // Release at shutdown.
IMetaDataHelper *m_pIMetaDataHelper;// pointer to cached public interface
UTSemReadWrite *m_pSemReadWrite; // read write lock for multi-threading.
bool m_fOwnSem; // Does MDInternalRW own this read write lock object?
public:
STDMETHODIMP_(DWORD) GetMetadataStreamVersion()
{
return (DWORD)m_pStgdb->m_MiniMd.m_Schema.m_minor |
((DWORD)m_pStgdb->m_MiniMd.m_Schema.m_major << 16);
};
__checkReturn
STDMETHODIMP SetVerifiedByTrustedSource(// return hresult
BOOL fVerified)
{
m_pStgdb->m_MiniMd.SetVerifiedByTrustedSource(fVerified);
return S_OK;
}
STDMETHODIMP GetRvaOffsetData(// S_OK or error
DWORD *pFirstMethodRvaOffset, // [OUT] Offset (from start of metadata) to the first RVA field in MethodDef table.
DWORD *pMethodDefRecordSize, // [OUT] Size of each record in MethodDef table.
DWORD *pMethodDefCount, // [OUT] Number of records in MethodDef table.
DWORD *pFirstFieldRvaOffset, // [OUT] Offset (from start of metadata) to the first RVA field in FieldRVA table.
DWORD *pFieldRvaRecordSize, // [OUT] Size of each record in FieldRVA table.
DWORD *pFieldRvaCount) // [OUT] Number of records in FieldRVA table.
{
return m_pStgdb->m_MiniMd.GetRvaOffsetData(
pFirstMethodRvaOffset,
pMethodDefRecordSize,
pMethodDefCount,
pFirstFieldRvaOffset,
pFieldRvaRecordSize,
pFieldRvaCount);
}
}; // class MDInternalRW
#endif //FEATURE_METADATA_INTERNAL_APIS
#endif // __MDInternalRW__h__
| -1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/mono/mono/metadata/w32file-unix.c
|
/**
* \file
*/
#include <config.h>
#include <glib.h>
#include <stdlib.h>
#include <fcntl.h>
#include <unistd.h>
#include <errno.h>
#include <string.h>
#include <sys/stat.h>
#ifdef HAVE_SYS_STATVFS_H
#include <sys/statvfs.h>
#endif
#if defined(HAVE_SYS_STATFS_H)
#include <sys/statfs.h>
#endif
#if defined(HAVE_SYS_PARAM_H) && defined(HAVE_SYS_MOUNT_H)
#include <sys/param.h>
#include <sys/mount.h>
#endif
#include <sys/types.h>
#include <stdio.h>
#ifdef HAVE_UTIME_H
#include <utime.h>
#endif
#ifdef __linux__
#include <sys/ioctl.h>
#include <linux/fs.h>
#include <mono/utils/linux_magic.h>
#endif
#ifdef _AIX
#include <sys/mntctl.h>
#include <sys/vmount.h>
#endif
#include <sys/time.h>
#ifdef HAVE_DIRENT_H
# include <dirent.h>
#endif
#if HOST_DARWIN
#include <dlfcn.h>
#endif
#include "w32file.h"
#include "w32error.h"
#include "fdhandle.h"
#include "utils/mono-error-internals.h"
#include "utils/mono-logger-internals.h"
#include "utils/mono-os-mutex.h"
#include "utils/mono-threads.h"
#include "utils/mono-threads-api.h"
#include "utils/strenc-internals.h"
#include "utils/strenc.h"
#include "utils/refcount.h"
#include "icall-decl.h"
#include "utils/mono-errno.h"
#define INVALID_HANDLE_VALUE ((gpointer)-1)
typedef struct {
guint64 device;
guint64 inode;
guint32 sharemode;
guint32 access;
guint32 handle_refs;
guint32 timestamp;
} FileShare;
/* Currently used for both FILE, CONSOLE and PIPE handle types.
* This may have to change in future. */
typedef struct {
MonoFDHandle fdhandle;
gchar *filename;
FileShare *share_info; /* Pointer into shared mem */
guint32 security_attributes;
guint32 fileaccess;
guint32 sharemode;
guint32 attrs;
} FileHandle;
/*
* If SHM is disabled, this will point to a hash of FileShare structures, otherwise
* it will be NULL. We use this instead of _wapi_fileshare_layout to avoid allocating a
* 4MB array.
*/
static GHashTable *file_share_table;
static MonoCoopMutex file_share_mutex;
static FileHandle*
file_data_create (MonoFDType type, gint fd)
{
FileHandle *filehandle;
filehandle = g_new0 (FileHandle, 1);
mono_fdhandle_init ((MonoFDHandle*) filehandle, type, fd);
return filehandle;
}
static gint
_wapi_unlink (const gchar *pathname);
static void
file_share_release (FileShare *share_info);
static void
file_data_close (MonoFDHandle *fdhandle)
{
FileHandle* filehandle;
filehandle = (FileHandle*) fdhandle;
g_assert (filehandle);
mono_trace (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER_FILE, "%s: closing fd %d", __func__, ((MonoFDHandle*) filehandle)->fd);
if (((MonoFDHandle*) filehandle)->type == MONO_FDTYPE_FILE && (filehandle->attrs & FILE_FLAG_DELETE_ON_CLOSE)) {
_wapi_unlink (filehandle->filename);
}
if (((MonoFDHandle*) filehandle)->type != MONO_FDTYPE_CONSOLE || ((MonoFDHandle*) filehandle)->fd > 2) {
if (filehandle->share_info) {
file_share_release (filehandle->share_info);
filehandle->share_info = NULL;
}
MONO_ENTER_GC_SAFE;
close (((MonoFDHandle*) filehandle)->fd);
MONO_EXIT_GC_SAFE;
}
}
static void
file_data_destroy (MonoFDHandle *fdhandle)
{
FileHandle *filehandle;
filehandle = (FileHandle*) fdhandle;
g_assert (filehandle);
if (filehandle->filename)
g_free (filehandle->filename);
g_free (filehandle);
}
static void
file_share_release (FileShare *share_info)
{
/* Prevent new entries racing with us */
mono_coop_mutex_lock (&file_share_mutex);
g_assert (share_info->handle_refs > 0);
share_info->handle_refs -= 1;
if (share_info->handle_refs == 0) {
g_hash_table_remove (file_share_table, share_info);
// g_free (share_info);
}
mono_coop_mutex_unlock (&file_share_mutex);
}
static gint
file_share_equal (gconstpointer ka, gconstpointer kb)
{
const FileShare *s1 = (const FileShare *)ka;
const FileShare *s2 = (const FileShare *)kb;
return (s1->device == s2->device && s1->inode == s2->inode) ? 1 : 0;
}
static guint
file_share_hash (gconstpointer data)
{
const FileShare *s = (const FileShare *)data;
return s->inode;
}
static gboolean
file_share_get (guint64 device, guint64 inode, guint32 new_sharemode, guint32 new_access,
guint32 *old_sharemode, guint32 *old_access, FileShare **share_info)
{
FileShare *file_share;
gboolean exists = FALSE;
/* Prevent new entries racing with us */
mono_coop_mutex_lock (&file_share_mutex);
FileShare tmp;
/*
* Instead of allocating a 4MB array, we use a hash table to keep track of this
* info. This is needed even if SHM is disabled, to track sharing inside
* the current process.
*/
if (!file_share_table)
file_share_table = g_hash_table_new_full (file_share_hash, file_share_equal, NULL, g_free);
tmp.device = device;
tmp.inode = inode;
file_share = (FileShare *)g_hash_table_lookup (file_share_table, &tmp);
if (file_share) {
*old_sharemode = file_share->sharemode;
*old_access = file_share->access;
*share_info = file_share;
g_assert (file_share->handle_refs > 0);
file_share->handle_refs += 1;
exists = TRUE;
} else {
file_share = g_new0 (FileShare, 1);
file_share->device = device;
file_share->inode = inode;
file_share->sharemode = new_sharemode;
file_share->access = new_access;
file_share->handle_refs = 1;
*share_info = file_share;
g_hash_table_insert (file_share_table, file_share, file_share);
}
mono_coop_mutex_unlock (&file_share_mutex);
return(exists);
}
static gint
_wapi_open (const gchar *pathname, gint flags, mode_t mode)
{
gint fd;
MONO_ENTER_GC_SAFE;
fd = open (pathname, flags, mode);
MONO_EXIT_GC_SAFE;
return(fd);
}
static gint
_wapi_access (const gchar *pathname, gint mode)
{
gint ret;
MONO_ENTER_GC_SAFE;
ret = access (pathname, mode);
MONO_EXIT_GC_SAFE;
return ret;
}
static gint
_wapi_unlink (const gchar *pathname)
{
gint ret;
MONO_ENTER_GC_SAFE;
ret = unlink (pathname);
MONO_EXIT_GC_SAFE;
return ret;
}
static gchar*
_wapi_dirname (const gchar *filename)
{
gchar *new_filename = g_strdup (filename), *ret;
ret = g_path_get_dirname (new_filename);
g_free (new_filename);
return ret;
}
static void
_wapi_set_last_error_from_errno (void)
{
mono_w32error_set_last (mono_w32error_unix_to_win32 (errno));
}
static void _wapi_set_last_path_error_from_errno (const gchar *dir,
const gchar *path)
{
if (errno == ENOENT) {
/* Check the path - if it's a missing directory then
* we need to set PATH_NOT_FOUND not FILE_NOT_FOUND
*/
gchar *dirname;
if (dir == NULL) {
dirname = _wapi_dirname (path);
} else {
dirname = g_strdup (dir);
}
if (_wapi_access (dirname, F_OK) == 0) {
mono_w32error_set_last (ERROR_FILE_NOT_FOUND);
} else {
mono_w32error_set_last (ERROR_PATH_NOT_FOUND);
}
g_free (dirname);
} else {
_wapi_set_last_error_from_errno ();
}
}
static gboolean
file_write (FileHandle *filehandle, gpointer buffer, guint32 numbytes, guint32 *byteswritten)
{
gint ret;
MonoThreadInfo *info = mono_thread_info_current ();
if(byteswritten!=NULL) {
*byteswritten=0;
}
if(!(filehandle->fileaccess & GENERIC_WRITE) && !(filehandle->fileaccess & GENERIC_ALL)) {
mono_trace (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER_FILE, "%s: fd %d doesn't have GENERIC_WRITE access: %u", __func__, ((MonoFDHandle*) filehandle)->fd, filehandle->fileaccess);
mono_w32error_set_last (ERROR_ACCESS_DENIED);
return(FALSE);
}
do {
MONO_ENTER_GC_SAFE;
ret = write (((MonoFDHandle*) filehandle)->fd, buffer, numbytes);
MONO_EXIT_GC_SAFE;
} while (ret == -1 && errno == EINTR &&
!mono_thread_info_is_interrupt_state (info));
if (ret == -1) {
if (errno == EINTR) {
ret = 0;
} else {
_wapi_set_last_error_from_errno ();
mono_trace (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER_FILE, "%s: write of fd %d error: %s", __func__, ((MonoFDHandle*) filehandle)->fd, g_strerror(errno));
return(FALSE);
}
}
if (byteswritten != NULL) {
*byteswritten = ret;
}
return(TRUE);
}
static gboolean
console_write (FileHandle *filehandle, gpointer buffer, guint32 numbytes, guint32 *byteswritten)
{
gint ret;
MonoThreadInfo *info = mono_thread_info_current ();
if(byteswritten!=NULL) {
*byteswritten=0;
}
if(!(filehandle->fileaccess & (GENERIC_WRITE | GENERIC_ALL))) {
mono_trace (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER_FILE, "%s: fd %d doesn't have GENERIC_WRITE access: %u", __func__, ((MonoFDHandle*) filehandle)->fd, filehandle->fileaccess);
mono_w32error_set_last (ERROR_ACCESS_DENIED);
return(FALSE);
}
do {
MONO_ENTER_GC_SAFE;
ret = write(((MonoFDHandle*) filehandle)->fd, buffer, numbytes);
MONO_EXIT_GC_SAFE;
} while (ret == -1 && errno == EINTR &&
!mono_thread_info_is_interrupt_state (info));
if (ret == -1) {
if (errno == EINTR) {
ret = 0;
} else {
_wapi_set_last_error_from_errno ();
mono_trace (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER_FILE, "%s: write of fd %d error: %s", __func__, ((MonoFDHandle*) filehandle)->fd, g_strerror(errno));
return(FALSE);
}
}
if(byteswritten!=NULL) {
*byteswritten=ret;
}
return(TRUE);
}
static gboolean
pipe_write (FileHandle *filehandle, gpointer buffer, guint32 numbytes, guint32 *byteswritten)
{
gint ret;
MonoThreadInfo *info = mono_thread_info_current ();
if(byteswritten!=NULL) {
*byteswritten=0;
}
if(!(filehandle->fileaccess & (GENERIC_WRITE | GENERIC_ALL))) {
mono_trace (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER_FILE, "%s: fd %d doesn't have GENERIC_WRITE access: %u", __func__, ((MonoFDHandle*) filehandle)->fd, filehandle->fileaccess);
mono_w32error_set_last (ERROR_ACCESS_DENIED);
return(FALSE);
}
mono_trace (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER_FILE, "%s: writing up to %" G_GUINT32_FORMAT " bytes to pipe %d", __func__, numbytes, ((MonoFDHandle*) filehandle)->fd);
do {
MONO_ENTER_GC_SAFE;
ret = write (((MonoFDHandle*) filehandle)->fd, buffer, numbytes);
MONO_EXIT_GC_SAFE;
} while (ret == -1 && errno == EINTR &&
!mono_thread_info_is_interrupt_state (info));
if (ret == -1) {
if (errno == EINTR) {
ret = 0;
} else {
_wapi_set_last_error_from_errno ();
mono_trace (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER_FILE, "%s: write of fd %d error: %s", __func__,((MonoFDHandle*) filehandle)->fd, g_strerror(errno));
return(FALSE);
}
}
if(byteswritten!=NULL) {
*byteswritten=ret;
}
return(TRUE);
}
static gint convert_flags(guint32 fileaccess, guint32 createmode)
{
gint flags=0;
switch(fileaccess) {
case GENERIC_READ:
flags=O_RDONLY;
break;
case GENERIC_WRITE:
flags=O_WRONLY;
break;
case GENERIC_READ|GENERIC_WRITE:
flags=O_RDWR;
break;
default:
mono_trace (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER_FILE, "%s: Unknown access type 0x%" PRIx32, __func__,
fileaccess);
break;
}
switch(createmode) {
case CREATE_NEW:
flags|=O_CREAT|O_EXCL;
break;
case CREATE_ALWAYS:
flags|=O_CREAT|O_TRUNC;
break;
case OPEN_EXISTING:
break;
case OPEN_ALWAYS:
flags|=O_CREAT;
break;
case TRUNCATE_EXISTING:
flags|=O_TRUNC;
break;
default:
mono_trace (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER_FILE, "%s: Unknown create mode 0x%" PRIx32, __func__,
createmode);
break;
}
return(flags);
}
static gboolean share_allows_open (struct stat *statbuf, guint32 sharemode,
guint32 fileaccess,
FileShare **share_info)
{
gboolean file_already_shared;
guint32 file_existing_share, file_existing_access;
file_already_shared = file_share_get (statbuf->st_dev, statbuf->st_ino, sharemode, fileaccess, &file_existing_share, &file_existing_access, share_info);
if (file_already_shared) {
/* The reference to this share info was incremented
* when we looked it up, so be careful to put it back
* if we conclude we can't use this file.
*/
if ((file_existing_share == FILE_SHARE_NONE) || (sharemode == FILE_SHARE_NONE)) {
/* Quick and easy, no possibility to share */
mono_trace (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER_FILE, "%s: Share mode prevents open: requested access: 0x%" PRIx32 ", file has sharing = NONE", __func__, fileaccess);
file_share_release (*share_info);
*share_info = NULL;
return(FALSE);
}
if (((file_existing_share == FILE_SHARE_READ) &&
(fileaccess != GENERIC_READ)) ||
((file_existing_share == FILE_SHARE_WRITE) &&
(fileaccess != GENERIC_WRITE))) {
/* New access mode doesn't match up */
mono_trace (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER_FILE, "%s: Share mode prevents open: requested access: 0x%" PRIx32 ", file has sharing: 0x%" PRIx32, __func__, fileaccess, file_existing_share);
file_share_release (*share_info);
*share_info = NULL;
return(FALSE);
}
} else {
mono_trace (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER_FILE, "%s: New file!", __func__);
}
return(TRUE);
}
void
mono_w32file_init (void)
{
MonoFDHandleCallback file_data_callbacks;
memset (&file_data_callbacks, 0, sizeof (file_data_callbacks));
file_data_callbacks.close = file_data_close;
file_data_callbacks.destroy = file_data_destroy;
mono_fdhandle_register (MONO_FDTYPE_FILE, &file_data_callbacks);
mono_fdhandle_register (MONO_FDTYPE_CONSOLE, &file_data_callbacks);
mono_fdhandle_register (MONO_FDTYPE_PIPE, &file_data_callbacks);
mono_coop_mutex_init (&file_share_mutex);
}
gpointer
mono_w32file_create(const gunichar2 *name, guint32 fileaccess, guint32 sharemode, guint32 createmode, guint32 attrs)
{
FileHandle *filehandle;
MonoFDType type;
gint flags=convert_flags(fileaccess, createmode);
/*mode_t perms=convert_perms(sharemode);*/
/* we don't use sharemode, because that relates to sharing of
* the file when the file is open and is already handled by
* other code, perms instead are the on-disk permissions and
* this is a sane default.
*/
mode_t perms=0666;
gchar *filename;
gint fd, ret;
struct stat statbuf;
ERROR_DECL (error);
if (attrs & FILE_ATTRIBUTE_TEMPORARY)
perms = 0600;
if (attrs & FILE_ATTRIBUTE_ENCRYPTED){
mono_w32error_set_last (ERROR_ENCRYPTION_FAILED);
return INVALID_HANDLE_VALUE;
}
if (name == NULL) {
mono_trace (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER_FILE, "%s: name is NULL", __func__);
mono_w32error_set_last (ERROR_INVALID_NAME);
return(INVALID_HANDLE_VALUE);
}
filename = mono_unicode_to_external_checked (name, error);
if (filename == NULL) {
mono_trace (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER_FILE, "%s: unicode conversion returned NULL; %s", __func__, mono_error_get_message (error));
mono_error_cleanup (error);
mono_w32error_set_last (ERROR_INVALID_NAME);
return(INVALID_HANDLE_VALUE);
}
mono_trace (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER_FILE, "%s: Opening %s with share 0x%" PRIx32 " and access 0x%" PRIx32, __func__,
filename, sharemode, fileaccess);
fd = _wapi_open (filename, flags, perms);
/* If we were trying to open a directory with write permissions
* (e.g. O_WRONLY or O_RDWR), this call will fail with
* EISDIR. However, this is a bit bogus because calls to
* manipulate the directory (e.g. mono_w32file_set_times) will still work on
* the directory because they use other API calls
* (e.g. utime()). Hence, if we failed with the EISDIR error, try
* to open the directory again without write permission.
*/
if (fd == -1 && errno == EISDIR)
{
/* Try again but don't try to make it writable */
fd = _wapi_open (filename, flags & ~(O_RDWR|O_WRONLY), perms);
}
if (fd == -1) {
mono_trace (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER_FILE, "%s: Error opening file %s: %s", __func__, filename, g_strerror(errno));
_wapi_set_last_path_error_from_errno (NULL, filename);
g_free (filename);
return(INVALID_HANDLE_VALUE);
}
MONO_ENTER_GC_SAFE;
ret = fstat (fd, &statbuf);
MONO_EXIT_GC_SAFE;
if (ret == -1) {
mono_trace (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER_FILE, "%s: fstat error of file %s: %s", __func__, filename, g_strerror (errno));
_wapi_set_last_error_from_errno ();
MONO_ENTER_GC_SAFE;
close (fd);
MONO_EXIT_GC_SAFE;
return(INVALID_HANDLE_VALUE);
}
#ifndef S_ISFIFO
#define S_ISFIFO(m) ((m & S_IFIFO) != 0)
#endif
if (S_ISFIFO (statbuf.st_mode)) {
type = MONO_FDTYPE_PIPE;
/* maintain invariant that pipes have no filename */
g_free (filename);
filename = NULL;
} else if (S_ISCHR (statbuf.st_mode)) {
type = MONO_FDTYPE_CONSOLE;
} else {
type = MONO_FDTYPE_FILE;
}
filehandle = file_data_create (type, fd);
filehandle->filename = filename;
filehandle->fileaccess = fileaccess;
filehandle->sharemode = sharemode;
filehandle->attrs = attrs;
if (!share_allows_open (&statbuf, filehandle->sharemode, filehandle->fileaccess, &filehandle->share_info)) {
mono_w32error_set_last (ERROR_SHARING_VIOLATION);
MONO_ENTER_GC_SAFE;
close (((MonoFDHandle*) filehandle)->fd);
MONO_EXIT_GC_SAFE;
mono_fdhandle_unref ((MonoFDHandle*) filehandle);
return (INVALID_HANDLE_VALUE);
}
if (!filehandle->share_info) {
/* No space, so no more files can be opened */
mono_trace (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER_FILE, "%s: No space in the share table", __func__);
mono_w32error_set_last (ERROR_TOO_MANY_OPEN_FILES);
MONO_ENTER_GC_SAFE;
close (((MonoFDHandle*) filehandle)->fd);
MONO_EXIT_GC_SAFE;
mono_fdhandle_unref ((MonoFDHandle*) filehandle);
return(INVALID_HANDLE_VALUE);
}
#ifdef HAVE_POSIX_FADVISE
if (attrs & FILE_FLAG_SEQUENTIAL_SCAN) {
MONO_ENTER_GC_SAFE;
posix_fadvise (((MonoFDHandle*) filehandle)->fd, 0, 0, POSIX_FADV_SEQUENTIAL);
MONO_EXIT_GC_SAFE;
}
if (attrs & FILE_FLAG_RANDOM_ACCESS) {
MONO_ENTER_GC_SAFE;
posix_fadvise (((MonoFDHandle*) filehandle)->fd, 0, 0, POSIX_FADV_RANDOM);
MONO_EXIT_GC_SAFE;
}
#endif
#ifdef F_RDAHEAD
if (attrs & FILE_FLAG_SEQUENTIAL_SCAN) {
MONO_ENTER_GC_SAFE;
fcntl(((MonoFDHandle*) filehandle)->fd, F_RDAHEAD, 1);
MONO_EXIT_GC_SAFE;
}
#endif
mono_fdhandle_insert ((MonoFDHandle*) filehandle);
mono_trace (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER_FILE, "%s: returning handle %p", __func__, GINT_TO_POINTER(((MonoFDHandle*) filehandle)->fd));
return GINT_TO_POINTER(((MonoFDHandle*) filehandle)->fd);
}
gboolean
mono_w32file_close (gpointer handle)
{
if (!mono_fdhandle_close (GPOINTER_TO_INT (handle))) {
mono_w32error_set_last (ERROR_INVALID_HANDLE);
return FALSE;
}
return TRUE;
}
static gboolean
mono_w32file_read_or_write (gpointer handle, gpointer buffer, guint32 numbytes, guint32 *bytesread, gint32 *win32error)
{
MONO_REQ_GC_UNSAFE_MODE;
FileHandle *filehandle;
gboolean ret = FALSE;
gboolean const ref = mono_fdhandle_lookup_and_ref(GPOINTER_TO_INT(handle), (MonoFDHandle**) &filehandle);
if (!ref) {
mono_w32error_set_last (ERROR_INVALID_HANDLE);
goto exit;
}
switch (((MonoFDHandle*) filehandle)->type) {
case MONO_FDTYPE_FILE:
ret = (file_write) (filehandle, buffer, numbytes, bytesread);
break;
case MONO_FDTYPE_CONSOLE:
ret = (console_write) (filehandle, buffer, numbytes, bytesread);
break;
case MONO_FDTYPE_PIPE:
ret = (pipe_write) (filehandle, buffer, numbytes, bytesread);
break;
default:
mono_w32error_set_last (ERROR_INVALID_HANDLE);
break;
}
exit:
if (ref)
mono_fdhandle_unref ((MonoFDHandle*) filehandle);
if (!ret)
*win32error = mono_w32error_get_last ();
return ret;
}
gboolean
mono_w32file_write (gpointer handle, gconstpointer buffer, guint32 numbytes, guint32 *byteswritten, gint32 *win32error)
{
return mono_w32file_read_or_write (handle, (gpointer)buffer, numbytes, byteswritten, win32error);
}
|
/**
* \file
*/
#include <config.h>
#include <glib.h>
#include <stdlib.h>
#include <fcntl.h>
#include <unistd.h>
#include <errno.h>
#include <string.h>
#include <sys/stat.h>
#ifdef HAVE_SYS_STATVFS_H
#include <sys/statvfs.h>
#endif
#if defined(HAVE_SYS_STATFS_H)
#include <sys/statfs.h>
#endif
#if defined(HAVE_SYS_PARAM_H) && defined(HAVE_SYS_MOUNT_H)
#include <sys/param.h>
#include <sys/mount.h>
#endif
#include <sys/types.h>
#include <stdio.h>
#ifdef HAVE_UTIME_H
#include <utime.h>
#endif
#ifdef __linux__
#include <sys/ioctl.h>
#include <linux/fs.h>
#include <mono/utils/linux_magic.h>
#endif
#ifdef _AIX
#include <sys/mntctl.h>
#include <sys/vmount.h>
#endif
#include <sys/time.h>
#ifdef HAVE_DIRENT_H
# include <dirent.h>
#endif
#if HOST_DARWIN
#include <dlfcn.h>
#endif
#include "w32file.h"
#include "w32error.h"
#include "fdhandle.h"
#include "utils/mono-error-internals.h"
#include "utils/mono-logger-internals.h"
#include "utils/mono-os-mutex.h"
#include "utils/mono-threads.h"
#include "utils/mono-threads-api.h"
#include "utils/strenc-internals.h"
#include "utils/strenc.h"
#include "utils/refcount.h"
#include "icall-decl.h"
#include "utils/mono-errno.h"
#define INVALID_HANDLE_VALUE ((gpointer)-1)
typedef struct {
guint64 device;
guint64 inode;
guint32 sharemode;
guint32 access;
guint32 handle_refs;
guint32 timestamp;
} FileShare;
/* Currently used for both FILE, CONSOLE and PIPE handle types.
* This may have to change in future. */
typedef struct {
MonoFDHandle fdhandle;
gchar *filename;
FileShare *share_info; /* Pointer into shared mem */
guint32 security_attributes;
guint32 fileaccess;
guint32 sharemode;
guint32 attrs;
} FileHandle;
/*
* If SHM is disabled, this will point to a hash of FileShare structures, otherwise
* it will be NULL. We use this instead of _wapi_fileshare_layout to avoid allocating a
* 4MB array.
*/
static GHashTable *file_share_table;
static MonoCoopMutex file_share_mutex;
static FileHandle*
file_data_create (MonoFDType type, gint fd)
{
FileHandle *filehandle;
filehandle = g_new0 (FileHandle, 1);
mono_fdhandle_init ((MonoFDHandle*) filehandle, type, fd);
return filehandle;
}
static gint
_wapi_unlink (const gchar *pathname);
static void
file_share_release (FileShare *share_info);
static void
file_data_close (MonoFDHandle *fdhandle)
{
FileHandle* filehandle;
filehandle = (FileHandle*) fdhandle;
g_assert (filehandle);
mono_trace (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER_FILE, "%s: closing fd %d", __func__, ((MonoFDHandle*) filehandle)->fd);
if (((MonoFDHandle*) filehandle)->type == MONO_FDTYPE_FILE && (filehandle->attrs & FILE_FLAG_DELETE_ON_CLOSE)) {
_wapi_unlink (filehandle->filename);
}
if (((MonoFDHandle*) filehandle)->type != MONO_FDTYPE_CONSOLE || ((MonoFDHandle*) filehandle)->fd > 2) {
if (filehandle->share_info) {
file_share_release (filehandle->share_info);
filehandle->share_info = NULL;
}
MONO_ENTER_GC_SAFE;
close (((MonoFDHandle*) filehandle)->fd);
MONO_EXIT_GC_SAFE;
}
}
static void
file_data_destroy (MonoFDHandle *fdhandle)
{
FileHandle *filehandle;
filehandle = (FileHandle*) fdhandle;
g_assert (filehandle);
if (filehandle->filename)
g_free (filehandle->filename);
g_free (filehandle);
}
static void
file_share_release (FileShare *share_info)
{
/* Prevent new entries racing with us */
mono_coop_mutex_lock (&file_share_mutex);
g_assert (share_info->handle_refs > 0);
share_info->handle_refs -= 1;
if (share_info->handle_refs == 0) {
g_hash_table_remove (file_share_table, share_info);
// g_free (share_info);
}
mono_coop_mutex_unlock (&file_share_mutex);
}
static gint
file_share_equal (gconstpointer ka, gconstpointer kb)
{
const FileShare *s1 = (const FileShare *)ka;
const FileShare *s2 = (const FileShare *)kb;
return (s1->device == s2->device && s1->inode == s2->inode) ? 1 : 0;
}
static guint
file_share_hash (gconstpointer data)
{
const FileShare *s = (const FileShare *)data;
return s->inode;
}
static gboolean
file_share_get (guint64 device, guint64 inode, guint32 new_sharemode, guint32 new_access,
guint32 *old_sharemode, guint32 *old_access, FileShare **share_info)
{
FileShare *file_share;
gboolean exists = FALSE;
/* Prevent new entries racing with us */
mono_coop_mutex_lock (&file_share_mutex);
FileShare tmp;
/*
* Instead of allocating a 4MB array, we use a hash table to keep track of this
* info. This is needed even if SHM is disabled, to track sharing inside
* the current process.
*/
if (!file_share_table)
file_share_table = g_hash_table_new_full (file_share_hash, file_share_equal, NULL, g_free);
tmp.device = device;
tmp.inode = inode;
file_share = (FileShare *)g_hash_table_lookup (file_share_table, &tmp);
if (file_share) {
*old_sharemode = file_share->sharemode;
*old_access = file_share->access;
*share_info = file_share;
g_assert (file_share->handle_refs > 0);
file_share->handle_refs += 1;
exists = TRUE;
} else {
file_share = g_new0 (FileShare, 1);
file_share->device = device;
file_share->inode = inode;
file_share->sharemode = new_sharemode;
file_share->access = new_access;
file_share->handle_refs = 1;
*share_info = file_share;
g_hash_table_insert (file_share_table, file_share, file_share);
}
mono_coop_mutex_unlock (&file_share_mutex);
return(exists);
}
static gint
_wapi_open (const gchar *pathname, gint flags, mode_t mode)
{
gint fd;
MONO_ENTER_GC_SAFE;
fd = open (pathname, flags, mode);
MONO_EXIT_GC_SAFE;
return(fd);
}
static gint
_wapi_access (const gchar *pathname, gint mode)
{
gint ret;
MONO_ENTER_GC_SAFE;
ret = access (pathname, mode);
MONO_EXIT_GC_SAFE;
return ret;
}
static gint
_wapi_unlink (const gchar *pathname)
{
gint ret;
MONO_ENTER_GC_SAFE;
ret = unlink (pathname);
MONO_EXIT_GC_SAFE;
return ret;
}
static gchar*
_wapi_dirname (const gchar *filename)
{
gchar *new_filename = g_strdup (filename), *ret;
ret = g_path_get_dirname (new_filename);
g_free (new_filename);
return ret;
}
static void
_wapi_set_last_error_from_errno (void)
{
mono_w32error_set_last (mono_w32error_unix_to_win32 (errno));
}
static void _wapi_set_last_path_error_from_errno (const gchar *dir,
const gchar *path)
{
if (errno == ENOENT) {
/* Check the path - if it's a missing directory then
* we need to set PATH_NOT_FOUND not FILE_NOT_FOUND
*/
gchar *dirname;
if (dir == NULL) {
dirname = _wapi_dirname (path);
} else {
dirname = g_strdup (dir);
}
if (_wapi_access (dirname, F_OK) == 0) {
mono_w32error_set_last (ERROR_FILE_NOT_FOUND);
} else {
mono_w32error_set_last (ERROR_PATH_NOT_FOUND);
}
g_free (dirname);
} else {
_wapi_set_last_error_from_errno ();
}
}
static gboolean
file_write (FileHandle *filehandle, gpointer buffer, guint32 numbytes, guint32 *byteswritten)
{
gint ret;
MonoThreadInfo *info = mono_thread_info_current ();
if(byteswritten!=NULL) {
*byteswritten=0;
}
if(!(filehandle->fileaccess & GENERIC_WRITE) && !(filehandle->fileaccess & GENERIC_ALL)) {
mono_trace (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER_FILE, "%s: fd %d doesn't have GENERIC_WRITE access: %u", __func__, ((MonoFDHandle*) filehandle)->fd, filehandle->fileaccess);
mono_w32error_set_last (ERROR_ACCESS_DENIED);
return(FALSE);
}
do {
MONO_ENTER_GC_SAFE;
ret = write (((MonoFDHandle*) filehandle)->fd, buffer, numbytes);
MONO_EXIT_GC_SAFE;
} while (ret == -1 && errno == EINTR &&
!mono_thread_info_is_interrupt_state (info));
if (ret == -1) {
if (errno == EINTR) {
ret = 0;
} else {
_wapi_set_last_error_from_errno ();
mono_trace (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER_FILE, "%s: write of fd %d error: %s", __func__, ((MonoFDHandle*) filehandle)->fd, g_strerror(errno));
return(FALSE);
}
}
if (byteswritten != NULL) {
*byteswritten = ret;
}
return(TRUE);
}
static gboolean
console_write (FileHandle *filehandle, gpointer buffer, guint32 numbytes, guint32 *byteswritten)
{
gint ret;
MonoThreadInfo *info = mono_thread_info_current ();
if(byteswritten!=NULL) {
*byteswritten=0;
}
if(!(filehandle->fileaccess & (GENERIC_WRITE | GENERIC_ALL))) {
mono_trace (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER_FILE, "%s: fd %d doesn't have GENERIC_WRITE access: %u", __func__, ((MonoFDHandle*) filehandle)->fd, filehandle->fileaccess);
mono_w32error_set_last (ERROR_ACCESS_DENIED);
return(FALSE);
}
do {
MONO_ENTER_GC_SAFE;
ret = write(((MonoFDHandle*) filehandle)->fd, buffer, numbytes);
MONO_EXIT_GC_SAFE;
} while (ret == -1 && errno == EINTR &&
!mono_thread_info_is_interrupt_state (info));
if (ret == -1) {
if (errno == EINTR) {
ret = 0;
} else {
_wapi_set_last_error_from_errno ();
mono_trace (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER_FILE, "%s: write of fd %d error: %s", __func__, ((MonoFDHandle*) filehandle)->fd, g_strerror(errno));
return(FALSE);
}
}
if(byteswritten!=NULL) {
*byteswritten=ret;
}
return(TRUE);
}
static gboolean
pipe_write (FileHandle *filehandle, gpointer buffer, guint32 numbytes, guint32 *byteswritten)
{
gint ret;
MonoThreadInfo *info = mono_thread_info_current ();
if(byteswritten!=NULL) {
*byteswritten=0;
}
if(!(filehandle->fileaccess & (GENERIC_WRITE | GENERIC_ALL))) {
mono_trace (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER_FILE, "%s: fd %d doesn't have GENERIC_WRITE access: %u", __func__, ((MonoFDHandle*) filehandle)->fd, filehandle->fileaccess);
mono_w32error_set_last (ERROR_ACCESS_DENIED);
return(FALSE);
}
mono_trace (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER_FILE, "%s: writing up to %" G_GUINT32_FORMAT " bytes to pipe %d", __func__, numbytes, ((MonoFDHandle*) filehandle)->fd);
do {
MONO_ENTER_GC_SAFE;
ret = write (((MonoFDHandle*) filehandle)->fd, buffer, numbytes);
MONO_EXIT_GC_SAFE;
} while (ret == -1 && errno == EINTR &&
!mono_thread_info_is_interrupt_state (info));
if (ret == -1) {
if (errno == EINTR) {
ret = 0;
} else {
_wapi_set_last_error_from_errno ();
mono_trace (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER_FILE, "%s: write of fd %d error: %s", __func__,((MonoFDHandle*) filehandle)->fd, g_strerror(errno));
return(FALSE);
}
}
if(byteswritten!=NULL) {
*byteswritten=ret;
}
return(TRUE);
}
static gint convert_flags(guint32 fileaccess, guint32 createmode)
{
gint flags=0;
switch(fileaccess) {
case GENERIC_READ:
flags=O_RDONLY;
break;
case GENERIC_WRITE:
flags=O_WRONLY;
break;
case GENERIC_READ|GENERIC_WRITE:
flags=O_RDWR;
break;
default:
mono_trace (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER_FILE, "%s: Unknown access type 0x%" PRIx32, __func__,
fileaccess);
break;
}
switch(createmode) {
case CREATE_NEW:
flags|=O_CREAT|O_EXCL;
break;
case CREATE_ALWAYS:
flags|=O_CREAT|O_TRUNC;
break;
case OPEN_EXISTING:
break;
case OPEN_ALWAYS:
flags|=O_CREAT;
break;
case TRUNCATE_EXISTING:
flags|=O_TRUNC;
break;
default:
mono_trace (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER_FILE, "%s: Unknown create mode 0x%" PRIx32, __func__,
createmode);
break;
}
return(flags);
}
static gboolean share_allows_open (struct stat *statbuf, guint32 sharemode,
guint32 fileaccess,
FileShare **share_info)
{
gboolean file_already_shared;
guint32 file_existing_share, file_existing_access;
file_already_shared = file_share_get (statbuf->st_dev, statbuf->st_ino, sharemode, fileaccess, &file_existing_share, &file_existing_access, share_info);
if (file_already_shared) {
/* The reference to this share info was incremented
* when we looked it up, so be careful to put it back
* if we conclude we can't use this file.
*/
if ((file_existing_share == FILE_SHARE_NONE) || (sharemode == FILE_SHARE_NONE)) {
/* Quick and easy, no possibility to share */
mono_trace (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER_FILE, "%s: Share mode prevents open: requested access: 0x%" PRIx32 ", file has sharing = NONE", __func__, fileaccess);
file_share_release (*share_info);
*share_info = NULL;
return(FALSE);
}
if (((file_existing_share == FILE_SHARE_READ) &&
(fileaccess != GENERIC_READ)) ||
((file_existing_share == FILE_SHARE_WRITE) &&
(fileaccess != GENERIC_WRITE))) {
/* New access mode doesn't match up */
mono_trace (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER_FILE, "%s: Share mode prevents open: requested access: 0x%" PRIx32 ", file has sharing: 0x%" PRIx32, __func__, fileaccess, file_existing_share);
file_share_release (*share_info);
*share_info = NULL;
return(FALSE);
}
} else {
mono_trace (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER_FILE, "%s: New file!", __func__);
}
return(TRUE);
}
void
mono_w32file_init (void)
{
MonoFDHandleCallback file_data_callbacks;
memset (&file_data_callbacks, 0, sizeof (file_data_callbacks));
file_data_callbacks.close = file_data_close;
file_data_callbacks.destroy = file_data_destroy;
mono_fdhandle_register (MONO_FDTYPE_FILE, &file_data_callbacks);
mono_fdhandle_register (MONO_FDTYPE_CONSOLE, &file_data_callbacks);
mono_fdhandle_register (MONO_FDTYPE_PIPE, &file_data_callbacks);
mono_coop_mutex_init (&file_share_mutex);
}
gpointer
mono_w32file_create(const gunichar2 *name, guint32 fileaccess, guint32 sharemode, guint32 createmode, guint32 attrs)
{
FileHandle *filehandle;
MonoFDType type;
gint flags=convert_flags(fileaccess, createmode);
/*mode_t perms=convert_perms(sharemode);*/
/* we don't use sharemode, because that relates to sharing of
* the file when the file is open and is already handled by
* other code, perms instead are the on-disk permissions and
* this is a sane default.
*/
mode_t perms=0666;
gchar *filename;
gint fd, ret;
struct stat statbuf;
ERROR_DECL (error);
if (attrs & FILE_ATTRIBUTE_TEMPORARY)
perms = 0600;
if (attrs & FILE_ATTRIBUTE_ENCRYPTED){
mono_w32error_set_last (ERROR_ENCRYPTION_FAILED);
return INVALID_HANDLE_VALUE;
}
if (name == NULL) {
mono_trace (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER_FILE, "%s: name is NULL", __func__);
mono_w32error_set_last (ERROR_INVALID_NAME);
return(INVALID_HANDLE_VALUE);
}
filename = mono_unicode_to_external_checked (name, error);
if (filename == NULL) {
mono_trace (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER_FILE, "%s: unicode conversion returned NULL; %s", __func__, mono_error_get_message (error));
mono_error_cleanup (error);
mono_w32error_set_last (ERROR_INVALID_NAME);
return(INVALID_HANDLE_VALUE);
}
mono_trace (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER_FILE, "%s: Opening %s with share 0x%" PRIx32 " and access 0x%" PRIx32, __func__,
filename, sharemode, fileaccess);
fd = _wapi_open (filename, flags, perms);
/* If we were trying to open a directory with write permissions
* (e.g. O_WRONLY or O_RDWR), this call will fail with
* EISDIR. However, this is a bit bogus because calls to
* manipulate the directory (e.g. mono_w32file_set_times) will still work on
* the directory because they use other API calls
* (e.g. utime()). Hence, if we failed with the EISDIR error, try
* to open the directory again without write permission.
*/
if (fd == -1 && errno == EISDIR)
{
/* Try again but don't try to make it writable */
fd = _wapi_open (filename, flags & ~(O_RDWR|O_WRONLY), perms);
}
if (fd == -1) {
mono_trace (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER_FILE, "%s: Error opening file %s: %s", __func__, filename, g_strerror(errno));
_wapi_set_last_path_error_from_errno (NULL, filename);
g_free (filename);
return(INVALID_HANDLE_VALUE);
}
MONO_ENTER_GC_SAFE;
ret = fstat (fd, &statbuf);
MONO_EXIT_GC_SAFE;
if (ret == -1) {
mono_trace (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER_FILE, "%s: fstat error of file %s: %s", __func__, filename, g_strerror (errno));
_wapi_set_last_error_from_errno ();
MONO_ENTER_GC_SAFE;
close (fd);
MONO_EXIT_GC_SAFE;
return(INVALID_HANDLE_VALUE);
}
#ifndef S_ISFIFO
#define S_ISFIFO(m) ((m & S_IFIFO) != 0)
#endif
if (S_ISFIFO (statbuf.st_mode)) {
type = MONO_FDTYPE_PIPE;
/* maintain invariant that pipes have no filename */
g_free (filename);
filename = NULL;
} else if (S_ISCHR (statbuf.st_mode)) {
type = MONO_FDTYPE_CONSOLE;
} else {
type = MONO_FDTYPE_FILE;
}
filehandle = file_data_create (type, fd);
filehandle->filename = filename;
filehandle->fileaccess = fileaccess;
filehandle->sharemode = sharemode;
filehandle->attrs = attrs;
if (!share_allows_open (&statbuf, filehandle->sharemode, filehandle->fileaccess, &filehandle->share_info)) {
mono_w32error_set_last (ERROR_SHARING_VIOLATION);
MONO_ENTER_GC_SAFE;
close (((MonoFDHandle*) filehandle)->fd);
MONO_EXIT_GC_SAFE;
mono_fdhandle_unref ((MonoFDHandle*) filehandle);
return (INVALID_HANDLE_VALUE);
}
if (!filehandle->share_info) {
/* No space, so no more files can be opened */
mono_trace (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER_FILE, "%s: No space in the share table", __func__);
mono_w32error_set_last (ERROR_TOO_MANY_OPEN_FILES);
MONO_ENTER_GC_SAFE;
close (((MonoFDHandle*) filehandle)->fd);
MONO_EXIT_GC_SAFE;
mono_fdhandle_unref ((MonoFDHandle*) filehandle);
return(INVALID_HANDLE_VALUE);
}
#ifdef HAVE_POSIX_FADVISE
if (attrs & FILE_FLAG_SEQUENTIAL_SCAN) {
MONO_ENTER_GC_SAFE;
posix_fadvise (((MonoFDHandle*) filehandle)->fd, 0, 0, POSIX_FADV_SEQUENTIAL);
MONO_EXIT_GC_SAFE;
}
if (attrs & FILE_FLAG_RANDOM_ACCESS) {
MONO_ENTER_GC_SAFE;
posix_fadvise (((MonoFDHandle*) filehandle)->fd, 0, 0, POSIX_FADV_RANDOM);
MONO_EXIT_GC_SAFE;
}
#endif
#ifdef F_RDAHEAD
if (attrs & FILE_FLAG_SEQUENTIAL_SCAN) {
MONO_ENTER_GC_SAFE;
fcntl(((MonoFDHandle*) filehandle)->fd, F_RDAHEAD, 1);
MONO_EXIT_GC_SAFE;
}
#endif
mono_fdhandle_insert ((MonoFDHandle*) filehandle);
mono_trace (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER_FILE, "%s: returning handle %p", __func__, GINT_TO_POINTER(((MonoFDHandle*) filehandle)->fd));
return GINT_TO_POINTER(((MonoFDHandle*) filehandle)->fd);
}
gboolean
mono_w32file_close (gpointer handle)
{
if (!mono_fdhandle_close (GPOINTER_TO_INT (handle))) {
mono_w32error_set_last (ERROR_INVALID_HANDLE);
return FALSE;
}
return TRUE;
}
static gboolean
mono_w32file_read_or_write (gpointer handle, gpointer buffer, guint32 numbytes, guint32 *bytesread, gint32 *win32error)
{
MONO_REQ_GC_UNSAFE_MODE;
FileHandle *filehandle;
gboolean ret = FALSE;
gboolean const ref = mono_fdhandle_lookup_and_ref(GPOINTER_TO_INT(handle), (MonoFDHandle**) &filehandle);
if (!ref) {
mono_w32error_set_last (ERROR_INVALID_HANDLE);
goto exit;
}
switch (((MonoFDHandle*) filehandle)->type) {
case MONO_FDTYPE_FILE:
ret = (file_write) (filehandle, buffer, numbytes, bytesread);
break;
case MONO_FDTYPE_CONSOLE:
ret = (console_write) (filehandle, buffer, numbytes, bytesread);
break;
case MONO_FDTYPE_PIPE:
ret = (pipe_write) (filehandle, buffer, numbytes, bytesread);
break;
default:
mono_w32error_set_last (ERROR_INVALID_HANDLE);
break;
}
exit:
if (ref)
mono_fdhandle_unref ((MonoFDHandle*) filehandle);
if (!ret)
*win32error = mono_w32error_get_last ();
return ret;
}
gboolean
mono_w32file_write (gpointer handle, gconstpointer buffer, guint32 numbytes, guint32 *byteswritten, gint32 *win32error)
{
return mono_w32file_read_or_write (handle, (gpointer)buffer, numbytes, byteswritten, win32error);
}
| -1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/coreclr/pal/src/libunwind/src/sh/Greg_states_iterate.c
|
/* libunwind - a platform-independent unwind library
Copyright (c) 2002-2003 Hewlett-Packard Development Company, L.P.
Contributed by David Mosberger-Tang <[email protected]>
Modified for x86_64 by Max Asbock <[email protected]>
This file is part of libunwind.
Permission is hereby granted, free of charge, to any person obtaining
a copy of this software and associated documentation files (the
"Software"), to deal in the Software without restriction, including
without limitation the rights to use, copy, modify, merge, publish,
distribute, sublicense, and/or sell copies of the Software, and to
permit persons to whom the Software is furnished to do so, subject to
the following conditions:
The above copyright notice and this permission notice shall be
included in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */
#include "unwind_i.h"
int
unw_reg_states_iterate (unw_cursor_t *cursor,
unw_reg_states_callback cb, void *token)
{
struct cursor *c = (struct cursor *) cursor;
return dwarf_reg_states_iterate (&c->dwarf, cb, token);
}
|
/* libunwind - a platform-independent unwind library
Copyright (c) 2002-2003 Hewlett-Packard Development Company, L.P.
Contributed by David Mosberger-Tang <[email protected]>
Modified for x86_64 by Max Asbock <[email protected]>
This file is part of libunwind.
Permission is hereby granted, free of charge, to any person obtaining
a copy of this software and associated documentation files (the
"Software"), to deal in the Software without restriction, including
without limitation the rights to use, copy, modify, merge, publish,
distribute, sublicense, and/or sell copies of the Software, and to
permit persons to whom the Software is furnished to do so, subject to
the following conditions:
The above copyright notice and this permission notice shall be
included in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */
#include "unwind_i.h"
int
unw_reg_states_iterate (unw_cursor_t *cursor,
unw_reg_states_callback cb, void *token)
{
struct cursor *c = (struct cursor *) cursor;
return dwarf_reg_states_iterate (&c->dwarf, cb, token);
}
| -1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/coreclr/pal/src/exception/compact_unwind_encoding.h
|
//===------------------ mach-o/compact_unwind_encoding.h ------------------===//
//
// The LLVM Compiler Infrastructure
//
// This file is dual licensed under the MIT and the University of Illinois Open
// Source Licenses. See LICENSE.TXT for details.
//
//
// Darwin's alternative to dwarf based unwind encodings.
//
//===----------------------------------------------------------------------===//
#ifndef __COMPACT_UNWIND_ENCODING__
#define __COMPACT_UNWIND_ENCODING__
#include <stdint.h>
//
// Compilers can emit standard Dwarf FDEs in the __TEXT,__eh_frame section
// of object files. Or compilers can emit compact unwind information in
// the __LD,__compact_unwind section.
//
// When the linker creates a final linked image, it will create a
// __TEXT,__unwind_info section. This section is a small and fast way for the
// runtime to access unwind info for any given function. If the compiler
// emitted compact unwind info for the function, that compact unwind info will
// be encoded in the __TEXT,__unwind_info section. If the compiler emitted
// dwarf unwind info, the __TEXT,__unwind_info section will contain the offset
// of the FDE in the __TEXT,__eh_frame section in the final linked image.
//
// Note: Previously, the linker would transform some dwarf unwind infos into
// compact unwind info. But that is fragile and no longer done.
//
// The compact unwind endoding is a 32-bit value which encoded in an
// architecture specific way, which registers to restore from where, and how
// to unwind out of the function.
//
typedef uint32_t compact_unwind_encoding_t;
// architecture independent bits
enum {
UNWIND_IS_NOT_FUNCTION_START = 0x80000000,
UNWIND_HAS_LSDA = 0x40000000,
UNWIND_PERSONALITY_MASK = 0x30000000,
};
//
// x86
//
// 1-bit: start
// 1-bit: has lsda
// 2-bit: personality index
//
// 4-bits: 0=old, 1=ebp based, 2=stack-imm, 3=stack-ind, 4=dwarf
// ebp based:
// 15-bits (5*3-bits per reg) register permutation
// 8-bits for stack offset
// frameless:
// 8-bits stack size
// 3-bits stack adjust
// 3-bits register count
// 10-bits register permutation
//
enum {
UNWIND_X86_MODE_MASK = 0x0F000000,
UNWIND_X86_MODE_EBP_FRAME = 0x01000000,
UNWIND_X86_MODE_STACK_IMMD = 0x02000000,
UNWIND_X86_MODE_STACK_IND = 0x03000000,
UNWIND_X86_MODE_DWARF = 0x04000000,
UNWIND_X86_EBP_FRAME_REGISTERS = 0x00007FFF,
UNWIND_X86_EBP_FRAME_OFFSET = 0x00FF0000,
UNWIND_X86_FRAMELESS_STACK_SIZE = 0x00FF0000,
UNWIND_X86_FRAMELESS_STACK_ADJUST = 0x0000E000,
UNWIND_X86_FRAMELESS_STACK_REG_COUNT = 0x00001C00,
UNWIND_X86_FRAMELESS_STACK_REG_PERMUTATION = 0x000003FF,
UNWIND_X86_DWARF_SECTION_OFFSET = 0x00FFFFFF,
};
enum {
UNWIND_X86_REG_NONE = 0,
UNWIND_X86_REG_EBX = 1,
UNWIND_X86_REG_ECX = 2,
UNWIND_X86_REG_EDX = 3,
UNWIND_X86_REG_EDI = 4,
UNWIND_X86_REG_ESI = 5,
UNWIND_X86_REG_EBP = 6,
};
//
// For x86 there are four modes for the compact unwind encoding:
// UNWIND_X86_MODE_EBP_FRAME:
// EBP based frame where EBP is push on stack immediately after return address,
// then ESP is moved to EBP. Thus, to unwind ESP is restored with the current
// EPB value, then EBP is restored by popping off the stack, and the return
// is done by popping the stack once more into the pc.
// All non-volatile registers that need to be restored must have been saved
// in a small range in the stack that starts EBP-4 to EBP-1020. The offset/4
// is encoded in the UNWIND_X86_EBP_FRAME_OFFSET bits. The registers saved
// are encoded in the UNWIND_X86_EBP_FRAME_REGISTERS bits as five 3-bit entries.
// Each entry contains which register to restore.
// UNWIND_X86_MODE_STACK_IMMD:
// A "frameless" (EBP not used as frame pointer) function with a small
// constant stack size. To return, a constant (encoded in the compact
// unwind encoding) is added to the ESP. Then the return is done by
// popping the stack into the pc.
// All non-volatile registers that need to be restored must have been saved
// on the stack immediately after the return address. The stack_size/4 is
// encoded in the UNWIND_X86_FRAMELESS_STACK_SIZE (max stack size is 1024).
// The number of registers saved is encoded in UNWIND_X86_FRAMELESS_STACK_REG_COUNT.
// UNWIND_X86_FRAMELESS_STACK_REG_PERMUTATION constains which registers were
// saved and their order.
// UNWIND_X86_MODE_STACK_IND:
// A "frameless" (EBP not used as frame pointer) function large constant
// stack size. This case is like the previous, except the stack size is too
// large to encode in the compact unwind encoding. Instead it requires that
// the function contains "subl $nnnnnnnn,ESP" in its prolog. The compact
// encoding contains the offset to the nnnnnnnn value in the function in
// UNWIND_X86_FRAMELESS_STACK_SIZE.
// UNWIND_X86_MODE_DWARF:
// No compact unwind encoding is available. Instead the low 24-bits of the
// compact encoding is the offset of the dwarf FDE in the __eh_frame section.
// This mode is never used in object files. It is only generated by the
// linker in final linked images which have only dwarf unwind info for a
// function.
//
// The following is the algorithm used to create the permutation encoding used
// with frameless stacks. It is passed the number of registers to be saved and
// an array of the register numbers saved.
//
//uint32_t permute_encode(uint32_t registerCount, const uint32_t registers[6])
//{
// uint32_t renumregs[6];
// for (int i=6-registerCount; i < 6; ++i) {
// int countless = 0;
// for (int j=6-registerCount; j < i; ++j) {
// if ( registers[j] < registers[i] )
// ++countless;
// }
// renumregs[i] = registers[i] - countless -1;
// }
// uint32_t permutationEncoding = 0;
// switch ( registerCount ) {
// case 6:
// permutationEncoding |= (120*renumregs[0] + 24*renumregs[1]
// + 6*renumregs[2] + 2*renumregs[3]
// + renumregs[4]);
// break;
// case 5:
// permutationEncoding |= (120*renumregs[1] + 24*renumregs[2]
// + 6*renumregs[3] + 2*renumregs[4]
// + renumregs[5]);
// break;
// case 4:
// permutationEncoding |= (60*renumregs[2] + 12*renumregs[3]
// + 3*renumregs[4] + renumregs[5]);
// break;
// case 3:
// permutationEncoding |= (20*renumregs[3] + 4*renumregs[4]
// + renumregs[5]);
// break;
// case 2:
// permutationEncoding |= (5*renumregs[4] + renumregs[5]);
// break;
// case 1:
// permutationEncoding |= (renumregs[5]);
// break;
// }
// return permutationEncoding;
//}
//
//
// x86_64
//
// 1-bit: start
// 1-bit: has lsda
// 2-bit: personality index
//
// 4-bits: 0=old, 1=rbp based, 2=stack-imm, 3=stack-ind, 4=dwarf
// rbp based:
// 15-bits (5*3-bits per reg) register permutation
// 8-bits for stack offset
// frameless:
// 8-bits stack size
// 3-bits stack adjust
// 3-bits register count
// 10-bits register permutation
//
enum {
UNWIND_X86_64_MODE_MASK = 0x0F000000,
UNWIND_X86_64_MODE_RBP_FRAME = 0x01000000,
UNWIND_X86_64_MODE_STACK_IMMD = 0x02000000,
UNWIND_X86_64_MODE_STACK_IND = 0x03000000,
UNWIND_X86_64_MODE_DWARF = 0x04000000,
UNWIND_X86_64_RBP_FRAME_REGISTERS = 0x00007FFF,
UNWIND_X86_64_RBP_FRAME_OFFSET = 0x00FF0000,
UNWIND_X86_64_FRAMELESS_STACK_SIZE = 0x00FF0000,
UNWIND_X86_64_FRAMELESS_STACK_ADJUST = 0x0000E000,
UNWIND_X86_64_FRAMELESS_STACK_REG_COUNT = 0x00001C00,
UNWIND_X86_64_FRAMELESS_STACK_REG_PERMUTATION = 0x000003FF,
UNWIND_X86_64_DWARF_SECTION_OFFSET = 0x00FFFFFF,
};
enum {
UNWIND_X86_64_REG_NONE = 0,
UNWIND_X86_64_REG_RBX = 1,
UNWIND_X86_64_REG_R12 = 2,
UNWIND_X86_64_REG_R13 = 3,
UNWIND_X86_64_REG_R14 = 4,
UNWIND_X86_64_REG_R15 = 5,
UNWIND_X86_64_REG_RBP = 6,
};
//
// For x86_64 there are four modes for the compact unwind encoding:
// UNWIND_X86_64_MODE_RBP_FRAME:
// RBP based frame where RBP is push on stack immediately after return address,
// then RSP is moved to RBP. Thus, to unwind RSP is restored with the current
// EPB value, then RBP is restored by popping off the stack, and the return
// is done by popping the stack once more into the pc.
// All non-volatile registers that need to be restored must have been saved
// in a small range in the stack that starts RBP-8 to RBP-1020. The offset/4
// is encoded in the UNWIND_X86_64_RBP_FRAME_OFFSET bits. The registers saved
// are encoded in the UNWIND_X86_64_RBP_FRAME_REGISTERS bits as five 3-bit entries.
// Each entry contains which register to restore.
// UNWIND_X86_64_MODE_STACK_IMMD:
// A "frameless" (RBP not used as frame pointer) function with a small
// constant stack size. To return, a constant (encoded in the compact
// unwind encoding) is added to the RSP. Then the return is done by
// popping the stack into the pc.
// All non-volatile registers that need to be restored must have been saved
// on the stack immediately after the return address. The stack_size/4 is
// encoded in the UNWIND_X86_64_FRAMELESS_STACK_SIZE (max stack size is 1024).
// The number of registers saved is encoded in UNWIND_X86_64_FRAMELESS_STACK_REG_COUNT.
// UNWIND_X86_64_FRAMELESS_STACK_REG_PERMUTATION constains which registers were
// saved and their order.
// UNWIND_X86_64_MODE_STACK_IND:
// A "frameless" (RBP not used as frame pointer) function large constant
// stack size. This case is like the previous, except the stack size is too
// large to encode in the compact unwind encoding. Instead it requires that
// the function contains "subq $nnnnnnnn,RSP" in its prolog. The compact
// encoding contains the offset to the nnnnnnnn value in the function in
// UNWIND_X86_64_FRAMELESS_STACK_SIZE.
// UNWIND_X86_64_MODE_DWARF:
// No compact unwind encoding is available. Instead the low 24-bits of the
// compact encoding is the offset of the dwarf FDE in the __eh_frame section.
// This mode is never used in object files. It is only generated by the
// linker in final linked images which have only dwarf unwind info for a
// function.
//
// ARM64
//
// 1-bit: start
// 1-bit: has lsda
// 2-bit: personality index
//
// 4-bits: 4=frame-based, 3=dwarf, 2=frameless
// frameless:
// 12-bits of stack size
// frame-based:
// 4-bits D reg pairs saved
// 5-bits X reg pairs saved
// dwarf:
// 24-bits offset of dwarf FDE in __eh_frame section
//
enum {
UNWIND_ARM64_MODE_MASK = 0x0F000000,
UNWIND_ARM64_MODE_FRAMELESS = 0x02000000,
UNWIND_ARM64_MODE_DWARF = 0x03000000,
UNWIND_ARM64_MODE_FRAME = 0x04000000,
UNWIND_ARM64_FRAME_X19_X20_PAIR = 0x00000001,
UNWIND_ARM64_FRAME_X21_X22_PAIR = 0x00000002,
UNWIND_ARM64_FRAME_X23_X24_PAIR = 0x00000004,
UNWIND_ARM64_FRAME_X25_X26_PAIR = 0x00000008,
UNWIND_ARM64_FRAME_X27_X28_PAIR = 0x00000010,
UNWIND_ARM64_FRAME_D8_D9_PAIR = 0x00000100,
UNWIND_ARM64_FRAME_D10_D11_PAIR = 0x00000200,
UNWIND_ARM64_FRAME_D12_D13_PAIR = 0x00000400,
UNWIND_ARM64_FRAME_D14_D15_PAIR = 0x00000800,
UNWIND_ARM64_FRAMELESS_STACK_SIZE_MASK = 0x00FFF000,
UNWIND_ARM64_DWARF_SECTION_OFFSET = 0x00FFFFFF,
};
// For arm64 there are three modes for the compact unwind encoding:
// UNWIND_ARM64_MODE_FRAME:
// This is a standard arm64 prolog where FP/LR are immediately pushed on the
// stack, then SP is copied to FP. If there are any non-volatile registers
// saved, then are copied into the stack frame in pairs in a contiguous
// range right below the saved FP/LR pair. Any subset of the five X pairs
// and four D pairs can be saved, but the memory layout must be in register
// number order.
// UNWIND_ARM64_MODE_FRAMELESS:
// A "frameless" leaf function, where FP/LR are not saved. The return address
// remains in LR throughout the function. If any non-volatile registers
// are saved, they must be pushed onto the stack before any stack space is
// allocated for local variables. The stack sized (including any saved
// non-volatile registers) divided by 16 is encoded in the bits
// UNWIND_ARM64_FRAMELESS_STACK_SIZE_MASK.
// UNWIND_ARM64_MODE_DWARF:
// No compact unwind encoding is available. Instead the low 24-bits of the
// compact encoding is the offset of the dwarf FDE in the __eh_frame section.
// This mode is never used in object files. It is only generated by the
// linker in final linked images which have only dwarf unwind info for a
// function.
//
////////////////////////////////////////////////////////////////////////////////
//
// Relocatable Object Files: __LD,__compact_unwind
//
////////////////////////////////////////////////////////////////////////////////
//
// A compiler can generated compact unwind information for a function by adding
// a "row" to the __LD,__compact_unwind section. This section has the
// S_ATTR_DEBUG bit set, so the section will be ignored by older linkers.
// It is removed by the new linker, so never ends up in final executables.
// This section is a table, initially with one row per function (that needs
// unwind info). The table columns and some conceptual entries are:
//
// range-start pointer to start of function/range
// range-length
// compact-unwind-encoding 32-bit encoding
// personality-function or zero if no personality function
// lsda or zero if no LSDA data
//
// The length and encoding fields are 32-bits. The other are all pointer sized.
//
// In x86_64 assembly, these entry would look like:
//
// .section __LD,__compact_unwind,regular,debug
//
// #compact unwind for _foo
// .quad _foo
// .set L1,LfooEnd-_foo
// .long L1
// .long 0x01010001
// .quad 0
// .quad 0
//
// #compact unwind for _bar
// .quad _bar
// .set L2,LbarEnd-_bar
// .long L2
// .long 0x01020011
// .quad __gxx_personality
// .quad except_tab1
//
//
// Notes: There is no need for any labels in the the __compact_unwind section.
// The use of the .set directive is to force the evaluation of the
// range-length at assembly time, instead of generating relocations.
//
// To support future compiler optimizations where which non-volatile registers
// are saved changes within a function (e.g. delay saving non-volatiles until
// necessary), there can by multiple lines in the __compact_unwind table for one
// function, each with a different (non-overlapping) range and each with
// different compact unwind encodings that correspond to the non-volatiles
// saved at that range of the function.
//
// If a particular function is so wacky that there is no compact unwind way
// to encode it, then the compiler can emit traditional dwarf unwind info.
// The runtime will use which ever is available.
//
// Runtime support for compact unwind encodings are only available on 10.6
// and later. So, the compiler should not generate it when targeting pre-10.6.
////////////////////////////////////////////////////////////////////////////////
//
// Final Linked Images: __TEXT,__unwind_info
//
////////////////////////////////////////////////////////////////////////////////
//
// The __TEXT,__unwind_info section is laid out for an efficient two level lookup.
// The header of the section contains a coarse index that maps function address
// to the page (4096 byte block) containing the unwind info for that function.
//
#define UNWIND_SECTION_VERSION 1
struct unwind_info_section_header
{
uint32_t version; // UNWIND_SECTION_VERSION
uint32_t commonEncodingsArraySectionOffset;
uint32_t commonEncodingsArrayCount;
uint32_t personalityArraySectionOffset;
uint32_t personalityArrayCount;
uint32_t indexSectionOffset;
uint32_t indexCount;
// compact_unwind_encoding_t[]
// uintptr_t personalities[]
// unwind_info_section_header_index_entry[]
// unwind_info_section_header_lsda_index_entry[]
};
struct unwind_info_section_header_index_entry
{
uint32_t functionOffset;
uint32_t secondLevelPagesSectionOffset; // section offset to start of regular or compress page
uint32_t lsdaIndexArraySectionOffset; // section offset to start of lsda_index array for this range
};
struct unwind_info_section_header_lsda_index_entry
{
uint32_t functionOffset;
uint32_t lsdaOffset;
};
//
// There are two kinds of second level index pages: regular and compressed.
// A compressed page can hold up to 1021 entries, but it cannot be used
// if too many different encoding types are used. The regular page holds
// 511 entries.
//
struct unwind_info_regular_second_level_entry
{
uint32_t functionOffset;
compact_unwind_encoding_t encoding;
};
#define UNWIND_SECOND_LEVEL_REGULAR 2
struct unwind_info_regular_second_level_page_header
{
uint32_t kind; // UNWIND_SECOND_LEVEL_REGULAR
uint16_t entryPageOffset;
uint16_t entryCount;
// entry array
};
#define UNWIND_SECOND_LEVEL_COMPRESSED 3
struct unwind_info_compressed_second_level_page_header
{
uint32_t kind; // UNWIND_SECOND_LEVEL_COMPRESSED
uint16_t entryPageOffset;
uint16_t entryCount;
uint16_t encodingsPageOffset;
uint16_t encodingsCount;
// 32-bit entry array
// encodings array
};
#define UNWIND_INFO_COMPRESSED_ENTRY_FUNC_OFFSET(entry) (entry & 0x00FFFFFF)
#define UNWIND_INFO_COMPRESSED_ENTRY_ENCODING_INDEX(entry) ((entry >> 24) & 0xFF)
#endif
|
//===------------------ mach-o/compact_unwind_encoding.h ------------------===//
//
// The LLVM Compiler Infrastructure
//
// This file is dual licensed under the MIT and the University of Illinois Open
// Source Licenses. See LICENSE.TXT for details.
//
//
// Darwin's alternative to dwarf based unwind encodings.
//
//===----------------------------------------------------------------------===//
#ifndef __COMPACT_UNWIND_ENCODING__
#define __COMPACT_UNWIND_ENCODING__
#include <stdint.h>
//
// Compilers can emit standard Dwarf FDEs in the __TEXT,__eh_frame section
// of object files. Or compilers can emit compact unwind information in
// the __LD,__compact_unwind section.
//
// When the linker creates a final linked image, it will create a
// __TEXT,__unwind_info section. This section is a small and fast way for the
// runtime to access unwind info for any given function. If the compiler
// emitted compact unwind info for the function, that compact unwind info will
// be encoded in the __TEXT,__unwind_info section. If the compiler emitted
// dwarf unwind info, the __TEXT,__unwind_info section will contain the offset
// of the FDE in the __TEXT,__eh_frame section in the final linked image.
//
// Note: Previously, the linker would transform some dwarf unwind infos into
// compact unwind info. But that is fragile and no longer done.
//
// The compact unwind endoding is a 32-bit value which encoded in an
// architecture specific way, which registers to restore from where, and how
// to unwind out of the function.
//
typedef uint32_t compact_unwind_encoding_t;
// architecture independent bits
enum {
UNWIND_IS_NOT_FUNCTION_START = 0x80000000,
UNWIND_HAS_LSDA = 0x40000000,
UNWIND_PERSONALITY_MASK = 0x30000000,
};
//
// x86
//
// 1-bit: start
// 1-bit: has lsda
// 2-bit: personality index
//
// 4-bits: 0=old, 1=ebp based, 2=stack-imm, 3=stack-ind, 4=dwarf
// ebp based:
// 15-bits (5*3-bits per reg) register permutation
// 8-bits for stack offset
// frameless:
// 8-bits stack size
// 3-bits stack adjust
// 3-bits register count
// 10-bits register permutation
//
enum {
UNWIND_X86_MODE_MASK = 0x0F000000,
UNWIND_X86_MODE_EBP_FRAME = 0x01000000,
UNWIND_X86_MODE_STACK_IMMD = 0x02000000,
UNWIND_X86_MODE_STACK_IND = 0x03000000,
UNWIND_X86_MODE_DWARF = 0x04000000,
UNWIND_X86_EBP_FRAME_REGISTERS = 0x00007FFF,
UNWIND_X86_EBP_FRAME_OFFSET = 0x00FF0000,
UNWIND_X86_FRAMELESS_STACK_SIZE = 0x00FF0000,
UNWIND_X86_FRAMELESS_STACK_ADJUST = 0x0000E000,
UNWIND_X86_FRAMELESS_STACK_REG_COUNT = 0x00001C00,
UNWIND_X86_FRAMELESS_STACK_REG_PERMUTATION = 0x000003FF,
UNWIND_X86_DWARF_SECTION_OFFSET = 0x00FFFFFF,
};
enum {
UNWIND_X86_REG_NONE = 0,
UNWIND_X86_REG_EBX = 1,
UNWIND_X86_REG_ECX = 2,
UNWIND_X86_REG_EDX = 3,
UNWIND_X86_REG_EDI = 4,
UNWIND_X86_REG_ESI = 5,
UNWIND_X86_REG_EBP = 6,
};
//
// For x86 there are four modes for the compact unwind encoding:
// UNWIND_X86_MODE_EBP_FRAME:
// EBP based frame where EBP is push on stack immediately after return address,
// then ESP is moved to EBP. Thus, to unwind ESP is restored with the current
// EPB value, then EBP is restored by popping off the stack, and the return
// is done by popping the stack once more into the pc.
// All non-volatile registers that need to be restored must have been saved
// in a small range in the stack that starts EBP-4 to EBP-1020. The offset/4
// is encoded in the UNWIND_X86_EBP_FRAME_OFFSET bits. The registers saved
// are encoded in the UNWIND_X86_EBP_FRAME_REGISTERS bits as five 3-bit entries.
// Each entry contains which register to restore.
// UNWIND_X86_MODE_STACK_IMMD:
// A "frameless" (EBP not used as frame pointer) function with a small
// constant stack size. To return, a constant (encoded in the compact
// unwind encoding) is added to the ESP. Then the return is done by
// popping the stack into the pc.
// All non-volatile registers that need to be restored must have been saved
// on the stack immediately after the return address. The stack_size/4 is
// encoded in the UNWIND_X86_FRAMELESS_STACK_SIZE (max stack size is 1024).
// The number of registers saved is encoded in UNWIND_X86_FRAMELESS_STACK_REG_COUNT.
// UNWIND_X86_FRAMELESS_STACK_REG_PERMUTATION constains which registers were
// saved and their order.
// UNWIND_X86_MODE_STACK_IND:
// A "frameless" (EBP not used as frame pointer) function large constant
// stack size. This case is like the previous, except the stack size is too
// large to encode in the compact unwind encoding. Instead it requires that
// the function contains "subl $nnnnnnnn,ESP" in its prolog. The compact
// encoding contains the offset to the nnnnnnnn value in the function in
// UNWIND_X86_FRAMELESS_STACK_SIZE.
// UNWIND_X86_MODE_DWARF:
// No compact unwind encoding is available. Instead the low 24-bits of the
// compact encoding is the offset of the dwarf FDE in the __eh_frame section.
// This mode is never used in object files. It is only generated by the
// linker in final linked images which have only dwarf unwind info for a
// function.
//
// The following is the algorithm used to create the permutation encoding used
// with frameless stacks. It is passed the number of registers to be saved and
// an array of the register numbers saved.
//
//uint32_t permute_encode(uint32_t registerCount, const uint32_t registers[6])
//{
// uint32_t renumregs[6];
// for (int i=6-registerCount; i < 6; ++i) {
// int countless = 0;
// for (int j=6-registerCount; j < i; ++j) {
// if ( registers[j] < registers[i] )
// ++countless;
// }
// renumregs[i] = registers[i] - countless -1;
// }
// uint32_t permutationEncoding = 0;
// switch ( registerCount ) {
// case 6:
// permutationEncoding |= (120*renumregs[0] + 24*renumregs[1]
// + 6*renumregs[2] + 2*renumregs[3]
// + renumregs[4]);
// break;
// case 5:
// permutationEncoding |= (120*renumregs[1] + 24*renumregs[2]
// + 6*renumregs[3] + 2*renumregs[4]
// + renumregs[5]);
// break;
// case 4:
// permutationEncoding |= (60*renumregs[2] + 12*renumregs[3]
// + 3*renumregs[4] + renumregs[5]);
// break;
// case 3:
// permutationEncoding |= (20*renumregs[3] + 4*renumregs[4]
// + renumregs[5]);
// break;
// case 2:
// permutationEncoding |= (5*renumregs[4] + renumregs[5]);
// break;
// case 1:
// permutationEncoding |= (renumregs[5]);
// break;
// }
// return permutationEncoding;
//}
//
//
// x86_64
//
// 1-bit: start
// 1-bit: has lsda
// 2-bit: personality index
//
// 4-bits: 0=old, 1=rbp based, 2=stack-imm, 3=stack-ind, 4=dwarf
// rbp based:
// 15-bits (5*3-bits per reg) register permutation
// 8-bits for stack offset
// frameless:
// 8-bits stack size
// 3-bits stack adjust
// 3-bits register count
// 10-bits register permutation
//
enum {
UNWIND_X86_64_MODE_MASK = 0x0F000000,
UNWIND_X86_64_MODE_RBP_FRAME = 0x01000000,
UNWIND_X86_64_MODE_STACK_IMMD = 0x02000000,
UNWIND_X86_64_MODE_STACK_IND = 0x03000000,
UNWIND_X86_64_MODE_DWARF = 0x04000000,
UNWIND_X86_64_RBP_FRAME_REGISTERS = 0x00007FFF,
UNWIND_X86_64_RBP_FRAME_OFFSET = 0x00FF0000,
UNWIND_X86_64_FRAMELESS_STACK_SIZE = 0x00FF0000,
UNWIND_X86_64_FRAMELESS_STACK_ADJUST = 0x0000E000,
UNWIND_X86_64_FRAMELESS_STACK_REG_COUNT = 0x00001C00,
UNWIND_X86_64_FRAMELESS_STACK_REG_PERMUTATION = 0x000003FF,
UNWIND_X86_64_DWARF_SECTION_OFFSET = 0x00FFFFFF,
};
enum {
UNWIND_X86_64_REG_NONE = 0,
UNWIND_X86_64_REG_RBX = 1,
UNWIND_X86_64_REG_R12 = 2,
UNWIND_X86_64_REG_R13 = 3,
UNWIND_X86_64_REG_R14 = 4,
UNWIND_X86_64_REG_R15 = 5,
UNWIND_X86_64_REG_RBP = 6,
};
//
// For x86_64 there are four modes for the compact unwind encoding:
// UNWIND_X86_64_MODE_RBP_FRAME:
// RBP based frame where RBP is push on stack immediately after return address,
// then RSP is moved to RBP. Thus, to unwind RSP is restored with the current
// EPB value, then RBP is restored by popping off the stack, and the return
// is done by popping the stack once more into the pc.
// All non-volatile registers that need to be restored must have been saved
// in a small range in the stack that starts RBP-8 to RBP-1020. The offset/4
// is encoded in the UNWIND_X86_64_RBP_FRAME_OFFSET bits. The registers saved
// are encoded in the UNWIND_X86_64_RBP_FRAME_REGISTERS bits as five 3-bit entries.
// Each entry contains which register to restore.
// UNWIND_X86_64_MODE_STACK_IMMD:
// A "frameless" (RBP not used as frame pointer) function with a small
// constant stack size. To return, a constant (encoded in the compact
// unwind encoding) is added to the RSP. Then the return is done by
// popping the stack into the pc.
// All non-volatile registers that need to be restored must have been saved
// on the stack immediately after the return address. The stack_size/4 is
// encoded in the UNWIND_X86_64_FRAMELESS_STACK_SIZE (max stack size is 1024).
// The number of registers saved is encoded in UNWIND_X86_64_FRAMELESS_STACK_REG_COUNT.
// UNWIND_X86_64_FRAMELESS_STACK_REG_PERMUTATION constains which registers were
// saved and their order.
// UNWIND_X86_64_MODE_STACK_IND:
// A "frameless" (RBP not used as frame pointer) function large constant
// stack size. This case is like the previous, except the stack size is too
// large to encode in the compact unwind encoding. Instead it requires that
// the function contains "subq $nnnnnnnn,RSP" in its prolog. The compact
// encoding contains the offset to the nnnnnnnn value in the function in
// UNWIND_X86_64_FRAMELESS_STACK_SIZE.
// UNWIND_X86_64_MODE_DWARF:
// No compact unwind encoding is available. Instead the low 24-bits of the
// compact encoding is the offset of the dwarf FDE in the __eh_frame section.
// This mode is never used in object files. It is only generated by the
// linker in final linked images which have only dwarf unwind info for a
// function.
//
// ARM64
//
// 1-bit: start
// 1-bit: has lsda
// 2-bit: personality index
//
// 4-bits: 4=frame-based, 3=dwarf, 2=frameless
// frameless:
// 12-bits of stack size
// frame-based:
// 4-bits D reg pairs saved
// 5-bits X reg pairs saved
// dwarf:
// 24-bits offset of dwarf FDE in __eh_frame section
//
enum {
UNWIND_ARM64_MODE_MASK = 0x0F000000,
UNWIND_ARM64_MODE_FRAMELESS = 0x02000000,
UNWIND_ARM64_MODE_DWARF = 0x03000000,
UNWIND_ARM64_MODE_FRAME = 0x04000000,
UNWIND_ARM64_FRAME_X19_X20_PAIR = 0x00000001,
UNWIND_ARM64_FRAME_X21_X22_PAIR = 0x00000002,
UNWIND_ARM64_FRAME_X23_X24_PAIR = 0x00000004,
UNWIND_ARM64_FRAME_X25_X26_PAIR = 0x00000008,
UNWIND_ARM64_FRAME_X27_X28_PAIR = 0x00000010,
UNWIND_ARM64_FRAME_D8_D9_PAIR = 0x00000100,
UNWIND_ARM64_FRAME_D10_D11_PAIR = 0x00000200,
UNWIND_ARM64_FRAME_D12_D13_PAIR = 0x00000400,
UNWIND_ARM64_FRAME_D14_D15_PAIR = 0x00000800,
UNWIND_ARM64_FRAMELESS_STACK_SIZE_MASK = 0x00FFF000,
UNWIND_ARM64_DWARF_SECTION_OFFSET = 0x00FFFFFF,
};
// For arm64 there are three modes for the compact unwind encoding:
// UNWIND_ARM64_MODE_FRAME:
// This is a standard arm64 prolog where FP/LR are immediately pushed on the
// stack, then SP is copied to FP. If there are any non-volatile registers
// saved, then are copied into the stack frame in pairs in a contiguous
// range right below the saved FP/LR pair. Any subset of the five X pairs
// and four D pairs can be saved, but the memory layout must be in register
// number order.
// UNWIND_ARM64_MODE_FRAMELESS:
// A "frameless" leaf function, where FP/LR are not saved. The return address
// remains in LR throughout the function. If any non-volatile registers
// are saved, they must be pushed onto the stack before any stack space is
// allocated for local variables. The stack sized (including any saved
// non-volatile registers) divided by 16 is encoded in the bits
// UNWIND_ARM64_FRAMELESS_STACK_SIZE_MASK.
// UNWIND_ARM64_MODE_DWARF:
// No compact unwind encoding is available. Instead the low 24-bits of the
// compact encoding is the offset of the dwarf FDE in the __eh_frame section.
// This mode is never used in object files. It is only generated by the
// linker in final linked images which have only dwarf unwind info for a
// function.
//
////////////////////////////////////////////////////////////////////////////////
//
// Relocatable Object Files: __LD,__compact_unwind
//
////////////////////////////////////////////////////////////////////////////////
//
// A compiler can generated compact unwind information for a function by adding
// a "row" to the __LD,__compact_unwind section. This section has the
// S_ATTR_DEBUG bit set, so the section will be ignored by older linkers.
// It is removed by the new linker, so never ends up in final executables.
// This section is a table, initially with one row per function (that needs
// unwind info). The table columns and some conceptual entries are:
//
// range-start pointer to start of function/range
// range-length
// compact-unwind-encoding 32-bit encoding
// personality-function or zero if no personality function
// lsda or zero if no LSDA data
//
// The length and encoding fields are 32-bits. The other are all pointer sized.
//
// In x86_64 assembly, these entry would look like:
//
// .section __LD,__compact_unwind,regular,debug
//
// #compact unwind for _foo
// .quad _foo
// .set L1,LfooEnd-_foo
// .long L1
// .long 0x01010001
// .quad 0
// .quad 0
//
// #compact unwind for _bar
// .quad _bar
// .set L2,LbarEnd-_bar
// .long L2
// .long 0x01020011
// .quad __gxx_personality
// .quad except_tab1
//
//
// Notes: There is no need for any labels in the the __compact_unwind section.
// The use of the .set directive is to force the evaluation of the
// range-length at assembly time, instead of generating relocations.
//
// To support future compiler optimizations where which non-volatile registers
// are saved changes within a function (e.g. delay saving non-volatiles until
// necessary), there can by multiple lines in the __compact_unwind table for one
// function, each with a different (non-overlapping) range and each with
// different compact unwind encodings that correspond to the non-volatiles
// saved at that range of the function.
//
// If a particular function is so wacky that there is no compact unwind way
// to encode it, then the compiler can emit traditional dwarf unwind info.
// The runtime will use which ever is available.
//
// Runtime support for compact unwind encodings are only available on 10.6
// and later. So, the compiler should not generate it when targeting pre-10.6.
////////////////////////////////////////////////////////////////////////////////
//
// Final Linked Images: __TEXT,__unwind_info
//
////////////////////////////////////////////////////////////////////////////////
//
// The __TEXT,__unwind_info section is laid out for an efficient two level lookup.
// The header of the section contains a coarse index that maps function address
// to the page (4096 byte block) containing the unwind info for that function.
//
#define UNWIND_SECTION_VERSION 1
struct unwind_info_section_header
{
uint32_t version; // UNWIND_SECTION_VERSION
uint32_t commonEncodingsArraySectionOffset;
uint32_t commonEncodingsArrayCount;
uint32_t personalityArraySectionOffset;
uint32_t personalityArrayCount;
uint32_t indexSectionOffset;
uint32_t indexCount;
// compact_unwind_encoding_t[]
// uintptr_t personalities[]
// unwind_info_section_header_index_entry[]
// unwind_info_section_header_lsda_index_entry[]
};
struct unwind_info_section_header_index_entry
{
uint32_t functionOffset;
uint32_t secondLevelPagesSectionOffset; // section offset to start of regular or compress page
uint32_t lsdaIndexArraySectionOffset; // section offset to start of lsda_index array for this range
};
struct unwind_info_section_header_lsda_index_entry
{
uint32_t functionOffset;
uint32_t lsdaOffset;
};
//
// There are two kinds of second level index pages: regular and compressed.
// A compressed page can hold up to 1021 entries, but it cannot be used
// if too many different encoding types are used. The regular page holds
// 511 entries.
//
struct unwind_info_regular_second_level_entry
{
uint32_t functionOffset;
compact_unwind_encoding_t encoding;
};
#define UNWIND_SECOND_LEVEL_REGULAR 2
struct unwind_info_regular_second_level_page_header
{
uint32_t kind; // UNWIND_SECOND_LEVEL_REGULAR
uint16_t entryPageOffset;
uint16_t entryCount;
// entry array
};
#define UNWIND_SECOND_LEVEL_COMPRESSED 3
struct unwind_info_compressed_second_level_page_header
{
uint32_t kind; // UNWIND_SECOND_LEVEL_COMPRESSED
uint16_t entryPageOffset;
uint16_t entryCount;
uint16_t encodingsPageOffset;
uint16_t encodingsCount;
// 32-bit entry array
// encodings array
};
#define UNWIND_INFO_COMPRESSED_ENTRY_FUNC_OFFSET(entry) (entry & 0x00FFFFFF)
#define UNWIND_INFO_COMPRESSED_ENTRY_ENCODING_INDEX(entry) ((entry >> 24) & 0xFF)
#endif
| -1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/mono/mono/metadata/sre.c
|
/**
* \file
* Routines for creating an image at runtime
* and related System.Reflection.Emit icalls
*
*
* Author:
* Paolo Molaro ([email protected])
*
* Copyright 2001-2003 Ximian, Inc (http://www.ximian.com)
* Copyright 2004-2009 Novell, Inc (http://www.novell.com)
* Copyright 2011 Rodrigo Kumpera
* Copyright 2016 Microsoft
*
* Licensed under the MIT license. See LICENSE file in the project root for full license information.
*/
#include <config.h>
#include <glib.h>
#include "mono/metadata/assembly.h"
#include "mono/metadata/assembly-internals.h"
#include "mono/metadata/class-init.h"
#include "mono/metadata/debug-helpers.h"
#include "mono/metadata/dynamic-image-internals.h"
#include "mono/metadata/dynamic-stream-internals.h"
#include "mono/metadata/exception.h"
#include "mono/metadata/gc-internals.h"
#include "mono/metadata/mono-ptr-array.h"
#include "mono/metadata/object-internals.h"
#include "mono/metadata/profiler-private.h"
#include "mono/metadata/reflection-internals.h"
#include "mono/metadata/reflection-cache.h"
#include "mono/metadata/sre-internals.h"
#include "mono/metadata/custom-attrs-internals.h"
#include "mono/metadata/tabledefs.h"
#include "mono/metadata/tokentype.h"
#include "mono/metadata/abi-details.h"
#include "mono/utils/checked-build.h"
#include "mono/utils/mono-digest.h"
#include "mono/utils/w32api.h"
#ifdef MONO_CLASS_DEF_PRIVATE
/* Rationale: Some of the code here does MonoClass construction.
* FIXME: Move SRE class construction to class-init.c and unify with ordinary class construction.
*/
#define REALLY_INCLUDE_CLASS_DEF 1
#include <mono/metadata/class-private-definition.h>
#undef REALLY_INCLUDE_CLASS_DEF
#endif
#include "icall-decl.h"
/* Maps MonoMethod* to weak links to DynamicMethod objects */
static GHashTable *method_to_dyn_method;
static mono_mutex_t method_to_dyn_method_lock;
static inline void
dyn_methods_lock (void)
{
mono_os_mutex_lock (&method_to_dyn_method_lock);
}
static inline void
dyn_methods_unlock (void)
{
mono_os_mutex_unlock (&method_to_dyn_method_lock);
}
static GENERATE_GET_CLASS_WITH_CACHE (marshal_as_attribute, "System.Runtime.InteropServices", "MarshalAsAttribute");
#ifndef DISABLE_REFLECTION_EMIT
static GENERATE_GET_CLASS_WITH_CACHE (module_builder, "System.Reflection.Emit", "ModuleBuilder");
#endif
static char* string_to_utf8_image_raw (MonoImage *image, MonoString *s, MonoError *error);
#ifndef DISABLE_REFLECTION_EMIT
static guint32 mono_image_get_sighelper_token (MonoDynamicImage *assembly, MonoReflectionSigHelperHandle helper, MonoError *error);
static gboolean ensure_runtime_vtable (MonoClass *klass, MonoError *error);
static void reflection_methodbuilder_from_dynamic_method (ReflectionMethodBuilder *rmb, MonoReflectionDynamicMethod *mb);
static gboolean reflection_setup_internal_class (MonoReflectionTypeBuilderHandle tb, MonoError *error);
static gboolean reflection_init_generic_class (MonoReflectionTypeBuilderHandle tb, MonoError *error);
static gboolean reflection_setup_class_hierarchy (GHashTable *unparented, MonoError *error);
#endif
static char* type_get_qualified_name (MonoType *type, MonoAssembly *ass);
static MonoReflectionTypeHandle mono_reflection_type_get_underlying_system_type (MonoReflectionTypeHandle t, MonoError *error);
static gboolean is_sre_array (MonoClass *klass);
static gboolean is_sre_byref (MonoClass *klass);
static gboolean is_sre_pointer (MonoClass *klass);
static gboolean is_sre_generic_instance (MonoClass *klass);
static gboolean is_sre_type_builder (MonoClass *klass);
static gboolean is_sre_method_builder (MonoClass *klass);
static gboolean is_sre_field_builder (MonoClass *klass);
static gboolean is_sre_gparam_builder (MonoClass *klass);
static gboolean is_sre_enum_builder (MonoClass *klass);
static gboolean is_sr_mono_method (MonoClass *klass);
static guint32 mono_image_get_methodspec_token (MonoDynamicImage *assembly, MonoMethod *method);
static guint32 mono_image_get_inflated_method_token (MonoDynamicImage *assembly, MonoMethod *m);
static guint32 mono_image_create_method_token (MonoDynamicImage *assembly, MonoObjectHandle obj, MonoArrayHandle opt_param_types, MonoError *error);
#ifndef DISABLE_REFLECTION_EMIT
static MonoType* mono_type_array_get_and_resolve_raw (MonoArray* array, int idx, MonoError* error);
#endif
static gboolean mono_image_module_basic_init (MonoReflectionModuleBuilderHandle module, MonoError *error);
void
mono_reflection_emit_init (void)
{
mono_dynamic_images_init ();
mono_os_mutex_init_recursive (&method_to_dyn_method_lock);
}
char*
string_to_utf8_image_raw (MonoImage *image, MonoString *s_raw, MonoError *error)
{
/* FIXME all callers to string_to_utf8_image_raw should use handles */
HANDLE_FUNCTION_ENTER ();
error_init (error);
MONO_HANDLE_DCL (MonoString, s);
char* const result = mono_string_to_utf8_image (image, s, error);
HANDLE_FUNCTION_RETURN_VAL (result);
}
static char*
type_get_fully_qualified_name (MonoType *type)
{
MONO_REQ_GC_NEUTRAL_MODE;
return mono_type_get_name_full (type, MONO_TYPE_NAME_FORMAT_ASSEMBLY_QUALIFIED);
}
static char*
type_get_qualified_name (MonoType *type, MonoAssembly *ass)
{
MONO_REQ_GC_UNSAFE_MODE;
MonoClass *klass;
MonoAssembly *ta;
klass = mono_class_from_mono_type_internal (type);
if (!klass)
return mono_type_get_name_full (type, MONO_TYPE_NAME_FORMAT_REFLECTION);
ta = klass->image->assembly;
if (assembly_is_dynamic (ta) || (ta == ass)) {
if (mono_class_is_ginst (klass) || mono_class_is_gtd (klass))
/* For generic type definitions, we want T, while REFLECTION returns T<K> */
return mono_type_get_name_full (type, MONO_TYPE_NAME_FORMAT_FULL_NAME);
else
return mono_type_get_name_full (type, MONO_TYPE_NAME_FORMAT_REFLECTION);
}
return mono_type_get_name_full (type, MONO_TYPE_NAME_FORMAT_ASSEMBLY_QUALIFIED);
}
#ifndef DISABLE_REFLECTION_EMIT
/**
* mp_g_alloc:
*
* Allocate memory from the @image mempool if it is non-NULL. Otherwise, allocate memory
* from the C heap.
*/
static gpointer
image_g_malloc (MonoImage *image, guint size)
{
MONO_REQ_GC_NEUTRAL_MODE;
if (image)
return mono_image_alloc (image, size);
else
return g_malloc (size);
}
#endif /* !DISABLE_REFLECTION_EMIT */
/**
* image_g_alloc0:
*
* Allocate memory from the @image mempool if it is non-NULL. Otherwise, allocate memory
* from the C heap.
*/
gpointer
(mono_image_g_malloc0) (MonoImage *image, guint size)
{
MONO_REQ_GC_NEUTRAL_MODE;
if (image)
return mono_image_alloc0 (image, size);
else
return g_malloc0 (size);
}
/**
* image_g_free:
* @image: a MonoImage
* @ptr: pointer
*
* If @image is NULL, free @ptr, otherwise do nothing.
*/
static void
image_g_free (MonoImage *image, gpointer ptr)
{
if (image == NULL)
g_free (ptr);
}
#ifndef DISABLE_REFLECTION_EMIT
static char*
image_strdup (MonoImage *image, const char *s)
{
MONO_REQ_GC_NEUTRAL_MODE;
if (image)
return mono_image_strdup (image, s);
else
return g_strdup (s);
}
#endif
#define image_g_new(image,struct_type, n_structs) \
((struct_type *) image_g_malloc (image, ((gsize) sizeof (struct_type)) * ((gsize) (n_structs))))
#define image_g_new0(image,struct_type, n_structs) \
((struct_type *) mono_image_g_malloc0 (image, ((gsize) sizeof (struct_type)) * ((gsize) (n_structs))))
static void
alloc_table (MonoDynamicTable *table, guint nrows)
{
mono_dynimage_alloc_table (table, nrows);
}
static guint32
string_heap_insert (MonoDynamicStream *sh, const char *str)
{
return mono_dynstream_insert_string (sh, str);
}
static guint32
mono_image_add_stream_data (MonoDynamicStream *stream, const char *data, guint32 len)
{
return mono_dynstream_add_data (stream, data, len);
}
/*
* Despite the name, we handle also TypeSpec (with the above helper).
*/
static guint32
mono_image_typedef_or_ref (MonoDynamicImage *assembly, MonoType *type)
{
return mono_dynimage_encode_typedef_or_ref_full (assembly, type, TRUE);
}
/*
* Copy len * nelem bytes from val to dest, swapping bytes to LE if necessary.
* dest may be misaligned.
*/
static void
swap_with_size (gpointer void_dest, gconstpointer void_val, int len, int nelem)
{
char *dest = (char*)void_dest;
const char* val = (const char*)void_val;
MONO_REQ_GC_NEUTRAL_MODE;
#if G_BYTE_ORDER != G_LITTLE_ENDIAN
int elem;
for (elem = 0; elem < nelem; ++elem) {
switch (len) {
case 1:
*dest = *val;
break;
case 2:
dest [0] = val [1];
dest [1] = val [0];
break;
case 4:
dest [0] = val [3];
dest [1] = val [2];
dest [2] = val [1];
dest [3] = val [0];
break;
case 8:
dest [0] = val [7];
dest [1] = val [6];
dest [2] = val [5];
dest [3] = val [4];
dest [4] = val [3];
dest [5] = val [2];
dest [6] = val [1];
dest [7] = val [0];
break;
default:
g_assert_not_reached ();
}
dest += len;
val += len;
}
#else
memcpy (dest, val, len * nelem);
#endif
}
guint32
mono_reflection_method_count_clauses (MonoReflectionILGen *ilgen)
{
MONO_REQ_GC_UNSAFE_MODE;
guint32 num_clauses = 0;
int i;
MonoILExceptionInfo *ex_info;
for (i = 0; i < mono_array_length_internal (ilgen->ex_handlers); ++i) {
ex_info = (MonoILExceptionInfo*)mono_array_addr_internal (ilgen->ex_handlers, MonoILExceptionInfo, i);
if (ex_info->handlers)
num_clauses += mono_array_length_internal (ex_info->handlers);
else
num_clauses++;
}
return num_clauses;
}
#ifndef DISABLE_REFLECTION_EMIT
static MonoExceptionClause*
method_encode_clauses (MonoImage *image, MonoDynamicImage *assembly, MonoReflectionILGen *ilgen, guint32 num_clauses, MonoError *error)
{
MONO_REQ_GC_UNSAFE_MODE;
error_init (error);
MonoExceptionClause *clauses;
MonoExceptionClause *clause;
MonoILExceptionInfo *ex_info;
MonoILExceptionBlock *ex_block;
guint32 finally_start;
int i, j, clause_index;
clauses = image_g_new0 (image, MonoExceptionClause, num_clauses);
clause_index = 0;
for (i = mono_array_length_internal (ilgen->ex_handlers) - 1; i >= 0; --i) {
ex_info = (MonoILExceptionInfo*)mono_array_addr_internal (ilgen->ex_handlers, MonoILExceptionInfo, i);
finally_start = ex_info->start + ex_info->len;
if (!ex_info->handlers)
continue;
for (j = 0; j < mono_array_length_internal (ex_info->handlers); ++j) {
ex_block = (MonoILExceptionBlock*)mono_array_addr_internal (ex_info->handlers, MonoILExceptionBlock, j);
clause = &(clauses [clause_index]);
clause->flags = ex_block->type;
clause->try_offset = ex_info->start;
if (ex_block->type == MONO_EXCEPTION_CLAUSE_FINALLY)
clause->try_len = finally_start - ex_info->start;
else
clause->try_len = ex_info->len;
clause->handler_offset = ex_block->start;
clause->handler_len = ex_block->len;
if (ex_block->extype) {
MonoType *extype = mono_reflection_type_get_handle ((MonoReflectionType*)ex_block->extype, error);
if (!is_ok (error)) {
image_g_free (image, clauses);
return NULL;
}
clause->data.catch_class = mono_class_from_mono_type_internal (extype);
} else {
if (ex_block->type == MONO_EXCEPTION_CLAUSE_FILTER)
clause->data.filter_offset = ex_block->filter_offset;
else
clause->data.filter_offset = 0;
}
finally_start = ex_block->start + ex_block->len;
clause_index ++;
}
}
return clauses;
}
#endif /* !DISABLE_REFLECTION_EMIT */
#ifndef DISABLE_REFLECTION_EMIT
/*
* LOCKING: Acquires the loader lock.
*/
static void
mono_save_custom_attrs (MonoImage *image, void *obj, MonoArray *cattrs)
{
MONO_REQ_GC_UNSAFE_MODE;
MonoCustomAttrInfo *ainfo, *tmp;
if (!cattrs || !mono_array_length_internal (cattrs))
return;
ainfo = mono_custom_attrs_from_builders (image, image, cattrs);
mono_loader_lock ();
tmp = (MonoCustomAttrInfo *)mono_image_property_lookup (image, obj, MONO_PROP_DYNAMIC_CATTR);
if (tmp)
mono_custom_attrs_free (tmp);
mono_image_property_insert (image, obj, MONO_PROP_DYNAMIC_CATTR, ainfo);
mono_loader_unlock ();
}
#else
//FIXME some code compiled under DISABLE_REFLECTION_EMIT depends on this function, we should be more aggressively disabling things
static void
mono_save_custom_attrs (MonoImage *image, void *obj, MonoArray *cattrs)
{
}
#endif
guint32
mono_reflection_resolution_scope_from_image (MonoDynamicImage *assembly, MonoImage *image)
{
MONO_REQ_GC_UNSAFE_MODE;
MonoDynamicTable *table;
guint32 token;
guint32 *values;
guint32 cols [MONO_ASSEMBLY_SIZE];
const char *pubkey;
guint32 publen;
if ((token = GPOINTER_TO_UINT (g_hash_table_lookup (assembly->handleref, image))))
return token;
if (assembly_is_dynamic (image->assembly) && (image->assembly == assembly->image.assembly)) {
table = &assembly->tables [MONO_TABLE_MODULEREF];
token = table->next_idx ++;
table->rows ++;
alloc_table (table, table->rows);
values = table->values + token * MONO_MODULEREF_SIZE;
values [MONO_MODULEREF_NAME] = string_heap_insert (&assembly->sheap, image->module_name);
token <<= MONO_RESOLUTION_SCOPE_BITS;
token |= MONO_RESOLUTION_SCOPE_MODULEREF;
g_hash_table_insert (assembly->handleref, image, GUINT_TO_POINTER (token));
return token;
}
if (assembly_is_dynamic (image->assembly))
/* FIXME: */
memset (cols, 0, sizeof (cols));
else {
/* image->assembly->image is the manifest module */
image = image->assembly->image;
mono_metadata_decode_row (&image->tables [MONO_TABLE_ASSEMBLY], 0, cols, MONO_ASSEMBLY_SIZE);
}
table = &assembly->tables [MONO_TABLE_ASSEMBLYREF];
token = table->next_idx ++;
table->rows ++;
alloc_table (table, table->rows);
values = table->values + token * MONO_ASSEMBLYREF_SIZE;
values [MONO_ASSEMBLYREF_NAME] = string_heap_insert (&assembly->sheap, image->assembly_name);
values [MONO_ASSEMBLYREF_MAJOR_VERSION] = cols [MONO_ASSEMBLY_MAJOR_VERSION];
values [MONO_ASSEMBLYREF_MINOR_VERSION] = cols [MONO_ASSEMBLY_MINOR_VERSION];
values [MONO_ASSEMBLYREF_BUILD_NUMBER] = cols [MONO_ASSEMBLY_BUILD_NUMBER];
values [MONO_ASSEMBLYREF_REV_NUMBER] = cols [MONO_ASSEMBLY_REV_NUMBER];
values [MONO_ASSEMBLYREF_FLAGS] = 0;
values [MONO_ASSEMBLYREF_CULTURE] = 0;
values [MONO_ASSEMBLYREF_HASH_VALUE] = 0;
if (strcmp ("", image->assembly->aname.culture)) {
values [MONO_ASSEMBLYREF_CULTURE] = string_heap_insert (&assembly->sheap,
image->assembly->aname.culture);
}
if ((pubkey = mono_image_get_public_key (image, &publen))) {
guchar pubtoken [9];
pubtoken [0] = 8;
mono_digest_get_public_token (pubtoken + 1, (guchar*)pubkey, publen);
values [MONO_ASSEMBLYREF_PUBLIC_KEY] = mono_image_add_stream_data (&assembly->blob, (char*)pubtoken, 9);
} else {
values [MONO_ASSEMBLYREF_PUBLIC_KEY] = 0;
}
token <<= MONO_RESOLUTION_SCOPE_BITS;
token |= MONO_RESOLUTION_SCOPE_ASSEMBLYREF;
g_hash_table_insert (assembly->handleref, image, GUINT_TO_POINTER (token));
return token;
}
#ifndef DISABLE_REFLECTION_EMIT
gboolean
mono_reflection_methodbuilder_from_method_builder (ReflectionMethodBuilder *rmb, MonoReflectionMethodBuilder *mb, MonoError *error)
{
MONO_REQ_GC_UNSAFE_MODE;
error_init (error);
memset (rmb, 0, sizeof (ReflectionMethodBuilder));
rmb->ilgen = mb->ilgen;
MONO_HANDLE_PIN (rmb->ilgen);
rmb->rtype = (MonoReflectionType*)mb->rtype;
MONO_HANDLE_PIN (rmb->rtype);
rmb->parameters = mb->parameters;
MONO_HANDLE_PIN (rmb->parameters);
rmb->generic_params = mb->generic_params;
MONO_HANDLE_PIN (rmb->generic_params);
rmb->generic_container = mb->generic_container;
rmb->opt_types = NULL;
rmb->pinfo = mb->pinfo;
MONO_HANDLE_PIN (rmb->pinfo);
rmb->attrs = mb->attrs;
rmb->iattrs = mb->iattrs;
rmb->call_conv = mb->call_conv;
rmb->code = mb->code;
MONO_HANDLE_PIN (rmb->code);
rmb->type = mb->type;
MONO_HANDLE_PIN (rmb->type);
rmb->name = mb->name;
MONO_HANDLE_PIN (rmb->name);
rmb->table_idx = &mb->table_idx;
rmb->init_locals = mb->init_locals;
rmb->skip_visibility = FALSE;
rmb->return_modreq = mb->return_modreq;
MONO_HANDLE_PIN (rmb->return_modreq);
rmb->return_modopt = mb->return_modopt;
MONO_HANDLE_PIN (rmb->return_modopt);
rmb->param_modreq = mb->param_modreq;
MONO_HANDLE_PIN (rmb->param_modreq);
rmb->param_modopt = mb->param_modopt;
MONO_HANDLE_PIN (rmb->param_modopt);
rmb->mhandle = mb->mhandle;
rmb->nrefs = 0;
rmb->refs = NULL;
if (mb->dll) {
rmb->charset = mb->charset;
rmb->extra_flags = mb->extra_flags;
rmb->native_cc = mb->native_cc;
rmb->dllentry = mb->dllentry;
MONO_HANDLE_PIN (rmb->dllentry);
rmb->dll = mb->dll;
MONO_HANDLE_PIN (rmb->dll);
}
return TRUE;
}
gboolean
mono_reflection_methodbuilder_from_ctor_builder (ReflectionMethodBuilder *rmb, MonoReflectionCtorBuilder *mb, MonoError *error)
{
MONO_REQ_GC_UNSAFE_MODE;
const char *name = mb->attrs & METHOD_ATTRIBUTE_STATIC ? ".cctor": ".ctor";
error_init (error);
memset (rmb, 0, sizeof (ReflectionMethodBuilder));
rmb->ilgen = mb->ilgen;
MONO_HANDLE_PIN (rmb->ilgen);
rmb->rtype = mono_type_get_object_checked (mono_get_void_type (), error);
return_val_if_nok (error, FALSE);
MONO_HANDLE_PIN (rmb->rtype);
rmb->parameters = mb->parameters;
MONO_HANDLE_PIN (rmb->parameters);
rmb->generic_params = NULL;
rmb->generic_container = NULL;
rmb->opt_types = NULL;
rmb->pinfo = mb->pinfo;
MONO_HANDLE_PIN (rmb->pinfo);
rmb->attrs = mb->attrs;
rmb->iattrs = mb->iattrs;
rmb->call_conv = mb->call_conv;
rmb->code = NULL;
rmb->type = mb->type;
MONO_HANDLE_PIN (rmb->type);
rmb->name = mono_string_new_checked (name, error);
return_val_if_nok (error, FALSE);
MONO_HANDLE_PIN (rmb->name);
rmb->table_idx = &mb->table_idx;
rmb->init_locals = mb->init_locals;
rmb->skip_visibility = FALSE;
rmb->return_modreq = NULL;
rmb->return_modopt = NULL;
rmb->param_modreq = mb->param_modreq;
MONO_HANDLE_PIN (rmb->param_modreq);
rmb->param_modopt = mb->param_modopt;
MONO_HANDLE_PIN (rmb->param_modopt);
rmb->mhandle = mb->mhandle;
rmb->nrefs = 0;
rmb->refs = NULL;
return TRUE;
}
static void
reflection_methodbuilder_from_dynamic_method (ReflectionMethodBuilder *rmb, MonoReflectionDynamicMethod *mb)
{
MONO_REQ_GC_UNSAFE_MODE;
memset (rmb, 0, sizeof (ReflectionMethodBuilder));
rmb->ilgen = mb->ilgen;
MONO_HANDLE_PIN (rmb->ilgen);
rmb->rtype = mb->rtype;
MONO_HANDLE_PIN (rmb->type);
rmb->parameters = mb->parameters;
MONO_HANDLE_PIN (rmb->parameters);
rmb->generic_params = NULL;
rmb->generic_container = NULL;
rmb->opt_types = NULL;
rmb->pinfo = NULL;
rmb->attrs = mb->attrs;
rmb->iattrs = 0;
rmb->call_conv = mb->call_conv;
rmb->code = NULL;
rmb->type = (MonoObject *) mb->owner;
MONO_HANDLE_PIN (rmb->type);
rmb->name = mb->name;
MONO_HANDLE_PIN (rmb->name);
rmb->table_idx = NULL;
rmb->init_locals = mb->init_locals;
rmb->skip_visibility = mb->skip_visibility;
rmb->return_modreq = NULL;
rmb->return_modopt = NULL;
rmb->param_modreq = NULL;
rmb->param_modopt = NULL;
rmb->mhandle = mb->mhandle;
rmb->nrefs = 0;
rmb->refs = NULL;
}
#else /* DISABLE_REFLECTION_EMIT */
gboolean
mono_reflection_methodbuilder_from_method_builder (ReflectionMethodBuilder *rmb, MonoReflectionMethodBuilder *mb, MonoError *error) {
g_assert_not_reached ();
return FALSE;
}
gboolean
mono_reflection_methodbuilder_from_ctor_builder (ReflectionMethodBuilder *rmb, MonoReflectionCtorBuilder *mb, MonoError *error)
{
g_assert_not_reached ();
return FALSE;
}
#endif /* DISABLE_REFLECTION_EMIT */
#ifndef DISABLE_REFLECTION_EMIT
static guint32
mono_image_add_memberef_row (MonoDynamicImage *assembly)
{
MONO_REQ_GC_NEUTRAL_MODE;
MonoDynamicTable *table;
guint32 token;
table = &assembly->tables [MONO_TABLE_MEMBERREF];
token = MONO_TOKEN_MEMBER_REF | table->next_idx;
table->next_idx ++;
return token;
}
/*
* Insert a memberef row into the metadata: the token that point to the memberref
* is returned. Caching is done in the caller (mono_image_get_methodref_token() or
* mono_image_get_fieldref_token()).
* The sig param is an index to an already built signature.
*/
static guint32
mono_image_get_memberref_token (MonoDynamicImage *assembly, MonoType *type)
{
MONO_REQ_GC_NEUTRAL_MODE;
mono_image_typedef_or_ref (assembly, type);
return mono_image_add_memberef_row (assembly);
}
guint32
mono_image_get_methodref_token (MonoDynamicImage *assembly, MonoMethod *method, gboolean create_typespec)
{
MONO_REQ_GC_NEUTRAL_MODE;
guint32 token;
MonoMethodSignature *sig;
create_typespec = create_typespec && method->is_generic && method->klass->image != &assembly->image;
if (create_typespec) {
token = GPOINTER_TO_UINT (g_hash_table_lookup (assembly->handleref, GUINT_TO_POINTER (GPOINTER_TO_UINT (method) + 1)));
if (token)
return token;
}
token = GPOINTER_TO_UINT (g_hash_table_lookup (assembly->handleref, method));
if (token && !create_typespec)
return token;
g_assert (!method->is_inflated);
if (!token) {
/*
* A methodref signature can't contain an unmanaged calling convention.
*/
sig = mono_metadata_signature_dup (mono_method_signature_internal (method));
if ((sig->call_convention != MONO_CALL_DEFAULT) && (sig->call_convention != MONO_CALL_VARARG))
sig->call_convention = MONO_CALL_DEFAULT;
token = mono_image_get_memberref_token (assembly, m_class_get_byval_arg (method->klass));
g_free (sig);
g_hash_table_insert (assembly->handleref, method, GUINT_TO_POINTER(token));
}
if (create_typespec) {
MonoDynamicTable *table = &assembly->tables [MONO_TABLE_METHODSPEC];
g_assert (mono_metadata_token_table (token) == MONO_TABLE_MEMBERREF);
token = MONO_TOKEN_METHOD_SPEC | table->next_idx;
table->next_idx ++;
/*methodspec and memberef tokens are diferent, */
g_hash_table_insert (assembly->handleref, GUINT_TO_POINTER (GPOINTER_TO_UINT (method) + 1), GUINT_TO_POINTER (token));
return token;
}
return token;
}
static guint32
mono_image_get_varargs_method_token (MonoDynamicImage *assembly, guint32 original,
const gchar *name, guint32 sig)
{
MonoDynamicTable *table;
guint32 token;
table = &assembly->tables [MONO_TABLE_MEMBERREF];
token = MONO_TOKEN_MEMBER_REF | table->next_idx;
table->next_idx ++;
return token;
}
#else /* DISABLE_REFLECTION_EMIT */
guint32
mono_image_get_methodref_token (MonoDynamicImage *assembly, MonoMethod *method, gboolean create_typespec)
{
g_assert_not_reached ();
return -1;
}
#endif
static gboolean
is_field_on_inst (MonoClassField *field)
{
return mono_class_is_ginst (m_field_get_parent (field)) && mono_class_get_generic_class (m_field_get_parent (field))->is_dynamic;
}
static gboolean
is_field_on_gtd (MonoClassField *field)
{
return mono_class_is_gtd (m_field_get_parent (field));
}
#ifndef DISABLE_REFLECTION_EMIT
static guint32
mono_image_get_fieldref_token (MonoDynamicImage *assembly, MonoClassField *field)
{
guint32 token;
g_assert (field);
g_assert (m_field_get_parent (field));
token = GPOINTER_TO_UINT (g_hash_table_lookup (assembly->handleref, field));
if (token)
return token;
token = mono_image_get_memberref_token (assembly, m_class_get_byval_arg (m_field_get_parent (field)));
g_hash_table_insert (assembly->handleref, field, GUINT_TO_POINTER(token));
return token;
}
static guint32
method_encode_methodspec (MonoDynamicImage *assembly, MonoMethod *method)
{
MonoDynamicTable *table;
guint32 token, mtoken;
MonoMethodInflated *imethod;
MonoMethod *declaring;
table = &assembly->tables [MONO_TABLE_METHODSPEC];
g_assert (method->is_inflated);
imethod = (MonoMethodInflated *) method;
declaring = imethod->declaring;
mtoken = mono_image_get_memberref_token (assembly, m_class_get_byval_arg (method->klass));
if (!mono_method_signature_internal (declaring)->generic_param_count)
return mtoken;
token = MONO_TOKEN_METHOD_SPEC | table->next_idx;
table->next_idx ++;
return token;
}
static guint32
mono_image_get_methodspec_token (MonoDynamicImage *assembly, MonoMethod *method)
{
MonoMethodInflated *imethod;
guint32 token;
token = GPOINTER_TO_UINT (g_hash_table_lookup (assembly->handleref, method));
if (token)
return token;
g_assert (method->is_inflated);
imethod = (MonoMethodInflated *) method;
if (mono_method_signature_internal (imethod->declaring)->generic_param_count) {
token = method_encode_methodspec (assembly, method);
} else {
token = mono_image_get_memberref_token (assembly, m_class_get_byval_arg (method->klass));
}
g_hash_table_insert (assembly->handleref, method, GUINT_TO_POINTER(token));
return token;
}
static guint32
mono_image_get_inflated_method_token (MonoDynamicImage *assembly, MonoMethod *m)
{
return mono_image_get_memberref_token (assembly, m_class_get_byval_arg (m->klass));
}
static guint32
mono_image_get_sighelper_token (MonoDynamicImage *assembly, MonoReflectionSigHelperHandle helper, MonoError *error)
{
guint32 idx;
MonoDynamicTable *table;
error_init (error);
table = &assembly->tables [MONO_TABLE_STANDALONESIG];
idx = table->next_idx ++;
table->rows ++;
return idx;
}
static int
reflection_cc_to_file (int call_conv)
{
switch (call_conv & 0x3) {
case 0:
case 1: return MONO_CALL_DEFAULT;
case 2: return MONO_CALL_VARARG;
default:
g_assert_not_reached ();
}
return 0;
}
#endif /* !DISABLE_REFLECTION_EMIT */
struct _ArrayMethod {
MonoType *parent;
MonoMethodSignature *sig;
char *name;
guint32 token;
};
void
mono_sre_array_method_free (ArrayMethod *am)
{
g_free (am->sig);
g_free (am->name);
g_free (am);
}
#ifndef DISABLE_REFLECTION_EMIT
static guint32
mono_image_get_array_token (MonoDynamicImage *assembly, MonoReflectionArrayMethodHandle m, MonoError *error)
{
MonoMethodSignature *sig = NULL;
char *name = NULL;
error_init (error);
MonoArrayHandle parameters = MONO_HANDLE_NEW_GET (MonoArray, m, parameters);
guint32 nparams = mono_array_handle_length (parameters);
sig = (MonoMethodSignature *)g_malloc0 (MONO_SIZEOF_METHOD_SIGNATURE + sizeof (MonoType*) * nparams);
sig->hasthis = 1;
sig->sentinelpos = -1;
sig->call_convention = reflection_cc_to_file (MONO_HANDLE_GETVAL (m, call_conv));
sig->param_count = nparams;
MonoReflectionTypeHandle ret = MONO_HANDLE_NEW_GET (MonoReflectionType, m, ret);
if (!MONO_HANDLE_IS_NULL (ret)) {
sig->ret = mono_reflection_type_handle_mono_type (ret, error);
goto_if_nok (error, fail);
} else
sig->ret = mono_get_void_type ();
MonoReflectionTypeHandle parent;
parent = MONO_HANDLE_NEW_GET (MonoReflectionType, m, parent);
MonoType *mtype;
mtype = mono_reflection_type_handle_mono_type (parent, error);
goto_if_nok (error, fail);
for (int i = 0; i < nparams; ++i) {
sig->params [i] = mono_type_array_get_and_resolve (parameters, i, error);
goto_if_nok (error, fail);
}
MonoStringHandle mname;
mname = MONO_HANDLE_NEW_GET (MonoString, m, name);
name = mono_string_handle_to_utf8 (mname, error);
goto_if_nok (error, fail);
ArrayMethod *am;
am = NULL;
for (GList *tmp = assembly->array_methods; tmp; tmp = tmp->next) {
am = (ArrayMethod *)tmp->data;
if (strcmp (name, am->name) == 0 &&
mono_metadata_type_equal (am->parent, mtype) &&
mono_metadata_signature_equal (am->sig, sig)) {
g_free (name);
g_free (sig);
MONO_HANDLE_SETVAL (m, table_idx, guint32, am->token & 0xffffff);
return am->token;
}
}
am = g_new0 (ArrayMethod, 1);
am->name = name;
am->sig = sig;
am->parent = mtype;
am->token = mono_image_get_memberref_token (assembly, am->parent);
assembly->array_methods = g_list_prepend (assembly->array_methods, am);
MONO_HANDLE_SETVAL (m, table_idx, guint32, am->token & 0xffffff);
return am->token;
fail:
g_free (name);
g_free (sig);
return 0;
}
#endif
#ifndef DISABLE_REFLECTION_EMIT
/*
* mono_image_insert_string:
* @module: module builder object
* @str: a string
*
* Insert @str into the user string stream of @module.
*/
guint32
mono_image_insert_string (MonoReflectionModuleBuilderHandle ref_module, MonoStringHandle str, MonoError *error)
{
HANDLE_FUNCTION_ENTER ();
guint32 idx, token = 0;
MonoDynamicImage *assembly = MONO_HANDLE_GETVAL (ref_module, dynamic_image);
if (!assembly) {
if (!mono_image_module_basic_init (ref_module, error))
goto leave;
assembly = MONO_HANDLE_GETVAL (ref_module, dynamic_image);
}
g_assert (assembly != NULL);
idx = assembly->us.index ++;
token = MONO_TOKEN_STRING | idx;
mono_dynamic_image_register_token (assembly, token, MONO_HANDLE_CAST (MonoObject, str), MONO_DYN_IMAGE_TOK_NEW);
leave:
HANDLE_FUNCTION_RETURN_VAL (token);
}
static guint32
create_method_token (MonoDynamicImage *assembly, MonoMethod *method, MonoArrayHandle opt_param_types, MonoError *error)
{
guint32 parent;
int nargs = mono_array_handle_length (opt_param_types);
MonoMethodSignature *old = mono_method_signature_internal (method);
MonoMethodSignature *sig = mono_metadata_signature_alloc ( &assembly->image, old->param_count + nargs);
sig->hasthis = old->hasthis;
sig->explicit_this = old->explicit_this;
sig->call_convention = old->call_convention;
sig->generic_param_count = old->generic_param_count;
sig->param_count = old->param_count + nargs;
sig->sentinelpos = old->param_count;
sig->ret = old->ret;
for (int i = 0; i < old->param_count; i++)
sig->params [i] = old->params [i];
MonoReflectionTypeHandle rt = MONO_HANDLE_NEW (MonoReflectionType, NULL);
for (int i = 0; i < nargs; i++) {
MONO_HANDLE_ARRAY_GETREF (rt, opt_param_types, i);
sig->params [old->param_count + i] = mono_reflection_type_handle_mono_type (rt, error);
goto_if_nok (error, fail);
}
parent = mono_image_typedef_or_ref (assembly, m_class_get_byval_arg (method->klass));
g_assert ((parent & MONO_TYPEDEFORREF_MASK) == MONO_MEMBERREF_PARENT_TYPEREF);
parent >>= MONO_TYPEDEFORREF_BITS;
parent <<= MONO_MEMBERREF_PARENT_BITS;
parent |= MONO_MEMBERREF_PARENT_TYPEREF;
guint32 token = mono_image_get_varargs_method_token (assembly, parent, method->name, 0);
g_hash_table_insert (assembly->vararg_aux_hash, GUINT_TO_POINTER (token), sig);
return token;
fail:
return 0;
}
guint32
mono_image_create_method_token (MonoDynamicImage *assembly, MonoObjectHandle obj, MonoArrayHandle opt_param_types, MonoError *error)
{
guint32 token = 0;
error_init (error);
MonoClass *klass = mono_handle_class (obj);
if (strcmp (klass->name, "RuntimeMethodInfo") == 0 || strcmp (klass->name, "RuntimeConstructorInfo") == 0) {
MonoReflectionMethodHandle ref_method = MONO_HANDLE_CAST (MonoReflectionMethod, obj);
MonoMethod *method = MONO_HANDLE_GETVAL (ref_method, method);
g_assert (!MONO_HANDLE_IS_NULL (opt_param_types) && (mono_method_signature_internal (method)->sentinelpos >= 0));
token = create_method_token (assembly, method, opt_param_types, error);
goto_if_nok (error, fail);
} else if (strcmp (klass->name, "MethodBuilder") == 0) {
g_assert_not_reached ();
} else {
g_error ("requested method token for %s\n", klass->name);
}
mono_dynamic_image_register_token (assembly, token, obj, MONO_DYN_IMAGE_TOK_NEW);
return token;
fail:
g_assert (!is_ok (error));
return 0;
}
/*
* mono_image_create_token:
* @assembly: a dynamic assembly
* @obj:
* @register_token: Whenever to register the token in the assembly->tokens hash.
*
* Get a token to insert in the IL code stream for the given MemberInfo.
* The metadata emission routines need to pass FALSE as REGISTER_TOKEN, since by that time,
* the table_idx-es were recomputed, so registering the token would overwrite an existing
* entry.
*/
guint32
mono_image_create_token (MonoDynamicImage *assembly, MonoObjectHandle obj,
gboolean create_open_instance, gboolean register_token,
MonoError *error)
{
HANDLE_FUNCTION_ENTER ();
guint32 token = 0;
error_init (error);
MonoClass *klass = mono_handle_class (obj);
MonoObjectHandle register_obj = MONO_HANDLE_NEW (MonoObject, NULL);
MONO_HANDLE_ASSIGN (register_obj, obj);
/* Check for user defined reflection objects */
/* TypeDelegator is the only corlib type which doesn't look like a MonoReflectionType */
if (klass->image != mono_defaults.corlib || (strcmp (klass->name, "TypeDelegator") == 0)) {
mono_error_set_not_supported (error, "User defined subclasses of System.Type are not yet supported");
goto leave;
}
/* This function is called from ModuleBuilder:getToken multiple times for the same objects */
int how_collide;
how_collide = MONO_DYN_IMAGE_TOK_SAME_OK;
if (strcmp (klass->name, "RuntimeType") == 0) {
MonoType *type = mono_reflection_type_handle_mono_type (MONO_HANDLE_CAST (MonoReflectionType, obj), error);
goto_if_nok (error, leave);
MonoClass *mc = mono_class_from_mono_type_internal (type);
token = mono_metadata_token_from_dor (
mono_dynimage_encode_typedef_or_ref_full (assembly, type, !mono_class_is_gtd (mc) || create_open_instance));
/* If it's a RuntimeType now, we could have registered a
* TypeBuilder for it before, so replacing is okay. */
how_collide = MONO_DYN_IMAGE_TOK_REPLACE;
} else if (strcmp (klass->name, "RuntimeMethodInfo") == 0 ||
strcmp (klass->name, "RuntimeConstructorInfo") == 0) {
MonoReflectionMethodHandle m = MONO_HANDLE_CAST (MonoReflectionMethod, obj);
MonoMethod *method = MONO_HANDLE_GETVAL (m, method);
if (method->is_inflated) {
if (create_open_instance) {
guint32 methodspec_token = mono_image_get_methodspec_token (assembly, method);
MonoReflectionMethodHandle canonical_obj =
mono_method_get_object_handle (method, NULL, error);
goto_if_nok (error, leave);
MONO_HANDLE_ASSIGN (register_obj, canonical_obj);
token = methodspec_token;
} else
token = mono_image_get_inflated_method_token (assembly, method);
} else if ((method->klass->image == &assembly->image) &&
!mono_class_is_ginst (method->klass) &&
!mono_class_is_gtd (method->klass)) {
static guint32 method_table_idx = 0xffffff;
if (method->klass->wastypebuilder) {
/* we use the same token as the one that was assigned
* to the Methodbuilder.
* FIXME: do the equivalent for Fields.
*/
token = method->token;
how_collide = MONO_DYN_IMAGE_TOK_REPLACE;
} else {
/*
* Each token should have a unique index, but the indexes are
* assigned by managed code, so we don't know about them. An
* easy solution is to count backwards...
*/
method_table_idx --;
token = MONO_TOKEN_METHOD_DEF | method_table_idx;
how_collide = MONO_DYN_IMAGE_TOK_NEW;
}
} else {
guint32 methodref_token = mono_image_get_methodref_token (assembly, method, create_open_instance);
/* We need to register a 'canonical' object. The same
* MonoMethod could have been reflected via different
* classes so the MonoReflectionMethod:reftype could be
* different, and the object lookup in
* dynamic_image_register_token would assert assert. So
* we pick the MonoReflectionMethod object that has the
* reflected type as NULL (ie, take the declaring type
* of the method) */
MonoReflectionMethodHandle canonical_obj =
mono_method_get_object_handle (method, NULL, error);
goto_if_nok (error, leave);
MONO_HANDLE_ASSIGN (register_obj, canonical_obj);
token = methodref_token;
}
/*g_print ("got token 0x%08x for %s\n", token, m->method->name);*/
} else if (strcmp (klass->name, "RuntimeFieldInfo") == 0) {
MonoReflectionFieldHandle f = MONO_HANDLE_CAST (MonoReflectionField, obj);
MonoClassField *field = MONO_HANDLE_GETVAL (f, field);
if ((m_field_get_parent (field)->image == &assembly->image) &&
!is_field_on_gtd (field) &&
!is_field_on_inst (field)) {
static guint32 field_table_idx = 0xffffff;
field_table_idx --;
token = MONO_TOKEN_FIELD_DEF | field_table_idx;
g_assert (!mono_class_is_gtd (m_field_get_parent (field)));
how_collide = MONO_DYN_IMAGE_TOK_NEW;
} else {
guint32 fieldref_token = mono_image_get_fieldref_token (assembly, field);
/* Same as methodref: get a canonical object to
* register with the token. */
MonoReflectionFieldHandle canonical_obj =
mono_field_get_object_handle (m_field_get_parent (field), field, error);
goto_if_nok (error, leave);
MONO_HANDLE_ASSIGN (register_obj, canonical_obj);
token = fieldref_token;
}
/*g_print ("got token 0x%08x for %s\n", token, f->field->name);*/
} else if (strcmp (klass->name, "MonoArrayMethod") == 0) {
MonoReflectionArrayMethodHandle m = MONO_HANDLE_CAST (MonoReflectionArrayMethod, obj);
/* mono_image_get_array_token caches tokens by signature */
guint32 array_token = mono_image_get_array_token (assembly, m, error);
goto_if_nok (error, leave);
token = array_token;
/* ModuleBuilder:GetArrayMethod() always returns a fresh
* MonoArrayMethod instance even given the same method name and
* signature. But they're all interchangeable, so it's okay to
* replace.
*/
how_collide = MONO_DYN_IMAGE_TOK_REPLACE;
} else if (strcmp (klass->name, "SignatureHelper") == 0) {
MonoReflectionSigHelperHandle s = MONO_HANDLE_CAST (MonoReflectionSigHelper, obj);
/* always returns a fresh token */
guint32 sig_token = MONO_TOKEN_SIGNATURE | mono_image_get_sighelper_token (assembly, s, error);
goto_if_nok (error, leave);
token = sig_token;
how_collide = MONO_DYN_IMAGE_TOK_NEW;
} else {
g_error ("requested token for %s\n", klass->name);
}
if (register_token)
mono_dynamic_image_register_token (assembly, token, register_obj, how_collide);
leave:
HANDLE_FUNCTION_RETURN_VAL (token);
}
#endif
#ifndef DISABLE_REFLECTION_EMIT
static gpointer
register_assembly (MonoReflectionAssembly *res, MonoAssembly *assembly)
{
return CACHE_OBJECT (MonoReflectionAssembly *, mono_mem_manager_get_ambient (), assembly, &res->object, NULL);
}
static MonoReflectionModuleBuilderHandle
register_module (MonoReflectionModuleBuilderHandle res, MonoDynamicImage *module)
{
return CACHE_OBJECT_HANDLE (MonoReflectionModuleBuilder, mono_mem_manager_get_ambient (), module, MONO_HANDLE_CAST (MonoObject, res), NULL);
}
/*
* mono_reflection_dynimage_basic_init:
* @assembly: an assembly builder object
*
* Create the MonoImage that represents the assembly builder and setup some
* of the helper hash table and the basic metadata streams.
*/
void
mono_reflection_dynimage_basic_init (MonoReflectionAssemblyBuilder *assemblyb, MonoError *error)
{
MonoDynamicAssembly *assembly;
MonoDynamicImage *image;
MonoAssemblyLoadContext *alc = mono_alc_get_default ();
if (assemblyb->dynamic_assembly)
return;
assembly = assemblyb->dynamic_assembly = g_new0 (MonoDynamicAssembly, 1);
MONO_PROFILER_RAISE (assembly_loading, (&assembly->assembly));
assembly->assembly.ref_count = 1;
assembly->assembly.dynamic = TRUE;
assemblyb->assembly.assembly = (MonoAssembly*)assembly;
assembly->assembly.basedir = NULL;
return_if_nok (error);
if (assemblyb->culture) {
assembly->assembly.aname.culture = mono_string_to_utf8_checked_internal (assemblyb->culture, error);
return_if_nok (error);
} else
assembly->assembly.aname.culture = g_strdup ("");
if (assemblyb->version) {
char *vstr = mono_string_to_utf8_checked_internal (assemblyb->version, error);
if (mono_error_set_pending_exception (error))
return;
char **version = g_strsplit (vstr, ".", 4);
char **parts = version;
assembly->assembly.aname.major = atoi (*parts++);
assembly->assembly.aname.minor = atoi (*parts++);
assembly->assembly.aname.build = *parts != NULL ? atoi (*parts++) : 0;
assembly->assembly.aname.revision = *parts != NULL ? atoi (*parts) : 0;
g_strfreev (version);
g_free (vstr);
} else {
assembly->assembly.aname.major = 0;
assembly->assembly.aname.minor = 0;
assembly->assembly.aname.build = 0;
assembly->assembly.aname.revision = 0;
}
if (assemblyb->public_key_token) {
for (int i = 0; i < 8 && i < mono_array_length_internal (assemblyb->public_key_token); i++) {
guint8 byte = mono_array_get_internal (assemblyb->public_key_token, guint8, i);
sprintf ((char*)(assembly->assembly.aname.public_key_token + 2 * i), "%02x", byte);
}
}
char *assembly_name = mono_string_to_utf8_checked_internal (assemblyb->name, error);
return_if_nok (error);
image = mono_dynamic_image_create (assembly, assembly_name, g_strdup ("RefEmit_YouForgotToDefineAModule"));
image->initial_image = TRUE;
assembly->assembly.aname.name = image->image.name;
assembly->assembly.image = &image->image;
mono_alc_add_assembly (alc, (MonoAssembly*)assembly);
register_assembly (&assemblyb->assembly, &assembly->assembly);
MONO_PROFILER_RAISE (assembly_loaded, (&assembly->assembly));
mono_assembly_invoke_load_hook_internal (alc, (MonoAssembly*)assembly);
}
static gboolean
image_module_basic_init (MonoReflectionModuleBuilderHandle moduleb, MonoError *error)
{
error_init (error);
MonoDynamicImage *image = MONO_HANDLE_GETVAL (moduleb, dynamic_image);
MonoReflectionAssemblyBuilderHandle ab = MONO_HANDLE_NEW (MonoReflectionAssemblyBuilder, NULL);
MONO_HANDLE_GET (ab, moduleb, assemblyb);
if (!image) {
/*
* FIXME: we already created an image in mono_reflection_dynimage_basic_init (), but
* we don't know which module it belongs to, since that is only
* determined at assembly save time.
*/
/*image = (MonoDynamicImage*)ab->dynamic_assembly->assembly.image; */
MonoStringHandle abname = MONO_HANDLE_NEW_GET (MonoString, ab, name);
char *name = mono_string_handle_to_utf8 (abname, error);
return_val_if_nok (error, FALSE);
MonoStringHandle modfqname = MONO_HANDLE_NEW_GET (MonoString, MONO_HANDLE_CAST (MonoReflectionModule, moduleb), fqname);
char *fqname = mono_string_handle_to_utf8 (modfqname, error);
if (!is_ok (error)) {
g_free (name);
return FALSE;
}
MonoDynamicAssembly *dynamic_assembly = MONO_HANDLE_GETVAL (ab, dynamic_assembly);
image = mono_dynamic_image_create (dynamic_assembly, name, fqname);
MONO_HANDLE_SETVAL (MONO_HANDLE_CAST (MonoReflectionModule, moduleb), image, MonoImage*, &image->image);
MONO_HANDLE_SETVAL (moduleb, dynamic_image, MonoDynamicImage*, image);
register_module (moduleb, image);
/* register the module with the assembly */
MonoImage *ass = dynamic_assembly->assembly.image;
int module_count = ass->module_count;
MonoImage **new_modules = g_new0 (MonoImage *, module_count + 1);
if (ass->modules)
memcpy (new_modules, ass->modules, module_count * sizeof (MonoImage *));
new_modules [module_count] = &image->image;
mono_image_addref (&image->image);
g_free (ass->modules);
ass->modules = new_modules;
ass->module_count ++;
}
return TRUE;
}
static gboolean
mono_image_module_basic_init (MonoReflectionModuleBuilderHandle moduleb, MonoError *error)
{
error_init (error);
return image_module_basic_init (moduleb, error);
}
#endif
static gboolean
is_corlib_type (MonoClass *klass)
{
return klass->image == mono_defaults.corlib;
}
#define check_corlib_type_cached(_class, _namespace, _name) do { \
static MonoClass *cached_class; \
if (cached_class) \
return cached_class == _class; \
if (is_corlib_type (_class) && !strcmp (_name, _class->name) && !strcmp (_namespace, _class->name_space)) { \
cached_class = _class; \
return TRUE; \
} \
return FALSE; \
} while (0) \
MonoType*
mono_type_array_get_and_resolve (MonoArrayHandle array, int idx, MonoError *error)
{
HANDLE_FUNCTION_ENTER();
error_init (error);
MonoReflectionTypeHandle t = MONO_HANDLE_NEW (MonoReflectionType, NULL);
MONO_HANDLE_ARRAY_GETREF (t, array, idx);
MonoType *result = mono_reflection_type_handle_mono_type (t, error);
HANDLE_FUNCTION_RETURN_VAL (result);
}
static MonoType *
add_custom_modifiers_to_type (MonoType *without_mods, MonoArrayHandle req_array, MonoArrayHandle opt_array, MonoImage *image, MonoError *error)
{
HANDLE_FUNCTION_ENTER();
error_init (error);
int num_req_mods = 0;
if (!MONO_HANDLE_IS_NULL (req_array))
num_req_mods = mono_array_handle_length (req_array);
int num_opt_mods = 0;
if (!MONO_HANDLE_IS_NULL (opt_array))
num_opt_mods = mono_array_handle_length (opt_array);
const int total_mods = num_req_mods + num_opt_mods;
if (total_mods == 0)
return without_mods;
MonoTypeWithModifiers *result;
result = mono_image_g_malloc0 (image, mono_sizeof_type_with_mods (total_mods, FALSE));
memcpy (result, without_mods, MONO_SIZEOF_TYPE);
result->unmodified.has_cmods = 1;
MonoCustomModContainer *cmods = mono_type_get_cmods ((MonoType *)result);
g_assert (cmods);
cmods->count = total_mods;
cmods->image = image;
g_assert (image_is_dynamic (image));
MonoDynamicImage *allocator = (MonoDynamicImage *) image;
g_assert (total_mods > 0);
/* store cmods in reverse order from how the API supplies them.
(Assemblies store modifiers in reverse order of IL syntax - and SRE
follows the same order as IL syntax). */
int modifier_index = total_mods - 1;
MonoObjectHandle mod_handle = MONO_HANDLE_NEW (MonoObject, NULL);
for (int i=0; i < num_req_mods; i++) {
cmods->modifiers [modifier_index].required = TRUE;
MONO_HANDLE_ARRAY_GETREF (mod_handle, req_array, i);
cmods->modifiers [modifier_index].token = mono_image_create_token (allocator, mod_handle, FALSE, TRUE, error);
modifier_index--;
}
for (int i=0; i < num_opt_mods; i++) {
cmods->modifiers [modifier_index].required = FALSE;
MONO_HANDLE_ARRAY_GETREF (mod_handle, opt_array, i);
cmods->modifiers [modifier_index].token = mono_image_create_token (allocator, mod_handle, FALSE, TRUE, error);
modifier_index--;
}
g_assert (modifier_index == -1);
HANDLE_FUNCTION_RETURN_VAL ((MonoType *) result);
}
static
MonoType *
mono_type_array_get_and_resolve_with_modifiers (MonoArrayHandle types, MonoArrayHandle required_modifiers, MonoArrayHandle optional_modifiers, int idx, MonoImage *image, MonoError *error)
{
HANDLE_FUNCTION_ENTER();
error_init (error);
MonoReflectionTypeHandle type = MONO_HANDLE_NEW (MonoReflectionType, NULL);
MonoArrayHandle req_mods_handle = MONO_HANDLE_NEW (MonoArray, NULL);
MonoArrayHandle opt_mods_handle = MONO_HANDLE_NEW (MonoArray, NULL);
if (!MONO_HANDLE_IS_NULL (required_modifiers))
MONO_HANDLE_ARRAY_GETREF (req_mods_handle, required_modifiers, idx);
if (!MONO_HANDLE_IS_NULL (optional_modifiers))
MONO_HANDLE_ARRAY_GETREF (opt_mods_handle, optional_modifiers, idx);
MONO_HANDLE_ARRAY_GETREF (type, types, idx);
MonoType *result = mono_reflection_type_handle_mono_type (type, error);
result = (MonoType *) add_custom_modifiers_to_type (result, req_mods_handle, opt_mods_handle, image, error);
HANDLE_FUNCTION_RETURN_VAL (result);
}
#ifndef DISABLE_REFLECTION_EMIT
static gboolean
is_sre_array (MonoClass *klass)
{
check_corlib_type_cached (klass, "System.Reflection.Emit", "ArrayType");
}
static gboolean
is_sre_byref (MonoClass *klass)
{
check_corlib_type_cached (klass, "System.Reflection.Emit", "ByRefType");
}
static gboolean
is_sre_pointer (MonoClass *klass)
{
check_corlib_type_cached (klass, "System.Reflection.Emit", "PointerType");
}
static gboolean
is_sre_generic_instance (MonoClass *klass)
{
check_corlib_type_cached (klass, "System.Reflection.Emit", "TypeBuilderInstantiation");
}
static gboolean
is_sre_type_builder (MonoClass *klass)
{
check_corlib_type_cached (klass, "System.Reflection.Emit", "TypeBuilder");
}
static gboolean
is_sre_method_builder (MonoClass *klass)
{
check_corlib_type_cached (klass, "System.Reflection.Emit", "MethodBuilder");
}
gboolean
mono_is_sre_ctor_builder (MonoClass *klass)
{
check_corlib_type_cached (klass, "System.Reflection.Emit", "ConstructorBuilder");
}
static gboolean
is_sre_field_builder (MonoClass *klass)
{
check_corlib_type_cached (klass, "System.Reflection.Emit", "FieldBuilder");
}
static gboolean
is_sre_gparam_builder (MonoClass *klass)
{
check_corlib_type_cached (klass, "System.Reflection.Emit", "GenericTypeParameterBuilder");
}
static gboolean
is_sre_enum_builder (MonoClass *klass)
{
check_corlib_type_cached (klass, "System.Reflection.Emit", "EnumBuilder");
}
gboolean
mono_is_sre_method_on_tb_inst (MonoClass *klass)
{
check_corlib_type_cached (klass, "System.Reflection.Emit", "MethodOnTypeBuilderInst");
}
gboolean
mono_is_sre_ctor_on_tb_inst (MonoClass *klass)
{
check_corlib_type_cached (klass, "System.Reflection.Emit", "ConstructorOnTypeBuilderInst");
}
static MonoReflectionTypeHandle
mono_reflection_type_get_underlying_system_type (MonoReflectionTypeHandle t, MonoError *error)
{
HANDLE_FUNCTION_ENTER ();
error_init (error);
MONO_STATIC_POINTER_INIT (MonoMethod, method_get_underlying_system_type)
method_get_underlying_system_type = mono_class_get_method_from_name_checked (mono_defaults.systemtype_class, "get_UnderlyingSystemType", 0, 0, error);
mono_error_assert_ok (error);
MONO_STATIC_POINTER_INIT_END (MonoMethod, method_get_underlying_system_type)
MonoReflectionTypeHandle rt = MONO_HANDLE_NEW (MonoReflectionType, NULL);
MonoMethod *usertype_method = mono_object_handle_get_virtual_method (MONO_HANDLE_CAST (MonoObject, t), method_get_underlying_system_type, error);
goto_if_nok (error, leave);
MONO_HANDLE_ASSIGN (rt, MONO_HANDLE_CAST (MonoReflectionType, MONO_HANDLE_NEW (MonoObject, mono_runtime_invoke_checked (usertype_method, MONO_HANDLE_RAW (t), NULL, error))));
leave:
HANDLE_FUNCTION_RETURN_REF (MonoReflectionType, rt);
}
MonoType*
mono_reflection_type_get_handle (MonoReflectionType* ref_raw, MonoError *error)
{
HANDLE_FUNCTION_ENTER ();
error_init (error);
MONO_HANDLE_DCL (MonoReflectionType, ref);
MonoType * const result = mono_reflection_type_handle_mono_type (ref, error);
HANDLE_FUNCTION_RETURN_VAL (result);
}
static MonoType*
reflection_instance_handle_mono_type (MonoReflectionGenericClassHandle ref_gclass, MonoError *error)
{
HANDLE_FUNCTION_ENTER ();
MonoType *result = NULL;
MonoType **types = NULL;
MonoArrayHandle typeargs = MONO_HANDLE_NEW_GET (MonoArray, ref_gclass, type_arguments);
int count = mono_array_handle_length (typeargs);
types = g_new0 (MonoType*, count);
MonoReflectionTypeHandle t = MONO_HANDLE_NEW (MonoReflectionType, NULL);
for (int i = 0; i < count; ++i) {
MONO_HANDLE_ARRAY_GETREF (t, typeargs, i);
types [i] = mono_reflection_type_handle_mono_type (t, error);
if (!types[i] || !is_ok (error)) {
goto leave;
}
}
/* Need to resolve the generic_type in order for it to create its generic context. */
MonoReflectionTypeHandle ref_gtd;
ref_gtd = MONO_HANDLE_NEW_GET (MonoReflectionType, ref_gclass, generic_type);
MonoType *gtd;
gtd = mono_reflection_type_handle_mono_type (ref_gtd, error);
goto_if_nok (error, leave);
MonoClass *gtd_klass;
gtd_klass = mono_class_from_mono_type_internal (gtd);
if (is_sre_type_builder (mono_handle_class (ref_gtd))) {
reflection_setup_internal_class (MONO_HANDLE_CAST (MonoReflectionTypeBuilder, ref_gtd), error);
goto_if_nok (error, leave);
}
g_assert (count == 0 || mono_class_is_gtd (gtd_klass));
result = mono_reflection_bind_generic_parameters (ref_gtd, count, types, error);
goto_if_nok (error, leave);
g_assert (result);
MONO_HANDLE_SETVAL (MONO_HANDLE_CAST (MonoReflectionType, ref_gclass), type, MonoType*, result);
leave:
g_free (types);
HANDLE_FUNCTION_RETURN_VAL (result);
}
static MonoType*
reflection_param_handle_mono_type (MonoReflectionGenericParamHandle ref_gparam, MonoError *error)
{
HANDLE_FUNCTION_ENTER ();
error_init (error);
MonoType *result = NULL;
MonoReflectionTypeBuilderHandle ref_tbuilder = MONO_HANDLE_NEW_GET (MonoReflectionTypeBuilder, ref_gparam, tbuilder);
MonoReflectionModuleBuilderHandle ref_module = MONO_HANDLE_NEW_GET (MonoReflectionModuleBuilder, ref_tbuilder, module);
MonoDynamicImage *dynamic_image = MONO_HANDLE_GETVAL (ref_module, dynamic_image);
MonoImage *image = &dynamic_image->image;
MonoGenericParamFull *param = mono_image_new0 (image, MonoGenericParamFull, 1);
MonoStringHandle ref_name = MONO_HANDLE_NEW_GET (MonoString, ref_gparam, name);
param->info.name = mono_string_to_utf8_image (image, ref_name, error);
mono_error_assert_ok (error);
param->num = MONO_HANDLE_GETVAL (ref_gparam, index);
MonoReflectionMethodBuilderHandle ref_mbuilder = MONO_HANDLE_NEW_GET (MonoReflectionMethodBuilder, ref_gparam, mbuilder);
if (!MONO_HANDLE_IS_NULL (ref_mbuilder)) {
MonoGenericContainer *generic_container = MONO_HANDLE_GETVAL (ref_mbuilder, generic_container);
if (!generic_container) {
generic_container = (MonoGenericContainer *)mono_image_alloc0 (image, sizeof (MonoGenericContainer));
generic_container->is_method = TRUE;
/*
* Cannot set owner.method, since the MonoMethod is not created yet.
* Set the image field instead, so type_in_image () works.
*/
generic_container->is_anonymous = TRUE;
generic_container->owner.image = image;
MONO_HANDLE_SETVAL (ref_mbuilder, generic_container, MonoGenericContainer*, generic_container);
}
param->owner = generic_container;
} else {
MonoType *type = mono_reflection_type_handle_mono_type (MONO_HANDLE_CAST (MonoReflectionType, ref_tbuilder), error);
goto_if_nok (error, leave);
MonoClass *owner;
owner = mono_class_from_mono_type_internal (type);
g_assert (mono_class_is_gtd (owner));
param->owner = mono_class_get_generic_container (owner);
}
MonoClass *pklass;
pklass = mono_class_create_generic_parameter ((MonoGenericParam *) param);
result = m_class_get_byval_arg (pklass);
mono_class_set_ref_info (pklass, MONO_HANDLE_CAST (MonoObject, ref_gparam));
mono_image_append_class_to_reflection_info_set (pklass);
MONO_HANDLE_SETVAL (MONO_HANDLE_CAST (MonoReflectionType, ref_gparam), type, MonoType*, result);
leave:
HANDLE_FUNCTION_RETURN_VAL (result);
}
static MonoType*
mono_type_array_get_and_resolve_raw (MonoArray* array_raw, int idx, MonoError *error)
{
HANDLE_FUNCTION_ENTER(); /* FIXME callers of mono_type_array_get_and_resolve_raw should use handles */
error_init (error);
MONO_HANDLE_DCL (MonoArray, array);
MonoType * const result = mono_type_array_get_and_resolve (array, idx, error);
HANDLE_FUNCTION_RETURN_VAL (result);
}
MonoType*
mono_reflection_type_handle_mono_type (MonoReflectionTypeHandle ref, MonoError *error)
{
HANDLE_FUNCTION_ENTER ();
error_init (error);
MonoType* result = NULL;
g_assert (!MONO_HANDLE_IS_NULL (ref));
if (MONO_HANDLE_IS_NULL (ref))
goto leave;
MonoType *t;
t = MONO_HANDLE_GETVAL (ref, type);
if (t) {
result = t;
goto leave;
}
if (mono_reflection_is_usertype (ref)) {
MONO_HANDLE_ASSIGN (ref, mono_reflection_type_get_underlying_system_type (ref, error));
if (!is_ok (error) || MONO_HANDLE_IS_NULL (ref) || mono_reflection_is_usertype (ref))
goto leave;
t = MONO_HANDLE_GETVAL (ref, type);
if (t) {
result = t;
goto leave;
}
}
MonoClass *klass;
klass = mono_handle_class (ref);
if (is_sre_array (klass)) {
MonoReflectionArrayTypeHandle sre_array = MONO_HANDLE_CAST (MonoReflectionArrayType, ref);
MonoReflectionTypeHandle ref_element = MONO_HANDLE_NEW_GET (MonoReflectionType, sre_array, element_type);
MonoType *base = mono_reflection_type_handle_mono_type (ref_element, error);
goto_if_nok (error, leave);
g_assert (base);
gint32 rank = MONO_HANDLE_GETVAL (sre_array, rank);
MonoClass *eclass = mono_class_from_mono_type_internal (base);
result = mono_image_new0 (eclass->image, MonoType, 1);
if (rank == 0) {
result->type = MONO_TYPE_SZARRAY;
result->data.klass = eclass;
} else {
MonoArrayType *at = (MonoArrayType *)mono_image_alloc0 (eclass->image, sizeof (MonoArrayType));
result->type = MONO_TYPE_ARRAY;
result->data.array = at;
at->eklass = eclass;
at->rank = rank;
}
MONO_HANDLE_SETVAL (ref, type, MonoType*, result);
} else if (is_sre_byref (klass)) {
MonoReflectionDerivedTypeHandle sre_byref = MONO_HANDLE_CAST (MonoReflectionDerivedType, ref);
MonoReflectionTypeHandle ref_element = MONO_HANDLE_NEW_GET (MonoReflectionType, sre_byref, element_type);
MonoType *base = mono_reflection_type_handle_mono_type (ref_element, error);
goto_if_nok (error, leave);
g_assert (base);
result = &mono_class_from_mono_type_internal (base)->this_arg;
MONO_HANDLE_SETVAL (ref, type, MonoType*, result);
} else if (is_sre_pointer (klass)) {
MonoReflectionDerivedTypeHandle sre_pointer = MONO_HANDLE_CAST (MonoReflectionDerivedType, ref);
MonoReflectionTypeHandle ref_element = MONO_HANDLE_NEW_GET (MonoReflectionType, sre_pointer, element_type);
MonoType *base = mono_reflection_type_handle_mono_type (ref_element, error);
goto_if_nok (error, leave);
g_assert (base);
result = m_class_get_byval_arg (mono_class_create_ptr (base));
MONO_HANDLE_SETVAL (ref, type, MonoType*, result);
} else if (is_sre_generic_instance (klass)) {
result = reflection_instance_handle_mono_type (MONO_HANDLE_CAST (MonoReflectionGenericClass, ref), error);
} else if (is_sre_gparam_builder (klass)) {
result = reflection_param_handle_mono_type (MONO_HANDLE_CAST (MonoReflectionGenericParam, ref), error);
} else if (is_sre_enum_builder (klass)) {
MonoReflectionEnumBuilderHandle ref_ebuilder = MONO_HANDLE_CAST (MonoReflectionEnumBuilder, ref);
MonoReflectionTypeHandle ref_tb = MONO_HANDLE_CAST (MonoReflectionType, MONO_HANDLE_NEW_GET (MonoReflectionTypeBuilder, ref_ebuilder, tb));
result = mono_reflection_type_handle_mono_type (ref_tb, error);
} else if (is_sre_type_builder (klass)) {
MonoReflectionTypeBuilderHandle ref_tb = MONO_HANDLE_CAST (MonoReflectionTypeBuilder, ref);
/* This happens when a finished type references an unfinished one. Have to create the minimal type */
reflection_setup_internal_class (ref_tb, error);
mono_error_assert_ok (error);
result = MONO_HANDLE_GETVAL (ref, type);
} else {
g_error ("Cannot handle corlib user type %s", mono_type_full_name (m_class_get_byval_arg (mono_handle_class (ref))));
}
leave:
HANDLE_FUNCTION_RETURN_VAL (result);
}
/**
* LOCKING: Assumes the loader lock is held.
*/
static MonoMethodSignature*
parameters_to_signature (MonoImage *image, MonoArrayHandle parameters, MonoArrayHandle required_modifiers, MonoArrayHandle optional_modifiers, MonoError *error) {
MonoMethodSignature *sig;
int count, i;
error_init (error);
count = MONO_HANDLE_IS_NULL (parameters) ? 0 : mono_array_handle_length (parameters);
sig = (MonoMethodSignature *)mono_image_g_malloc0 (image, MONO_SIZEOF_METHOD_SIGNATURE + sizeof (MonoType*) * count);
sig->param_count = count;
sig->sentinelpos = -1; /* FIXME */
for (i = 0; i < count; ++i) {
sig->params [i] = mono_type_array_get_and_resolve_with_modifiers (parameters, required_modifiers, optional_modifiers, i, image, error);
if (!is_ok (error)) {
image_g_free (image, sig);
return NULL;
}
}
return sig;
}
/**
* LOCKING: Assumes the loader lock is held.
*/
static MonoMethodSignature*
ctor_builder_to_signature (MonoImage *image, MonoReflectionCtorBuilderHandle ctor, MonoError *error) {
MonoMethodSignature *sig;
error_init (error);
MonoArrayHandle params = MONO_HANDLE_NEW_GET(MonoArray, ctor, parameters);
MonoArrayHandle required_modifiers = MONO_HANDLE_NEW_GET(MonoArray, ctor, param_modreq);
MonoArrayHandle optional_modifiers = MONO_HANDLE_NEW_GET(MonoArray, ctor, param_modopt);
sig = parameters_to_signature (image, params, required_modifiers, optional_modifiers, error);
return_val_if_nok (error, NULL);
sig->hasthis = MONO_HANDLE_GETVAL (ctor, attrs) & METHOD_ATTRIBUTE_STATIC? 0: 1;
sig->ret = mono_get_void_type ();
return sig;
}
static MonoMethodSignature*
ctor_builder_to_signature_raw (MonoImage *image, MonoReflectionCtorBuilder* ctor_raw, MonoError *error) {
HANDLE_FUNCTION_ENTER();
MONO_HANDLE_DCL (MonoReflectionCtorBuilder, ctor);
MonoMethodSignature * const sig = ctor_builder_to_signature (image, ctor, error);
HANDLE_FUNCTION_RETURN_VAL (sig);
}
/**
* LOCKING: Assumes the loader lock is held.
*/
static MonoMethodSignature*
method_builder_to_signature (MonoImage *image, MonoReflectionMethodBuilderHandle method, MonoError *error)
{
MonoMethodSignature *sig;
error_init (error);
MonoArrayHandle params = MONO_HANDLE_NEW_GET(MonoArray, method, parameters);
MonoArrayHandle required_modifiers = MONO_HANDLE_NEW_GET(MonoArray, method, param_modreq);
MonoArrayHandle optional_modifiers = MONO_HANDLE_NEW_GET(MonoArray, method, param_modopt);
MonoArrayHandle ret_req_modifiers = MONO_HANDLE_NEW_GET (MonoArray, method, return_modreq);
MonoArrayHandle ret_opt_modifiers = MONO_HANDLE_NEW_GET (MonoArray, method, return_modopt);
sig = parameters_to_signature (image, params, required_modifiers, optional_modifiers, error);
return_val_if_nok (error, NULL);
sig->hasthis = MONO_HANDLE_GETVAL (method, attrs) & METHOD_ATTRIBUTE_STATIC? 0: 1;
MonoReflectionTypeHandle rtype;
rtype = MONO_HANDLE_CAST (MonoReflectionType, MONO_HANDLE_NEW_GET (MonoObject, method, rtype));
if (!MONO_HANDLE_IS_NULL (rtype)) {
sig->ret = mono_reflection_type_handle_mono_type (rtype, error);
sig->ret = add_custom_modifiers_to_type (sig->ret, ret_req_modifiers, ret_opt_modifiers, image, error);
if (!is_ok (error)) {
image_g_free (image, sig);
return NULL;
}
} else {
sig->ret = mono_get_void_type ();
}
MonoArrayHandle generic_params = MONO_HANDLE_NEW_GET (MonoArray, method, generic_params);
sig->generic_param_count = MONO_HANDLE_IS_NULL (generic_params) ? 0 : mono_array_handle_length (generic_params);
return sig;
}
static MonoMethodSignature*
dynamic_method_to_signature (MonoReflectionDynamicMethodHandle method, MonoError *error)
{
HANDLE_FUNCTION_ENTER ();
MonoMethodSignature *sig = NULL;
error_init (error);
sig = parameters_to_signature (NULL, MONO_HANDLE_NEW_GET (MonoArray, method, parameters),
MONO_HANDLE_CAST (MonoArray, NULL_HANDLE), MONO_HANDLE_CAST (MonoArray, NULL_HANDLE), error);
goto_if_nok (error, leave);
sig->hasthis = MONO_HANDLE_GETVAL (method, attrs) & METHOD_ATTRIBUTE_STATIC? 0: 1;
MonoReflectionTypeHandle rtype;
rtype = MONO_HANDLE_NEW_GET (MonoReflectionType, method, rtype);
if (!MONO_HANDLE_IS_NULL (rtype)) {
sig->ret = mono_reflection_type_handle_mono_type (rtype, error);
if (!is_ok (error)) {
g_free (sig);
sig = NULL;
goto leave;
}
} else {
sig->ret = mono_get_void_type ();
}
sig->generic_param_count = 0;
leave:
HANDLE_FUNCTION_RETURN_VAL (sig);
}
static void
get_prop_name_and_type (MonoObject *prop, char **name, MonoType **type, MonoError *error)
{
error_init (error);
MonoClass *klass = mono_object_class (prop);
if (strcmp (klass->name, "PropertyBuilder") == 0) {
MonoReflectionPropertyBuilder *pb = (MonoReflectionPropertyBuilder *)prop;
*name = mono_string_to_utf8_checked_internal (pb->name, error);
return_if_nok (error);
*type = mono_reflection_type_get_handle ((MonoReflectionType*)pb->type, error);
} else {
MonoReflectionProperty *p = (MonoReflectionProperty *)prop;
*name = g_strdup (p->property->name);
if (p->property->get)
*type = mono_method_signature_internal (p->property->get)->ret;
else
*type = mono_method_signature_internal (p->property->set)->params [mono_method_signature_internal (p->property->set)->param_count - 1];
}
}
static void
get_field_name_and_type (MonoObject *field, char **name, MonoType **type, MonoError *error)
{
error_init (error);
MonoClass *klass = mono_object_class (field);
if (strcmp (klass->name, "FieldBuilder") == 0) {
MonoReflectionFieldBuilder *fb = (MonoReflectionFieldBuilder *)field;
*name = mono_string_to_utf8_checked_internal (fb->name, error);
return_if_nok (error);
*type = mono_reflection_type_get_handle ((MonoReflectionType*)fb->type, error);
} else {
MonoReflectionField *f = (MonoReflectionField *)field;
*name = g_strdup (mono_field_get_name (f->field));
*type = f->field->type;
}
}
#else /* DISABLE_REFLECTION_EMIT */
static gboolean
is_sre_type_builder (MonoClass *klass)
{
return FALSE;
}
static gboolean
is_sre_generic_instance (MonoClass *klass)
{
return FALSE;
}
gboolean
mono_is_sre_ctor_builder (MonoClass *klass)
{
return FALSE;
}
gboolean
mono_is_sre_method_on_tb_inst (MonoClass *klass)
{
return FALSE;
}
gboolean
mono_is_sre_ctor_on_tb_inst (MonoClass *klass)
{
return FALSE;
}
#endif /* !DISABLE_REFLECTION_EMIT */
gboolean
mono_is_sr_mono_property (MonoClass *klass)
{
check_corlib_type_cached (klass, "System.Reflection", "RuntimePropertyInfo");
}
static gboolean
is_sr_mono_method (MonoClass *klass)
{
check_corlib_type_cached (klass, "System.Reflection", "RuntimeMethodInfo");
}
gboolean
mono_is_sr_mono_cmethod (MonoClass *klass)
{
check_corlib_type_cached (klass, "System.Reflection", "RuntimeConstructorInfo");
}
gboolean
mono_class_is_reflection_method_or_constructor (MonoClass *klass)
{
return is_sr_mono_method (klass) || mono_is_sr_mono_cmethod (klass);
}
gboolean
mono_is_sre_type_builder (MonoClass *klass)
{
return is_sre_type_builder (klass);
}
gboolean
mono_is_sre_generic_instance (MonoClass *klass)
{
return is_sre_generic_instance (klass);
}
/**
* encode_cattr_value:
* Encode a value in a custom attribute stream of bytes.
* The value to encode is either supplied as an object in argument val
* (valuetypes are boxed), or as a pointer to the data in the
* argument argval.
* @type represents the type of the value
* @buffer is the start of the buffer
* @p the current position in the buffer
* @buflen contains the size of the buffer and is used to return the new buffer size
* if this needs to be realloced.
* @retbuffer and @retp return the start and the position of the buffer
* @error set on error.
*/
static void
encode_cattr_value (MonoAssembly *assembly, char *buffer, char *p, char **retbuffer, char **retp, guint32 *buflen, MonoType *type, MonoObject *arg, gconstpointer void_argval, MonoError *error)
{
const char *argval = (const char*)void_argval;
MonoTypeEnum simple_type;
error_init (error);
if ((p-buffer) + 10 >= *buflen) {
char *newbuf;
*buflen *= 2;
newbuf = (char *)g_realloc (buffer, *buflen);
p = newbuf + (p-buffer);
buffer = newbuf;
}
if (!argval)
argval = (const char*)mono_object_get_data (arg);
simple_type = type->type;
handle_enum:
switch (simple_type) {
case MONO_TYPE_BOOLEAN:
case MONO_TYPE_U1:
case MONO_TYPE_I1:
*p++ = *argval;
break;
case MONO_TYPE_CHAR:
case MONO_TYPE_U2:
case MONO_TYPE_I2:
swap_with_size (p, argval, 2, 1);
p += 2;
break;
case MONO_TYPE_U4:
case MONO_TYPE_I4:
case MONO_TYPE_R4:
swap_with_size (p, argval, 4, 1);
p += 4;
break;
case MONO_TYPE_R8:
swap_with_size (p, argval, 8, 1);
p += 8;
break;
case MONO_TYPE_U8:
case MONO_TYPE_I8:
swap_with_size (p, argval, 8, 1);
p += 8;
break;
case MONO_TYPE_VALUETYPE:
if (type->data.klass->enumtype) {
simple_type = mono_class_enum_basetype_internal (type->data.klass)->type;
goto handle_enum;
} else {
g_warning ("generic valuetype %s not handled in custom attr value decoding", type->data.klass->name);
}
break;
case MONO_TYPE_STRING: {
char *str;
guint32 slen;
if (!arg) {
MONO_DISABLE_WARNING(4309) // truncation of constant
*p++ = 0xFF;
MONO_RESTORE_WARNING
break;
}
str = mono_string_to_utf8_checked_internal ((MonoString*)arg, error);
return_if_nok (error);
slen = strlen (str);
if ((p-buffer) + 10 + slen >= *buflen) {
char *newbuf;
*buflen *= 2;
*buflen += slen;
newbuf = (char *)g_realloc (buffer, *buflen);
p = newbuf + (p-buffer);
buffer = newbuf;
}
mono_metadata_encode_value (slen, p, &p);
memcpy (p, str, slen);
p += slen;
g_free (str);
break;
}
case MONO_TYPE_CLASS: {
char *str;
guint32 slen;
MonoType *arg_type;
if (!arg) {
MONO_DISABLE_WARNING(4309) // truncation of constant
*p++ = 0xFF;
MONO_RESTORE_WARNING
break;
}
handle_type:
arg_type = mono_reflection_type_get_handle ((MonoReflectionType*)arg, error);
return_if_nok (error);
str = type_get_qualified_name (arg_type, NULL);
slen = strlen (str);
if ((p-buffer) + 10 + slen >= *buflen) {
char *newbuf;
*buflen *= 2;
*buflen += slen;
newbuf = (char *)g_realloc (buffer, *buflen);
p = newbuf + (p-buffer);
buffer = newbuf;
}
mono_metadata_encode_value (slen, p, &p);
memcpy (p, str, slen);
p += slen;
g_free (str);
break;
}
case MONO_TYPE_SZARRAY: {
int len, i;
MonoClass *eclass, *arg_eclass;
if (!arg) {
MONO_DISABLE_WARNING(4309) // truncation of constant
*p++ = 0xff; *p++ = 0xff; *p++ = 0xff; *p++ = 0xff;
MONO_RESTORE_WARNING
break;
}
len = mono_array_length_internal ((MonoArray*)arg);
*p++ = len & 0xff;
*p++ = (len >> 8) & 0xff;
*p++ = (len >> 16) & 0xff;
*p++ = (len >> 24) & 0xff;
*retp = p;
*retbuffer = buffer;
eclass = type->data.klass;
arg_eclass = mono_object_class (arg)->element_class;
if (!eclass) {
/* Happens when we are called from the MONO_TYPE_OBJECT case below */
eclass = mono_defaults.object_class;
}
if (eclass == mono_defaults.object_class && arg_eclass->valuetype) {
char *elptr = mono_array_addr_internal ((MonoArray*)arg, char, 0);
int elsize = mono_class_array_element_size (arg_eclass);
for (i = 0; i < len; ++i) {
encode_cattr_value (assembly, buffer, p, &buffer, &p, buflen, m_class_get_byval_arg (arg_eclass), NULL, elptr, error);
return_if_nok (error);
elptr += elsize;
}
} else if (eclass->valuetype && arg_eclass->valuetype) {
char *elptr = mono_array_addr_internal ((MonoArray*)arg, char, 0);
int elsize = mono_class_array_element_size (eclass);
for (i = 0; i < len; ++i) {
encode_cattr_value (assembly, buffer, p, &buffer, &p, buflen, m_class_get_byval_arg (eclass), NULL, elptr, error);
return_if_nok (error);
elptr += elsize;
}
} else {
for (i = 0; i < len; ++i) {
encode_cattr_value (assembly, buffer, p, &buffer, &p, buflen, m_class_get_byval_arg (eclass), mono_array_get_internal ((MonoArray*)arg, MonoObject*, i), NULL, error);
return_if_nok (error);
}
}
break;
}
case MONO_TYPE_OBJECT: {
MonoClass *klass;
char *str;
guint32 slen;
/*
* The parameter type is 'object' but the type of the actual
* argument is not. So we have to add type information to the blob
* too. This is completely undocumented in the spec.
*/
if (arg == NULL) {
*p++ = MONO_TYPE_STRING; // It's same hack as MS uses
MONO_DISABLE_WARNING(4309) // truncation of constant
*p++ = 0xFF;
MONO_RESTORE_WARNING
break;
}
klass = mono_object_class (arg);
if (mono_object_isinst_checked (arg, mono_defaults.systemtype_class, error)) {
*p++ = 0x50;
goto handle_type;
} else {
return_if_nok (error);
}
MonoType *klass_byval_arg = m_class_get_byval_arg (klass);
if (klass->enumtype) {
*p++ = 0x55;
} else if (klass == mono_defaults.string_class) {
simple_type = MONO_TYPE_STRING;
*p++ = 0x0E;
goto handle_enum;
} else if (klass->rank == 1) {
*p++ = 0x1D;
if (m_class_get_byval_arg (m_class_get_element_class (klass))->type == MONO_TYPE_OBJECT)
/* See Partition II, Appendix B3 */
*p++ = 0x51;
else
*p++ = m_class_get_byval_arg (m_class_get_element_class (klass))->type;
encode_cattr_value (assembly, buffer, p, &buffer, &p, buflen, klass_byval_arg, arg, NULL, error);
return_if_nok (error);
break;
} else if (klass_byval_arg->type >= MONO_TYPE_BOOLEAN && klass_byval_arg->type <= MONO_TYPE_R8) {
*p++ = simple_type = klass_byval_arg->type;
goto handle_enum;
} else {
mono_error_set_not_supported (error, "unhandled type in custom attr");
break;
}
str = type_get_qualified_name (m_class_get_byval_arg (klass), NULL);
slen = strlen (str);
if ((p-buffer) + 10 + slen >= *buflen) {
char *newbuf;
*buflen *= 2;
*buflen += slen;
newbuf = (char *)g_realloc (buffer, *buflen);
p = newbuf + (p-buffer);
buffer = newbuf;
}
mono_metadata_encode_value (slen, p, &p);
memcpy (p, str, slen);
p += slen;
g_free (str);
simple_type = mono_class_enum_basetype_internal (klass)->type;
goto handle_enum;
}
default:
mono_error_set_not_supported (error, "type 0x%02x not yet supported in custom attr encoder", simple_type);
}
*retp = p;
*retbuffer = buffer;
}
static void
encode_field_or_prop_type (MonoType *type, char *p, char **retp)
{
if (type->type == MONO_TYPE_VALUETYPE && type->data.klass->enumtype) {
char *str = type_get_qualified_name (type, NULL);
int slen = strlen (str);
*p++ = 0x55;
/*
* This seems to be optional...
* *p++ = 0x80;
*/
mono_metadata_encode_value (slen, p, &p);
memcpy (p, str, slen);
p += slen;
g_free (str);
} else if (type->type == MONO_TYPE_OBJECT) {
*p++ = 0x51;
} else if (type->type == MONO_TYPE_CLASS) {
/* it should be a type: encode_cattr_value () has the check */
*p++ = 0x50;
} else {
mono_metadata_encode_value (type->type, p, &p);
if (type->type == MONO_TYPE_SZARRAY)
/* See the examples in Partition VI, Annex B */
encode_field_or_prop_type (m_class_get_byval_arg (type->data.klass), p, &p);
}
*retp = p;
}
#ifndef DISABLE_REFLECTION_EMIT
static void
encode_named_val (MonoReflectionAssembly *assembly, char *buffer, char *p, char **retbuffer, char **retp, guint32 *buflen, MonoType *type, char *name, MonoObject *value, MonoError *error)
{
int len;
error_init (error);
/* Preallocate a large enough buffer */
if (type->type == MONO_TYPE_VALUETYPE && type->data.klass->enumtype) {
char *str = type_get_qualified_name (type, NULL);
len = strlen (str);
g_free (str);
} else if (type->type == MONO_TYPE_SZARRAY && type->data.klass->enumtype) {
char *str = type_get_qualified_name (m_class_get_byval_arg (type->data.klass), NULL);
len = strlen (str);
g_free (str);
} else {
len = 0;
}
len += strlen (name);
if ((p-buffer) + 20 + len >= *buflen) {
char *newbuf;
*buflen *= 2;
*buflen += len;
newbuf = (char *)g_realloc (buffer, *buflen);
p = newbuf + (p-buffer);
buffer = newbuf;
}
encode_field_or_prop_type (type, p, &p);
len = strlen (name);
mono_metadata_encode_value (len, p, &p);
memcpy (p, name, len);
p += len;
encode_cattr_value (assembly->assembly, buffer, p, &buffer, &p, buflen, type, value, NULL, error);
return_if_nok (error);
*retp = p;
*retbuffer = buffer;
}
/**
* mono_reflection_get_custom_attrs_blob:
* \param ctor custom attribute constructor
* \param ctorArgs arguments o the constructor
* \param properties
* \param propValues
* \param fields
* \param fieldValues
* Creates the blob of data that needs to be saved in the metadata and that represents
* the custom attributed described by \p ctor, \p ctorArgs etc.
* \returns a \c Byte array representing the blob of data.
*/
MonoArray*
mono_reflection_get_custom_attrs_blob (MonoReflectionAssembly *assembly, MonoObject *ctor, MonoArray *ctorArgs, MonoArray *properties, MonoArray *propValues, MonoArray *fields, MonoArray* fieldValues)
{
HANDLE_FUNCTION_ENTER ();
MonoArrayHandle result;
MONO_ENTER_GC_UNSAFE;
ERROR_DECL (error);
MONO_HANDLE_NEW (MonoReflectionAssembly, assembly);
MONO_HANDLE_NEW (MonoObject, ctor);
MONO_HANDLE_NEW (MonoArray, ctorArgs);
MONO_HANDLE_NEW (MonoArray, properties);
MONO_HANDLE_NEW (MonoArray, propValues);
MONO_HANDLE_NEW (MonoArray, fields);
MONO_HANDLE_NEW (MonoArray, fieldValues);
result = mono_reflection_get_custom_attrs_blob_checked (assembly, ctor, ctorArgs, properties, propValues, fields, fieldValues, error);
mono_error_cleanup (error);
MONO_EXIT_GC_UNSAFE;
HANDLE_FUNCTION_RETURN_OBJ (result);
}
/**
* mono_reflection_get_custom_attrs_blob_checked:
* \param ctor custom attribute constructor
* \param ctorArgs arguments o the constructor
* \param properties
* \param propValues
* \param fields
* \param fieldValues
* \param error set on error
* Creates the blob of data that needs to be saved in the metadata and that represents
* the custom attributed described by \p ctor, \p ctorArgs etc.
* \returns a \c Byte array representing the blob of data. On failure returns NULL and sets \p error.
*/
MonoArrayHandle
mono_reflection_get_custom_attrs_blob_checked (MonoReflectionAssembly *assembly, MonoObject *ctor, MonoArray *ctorArgs, MonoArray *properties, MonoArray *propValues, MonoArray *fields, MonoArray* fieldValues, MonoError *error)
{
MonoArrayHandle result = NULL_HANDLE_INIT;
MonoMethodSignature *sig;
MonoMethodSignature *sig_free = NULL;
MonoObject *arg;
char *buffer = NULL;
char *p;
guint32 buflen, i;
MonoObjectHandle h1 = NULL_HANDLE_INIT;
MonoObjectHandle h2 = NULL_HANDLE_INIT;
MonoObjectHandle argh = NULL_HANDLE_INIT;
HANDLE_FUNCTION_ENTER ();
if (strcmp (ctor->vtable->klass->name, "RuntimeConstructorInfo")) {
/* sig is freed later so allocate it in the heap */
sig = ctor_builder_to_signature_raw (NULL, (MonoReflectionCtorBuilder*)ctor, error); /* FIXME use handles */
sig_free = sig;
goto_if_nok (error, leave);
} else {
sig = mono_method_signature_internal (((MonoReflectionMethod*)ctor)->method);
}
g_assert (mono_array_length_internal (ctorArgs) == sig->param_count);
buflen = 256;
p = buffer = (char *)g_malloc (buflen);
/* write the prolog */
*p++ = 1;
*p++ = 0;
argh = MONO_HANDLE_NEW (MonoObject, NULL);
for (i = 0; i < sig->param_count; ++i) {
arg = mono_array_get_internal (ctorArgs, MonoObject*, i);
MONO_HANDLE_ASSIGN_RAW (argh, arg);
encode_cattr_value (assembly->assembly, buffer, p, &buffer, &p, &buflen, sig->params [i], arg, NULL, error);
goto_if_nok (error, leave);
}
i = 0;
if (properties)
i += mono_array_length_internal (properties);
if (fields)
i += mono_array_length_internal (fields);
*p++ = i & 0xff;
*p++ = (i >> 8) & 0xff;
if (properties || fields) {
h1 = MONO_HANDLE_NEW (MonoObject, NULL);
h2 = MONO_HANDLE_NEW (MonoObject, NULL);
}
if (properties) {
MonoObject *prop;
for (i = 0; i < mono_array_length_internal (properties); ++i) {
MonoType *ptype = NULL;
char *pname;
prop = (MonoObject *)mono_array_get_internal (properties, gpointer, i);
MONO_HANDLE_ASSIGN_RAW (h1, prop);
get_prop_name_and_type (prop, &pname, &ptype, error);
goto_if_nok (error, leave);
*p++ = 0x54; /* PROPERTY signature */
prop = (MonoObject*)mono_array_get_internal (propValues, gpointer, i);
MONO_HANDLE_ASSIGN_RAW (h2, prop);
encode_named_val (assembly, buffer, p, &buffer, &p, &buflen, ptype, pname, prop, error);
g_free (pname);
goto_if_nok (error, leave);
}
}
if (fields) {
MonoObject *field;
for (i = 0; i < mono_array_length_internal (fields); ++i) {
MonoType *ftype = NULL;
char *fname;
field = (MonoObject *)mono_array_get_internal (fields, gpointer, i);
MONO_HANDLE_ASSIGN_RAW (h1, field);
get_field_name_and_type (field, &fname, &ftype, error);
goto_if_nok (error, leave);
*p++ = 0x53; /* FIELD signature */
field = (MonoObject*)mono_array_get_internal (fieldValues, gpointer, i);
MONO_HANDLE_ASSIGN_RAW (h2, field);
encode_named_val (assembly, buffer, p, &buffer, &p, &buflen, ftype, fname, field, error);
g_free (fname);
goto_if_nok (error, leave);
}
}
g_assert (p - buffer <= buflen);
buflen = p - buffer;
result = mono_array_new_handle (mono_defaults.byte_class, buflen, error);
goto_if_nok (error, leave);
p = mono_array_addr_internal (MONO_HANDLE_RAW (result), char, 0);
memcpy (p, buffer, buflen);
leave:
g_free (buffer);
g_free (sig_free);
HANDLE_FUNCTION_RETURN_REF (MonoArray, result);
}
static gboolean
reflection_setup_class_hierarchy (GHashTable *unparented, MonoError *error)
{
error_init (error);
mono_loader_lock ();
MonoType *parent_type;
MonoType *child_type;
GHashTableIter iter;
g_hash_table_iter_init (&iter, unparented);
while (g_hash_table_iter_next (&iter, (gpointer *) &child_type, (gpointer *) &parent_type)) {
MonoClass *child_class = mono_class_from_mono_type_internal (child_type);
if (parent_type != NULL) {
MonoClass *parent_class = mono_class_from_mono_type_internal (parent_type);
child_class->parent = NULL;
/* fool mono_class_setup_parent */
child_class->supertypes = NULL;
mono_class_setup_parent (child_class, parent_class);
} else if (strcmp (child_class->name, "Object") == 0 && strcmp (child_class->name_space, "System") == 0) {
const char *old_n = child_class->name;
/* trick to get relative numbering right when compiling corlib */
child_class->name = "BuildingObject";
mono_class_setup_parent (child_class, mono_defaults.object_class);
child_class->name = old_n;
}
mono_class_setup_mono_type (child_class);
mono_class_setup_supertypes (child_class);
}
mono_loader_unlock ();
return is_ok (error);
}
static gboolean
reflection_setup_internal_class_internal (MonoReflectionTypeBuilderHandle ref_tb, MonoError *error)
{
HANDLE_FUNCTION_ENTER ();
error_init (error);
mono_loader_lock ();
gint32 entering_state = MONO_HANDLE_GETVAL (MONO_HANDLE_CAST (MonoReflectionTypeBuilder, ref_tb), state);
if (entering_state != MonoTypeBuilderNew) {
g_assert (MONO_HANDLE_GETVAL (MONO_HANDLE_CAST (MonoReflectionType, ref_tb), type));
goto leave;
}
MONO_HANDLE_SETVAL (ref_tb, state, gint32/*MonoTypeBuilderState*/, MonoTypeBuilderEntered);
MonoReflectionModuleBuilderHandle module_ref;
module_ref = MONO_HANDLE_NEW_GET (MonoReflectionModuleBuilder, ref_tb, module);
GHashTable *unparented_classes;
unparented_classes = MONO_HANDLE_GETVAL(module_ref, unparented_classes);
// If this type is already setup, exit. We'll fix the parenting later
MonoType *type;
type = MONO_HANDLE_GETVAL (MONO_HANDLE_CAST (MonoReflectionType, ref_tb), type);
if (type)
goto leave;
MonoReflectionModuleBuilderHandle ref_module;
ref_module = MONO_HANDLE_NEW_GET (MonoReflectionModuleBuilder, ref_tb, module);
MonoDynamicImage *dynamic_image;
dynamic_image = MONO_HANDLE_GETVAL (ref_module, dynamic_image);
MonoStringHandle ref_name;
ref_name = MONO_HANDLE_NEW_GET (MonoString, ref_tb, name);
MonoStringHandle ref_nspace;
ref_nspace = MONO_HANDLE_NEW_GET (MonoString, ref_tb, nspace);
guint32 table_idx;
table_idx = MONO_HANDLE_GETVAL (ref_tb, table_idx);
/*
* The size calculation here warrants some explaining.
* reflection_setup_internal_class is called too early, well before we know whether the type will be a GTD or DEF,
* meaning we need to alloc enough space to morth a def into a gtd.
*/
MonoClass *klass;
klass = (MonoClass *)mono_image_alloc0 (&dynamic_image->image, MAX (sizeof (MonoClassDef), sizeof (MonoClassGtd)));
klass->class_kind = MONO_CLASS_DEF;
klass->image = &dynamic_image->image;
klass->inited = 1; /* we lie to the runtime */
klass->name = mono_string_to_utf8_image (klass->image, ref_name, error);
goto_if_nok (error, leave);
klass->name_space = mono_string_to_utf8_image (klass->image, ref_nspace, error);
goto_if_nok (error, leave);
klass->type_token = MONO_TOKEN_TYPE_DEF | table_idx;
mono_class_set_flags (klass, MONO_HANDLE_GETVAL (ref_tb, attrs));
MONO_PROFILER_RAISE (class_loading, (klass));
klass->element_class = klass;
g_assert (!mono_class_has_ref_info (klass));
mono_class_set_ref_info (klass, MONO_HANDLE_CAST (MonoObject, ref_tb));
MonoReflectionTypeHandle ref_nesting_type;
ref_nesting_type = MONO_HANDLE_NEW_GET (MonoReflectionType, ref_tb, nesting_type);
/* Put into cache so mono_class_get_checked () will find it.
Skip nested types as those should not be available on the global scope. */
if (MONO_HANDLE_IS_NULL (ref_nesting_type))
mono_image_add_to_name_cache (klass->image, klass->name_space, klass->name, table_idx);
/*
We must register all types as we cannot rely on the name_cache hashtable since we find the class
by performing a mono_class_get which does the full resolution.
Working around this semantics would require us to write a lot of code for no clear advantage.
*/
mono_image_append_class_to_reflection_info_set (klass);
mono_dynamic_image_register_token (dynamic_image, MONO_TOKEN_TYPE_DEF | table_idx, MONO_HANDLE_CAST (MonoObject, ref_tb), MONO_DYN_IMAGE_TOK_NEW);
if ((!strcmp (klass->name, "ValueType") && !strcmp (klass->name_space, "System")) ||
(!strcmp (klass->name, "Object") && !strcmp (klass->name_space, "System")) ||
(!strcmp (klass->name, "Enum") && !strcmp (klass->name_space, "System"))) {
klass->instance_size = MONO_ABI_SIZEOF (MonoObject);
klass->size_inited = 1;
mono_class_setup_vtable_general (klass, NULL, 0, NULL);
}
mono_class_setup_mono_type (klass);
/*
* FIXME: handle interfaces.
*/
MonoReflectionTypeHandle ref_tb_type;
ref_tb_type = MONO_HANDLE_CAST (MonoReflectionType, ref_tb);
MONO_HANDLE_SETVAL (ref_tb_type, type, MonoType*, m_class_get_byval_arg (klass));
MONO_HANDLE_SETVAL (ref_tb, state, gint32, MonoTypeBuilderFinished);
reflection_init_generic_class (ref_tb, error);
goto_if_nok (error, leave);
// Do here so that the search inside of the parent can see the above type that's been set.
MonoReflectionTypeHandle ref_parent;
ref_parent = MONO_HANDLE_CAST (MonoReflectionType, MONO_HANDLE_NEW_GET (MonoObject, ref_tb, parent));
MonoType *parent_type;
parent_type = NULL;
if (!MONO_HANDLE_IS_NULL (ref_parent)) {
MonoClass *parent_klass = mono_handle_class (ref_parent);
gboolean recursive_init = TRUE;
if (is_sre_type_builder (parent_klass)) {
MonoTypeBuilderState parent_state = (MonoTypeBuilderState)MONO_HANDLE_GETVAL (MONO_HANDLE_CAST (MonoReflectionTypeBuilder, ref_parent), state);
if (parent_state != MonoTypeBuilderNew) {
// Initialize types reachable from parent recursively
// We'll fix the type hierarchy later
recursive_init = FALSE;
}
}
if (recursive_init) {
// If we haven't encountered a cycle, force the creation of ref_parent's type
mono_reflection_type_handle_mono_type (ref_parent, error);
goto_if_nok (error, leave);
}
parent_type = MONO_HANDLE_GETVAL (ref_parent, type);
// If we failed to create the parent, fail the child
if (!parent_type)
goto leave;
}
// Push the child type and parent type to process later
// Note: parent_type may be null.
g_assert (!g_hash_table_lookup (unparented_classes, m_class_get_byval_arg (klass)));
g_hash_table_insert (unparented_classes, m_class_get_byval_arg (klass), parent_type);
if (!MONO_HANDLE_IS_NULL (ref_nesting_type)) {
if (!reflection_setup_internal_class (MONO_HANDLE_CAST (MonoReflectionTypeBuilder, ref_nesting_type), error))
goto leave;
MonoType *nesting_type = mono_reflection_type_handle_mono_type (ref_nesting_type, error);
goto_if_nok (error, leave);
klass->nested_in = mono_class_from_mono_type_internal (nesting_type);
}
/*g_print ("setup %s as %s (%p)\n", klass->name, ((MonoObject*)tb)->vtable->klass->name, tb);*/
MONO_PROFILER_RAISE (class_loaded, (klass));
leave:
mono_loader_unlock ();
HANDLE_FUNCTION_RETURN_VAL (is_ok (error));
}
/**
* reflection_init_generic_class:
* @tb: a TypeBuilder object
* @error: set on error
*
* Creates the generic class after all generic parameters have been added.
* On success returns TRUE, on failure returns FALSE and sets @error.
*
* This assumes that reflection_setup_internal_class has already set up
* ref_tb
*/
static gboolean
reflection_init_generic_class (MonoReflectionTypeBuilderHandle ref_tb, MonoError *error)
{
HANDLE_FUNCTION_ENTER ();
error_init (error);
MonoTypeBuilderState ref_state = (MonoTypeBuilderState)MONO_HANDLE_GETVAL (ref_tb, state);
g_assert (ref_state == MonoTypeBuilderFinished);
MonoType *type = MONO_HANDLE_GETVAL (MONO_HANDLE_CAST (MonoReflectionType, ref_tb), type);
MonoClass *klass = mono_class_from_mono_type_internal (type);
MonoArrayHandle generic_params = MONO_HANDLE_NEW_GET (MonoArray, ref_tb, generic_params);
int count = MONO_HANDLE_IS_NULL (generic_params) ? 0 : mono_array_handle_length (generic_params);
if (count == 0)
goto leave;
if (mono_class_try_get_generic_container (klass) != NULL)
goto leave; /* already setup */
MonoGenericContainer *generic_container;
generic_container = (MonoGenericContainer *)mono_image_alloc0 (klass->image, sizeof (MonoGenericContainer));
generic_container->owner.klass = klass;
generic_container->type_argc = count;
generic_container->type_params = (MonoGenericParamFull *)mono_image_alloc0 (klass->image, sizeof (MonoGenericParamFull) * count);
klass->class_kind = MONO_CLASS_GTD;
mono_class_set_generic_container (klass, generic_container);
MonoReflectionGenericParamHandle ref_gparam;
ref_gparam = MONO_HANDLE_NEW (MonoReflectionGenericParam, NULL);
for (int i = 0; i < count; i++) {
MONO_HANDLE_ARRAY_GETREF (ref_gparam, generic_params, i);
MonoType *param_type = mono_reflection_type_handle_mono_type (MONO_HANDLE_CAST (MonoReflectionType, ref_gparam), error);
goto_if_nok (error, leave);
MonoGenericParamFull *param = (MonoGenericParamFull *) param_type->data.generic_param;
generic_container->type_params [i] = *param;
/*Make sure we are a diferent type instance */
generic_container->type_params [i].owner = generic_container;
generic_container->type_params [i].info.pklass = NULL;
generic_container->type_params [i].info.flags = MONO_HANDLE_GETVAL (ref_gparam, attrs);
g_assert (generic_container->type_params [i].owner);
}
generic_container->context.class_inst = mono_get_shared_generic_inst (generic_container);
MonoGenericContext* context;
context = &generic_container->context;
MonoType *canonical_inst;
canonical_inst = &((MonoClassGtd*)klass)->canonical_inst;
canonical_inst->type = MONO_TYPE_GENERICINST;
canonical_inst->data.generic_class = mono_metadata_lookup_generic_class (klass, context->class_inst, FALSE);
leave:
HANDLE_FUNCTION_RETURN_VAL (is_ok (error));
}
static MonoMarshalSpec*
mono_marshal_spec_from_builder (MonoImage *image, MonoAssembly *assembly,
MonoReflectionMarshal *minfo, MonoError *error)
{
MonoMarshalSpec *res;
error_init (error);
res = image_g_new0 (image, MonoMarshalSpec, 1);
res->native = (MonoMarshalNative)minfo->type;
switch (minfo->type) {
case MONO_NATIVE_LPARRAY:
res->data.array_data.elem_type = (MonoMarshalNative)minfo->eltype;
if (minfo->has_size) {
res->data.array_data.param_num = minfo->param_num;
res->data.array_data.num_elem = minfo->count;
res->data.array_data.elem_mult = minfo->param_num == -1 ? 0 : 1;
}
else {
res->data.array_data.param_num = -1;
res->data.array_data.num_elem = -1;
res->data.array_data.elem_mult = -1;
}
break;
case MONO_NATIVE_BYVALTSTR:
case MONO_NATIVE_BYVALARRAY:
res->data.array_data.num_elem = minfo->count;
break;
case MONO_NATIVE_CUSTOM:
if (minfo->marshaltyperef) {
MonoType *marshaltyperef = mono_reflection_type_get_handle ((MonoReflectionType*)minfo->marshaltyperef, error);
if (!is_ok (error)) {
image_g_free (image, res);
return NULL;
}
res->data.custom_data.custom_name =
type_get_fully_qualified_name (marshaltyperef);
}
if (minfo->mcookie) {
res->data.custom_data.cookie = mono_string_to_utf8_checked_internal (minfo->mcookie, error);
if (!is_ok (error)) {
image_g_free (image, res);
return NULL;
}
}
break;
default:
break;
}
return res;
}
#endif /* !DISABLE_REFLECTION_EMIT */
MonoReflectionMarshalAsAttributeHandle
mono_reflection_marshal_as_attribute_from_marshal_spec (MonoClass *klass,
MonoMarshalSpec *spec, MonoError *error)
{
error_init (error);
MonoAssemblyLoadContext *alc = mono_alc_get_ambient ();
MonoReflectionMarshalAsAttributeHandle minfo = MONO_HANDLE_CAST (MonoReflectionMarshalAsAttribute, mono_object_new_handle (mono_class_get_marshal_as_attribute_class (), error));
goto_if_nok (error, fail);
guint32 utype;
utype = spec->native;
MONO_HANDLE_SETVAL (minfo, utype, guint32, utype);
switch (utype) {
case MONO_NATIVE_LPARRAY:
MONO_HANDLE_SETVAL (minfo, array_subtype, guint32, spec->data.array_data.elem_type);
if (spec->data.array_data.num_elem != -1)
MONO_HANDLE_SETVAL (minfo, size_const, gint32, spec->data.array_data.num_elem);
if (spec->data.array_data.param_num != -1)
MONO_HANDLE_SETVAL (minfo, size_param_index, gint16, spec->data.array_data.param_num);
break;
case MONO_NATIVE_BYVALTSTR:
case MONO_NATIVE_BYVALARRAY:
if (spec->data.array_data.num_elem != -1)
MONO_HANDLE_SETVAL (minfo, size_const, gint32, spec->data.array_data.num_elem);
break;
case MONO_NATIVE_CUSTOM:
if (spec->data.custom_data.custom_name) {
MonoType *mtype = mono_reflection_type_from_name_checked (spec->data.custom_data.custom_name, alc, klass->image, error);
goto_if_nok (error, fail);
if (mtype) {
MonoReflectionTypeHandle rt = mono_type_get_object_handle (mtype, error);
goto_if_nok (error, fail);
MONO_HANDLE_SET (minfo, marshal_type_ref, rt);
}
MonoStringHandle custom_name = mono_string_new_handle (spec->data.custom_data.custom_name, error);
goto_if_nok (error, fail);
MONO_HANDLE_SET (minfo, marshal_type, custom_name);
}
if (spec->data.custom_data.cookie) {
MonoStringHandle cookie = mono_string_new_handle (spec->data.custom_data.cookie, error);
goto_if_nok (error, fail);
MONO_HANDLE_SET (minfo, marshal_cookie, cookie);
}
break;
default:
break;
}
return minfo;
fail:
return MONO_HANDLE_NEW (MonoReflectionMarshalAsAttribute, NULL);
}
#ifndef DISABLE_REFLECTION_EMIT
static MonoMethod*
reflection_methodbuilder_to_mono_method (MonoClass *klass,
ReflectionMethodBuilder *rmb,
MonoMethodSignature *sig,
MonoError *error)
{
MonoMethod *m;
MonoMethodWrapper *wrapperm;
MonoMarshalSpec **specs = NULL;
MonoReflectionMethodAux *method_aux;
MonoImage *image;
gboolean dynamic;
int i;
error_init (error);
/*
* Methods created using a MethodBuilder should have their memory allocated
* inside the image mempool, while dynamic methods should have their memory
* malloc'd.
*/
dynamic = rmb->refs != NULL;
image = dynamic ? NULL : klass->image;
if (!dynamic)
g_assert (!mono_class_is_ginst (klass));
mono_loader_lock ();
if ((rmb->attrs & METHOD_ATTRIBUTE_PINVOKE_IMPL) ||
(rmb->iattrs & METHOD_IMPL_ATTRIBUTE_INTERNAL_CALL))
m = (MonoMethod *)image_g_new0 (image, MonoMethodPInvoke, 1);
else
m = (MonoMethod *)image_g_new0 (image, MonoDynamicMethod, 1);
wrapperm = (MonoMethodWrapper*)m;
m->dynamic = dynamic;
m->slot = -1;
m->flags = rmb->attrs;
m->iflags = rmb->iattrs;
m->name = string_to_utf8_image_raw (image, rmb->name, error);
goto_if_nok (error, fail);
m->klass = klass;
m->signature = sig;
m->sre_method = TRUE;
m->skip_visibility = rmb->skip_visibility;
if (rmb->table_idx)
m->token = MONO_TOKEN_METHOD_DEF | (*rmb->table_idx);
if (m->iflags & METHOD_IMPL_ATTRIBUTE_INTERNAL_CALL) {
if (klass == mono_defaults.string_class && !strcmp (m->name, ".ctor"))
m->string_ctor = 1;
m->signature->pinvoke = 1;
} else if (m->flags & METHOD_ATTRIBUTE_PINVOKE_IMPL) {
m->signature->pinvoke = 1;
method_aux = image_g_new0 (image, MonoReflectionMethodAux, 1);
method_aux->dllentry = rmb->dllentry ? string_to_utf8_image_raw (image, rmb->dllentry, error) : image_strdup (image, m->name);
mono_error_assert_ok (error);
method_aux->dll = string_to_utf8_image_raw (image, rmb->dll, error);
mono_error_assert_ok (error);
((MonoMethodPInvoke*)m)->piflags = (rmb->native_cc << 8) | (rmb->charset ? (rmb->charset - 1) * 2 : 0) | rmb->extra_flags;
if (image_is_dynamic (klass->image))
g_hash_table_insert (((MonoDynamicImage*)klass->image)->method_aux_hash, m, method_aux);
goto leave;
} else if (!(m->flags & METHOD_ATTRIBUTE_ABSTRACT) &&
!(m->iflags & METHOD_IMPL_ATTRIBUTE_RUNTIME)) {
MonoMethodHeader *header;
guint32 code_size;
gint32 max_stack, i;
gint32 num_locals = 0;
gint32 num_clauses = 0;
guint8 *code;
if (rmb->ilgen) {
code = mono_array_addr_internal (rmb->ilgen->code, guint8, 0);
code_size = rmb->ilgen->code_len;
max_stack = rmb->ilgen->max_stack;
num_locals = rmb->ilgen->locals ? mono_array_length_internal (rmb->ilgen->locals) : 0;
if (rmb->ilgen->ex_handlers)
num_clauses = mono_reflection_method_count_clauses (rmb->ilgen);
} else {
if (rmb->code) {
code = mono_array_addr_internal (rmb->code, guint8, 0);
code_size = mono_array_length_internal (rmb->code);
/* we probably need to run a verifier on the code... */
max_stack = 8;
}
else {
code = NULL;
code_size = 0;
max_stack = 8;
}
}
header = (MonoMethodHeader *)mono_image_g_malloc0 (image, MONO_SIZEOF_METHOD_HEADER + num_locals * sizeof (MonoType*));
header->code_size = code_size;
header->code = (const unsigned char *)image_g_malloc (image, code_size);
memcpy ((char*)header->code, code, code_size);
header->max_stack = max_stack;
header->init_locals = rmb->init_locals;
header->num_locals = num_locals;
for (i = 0; i < num_locals; ++i) {
MonoReflectionLocalBuilder *lb =
mono_array_get_internal (rmb->ilgen->locals, MonoReflectionLocalBuilder*, i);
header->locals [i] = image_g_new0 (image, MonoType, 1);
MonoType *type = mono_reflection_type_get_handle ((MonoReflectionType*)lb->type, error);
mono_error_assert_ok (error);
memcpy (header->locals [i], type, mono_sizeof_type (type));
}
header->num_clauses = num_clauses;
if (num_clauses) {
header->clauses = method_encode_clauses (image, (MonoDynamicImage*)klass->image,
rmb->ilgen, num_clauses, error);
mono_error_assert_ok (error);
}
wrapperm->header = header;
MonoDynamicMethod *dm = (MonoDynamicMethod*)wrapperm;
dm->assembly = klass->image->assembly;
}
if (rmb->generic_params) {
int count = mono_array_length_internal (rmb->generic_params);
MonoGenericContainer *container;
container = (MonoGenericContainer *)mono_image_alloc0 (klass->image, sizeof (MonoGenericContainer));
container->is_method = TRUE;
container->is_anonymous = FALSE;
container->type_argc = count;
container->type_params = image_g_new0 (image, MonoGenericParamFull, count);
container->owner.method = m;
m->is_generic = TRUE;
mono_method_set_generic_container (m, container);
for (i = 0; i < count; i++) {
MonoReflectionGenericParam *gp =
mono_array_get_internal (rmb->generic_params, MonoReflectionGenericParam*, i);
MonoType *gp_type = mono_reflection_type_get_handle ((MonoReflectionType*)gp, error);
mono_error_assert_ok (error);
MonoGenericParamFull *param = (MonoGenericParamFull *) gp_type->data.generic_param;
container->type_params [i] = *param;
container->type_params [i].owner = container;
gp->type.type->data.generic_param = (MonoGenericParam*)&container->type_params [i];
MonoClass *gklass = mono_class_from_mono_type_internal (gp_type);
gklass->wastypebuilder = TRUE;
}
/*
* The method signature might have pointers to generic parameters that belong to other methods.
* This is a valid SRE case, but the resulting method signature must be encoded using the proper
* generic parameters.
*/
for (i = 0; i < m->signature->param_count; ++i) {
MonoType *t = m->signature->params [i];
if (t->type == MONO_TYPE_MVAR) {
MonoGenericParam *gparam = t->data.generic_param;
if (gparam->num < count) {
m->signature->params [i] = mono_metadata_type_dup (image, m->signature->params [i]);
m->signature->params [i]->data.generic_param = mono_generic_container_get_param (container, gparam->num);
}
}
}
if (mono_class_is_gtd (klass)) {
container->parent = mono_class_get_generic_container (klass);
container->context.class_inst = mono_class_get_generic_container (klass)->context.class_inst;
}
container->context.method_inst = mono_get_shared_generic_inst (container);
}
if (rmb->refs) {
MonoMethodWrapper *mw = (MonoMethodWrapper*)m;
int i;
void **data;
m->wrapper_type = MONO_WRAPPER_DYNAMIC_METHOD;
mw->method_data = data = image_g_new (image, gpointer, rmb->nrefs + 1);
data [0] = GUINT_TO_POINTER (rmb->nrefs);
for (i = 0; i < rmb->nrefs; ++i)
data [i + 1] = rmb->refs [i];
}
method_aux = NULL;
/* Parameter info */
if (rmb->pinfo) {
if (!method_aux)
method_aux = image_g_new0 (image, MonoReflectionMethodAux, 1);
method_aux->param_names = image_g_new0 (image, char *, mono_method_signature_internal (m)->param_count + 1);
for (i = 0; i <= m->signature->param_count; ++i) {
MonoReflectionParamBuilder *pb;
if ((pb = mono_array_get_internal (rmb->pinfo, MonoReflectionParamBuilder*, i))) {
if ((i > 0) && (pb->attrs)) {
/* Make a copy since it might point to a shared type structure */
m->signature->params [i - 1] = mono_metadata_type_dup (klass->image, m->signature->params [i - 1]);
m->signature->params [i - 1]->attrs = pb->attrs;
}
if (pb->attrs & PARAM_ATTRIBUTE_HAS_DEFAULT) {
MonoDynamicImage *assembly;
guint32 idx, len;
MonoTypeEnum def_type;
char *p;
const char *p2;
if (!method_aux->param_defaults) {
method_aux->param_defaults = image_g_new0 (image, guint8*, m->signature->param_count + 1);
method_aux->param_default_types = image_g_new0 (image, guint32, m->signature->param_count + 1);
}
assembly = (MonoDynamicImage*)klass->image;
idx = mono_dynimage_encode_constant (assembly, pb->def_value, &def_type);
/* Copy the data from the blob since it might get realloc-ed */
p = assembly->blob.data + idx;
len = mono_metadata_decode_blob_size (p, &p2);
len += p2 - p;
method_aux->param_defaults [i] = (uint8_t *)image_g_malloc (image, len);
method_aux->param_default_types [i] = def_type;
memcpy ((gpointer)method_aux->param_defaults [i], p, len);
}
if (pb->name) {
method_aux->param_names [i] = string_to_utf8_image_raw (image, pb->name, error);
mono_error_assert_ok (error);
}
if (pb->cattrs) {
if (!method_aux->param_cattr)
method_aux->param_cattr = image_g_new0 (image, MonoCustomAttrInfo*, m->signature->param_count + 1);
method_aux->param_cattr [i] = mono_custom_attrs_from_builders (image, klass->image, pb->cattrs);
}
}
}
}
/* Parameter marshalling */
if (rmb->pinfo)
for (i = 0; i < mono_array_length_internal (rmb->pinfo); ++i) {
MonoReflectionParamBuilder *pb;
if ((pb = mono_array_get_internal (rmb->pinfo, MonoReflectionParamBuilder*, i))) {
if (pb->marshal_info) {
if (specs == NULL)
specs = image_g_new0 (image, MonoMarshalSpec*, sig->param_count + 1);
specs [pb->position] =
mono_marshal_spec_from_builder (image, klass->image->assembly, pb->marshal_info, error);
goto_if_nok (error, fail);
}
}
}
if (specs != NULL) {
if (!method_aux)
method_aux = image_g_new0 (image, MonoReflectionMethodAux, 1);
method_aux->param_marshall = specs;
}
if (image_is_dynamic (klass->image) && method_aux)
g_hash_table_insert (((MonoDynamicImage*)klass->image)->method_aux_hash, m, method_aux);
leave:
mono_loader_unlock ();
if (!m) // FIXME: This leaks if image is not NULL.
image_g_free (image, specs);
return m;
fail:
m = NULL;
goto leave;
}
static MonoMethod*
ctorbuilder_to_mono_method (MonoClass *klass, MonoReflectionCtorBuilder* mb, MonoError *error)
{
/* We need to clear handles for rmb fields created in mono_reflection_methodbuilder_from_ctor_builder */
HANDLE_FUNCTION_ENTER ();
ReflectionMethodBuilder rmb;
MonoMethodSignature *sig;
MonoMethod *ret;
mono_loader_lock ();
if (!mono_reflection_methodbuilder_from_ctor_builder (&rmb, mb, error)) {
mono_loader_unlock ();
goto exit_null;
}
g_assert (klass->image != NULL);
sig = ctor_builder_to_signature_raw (klass->image, mb, error); /* FIXME use handles */
mono_loader_unlock ();
goto_if_nok (error, exit_null);
mb->mhandle = reflection_methodbuilder_to_mono_method (klass, &rmb, sig, error);
goto_if_nok (error, exit_null);
mono_save_custom_attrs (klass->image, mb->mhandle, mb->cattrs);
/* ilgen is no longer needed */
mb->ilgen = NULL;
ret = mb->mhandle;
goto exit;
exit_null:
ret = NULL;
exit:
HANDLE_FUNCTION_RETURN_VAL (ret);
}
static MonoMethod*
methodbuilder_to_mono_method (MonoClass *klass, MonoReflectionMethodBuilderHandle ref_mb, MonoError *error)
{
/* We need to clear handles for rmb fields created in mono_reflection_methodbuilder_from_method_builder */
HANDLE_FUNCTION_ENTER ();
ReflectionMethodBuilder rmb;
MonoMethodSignature *sig;
MonoMethod *ret, *method;
error_init (error);
mono_loader_lock ();
MonoReflectionMethodBuilder *mb = MONO_HANDLE_RAW (ref_mb); /* FIXME use handles */
if (!mono_reflection_methodbuilder_from_method_builder (&rmb, mb, error)) {
mono_loader_unlock ();
goto exit_null;
}
g_assert (klass->image != NULL);
sig = method_builder_to_signature (klass->image, ref_mb, error);
mono_loader_unlock ();
goto_if_nok (error, exit_null);
method = reflection_methodbuilder_to_mono_method (klass, &rmb, sig, error);
goto_if_nok (error, exit_null);
MONO_HANDLE_SETVAL (ref_mb, mhandle, MonoMethod*, method);
mono_save_custom_attrs (klass->image, method, mb->cattrs);
/* ilgen is no longer needed */
mb->ilgen = NULL;
ret = method;
goto exit;
exit_null:
ret = NULL;
exit:
HANDLE_FUNCTION_RETURN_VAL (ret);
}
static MonoMethod*
methodbuilder_to_mono_method_raw (MonoClass *klass, MonoReflectionMethodBuilder* mb_raw, MonoError *error)
{
HANDLE_FUNCTION_ENTER (); /* FIXME change callers of methodbuilder_to_mono_method_raw to use handles */
error_init (error);
MONO_HANDLE_DCL (MonoReflectionMethodBuilder, mb);
MonoMethod * const result = methodbuilder_to_mono_method (klass, mb, error);
HANDLE_FUNCTION_RETURN_VAL (result);
}
#endif
#ifndef DISABLE_REFLECTION_EMIT
/**
* fix_partial_generic_class:
* @klass: a generic instantiation MonoClass
* @error: set on error
*
* Assumes that the generic container of @klass has its vtable
* initialized, and updates the parent class, interfaces, methods and
* fields of @klass by inflating the types using the generic context.
*
* On success returns TRUE, on failure returns FALSE and sets @error.
*
*/
static gboolean
fix_partial_generic_class (MonoClass *klass, MonoError *error)
{
MonoClass *gklass = mono_class_get_generic_class (klass)->container_class;
int i;
error_init (error);
if (klass->wastypebuilder)
return TRUE;
if (klass->parent != gklass->parent) {
MonoType *parent_type = mono_class_inflate_generic_type_checked (m_class_get_byval_arg (m_class_get_parent (gklass)), &mono_class_get_generic_class (klass)->context, error);
if (is_ok (error)) {
MonoClass *parent = mono_class_from_mono_type_internal (parent_type);
mono_metadata_free_type (parent_type);
if (parent != klass->parent) {
/*fool mono_class_setup_parent*/
klass->supertypes = NULL;
mono_class_setup_parent (klass, parent);
}
} else {
if (gklass->wastypebuilder)
klass->wastypebuilder = TRUE;
return FALSE;
}
}
if (!mono_class_get_generic_class (klass)->need_sync)
return TRUE;
int mcount = mono_class_get_method_count (klass);
int gmcount = mono_class_get_method_count (gklass);
if (mcount != gmcount) {
mono_class_set_method_count (klass, gmcount);
klass->methods = (MonoMethod **)mono_image_alloc (klass->image, sizeof (MonoMethod*) * (gmcount + 1));
for (i = 0; i < gmcount; i++) {
klass->methods [i] = mono_class_inflate_generic_method_full_checked (
gklass->methods [i], klass, mono_class_get_context (klass), error);
mono_error_assert_ok (error);
}
}
if (klass->interface_count && klass->interface_count != gklass->interface_count) {
klass->interface_count = gklass->interface_count;
klass->interfaces = (MonoClass **)mono_image_alloc (klass->image, sizeof (MonoClass*) * gklass->interface_count);
klass->interfaces_packed = NULL; /*make setup_interface_offsets happy*/
MonoClass **gklass_interfaces = m_class_get_interfaces (gklass);
for (i = 0; i < gklass->interface_count; ++i) {
MonoType *iface_type = mono_class_inflate_generic_type_checked (m_class_get_byval_arg (gklass_interfaces [i]), mono_class_get_context (klass), error);
return_val_if_nok (error, FALSE);
klass->interfaces [i] = mono_class_from_mono_type_internal (iface_type);
mono_metadata_free_type (iface_type);
if (!ensure_runtime_vtable (klass->interfaces [i], error))
return FALSE;
}
klass->interfaces_inited = 1;
}
int fcount = mono_class_get_field_count (klass);
int gfcount = mono_class_get_field_count (gklass);
if (fcount != gfcount) {
mono_class_set_field_count (klass, gfcount);
klass->fields = image_g_new0 (klass->image, MonoClassField, gfcount);
for (i = 0; i < gfcount; i++) {
klass->fields [i] = gklass->fields [i];
m_field_set_parent (&klass->fields [i], klass);
klass->fields [i].type = mono_class_inflate_generic_type_checked (gklass->fields [i].type, mono_class_get_context (klass), error);
return_val_if_nok (error, FALSE);
}
}
/*We can only finish with this klass once it's parent has as well*/
if (gklass->wastypebuilder)
klass->wastypebuilder = TRUE;
return TRUE;
}
/**
* ensure_generic_class_runtime_vtable:
* @klass a generic class
* @error set on error
*
* Ensures that the generic container of @klass has a vtable and
* returns TRUE on success. On error returns FALSE and sets @error.
*/
static gboolean
ensure_generic_class_runtime_vtable (MonoClass *klass, MonoError *error)
{
MonoClass *gklass = mono_class_get_generic_class (klass)->container_class;
error_init (error);
if (!ensure_runtime_vtable (gklass, error))
return FALSE;
return fix_partial_generic_class (klass, error);
}
/**
* ensure_runtime_vtable:
* @klass the class
* @error set on error
*
* Ensures that @klass has a vtable and returns TRUE on success. On
* error returns FALSE and sets @error.
*/
static gboolean
ensure_runtime_vtable (MonoClass *klass, MonoError *error)
{
MonoReflectionTypeBuilder *tb = mono_class_get_ref_info_raw (klass); /* FIXME use handles */
int i, num, j;
error_init (error);
if (!image_is_dynamic (klass->image) || (!tb && !mono_class_is_ginst (klass)) || klass->wastypebuilder)
return TRUE;
if (klass->parent)
if (!ensure_runtime_vtable (klass->parent, error))
return FALSE;
if (tb) {
num = tb->ctors? mono_array_length_internal (tb->ctors): 0;
num += tb->num_methods;
mono_class_set_method_count (klass, num);
klass->methods = (MonoMethod **)mono_image_alloc (klass->image, sizeof (MonoMethod*) * num);
num = tb->ctors? mono_array_length_internal (tb->ctors): 0;
for (i = 0; i < num; ++i) {
MonoMethod *ctor = ctorbuilder_to_mono_method (klass, mono_array_get_internal (tb->ctors, MonoReflectionCtorBuilder*, i), error);
if (!ctor)
return FALSE;
klass->methods [i] = ctor;
}
num = tb->num_methods;
j = i;
for (i = 0; i < num; ++i) {
MonoMethod *meth = methodbuilder_to_mono_method_raw (klass, mono_array_get_internal (tb->methods, MonoReflectionMethodBuilder*, i), error); /* FIXME use handles */
if (!meth)
return FALSE;
klass->methods [j++] = meth;
}
if (tb->interfaces) {
klass->interface_count = mono_array_length_internal (tb->interfaces);
klass->interfaces = (MonoClass **)mono_image_alloc (klass->image, sizeof (MonoClass*) * klass->interface_count);
for (i = 0; i < klass->interface_count; ++i) {
MonoType *iface = mono_type_array_get_and_resolve_raw (tb->interfaces, i, error); /* FIXME use handles */
return_val_if_nok (error, FALSE);
klass->interfaces [i] = mono_class_from_mono_type_internal (iface);
if (!ensure_runtime_vtable (klass->interfaces [i], error))
return FALSE;
}
klass->interfaces_inited = 1;
}
} else if (mono_class_is_ginst (klass)){
if (!ensure_generic_class_runtime_vtable (klass, error)) {
mono_class_set_type_load_failure (klass, "Could not initialize vtable for generic class due to: %s", mono_error_get_message (error));
return FALSE;
}
}
if (mono_class_is_interface (klass) && !mono_class_is_ginst (klass)) {
int slot_num = 0;
int mcount = mono_class_get_method_count (klass);
for (i = 0; i < mcount; ++i) {
MonoMethod *im = klass->methods [i];
if (!(im->flags & METHOD_ATTRIBUTE_STATIC))
im->slot = slot_num++;
}
klass->interfaces_packed = NULL; /*make setup_interface_offsets happy*/
mono_class_setup_interface_offsets (klass);
mono_class_setup_interface_id (klass);
}
/*
* The generic vtable is needed even if image->run is not set since some
* runtime code like ves_icall_Type_GetMethodsByName depends on
* method->slot being defined.
*/
/*
* tb->methods could not be freed since it is used for determining
* overrides during dynamic vtable construction.
*/
return TRUE;
}
static MonoMethod*
mono_reflection_method_get_handle (MonoObject *method, MonoError *error)
{
error_init (error);
MonoClass *klass = mono_object_class (method);
if (is_sr_mono_method (klass)) {
MonoReflectionMethod *sr_method = (MonoReflectionMethod*)method;
return sr_method->method;
}
if (is_sre_method_builder (klass)) {
MonoReflectionMethodBuilder *mb = (MonoReflectionMethodBuilder*)method;
return mb->mhandle;
}
if (mono_is_sre_method_on_tb_inst (klass)) {
MonoClass *handle_class;
MonoMethod *result = (MonoMethod*)mono_reflection_resolve_object (NULL, method, &handle_class, NULL, error);
return_val_if_nok (error, NULL);
return result;
}
g_error ("Can't handle methods of type %s:%s", klass->name_space, klass->name);
return NULL;
}
void
mono_reflection_get_dynamic_overrides (MonoClass *klass, MonoMethod ***overrides, int *num_overrides, MonoError *error)
{
MonoReflectionTypeBuilder *tb;
int i, j, onum;
MonoReflectionMethod *m;
error_init (error);
*overrides = NULL;
*num_overrides = 0;
g_assert (image_is_dynamic (klass->image));
if (!mono_class_has_ref_info (klass))
return;
tb = mono_class_get_ref_info_raw (klass); /* FIXME use handles */
g_assert (strcmp (mono_object_class (tb)->name, "TypeBuilder") == 0);
onum = 0;
if (tb->methods) {
for (i = 0; i < tb->num_methods; ++i) {
MonoReflectionMethodBuilder *mb =
mono_array_get_internal (tb->methods, MonoReflectionMethodBuilder*, i);
if (mb->override_methods)
onum += mono_array_length_internal (mb->override_methods);
}
}
if (onum) {
*overrides = g_new0 (MonoMethod*, onum * 2);
onum = 0;
for (i = 0; i < tb->num_methods; ++i) {
MonoReflectionMethodBuilder *mb =
mono_array_get_internal (tb->methods, MonoReflectionMethodBuilder*, i);
if (mb->override_methods) {
for (j = 0; j < mono_array_length_internal (mb->override_methods); ++j) {
m = mono_array_get_internal (mb->override_methods, MonoReflectionMethod*, j);
(*overrides) [onum * 2] = mono_reflection_method_get_handle ((MonoObject*)m, error);
return_if_nok (error);
(*overrides) [onum * 2 + 1] = mb->mhandle;
g_assert (mb->mhandle);
onum ++;
}
}
}
}
*num_overrides = onum;
}
static gint32
modulebuilder_get_next_table_index (MonoReflectionModuleBuilder *mb, gint32 table, gint32 num_fields, MonoError *error)
{
error_init (error);
if (mb->table_indexes == NULL) {
MonoArray *arr = mono_array_new_checked (mono_defaults.int_class, 64, error);
return_val_if_nok (error, 0);
for (int i = 0; i < 64; i++) {
mono_array_set_internal (arr, int, i, 1);
}
MONO_OBJECT_SETREF_INTERNAL (mb, table_indexes, arr);
}
gint32 index = mono_array_get_internal (mb->table_indexes, gint32, table);
gint32 next_index = index + num_fields;
mono_array_set_internal (mb->table_indexes, gint32, table, next_index);
return index;
}
static void
typebuilder_setup_one_field (MonoDynamicImage *dynamic_image, MonoClass *klass, int32_t first_idx, MonoArray *tb_fields, int i, MonoFieldDefaultValue *def_value_out, MonoError *error)
{
HANDLE_FUNCTION_ENTER ();
{
MonoImage *image = klass->image;
MonoReflectionFieldBuilder *fb;
MonoClassField *field;
MonoArray *rva_data;
fb = (MonoReflectionFieldBuilder *)mono_array_get_internal (tb_fields, gpointer, i);
field = &klass->fields [i];
m_field_set_parent (field, klass);
field->name = string_to_utf8_image_raw (image, fb->name, error); /* FIXME use handles */
goto_if_nok (error, leave);
if (fb->attrs) {
MonoType *type = mono_reflection_type_get_handle ((MonoReflectionType*)fb->type, error);
goto_if_nok (error, leave);
field->type = mono_metadata_type_dup (klass->image, type);
field->type->attrs = fb->attrs;
} else {
field->type = mono_reflection_type_get_handle ((MonoReflectionType*)fb->type, error);
goto_if_nok (error, leave);
}
if (klass->enumtype && strcmp (field->name, "value__") == 0) // used by enum classes to store the instance value
field->type->attrs |= FIELD_ATTRIBUTE_RT_SPECIAL_NAME;
if (!mono_type_get_underlying_type (field->type)) {
if (!(klass->enumtype && mono_metadata_type_equal (field->type, m_class_get_byval_arg (klass)))) {
mono_class_set_type_load_failure (klass, "Field '%s' is an enum type with a bad underlying type", field->name);
goto leave;
}
}
if (m_type_is_byref (field->type) && !m_class_is_byreflike (klass)) {
mono_error_set_type_load_name (error, NULL, NULL, "Field '%s' is a byref in a non-byref-like type", field->name);
goto leave;
}
if ((fb->attrs & FIELD_ATTRIBUTE_HAS_FIELD_RVA) && (rva_data = fb->rva_data)) {
char *base = mono_array_addr_internal (rva_data, char, 0);
size_t size = mono_array_length_internal (rva_data);
char *data = (char *)mono_image_alloc (klass->image, size);
memcpy (data, base, size);
def_value_out->data = data;
}
if (fb->offset != -1)
field->offset = fb->offset;
fb->handle = field;
mono_save_custom_attrs (klass->image, field, fb->cattrs);
if (fb->def_value) {
guint32 len, idx;
const char *p, *p2;
MonoDynamicImage *assembly = (MonoDynamicImage*)klass->image;
field->type->attrs |= FIELD_ATTRIBUTE_HAS_DEFAULT;
idx = mono_dynimage_encode_constant (assembly, fb->def_value, &def_value_out->def_type);
/* Copy the data from the blob since it might get realloc-ed */
p = assembly->blob.data + idx;
len = mono_metadata_decode_blob_size (p, &p2);
len += p2 - p;
def_value_out->data = (const char *)mono_image_alloc (image, len);
memcpy ((gpointer)def_value_out->data, p, len);
}
MonoObjectHandle field_builder_handle = MONO_HANDLE_CAST (MonoObject, MONO_HANDLE_NEW (MonoReflectionFieldBuilder, fb));
mono_dynamic_image_register_token (dynamic_image, mono_metadata_make_token (MONO_TABLE_FIELD, first_idx + i), field_builder_handle, MONO_DYN_IMAGE_TOK_NEW);
}
leave:
HANDLE_FUNCTION_RETURN ();
}
/* This initializes the same data as mono_class_setup_fields () */
static void
typebuilder_setup_fields (MonoClass *klass, MonoError *error)
{
MonoReflectionTypeBuilder *tb = mono_class_get_ref_info_raw (klass); /* FIXME use handles */
MonoFieldDefaultValue *def_values;
MonoImage *image = klass->image;
int i, instance_size, packing_size = 0;
error_init (error);
if (klass->parent) {
if (!klass->parent->size_inited)
mono_class_init_internal (klass->parent);
instance_size = klass->parent->instance_size;
} else {
instance_size = MONO_ABI_SIZEOF (MonoObject);
}
int fcount = tb->num_fields;
mono_class_set_field_count (klass, fcount);
gint32 first_idx = 0;
if (tb->num_fields > 0) {
first_idx = modulebuilder_get_next_table_index (tb->module, MONO_TABLE_FIELD, (gint32)tb->num_fields, error);
return_if_nok (error);
}
mono_class_set_first_field_idx (klass, first_idx - 1); /* Why do we subtract 1? because mono_class_create_from_typedef does it, too. */
if (tb->class_size) {
packing_size = tb->packing_size;
instance_size += tb->class_size;
}
klass->fields = image_g_new0 (image, MonoClassField, fcount);
def_values = image_g_new0 (image, MonoFieldDefaultValue, fcount);
mono_class_set_field_def_values (klass, def_values);
/*
This is, guess what, a hack.
The issue is that the runtime doesn't know how to setup the fields of a typebuider and crash.
On the static path no field class is resolved, only types are built. This is the right thing to do
but we suck.
Setting size_inited is harmless because we're doing the same job as mono_class_setup_fields anyway.
*/
klass->size_inited = 1;
for (i = 0; i < fcount; ++i) {
typebuilder_setup_one_field (tb->module->dynamic_image, klass, first_idx, tb->fields, i, &def_values[i], error);
if (!is_ok (error))
return;
}
if (!mono_class_has_failure (klass))
mono_class_layout_fields (klass, instance_size, packing_size, tb->class_size, TRUE);
}
static void
typebuilder_setup_properties (MonoClass *klass, MonoError *error)
{
MonoReflectionTypeBuilder *tb = mono_class_get_ref_info_raw (klass); /* FIXME use handles */
MonoReflectionPropertyBuilder *pb;
MonoImage *image = klass->image;
MonoProperty *properties;
MonoClassPropertyInfo *info;
int i;
error_init (error);
info = (MonoClassPropertyInfo*)mono_class_get_property_info (klass);
if (!info) {
info = mono_class_alloc0 (klass, sizeof (MonoClassPropertyInfo));
mono_class_set_property_info (klass, info);
}
info->count = tb->properties ? mono_array_length_internal (tb->properties) : 0;
info->first = 0;
properties = image_g_new0 (image, MonoProperty, info->count);
info->properties = properties;
for (i = 0; i < info->count; ++i) {
pb = mono_array_get_internal (tb->properties, MonoReflectionPropertyBuilder*, i);
properties [i].parent = klass;
properties [i].attrs = pb->attrs;
properties [i].name = string_to_utf8_image_raw (image, pb->name, error); /* FIXME use handles */
if (!is_ok (error))
return;
if (pb->get_method)
properties [i].get = pb->get_method->mhandle;
if (pb->set_method)
properties [i].set = pb->set_method->mhandle;
mono_save_custom_attrs (klass->image, &properties [i], pb->cattrs);
if (pb->def_value) {
guint32 len, idx;
const char *p, *p2;
MonoDynamicImage *assembly = (MonoDynamicImage*)klass->image;
if (!info->def_values)
info->def_values = image_g_new0 (image, MonoFieldDefaultValue, info->count);
properties [i].attrs |= PROPERTY_ATTRIBUTE_HAS_DEFAULT;
idx = mono_dynimage_encode_constant (assembly, pb->def_value, &info->def_values [i].def_type);
/* Copy the data from the blob since it might get realloc-ed */
p = assembly->blob.data + idx;
len = mono_metadata_decode_blob_size (p, &p2);
len += p2 - p;
info->def_values [i].data = (const char *)mono_image_alloc (image, len);
memcpy ((gpointer)info->def_values [i].data, p, len);
}
}
}
static void
typebuilder_setup_events (MonoClass *klass, MonoError *error)
{
MonoReflectionTypeBuilder *tb = mono_class_get_ref_info_raw (klass); /* FIXME use handles */
MonoReflectionEventBuilder *eb;
MonoImage *image = klass->image;
MonoEvent *events;
MonoClassEventInfo *info;
int i;
error_init (error);
info = mono_class_alloc0 (klass, sizeof (MonoClassEventInfo));
mono_class_set_event_info (klass, info);
info->count = tb->events ? mono_array_length_internal (tb->events) : 0;
info->first = 0;
events = image_g_new0 (image, MonoEvent, info->count);
info->events = events;
for (i = 0; i < info->count; ++i) {
eb = mono_array_get_internal (tb->events, MonoReflectionEventBuilder*, i);
events [i].parent = klass;
events [i].attrs = eb->attrs;
events [i].name = string_to_utf8_image_raw (image, eb->name, error); /* FIXME use handles */
if (!is_ok (error))
return;
if (eb->add_method)
events [i].add = eb->add_method->mhandle;
if (eb->remove_method)
events [i].remove = eb->remove_method->mhandle;
if (eb->raise_method)
events [i].raise = eb->raise_method->mhandle;
#ifndef MONO_SMALL_CONFIG
if (eb->other_methods) {
int j;
events [i].other = image_g_new0 (image, MonoMethod*, mono_array_length_internal (eb->other_methods) + 1);
for (j = 0; j < mono_array_length_internal (eb->other_methods); ++j) {
MonoReflectionMethodBuilder *mb =
mono_array_get_internal (eb->other_methods,
MonoReflectionMethodBuilder*, j);
events [i].other [j] = mb->mhandle;
}
}
#endif
mono_save_custom_attrs (klass->image, &events [i], eb->cattrs);
}
}
struct remove_instantiations_user_data
{
MonoClass *klass;
MonoError *error;
};
static gboolean
remove_instantiations_of_and_ensure_contents (gpointer key,
gpointer value,
gpointer user_data)
{
struct remove_instantiations_user_data *data = (struct remove_instantiations_user_data*)user_data;
MonoType *type = (MonoType*)key;
MonoClass *klass = data->klass;
gboolean already_failed = !is_ok (data->error);
ERROR_DECL (lerror);
MonoError *error = already_failed ? lerror : data->error;
if ((type->type == MONO_TYPE_GENERICINST) && (type->data.generic_class->container_class == klass)) {
MonoClass *inst_klass = mono_class_from_mono_type_internal (type);
//Ensure it's safe to use it.
if (!fix_partial_generic_class (inst_klass, error)) {
mono_class_set_type_load_failure (inst_klass, "Could not initialized generic type instance due to: %s", mono_error_get_message (error));
// Marked the class with failure, but since some other instantiation already failed,
// just report that one, and swallow the error from this one.
if (already_failed)
mono_error_cleanup (error);
}
return TRUE;
} else
return FALSE;
}
/**
* reflection_setup_internal_class:
* @tb: a TypeBuilder object
* @error: set on error
*
* Creates a MonoClass that represents the TypeBuilder.
* This is a trick that lets us simplify a lot of reflection code
* (and will allow us to support Build and Run assemblies easier).
*
* Returns TRUE on success. On failure, returns FALSE and sets @error.
*/
static gboolean
reflection_setup_internal_class (MonoReflectionTypeBuilderHandle ref_tb, MonoError *error)
{
HANDLE_FUNCTION_ENTER ();
MonoReflectionModuleBuilderHandle module_ref = MONO_HANDLE_NEW_GET (MonoReflectionModuleBuilder, ref_tb, module);
GHashTable *unparented_classes = MONO_HANDLE_GETVAL(module_ref, unparented_classes);
gboolean ret_val;
if (unparented_classes) {
ret_val = reflection_setup_internal_class_internal (ref_tb, error);
} else {
// If we're not being called recursively
unparented_classes = g_hash_table_new (NULL, NULL);
MONO_HANDLE_SETVAL (module_ref, unparented_classes, GHashTable *, unparented_classes);
ret_val = reflection_setup_internal_class_internal (ref_tb, error);
mono_error_assert_ok (error);
// Fix the relationship between the created classes and their parents
reflection_setup_class_hierarchy (unparented_classes, error);
mono_error_assert_ok (error);
g_hash_table_destroy (unparented_classes);
MONO_HANDLE_SETVAL (module_ref, unparented_classes, GHashTable *, NULL);
}
HANDLE_FUNCTION_RETURN_VAL (ret_val);
}
MonoReflectionTypeHandle
ves_icall_TypeBuilder_create_runtime_class (MonoReflectionTypeBuilderHandle ref_tb, MonoError *error)
{
error_init (error);
reflection_setup_internal_class (ref_tb, error);
mono_error_assert_ok (error);
MonoType *type = MONO_HANDLE_GETVAL (MONO_HANDLE_CAST (MonoReflectionType, ref_tb), type);
MonoClass *klass = mono_class_from_mono_type_internal (type);
MonoArrayHandle cattrs = MONO_HANDLE_NEW_GET (MonoArray, ref_tb, cattrs);
mono_save_custom_attrs (klass->image, klass, MONO_HANDLE_RAW (cattrs)); /* FIXME use handles */
mono_loader_lock ();
if (klass->wastypebuilder) {
mono_loader_unlock ();
return mono_type_get_object_handle (m_class_get_byval_arg (klass), error);
}
/*
* Fields to set in klass:
* the various flags: delegate/unicode/contextbound etc.
*/
mono_class_set_flags (klass, MONO_HANDLE_GETVAL (ref_tb, attrs));
klass->has_cctor = 1;
mono_class_setup_parent (klass, klass->parent);
/* fool mono_class_setup_supertypes */
klass->supertypes = NULL;
mono_class_setup_supertypes (klass);
mono_class_setup_mono_type (klass);
/* Check if the type is marked as byreflike.
* The IsByRefLike attribute only applies to value types and enums. This matches CoreCLR behavior.
*/
if (klass->enumtype || klass->valuetype)
klass->is_byreflike = MONO_HANDLE_GETVAL (MONO_HANDLE_CAST (MonoReflectionTypeBuilder, ref_tb), is_byreflike_set) != 0;
/* enums are done right away */
if (!klass->enumtype)
if (!ensure_runtime_vtable (klass, error))
goto failure;
MonoArrayHandle nested_types;
nested_types = MONO_HANDLE_NEW_GET (MonoArray, ref_tb, subtypes);
if (!MONO_HANDLE_IS_NULL (nested_types)) {
GList *nested = NULL;
int num_nested = mono_array_handle_length (nested_types);
MonoReflectionTypeHandle nested_tb = MONO_HANDLE_NEW (MonoReflectionType, NULL);
for (int i = 0; i < num_nested; ++i) {
MONO_HANDLE_ARRAY_GETREF (nested_tb, nested_types, i);
if (MONO_HANDLE_GETVAL (nested_tb, type) == NULL) {
reflection_setup_internal_class (MONO_HANDLE_CAST (MonoReflectionTypeBuilder, nested_tb), error);
mono_error_assert_ok (error);
}
MonoType *subtype = mono_reflection_type_handle_mono_type (nested_tb, error);
goto_if_nok (error, failure);
nested = mono_g_list_prepend_image (klass->image, nested, mono_class_from_mono_type_internal (subtype));
}
mono_class_set_nested_classes_property (klass, nested);
}
klass->nested_classes_inited = TRUE;
typebuilder_setup_fields (klass, error);
goto_if_nok (error, failure);
typebuilder_setup_properties (klass, error);
goto_if_nok (error, failure);
typebuilder_setup_events (klass, error);
goto_if_nok (error, failure);
klass->wastypebuilder = TRUE;
MonoArrayHandle generic_params;
generic_params = MONO_HANDLE_NEW_GET (MonoArray, ref_tb, generic_params);
if (!MONO_HANDLE_IS_NULL (generic_params)) {
int num_params = mono_array_handle_length (generic_params);
MonoReflectionTypeHandle ref_gparam = MONO_HANDLE_NEW (MonoReflectionType, NULL);
for (int i = 0; i < num_params; i++) {
MONO_HANDLE_ARRAY_GETREF (ref_gparam, generic_params, i);
MonoType *param_type = mono_reflection_type_handle_mono_type (ref_gparam, error);
goto_if_nok (error, failure);
MonoClass *gklass = mono_class_from_mono_type_internal (param_type);
gklass->wastypebuilder = TRUE;
}
}
/*
* If we are a generic TypeBuilder, there might be instantiations in the type cache
* which have type System.Reflection.MonoGenericClass, but after the type is created,
* we want to return normal System.MonoType objects, so clear these out from the cache.
*
* Together with this we must ensure the contents of all instances to match the created type.
*/
if (mono_class_is_gtd (klass)) {
MonoMemoryManager *memory_manager = mono_mem_manager_get_ambient ();
struct remove_instantiations_user_data data;
data.klass = klass;
data.error = error;
mono_error_assert_ok (error);
mono_mem_manager_lock (memory_manager);
mono_g_hash_table_foreach_remove (memory_manager->type_hash, remove_instantiations_of_and_ensure_contents, &data);
mono_mem_manager_unlock (memory_manager);
goto_if_nok (error, failure);
}
mono_loader_unlock ();
if (klass->enumtype && !mono_class_is_valid_enum (klass)) {
mono_class_set_type_load_failure (klass, "Not a valid enumeration");
mono_error_set_type_load_class (error, klass, "Not a valid enumeration");
goto failure_unlocked;
}
MonoReflectionTypeHandle res;
res = mono_type_get_object_handle (m_class_get_byval_arg (klass), error);
goto_if_nok (error, failure_unlocked);
return res;
failure:
mono_class_set_type_load_failure (klass, "TypeBuilder could not create runtime class due to: %s", mono_error_get_message (error));
klass->wastypebuilder = TRUE;
mono_loader_unlock ();
failure_unlocked:
return MONO_HANDLE_CAST (MonoReflectionType, NULL_HANDLE);
}
typedef struct {
MonoMethod *handle;
} DynamicMethodReleaseData;
/*
* The runtime automatically clean up those after finalization.
*/
static MonoReferenceQueue *dynamic_method_queue;
static void
free_dynamic_method (void *dynamic_method)
{
DynamicMethodReleaseData *data = (DynamicMethodReleaseData *)dynamic_method;
MonoMethod *method = data->handle;
MonoGCHandle dis_link;
dyn_methods_lock ();
dis_link = g_hash_table_lookup (method_to_dyn_method, method);
g_hash_table_remove (method_to_dyn_method, method);
dyn_methods_unlock ();
g_assert (dis_link);
mono_gchandle_free_internal (dis_link);
mono_runtime_free_method (method);
g_free (data);
}
static gboolean
reflection_create_dynamic_method (MonoReflectionDynamicMethodHandle ref_mb, MonoError *error)
{
/* We need to clear handles for rmb fields created in reflection_methodbuilder_from_dynamic_method */
HANDLE_FUNCTION_ENTER ();
MonoReferenceQueue *queue;
MonoMethod *handle;
DynamicMethodReleaseData *release_data;
ReflectionMethodBuilder rmb;
MonoMethodSignature *sig;
MonoClass *klass;
GSList *l;
int i;
gboolean ret = TRUE;
MonoReflectionDynamicMethod *mb;
MonoAssembly *ass = NULL;
error_init (error);
if (!(queue = dynamic_method_queue)) {
mono_loader_lock ();
if (!(queue = dynamic_method_queue))
queue = dynamic_method_queue = mono_gc_reference_queue_new_internal (free_dynamic_method);
mono_loader_unlock ();
}
sig = dynamic_method_to_signature (ref_mb, error);
goto_if_nok (error, exit_false);
mb = MONO_HANDLE_RAW (ref_mb); /* FIXME convert reflection_create_dynamic_method to use handles */
reflection_methodbuilder_from_dynamic_method (&rmb, mb);
/*
* Resolve references.
*/
/*
* Every second entry in the refs array is reserved for storing handle_class,
* which is needed by the ldtoken implementation in the JIT.
*/
rmb.nrefs = mb->nrefs;
rmb.refs = g_new0 (gpointer, mb->nrefs + 1);
for (i = 0; i < mb->nrefs; i += 2) {
MonoClass *handle_class;
gpointer ref;
MonoObject *obj = mono_array_get_internal (mb->refs, MonoObject*, i);
MONO_HANDLE_PIN (obj);
if (strcmp (obj->vtable->klass->name, "DynamicMethod") == 0) {
MonoReflectionDynamicMethod *method = (MonoReflectionDynamicMethod*)obj;
/*
* The referenced DynamicMethod should already be created by the managed
* code, except in the case of circular references. In that case, we store
* method in the refs array, and fix it up later when the referenced
* DynamicMethod is created.
*/
if (method->mhandle) {
ref = method->mhandle;
} else {
ref = method;
method->referenced_by = g_slist_append (method->referenced_by, mb);
}
handle_class = mono_defaults.methodhandle_class;
} else {
MonoException *ex = NULL;
ref = mono_reflection_resolve_object (mb->module->image, obj, &handle_class, NULL, error);
/* ref should not be a reference. Otherwise we would need a handle for it */
if (!is_ok (error)) {
g_free (rmb.refs);
goto exit_false;
}
if (!ref)
ex = mono_get_exception_type_load (NULL, NULL);
if (ex) {
g_free (rmb.refs);
mono_error_set_exception_instance (error, ex);
goto exit_false;
}
}
rmb.refs [i] = ref;
rmb.refs [i + 1] = handle_class;
}
if (mb->owner) {
MonoType *owner_type = mono_reflection_type_get_handle ((MonoReflectionType*)mb->owner, error);
if (!is_ok (error)) {
g_free (rmb.refs);
goto exit_false;
}
klass = mono_class_from_mono_type_internal (owner_type);
ass = klass->image->assembly;
} else {
klass = mono_defaults.object_class;
ass = (mb->module && mb->module->image) ? mb->module->image->assembly : NULL;
}
mb->mhandle = handle = reflection_methodbuilder_to_mono_method (klass, &rmb, sig, error);
((MonoDynamicMethod*)handle)->assembly = ass;
g_free (rmb.refs);
goto_if_nok (error, exit_false);
release_data = g_new (DynamicMethodReleaseData, 1);
release_data->handle = handle;
if (!mono_gc_reference_queue_add_internal (queue, (MonoObject*)mb, release_data))
g_free (release_data);
/* Fix up refs entries pointing at us */
for (l = mb->referenced_by; l; l = l->next) {
MonoReflectionDynamicMethod *method = (MonoReflectionDynamicMethod*)l->data;
MonoMethodWrapper *wrapper = (MonoMethodWrapper*)method->mhandle;
gpointer *data;
g_assert (method->mhandle);
data = (gpointer*)wrapper->method_data;
for (i = 0; i < GPOINTER_TO_UINT (data [0]); i += 2) {
if ((data [i + 1] == mb) && (data [i + 1 + 1] == mono_defaults.methodhandle_class))
data [i + 1] = mb->mhandle;
}
}
g_slist_free (mb->referenced_by);
dyn_methods_lock ();
if (!method_to_dyn_method)
method_to_dyn_method = g_hash_table_new (NULL, NULL);
g_hash_table_insert (method_to_dyn_method, handle, mono_gchandle_new_weakref_internal ((MonoObject *)mb, TRUE));
dyn_methods_unlock ();
goto exit;
exit_false:
ret = FALSE;
exit:
HANDLE_FUNCTION_RETURN_VAL (ret);
}
void
ves_icall_DynamicMethod_create_dynamic_method (MonoReflectionDynamicMethodHandle mb, MonoError *error)
{
(void) reflection_create_dynamic_method (mb, error);
}
#endif /* DISABLE_REFLECTION_EMIT */
MonoMethodSignature *
mono_reflection_lookup_signature (MonoImage *image, MonoMethod *method, guint32 token, MonoError *error)
{
MonoMethodSignature *sig;
g_assert (image_is_dynamic (image));
error_init (error);
sig = (MonoMethodSignature *)g_hash_table_lookup (((MonoDynamicImage*)image)->vararg_aux_hash, GUINT_TO_POINTER (token));
if (sig)
return sig;
return mono_method_signature_checked (method, error);
}
#ifndef DISABLE_REFLECTION_EMIT
/*
* ensure_complete_type:
*
* Ensure that KLASS is completed if it is a dynamic type, or references
* dynamic types.
*/
static void
ensure_complete_type (MonoClass *klass, MonoError *error)
{
HANDLE_FUNCTION_ENTER ();
error_init (error);
if (image_is_dynamic (klass->image) && !klass->wastypebuilder && mono_class_has_ref_info (klass)) {
// TODO: make this work on netcore when working on SRE.TypeBuilder
g_assert_not_reached ();
}
if (mono_class_is_ginst (klass)) {
MonoGenericInst *inst = mono_class_get_generic_class (klass)->context.class_inst;
int i;
for (i = 0; i < inst->type_argc; ++i) {
ensure_complete_type (mono_class_from_mono_type_internal (inst->type_argv [i]), error);
goto_if_nok (error, exit);
}
}
exit:
HANDLE_FUNCTION_RETURN ();
}
gpointer
mono_reflection_resolve_object (MonoImage *image, MonoObject *obj, MonoClass **handle_class, MonoGenericContext *context, MonoError *error)
{
HANDLE_FUNCTION_ENTER ();
MonoClass *oklass = obj->vtable->klass;
gpointer result = NULL;
error_init (error);
if (strcmp (oklass->name, "String") == 0) {
result = MONO_HANDLE_RAW (mono_string_intern_checked (MONO_HANDLE_NEW (MonoString, (MonoString*)obj), error));
goto_if_nok (error, return_null);
*handle_class = mono_defaults.string_class;
g_assert (result);
} else if (strcmp (oklass->name, "RuntimeType") == 0) {
MonoType *type = mono_reflection_type_get_handle ((MonoReflectionType*)obj, error);
goto_if_nok (error, return_null);
MonoClass *mc = mono_class_from_mono_type_internal (type);
if (!mono_class_init_internal (mc)) {
mono_error_set_for_class_failure (error, mc);
goto return_null;
}
if (context) {
MonoType *inflated = mono_class_inflate_generic_type_checked (type, context, error);
goto_if_nok (error, return_null);
result = mono_class_from_mono_type_internal (inflated);
mono_metadata_free_type (inflated);
} else {
result = mono_class_from_mono_type_internal (type);
}
*handle_class = mono_defaults.typehandle_class;
g_assert (result);
} else if (strcmp (oklass->name, "RuntimeMethodInfo") == 0 ||
strcmp (oklass->name, "RuntimeConstructorInfo") == 0) {
result = ((MonoReflectionMethod*)obj)->method;
if (context) {
result = mono_class_inflate_generic_method_checked ((MonoMethod *)result, context, error);
mono_error_assert_ok (error);
}
*handle_class = mono_defaults.methodhandle_class;
g_assert (result);
} else if (strcmp (oklass->name, "RuntimeFieldInfo") == 0) {
MonoClassField *field = ((MonoReflectionField*)obj)->field;
ensure_complete_type (m_field_get_parent (field), error);
goto_if_nok (error, return_null);
if (context) {
MonoType *inflated = mono_class_inflate_generic_type_checked (m_class_get_byval_arg (m_field_get_parent (field)), context, error);
goto_if_nok (error, return_null);
MonoClass *klass;
klass = mono_class_from_mono_type_internal (inflated);
MonoClassField *inflated_field;
gpointer iter = NULL;
mono_metadata_free_type (inflated);
while ((inflated_field = mono_class_get_fields_internal (klass, &iter))) {
if (!strcmp (field->name, inflated_field->name))
break;
}
g_assert (inflated_field && !strcmp (field->name, inflated_field->name));
result = inflated_field;
} else {
result = field;
}
*handle_class = mono_defaults.fieldhandle_class;
g_assert (result);
} else if (strcmp (oklass->name, "TypeBuilder") == 0) {
MonoReflectionTypeBuilderHandle tb = MONO_HANDLE_NEW (MonoReflectionTypeBuilder, (MonoReflectionTypeBuilder*)obj);
MonoType *type = mono_reflection_type_get_handle (&MONO_HANDLE_RAW (tb)->type, error);
goto_if_nok (error, return_null);
MonoClass *klass;
klass = type->data.klass;
if (klass->wastypebuilder) {
/* Already created */
result = klass;
} else {
// TODO: make this work on netcore when working on SRE.TypeBuilder
g_assert_not_reached();
}
*handle_class = mono_defaults.typehandle_class;
} else if (strcmp (oklass->name, "SignatureHelper") == 0) {
MonoReflectionSigHelper *helper = (MonoReflectionSigHelper*)obj;
MonoMethodSignature *sig;
int nargs, i;
if (helper->arguments)
nargs = mono_array_length_internal (helper->arguments);
else
nargs = 0;
sig = mono_metadata_signature_alloc (image, nargs);
sig->explicit_this = helper->call_conv & 64 ? 1 : 0;
sig->hasthis = helper->call_conv & 32 ? 1 : 0;
if (helper->unmanaged_call_conv) { /* unmanaged */
sig->call_convention = helper->unmanaged_call_conv - 1;
sig->pinvoke = TRUE;
} else if (helper->call_conv & 0x02) {
sig->call_convention = MONO_CALL_VARARG;
} else {
sig->call_convention = MONO_CALL_DEFAULT;
}
sig->param_count = nargs;
/* TODO: Copy type ? */
sig->ret = helper->return_type->type;
for (i = 0; i < nargs; ++i) {
sig->params [i] = mono_type_array_get_and_resolve_raw (helper->arguments, i, error); /* FIXME use handles */
if (!is_ok (error)) {
image_g_free (image, sig);
goto return_null;
}
}
result = sig;
*handle_class = NULL;
} else if (strcmp (oklass->name, "DynamicMethod") == 0) {
MonoReflectionDynamicMethod *method = (MonoReflectionDynamicMethod*)obj;
/* Already created by the managed code */
g_assert (method->mhandle);
result = method->mhandle;
*handle_class = mono_defaults.methodhandle_class;
} else if (strcmp (oklass->name, "MonoArrayMethod") == 0) {
MonoReflectionArrayMethod *m = (MonoReflectionArrayMethod*)obj;
MonoType *mtype;
MonoClass *klass;
MonoMethod *method;
gpointer iter;
char *name;
mtype = mono_reflection_type_get_handle (m->parent, error);
goto_if_nok (error, return_null);
klass = mono_class_from_mono_type_internal (mtype);
/* Find the method */
name = mono_string_to_utf8_checked_internal (m->name, error);
goto_if_nok (error, return_null);
iter = NULL;
while ((method = mono_class_get_methods (klass, &iter))) {
if (!strcmp (method->name, name))
break;
}
g_free (name);
// FIXME:
g_assert (method);
// FIXME: Check parameters/return value etc. match
result = method;
*handle_class = mono_defaults.methodhandle_class;
} else if (is_sre_method_builder (oklass) ||
mono_is_sre_ctor_builder (oklass) ||
is_sre_field_builder (oklass) ||
is_sre_gparam_builder (oklass) ||
is_sre_generic_instance (oklass) ||
is_sre_array (oklass) ||
is_sre_byref (oklass) ||
is_sre_pointer (oklass) ||
!strcmp (oklass->name, "FieldOnTypeBuilderInst") ||
!strcmp (oklass->name, "MethodOnTypeBuilderInst") ||
!strcmp (oklass->name, "ConstructorOnTypeBuilderInst")) {
static MonoMethod *resolve_method;
if (!resolve_method) {
MonoMethod *m = mono_class_get_method_from_name_checked (mono_class_get_module_builder_class (), "RuntimeResolve", 1, 0, error);
mono_error_assert_ok (error);
g_assert (m);
mono_memory_barrier ();
resolve_method = m;
}
void *args [ ] = { obj };
obj = mono_runtime_invoke_checked (resolve_method, NULL, args, error);
goto_if_nok (error, return_null);
g_assert (obj);
result = mono_reflection_resolve_object (image, obj, handle_class, context, error);
goto exit;
} else {
g_print ("%s\n", obj->vtable->klass->name);
g_assert_not_reached ();
}
goto exit;
return_null:
result = NULL;
goto exit;
exit:
HANDLE_FUNCTION_RETURN_VAL (result);
}
gpointer
mono_reflection_resolve_object_handle (MonoImage *image, MonoObjectHandle obj, MonoClass **handle_class, MonoGenericContext *context, MonoError *error)
{
return mono_reflection_resolve_object (image, MONO_HANDLE_RAW (obj), handle_class, context, error);
}
#else /* DISABLE_REFLECTION_EMIT */
MonoArray*
mono_reflection_get_custom_attrs_blob (MonoReflectionAssembly *assembly, MonoObject *ctor, MonoArray *ctorArgs, MonoArray *properties, MonoArray *propValues, MonoArray *fields, MonoArray* fieldValues)
{
g_assert_not_reached ();
return NULL;
}
void
mono_reflection_dynimage_basic_init (MonoReflectionAssemblyBuilder *assemblyb, MonoError *error)
{
g_error ("This mono runtime was configured with --enable-minimal=reflection_emit, so System.Reflection.Emit is not supported.");
}
static gboolean
mono_image_module_basic_init (MonoReflectionModuleBuilderHandle moduleb, MonoError *error)
{
g_assert_not_reached ();
return FALSE;
}
guint32
mono_image_insert_string (MonoReflectionModuleBuilderHandle module, MonoStringHandle str, MonoError *error)
{
g_assert_not_reached ();
return 0;
}
guint32
mono_image_create_method_token (MonoDynamicImage *assembly, MonoObjectHandle obj, MonoArrayHandle opt_param_types, MonoError *error)
{
g_assert_not_reached ();
return 0;
}
guint32
mono_image_create_token (MonoDynamicImage *assembly, MonoObjectHandle obj,
gboolean create_open_instance, gboolean register_token, MonoError *error)
{
g_assert_not_reached ();
return 0;
}
void
mono_reflection_get_dynamic_overrides (MonoClass *klass, MonoMethod ***overrides, int *num_overrides, MonoError *error)
{
error_init (error);
*overrides = NULL;
*num_overrides = 0;
}
MonoReflectionTypeHandle
ves_icall_TypeBuilder_create_runtime_class (MonoReflectionTypeBuilderHandle tb, MonoError *error)
{
g_assert_not_reached ();
return MONO_HANDLE_CAST (MonoReflectionType, NULL_HANDLE);
}
void
ves_icall_DynamicMethod_create_dynamic_method (MonoReflectionDynamicMethodHandle mb, MonoError *error)
{
error_init (error);
}
MonoType*
mono_reflection_type_get_handle (MonoReflectionType* ref, MonoError *error)
{
error_init (error);
if (!ref)
return NULL;
return ref->type;
}
MonoType*
mono_reflection_type_handle_mono_type (MonoReflectionTypeHandle ref, MonoError *error)
{
error_init (error);
if (MONO_HANDLE_IS_NULL (ref))
return NULL;
return MONO_HANDLE_GETVAL (ref, type);
}
#endif /* DISABLE_REFLECTION_EMIT */
gint32
ves_icall_ModuleBuilder_getToken (MonoReflectionModuleBuilderHandle mb, MonoObjectHandle obj, MonoBoolean create_open_instance, MonoError *error)
{
if (MONO_HANDLE_IS_NULL (obj)) {
mono_error_set_argument_null (error, "obj", "");
return 0;
}
return mono_image_create_token (MONO_HANDLE_GETVAL (mb, dynamic_image), obj, create_open_instance, TRUE, error);
}
gint32
ves_icall_ModuleBuilder_getMethodToken (MonoReflectionModuleBuilderHandle mb,
MonoReflectionMethodHandle method,
MonoArrayHandle opt_param_types,
MonoError *error)
{
if (MONO_HANDLE_IS_NULL (method)) {
mono_error_set_argument_null (error, "method", "");
return 0;
}
return mono_image_create_method_token (MONO_HANDLE_GETVAL (mb, dynamic_image), MONO_HANDLE_CAST (MonoObject, method), opt_param_types, error);
}
void
ves_icall_ModuleBuilder_RegisterToken (MonoReflectionModuleBuilderHandle mb, MonoObjectHandle obj, guint32 token, MonoError *error)
{
/* This function may be called by ModuleBuilder.FixupTokens to update
* an existing token, so replace is okay here. */
mono_dynamic_image_register_token (MONO_HANDLE_GETVAL (mb, dynamic_image), token, obj, MONO_DYN_IMAGE_TOK_REPLACE);
}
MonoObjectHandle
ves_icall_ModuleBuilder_GetRegisteredToken (MonoReflectionModuleBuilderHandle mb, guint32 token, MonoError *error)
{
MonoDynamicImage *dynamic_image = MONO_HANDLE_GETVAL (mb, dynamic_image);
return mono_dynamic_image_get_registered_token (dynamic_image, token, error);
}
#ifndef DISABLE_REFLECTION_EMIT
MonoArrayHandle
ves_icall_CustomAttributeBuilder_GetBlob (MonoReflectionAssemblyHandle assembly, MonoObjectHandle ctor,
MonoArrayHandle ctorArgs, MonoArrayHandle properties,
MonoArrayHandle propValues, MonoArrayHandle fields,
MonoArrayHandle fieldValues, MonoError* error)
{
return mono_reflection_get_custom_attrs_blob_checked (MONO_HANDLE_RAW (assembly), MONO_HANDLE_RAW (ctor),
MONO_HANDLE_RAW (ctorArgs), MONO_HANDLE_RAW (properties),
MONO_HANDLE_RAW (propValues), MONO_HANDLE_RAW (fields),
MONO_HANDLE_RAW (fieldValues), error);
}
#endif
void
ves_icall_AssemblyBuilder_basic_init (MonoReflectionAssemblyBuilderHandle assemblyb, MonoError *error)
{
MonoGCHandle gchandle = mono_gchandle_from_handle (MONO_HANDLE_CAST (MonoObject, assemblyb), TRUE);
mono_reflection_dynimage_basic_init (MONO_HANDLE_RAW (assemblyb), error);
mono_gchandle_free_internal (gchandle);
}
void
ves_icall_AssemblyBuilder_UpdateNativeCustomAttributes (MonoReflectionAssemblyBuilderHandle assemblyb, MonoError *error)
{
MonoArrayHandle cattrs = MONO_HANDLE_NEW_GET (MonoArray, assemblyb, cattrs);
MonoReflectionAssemblyHandle assembly_handle = MONO_HANDLE_CAST (MonoReflectionAssembly, assemblyb);
MonoAssembly *assembly = MONO_HANDLE_GETVAL (assembly_handle, assembly);
g_assert (assembly);
mono_save_custom_attrs (assembly->image, assembly, MONO_HANDLE_RAW (cattrs));
}
void
ves_icall_EnumBuilder_setup_enum_type (MonoReflectionTypeHandle enumtype,
MonoReflectionTypeHandle t,
MonoError *error)
{
MONO_HANDLE_SETVAL (enumtype, type, MonoType*, MONO_HANDLE_GETVAL (t, type));
}
void
ves_icall_ModuleBuilder_basic_init (MonoReflectionModuleBuilderHandle moduleb, MonoError *error)
{
mono_image_module_basic_init (moduleb, error);
}
guint32
ves_icall_ModuleBuilder_getUSIndex (MonoReflectionModuleBuilderHandle module, MonoStringHandle str, MonoError *error)
{
return mono_image_insert_string (module, str, error);
}
void
ves_icall_ModuleBuilder_set_wrappers_type (MonoReflectionModuleBuilderHandle moduleb, MonoReflectionTypeHandle ref_type, MonoError *error)
{
MonoDynamicImage *image = MONO_HANDLE_GETVAL (moduleb, dynamic_image);
MonoType *type = MONO_HANDLE_GETVAL (ref_type, type);
g_assert (type);
image->wrappers_type = mono_class_from_mono_type_internal (type);
}
MonoGCHandle
mono_method_to_dyn_method (MonoMethod *method)
{
MonoGCHandle *handle;
if (!method_to_dyn_method)
return (MonoGCHandle)NULL;
dyn_methods_lock ();
handle = (MonoGCHandle*)g_hash_table_lookup (method_to_dyn_method, method);
dyn_methods_unlock ();
return handle;
}
|
/**
* \file
* Routines for creating an image at runtime
* and related System.Reflection.Emit icalls
*
*
* Author:
* Paolo Molaro ([email protected])
*
* Copyright 2001-2003 Ximian, Inc (http://www.ximian.com)
* Copyright 2004-2009 Novell, Inc (http://www.novell.com)
* Copyright 2011 Rodrigo Kumpera
* Copyright 2016 Microsoft
*
* Licensed under the MIT license. See LICENSE file in the project root for full license information.
*/
#include <config.h>
#include <glib.h>
#include "mono/metadata/assembly.h"
#include "mono/metadata/assembly-internals.h"
#include "mono/metadata/class-init.h"
#include "mono/metadata/debug-helpers.h"
#include "mono/metadata/dynamic-image-internals.h"
#include "mono/metadata/dynamic-stream-internals.h"
#include "mono/metadata/exception.h"
#include "mono/metadata/gc-internals.h"
#include "mono/metadata/mono-ptr-array.h"
#include "mono/metadata/object-internals.h"
#include "mono/metadata/profiler-private.h"
#include "mono/metadata/reflection-internals.h"
#include "mono/metadata/reflection-cache.h"
#include "mono/metadata/sre-internals.h"
#include "mono/metadata/custom-attrs-internals.h"
#include "mono/metadata/tabledefs.h"
#include "mono/metadata/tokentype.h"
#include "mono/metadata/abi-details.h"
#include "mono/utils/checked-build.h"
#include "mono/utils/mono-digest.h"
#include "mono/utils/w32api.h"
#ifdef MONO_CLASS_DEF_PRIVATE
/* Rationale: Some of the code here does MonoClass construction.
* FIXME: Move SRE class construction to class-init.c and unify with ordinary class construction.
*/
#define REALLY_INCLUDE_CLASS_DEF 1
#include <mono/metadata/class-private-definition.h>
#undef REALLY_INCLUDE_CLASS_DEF
#endif
#include "icall-decl.h"
/* Maps MonoMethod* to weak links to DynamicMethod objects */
static GHashTable *method_to_dyn_method;
static mono_mutex_t method_to_dyn_method_lock;
static inline void
dyn_methods_lock (void)
{
mono_os_mutex_lock (&method_to_dyn_method_lock);
}
static inline void
dyn_methods_unlock (void)
{
mono_os_mutex_unlock (&method_to_dyn_method_lock);
}
static GENERATE_GET_CLASS_WITH_CACHE (marshal_as_attribute, "System.Runtime.InteropServices", "MarshalAsAttribute");
#ifndef DISABLE_REFLECTION_EMIT
static GENERATE_GET_CLASS_WITH_CACHE (module_builder, "System.Reflection.Emit", "ModuleBuilder");
#endif
static char* string_to_utf8_image_raw (MonoImage *image, MonoString *s, MonoError *error);
#ifndef DISABLE_REFLECTION_EMIT
static guint32 mono_image_get_sighelper_token (MonoDynamicImage *assembly, MonoReflectionSigHelperHandle helper, MonoError *error);
static gboolean ensure_runtime_vtable (MonoClass *klass, MonoError *error);
static void reflection_methodbuilder_from_dynamic_method (ReflectionMethodBuilder *rmb, MonoReflectionDynamicMethod *mb);
static gboolean reflection_setup_internal_class (MonoReflectionTypeBuilderHandle tb, MonoError *error);
static gboolean reflection_init_generic_class (MonoReflectionTypeBuilderHandle tb, MonoError *error);
static gboolean reflection_setup_class_hierarchy (GHashTable *unparented, MonoError *error);
#endif
static char* type_get_qualified_name (MonoType *type, MonoAssembly *ass);
static MonoReflectionTypeHandle mono_reflection_type_get_underlying_system_type (MonoReflectionTypeHandle t, MonoError *error);
static gboolean is_sre_array (MonoClass *klass);
static gboolean is_sre_byref (MonoClass *klass);
static gboolean is_sre_pointer (MonoClass *klass);
static gboolean is_sre_generic_instance (MonoClass *klass);
static gboolean is_sre_type_builder (MonoClass *klass);
static gboolean is_sre_method_builder (MonoClass *klass);
static gboolean is_sre_field_builder (MonoClass *klass);
static gboolean is_sre_gparam_builder (MonoClass *klass);
static gboolean is_sre_enum_builder (MonoClass *klass);
static gboolean is_sr_mono_method (MonoClass *klass);
static guint32 mono_image_get_methodspec_token (MonoDynamicImage *assembly, MonoMethod *method);
static guint32 mono_image_get_inflated_method_token (MonoDynamicImage *assembly, MonoMethod *m);
static guint32 mono_image_create_method_token (MonoDynamicImage *assembly, MonoObjectHandle obj, MonoArrayHandle opt_param_types, MonoError *error);
#ifndef DISABLE_REFLECTION_EMIT
static MonoType* mono_type_array_get_and_resolve_raw (MonoArray* array, int idx, MonoError* error);
#endif
static gboolean mono_image_module_basic_init (MonoReflectionModuleBuilderHandle module, MonoError *error);
void
mono_reflection_emit_init (void)
{
mono_dynamic_images_init ();
mono_os_mutex_init_recursive (&method_to_dyn_method_lock);
}
char*
string_to_utf8_image_raw (MonoImage *image, MonoString *s_raw, MonoError *error)
{
/* FIXME all callers to string_to_utf8_image_raw should use handles */
HANDLE_FUNCTION_ENTER ();
error_init (error);
MONO_HANDLE_DCL (MonoString, s);
char* const result = mono_string_to_utf8_image (image, s, error);
HANDLE_FUNCTION_RETURN_VAL (result);
}
static char*
type_get_fully_qualified_name (MonoType *type)
{
MONO_REQ_GC_NEUTRAL_MODE;
return mono_type_get_name_full (type, MONO_TYPE_NAME_FORMAT_ASSEMBLY_QUALIFIED);
}
static char*
type_get_qualified_name (MonoType *type, MonoAssembly *ass)
{
MONO_REQ_GC_UNSAFE_MODE;
MonoClass *klass;
MonoAssembly *ta;
klass = mono_class_from_mono_type_internal (type);
if (!klass)
return mono_type_get_name_full (type, MONO_TYPE_NAME_FORMAT_REFLECTION);
ta = klass->image->assembly;
if (assembly_is_dynamic (ta) || (ta == ass)) {
if (mono_class_is_ginst (klass) || mono_class_is_gtd (klass))
/* For generic type definitions, we want T, while REFLECTION returns T<K> */
return mono_type_get_name_full (type, MONO_TYPE_NAME_FORMAT_FULL_NAME);
else
return mono_type_get_name_full (type, MONO_TYPE_NAME_FORMAT_REFLECTION);
}
return mono_type_get_name_full (type, MONO_TYPE_NAME_FORMAT_ASSEMBLY_QUALIFIED);
}
#ifndef DISABLE_REFLECTION_EMIT
/**
* mp_g_alloc:
*
* Allocate memory from the @image mempool if it is non-NULL. Otherwise, allocate memory
* from the C heap.
*/
static gpointer
image_g_malloc (MonoImage *image, guint size)
{
MONO_REQ_GC_NEUTRAL_MODE;
if (image)
return mono_image_alloc (image, size);
else
return g_malloc (size);
}
#endif /* !DISABLE_REFLECTION_EMIT */
/**
* image_g_alloc0:
*
* Allocate memory from the @image mempool if it is non-NULL. Otherwise, allocate memory
* from the C heap.
*/
gpointer
(mono_image_g_malloc0) (MonoImage *image, guint size)
{
MONO_REQ_GC_NEUTRAL_MODE;
if (image)
return mono_image_alloc0 (image, size);
else
return g_malloc0 (size);
}
/**
* image_g_free:
* @image: a MonoImage
* @ptr: pointer
*
* If @image is NULL, free @ptr, otherwise do nothing.
*/
static void
image_g_free (MonoImage *image, gpointer ptr)
{
if (image == NULL)
g_free (ptr);
}
#ifndef DISABLE_REFLECTION_EMIT
static char*
image_strdup (MonoImage *image, const char *s)
{
MONO_REQ_GC_NEUTRAL_MODE;
if (image)
return mono_image_strdup (image, s);
else
return g_strdup (s);
}
#endif
#define image_g_new(image,struct_type, n_structs) \
((struct_type *) image_g_malloc (image, ((gsize) sizeof (struct_type)) * ((gsize) (n_structs))))
#define image_g_new0(image,struct_type, n_structs) \
((struct_type *) mono_image_g_malloc0 (image, ((gsize) sizeof (struct_type)) * ((gsize) (n_structs))))
static void
alloc_table (MonoDynamicTable *table, guint nrows)
{
mono_dynimage_alloc_table (table, nrows);
}
static guint32
string_heap_insert (MonoDynamicStream *sh, const char *str)
{
return mono_dynstream_insert_string (sh, str);
}
static guint32
mono_image_add_stream_data (MonoDynamicStream *stream, const char *data, guint32 len)
{
return mono_dynstream_add_data (stream, data, len);
}
/*
* Despite the name, we handle also TypeSpec (with the above helper).
*/
static guint32
mono_image_typedef_or_ref (MonoDynamicImage *assembly, MonoType *type)
{
return mono_dynimage_encode_typedef_or_ref_full (assembly, type, TRUE);
}
/*
* Copy len * nelem bytes from val to dest, swapping bytes to LE if necessary.
* dest may be misaligned.
*/
static void
swap_with_size (gpointer void_dest, gconstpointer void_val, int len, int nelem)
{
char *dest = (char*)void_dest;
const char* val = (const char*)void_val;
MONO_REQ_GC_NEUTRAL_MODE;
#if G_BYTE_ORDER != G_LITTLE_ENDIAN
int elem;
for (elem = 0; elem < nelem; ++elem) {
switch (len) {
case 1:
*dest = *val;
break;
case 2:
dest [0] = val [1];
dest [1] = val [0];
break;
case 4:
dest [0] = val [3];
dest [1] = val [2];
dest [2] = val [1];
dest [3] = val [0];
break;
case 8:
dest [0] = val [7];
dest [1] = val [6];
dest [2] = val [5];
dest [3] = val [4];
dest [4] = val [3];
dest [5] = val [2];
dest [6] = val [1];
dest [7] = val [0];
break;
default:
g_assert_not_reached ();
}
dest += len;
val += len;
}
#else
memcpy (dest, val, len * nelem);
#endif
}
guint32
mono_reflection_method_count_clauses (MonoReflectionILGen *ilgen)
{
MONO_REQ_GC_UNSAFE_MODE;
guint32 num_clauses = 0;
int i;
MonoILExceptionInfo *ex_info;
for (i = 0; i < mono_array_length_internal (ilgen->ex_handlers); ++i) {
ex_info = (MonoILExceptionInfo*)mono_array_addr_internal (ilgen->ex_handlers, MonoILExceptionInfo, i);
if (ex_info->handlers)
num_clauses += mono_array_length_internal (ex_info->handlers);
else
num_clauses++;
}
return num_clauses;
}
#ifndef DISABLE_REFLECTION_EMIT
static MonoExceptionClause*
method_encode_clauses (MonoImage *image, MonoDynamicImage *assembly, MonoReflectionILGen *ilgen, guint32 num_clauses, MonoError *error)
{
MONO_REQ_GC_UNSAFE_MODE;
error_init (error);
MonoExceptionClause *clauses;
MonoExceptionClause *clause;
MonoILExceptionInfo *ex_info;
MonoILExceptionBlock *ex_block;
guint32 finally_start;
int i, j, clause_index;
clauses = image_g_new0 (image, MonoExceptionClause, num_clauses);
clause_index = 0;
for (i = mono_array_length_internal (ilgen->ex_handlers) - 1; i >= 0; --i) {
ex_info = (MonoILExceptionInfo*)mono_array_addr_internal (ilgen->ex_handlers, MonoILExceptionInfo, i);
finally_start = ex_info->start + ex_info->len;
if (!ex_info->handlers)
continue;
for (j = 0; j < mono_array_length_internal (ex_info->handlers); ++j) {
ex_block = (MonoILExceptionBlock*)mono_array_addr_internal (ex_info->handlers, MonoILExceptionBlock, j);
clause = &(clauses [clause_index]);
clause->flags = ex_block->type;
clause->try_offset = ex_info->start;
if (ex_block->type == MONO_EXCEPTION_CLAUSE_FINALLY)
clause->try_len = finally_start - ex_info->start;
else
clause->try_len = ex_info->len;
clause->handler_offset = ex_block->start;
clause->handler_len = ex_block->len;
if (ex_block->extype) {
MonoType *extype = mono_reflection_type_get_handle ((MonoReflectionType*)ex_block->extype, error);
if (!is_ok (error)) {
image_g_free (image, clauses);
return NULL;
}
clause->data.catch_class = mono_class_from_mono_type_internal (extype);
} else {
if (ex_block->type == MONO_EXCEPTION_CLAUSE_FILTER)
clause->data.filter_offset = ex_block->filter_offset;
else
clause->data.filter_offset = 0;
}
finally_start = ex_block->start + ex_block->len;
clause_index ++;
}
}
return clauses;
}
#endif /* !DISABLE_REFLECTION_EMIT */
#ifndef DISABLE_REFLECTION_EMIT
/*
* LOCKING: Acquires the loader lock.
*/
static void
mono_save_custom_attrs (MonoImage *image, void *obj, MonoArray *cattrs)
{
MONO_REQ_GC_UNSAFE_MODE;
MonoCustomAttrInfo *ainfo, *tmp;
if (!cattrs || !mono_array_length_internal (cattrs))
return;
ainfo = mono_custom_attrs_from_builders (image, image, cattrs);
mono_loader_lock ();
tmp = (MonoCustomAttrInfo *)mono_image_property_lookup (image, obj, MONO_PROP_DYNAMIC_CATTR);
if (tmp)
mono_custom_attrs_free (tmp);
mono_image_property_insert (image, obj, MONO_PROP_DYNAMIC_CATTR, ainfo);
mono_loader_unlock ();
}
#else
//FIXME some code compiled under DISABLE_REFLECTION_EMIT depends on this function, we should be more aggressively disabling things
static void
mono_save_custom_attrs (MonoImage *image, void *obj, MonoArray *cattrs)
{
}
#endif
guint32
mono_reflection_resolution_scope_from_image (MonoDynamicImage *assembly, MonoImage *image)
{
MONO_REQ_GC_UNSAFE_MODE;
MonoDynamicTable *table;
guint32 token;
guint32 *values;
guint32 cols [MONO_ASSEMBLY_SIZE];
const char *pubkey;
guint32 publen;
if ((token = GPOINTER_TO_UINT (g_hash_table_lookup (assembly->handleref, image))))
return token;
if (assembly_is_dynamic (image->assembly) && (image->assembly == assembly->image.assembly)) {
table = &assembly->tables [MONO_TABLE_MODULEREF];
token = table->next_idx ++;
table->rows ++;
alloc_table (table, table->rows);
values = table->values + token * MONO_MODULEREF_SIZE;
values [MONO_MODULEREF_NAME] = string_heap_insert (&assembly->sheap, image->module_name);
token <<= MONO_RESOLUTION_SCOPE_BITS;
token |= MONO_RESOLUTION_SCOPE_MODULEREF;
g_hash_table_insert (assembly->handleref, image, GUINT_TO_POINTER (token));
return token;
}
if (assembly_is_dynamic (image->assembly))
/* FIXME: */
memset (cols, 0, sizeof (cols));
else {
/* image->assembly->image is the manifest module */
image = image->assembly->image;
mono_metadata_decode_row (&image->tables [MONO_TABLE_ASSEMBLY], 0, cols, MONO_ASSEMBLY_SIZE);
}
table = &assembly->tables [MONO_TABLE_ASSEMBLYREF];
token = table->next_idx ++;
table->rows ++;
alloc_table (table, table->rows);
values = table->values + token * MONO_ASSEMBLYREF_SIZE;
values [MONO_ASSEMBLYREF_NAME] = string_heap_insert (&assembly->sheap, image->assembly_name);
values [MONO_ASSEMBLYREF_MAJOR_VERSION] = cols [MONO_ASSEMBLY_MAJOR_VERSION];
values [MONO_ASSEMBLYREF_MINOR_VERSION] = cols [MONO_ASSEMBLY_MINOR_VERSION];
values [MONO_ASSEMBLYREF_BUILD_NUMBER] = cols [MONO_ASSEMBLY_BUILD_NUMBER];
values [MONO_ASSEMBLYREF_REV_NUMBER] = cols [MONO_ASSEMBLY_REV_NUMBER];
values [MONO_ASSEMBLYREF_FLAGS] = 0;
values [MONO_ASSEMBLYREF_CULTURE] = 0;
values [MONO_ASSEMBLYREF_HASH_VALUE] = 0;
if (strcmp ("", image->assembly->aname.culture)) {
values [MONO_ASSEMBLYREF_CULTURE] = string_heap_insert (&assembly->sheap,
image->assembly->aname.culture);
}
if ((pubkey = mono_image_get_public_key (image, &publen))) {
guchar pubtoken [9];
pubtoken [0] = 8;
mono_digest_get_public_token (pubtoken + 1, (guchar*)pubkey, publen);
values [MONO_ASSEMBLYREF_PUBLIC_KEY] = mono_image_add_stream_data (&assembly->blob, (char*)pubtoken, 9);
} else {
values [MONO_ASSEMBLYREF_PUBLIC_KEY] = 0;
}
token <<= MONO_RESOLUTION_SCOPE_BITS;
token |= MONO_RESOLUTION_SCOPE_ASSEMBLYREF;
g_hash_table_insert (assembly->handleref, image, GUINT_TO_POINTER (token));
return token;
}
#ifndef DISABLE_REFLECTION_EMIT
gboolean
mono_reflection_methodbuilder_from_method_builder (ReflectionMethodBuilder *rmb, MonoReflectionMethodBuilder *mb, MonoError *error)
{
MONO_REQ_GC_UNSAFE_MODE;
error_init (error);
memset (rmb, 0, sizeof (ReflectionMethodBuilder));
rmb->ilgen = mb->ilgen;
MONO_HANDLE_PIN (rmb->ilgen);
rmb->rtype = (MonoReflectionType*)mb->rtype;
MONO_HANDLE_PIN (rmb->rtype);
rmb->parameters = mb->parameters;
MONO_HANDLE_PIN (rmb->parameters);
rmb->generic_params = mb->generic_params;
MONO_HANDLE_PIN (rmb->generic_params);
rmb->generic_container = mb->generic_container;
rmb->opt_types = NULL;
rmb->pinfo = mb->pinfo;
MONO_HANDLE_PIN (rmb->pinfo);
rmb->attrs = mb->attrs;
rmb->iattrs = mb->iattrs;
rmb->call_conv = mb->call_conv;
rmb->code = mb->code;
MONO_HANDLE_PIN (rmb->code);
rmb->type = mb->type;
MONO_HANDLE_PIN (rmb->type);
rmb->name = mb->name;
MONO_HANDLE_PIN (rmb->name);
rmb->table_idx = &mb->table_idx;
rmb->init_locals = mb->init_locals;
rmb->skip_visibility = FALSE;
rmb->return_modreq = mb->return_modreq;
MONO_HANDLE_PIN (rmb->return_modreq);
rmb->return_modopt = mb->return_modopt;
MONO_HANDLE_PIN (rmb->return_modopt);
rmb->param_modreq = mb->param_modreq;
MONO_HANDLE_PIN (rmb->param_modreq);
rmb->param_modopt = mb->param_modopt;
MONO_HANDLE_PIN (rmb->param_modopt);
rmb->mhandle = mb->mhandle;
rmb->nrefs = 0;
rmb->refs = NULL;
if (mb->dll) {
rmb->charset = mb->charset;
rmb->extra_flags = mb->extra_flags;
rmb->native_cc = mb->native_cc;
rmb->dllentry = mb->dllentry;
MONO_HANDLE_PIN (rmb->dllentry);
rmb->dll = mb->dll;
MONO_HANDLE_PIN (rmb->dll);
}
return TRUE;
}
gboolean
mono_reflection_methodbuilder_from_ctor_builder (ReflectionMethodBuilder *rmb, MonoReflectionCtorBuilder *mb, MonoError *error)
{
MONO_REQ_GC_UNSAFE_MODE;
const char *name = mb->attrs & METHOD_ATTRIBUTE_STATIC ? ".cctor": ".ctor";
error_init (error);
memset (rmb, 0, sizeof (ReflectionMethodBuilder));
rmb->ilgen = mb->ilgen;
MONO_HANDLE_PIN (rmb->ilgen);
rmb->rtype = mono_type_get_object_checked (mono_get_void_type (), error);
return_val_if_nok (error, FALSE);
MONO_HANDLE_PIN (rmb->rtype);
rmb->parameters = mb->parameters;
MONO_HANDLE_PIN (rmb->parameters);
rmb->generic_params = NULL;
rmb->generic_container = NULL;
rmb->opt_types = NULL;
rmb->pinfo = mb->pinfo;
MONO_HANDLE_PIN (rmb->pinfo);
rmb->attrs = mb->attrs;
rmb->iattrs = mb->iattrs;
rmb->call_conv = mb->call_conv;
rmb->code = NULL;
rmb->type = mb->type;
MONO_HANDLE_PIN (rmb->type);
rmb->name = mono_string_new_checked (name, error);
return_val_if_nok (error, FALSE);
MONO_HANDLE_PIN (rmb->name);
rmb->table_idx = &mb->table_idx;
rmb->init_locals = mb->init_locals;
rmb->skip_visibility = FALSE;
rmb->return_modreq = NULL;
rmb->return_modopt = NULL;
rmb->param_modreq = mb->param_modreq;
MONO_HANDLE_PIN (rmb->param_modreq);
rmb->param_modopt = mb->param_modopt;
MONO_HANDLE_PIN (rmb->param_modopt);
rmb->mhandle = mb->mhandle;
rmb->nrefs = 0;
rmb->refs = NULL;
return TRUE;
}
static void
reflection_methodbuilder_from_dynamic_method (ReflectionMethodBuilder *rmb, MonoReflectionDynamicMethod *mb)
{
MONO_REQ_GC_UNSAFE_MODE;
memset (rmb, 0, sizeof (ReflectionMethodBuilder));
rmb->ilgen = mb->ilgen;
MONO_HANDLE_PIN (rmb->ilgen);
rmb->rtype = mb->rtype;
MONO_HANDLE_PIN (rmb->type);
rmb->parameters = mb->parameters;
MONO_HANDLE_PIN (rmb->parameters);
rmb->generic_params = NULL;
rmb->generic_container = NULL;
rmb->opt_types = NULL;
rmb->pinfo = NULL;
rmb->attrs = mb->attrs;
rmb->iattrs = 0;
rmb->call_conv = mb->call_conv;
rmb->code = NULL;
rmb->type = (MonoObject *) mb->owner;
MONO_HANDLE_PIN (rmb->type);
rmb->name = mb->name;
MONO_HANDLE_PIN (rmb->name);
rmb->table_idx = NULL;
rmb->init_locals = mb->init_locals;
rmb->skip_visibility = mb->skip_visibility;
rmb->return_modreq = NULL;
rmb->return_modopt = NULL;
rmb->param_modreq = NULL;
rmb->param_modopt = NULL;
rmb->mhandle = mb->mhandle;
rmb->nrefs = 0;
rmb->refs = NULL;
}
#else /* DISABLE_REFLECTION_EMIT */
gboolean
mono_reflection_methodbuilder_from_method_builder (ReflectionMethodBuilder *rmb, MonoReflectionMethodBuilder *mb, MonoError *error) {
g_assert_not_reached ();
return FALSE;
}
gboolean
mono_reflection_methodbuilder_from_ctor_builder (ReflectionMethodBuilder *rmb, MonoReflectionCtorBuilder *mb, MonoError *error)
{
g_assert_not_reached ();
return FALSE;
}
#endif /* DISABLE_REFLECTION_EMIT */
#ifndef DISABLE_REFLECTION_EMIT
static guint32
mono_image_add_memberef_row (MonoDynamicImage *assembly)
{
MONO_REQ_GC_NEUTRAL_MODE;
MonoDynamicTable *table;
guint32 token;
table = &assembly->tables [MONO_TABLE_MEMBERREF];
token = MONO_TOKEN_MEMBER_REF | table->next_idx;
table->next_idx ++;
return token;
}
/*
* Insert a memberef row into the metadata: the token that point to the memberref
* is returned. Caching is done in the caller (mono_image_get_methodref_token() or
* mono_image_get_fieldref_token()).
* The sig param is an index to an already built signature.
*/
static guint32
mono_image_get_memberref_token (MonoDynamicImage *assembly, MonoType *type)
{
MONO_REQ_GC_NEUTRAL_MODE;
mono_image_typedef_or_ref (assembly, type);
return mono_image_add_memberef_row (assembly);
}
guint32
mono_image_get_methodref_token (MonoDynamicImage *assembly, MonoMethod *method, gboolean create_typespec)
{
MONO_REQ_GC_NEUTRAL_MODE;
guint32 token;
MonoMethodSignature *sig;
create_typespec = create_typespec && method->is_generic && method->klass->image != &assembly->image;
if (create_typespec) {
token = GPOINTER_TO_UINT (g_hash_table_lookup (assembly->handleref, GUINT_TO_POINTER (GPOINTER_TO_UINT (method) + 1)));
if (token)
return token;
}
token = GPOINTER_TO_UINT (g_hash_table_lookup (assembly->handleref, method));
if (token && !create_typespec)
return token;
g_assert (!method->is_inflated);
if (!token) {
/*
* A methodref signature can't contain an unmanaged calling convention.
*/
sig = mono_metadata_signature_dup (mono_method_signature_internal (method));
if ((sig->call_convention != MONO_CALL_DEFAULT) && (sig->call_convention != MONO_CALL_VARARG))
sig->call_convention = MONO_CALL_DEFAULT;
token = mono_image_get_memberref_token (assembly, m_class_get_byval_arg (method->klass));
g_free (sig);
g_hash_table_insert (assembly->handleref, method, GUINT_TO_POINTER(token));
}
if (create_typespec) {
MonoDynamicTable *table = &assembly->tables [MONO_TABLE_METHODSPEC];
g_assert (mono_metadata_token_table (token) == MONO_TABLE_MEMBERREF);
token = MONO_TOKEN_METHOD_SPEC | table->next_idx;
table->next_idx ++;
/*methodspec and memberef tokens are diferent, */
g_hash_table_insert (assembly->handleref, GUINT_TO_POINTER (GPOINTER_TO_UINT (method) + 1), GUINT_TO_POINTER (token));
return token;
}
return token;
}
static guint32
mono_image_get_varargs_method_token (MonoDynamicImage *assembly, guint32 original,
const gchar *name, guint32 sig)
{
MonoDynamicTable *table;
guint32 token;
table = &assembly->tables [MONO_TABLE_MEMBERREF];
token = MONO_TOKEN_MEMBER_REF | table->next_idx;
table->next_idx ++;
return token;
}
#else /* DISABLE_REFLECTION_EMIT */
guint32
mono_image_get_methodref_token (MonoDynamicImage *assembly, MonoMethod *method, gboolean create_typespec)
{
g_assert_not_reached ();
return -1;
}
#endif
static gboolean
is_field_on_inst (MonoClassField *field)
{
return mono_class_is_ginst (m_field_get_parent (field)) && mono_class_get_generic_class (m_field_get_parent (field))->is_dynamic;
}
static gboolean
is_field_on_gtd (MonoClassField *field)
{
return mono_class_is_gtd (m_field_get_parent (field));
}
#ifndef DISABLE_REFLECTION_EMIT
static guint32
mono_image_get_fieldref_token (MonoDynamicImage *assembly, MonoClassField *field)
{
guint32 token;
g_assert (field);
g_assert (m_field_get_parent (field));
token = GPOINTER_TO_UINT (g_hash_table_lookup (assembly->handleref, field));
if (token)
return token;
token = mono_image_get_memberref_token (assembly, m_class_get_byval_arg (m_field_get_parent (field)));
g_hash_table_insert (assembly->handleref, field, GUINT_TO_POINTER(token));
return token;
}
static guint32
method_encode_methodspec (MonoDynamicImage *assembly, MonoMethod *method)
{
MonoDynamicTable *table;
guint32 token, mtoken;
MonoMethodInflated *imethod;
MonoMethod *declaring;
table = &assembly->tables [MONO_TABLE_METHODSPEC];
g_assert (method->is_inflated);
imethod = (MonoMethodInflated *) method;
declaring = imethod->declaring;
mtoken = mono_image_get_memberref_token (assembly, m_class_get_byval_arg (method->klass));
if (!mono_method_signature_internal (declaring)->generic_param_count)
return mtoken;
token = MONO_TOKEN_METHOD_SPEC | table->next_idx;
table->next_idx ++;
return token;
}
static guint32
mono_image_get_methodspec_token (MonoDynamicImage *assembly, MonoMethod *method)
{
MonoMethodInflated *imethod;
guint32 token;
token = GPOINTER_TO_UINT (g_hash_table_lookup (assembly->handleref, method));
if (token)
return token;
g_assert (method->is_inflated);
imethod = (MonoMethodInflated *) method;
if (mono_method_signature_internal (imethod->declaring)->generic_param_count) {
token = method_encode_methodspec (assembly, method);
} else {
token = mono_image_get_memberref_token (assembly, m_class_get_byval_arg (method->klass));
}
g_hash_table_insert (assembly->handleref, method, GUINT_TO_POINTER(token));
return token;
}
static guint32
mono_image_get_inflated_method_token (MonoDynamicImage *assembly, MonoMethod *m)
{
return mono_image_get_memberref_token (assembly, m_class_get_byval_arg (m->klass));
}
static guint32
mono_image_get_sighelper_token (MonoDynamicImage *assembly, MonoReflectionSigHelperHandle helper, MonoError *error)
{
guint32 idx;
MonoDynamicTable *table;
error_init (error);
table = &assembly->tables [MONO_TABLE_STANDALONESIG];
idx = table->next_idx ++;
table->rows ++;
return idx;
}
static int
reflection_cc_to_file (int call_conv)
{
switch (call_conv & 0x3) {
case 0:
case 1: return MONO_CALL_DEFAULT;
case 2: return MONO_CALL_VARARG;
default:
g_assert_not_reached ();
}
return 0;
}
#endif /* !DISABLE_REFLECTION_EMIT */
struct _ArrayMethod {
MonoType *parent;
MonoMethodSignature *sig;
char *name;
guint32 token;
};
void
mono_sre_array_method_free (ArrayMethod *am)
{
g_free (am->sig);
g_free (am->name);
g_free (am);
}
#ifndef DISABLE_REFLECTION_EMIT
static guint32
mono_image_get_array_token (MonoDynamicImage *assembly, MonoReflectionArrayMethodHandle m, MonoError *error)
{
MonoMethodSignature *sig = NULL;
char *name = NULL;
error_init (error);
MonoArrayHandle parameters = MONO_HANDLE_NEW_GET (MonoArray, m, parameters);
guint32 nparams = mono_array_handle_length (parameters);
sig = (MonoMethodSignature *)g_malloc0 (MONO_SIZEOF_METHOD_SIGNATURE + sizeof (MonoType*) * nparams);
sig->hasthis = 1;
sig->sentinelpos = -1;
sig->call_convention = reflection_cc_to_file (MONO_HANDLE_GETVAL (m, call_conv));
sig->param_count = nparams;
MonoReflectionTypeHandle ret = MONO_HANDLE_NEW_GET (MonoReflectionType, m, ret);
if (!MONO_HANDLE_IS_NULL (ret)) {
sig->ret = mono_reflection_type_handle_mono_type (ret, error);
goto_if_nok (error, fail);
} else
sig->ret = mono_get_void_type ();
MonoReflectionTypeHandle parent;
parent = MONO_HANDLE_NEW_GET (MonoReflectionType, m, parent);
MonoType *mtype;
mtype = mono_reflection_type_handle_mono_type (parent, error);
goto_if_nok (error, fail);
for (int i = 0; i < nparams; ++i) {
sig->params [i] = mono_type_array_get_and_resolve (parameters, i, error);
goto_if_nok (error, fail);
}
MonoStringHandle mname;
mname = MONO_HANDLE_NEW_GET (MonoString, m, name);
name = mono_string_handle_to_utf8 (mname, error);
goto_if_nok (error, fail);
ArrayMethod *am;
am = NULL;
for (GList *tmp = assembly->array_methods; tmp; tmp = tmp->next) {
am = (ArrayMethod *)tmp->data;
if (strcmp (name, am->name) == 0 &&
mono_metadata_type_equal (am->parent, mtype) &&
mono_metadata_signature_equal (am->sig, sig)) {
g_free (name);
g_free (sig);
MONO_HANDLE_SETVAL (m, table_idx, guint32, am->token & 0xffffff);
return am->token;
}
}
am = g_new0 (ArrayMethod, 1);
am->name = name;
am->sig = sig;
am->parent = mtype;
am->token = mono_image_get_memberref_token (assembly, am->parent);
assembly->array_methods = g_list_prepend (assembly->array_methods, am);
MONO_HANDLE_SETVAL (m, table_idx, guint32, am->token & 0xffffff);
return am->token;
fail:
g_free (name);
g_free (sig);
return 0;
}
#endif
#ifndef DISABLE_REFLECTION_EMIT
/*
* mono_image_insert_string:
* @module: module builder object
* @str: a string
*
* Insert @str into the user string stream of @module.
*/
guint32
mono_image_insert_string (MonoReflectionModuleBuilderHandle ref_module, MonoStringHandle str, MonoError *error)
{
HANDLE_FUNCTION_ENTER ();
guint32 idx, token = 0;
MonoDynamicImage *assembly = MONO_HANDLE_GETVAL (ref_module, dynamic_image);
if (!assembly) {
if (!mono_image_module_basic_init (ref_module, error))
goto leave;
assembly = MONO_HANDLE_GETVAL (ref_module, dynamic_image);
}
g_assert (assembly != NULL);
idx = assembly->us.index ++;
token = MONO_TOKEN_STRING | idx;
mono_dynamic_image_register_token (assembly, token, MONO_HANDLE_CAST (MonoObject, str), MONO_DYN_IMAGE_TOK_NEW);
leave:
HANDLE_FUNCTION_RETURN_VAL (token);
}
static guint32
create_method_token (MonoDynamicImage *assembly, MonoMethod *method, MonoArrayHandle opt_param_types, MonoError *error)
{
guint32 parent;
int nargs = mono_array_handle_length (opt_param_types);
MonoMethodSignature *old = mono_method_signature_internal (method);
MonoMethodSignature *sig = mono_metadata_signature_alloc ( &assembly->image, old->param_count + nargs);
sig->hasthis = old->hasthis;
sig->explicit_this = old->explicit_this;
sig->call_convention = old->call_convention;
sig->generic_param_count = old->generic_param_count;
sig->param_count = old->param_count + nargs;
sig->sentinelpos = old->param_count;
sig->ret = old->ret;
for (int i = 0; i < old->param_count; i++)
sig->params [i] = old->params [i];
MonoReflectionTypeHandle rt = MONO_HANDLE_NEW (MonoReflectionType, NULL);
for (int i = 0; i < nargs; i++) {
MONO_HANDLE_ARRAY_GETREF (rt, opt_param_types, i);
sig->params [old->param_count + i] = mono_reflection_type_handle_mono_type (rt, error);
goto_if_nok (error, fail);
}
parent = mono_image_typedef_or_ref (assembly, m_class_get_byval_arg (method->klass));
g_assert ((parent & MONO_TYPEDEFORREF_MASK) == MONO_MEMBERREF_PARENT_TYPEREF);
parent >>= MONO_TYPEDEFORREF_BITS;
parent <<= MONO_MEMBERREF_PARENT_BITS;
parent |= MONO_MEMBERREF_PARENT_TYPEREF;
guint32 token = mono_image_get_varargs_method_token (assembly, parent, method->name, 0);
g_hash_table_insert (assembly->vararg_aux_hash, GUINT_TO_POINTER (token), sig);
return token;
fail:
return 0;
}
guint32
mono_image_create_method_token (MonoDynamicImage *assembly, MonoObjectHandle obj, MonoArrayHandle opt_param_types, MonoError *error)
{
guint32 token = 0;
error_init (error);
MonoClass *klass = mono_handle_class (obj);
if (strcmp (klass->name, "RuntimeMethodInfo") == 0 || strcmp (klass->name, "RuntimeConstructorInfo") == 0) {
MonoReflectionMethodHandle ref_method = MONO_HANDLE_CAST (MonoReflectionMethod, obj);
MonoMethod *method = MONO_HANDLE_GETVAL (ref_method, method);
g_assert (!MONO_HANDLE_IS_NULL (opt_param_types) && (mono_method_signature_internal (method)->sentinelpos >= 0));
token = create_method_token (assembly, method, opt_param_types, error);
goto_if_nok (error, fail);
} else if (strcmp (klass->name, "MethodBuilder") == 0) {
g_assert_not_reached ();
} else {
g_error ("requested method token for %s\n", klass->name);
}
mono_dynamic_image_register_token (assembly, token, obj, MONO_DYN_IMAGE_TOK_NEW);
return token;
fail:
g_assert (!is_ok (error));
return 0;
}
/*
* mono_image_create_token:
* @assembly: a dynamic assembly
* @obj:
* @register_token: Whenever to register the token in the assembly->tokens hash.
*
* Get a token to insert in the IL code stream for the given MemberInfo.
* The metadata emission routines need to pass FALSE as REGISTER_TOKEN, since by that time,
* the table_idx-es were recomputed, so registering the token would overwrite an existing
* entry.
*/
guint32
mono_image_create_token (MonoDynamicImage *assembly, MonoObjectHandle obj,
gboolean create_open_instance, gboolean register_token,
MonoError *error)
{
HANDLE_FUNCTION_ENTER ();
guint32 token = 0;
error_init (error);
MonoClass *klass = mono_handle_class (obj);
MonoObjectHandle register_obj = MONO_HANDLE_NEW (MonoObject, NULL);
MONO_HANDLE_ASSIGN (register_obj, obj);
/* Check for user defined reflection objects */
/* TypeDelegator is the only corlib type which doesn't look like a MonoReflectionType */
if (klass->image != mono_defaults.corlib || (strcmp (klass->name, "TypeDelegator") == 0)) {
mono_error_set_not_supported (error, "User defined subclasses of System.Type are not yet supported");
goto leave;
}
/* This function is called from ModuleBuilder:getToken multiple times for the same objects */
int how_collide;
how_collide = MONO_DYN_IMAGE_TOK_SAME_OK;
if (strcmp (klass->name, "RuntimeType") == 0) {
MonoType *type = mono_reflection_type_handle_mono_type (MONO_HANDLE_CAST (MonoReflectionType, obj), error);
goto_if_nok (error, leave);
MonoClass *mc = mono_class_from_mono_type_internal (type);
token = mono_metadata_token_from_dor (
mono_dynimage_encode_typedef_or_ref_full (assembly, type, !mono_class_is_gtd (mc) || create_open_instance));
/* If it's a RuntimeType now, we could have registered a
* TypeBuilder for it before, so replacing is okay. */
how_collide = MONO_DYN_IMAGE_TOK_REPLACE;
} else if (strcmp (klass->name, "RuntimeMethodInfo") == 0 ||
strcmp (klass->name, "RuntimeConstructorInfo") == 0) {
MonoReflectionMethodHandle m = MONO_HANDLE_CAST (MonoReflectionMethod, obj);
MonoMethod *method = MONO_HANDLE_GETVAL (m, method);
if (method->is_inflated) {
if (create_open_instance) {
guint32 methodspec_token = mono_image_get_methodspec_token (assembly, method);
MonoReflectionMethodHandle canonical_obj =
mono_method_get_object_handle (method, NULL, error);
goto_if_nok (error, leave);
MONO_HANDLE_ASSIGN (register_obj, canonical_obj);
token = methodspec_token;
} else
token = mono_image_get_inflated_method_token (assembly, method);
} else if ((method->klass->image == &assembly->image) &&
!mono_class_is_ginst (method->klass) &&
!mono_class_is_gtd (method->klass)) {
static guint32 method_table_idx = 0xffffff;
if (method->klass->wastypebuilder) {
/* we use the same token as the one that was assigned
* to the Methodbuilder.
* FIXME: do the equivalent for Fields.
*/
token = method->token;
how_collide = MONO_DYN_IMAGE_TOK_REPLACE;
} else {
/*
* Each token should have a unique index, but the indexes are
* assigned by managed code, so we don't know about them. An
* easy solution is to count backwards...
*/
method_table_idx --;
token = MONO_TOKEN_METHOD_DEF | method_table_idx;
how_collide = MONO_DYN_IMAGE_TOK_NEW;
}
} else {
guint32 methodref_token = mono_image_get_methodref_token (assembly, method, create_open_instance);
/* We need to register a 'canonical' object. The same
* MonoMethod could have been reflected via different
* classes so the MonoReflectionMethod:reftype could be
* different, and the object lookup in
* dynamic_image_register_token would assert assert. So
* we pick the MonoReflectionMethod object that has the
* reflected type as NULL (ie, take the declaring type
* of the method) */
MonoReflectionMethodHandle canonical_obj =
mono_method_get_object_handle (method, NULL, error);
goto_if_nok (error, leave);
MONO_HANDLE_ASSIGN (register_obj, canonical_obj);
token = methodref_token;
}
/*g_print ("got token 0x%08x for %s\n", token, m->method->name);*/
} else if (strcmp (klass->name, "RuntimeFieldInfo") == 0) {
MonoReflectionFieldHandle f = MONO_HANDLE_CAST (MonoReflectionField, obj);
MonoClassField *field = MONO_HANDLE_GETVAL (f, field);
if ((m_field_get_parent (field)->image == &assembly->image) &&
!is_field_on_gtd (field) &&
!is_field_on_inst (field)) {
static guint32 field_table_idx = 0xffffff;
field_table_idx --;
token = MONO_TOKEN_FIELD_DEF | field_table_idx;
g_assert (!mono_class_is_gtd (m_field_get_parent (field)));
how_collide = MONO_DYN_IMAGE_TOK_NEW;
} else {
guint32 fieldref_token = mono_image_get_fieldref_token (assembly, field);
/* Same as methodref: get a canonical object to
* register with the token. */
MonoReflectionFieldHandle canonical_obj =
mono_field_get_object_handle (m_field_get_parent (field), field, error);
goto_if_nok (error, leave);
MONO_HANDLE_ASSIGN (register_obj, canonical_obj);
token = fieldref_token;
}
/*g_print ("got token 0x%08x for %s\n", token, f->field->name);*/
} else if (strcmp (klass->name, "MonoArrayMethod") == 0) {
MonoReflectionArrayMethodHandle m = MONO_HANDLE_CAST (MonoReflectionArrayMethod, obj);
/* mono_image_get_array_token caches tokens by signature */
guint32 array_token = mono_image_get_array_token (assembly, m, error);
goto_if_nok (error, leave);
token = array_token;
/* ModuleBuilder:GetArrayMethod() always returns a fresh
* MonoArrayMethod instance even given the same method name and
* signature. But they're all interchangeable, so it's okay to
* replace.
*/
how_collide = MONO_DYN_IMAGE_TOK_REPLACE;
} else if (strcmp (klass->name, "SignatureHelper") == 0) {
MonoReflectionSigHelperHandle s = MONO_HANDLE_CAST (MonoReflectionSigHelper, obj);
/* always returns a fresh token */
guint32 sig_token = MONO_TOKEN_SIGNATURE | mono_image_get_sighelper_token (assembly, s, error);
goto_if_nok (error, leave);
token = sig_token;
how_collide = MONO_DYN_IMAGE_TOK_NEW;
} else {
g_error ("requested token for %s\n", klass->name);
}
if (register_token)
mono_dynamic_image_register_token (assembly, token, register_obj, how_collide);
leave:
HANDLE_FUNCTION_RETURN_VAL (token);
}
#endif
#ifndef DISABLE_REFLECTION_EMIT
static gpointer
register_assembly (MonoReflectionAssembly *res, MonoAssembly *assembly)
{
return CACHE_OBJECT (MonoReflectionAssembly *, mono_mem_manager_get_ambient (), assembly, &res->object, NULL);
}
static MonoReflectionModuleBuilderHandle
register_module (MonoReflectionModuleBuilderHandle res, MonoDynamicImage *module)
{
return CACHE_OBJECT_HANDLE (MonoReflectionModuleBuilder, mono_mem_manager_get_ambient (), module, MONO_HANDLE_CAST (MonoObject, res), NULL);
}
/*
* mono_reflection_dynimage_basic_init:
* @assembly: an assembly builder object
*
* Create the MonoImage that represents the assembly builder and setup some
* of the helper hash table and the basic metadata streams.
*/
void
mono_reflection_dynimage_basic_init (MonoReflectionAssemblyBuilder *assemblyb, MonoError *error)
{
MonoDynamicAssembly *assembly;
MonoDynamicImage *image;
MonoAssemblyLoadContext *alc = mono_alc_get_default ();
if (assemblyb->dynamic_assembly)
return;
assembly = assemblyb->dynamic_assembly = g_new0 (MonoDynamicAssembly, 1);
MONO_PROFILER_RAISE (assembly_loading, (&assembly->assembly));
assembly->assembly.ref_count = 1;
assembly->assembly.dynamic = TRUE;
assemblyb->assembly.assembly = (MonoAssembly*)assembly;
assembly->assembly.basedir = NULL;
return_if_nok (error);
if (assemblyb->culture) {
assembly->assembly.aname.culture = mono_string_to_utf8_checked_internal (assemblyb->culture, error);
return_if_nok (error);
} else
assembly->assembly.aname.culture = g_strdup ("");
if (assemblyb->version) {
char *vstr = mono_string_to_utf8_checked_internal (assemblyb->version, error);
if (mono_error_set_pending_exception (error))
return;
char **version = g_strsplit (vstr, ".", 4);
char **parts = version;
assembly->assembly.aname.major = atoi (*parts++);
assembly->assembly.aname.minor = atoi (*parts++);
assembly->assembly.aname.build = *parts != NULL ? atoi (*parts++) : 0;
assembly->assembly.aname.revision = *parts != NULL ? atoi (*parts) : 0;
g_strfreev (version);
g_free (vstr);
} else {
assembly->assembly.aname.major = 0;
assembly->assembly.aname.minor = 0;
assembly->assembly.aname.build = 0;
assembly->assembly.aname.revision = 0;
}
if (assemblyb->public_key_token) {
for (int i = 0; i < 8 && i < mono_array_length_internal (assemblyb->public_key_token); i++) {
guint8 byte = mono_array_get_internal (assemblyb->public_key_token, guint8, i);
sprintf ((char*)(assembly->assembly.aname.public_key_token + 2 * i), "%02x", byte);
}
}
char *assembly_name = mono_string_to_utf8_checked_internal (assemblyb->name, error);
return_if_nok (error);
image = mono_dynamic_image_create (assembly, assembly_name, g_strdup ("RefEmit_YouForgotToDefineAModule"));
image->initial_image = TRUE;
assembly->assembly.aname.name = image->image.name;
assembly->assembly.image = &image->image;
mono_alc_add_assembly (alc, (MonoAssembly*)assembly);
register_assembly (&assemblyb->assembly, &assembly->assembly);
MONO_PROFILER_RAISE (assembly_loaded, (&assembly->assembly));
mono_assembly_invoke_load_hook_internal (alc, (MonoAssembly*)assembly);
}
static gboolean
image_module_basic_init (MonoReflectionModuleBuilderHandle moduleb, MonoError *error)
{
error_init (error);
MonoDynamicImage *image = MONO_HANDLE_GETVAL (moduleb, dynamic_image);
MonoReflectionAssemblyBuilderHandle ab = MONO_HANDLE_NEW (MonoReflectionAssemblyBuilder, NULL);
MONO_HANDLE_GET (ab, moduleb, assemblyb);
if (!image) {
/*
* FIXME: we already created an image in mono_reflection_dynimage_basic_init (), but
* we don't know which module it belongs to, since that is only
* determined at assembly save time.
*/
/*image = (MonoDynamicImage*)ab->dynamic_assembly->assembly.image; */
MonoStringHandle abname = MONO_HANDLE_NEW_GET (MonoString, ab, name);
char *name = mono_string_handle_to_utf8 (abname, error);
return_val_if_nok (error, FALSE);
MonoStringHandle modfqname = MONO_HANDLE_NEW_GET (MonoString, MONO_HANDLE_CAST (MonoReflectionModule, moduleb), fqname);
char *fqname = mono_string_handle_to_utf8 (modfqname, error);
if (!is_ok (error)) {
g_free (name);
return FALSE;
}
MonoDynamicAssembly *dynamic_assembly = MONO_HANDLE_GETVAL (ab, dynamic_assembly);
image = mono_dynamic_image_create (dynamic_assembly, name, fqname);
MONO_HANDLE_SETVAL (MONO_HANDLE_CAST (MonoReflectionModule, moduleb), image, MonoImage*, &image->image);
MONO_HANDLE_SETVAL (moduleb, dynamic_image, MonoDynamicImage*, image);
register_module (moduleb, image);
/* register the module with the assembly */
MonoImage *ass = dynamic_assembly->assembly.image;
int module_count = ass->module_count;
MonoImage **new_modules = g_new0 (MonoImage *, module_count + 1);
if (ass->modules)
memcpy (new_modules, ass->modules, module_count * sizeof (MonoImage *));
new_modules [module_count] = &image->image;
mono_image_addref (&image->image);
g_free (ass->modules);
ass->modules = new_modules;
ass->module_count ++;
}
return TRUE;
}
static gboolean
mono_image_module_basic_init (MonoReflectionModuleBuilderHandle moduleb, MonoError *error)
{
error_init (error);
return image_module_basic_init (moduleb, error);
}
#endif
static gboolean
is_corlib_type (MonoClass *klass)
{
return klass->image == mono_defaults.corlib;
}
#define check_corlib_type_cached(_class, _namespace, _name) do { \
static MonoClass *cached_class; \
if (cached_class) \
return cached_class == _class; \
if (is_corlib_type (_class) && !strcmp (_name, _class->name) && !strcmp (_namespace, _class->name_space)) { \
cached_class = _class; \
return TRUE; \
} \
return FALSE; \
} while (0) \
MonoType*
mono_type_array_get_and_resolve (MonoArrayHandle array, int idx, MonoError *error)
{
HANDLE_FUNCTION_ENTER();
error_init (error);
MonoReflectionTypeHandle t = MONO_HANDLE_NEW (MonoReflectionType, NULL);
MONO_HANDLE_ARRAY_GETREF (t, array, idx);
MonoType *result = mono_reflection_type_handle_mono_type (t, error);
HANDLE_FUNCTION_RETURN_VAL (result);
}
static MonoType *
add_custom_modifiers_to_type (MonoType *without_mods, MonoArrayHandle req_array, MonoArrayHandle opt_array, MonoImage *image, MonoError *error)
{
HANDLE_FUNCTION_ENTER();
error_init (error);
int num_req_mods = 0;
if (!MONO_HANDLE_IS_NULL (req_array))
num_req_mods = mono_array_handle_length (req_array);
int num_opt_mods = 0;
if (!MONO_HANDLE_IS_NULL (opt_array))
num_opt_mods = mono_array_handle_length (opt_array);
const int total_mods = num_req_mods + num_opt_mods;
if (total_mods == 0)
return without_mods;
MonoTypeWithModifiers *result;
result = mono_image_g_malloc0 (image, mono_sizeof_type_with_mods (total_mods, FALSE));
memcpy (result, without_mods, MONO_SIZEOF_TYPE);
result->unmodified.has_cmods = 1;
MonoCustomModContainer *cmods = mono_type_get_cmods ((MonoType *)result);
g_assert (cmods);
cmods->count = total_mods;
cmods->image = image;
g_assert (image_is_dynamic (image));
MonoDynamicImage *allocator = (MonoDynamicImage *) image;
g_assert (total_mods > 0);
/* store cmods in reverse order from how the API supplies them.
(Assemblies store modifiers in reverse order of IL syntax - and SRE
follows the same order as IL syntax). */
int modifier_index = total_mods - 1;
MonoObjectHandle mod_handle = MONO_HANDLE_NEW (MonoObject, NULL);
for (int i=0; i < num_req_mods; i++) {
cmods->modifiers [modifier_index].required = TRUE;
MONO_HANDLE_ARRAY_GETREF (mod_handle, req_array, i);
cmods->modifiers [modifier_index].token = mono_image_create_token (allocator, mod_handle, FALSE, TRUE, error);
modifier_index--;
}
for (int i=0; i < num_opt_mods; i++) {
cmods->modifiers [modifier_index].required = FALSE;
MONO_HANDLE_ARRAY_GETREF (mod_handle, opt_array, i);
cmods->modifiers [modifier_index].token = mono_image_create_token (allocator, mod_handle, FALSE, TRUE, error);
modifier_index--;
}
g_assert (modifier_index == -1);
HANDLE_FUNCTION_RETURN_VAL ((MonoType *) result);
}
static
MonoType *
mono_type_array_get_and_resolve_with_modifiers (MonoArrayHandle types, MonoArrayHandle required_modifiers, MonoArrayHandle optional_modifiers, int idx, MonoImage *image, MonoError *error)
{
HANDLE_FUNCTION_ENTER();
error_init (error);
MonoReflectionTypeHandle type = MONO_HANDLE_NEW (MonoReflectionType, NULL);
MonoArrayHandle req_mods_handle = MONO_HANDLE_NEW (MonoArray, NULL);
MonoArrayHandle opt_mods_handle = MONO_HANDLE_NEW (MonoArray, NULL);
if (!MONO_HANDLE_IS_NULL (required_modifiers))
MONO_HANDLE_ARRAY_GETREF (req_mods_handle, required_modifiers, idx);
if (!MONO_HANDLE_IS_NULL (optional_modifiers))
MONO_HANDLE_ARRAY_GETREF (opt_mods_handle, optional_modifiers, idx);
MONO_HANDLE_ARRAY_GETREF (type, types, idx);
MonoType *result = mono_reflection_type_handle_mono_type (type, error);
result = (MonoType *) add_custom_modifiers_to_type (result, req_mods_handle, opt_mods_handle, image, error);
HANDLE_FUNCTION_RETURN_VAL (result);
}
#ifndef DISABLE_REFLECTION_EMIT
static gboolean
is_sre_array (MonoClass *klass)
{
check_corlib_type_cached (klass, "System.Reflection.Emit", "ArrayType");
}
static gboolean
is_sre_byref (MonoClass *klass)
{
check_corlib_type_cached (klass, "System.Reflection.Emit", "ByRefType");
}
static gboolean
is_sre_pointer (MonoClass *klass)
{
check_corlib_type_cached (klass, "System.Reflection.Emit", "PointerType");
}
static gboolean
is_sre_generic_instance (MonoClass *klass)
{
check_corlib_type_cached (klass, "System.Reflection.Emit", "TypeBuilderInstantiation");
}
static gboolean
is_sre_type_builder (MonoClass *klass)
{
check_corlib_type_cached (klass, "System.Reflection.Emit", "TypeBuilder");
}
static gboolean
is_sre_method_builder (MonoClass *klass)
{
check_corlib_type_cached (klass, "System.Reflection.Emit", "MethodBuilder");
}
gboolean
mono_is_sre_ctor_builder (MonoClass *klass)
{
check_corlib_type_cached (klass, "System.Reflection.Emit", "ConstructorBuilder");
}
static gboolean
is_sre_field_builder (MonoClass *klass)
{
check_corlib_type_cached (klass, "System.Reflection.Emit", "FieldBuilder");
}
static gboolean
is_sre_gparam_builder (MonoClass *klass)
{
check_corlib_type_cached (klass, "System.Reflection.Emit", "GenericTypeParameterBuilder");
}
static gboolean
is_sre_enum_builder (MonoClass *klass)
{
check_corlib_type_cached (klass, "System.Reflection.Emit", "EnumBuilder");
}
gboolean
mono_is_sre_method_on_tb_inst (MonoClass *klass)
{
check_corlib_type_cached (klass, "System.Reflection.Emit", "MethodOnTypeBuilderInst");
}
gboolean
mono_is_sre_ctor_on_tb_inst (MonoClass *klass)
{
check_corlib_type_cached (klass, "System.Reflection.Emit", "ConstructorOnTypeBuilderInst");
}
static MonoReflectionTypeHandle
mono_reflection_type_get_underlying_system_type (MonoReflectionTypeHandle t, MonoError *error)
{
HANDLE_FUNCTION_ENTER ();
error_init (error);
MONO_STATIC_POINTER_INIT (MonoMethod, method_get_underlying_system_type)
method_get_underlying_system_type = mono_class_get_method_from_name_checked (mono_defaults.systemtype_class, "get_UnderlyingSystemType", 0, 0, error);
mono_error_assert_ok (error);
MONO_STATIC_POINTER_INIT_END (MonoMethod, method_get_underlying_system_type)
MonoReflectionTypeHandle rt = MONO_HANDLE_NEW (MonoReflectionType, NULL);
MonoMethod *usertype_method = mono_object_handle_get_virtual_method (MONO_HANDLE_CAST (MonoObject, t), method_get_underlying_system_type, error);
goto_if_nok (error, leave);
MONO_HANDLE_ASSIGN (rt, MONO_HANDLE_CAST (MonoReflectionType, MONO_HANDLE_NEW (MonoObject, mono_runtime_invoke_checked (usertype_method, MONO_HANDLE_RAW (t), NULL, error))));
leave:
HANDLE_FUNCTION_RETURN_REF (MonoReflectionType, rt);
}
MonoType*
mono_reflection_type_get_handle (MonoReflectionType* ref_raw, MonoError *error)
{
HANDLE_FUNCTION_ENTER ();
error_init (error);
MONO_HANDLE_DCL (MonoReflectionType, ref);
MonoType * const result = mono_reflection_type_handle_mono_type (ref, error);
HANDLE_FUNCTION_RETURN_VAL (result);
}
static MonoType*
reflection_instance_handle_mono_type (MonoReflectionGenericClassHandle ref_gclass, MonoError *error)
{
HANDLE_FUNCTION_ENTER ();
MonoType *result = NULL;
MonoType **types = NULL;
MonoArrayHandle typeargs = MONO_HANDLE_NEW_GET (MonoArray, ref_gclass, type_arguments);
int count = mono_array_handle_length (typeargs);
types = g_new0 (MonoType*, count);
MonoReflectionTypeHandle t = MONO_HANDLE_NEW (MonoReflectionType, NULL);
for (int i = 0; i < count; ++i) {
MONO_HANDLE_ARRAY_GETREF (t, typeargs, i);
types [i] = mono_reflection_type_handle_mono_type (t, error);
if (!types[i] || !is_ok (error)) {
goto leave;
}
}
/* Need to resolve the generic_type in order for it to create its generic context. */
MonoReflectionTypeHandle ref_gtd;
ref_gtd = MONO_HANDLE_NEW_GET (MonoReflectionType, ref_gclass, generic_type);
MonoType *gtd;
gtd = mono_reflection_type_handle_mono_type (ref_gtd, error);
goto_if_nok (error, leave);
MonoClass *gtd_klass;
gtd_klass = mono_class_from_mono_type_internal (gtd);
if (is_sre_type_builder (mono_handle_class (ref_gtd))) {
reflection_setup_internal_class (MONO_HANDLE_CAST (MonoReflectionTypeBuilder, ref_gtd), error);
goto_if_nok (error, leave);
}
g_assert (count == 0 || mono_class_is_gtd (gtd_klass));
result = mono_reflection_bind_generic_parameters (ref_gtd, count, types, error);
goto_if_nok (error, leave);
g_assert (result);
MONO_HANDLE_SETVAL (MONO_HANDLE_CAST (MonoReflectionType, ref_gclass), type, MonoType*, result);
leave:
g_free (types);
HANDLE_FUNCTION_RETURN_VAL (result);
}
static MonoType*
reflection_param_handle_mono_type (MonoReflectionGenericParamHandle ref_gparam, MonoError *error)
{
HANDLE_FUNCTION_ENTER ();
error_init (error);
MonoType *result = NULL;
MonoReflectionTypeBuilderHandle ref_tbuilder = MONO_HANDLE_NEW_GET (MonoReflectionTypeBuilder, ref_gparam, tbuilder);
MonoReflectionModuleBuilderHandle ref_module = MONO_HANDLE_NEW_GET (MonoReflectionModuleBuilder, ref_tbuilder, module);
MonoDynamicImage *dynamic_image = MONO_HANDLE_GETVAL (ref_module, dynamic_image);
MonoImage *image = &dynamic_image->image;
MonoGenericParamFull *param = mono_image_new0 (image, MonoGenericParamFull, 1);
MonoStringHandle ref_name = MONO_HANDLE_NEW_GET (MonoString, ref_gparam, name);
param->info.name = mono_string_to_utf8_image (image, ref_name, error);
mono_error_assert_ok (error);
param->num = MONO_HANDLE_GETVAL (ref_gparam, index);
MonoReflectionMethodBuilderHandle ref_mbuilder = MONO_HANDLE_NEW_GET (MonoReflectionMethodBuilder, ref_gparam, mbuilder);
if (!MONO_HANDLE_IS_NULL (ref_mbuilder)) {
MonoGenericContainer *generic_container = MONO_HANDLE_GETVAL (ref_mbuilder, generic_container);
if (!generic_container) {
generic_container = (MonoGenericContainer *)mono_image_alloc0 (image, sizeof (MonoGenericContainer));
generic_container->is_method = TRUE;
/*
* Cannot set owner.method, since the MonoMethod is not created yet.
* Set the image field instead, so type_in_image () works.
*/
generic_container->is_anonymous = TRUE;
generic_container->owner.image = image;
MONO_HANDLE_SETVAL (ref_mbuilder, generic_container, MonoGenericContainer*, generic_container);
}
param->owner = generic_container;
} else {
MonoType *type = mono_reflection_type_handle_mono_type (MONO_HANDLE_CAST (MonoReflectionType, ref_tbuilder), error);
goto_if_nok (error, leave);
MonoClass *owner;
owner = mono_class_from_mono_type_internal (type);
g_assert (mono_class_is_gtd (owner));
param->owner = mono_class_get_generic_container (owner);
}
MonoClass *pklass;
pklass = mono_class_create_generic_parameter ((MonoGenericParam *) param);
result = m_class_get_byval_arg (pklass);
mono_class_set_ref_info (pklass, MONO_HANDLE_CAST (MonoObject, ref_gparam));
mono_image_append_class_to_reflection_info_set (pklass);
MONO_HANDLE_SETVAL (MONO_HANDLE_CAST (MonoReflectionType, ref_gparam), type, MonoType*, result);
leave:
HANDLE_FUNCTION_RETURN_VAL (result);
}
static MonoType*
mono_type_array_get_and_resolve_raw (MonoArray* array_raw, int idx, MonoError *error)
{
HANDLE_FUNCTION_ENTER(); /* FIXME callers of mono_type_array_get_and_resolve_raw should use handles */
error_init (error);
MONO_HANDLE_DCL (MonoArray, array);
MonoType * const result = mono_type_array_get_and_resolve (array, idx, error);
HANDLE_FUNCTION_RETURN_VAL (result);
}
MonoType*
mono_reflection_type_handle_mono_type (MonoReflectionTypeHandle ref, MonoError *error)
{
HANDLE_FUNCTION_ENTER ();
error_init (error);
MonoType* result = NULL;
g_assert (!MONO_HANDLE_IS_NULL (ref));
if (MONO_HANDLE_IS_NULL (ref))
goto leave;
MonoType *t;
t = MONO_HANDLE_GETVAL (ref, type);
if (t) {
result = t;
goto leave;
}
if (mono_reflection_is_usertype (ref)) {
MONO_HANDLE_ASSIGN (ref, mono_reflection_type_get_underlying_system_type (ref, error));
if (!is_ok (error) || MONO_HANDLE_IS_NULL (ref) || mono_reflection_is_usertype (ref))
goto leave;
t = MONO_HANDLE_GETVAL (ref, type);
if (t) {
result = t;
goto leave;
}
}
MonoClass *klass;
klass = mono_handle_class (ref);
if (is_sre_array (klass)) {
MonoReflectionArrayTypeHandle sre_array = MONO_HANDLE_CAST (MonoReflectionArrayType, ref);
MonoReflectionTypeHandle ref_element = MONO_HANDLE_NEW_GET (MonoReflectionType, sre_array, element_type);
MonoType *base = mono_reflection_type_handle_mono_type (ref_element, error);
goto_if_nok (error, leave);
g_assert (base);
gint32 rank = MONO_HANDLE_GETVAL (sre_array, rank);
MonoClass *eclass = mono_class_from_mono_type_internal (base);
result = mono_image_new0 (eclass->image, MonoType, 1);
if (rank == 0) {
result->type = MONO_TYPE_SZARRAY;
result->data.klass = eclass;
} else {
MonoArrayType *at = (MonoArrayType *)mono_image_alloc0 (eclass->image, sizeof (MonoArrayType));
result->type = MONO_TYPE_ARRAY;
result->data.array = at;
at->eklass = eclass;
at->rank = rank;
}
MONO_HANDLE_SETVAL (ref, type, MonoType*, result);
} else if (is_sre_byref (klass)) {
MonoReflectionDerivedTypeHandle sre_byref = MONO_HANDLE_CAST (MonoReflectionDerivedType, ref);
MonoReflectionTypeHandle ref_element = MONO_HANDLE_NEW_GET (MonoReflectionType, sre_byref, element_type);
MonoType *base = mono_reflection_type_handle_mono_type (ref_element, error);
goto_if_nok (error, leave);
g_assert (base);
result = &mono_class_from_mono_type_internal (base)->this_arg;
MONO_HANDLE_SETVAL (ref, type, MonoType*, result);
} else if (is_sre_pointer (klass)) {
MonoReflectionDerivedTypeHandle sre_pointer = MONO_HANDLE_CAST (MonoReflectionDerivedType, ref);
MonoReflectionTypeHandle ref_element = MONO_HANDLE_NEW_GET (MonoReflectionType, sre_pointer, element_type);
MonoType *base = mono_reflection_type_handle_mono_type (ref_element, error);
goto_if_nok (error, leave);
g_assert (base);
result = m_class_get_byval_arg (mono_class_create_ptr (base));
MONO_HANDLE_SETVAL (ref, type, MonoType*, result);
} else if (is_sre_generic_instance (klass)) {
result = reflection_instance_handle_mono_type (MONO_HANDLE_CAST (MonoReflectionGenericClass, ref), error);
} else if (is_sre_gparam_builder (klass)) {
result = reflection_param_handle_mono_type (MONO_HANDLE_CAST (MonoReflectionGenericParam, ref), error);
} else if (is_sre_enum_builder (klass)) {
MonoReflectionEnumBuilderHandle ref_ebuilder = MONO_HANDLE_CAST (MonoReflectionEnumBuilder, ref);
MonoReflectionTypeHandle ref_tb = MONO_HANDLE_CAST (MonoReflectionType, MONO_HANDLE_NEW_GET (MonoReflectionTypeBuilder, ref_ebuilder, tb));
result = mono_reflection_type_handle_mono_type (ref_tb, error);
} else if (is_sre_type_builder (klass)) {
MonoReflectionTypeBuilderHandle ref_tb = MONO_HANDLE_CAST (MonoReflectionTypeBuilder, ref);
/* This happens when a finished type references an unfinished one. Have to create the minimal type */
reflection_setup_internal_class (ref_tb, error);
mono_error_assert_ok (error);
result = MONO_HANDLE_GETVAL (ref, type);
} else {
g_error ("Cannot handle corlib user type %s", mono_type_full_name (m_class_get_byval_arg (mono_handle_class (ref))));
}
leave:
HANDLE_FUNCTION_RETURN_VAL (result);
}
/**
* LOCKING: Assumes the loader lock is held.
*/
static MonoMethodSignature*
parameters_to_signature (MonoImage *image, MonoArrayHandle parameters, MonoArrayHandle required_modifiers, MonoArrayHandle optional_modifiers, MonoError *error) {
MonoMethodSignature *sig;
int count, i;
error_init (error);
count = MONO_HANDLE_IS_NULL (parameters) ? 0 : mono_array_handle_length (parameters);
sig = (MonoMethodSignature *)mono_image_g_malloc0 (image, MONO_SIZEOF_METHOD_SIGNATURE + sizeof (MonoType*) * count);
sig->param_count = count;
sig->sentinelpos = -1; /* FIXME */
for (i = 0; i < count; ++i) {
sig->params [i] = mono_type_array_get_and_resolve_with_modifiers (parameters, required_modifiers, optional_modifiers, i, image, error);
if (!is_ok (error)) {
image_g_free (image, sig);
return NULL;
}
}
return sig;
}
/**
* LOCKING: Assumes the loader lock is held.
*/
static MonoMethodSignature*
ctor_builder_to_signature (MonoImage *image, MonoReflectionCtorBuilderHandle ctor, MonoError *error) {
MonoMethodSignature *sig;
error_init (error);
MonoArrayHandle params = MONO_HANDLE_NEW_GET(MonoArray, ctor, parameters);
MonoArrayHandle required_modifiers = MONO_HANDLE_NEW_GET(MonoArray, ctor, param_modreq);
MonoArrayHandle optional_modifiers = MONO_HANDLE_NEW_GET(MonoArray, ctor, param_modopt);
sig = parameters_to_signature (image, params, required_modifiers, optional_modifiers, error);
return_val_if_nok (error, NULL);
sig->hasthis = MONO_HANDLE_GETVAL (ctor, attrs) & METHOD_ATTRIBUTE_STATIC? 0: 1;
sig->ret = mono_get_void_type ();
return sig;
}
static MonoMethodSignature*
ctor_builder_to_signature_raw (MonoImage *image, MonoReflectionCtorBuilder* ctor_raw, MonoError *error) {
HANDLE_FUNCTION_ENTER();
MONO_HANDLE_DCL (MonoReflectionCtorBuilder, ctor);
MonoMethodSignature * const sig = ctor_builder_to_signature (image, ctor, error);
HANDLE_FUNCTION_RETURN_VAL (sig);
}
/**
* LOCKING: Assumes the loader lock is held.
*/
static MonoMethodSignature*
method_builder_to_signature (MonoImage *image, MonoReflectionMethodBuilderHandle method, MonoError *error)
{
MonoMethodSignature *sig;
error_init (error);
MonoArrayHandle params = MONO_HANDLE_NEW_GET(MonoArray, method, parameters);
MonoArrayHandle required_modifiers = MONO_HANDLE_NEW_GET(MonoArray, method, param_modreq);
MonoArrayHandle optional_modifiers = MONO_HANDLE_NEW_GET(MonoArray, method, param_modopt);
MonoArrayHandle ret_req_modifiers = MONO_HANDLE_NEW_GET (MonoArray, method, return_modreq);
MonoArrayHandle ret_opt_modifiers = MONO_HANDLE_NEW_GET (MonoArray, method, return_modopt);
sig = parameters_to_signature (image, params, required_modifiers, optional_modifiers, error);
return_val_if_nok (error, NULL);
sig->hasthis = MONO_HANDLE_GETVAL (method, attrs) & METHOD_ATTRIBUTE_STATIC? 0: 1;
MonoReflectionTypeHandle rtype;
rtype = MONO_HANDLE_CAST (MonoReflectionType, MONO_HANDLE_NEW_GET (MonoObject, method, rtype));
if (!MONO_HANDLE_IS_NULL (rtype)) {
sig->ret = mono_reflection_type_handle_mono_type (rtype, error);
sig->ret = add_custom_modifiers_to_type (sig->ret, ret_req_modifiers, ret_opt_modifiers, image, error);
if (!is_ok (error)) {
image_g_free (image, sig);
return NULL;
}
} else {
sig->ret = mono_get_void_type ();
}
MonoArrayHandle generic_params = MONO_HANDLE_NEW_GET (MonoArray, method, generic_params);
sig->generic_param_count = MONO_HANDLE_IS_NULL (generic_params) ? 0 : mono_array_handle_length (generic_params);
return sig;
}
static MonoMethodSignature*
dynamic_method_to_signature (MonoReflectionDynamicMethodHandle method, MonoError *error)
{
HANDLE_FUNCTION_ENTER ();
MonoMethodSignature *sig = NULL;
error_init (error);
sig = parameters_to_signature (NULL, MONO_HANDLE_NEW_GET (MonoArray, method, parameters),
MONO_HANDLE_CAST (MonoArray, NULL_HANDLE), MONO_HANDLE_CAST (MonoArray, NULL_HANDLE), error);
goto_if_nok (error, leave);
sig->hasthis = MONO_HANDLE_GETVAL (method, attrs) & METHOD_ATTRIBUTE_STATIC? 0: 1;
MonoReflectionTypeHandle rtype;
rtype = MONO_HANDLE_NEW_GET (MonoReflectionType, method, rtype);
if (!MONO_HANDLE_IS_NULL (rtype)) {
sig->ret = mono_reflection_type_handle_mono_type (rtype, error);
if (!is_ok (error)) {
g_free (sig);
sig = NULL;
goto leave;
}
} else {
sig->ret = mono_get_void_type ();
}
sig->generic_param_count = 0;
leave:
HANDLE_FUNCTION_RETURN_VAL (sig);
}
static void
get_prop_name_and_type (MonoObject *prop, char **name, MonoType **type, MonoError *error)
{
error_init (error);
MonoClass *klass = mono_object_class (prop);
if (strcmp (klass->name, "PropertyBuilder") == 0) {
MonoReflectionPropertyBuilder *pb = (MonoReflectionPropertyBuilder *)prop;
*name = mono_string_to_utf8_checked_internal (pb->name, error);
return_if_nok (error);
*type = mono_reflection_type_get_handle ((MonoReflectionType*)pb->type, error);
} else {
MonoReflectionProperty *p = (MonoReflectionProperty *)prop;
*name = g_strdup (p->property->name);
if (p->property->get)
*type = mono_method_signature_internal (p->property->get)->ret;
else
*type = mono_method_signature_internal (p->property->set)->params [mono_method_signature_internal (p->property->set)->param_count - 1];
}
}
static void
get_field_name_and_type (MonoObject *field, char **name, MonoType **type, MonoError *error)
{
error_init (error);
MonoClass *klass = mono_object_class (field);
if (strcmp (klass->name, "FieldBuilder") == 0) {
MonoReflectionFieldBuilder *fb = (MonoReflectionFieldBuilder *)field;
*name = mono_string_to_utf8_checked_internal (fb->name, error);
return_if_nok (error);
*type = mono_reflection_type_get_handle ((MonoReflectionType*)fb->type, error);
} else {
MonoReflectionField *f = (MonoReflectionField *)field;
*name = g_strdup (mono_field_get_name (f->field));
*type = f->field->type;
}
}
#else /* DISABLE_REFLECTION_EMIT */
static gboolean
is_sre_type_builder (MonoClass *klass)
{
return FALSE;
}
static gboolean
is_sre_generic_instance (MonoClass *klass)
{
return FALSE;
}
gboolean
mono_is_sre_ctor_builder (MonoClass *klass)
{
return FALSE;
}
gboolean
mono_is_sre_method_on_tb_inst (MonoClass *klass)
{
return FALSE;
}
gboolean
mono_is_sre_ctor_on_tb_inst (MonoClass *klass)
{
return FALSE;
}
#endif /* !DISABLE_REFLECTION_EMIT */
gboolean
mono_is_sr_mono_property (MonoClass *klass)
{
check_corlib_type_cached (klass, "System.Reflection", "RuntimePropertyInfo");
}
static gboolean
is_sr_mono_method (MonoClass *klass)
{
check_corlib_type_cached (klass, "System.Reflection", "RuntimeMethodInfo");
}
gboolean
mono_is_sr_mono_cmethod (MonoClass *klass)
{
check_corlib_type_cached (klass, "System.Reflection", "RuntimeConstructorInfo");
}
gboolean
mono_class_is_reflection_method_or_constructor (MonoClass *klass)
{
return is_sr_mono_method (klass) || mono_is_sr_mono_cmethod (klass);
}
gboolean
mono_is_sre_type_builder (MonoClass *klass)
{
return is_sre_type_builder (klass);
}
gboolean
mono_is_sre_generic_instance (MonoClass *klass)
{
return is_sre_generic_instance (klass);
}
/**
* encode_cattr_value:
* Encode a value in a custom attribute stream of bytes.
* The value to encode is either supplied as an object in argument val
* (valuetypes are boxed), or as a pointer to the data in the
* argument argval.
* @type represents the type of the value
* @buffer is the start of the buffer
* @p the current position in the buffer
* @buflen contains the size of the buffer and is used to return the new buffer size
* if this needs to be realloced.
* @retbuffer and @retp return the start and the position of the buffer
* @error set on error.
*/
static void
encode_cattr_value (MonoAssembly *assembly, char *buffer, char *p, char **retbuffer, char **retp, guint32 *buflen, MonoType *type, MonoObject *arg, gconstpointer void_argval, MonoError *error)
{
const char *argval = (const char*)void_argval;
MonoTypeEnum simple_type;
error_init (error);
if ((p-buffer) + 10 >= *buflen) {
char *newbuf;
*buflen *= 2;
newbuf = (char *)g_realloc (buffer, *buflen);
p = newbuf + (p-buffer);
buffer = newbuf;
}
if (!argval)
argval = (const char*)mono_object_get_data (arg);
simple_type = type->type;
handle_enum:
switch (simple_type) {
case MONO_TYPE_BOOLEAN:
case MONO_TYPE_U1:
case MONO_TYPE_I1:
*p++ = *argval;
break;
case MONO_TYPE_CHAR:
case MONO_TYPE_U2:
case MONO_TYPE_I2:
swap_with_size (p, argval, 2, 1);
p += 2;
break;
case MONO_TYPE_U4:
case MONO_TYPE_I4:
case MONO_TYPE_R4:
swap_with_size (p, argval, 4, 1);
p += 4;
break;
case MONO_TYPE_R8:
swap_with_size (p, argval, 8, 1);
p += 8;
break;
case MONO_TYPE_U8:
case MONO_TYPE_I8:
swap_with_size (p, argval, 8, 1);
p += 8;
break;
case MONO_TYPE_VALUETYPE:
if (type->data.klass->enumtype) {
simple_type = mono_class_enum_basetype_internal (type->data.klass)->type;
goto handle_enum;
} else {
g_warning ("generic valuetype %s not handled in custom attr value decoding", type->data.klass->name);
}
break;
case MONO_TYPE_STRING: {
char *str;
guint32 slen;
if (!arg) {
MONO_DISABLE_WARNING(4309) // truncation of constant
*p++ = 0xFF;
MONO_RESTORE_WARNING
break;
}
str = mono_string_to_utf8_checked_internal ((MonoString*)arg, error);
return_if_nok (error);
slen = strlen (str);
if ((p-buffer) + 10 + slen >= *buflen) {
char *newbuf;
*buflen *= 2;
*buflen += slen;
newbuf = (char *)g_realloc (buffer, *buflen);
p = newbuf + (p-buffer);
buffer = newbuf;
}
mono_metadata_encode_value (slen, p, &p);
memcpy (p, str, slen);
p += slen;
g_free (str);
break;
}
case MONO_TYPE_CLASS: {
char *str;
guint32 slen;
MonoType *arg_type;
if (!arg) {
MONO_DISABLE_WARNING(4309) // truncation of constant
*p++ = 0xFF;
MONO_RESTORE_WARNING
break;
}
handle_type:
arg_type = mono_reflection_type_get_handle ((MonoReflectionType*)arg, error);
return_if_nok (error);
str = type_get_qualified_name (arg_type, NULL);
slen = strlen (str);
if ((p-buffer) + 10 + slen >= *buflen) {
char *newbuf;
*buflen *= 2;
*buflen += slen;
newbuf = (char *)g_realloc (buffer, *buflen);
p = newbuf + (p-buffer);
buffer = newbuf;
}
mono_metadata_encode_value (slen, p, &p);
memcpy (p, str, slen);
p += slen;
g_free (str);
break;
}
case MONO_TYPE_SZARRAY: {
int len, i;
MonoClass *eclass, *arg_eclass;
if (!arg) {
MONO_DISABLE_WARNING(4309) // truncation of constant
*p++ = 0xff; *p++ = 0xff; *p++ = 0xff; *p++ = 0xff;
MONO_RESTORE_WARNING
break;
}
len = mono_array_length_internal ((MonoArray*)arg);
*p++ = len & 0xff;
*p++ = (len >> 8) & 0xff;
*p++ = (len >> 16) & 0xff;
*p++ = (len >> 24) & 0xff;
*retp = p;
*retbuffer = buffer;
eclass = type->data.klass;
arg_eclass = mono_object_class (arg)->element_class;
if (!eclass) {
/* Happens when we are called from the MONO_TYPE_OBJECT case below */
eclass = mono_defaults.object_class;
}
if (eclass == mono_defaults.object_class && arg_eclass->valuetype) {
char *elptr = mono_array_addr_internal ((MonoArray*)arg, char, 0);
int elsize = mono_class_array_element_size (arg_eclass);
for (i = 0; i < len; ++i) {
encode_cattr_value (assembly, buffer, p, &buffer, &p, buflen, m_class_get_byval_arg (arg_eclass), NULL, elptr, error);
return_if_nok (error);
elptr += elsize;
}
} else if (eclass->valuetype && arg_eclass->valuetype) {
char *elptr = mono_array_addr_internal ((MonoArray*)arg, char, 0);
int elsize = mono_class_array_element_size (eclass);
for (i = 0; i < len; ++i) {
encode_cattr_value (assembly, buffer, p, &buffer, &p, buflen, m_class_get_byval_arg (eclass), NULL, elptr, error);
return_if_nok (error);
elptr += elsize;
}
} else {
for (i = 0; i < len; ++i) {
encode_cattr_value (assembly, buffer, p, &buffer, &p, buflen, m_class_get_byval_arg (eclass), mono_array_get_internal ((MonoArray*)arg, MonoObject*, i), NULL, error);
return_if_nok (error);
}
}
break;
}
case MONO_TYPE_OBJECT: {
MonoClass *klass;
char *str;
guint32 slen;
/*
* The parameter type is 'object' but the type of the actual
* argument is not. So we have to add type information to the blob
* too. This is completely undocumented in the spec.
*/
if (arg == NULL) {
*p++ = MONO_TYPE_STRING; // It's same hack as MS uses
MONO_DISABLE_WARNING(4309) // truncation of constant
*p++ = 0xFF;
MONO_RESTORE_WARNING
break;
}
klass = mono_object_class (arg);
if (mono_object_isinst_checked (arg, mono_defaults.systemtype_class, error)) {
*p++ = 0x50;
goto handle_type;
} else {
return_if_nok (error);
}
MonoType *klass_byval_arg = m_class_get_byval_arg (klass);
if (klass->enumtype) {
*p++ = 0x55;
} else if (klass == mono_defaults.string_class) {
simple_type = MONO_TYPE_STRING;
*p++ = 0x0E;
goto handle_enum;
} else if (klass->rank == 1) {
*p++ = 0x1D;
if (m_class_get_byval_arg (m_class_get_element_class (klass))->type == MONO_TYPE_OBJECT)
/* See Partition II, Appendix B3 */
*p++ = 0x51;
else
*p++ = m_class_get_byval_arg (m_class_get_element_class (klass))->type;
encode_cattr_value (assembly, buffer, p, &buffer, &p, buflen, klass_byval_arg, arg, NULL, error);
return_if_nok (error);
break;
} else if (klass_byval_arg->type >= MONO_TYPE_BOOLEAN && klass_byval_arg->type <= MONO_TYPE_R8) {
*p++ = simple_type = klass_byval_arg->type;
goto handle_enum;
} else {
mono_error_set_not_supported (error, "unhandled type in custom attr");
break;
}
str = type_get_qualified_name (m_class_get_byval_arg (klass), NULL);
slen = strlen (str);
if ((p-buffer) + 10 + slen >= *buflen) {
char *newbuf;
*buflen *= 2;
*buflen += slen;
newbuf = (char *)g_realloc (buffer, *buflen);
p = newbuf + (p-buffer);
buffer = newbuf;
}
mono_metadata_encode_value (slen, p, &p);
memcpy (p, str, slen);
p += slen;
g_free (str);
simple_type = mono_class_enum_basetype_internal (klass)->type;
goto handle_enum;
}
default:
mono_error_set_not_supported (error, "type 0x%02x not yet supported in custom attr encoder", simple_type);
}
*retp = p;
*retbuffer = buffer;
}
static void
encode_field_or_prop_type (MonoType *type, char *p, char **retp)
{
if (type->type == MONO_TYPE_VALUETYPE && type->data.klass->enumtype) {
char *str = type_get_qualified_name (type, NULL);
int slen = strlen (str);
*p++ = 0x55;
/*
* This seems to be optional...
* *p++ = 0x80;
*/
mono_metadata_encode_value (slen, p, &p);
memcpy (p, str, slen);
p += slen;
g_free (str);
} else if (type->type == MONO_TYPE_OBJECT) {
*p++ = 0x51;
} else if (type->type == MONO_TYPE_CLASS) {
/* it should be a type: encode_cattr_value () has the check */
*p++ = 0x50;
} else {
mono_metadata_encode_value (type->type, p, &p);
if (type->type == MONO_TYPE_SZARRAY)
/* See the examples in Partition VI, Annex B */
encode_field_or_prop_type (m_class_get_byval_arg (type->data.klass), p, &p);
}
*retp = p;
}
#ifndef DISABLE_REFLECTION_EMIT
static void
encode_named_val (MonoReflectionAssembly *assembly, char *buffer, char *p, char **retbuffer, char **retp, guint32 *buflen, MonoType *type, char *name, MonoObject *value, MonoError *error)
{
int len;
error_init (error);
/* Preallocate a large enough buffer */
if (type->type == MONO_TYPE_VALUETYPE && type->data.klass->enumtype) {
char *str = type_get_qualified_name (type, NULL);
len = strlen (str);
g_free (str);
} else if (type->type == MONO_TYPE_SZARRAY && type->data.klass->enumtype) {
char *str = type_get_qualified_name (m_class_get_byval_arg (type->data.klass), NULL);
len = strlen (str);
g_free (str);
} else {
len = 0;
}
len += strlen (name);
if ((p-buffer) + 20 + len >= *buflen) {
char *newbuf;
*buflen *= 2;
*buflen += len;
newbuf = (char *)g_realloc (buffer, *buflen);
p = newbuf + (p-buffer);
buffer = newbuf;
}
encode_field_or_prop_type (type, p, &p);
len = strlen (name);
mono_metadata_encode_value (len, p, &p);
memcpy (p, name, len);
p += len;
encode_cattr_value (assembly->assembly, buffer, p, &buffer, &p, buflen, type, value, NULL, error);
return_if_nok (error);
*retp = p;
*retbuffer = buffer;
}
/**
* mono_reflection_get_custom_attrs_blob:
* \param ctor custom attribute constructor
* \param ctorArgs arguments o the constructor
* \param properties
* \param propValues
* \param fields
* \param fieldValues
* Creates the blob of data that needs to be saved in the metadata and that represents
* the custom attributed described by \p ctor, \p ctorArgs etc.
* \returns a \c Byte array representing the blob of data.
*/
MonoArray*
mono_reflection_get_custom_attrs_blob (MonoReflectionAssembly *assembly, MonoObject *ctor, MonoArray *ctorArgs, MonoArray *properties, MonoArray *propValues, MonoArray *fields, MonoArray* fieldValues)
{
HANDLE_FUNCTION_ENTER ();
MonoArrayHandle result;
MONO_ENTER_GC_UNSAFE;
ERROR_DECL (error);
MONO_HANDLE_NEW (MonoReflectionAssembly, assembly);
MONO_HANDLE_NEW (MonoObject, ctor);
MONO_HANDLE_NEW (MonoArray, ctorArgs);
MONO_HANDLE_NEW (MonoArray, properties);
MONO_HANDLE_NEW (MonoArray, propValues);
MONO_HANDLE_NEW (MonoArray, fields);
MONO_HANDLE_NEW (MonoArray, fieldValues);
result = mono_reflection_get_custom_attrs_blob_checked (assembly, ctor, ctorArgs, properties, propValues, fields, fieldValues, error);
mono_error_cleanup (error);
MONO_EXIT_GC_UNSAFE;
HANDLE_FUNCTION_RETURN_OBJ (result);
}
/**
* mono_reflection_get_custom_attrs_blob_checked:
* \param ctor custom attribute constructor
* \param ctorArgs arguments o the constructor
* \param properties
* \param propValues
* \param fields
* \param fieldValues
* \param error set on error
* Creates the blob of data that needs to be saved in the metadata and that represents
* the custom attributed described by \p ctor, \p ctorArgs etc.
* \returns a \c Byte array representing the blob of data. On failure returns NULL and sets \p error.
*/
MonoArrayHandle
mono_reflection_get_custom_attrs_blob_checked (MonoReflectionAssembly *assembly, MonoObject *ctor, MonoArray *ctorArgs, MonoArray *properties, MonoArray *propValues, MonoArray *fields, MonoArray* fieldValues, MonoError *error)
{
MonoArrayHandle result = NULL_HANDLE_INIT;
MonoMethodSignature *sig;
MonoMethodSignature *sig_free = NULL;
MonoObject *arg;
char *buffer = NULL;
char *p;
guint32 buflen, i;
MonoObjectHandle h1 = NULL_HANDLE_INIT;
MonoObjectHandle h2 = NULL_HANDLE_INIT;
MonoObjectHandle argh = NULL_HANDLE_INIT;
HANDLE_FUNCTION_ENTER ();
if (strcmp (ctor->vtable->klass->name, "RuntimeConstructorInfo")) {
/* sig is freed later so allocate it in the heap */
sig = ctor_builder_to_signature_raw (NULL, (MonoReflectionCtorBuilder*)ctor, error); /* FIXME use handles */
sig_free = sig;
goto_if_nok (error, leave);
} else {
sig = mono_method_signature_internal (((MonoReflectionMethod*)ctor)->method);
}
g_assert (mono_array_length_internal (ctorArgs) == sig->param_count);
buflen = 256;
p = buffer = (char *)g_malloc (buflen);
/* write the prolog */
*p++ = 1;
*p++ = 0;
argh = MONO_HANDLE_NEW (MonoObject, NULL);
for (i = 0; i < sig->param_count; ++i) {
arg = mono_array_get_internal (ctorArgs, MonoObject*, i);
MONO_HANDLE_ASSIGN_RAW (argh, arg);
encode_cattr_value (assembly->assembly, buffer, p, &buffer, &p, &buflen, sig->params [i], arg, NULL, error);
goto_if_nok (error, leave);
}
i = 0;
if (properties)
i += mono_array_length_internal (properties);
if (fields)
i += mono_array_length_internal (fields);
*p++ = i & 0xff;
*p++ = (i >> 8) & 0xff;
if (properties || fields) {
h1 = MONO_HANDLE_NEW (MonoObject, NULL);
h2 = MONO_HANDLE_NEW (MonoObject, NULL);
}
if (properties) {
MonoObject *prop;
for (i = 0; i < mono_array_length_internal (properties); ++i) {
MonoType *ptype = NULL;
char *pname;
prop = (MonoObject *)mono_array_get_internal (properties, gpointer, i);
MONO_HANDLE_ASSIGN_RAW (h1, prop);
get_prop_name_and_type (prop, &pname, &ptype, error);
goto_if_nok (error, leave);
*p++ = 0x54; /* PROPERTY signature */
prop = (MonoObject*)mono_array_get_internal (propValues, gpointer, i);
MONO_HANDLE_ASSIGN_RAW (h2, prop);
encode_named_val (assembly, buffer, p, &buffer, &p, &buflen, ptype, pname, prop, error);
g_free (pname);
goto_if_nok (error, leave);
}
}
if (fields) {
MonoObject *field;
for (i = 0; i < mono_array_length_internal (fields); ++i) {
MonoType *ftype = NULL;
char *fname;
field = (MonoObject *)mono_array_get_internal (fields, gpointer, i);
MONO_HANDLE_ASSIGN_RAW (h1, field);
get_field_name_and_type (field, &fname, &ftype, error);
goto_if_nok (error, leave);
*p++ = 0x53; /* FIELD signature */
field = (MonoObject*)mono_array_get_internal (fieldValues, gpointer, i);
MONO_HANDLE_ASSIGN_RAW (h2, field);
encode_named_val (assembly, buffer, p, &buffer, &p, &buflen, ftype, fname, field, error);
g_free (fname);
goto_if_nok (error, leave);
}
}
g_assert (p - buffer <= buflen);
buflen = p - buffer;
result = mono_array_new_handle (mono_defaults.byte_class, buflen, error);
goto_if_nok (error, leave);
p = mono_array_addr_internal (MONO_HANDLE_RAW (result), char, 0);
memcpy (p, buffer, buflen);
leave:
g_free (buffer);
g_free (sig_free);
HANDLE_FUNCTION_RETURN_REF (MonoArray, result);
}
static gboolean
reflection_setup_class_hierarchy (GHashTable *unparented, MonoError *error)
{
error_init (error);
mono_loader_lock ();
MonoType *parent_type;
MonoType *child_type;
GHashTableIter iter;
g_hash_table_iter_init (&iter, unparented);
while (g_hash_table_iter_next (&iter, (gpointer *) &child_type, (gpointer *) &parent_type)) {
MonoClass *child_class = mono_class_from_mono_type_internal (child_type);
if (parent_type != NULL) {
MonoClass *parent_class = mono_class_from_mono_type_internal (parent_type);
child_class->parent = NULL;
/* fool mono_class_setup_parent */
child_class->supertypes = NULL;
mono_class_setup_parent (child_class, parent_class);
} else if (strcmp (child_class->name, "Object") == 0 && strcmp (child_class->name_space, "System") == 0) {
const char *old_n = child_class->name;
/* trick to get relative numbering right when compiling corlib */
child_class->name = "BuildingObject";
mono_class_setup_parent (child_class, mono_defaults.object_class);
child_class->name = old_n;
}
mono_class_setup_mono_type (child_class);
mono_class_setup_supertypes (child_class);
}
mono_loader_unlock ();
return is_ok (error);
}
static gboolean
reflection_setup_internal_class_internal (MonoReflectionTypeBuilderHandle ref_tb, MonoError *error)
{
HANDLE_FUNCTION_ENTER ();
error_init (error);
mono_loader_lock ();
gint32 entering_state = MONO_HANDLE_GETVAL (MONO_HANDLE_CAST (MonoReflectionTypeBuilder, ref_tb), state);
if (entering_state != MonoTypeBuilderNew) {
g_assert (MONO_HANDLE_GETVAL (MONO_HANDLE_CAST (MonoReflectionType, ref_tb), type));
goto leave;
}
MONO_HANDLE_SETVAL (ref_tb, state, gint32/*MonoTypeBuilderState*/, MonoTypeBuilderEntered);
MonoReflectionModuleBuilderHandle module_ref;
module_ref = MONO_HANDLE_NEW_GET (MonoReflectionModuleBuilder, ref_tb, module);
GHashTable *unparented_classes;
unparented_classes = MONO_HANDLE_GETVAL(module_ref, unparented_classes);
// If this type is already setup, exit. We'll fix the parenting later
MonoType *type;
type = MONO_HANDLE_GETVAL (MONO_HANDLE_CAST (MonoReflectionType, ref_tb), type);
if (type)
goto leave;
MonoReflectionModuleBuilderHandle ref_module;
ref_module = MONO_HANDLE_NEW_GET (MonoReflectionModuleBuilder, ref_tb, module);
MonoDynamicImage *dynamic_image;
dynamic_image = MONO_HANDLE_GETVAL (ref_module, dynamic_image);
MonoStringHandle ref_name;
ref_name = MONO_HANDLE_NEW_GET (MonoString, ref_tb, name);
MonoStringHandle ref_nspace;
ref_nspace = MONO_HANDLE_NEW_GET (MonoString, ref_tb, nspace);
guint32 table_idx;
table_idx = MONO_HANDLE_GETVAL (ref_tb, table_idx);
/*
* The size calculation here warrants some explaining.
* reflection_setup_internal_class is called too early, well before we know whether the type will be a GTD or DEF,
* meaning we need to alloc enough space to morth a def into a gtd.
*/
MonoClass *klass;
klass = (MonoClass *)mono_image_alloc0 (&dynamic_image->image, MAX (sizeof (MonoClassDef), sizeof (MonoClassGtd)));
klass->class_kind = MONO_CLASS_DEF;
klass->image = &dynamic_image->image;
klass->inited = 1; /* we lie to the runtime */
klass->name = mono_string_to_utf8_image (klass->image, ref_name, error);
goto_if_nok (error, leave);
klass->name_space = mono_string_to_utf8_image (klass->image, ref_nspace, error);
goto_if_nok (error, leave);
klass->type_token = MONO_TOKEN_TYPE_DEF | table_idx;
mono_class_set_flags (klass, MONO_HANDLE_GETVAL (ref_tb, attrs));
MONO_PROFILER_RAISE (class_loading, (klass));
klass->element_class = klass;
g_assert (!mono_class_has_ref_info (klass));
mono_class_set_ref_info (klass, MONO_HANDLE_CAST (MonoObject, ref_tb));
MonoReflectionTypeHandle ref_nesting_type;
ref_nesting_type = MONO_HANDLE_NEW_GET (MonoReflectionType, ref_tb, nesting_type);
/* Put into cache so mono_class_get_checked () will find it.
Skip nested types as those should not be available on the global scope. */
if (MONO_HANDLE_IS_NULL (ref_nesting_type))
mono_image_add_to_name_cache (klass->image, klass->name_space, klass->name, table_idx);
/*
We must register all types as we cannot rely on the name_cache hashtable since we find the class
by performing a mono_class_get which does the full resolution.
Working around this semantics would require us to write a lot of code for no clear advantage.
*/
mono_image_append_class_to_reflection_info_set (klass);
mono_dynamic_image_register_token (dynamic_image, MONO_TOKEN_TYPE_DEF | table_idx, MONO_HANDLE_CAST (MonoObject, ref_tb), MONO_DYN_IMAGE_TOK_NEW);
if ((!strcmp (klass->name, "ValueType") && !strcmp (klass->name_space, "System")) ||
(!strcmp (klass->name, "Object") && !strcmp (klass->name_space, "System")) ||
(!strcmp (klass->name, "Enum") && !strcmp (klass->name_space, "System"))) {
klass->instance_size = MONO_ABI_SIZEOF (MonoObject);
klass->size_inited = 1;
mono_class_setup_vtable_general (klass, NULL, 0, NULL);
}
mono_class_setup_mono_type (klass);
/*
* FIXME: handle interfaces.
*/
MonoReflectionTypeHandle ref_tb_type;
ref_tb_type = MONO_HANDLE_CAST (MonoReflectionType, ref_tb);
MONO_HANDLE_SETVAL (ref_tb_type, type, MonoType*, m_class_get_byval_arg (klass));
MONO_HANDLE_SETVAL (ref_tb, state, gint32, MonoTypeBuilderFinished);
reflection_init_generic_class (ref_tb, error);
goto_if_nok (error, leave);
// Do here so that the search inside of the parent can see the above type that's been set.
MonoReflectionTypeHandle ref_parent;
ref_parent = MONO_HANDLE_CAST (MonoReflectionType, MONO_HANDLE_NEW_GET (MonoObject, ref_tb, parent));
MonoType *parent_type;
parent_type = NULL;
if (!MONO_HANDLE_IS_NULL (ref_parent)) {
MonoClass *parent_klass = mono_handle_class (ref_parent);
gboolean recursive_init = TRUE;
if (is_sre_type_builder (parent_klass)) {
MonoTypeBuilderState parent_state = (MonoTypeBuilderState)MONO_HANDLE_GETVAL (MONO_HANDLE_CAST (MonoReflectionTypeBuilder, ref_parent), state);
if (parent_state != MonoTypeBuilderNew) {
// Initialize types reachable from parent recursively
// We'll fix the type hierarchy later
recursive_init = FALSE;
}
}
if (recursive_init) {
// If we haven't encountered a cycle, force the creation of ref_parent's type
mono_reflection_type_handle_mono_type (ref_parent, error);
goto_if_nok (error, leave);
}
parent_type = MONO_HANDLE_GETVAL (ref_parent, type);
// If we failed to create the parent, fail the child
if (!parent_type)
goto leave;
}
// Push the child type and parent type to process later
// Note: parent_type may be null.
g_assert (!g_hash_table_lookup (unparented_classes, m_class_get_byval_arg (klass)));
g_hash_table_insert (unparented_classes, m_class_get_byval_arg (klass), parent_type);
if (!MONO_HANDLE_IS_NULL (ref_nesting_type)) {
if (!reflection_setup_internal_class (MONO_HANDLE_CAST (MonoReflectionTypeBuilder, ref_nesting_type), error))
goto leave;
MonoType *nesting_type = mono_reflection_type_handle_mono_type (ref_nesting_type, error);
goto_if_nok (error, leave);
klass->nested_in = mono_class_from_mono_type_internal (nesting_type);
}
/*g_print ("setup %s as %s (%p)\n", klass->name, ((MonoObject*)tb)->vtable->klass->name, tb);*/
MONO_PROFILER_RAISE (class_loaded, (klass));
leave:
mono_loader_unlock ();
HANDLE_FUNCTION_RETURN_VAL (is_ok (error));
}
/**
* reflection_init_generic_class:
* @tb: a TypeBuilder object
* @error: set on error
*
* Creates the generic class after all generic parameters have been added.
* On success returns TRUE, on failure returns FALSE and sets @error.
*
* This assumes that reflection_setup_internal_class has already set up
* ref_tb
*/
static gboolean
reflection_init_generic_class (MonoReflectionTypeBuilderHandle ref_tb, MonoError *error)
{
HANDLE_FUNCTION_ENTER ();
error_init (error);
MonoTypeBuilderState ref_state = (MonoTypeBuilderState)MONO_HANDLE_GETVAL (ref_tb, state);
g_assert (ref_state == MonoTypeBuilderFinished);
MonoType *type = MONO_HANDLE_GETVAL (MONO_HANDLE_CAST (MonoReflectionType, ref_tb), type);
MonoClass *klass = mono_class_from_mono_type_internal (type);
MonoArrayHandle generic_params = MONO_HANDLE_NEW_GET (MonoArray, ref_tb, generic_params);
int count = MONO_HANDLE_IS_NULL (generic_params) ? 0 : mono_array_handle_length (generic_params);
if (count == 0)
goto leave;
if (mono_class_try_get_generic_container (klass) != NULL)
goto leave; /* already setup */
MonoGenericContainer *generic_container;
generic_container = (MonoGenericContainer *)mono_image_alloc0 (klass->image, sizeof (MonoGenericContainer));
generic_container->owner.klass = klass;
generic_container->type_argc = count;
generic_container->type_params = (MonoGenericParamFull *)mono_image_alloc0 (klass->image, sizeof (MonoGenericParamFull) * count);
klass->class_kind = MONO_CLASS_GTD;
mono_class_set_generic_container (klass, generic_container);
MonoReflectionGenericParamHandle ref_gparam;
ref_gparam = MONO_HANDLE_NEW (MonoReflectionGenericParam, NULL);
for (int i = 0; i < count; i++) {
MONO_HANDLE_ARRAY_GETREF (ref_gparam, generic_params, i);
MonoType *param_type = mono_reflection_type_handle_mono_type (MONO_HANDLE_CAST (MonoReflectionType, ref_gparam), error);
goto_if_nok (error, leave);
MonoGenericParamFull *param = (MonoGenericParamFull *) param_type->data.generic_param;
generic_container->type_params [i] = *param;
/*Make sure we are a diferent type instance */
generic_container->type_params [i].owner = generic_container;
generic_container->type_params [i].info.pklass = NULL;
generic_container->type_params [i].info.flags = MONO_HANDLE_GETVAL (ref_gparam, attrs);
g_assert (generic_container->type_params [i].owner);
}
generic_container->context.class_inst = mono_get_shared_generic_inst (generic_container);
MonoGenericContext* context;
context = &generic_container->context;
MonoType *canonical_inst;
canonical_inst = &((MonoClassGtd*)klass)->canonical_inst;
canonical_inst->type = MONO_TYPE_GENERICINST;
canonical_inst->data.generic_class = mono_metadata_lookup_generic_class (klass, context->class_inst, FALSE);
leave:
HANDLE_FUNCTION_RETURN_VAL (is_ok (error));
}
static MonoMarshalSpec*
mono_marshal_spec_from_builder (MonoImage *image, MonoAssembly *assembly,
MonoReflectionMarshal *minfo, MonoError *error)
{
MonoMarshalSpec *res;
error_init (error);
res = image_g_new0 (image, MonoMarshalSpec, 1);
res->native = (MonoMarshalNative)minfo->type;
switch (minfo->type) {
case MONO_NATIVE_LPARRAY:
res->data.array_data.elem_type = (MonoMarshalNative)minfo->eltype;
if (minfo->has_size) {
res->data.array_data.param_num = minfo->param_num;
res->data.array_data.num_elem = minfo->count;
res->data.array_data.elem_mult = minfo->param_num == -1 ? 0 : 1;
}
else {
res->data.array_data.param_num = -1;
res->data.array_data.num_elem = -1;
res->data.array_data.elem_mult = -1;
}
break;
case MONO_NATIVE_BYVALTSTR:
case MONO_NATIVE_BYVALARRAY:
res->data.array_data.num_elem = minfo->count;
break;
case MONO_NATIVE_CUSTOM:
if (minfo->marshaltyperef) {
MonoType *marshaltyperef = mono_reflection_type_get_handle ((MonoReflectionType*)minfo->marshaltyperef, error);
if (!is_ok (error)) {
image_g_free (image, res);
return NULL;
}
res->data.custom_data.custom_name =
type_get_fully_qualified_name (marshaltyperef);
}
if (minfo->mcookie) {
res->data.custom_data.cookie = mono_string_to_utf8_checked_internal (minfo->mcookie, error);
if (!is_ok (error)) {
image_g_free (image, res);
return NULL;
}
}
break;
default:
break;
}
return res;
}
#endif /* !DISABLE_REFLECTION_EMIT */
MonoReflectionMarshalAsAttributeHandle
mono_reflection_marshal_as_attribute_from_marshal_spec (MonoClass *klass,
MonoMarshalSpec *spec, MonoError *error)
{
error_init (error);
MonoAssemblyLoadContext *alc = mono_alc_get_ambient ();
MonoReflectionMarshalAsAttributeHandle minfo = MONO_HANDLE_CAST (MonoReflectionMarshalAsAttribute, mono_object_new_handle (mono_class_get_marshal_as_attribute_class (), error));
goto_if_nok (error, fail);
guint32 utype;
utype = spec->native;
MONO_HANDLE_SETVAL (minfo, utype, guint32, utype);
switch (utype) {
case MONO_NATIVE_LPARRAY:
MONO_HANDLE_SETVAL (minfo, array_subtype, guint32, spec->data.array_data.elem_type);
if (spec->data.array_data.num_elem != -1)
MONO_HANDLE_SETVAL (minfo, size_const, gint32, spec->data.array_data.num_elem);
if (spec->data.array_data.param_num != -1)
MONO_HANDLE_SETVAL (minfo, size_param_index, gint16, spec->data.array_data.param_num);
break;
case MONO_NATIVE_BYVALTSTR:
case MONO_NATIVE_BYVALARRAY:
if (spec->data.array_data.num_elem != -1)
MONO_HANDLE_SETVAL (minfo, size_const, gint32, spec->data.array_data.num_elem);
break;
case MONO_NATIVE_CUSTOM:
if (spec->data.custom_data.custom_name) {
MonoType *mtype = mono_reflection_type_from_name_checked (spec->data.custom_data.custom_name, alc, klass->image, error);
goto_if_nok (error, fail);
if (mtype) {
MonoReflectionTypeHandle rt = mono_type_get_object_handle (mtype, error);
goto_if_nok (error, fail);
MONO_HANDLE_SET (minfo, marshal_type_ref, rt);
}
MonoStringHandle custom_name = mono_string_new_handle (spec->data.custom_data.custom_name, error);
goto_if_nok (error, fail);
MONO_HANDLE_SET (minfo, marshal_type, custom_name);
}
if (spec->data.custom_data.cookie) {
MonoStringHandle cookie = mono_string_new_handle (spec->data.custom_data.cookie, error);
goto_if_nok (error, fail);
MONO_HANDLE_SET (minfo, marshal_cookie, cookie);
}
break;
default:
break;
}
return minfo;
fail:
return MONO_HANDLE_NEW (MonoReflectionMarshalAsAttribute, NULL);
}
#ifndef DISABLE_REFLECTION_EMIT
static MonoMethod*
reflection_methodbuilder_to_mono_method (MonoClass *klass,
ReflectionMethodBuilder *rmb,
MonoMethodSignature *sig,
MonoError *error)
{
MonoMethod *m;
MonoMethodWrapper *wrapperm;
MonoMarshalSpec **specs = NULL;
MonoReflectionMethodAux *method_aux;
MonoImage *image;
gboolean dynamic;
int i;
error_init (error);
/*
* Methods created using a MethodBuilder should have their memory allocated
* inside the image mempool, while dynamic methods should have their memory
* malloc'd.
*/
dynamic = rmb->refs != NULL;
image = dynamic ? NULL : klass->image;
if (!dynamic)
g_assert (!mono_class_is_ginst (klass));
mono_loader_lock ();
if ((rmb->attrs & METHOD_ATTRIBUTE_PINVOKE_IMPL) ||
(rmb->iattrs & METHOD_IMPL_ATTRIBUTE_INTERNAL_CALL))
m = (MonoMethod *)image_g_new0 (image, MonoMethodPInvoke, 1);
else
m = (MonoMethod *)image_g_new0 (image, MonoDynamicMethod, 1);
wrapperm = (MonoMethodWrapper*)m;
m->dynamic = dynamic;
m->slot = -1;
m->flags = rmb->attrs;
m->iflags = rmb->iattrs;
m->name = string_to_utf8_image_raw (image, rmb->name, error);
goto_if_nok (error, fail);
m->klass = klass;
m->signature = sig;
m->sre_method = TRUE;
m->skip_visibility = rmb->skip_visibility;
if (rmb->table_idx)
m->token = MONO_TOKEN_METHOD_DEF | (*rmb->table_idx);
if (m->iflags & METHOD_IMPL_ATTRIBUTE_INTERNAL_CALL) {
if (klass == mono_defaults.string_class && !strcmp (m->name, ".ctor"))
m->string_ctor = 1;
m->signature->pinvoke = 1;
} else if (m->flags & METHOD_ATTRIBUTE_PINVOKE_IMPL) {
m->signature->pinvoke = 1;
method_aux = image_g_new0 (image, MonoReflectionMethodAux, 1);
method_aux->dllentry = rmb->dllentry ? string_to_utf8_image_raw (image, rmb->dllentry, error) : image_strdup (image, m->name);
mono_error_assert_ok (error);
method_aux->dll = string_to_utf8_image_raw (image, rmb->dll, error);
mono_error_assert_ok (error);
((MonoMethodPInvoke*)m)->piflags = (rmb->native_cc << 8) | (rmb->charset ? (rmb->charset - 1) * 2 : 0) | rmb->extra_flags;
if (image_is_dynamic (klass->image))
g_hash_table_insert (((MonoDynamicImage*)klass->image)->method_aux_hash, m, method_aux);
goto leave;
} else if (!(m->flags & METHOD_ATTRIBUTE_ABSTRACT) &&
!(m->iflags & METHOD_IMPL_ATTRIBUTE_RUNTIME)) {
MonoMethodHeader *header;
guint32 code_size;
gint32 max_stack, i;
gint32 num_locals = 0;
gint32 num_clauses = 0;
guint8 *code;
if (rmb->ilgen) {
code = mono_array_addr_internal (rmb->ilgen->code, guint8, 0);
code_size = rmb->ilgen->code_len;
max_stack = rmb->ilgen->max_stack;
num_locals = rmb->ilgen->locals ? mono_array_length_internal (rmb->ilgen->locals) : 0;
if (rmb->ilgen->ex_handlers)
num_clauses = mono_reflection_method_count_clauses (rmb->ilgen);
} else {
if (rmb->code) {
code = mono_array_addr_internal (rmb->code, guint8, 0);
code_size = mono_array_length_internal (rmb->code);
/* we probably need to run a verifier on the code... */
max_stack = 8;
}
else {
code = NULL;
code_size = 0;
max_stack = 8;
}
}
header = (MonoMethodHeader *)mono_image_g_malloc0 (image, MONO_SIZEOF_METHOD_HEADER + num_locals * sizeof (MonoType*));
header->code_size = code_size;
header->code = (const unsigned char *)image_g_malloc (image, code_size);
memcpy ((char*)header->code, code, code_size);
header->max_stack = max_stack;
header->init_locals = rmb->init_locals;
header->num_locals = num_locals;
for (i = 0; i < num_locals; ++i) {
MonoReflectionLocalBuilder *lb =
mono_array_get_internal (rmb->ilgen->locals, MonoReflectionLocalBuilder*, i);
header->locals [i] = image_g_new0 (image, MonoType, 1);
MonoType *type = mono_reflection_type_get_handle ((MonoReflectionType*)lb->type, error);
mono_error_assert_ok (error);
memcpy (header->locals [i], type, mono_sizeof_type (type));
}
header->num_clauses = num_clauses;
if (num_clauses) {
header->clauses = method_encode_clauses (image, (MonoDynamicImage*)klass->image,
rmb->ilgen, num_clauses, error);
mono_error_assert_ok (error);
}
wrapperm->header = header;
MonoDynamicMethod *dm = (MonoDynamicMethod*)wrapperm;
dm->assembly = klass->image->assembly;
}
if (rmb->generic_params) {
int count = mono_array_length_internal (rmb->generic_params);
MonoGenericContainer *container;
container = (MonoGenericContainer *)mono_image_alloc0 (klass->image, sizeof (MonoGenericContainer));
container->is_method = TRUE;
container->is_anonymous = FALSE;
container->type_argc = count;
container->type_params = image_g_new0 (image, MonoGenericParamFull, count);
container->owner.method = m;
m->is_generic = TRUE;
mono_method_set_generic_container (m, container);
for (i = 0; i < count; i++) {
MonoReflectionGenericParam *gp =
mono_array_get_internal (rmb->generic_params, MonoReflectionGenericParam*, i);
MonoType *gp_type = mono_reflection_type_get_handle ((MonoReflectionType*)gp, error);
mono_error_assert_ok (error);
MonoGenericParamFull *param = (MonoGenericParamFull *) gp_type->data.generic_param;
container->type_params [i] = *param;
container->type_params [i].owner = container;
gp->type.type->data.generic_param = (MonoGenericParam*)&container->type_params [i];
MonoClass *gklass = mono_class_from_mono_type_internal (gp_type);
gklass->wastypebuilder = TRUE;
}
/*
* The method signature might have pointers to generic parameters that belong to other methods.
* This is a valid SRE case, but the resulting method signature must be encoded using the proper
* generic parameters.
*/
for (i = 0; i < m->signature->param_count; ++i) {
MonoType *t = m->signature->params [i];
if (t->type == MONO_TYPE_MVAR) {
MonoGenericParam *gparam = t->data.generic_param;
if (gparam->num < count) {
m->signature->params [i] = mono_metadata_type_dup (image, m->signature->params [i]);
m->signature->params [i]->data.generic_param = mono_generic_container_get_param (container, gparam->num);
}
}
}
if (mono_class_is_gtd (klass)) {
container->parent = mono_class_get_generic_container (klass);
container->context.class_inst = mono_class_get_generic_container (klass)->context.class_inst;
}
container->context.method_inst = mono_get_shared_generic_inst (container);
}
if (rmb->refs) {
MonoMethodWrapper *mw = (MonoMethodWrapper*)m;
int i;
void **data;
m->wrapper_type = MONO_WRAPPER_DYNAMIC_METHOD;
mw->method_data = data = image_g_new (image, gpointer, rmb->nrefs + 1);
data [0] = GUINT_TO_POINTER (rmb->nrefs);
for (i = 0; i < rmb->nrefs; ++i)
data [i + 1] = rmb->refs [i];
}
method_aux = NULL;
/* Parameter info */
if (rmb->pinfo) {
if (!method_aux)
method_aux = image_g_new0 (image, MonoReflectionMethodAux, 1);
method_aux->param_names = image_g_new0 (image, char *, mono_method_signature_internal (m)->param_count + 1);
for (i = 0; i <= m->signature->param_count; ++i) {
MonoReflectionParamBuilder *pb;
if ((pb = mono_array_get_internal (rmb->pinfo, MonoReflectionParamBuilder*, i))) {
if ((i > 0) && (pb->attrs)) {
/* Make a copy since it might point to a shared type structure */
m->signature->params [i - 1] = mono_metadata_type_dup (klass->image, m->signature->params [i - 1]);
m->signature->params [i - 1]->attrs = pb->attrs;
}
if (pb->attrs & PARAM_ATTRIBUTE_HAS_DEFAULT) {
MonoDynamicImage *assembly;
guint32 idx, len;
MonoTypeEnum def_type;
char *p;
const char *p2;
if (!method_aux->param_defaults) {
method_aux->param_defaults = image_g_new0 (image, guint8*, m->signature->param_count + 1);
method_aux->param_default_types = image_g_new0 (image, guint32, m->signature->param_count + 1);
}
assembly = (MonoDynamicImage*)klass->image;
idx = mono_dynimage_encode_constant (assembly, pb->def_value, &def_type);
/* Copy the data from the blob since it might get realloc-ed */
p = assembly->blob.data + idx;
len = mono_metadata_decode_blob_size (p, &p2);
len += p2 - p;
method_aux->param_defaults [i] = (uint8_t *)image_g_malloc (image, len);
method_aux->param_default_types [i] = def_type;
memcpy ((gpointer)method_aux->param_defaults [i], p, len);
}
if (pb->name) {
method_aux->param_names [i] = string_to_utf8_image_raw (image, pb->name, error);
mono_error_assert_ok (error);
}
if (pb->cattrs) {
if (!method_aux->param_cattr)
method_aux->param_cattr = image_g_new0 (image, MonoCustomAttrInfo*, m->signature->param_count + 1);
method_aux->param_cattr [i] = mono_custom_attrs_from_builders (image, klass->image, pb->cattrs);
}
}
}
}
/* Parameter marshalling */
if (rmb->pinfo)
for (i = 0; i < mono_array_length_internal (rmb->pinfo); ++i) {
MonoReflectionParamBuilder *pb;
if ((pb = mono_array_get_internal (rmb->pinfo, MonoReflectionParamBuilder*, i))) {
if (pb->marshal_info) {
if (specs == NULL)
specs = image_g_new0 (image, MonoMarshalSpec*, sig->param_count + 1);
specs [pb->position] =
mono_marshal_spec_from_builder (image, klass->image->assembly, pb->marshal_info, error);
goto_if_nok (error, fail);
}
}
}
if (specs != NULL) {
if (!method_aux)
method_aux = image_g_new0 (image, MonoReflectionMethodAux, 1);
method_aux->param_marshall = specs;
}
if (image_is_dynamic (klass->image) && method_aux)
g_hash_table_insert (((MonoDynamicImage*)klass->image)->method_aux_hash, m, method_aux);
leave:
mono_loader_unlock ();
if (!m) // FIXME: This leaks if image is not NULL.
image_g_free (image, specs);
return m;
fail:
m = NULL;
goto leave;
}
static MonoMethod*
ctorbuilder_to_mono_method (MonoClass *klass, MonoReflectionCtorBuilder* mb, MonoError *error)
{
/* We need to clear handles for rmb fields created in mono_reflection_methodbuilder_from_ctor_builder */
HANDLE_FUNCTION_ENTER ();
ReflectionMethodBuilder rmb;
MonoMethodSignature *sig;
MonoMethod *ret;
mono_loader_lock ();
if (!mono_reflection_methodbuilder_from_ctor_builder (&rmb, mb, error)) {
mono_loader_unlock ();
goto exit_null;
}
g_assert (klass->image != NULL);
sig = ctor_builder_to_signature_raw (klass->image, mb, error); /* FIXME use handles */
mono_loader_unlock ();
goto_if_nok (error, exit_null);
mb->mhandle = reflection_methodbuilder_to_mono_method (klass, &rmb, sig, error);
goto_if_nok (error, exit_null);
mono_save_custom_attrs (klass->image, mb->mhandle, mb->cattrs);
/* ilgen is no longer needed */
mb->ilgen = NULL;
ret = mb->mhandle;
goto exit;
exit_null:
ret = NULL;
exit:
HANDLE_FUNCTION_RETURN_VAL (ret);
}
static MonoMethod*
methodbuilder_to_mono_method (MonoClass *klass, MonoReflectionMethodBuilderHandle ref_mb, MonoError *error)
{
/* We need to clear handles for rmb fields created in mono_reflection_methodbuilder_from_method_builder */
HANDLE_FUNCTION_ENTER ();
ReflectionMethodBuilder rmb;
MonoMethodSignature *sig;
MonoMethod *ret, *method;
error_init (error);
mono_loader_lock ();
MonoReflectionMethodBuilder *mb = MONO_HANDLE_RAW (ref_mb); /* FIXME use handles */
if (!mono_reflection_methodbuilder_from_method_builder (&rmb, mb, error)) {
mono_loader_unlock ();
goto exit_null;
}
g_assert (klass->image != NULL);
sig = method_builder_to_signature (klass->image, ref_mb, error);
mono_loader_unlock ();
goto_if_nok (error, exit_null);
method = reflection_methodbuilder_to_mono_method (klass, &rmb, sig, error);
goto_if_nok (error, exit_null);
MONO_HANDLE_SETVAL (ref_mb, mhandle, MonoMethod*, method);
mono_save_custom_attrs (klass->image, method, mb->cattrs);
/* ilgen is no longer needed */
mb->ilgen = NULL;
ret = method;
goto exit;
exit_null:
ret = NULL;
exit:
HANDLE_FUNCTION_RETURN_VAL (ret);
}
static MonoMethod*
methodbuilder_to_mono_method_raw (MonoClass *klass, MonoReflectionMethodBuilder* mb_raw, MonoError *error)
{
HANDLE_FUNCTION_ENTER (); /* FIXME change callers of methodbuilder_to_mono_method_raw to use handles */
error_init (error);
MONO_HANDLE_DCL (MonoReflectionMethodBuilder, mb);
MonoMethod * const result = methodbuilder_to_mono_method (klass, mb, error);
HANDLE_FUNCTION_RETURN_VAL (result);
}
#endif
#ifndef DISABLE_REFLECTION_EMIT
/**
* fix_partial_generic_class:
* @klass: a generic instantiation MonoClass
* @error: set on error
*
* Assumes that the generic container of @klass has its vtable
* initialized, and updates the parent class, interfaces, methods and
* fields of @klass by inflating the types using the generic context.
*
* On success returns TRUE, on failure returns FALSE and sets @error.
*
*/
static gboolean
fix_partial_generic_class (MonoClass *klass, MonoError *error)
{
MonoClass *gklass = mono_class_get_generic_class (klass)->container_class;
int i;
error_init (error);
if (klass->wastypebuilder)
return TRUE;
if (klass->parent != gklass->parent) {
MonoType *parent_type = mono_class_inflate_generic_type_checked (m_class_get_byval_arg (m_class_get_parent (gklass)), &mono_class_get_generic_class (klass)->context, error);
if (is_ok (error)) {
MonoClass *parent = mono_class_from_mono_type_internal (parent_type);
mono_metadata_free_type (parent_type);
if (parent != klass->parent) {
/*fool mono_class_setup_parent*/
klass->supertypes = NULL;
mono_class_setup_parent (klass, parent);
}
} else {
if (gklass->wastypebuilder)
klass->wastypebuilder = TRUE;
return FALSE;
}
}
if (!mono_class_get_generic_class (klass)->need_sync)
return TRUE;
int mcount = mono_class_get_method_count (klass);
int gmcount = mono_class_get_method_count (gklass);
if (mcount != gmcount) {
mono_class_set_method_count (klass, gmcount);
klass->methods = (MonoMethod **)mono_image_alloc (klass->image, sizeof (MonoMethod*) * (gmcount + 1));
for (i = 0; i < gmcount; i++) {
klass->methods [i] = mono_class_inflate_generic_method_full_checked (
gklass->methods [i], klass, mono_class_get_context (klass), error);
mono_error_assert_ok (error);
}
}
if (klass->interface_count && klass->interface_count != gklass->interface_count) {
klass->interface_count = gklass->interface_count;
klass->interfaces = (MonoClass **)mono_image_alloc (klass->image, sizeof (MonoClass*) * gklass->interface_count);
klass->interfaces_packed = NULL; /*make setup_interface_offsets happy*/
MonoClass **gklass_interfaces = m_class_get_interfaces (gklass);
for (i = 0; i < gklass->interface_count; ++i) {
MonoType *iface_type = mono_class_inflate_generic_type_checked (m_class_get_byval_arg (gklass_interfaces [i]), mono_class_get_context (klass), error);
return_val_if_nok (error, FALSE);
klass->interfaces [i] = mono_class_from_mono_type_internal (iface_type);
mono_metadata_free_type (iface_type);
if (!ensure_runtime_vtable (klass->interfaces [i], error))
return FALSE;
}
klass->interfaces_inited = 1;
}
int fcount = mono_class_get_field_count (klass);
int gfcount = mono_class_get_field_count (gklass);
if (fcount != gfcount) {
mono_class_set_field_count (klass, gfcount);
klass->fields = image_g_new0 (klass->image, MonoClassField, gfcount);
for (i = 0; i < gfcount; i++) {
klass->fields [i] = gklass->fields [i];
m_field_set_parent (&klass->fields [i], klass);
klass->fields [i].type = mono_class_inflate_generic_type_checked (gklass->fields [i].type, mono_class_get_context (klass), error);
return_val_if_nok (error, FALSE);
}
}
/*We can only finish with this klass once it's parent has as well*/
if (gklass->wastypebuilder)
klass->wastypebuilder = TRUE;
return TRUE;
}
/**
* ensure_generic_class_runtime_vtable:
* @klass a generic class
* @error set on error
*
* Ensures that the generic container of @klass has a vtable and
* returns TRUE on success. On error returns FALSE and sets @error.
*/
static gboolean
ensure_generic_class_runtime_vtable (MonoClass *klass, MonoError *error)
{
MonoClass *gklass = mono_class_get_generic_class (klass)->container_class;
error_init (error);
if (!ensure_runtime_vtable (gklass, error))
return FALSE;
return fix_partial_generic_class (klass, error);
}
/**
* ensure_runtime_vtable:
* @klass the class
* @error set on error
*
* Ensures that @klass has a vtable and returns TRUE on success. On
* error returns FALSE and sets @error.
*/
static gboolean
ensure_runtime_vtable (MonoClass *klass, MonoError *error)
{
MonoReflectionTypeBuilder *tb = mono_class_get_ref_info_raw (klass); /* FIXME use handles */
int i, num, j;
error_init (error);
if (!image_is_dynamic (klass->image) || (!tb && !mono_class_is_ginst (klass)) || klass->wastypebuilder)
return TRUE;
if (klass->parent)
if (!ensure_runtime_vtable (klass->parent, error))
return FALSE;
if (tb) {
num = tb->ctors? mono_array_length_internal (tb->ctors): 0;
num += tb->num_methods;
mono_class_set_method_count (klass, num);
klass->methods = (MonoMethod **)mono_image_alloc (klass->image, sizeof (MonoMethod*) * num);
num = tb->ctors? mono_array_length_internal (tb->ctors): 0;
for (i = 0; i < num; ++i) {
MonoMethod *ctor = ctorbuilder_to_mono_method (klass, mono_array_get_internal (tb->ctors, MonoReflectionCtorBuilder*, i), error);
if (!ctor)
return FALSE;
klass->methods [i] = ctor;
}
num = tb->num_methods;
j = i;
for (i = 0; i < num; ++i) {
MonoMethod *meth = methodbuilder_to_mono_method_raw (klass, mono_array_get_internal (tb->methods, MonoReflectionMethodBuilder*, i), error); /* FIXME use handles */
if (!meth)
return FALSE;
klass->methods [j++] = meth;
}
if (tb->interfaces) {
klass->interface_count = mono_array_length_internal (tb->interfaces);
klass->interfaces = (MonoClass **)mono_image_alloc (klass->image, sizeof (MonoClass*) * klass->interface_count);
for (i = 0; i < klass->interface_count; ++i) {
MonoType *iface = mono_type_array_get_and_resolve_raw (tb->interfaces, i, error); /* FIXME use handles */
return_val_if_nok (error, FALSE);
klass->interfaces [i] = mono_class_from_mono_type_internal (iface);
if (!ensure_runtime_vtable (klass->interfaces [i], error))
return FALSE;
}
klass->interfaces_inited = 1;
}
} else if (mono_class_is_ginst (klass)){
if (!ensure_generic_class_runtime_vtable (klass, error)) {
mono_class_set_type_load_failure (klass, "Could not initialize vtable for generic class due to: %s", mono_error_get_message (error));
return FALSE;
}
}
if (mono_class_is_interface (klass) && !mono_class_is_ginst (klass)) {
int slot_num = 0;
int mcount = mono_class_get_method_count (klass);
for (i = 0; i < mcount; ++i) {
MonoMethod *im = klass->methods [i];
if (!(im->flags & METHOD_ATTRIBUTE_STATIC))
im->slot = slot_num++;
}
klass->interfaces_packed = NULL; /*make setup_interface_offsets happy*/
mono_class_setup_interface_offsets (klass);
mono_class_setup_interface_id (klass);
}
/*
* The generic vtable is needed even if image->run is not set since some
* runtime code like ves_icall_Type_GetMethodsByName depends on
* method->slot being defined.
*/
/*
* tb->methods could not be freed since it is used for determining
* overrides during dynamic vtable construction.
*/
return TRUE;
}
static MonoMethod*
mono_reflection_method_get_handle (MonoObject *method, MonoError *error)
{
error_init (error);
MonoClass *klass = mono_object_class (method);
if (is_sr_mono_method (klass)) {
MonoReflectionMethod *sr_method = (MonoReflectionMethod*)method;
return sr_method->method;
}
if (is_sre_method_builder (klass)) {
MonoReflectionMethodBuilder *mb = (MonoReflectionMethodBuilder*)method;
return mb->mhandle;
}
if (mono_is_sre_method_on_tb_inst (klass)) {
MonoClass *handle_class;
MonoMethod *result = (MonoMethod*)mono_reflection_resolve_object (NULL, method, &handle_class, NULL, error);
return_val_if_nok (error, NULL);
return result;
}
g_error ("Can't handle methods of type %s:%s", klass->name_space, klass->name);
return NULL;
}
void
mono_reflection_get_dynamic_overrides (MonoClass *klass, MonoMethod ***overrides, int *num_overrides, MonoError *error)
{
MonoReflectionTypeBuilder *tb;
int i, j, onum;
MonoReflectionMethod *m;
error_init (error);
*overrides = NULL;
*num_overrides = 0;
g_assert (image_is_dynamic (klass->image));
if (!mono_class_has_ref_info (klass))
return;
tb = mono_class_get_ref_info_raw (klass); /* FIXME use handles */
g_assert (strcmp (mono_object_class (tb)->name, "TypeBuilder") == 0);
onum = 0;
if (tb->methods) {
for (i = 0; i < tb->num_methods; ++i) {
MonoReflectionMethodBuilder *mb =
mono_array_get_internal (tb->methods, MonoReflectionMethodBuilder*, i);
if (mb->override_methods)
onum += mono_array_length_internal (mb->override_methods);
}
}
if (onum) {
*overrides = g_new0 (MonoMethod*, onum * 2);
onum = 0;
for (i = 0; i < tb->num_methods; ++i) {
MonoReflectionMethodBuilder *mb =
mono_array_get_internal (tb->methods, MonoReflectionMethodBuilder*, i);
if (mb->override_methods) {
for (j = 0; j < mono_array_length_internal (mb->override_methods); ++j) {
m = mono_array_get_internal (mb->override_methods, MonoReflectionMethod*, j);
(*overrides) [onum * 2] = mono_reflection_method_get_handle ((MonoObject*)m, error);
return_if_nok (error);
(*overrides) [onum * 2 + 1] = mb->mhandle;
g_assert (mb->mhandle);
onum ++;
}
}
}
}
*num_overrides = onum;
}
static gint32
modulebuilder_get_next_table_index (MonoReflectionModuleBuilder *mb, gint32 table, gint32 num_fields, MonoError *error)
{
error_init (error);
if (mb->table_indexes == NULL) {
MonoArray *arr = mono_array_new_checked (mono_defaults.int_class, 64, error);
return_val_if_nok (error, 0);
for (int i = 0; i < 64; i++) {
mono_array_set_internal (arr, int, i, 1);
}
MONO_OBJECT_SETREF_INTERNAL (mb, table_indexes, arr);
}
gint32 index = mono_array_get_internal (mb->table_indexes, gint32, table);
gint32 next_index = index + num_fields;
mono_array_set_internal (mb->table_indexes, gint32, table, next_index);
return index;
}
static void
typebuilder_setup_one_field (MonoDynamicImage *dynamic_image, MonoClass *klass, int32_t first_idx, MonoArray *tb_fields, int i, MonoFieldDefaultValue *def_value_out, MonoError *error)
{
HANDLE_FUNCTION_ENTER ();
{
MonoImage *image = klass->image;
MonoReflectionFieldBuilder *fb;
MonoClassField *field;
MonoArray *rva_data;
fb = (MonoReflectionFieldBuilder *)mono_array_get_internal (tb_fields, gpointer, i);
field = &klass->fields [i];
m_field_set_parent (field, klass);
field->name = string_to_utf8_image_raw (image, fb->name, error); /* FIXME use handles */
goto_if_nok (error, leave);
if (fb->attrs) {
MonoType *type = mono_reflection_type_get_handle ((MonoReflectionType*)fb->type, error);
goto_if_nok (error, leave);
field->type = mono_metadata_type_dup (klass->image, type);
field->type->attrs = fb->attrs;
} else {
field->type = mono_reflection_type_get_handle ((MonoReflectionType*)fb->type, error);
goto_if_nok (error, leave);
}
if (klass->enumtype && strcmp (field->name, "value__") == 0) // used by enum classes to store the instance value
field->type->attrs |= FIELD_ATTRIBUTE_RT_SPECIAL_NAME;
if (!mono_type_get_underlying_type (field->type)) {
if (!(klass->enumtype && mono_metadata_type_equal (field->type, m_class_get_byval_arg (klass)))) {
mono_class_set_type_load_failure (klass, "Field '%s' is an enum type with a bad underlying type", field->name);
goto leave;
}
}
if (m_type_is_byref (field->type) && !m_class_is_byreflike (klass)) {
mono_error_set_type_load_name (error, NULL, NULL, "Field '%s' is a byref in a non-byref-like type", field->name);
goto leave;
}
if ((fb->attrs & FIELD_ATTRIBUTE_HAS_FIELD_RVA) && (rva_data = fb->rva_data)) {
char *base = mono_array_addr_internal (rva_data, char, 0);
size_t size = mono_array_length_internal (rva_data);
char *data = (char *)mono_image_alloc (klass->image, size);
memcpy (data, base, size);
def_value_out->data = data;
}
if (fb->offset != -1)
field->offset = fb->offset;
fb->handle = field;
mono_save_custom_attrs (klass->image, field, fb->cattrs);
if (fb->def_value) {
guint32 len, idx;
const char *p, *p2;
MonoDynamicImage *assembly = (MonoDynamicImage*)klass->image;
field->type->attrs |= FIELD_ATTRIBUTE_HAS_DEFAULT;
idx = mono_dynimage_encode_constant (assembly, fb->def_value, &def_value_out->def_type);
/* Copy the data from the blob since it might get realloc-ed */
p = assembly->blob.data + idx;
len = mono_metadata_decode_blob_size (p, &p2);
len += p2 - p;
def_value_out->data = (const char *)mono_image_alloc (image, len);
memcpy ((gpointer)def_value_out->data, p, len);
}
MonoObjectHandle field_builder_handle = MONO_HANDLE_CAST (MonoObject, MONO_HANDLE_NEW (MonoReflectionFieldBuilder, fb));
mono_dynamic_image_register_token (dynamic_image, mono_metadata_make_token (MONO_TABLE_FIELD, first_idx + i), field_builder_handle, MONO_DYN_IMAGE_TOK_NEW);
}
leave:
HANDLE_FUNCTION_RETURN ();
}
/* This initializes the same data as mono_class_setup_fields () */
static void
typebuilder_setup_fields (MonoClass *klass, MonoError *error)
{
MonoReflectionTypeBuilder *tb = mono_class_get_ref_info_raw (klass); /* FIXME use handles */
MonoFieldDefaultValue *def_values;
MonoImage *image = klass->image;
int i, instance_size, packing_size = 0;
error_init (error);
if (klass->parent) {
if (!klass->parent->size_inited)
mono_class_init_internal (klass->parent);
instance_size = klass->parent->instance_size;
} else {
instance_size = MONO_ABI_SIZEOF (MonoObject);
}
int fcount = tb->num_fields;
mono_class_set_field_count (klass, fcount);
gint32 first_idx = 0;
if (tb->num_fields > 0) {
first_idx = modulebuilder_get_next_table_index (tb->module, MONO_TABLE_FIELD, (gint32)tb->num_fields, error);
return_if_nok (error);
}
mono_class_set_first_field_idx (klass, first_idx - 1); /* Why do we subtract 1? because mono_class_create_from_typedef does it, too. */
if (tb->class_size) {
packing_size = tb->packing_size;
instance_size += tb->class_size;
}
klass->fields = image_g_new0 (image, MonoClassField, fcount);
def_values = image_g_new0 (image, MonoFieldDefaultValue, fcount);
mono_class_set_field_def_values (klass, def_values);
/*
This is, guess what, a hack.
The issue is that the runtime doesn't know how to setup the fields of a typebuider and crash.
On the static path no field class is resolved, only types are built. This is the right thing to do
but we suck.
Setting size_inited is harmless because we're doing the same job as mono_class_setup_fields anyway.
*/
klass->size_inited = 1;
for (i = 0; i < fcount; ++i) {
typebuilder_setup_one_field (tb->module->dynamic_image, klass, first_idx, tb->fields, i, &def_values[i], error);
if (!is_ok (error))
return;
}
if (!mono_class_has_failure (klass))
mono_class_layout_fields (klass, instance_size, packing_size, tb->class_size, TRUE);
}
static void
typebuilder_setup_properties (MonoClass *klass, MonoError *error)
{
MonoReflectionTypeBuilder *tb = mono_class_get_ref_info_raw (klass); /* FIXME use handles */
MonoReflectionPropertyBuilder *pb;
MonoImage *image = klass->image;
MonoProperty *properties;
MonoClassPropertyInfo *info;
int i;
error_init (error);
info = (MonoClassPropertyInfo*)mono_class_get_property_info (klass);
if (!info) {
info = mono_class_alloc0 (klass, sizeof (MonoClassPropertyInfo));
mono_class_set_property_info (klass, info);
}
info->count = tb->properties ? mono_array_length_internal (tb->properties) : 0;
info->first = 0;
properties = image_g_new0 (image, MonoProperty, info->count);
info->properties = properties;
for (i = 0; i < info->count; ++i) {
pb = mono_array_get_internal (tb->properties, MonoReflectionPropertyBuilder*, i);
properties [i].parent = klass;
properties [i].attrs = pb->attrs;
properties [i].name = string_to_utf8_image_raw (image, pb->name, error); /* FIXME use handles */
if (!is_ok (error))
return;
if (pb->get_method)
properties [i].get = pb->get_method->mhandle;
if (pb->set_method)
properties [i].set = pb->set_method->mhandle;
mono_save_custom_attrs (klass->image, &properties [i], pb->cattrs);
if (pb->def_value) {
guint32 len, idx;
const char *p, *p2;
MonoDynamicImage *assembly = (MonoDynamicImage*)klass->image;
if (!info->def_values)
info->def_values = image_g_new0 (image, MonoFieldDefaultValue, info->count);
properties [i].attrs |= PROPERTY_ATTRIBUTE_HAS_DEFAULT;
idx = mono_dynimage_encode_constant (assembly, pb->def_value, &info->def_values [i].def_type);
/* Copy the data from the blob since it might get realloc-ed */
p = assembly->blob.data + idx;
len = mono_metadata_decode_blob_size (p, &p2);
len += p2 - p;
info->def_values [i].data = (const char *)mono_image_alloc (image, len);
memcpy ((gpointer)info->def_values [i].data, p, len);
}
}
}
static void
typebuilder_setup_events (MonoClass *klass, MonoError *error)
{
MonoReflectionTypeBuilder *tb = mono_class_get_ref_info_raw (klass); /* FIXME use handles */
MonoReflectionEventBuilder *eb;
MonoImage *image = klass->image;
MonoEvent *events;
MonoClassEventInfo *info;
int i;
error_init (error);
info = mono_class_alloc0 (klass, sizeof (MonoClassEventInfo));
mono_class_set_event_info (klass, info);
info->count = tb->events ? mono_array_length_internal (tb->events) : 0;
info->first = 0;
events = image_g_new0 (image, MonoEvent, info->count);
info->events = events;
for (i = 0; i < info->count; ++i) {
eb = mono_array_get_internal (tb->events, MonoReflectionEventBuilder*, i);
events [i].parent = klass;
events [i].attrs = eb->attrs;
events [i].name = string_to_utf8_image_raw (image, eb->name, error); /* FIXME use handles */
if (!is_ok (error))
return;
if (eb->add_method)
events [i].add = eb->add_method->mhandle;
if (eb->remove_method)
events [i].remove = eb->remove_method->mhandle;
if (eb->raise_method)
events [i].raise = eb->raise_method->mhandle;
#ifndef MONO_SMALL_CONFIG
if (eb->other_methods) {
int j;
events [i].other = image_g_new0 (image, MonoMethod*, mono_array_length_internal (eb->other_methods) + 1);
for (j = 0; j < mono_array_length_internal (eb->other_methods); ++j) {
MonoReflectionMethodBuilder *mb =
mono_array_get_internal (eb->other_methods,
MonoReflectionMethodBuilder*, j);
events [i].other [j] = mb->mhandle;
}
}
#endif
mono_save_custom_attrs (klass->image, &events [i], eb->cattrs);
}
}
struct remove_instantiations_user_data
{
MonoClass *klass;
MonoError *error;
};
static gboolean
remove_instantiations_of_and_ensure_contents (gpointer key,
gpointer value,
gpointer user_data)
{
struct remove_instantiations_user_data *data = (struct remove_instantiations_user_data*)user_data;
MonoType *type = (MonoType*)key;
MonoClass *klass = data->klass;
gboolean already_failed = !is_ok (data->error);
ERROR_DECL (lerror);
MonoError *error = already_failed ? lerror : data->error;
if ((type->type == MONO_TYPE_GENERICINST) && (type->data.generic_class->container_class == klass)) {
MonoClass *inst_klass = mono_class_from_mono_type_internal (type);
//Ensure it's safe to use it.
if (!fix_partial_generic_class (inst_klass, error)) {
mono_class_set_type_load_failure (inst_klass, "Could not initialized generic type instance due to: %s", mono_error_get_message (error));
// Marked the class with failure, but since some other instantiation already failed,
// just report that one, and swallow the error from this one.
if (already_failed)
mono_error_cleanup (error);
}
return TRUE;
} else
return FALSE;
}
/**
* reflection_setup_internal_class:
* @tb: a TypeBuilder object
* @error: set on error
*
* Creates a MonoClass that represents the TypeBuilder.
* This is a trick that lets us simplify a lot of reflection code
* (and will allow us to support Build and Run assemblies easier).
*
* Returns TRUE on success. On failure, returns FALSE and sets @error.
*/
static gboolean
reflection_setup_internal_class (MonoReflectionTypeBuilderHandle ref_tb, MonoError *error)
{
HANDLE_FUNCTION_ENTER ();
MonoReflectionModuleBuilderHandle module_ref = MONO_HANDLE_NEW_GET (MonoReflectionModuleBuilder, ref_tb, module);
GHashTable *unparented_classes = MONO_HANDLE_GETVAL(module_ref, unparented_classes);
gboolean ret_val;
if (unparented_classes) {
ret_val = reflection_setup_internal_class_internal (ref_tb, error);
} else {
// If we're not being called recursively
unparented_classes = g_hash_table_new (NULL, NULL);
MONO_HANDLE_SETVAL (module_ref, unparented_classes, GHashTable *, unparented_classes);
ret_val = reflection_setup_internal_class_internal (ref_tb, error);
mono_error_assert_ok (error);
// Fix the relationship between the created classes and their parents
reflection_setup_class_hierarchy (unparented_classes, error);
mono_error_assert_ok (error);
g_hash_table_destroy (unparented_classes);
MONO_HANDLE_SETVAL (module_ref, unparented_classes, GHashTable *, NULL);
}
HANDLE_FUNCTION_RETURN_VAL (ret_val);
}
MonoReflectionTypeHandle
ves_icall_TypeBuilder_create_runtime_class (MonoReflectionTypeBuilderHandle ref_tb, MonoError *error)
{
error_init (error);
reflection_setup_internal_class (ref_tb, error);
mono_error_assert_ok (error);
MonoType *type = MONO_HANDLE_GETVAL (MONO_HANDLE_CAST (MonoReflectionType, ref_tb), type);
MonoClass *klass = mono_class_from_mono_type_internal (type);
MonoArrayHandle cattrs = MONO_HANDLE_NEW_GET (MonoArray, ref_tb, cattrs);
mono_save_custom_attrs (klass->image, klass, MONO_HANDLE_RAW (cattrs)); /* FIXME use handles */
mono_loader_lock ();
if (klass->wastypebuilder) {
mono_loader_unlock ();
return mono_type_get_object_handle (m_class_get_byval_arg (klass), error);
}
/*
* Fields to set in klass:
* the various flags: delegate/unicode/contextbound etc.
*/
mono_class_set_flags (klass, MONO_HANDLE_GETVAL (ref_tb, attrs));
klass->has_cctor = 1;
mono_class_setup_parent (klass, klass->parent);
/* fool mono_class_setup_supertypes */
klass->supertypes = NULL;
mono_class_setup_supertypes (klass);
mono_class_setup_mono_type (klass);
/* Check if the type is marked as byreflike.
* The IsByRefLike attribute only applies to value types and enums. This matches CoreCLR behavior.
*/
if (klass->enumtype || klass->valuetype)
klass->is_byreflike = MONO_HANDLE_GETVAL (MONO_HANDLE_CAST (MonoReflectionTypeBuilder, ref_tb), is_byreflike_set) != 0;
/* enums are done right away */
if (!klass->enumtype)
if (!ensure_runtime_vtable (klass, error))
goto failure;
MonoArrayHandle nested_types;
nested_types = MONO_HANDLE_NEW_GET (MonoArray, ref_tb, subtypes);
if (!MONO_HANDLE_IS_NULL (nested_types)) {
GList *nested = NULL;
int num_nested = mono_array_handle_length (nested_types);
MonoReflectionTypeHandle nested_tb = MONO_HANDLE_NEW (MonoReflectionType, NULL);
for (int i = 0; i < num_nested; ++i) {
MONO_HANDLE_ARRAY_GETREF (nested_tb, nested_types, i);
if (MONO_HANDLE_GETVAL (nested_tb, type) == NULL) {
reflection_setup_internal_class (MONO_HANDLE_CAST (MonoReflectionTypeBuilder, nested_tb), error);
mono_error_assert_ok (error);
}
MonoType *subtype = mono_reflection_type_handle_mono_type (nested_tb, error);
goto_if_nok (error, failure);
nested = mono_g_list_prepend_image (klass->image, nested, mono_class_from_mono_type_internal (subtype));
}
mono_class_set_nested_classes_property (klass, nested);
}
klass->nested_classes_inited = TRUE;
typebuilder_setup_fields (klass, error);
goto_if_nok (error, failure);
typebuilder_setup_properties (klass, error);
goto_if_nok (error, failure);
typebuilder_setup_events (klass, error);
goto_if_nok (error, failure);
klass->wastypebuilder = TRUE;
MonoArrayHandle generic_params;
generic_params = MONO_HANDLE_NEW_GET (MonoArray, ref_tb, generic_params);
if (!MONO_HANDLE_IS_NULL (generic_params)) {
int num_params = mono_array_handle_length (generic_params);
MonoReflectionTypeHandle ref_gparam = MONO_HANDLE_NEW (MonoReflectionType, NULL);
for (int i = 0; i < num_params; i++) {
MONO_HANDLE_ARRAY_GETREF (ref_gparam, generic_params, i);
MonoType *param_type = mono_reflection_type_handle_mono_type (ref_gparam, error);
goto_if_nok (error, failure);
MonoClass *gklass = mono_class_from_mono_type_internal (param_type);
gklass->wastypebuilder = TRUE;
}
}
/*
* If we are a generic TypeBuilder, there might be instantiations in the type cache
* which have type System.Reflection.MonoGenericClass, but after the type is created,
* we want to return normal System.MonoType objects, so clear these out from the cache.
*
* Together with this we must ensure the contents of all instances to match the created type.
*/
if (mono_class_is_gtd (klass)) {
MonoMemoryManager *memory_manager = mono_mem_manager_get_ambient ();
struct remove_instantiations_user_data data;
data.klass = klass;
data.error = error;
mono_error_assert_ok (error);
mono_mem_manager_lock (memory_manager);
mono_g_hash_table_foreach_remove (memory_manager->type_hash, remove_instantiations_of_and_ensure_contents, &data);
mono_mem_manager_unlock (memory_manager);
goto_if_nok (error, failure);
}
mono_loader_unlock ();
if (klass->enumtype && !mono_class_is_valid_enum (klass)) {
mono_class_set_type_load_failure (klass, "Not a valid enumeration");
mono_error_set_type_load_class (error, klass, "Not a valid enumeration");
goto failure_unlocked;
}
MonoReflectionTypeHandle res;
res = mono_type_get_object_handle (m_class_get_byval_arg (klass), error);
goto_if_nok (error, failure_unlocked);
return res;
failure:
mono_class_set_type_load_failure (klass, "TypeBuilder could not create runtime class due to: %s", mono_error_get_message (error));
klass->wastypebuilder = TRUE;
mono_loader_unlock ();
failure_unlocked:
return MONO_HANDLE_CAST (MonoReflectionType, NULL_HANDLE);
}
typedef struct {
MonoMethod *handle;
} DynamicMethodReleaseData;
/*
* The runtime automatically clean up those after finalization.
*/
static MonoReferenceQueue *dynamic_method_queue;
static void
free_dynamic_method (void *dynamic_method)
{
DynamicMethodReleaseData *data = (DynamicMethodReleaseData *)dynamic_method;
MonoMethod *method = data->handle;
MonoGCHandle dis_link;
dyn_methods_lock ();
dis_link = g_hash_table_lookup (method_to_dyn_method, method);
g_hash_table_remove (method_to_dyn_method, method);
dyn_methods_unlock ();
g_assert (dis_link);
mono_gchandle_free_internal (dis_link);
mono_runtime_free_method (method);
g_free (data);
}
static gboolean
reflection_create_dynamic_method (MonoReflectionDynamicMethodHandle ref_mb, MonoError *error)
{
/* We need to clear handles for rmb fields created in reflection_methodbuilder_from_dynamic_method */
HANDLE_FUNCTION_ENTER ();
MonoReferenceQueue *queue;
MonoMethod *handle;
DynamicMethodReleaseData *release_data;
ReflectionMethodBuilder rmb;
MonoMethodSignature *sig;
MonoClass *klass;
GSList *l;
int i;
gboolean ret = TRUE;
MonoReflectionDynamicMethod *mb;
MonoAssembly *ass = NULL;
error_init (error);
if (!(queue = dynamic_method_queue)) {
mono_loader_lock ();
if (!(queue = dynamic_method_queue))
queue = dynamic_method_queue = mono_gc_reference_queue_new_internal (free_dynamic_method);
mono_loader_unlock ();
}
sig = dynamic_method_to_signature (ref_mb, error);
goto_if_nok (error, exit_false);
mb = MONO_HANDLE_RAW (ref_mb); /* FIXME convert reflection_create_dynamic_method to use handles */
reflection_methodbuilder_from_dynamic_method (&rmb, mb);
/*
* Resolve references.
*/
/*
* Every second entry in the refs array is reserved for storing handle_class,
* which is needed by the ldtoken implementation in the JIT.
*/
rmb.nrefs = mb->nrefs;
rmb.refs = g_new0 (gpointer, mb->nrefs + 1);
for (i = 0; i < mb->nrefs; i += 2) {
MonoClass *handle_class;
gpointer ref;
MonoObject *obj = mono_array_get_internal (mb->refs, MonoObject*, i);
MONO_HANDLE_PIN (obj);
if (strcmp (obj->vtable->klass->name, "DynamicMethod") == 0) {
MonoReflectionDynamicMethod *method = (MonoReflectionDynamicMethod*)obj;
/*
* The referenced DynamicMethod should already be created by the managed
* code, except in the case of circular references. In that case, we store
* method in the refs array, and fix it up later when the referenced
* DynamicMethod is created.
*/
if (method->mhandle) {
ref = method->mhandle;
} else {
ref = method;
method->referenced_by = g_slist_append (method->referenced_by, mb);
}
handle_class = mono_defaults.methodhandle_class;
} else {
MonoException *ex = NULL;
ref = mono_reflection_resolve_object (mb->module->image, obj, &handle_class, NULL, error);
/* ref should not be a reference. Otherwise we would need a handle for it */
if (!is_ok (error)) {
g_free (rmb.refs);
goto exit_false;
}
if (!ref)
ex = mono_get_exception_type_load (NULL, NULL);
if (ex) {
g_free (rmb.refs);
mono_error_set_exception_instance (error, ex);
goto exit_false;
}
}
rmb.refs [i] = ref;
rmb.refs [i + 1] = handle_class;
}
if (mb->owner) {
MonoType *owner_type = mono_reflection_type_get_handle ((MonoReflectionType*)mb->owner, error);
if (!is_ok (error)) {
g_free (rmb.refs);
goto exit_false;
}
klass = mono_class_from_mono_type_internal (owner_type);
ass = klass->image->assembly;
} else {
klass = mono_defaults.object_class;
ass = (mb->module && mb->module->image) ? mb->module->image->assembly : NULL;
}
mb->mhandle = handle = reflection_methodbuilder_to_mono_method (klass, &rmb, sig, error);
((MonoDynamicMethod*)handle)->assembly = ass;
g_free (rmb.refs);
goto_if_nok (error, exit_false);
release_data = g_new (DynamicMethodReleaseData, 1);
release_data->handle = handle;
if (!mono_gc_reference_queue_add_internal (queue, (MonoObject*)mb, release_data))
g_free (release_data);
/* Fix up refs entries pointing at us */
for (l = mb->referenced_by; l; l = l->next) {
MonoReflectionDynamicMethod *method = (MonoReflectionDynamicMethod*)l->data;
MonoMethodWrapper *wrapper = (MonoMethodWrapper*)method->mhandle;
gpointer *data;
g_assert (method->mhandle);
data = (gpointer*)wrapper->method_data;
for (i = 0; i < GPOINTER_TO_UINT (data [0]); i += 2) {
if ((data [i + 1] == mb) && (data [i + 1 + 1] == mono_defaults.methodhandle_class))
data [i + 1] = mb->mhandle;
}
}
g_slist_free (mb->referenced_by);
dyn_methods_lock ();
if (!method_to_dyn_method)
method_to_dyn_method = g_hash_table_new (NULL, NULL);
g_hash_table_insert (method_to_dyn_method, handle, mono_gchandle_new_weakref_internal ((MonoObject *)mb, TRUE));
dyn_methods_unlock ();
goto exit;
exit_false:
ret = FALSE;
exit:
HANDLE_FUNCTION_RETURN_VAL (ret);
}
void
ves_icall_DynamicMethod_create_dynamic_method (MonoReflectionDynamicMethodHandle mb, MonoError *error)
{
(void) reflection_create_dynamic_method (mb, error);
}
#endif /* DISABLE_REFLECTION_EMIT */
MonoMethodSignature *
mono_reflection_lookup_signature (MonoImage *image, MonoMethod *method, guint32 token, MonoError *error)
{
MonoMethodSignature *sig;
g_assert (image_is_dynamic (image));
error_init (error);
sig = (MonoMethodSignature *)g_hash_table_lookup (((MonoDynamicImage*)image)->vararg_aux_hash, GUINT_TO_POINTER (token));
if (sig)
return sig;
return mono_method_signature_checked (method, error);
}
#ifndef DISABLE_REFLECTION_EMIT
/*
* ensure_complete_type:
*
* Ensure that KLASS is completed if it is a dynamic type, or references
* dynamic types.
*/
static void
ensure_complete_type (MonoClass *klass, MonoError *error)
{
HANDLE_FUNCTION_ENTER ();
error_init (error);
if (image_is_dynamic (klass->image) && !klass->wastypebuilder && mono_class_has_ref_info (klass)) {
// TODO: make this work on netcore when working on SRE.TypeBuilder
g_assert_not_reached ();
}
if (mono_class_is_ginst (klass)) {
MonoGenericInst *inst = mono_class_get_generic_class (klass)->context.class_inst;
int i;
for (i = 0; i < inst->type_argc; ++i) {
ensure_complete_type (mono_class_from_mono_type_internal (inst->type_argv [i]), error);
goto_if_nok (error, exit);
}
}
exit:
HANDLE_FUNCTION_RETURN ();
}
gpointer
mono_reflection_resolve_object (MonoImage *image, MonoObject *obj, MonoClass **handle_class, MonoGenericContext *context, MonoError *error)
{
HANDLE_FUNCTION_ENTER ();
MonoClass *oklass = obj->vtable->klass;
gpointer result = NULL;
error_init (error);
if (strcmp (oklass->name, "String") == 0) {
result = MONO_HANDLE_RAW (mono_string_intern_checked (MONO_HANDLE_NEW (MonoString, (MonoString*)obj), error));
goto_if_nok (error, return_null);
*handle_class = mono_defaults.string_class;
g_assert (result);
} else if (strcmp (oklass->name, "RuntimeType") == 0) {
MonoType *type = mono_reflection_type_get_handle ((MonoReflectionType*)obj, error);
goto_if_nok (error, return_null);
MonoClass *mc = mono_class_from_mono_type_internal (type);
if (!mono_class_init_internal (mc)) {
mono_error_set_for_class_failure (error, mc);
goto return_null;
}
if (context) {
MonoType *inflated = mono_class_inflate_generic_type_checked (type, context, error);
goto_if_nok (error, return_null);
result = mono_class_from_mono_type_internal (inflated);
mono_metadata_free_type (inflated);
} else {
result = mono_class_from_mono_type_internal (type);
}
*handle_class = mono_defaults.typehandle_class;
g_assert (result);
} else if (strcmp (oklass->name, "RuntimeMethodInfo") == 0 ||
strcmp (oklass->name, "RuntimeConstructorInfo") == 0) {
result = ((MonoReflectionMethod*)obj)->method;
if (context) {
result = mono_class_inflate_generic_method_checked ((MonoMethod *)result, context, error);
mono_error_assert_ok (error);
}
*handle_class = mono_defaults.methodhandle_class;
g_assert (result);
} else if (strcmp (oklass->name, "RuntimeFieldInfo") == 0) {
MonoClassField *field = ((MonoReflectionField*)obj)->field;
ensure_complete_type (m_field_get_parent (field), error);
goto_if_nok (error, return_null);
if (context) {
MonoType *inflated = mono_class_inflate_generic_type_checked (m_class_get_byval_arg (m_field_get_parent (field)), context, error);
goto_if_nok (error, return_null);
MonoClass *klass;
klass = mono_class_from_mono_type_internal (inflated);
MonoClassField *inflated_field;
gpointer iter = NULL;
mono_metadata_free_type (inflated);
while ((inflated_field = mono_class_get_fields_internal (klass, &iter))) {
if (!strcmp (field->name, inflated_field->name))
break;
}
g_assert (inflated_field && !strcmp (field->name, inflated_field->name));
result = inflated_field;
} else {
result = field;
}
*handle_class = mono_defaults.fieldhandle_class;
g_assert (result);
} else if (strcmp (oklass->name, "TypeBuilder") == 0) {
MonoReflectionTypeBuilderHandle tb = MONO_HANDLE_NEW (MonoReflectionTypeBuilder, (MonoReflectionTypeBuilder*)obj);
MonoType *type = mono_reflection_type_get_handle (&MONO_HANDLE_RAW (tb)->type, error);
goto_if_nok (error, return_null);
MonoClass *klass;
klass = type->data.klass;
if (klass->wastypebuilder) {
/* Already created */
result = klass;
} else {
// TODO: make this work on netcore when working on SRE.TypeBuilder
g_assert_not_reached();
}
*handle_class = mono_defaults.typehandle_class;
} else if (strcmp (oklass->name, "SignatureHelper") == 0) {
MonoReflectionSigHelper *helper = (MonoReflectionSigHelper*)obj;
MonoMethodSignature *sig;
int nargs, i;
if (helper->arguments)
nargs = mono_array_length_internal (helper->arguments);
else
nargs = 0;
sig = mono_metadata_signature_alloc (image, nargs);
sig->explicit_this = helper->call_conv & 64 ? 1 : 0;
sig->hasthis = helper->call_conv & 32 ? 1 : 0;
if (helper->unmanaged_call_conv) { /* unmanaged */
sig->call_convention = helper->unmanaged_call_conv - 1;
sig->pinvoke = TRUE;
} else if (helper->call_conv & 0x02) {
sig->call_convention = MONO_CALL_VARARG;
} else {
sig->call_convention = MONO_CALL_DEFAULT;
}
sig->param_count = nargs;
/* TODO: Copy type ? */
sig->ret = helper->return_type->type;
for (i = 0; i < nargs; ++i) {
sig->params [i] = mono_type_array_get_and_resolve_raw (helper->arguments, i, error); /* FIXME use handles */
if (!is_ok (error)) {
image_g_free (image, sig);
goto return_null;
}
}
result = sig;
*handle_class = NULL;
} else if (strcmp (oklass->name, "DynamicMethod") == 0) {
MonoReflectionDynamicMethod *method = (MonoReflectionDynamicMethod*)obj;
/* Already created by the managed code */
g_assert (method->mhandle);
result = method->mhandle;
*handle_class = mono_defaults.methodhandle_class;
} else if (strcmp (oklass->name, "MonoArrayMethod") == 0) {
MonoReflectionArrayMethod *m = (MonoReflectionArrayMethod*)obj;
MonoType *mtype;
MonoClass *klass;
MonoMethod *method;
gpointer iter;
char *name;
mtype = mono_reflection_type_get_handle (m->parent, error);
goto_if_nok (error, return_null);
klass = mono_class_from_mono_type_internal (mtype);
/* Find the method */
name = mono_string_to_utf8_checked_internal (m->name, error);
goto_if_nok (error, return_null);
iter = NULL;
while ((method = mono_class_get_methods (klass, &iter))) {
if (!strcmp (method->name, name))
break;
}
g_free (name);
// FIXME:
g_assert (method);
// FIXME: Check parameters/return value etc. match
result = method;
*handle_class = mono_defaults.methodhandle_class;
} else if (is_sre_method_builder (oklass) ||
mono_is_sre_ctor_builder (oklass) ||
is_sre_field_builder (oklass) ||
is_sre_gparam_builder (oklass) ||
is_sre_generic_instance (oklass) ||
is_sre_array (oklass) ||
is_sre_byref (oklass) ||
is_sre_pointer (oklass) ||
!strcmp (oklass->name, "FieldOnTypeBuilderInst") ||
!strcmp (oklass->name, "MethodOnTypeBuilderInst") ||
!strcmp (oklass->name, "ConstructorOnTypeBuilderInst")) {
static MonoMethod *resolve_method;
if (!resolve_method) {
MonoMethod *m = mono_class_get_method_from_name_checked (mono_class_get_module_builder_class (), "RuntimeResolve", 1, 0, error);
mono_error_assert_ok (error);
g_assert (m);
mono_memory_barrier ();
resolve_method = m;
}
void *args [ ] = { obj };
obj = mono_runtime_invoke_checked (resolve_method, NULL, args, error);
goto_if_nok (error, return_null);
g_assert (obj);
result = mono_reflection_resolve_object (image, obj, handle_class, context, error);
goto exit;
} else {
g_print ("%s\n", obj->vtable->klass->name);
g_assert_not_reached ();
}
goto exit;
return_null:
result = NULL;
goto exit;
exit:
HANDLE_FUNCTION_RETURN_VAL (result);
}
gpointer
mono_reflection_resolve_object_handle (MonoImage *image, MonoObjectHandle obj, MonoClass **handle_class, MonoGenericContext *context, MonoError *error)
{
return mono_reflection_resolve_object (image, MONO_HANDLE_RAW (obj), handle_class, context, error);
}
#else /* DISABLE_REFLECTION_EMIT */
MonoArray*
mono_reflection_get_custom_attrs_blob (MonoReflectionAssembly *assembly, MonoObject *ctor, MonoArray *ctorArgs, MonoArray *properties, MonoArray *propValues, MonoArray *fields, MonoArray* fieldValues)
{
g_assert_not_reached ();
return NULL;
}
void
mono_reflection_dynimage_basic_init (MonoReflectionAssemblyBuilder *assemblyb, MonoError *error)
{
g_error ("This mono runtime was configured with --enable-minimal=reflection_emit, so System.Reflection.Emit is not supported.");
}
static gboolean
mono_image_module_basic_init (MonoReflectionModuleBuilderHandle moduleb, MonoError *error)
{
g_assert_not_reached ();
return FALSE;
}
guint32
mono_image_insert_string (MonoReflectionModuleBuilderHandle module, MonoStringHandle str, MonoError *error)
{
g_assert_not_reached ();
return 0;
}
guint32
mono_image_create_method_token (MonoDynamicImage *assembly, MonoObjectHandle obj, MonoArrayHandle opt_param_types, MonoError *error)
{
g_assert_not_reached ();
return 0;
}
guint32
mono_image_create_token (MonoDynamicImage *assembly, MonoObjectHandle obj,
gboolean create_open_instance, gboolean register_token, MonoError *error)
{
g_assert_not_reached ();
return 0;
}
void
mono_reflection_get_dynamic_overrides (MonoClass *klass, MonoMethod ***overrides, int *num_overrides, MonoError *error)
{
error_init (error);
*overrides = NULL;
*num_overrides = 0;
}
MonoReflectionTypeHandle
ves_icall_TypeBuilder_create_runtime_class (MonoReflectionTypeBuilderHandle tb, MonoError *error)
{
g_assert_not_reached ();
return MONO_HANDLE_CAST (MonoReflectionType, NULL_HANDLE);
}
void
ves_icall_DynamicMethod_create_dynamic_method (MonoReflectionDynamicMethodHandle mb, MonoError *error)
{
error_init (error);
}
MonoType*
mono_reflection_type_get_handle (MonoReflectionType* ref, MonoError *error)
{
error_init (error);
if (!ref)
return NULL;
return ref->type;
}
MonoType*
mono_reflection_type_handle_mono_type (MonoReflectionTypeHandle ref, MonoError *error)
{
error_init (error);
if (MONO_HANDLE_IS_NULL (ref))
return NULL;
return MONO_HANDLE_GETVAL (ref, type);
}
#endif /* DISABLE_REFLECTION_EMIT */
gint32
ves_icall_ModuleBuilder_getToken (MonoReflectionModuleBuilderHandle mb, MonoObjectHandle obj, MonoBoolean create_open_instance, MonoError *error)
{
if (MONO_HANDLE_IS_NULL (obj)) {
mono_error_set_argument_null (error, "obj", "");
return 0;
}
return mono_image_create_token (MONO_HANDLE_GETVAL (mb, dynamic_image), obj, create_open_instance, TRUE, error);
}
gint32
ves_icall_ModuleBuilder_getMethodToken (MonoReflectionModuleBuilderHandle mb,
MonoReflectionMethodHandle method,
MonoArrayHandle opt_param_types,
MonoError *error)
{
if (MONO_HANDLE_IS_NULL (method)) {
mono_error_set_argument_null (error, "method", "");
return 0;
}
return mono_image_create_method_token (MONO_HANDLE_GETVAL (mb, dynamic_image), MONO_HANDLE_CAST (MonoObject, method), opt_param_types, error);
}
void
ves_icall_ModuleBuilder_RegisterToken (MonoReflectionModuleBuilderHandle mb, MonoObjectHandle obj, guint32 token, MonoError *error)
{
/* This function may be called by ModuleBuilder.FixupTokens to update
* an existing token, so replace is okay here. */
mono_dynamic_image_register_token (MONO_HANDLE_GETVAL (mb, dynamic_image), token, obj, MONO_DYN_IMAGE_TOK_REPLACE);
}
MonoObjectHandle
ves_icall_ModuleBuilder_GetRegisteredToken (MonoReflectionModuleBuilderHandle mb, guint32 token, MonoError *error)
{
MonoDynamicImage *dynamic_image = MONO_HANDLE_GETVAL (mb, dynamic_image);
return mono_dynamic_image_get_registered_token (dynamic_image, token, error);
}
#ifndef DISABLE_REFLECTION_EMIT
MonoArrayHandle
ves_icall_CustomAttributeBuilder_GetBlob (MonoReflectionAssemblyHandle assembly, MonoObjectHandle ctor,
MonoArrayHandle ctorArgs, MonoArrayHandle properties,
MonoArrayHandle propValues, MonoArrayHandle fields,
MonoArrayHandle fieldValues, MonoError* error)
{
return mono_reflection_get_custom_attrs_blob_checked (MONO_HANDLE_RAW (assembly), MONO_HANDLE_RAW (ctor),
MONO_HANDLE_RAW (ctorArgs), MONO_HANDLE_RAW (properties),
MONO_HANDLE_RAW (propValues), MONO_HANDLE_RAW (fields),
MONO_HANDLE_RAW (fieldValues), error);
}
#endif
void
ves_icall_AssemblyBuilder_basic_init (MonoReflectionAssemblyBuilderHandle assemblyb, MonoError *error)
{
MonoGCHandle gchandle = mono_gchandle_from_handle (MONO_HANDLE_CAST (MonoObject, assemblyb), TRUE);
mono_reflection_dynimage_basic_init (MONO_HANDLE_RAW (assemblyb), error);
mono_gchandle_free_internal (gchandle);
}
void
ves_icall_AssemblyBuilder_UpdateNativeCustomAttributes (MonoReflectionAssemblyBuilderHandle assemblyb, MonoError *error)
{
MonoArrayHandle cattrs = MONO_HANDLE_NEW_GET (MonoArray, assemblyb, cattrs);
MonoReflectionAssemblyHandle assembly_handle = MONO_HANDLE_CAST (MonoReflectionAssembly, assemblyb);
MonoAssembly *assembly = MONO_HANDLE_GETVAL (assembly_handle, assembly);
g_assert (assembly);
mono_save_custom_attrs (assembly->image, assembly, MONO_HANDLE_RAW (cattrs));
}
void
ves_icall_EnumBuilder_setup_enum_type (MonoReflectionTypeHandle enumtype,
MonoReflectionTypeHandle t,
MonoError *error)
{
MONO_HANDLE_SETVAL (enumtype, type, MonoType*, MONO_HANDLE_GETVAL (t, type));
}
void
ves_icall_ModuleBuilder_basic_init (MonoReflectionModuleBuilderHandle moduleb, MonoError *error)
{
mono_image_module_basic_init (moduleb, error);
}
guint32
ves_icall_ModuleBuilder_getUSIndex (MonoReflectionModuleBuilderHandle module, MonoStringHandle str, MonoError *error)
{
return mono_image_insert_string (module, str, error);
}
void
ves_icall_ModuleBuilder_set_wrappers_type (MonoReflectionModuleBuilderHandle moduleb, MonoReflectionTypeHandle ref_type, MonoError *error)
{
MonoDynamicImage *image = MONO_HANDLE_GETVAL (moduleb, dynamic_image);
MonoType *type = MONO_HANDLE_GETVAL (ref_type, type);
g_assert (type);
image->wrappers_type = mono_class_from_mono_type_internal (type);
}
MonoGCHandle
mono_method_to_dyn_method (MonoMethod *method)
{
MonoGCHandle *handle;
if (!method_to_dyn_method)
return (MonoGCHandle)NULL;
dyn_methods_lock ();
handle = (MonoGCHandle*)g_hash_table_lookup (method_to_dyn_method, method);
dyn_methods_unlock ();
return handle;
}
| -1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/coreclr/pal/src/libunwind/src/mi/dyn-info-list.c
|
/* libunwind - a platform-independent unwind library
Copyright (C) 2001-2002, 2005 Hewlett-Packard Co
Contributed by David Mosberger-Tang <[email protected]>
This file is part of libunwind.
Permission is hereby granted, free of charge, to any person obtaining
a copy of this software and associated documentation files (the
"Software"), to deal in the Software without restriction, including
without limitation the rights to use, copy, modify, merge, publish,
distribute, sublicense, and/or sell copies of the Software, and to
permit persons to whom the Software is furnished to do so, subject to
the following conditions:
The above copyright notice and this permission notice shall be
included in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */
#include "libunwind_i.h"
HIDDEN unw_dyn_info_list_t _U_dyn_info_list;
unw_word_t
_U_dyn_info_list_addr (void)
{
return (unw_word_t) (uintptr_t) &_U_dyn_info_list;
}
|
/* libunwind - a platform-independent unwind library
Copyright (C) 2001-2002, 2005 Hewlett-Packard Co
Contributed by David Mosberger-Tang <[email protected]>
This file is part of libunwind.
Permission is hereby granted, free of charge, to any person obtaining
a copy of this software and associated documentation files (the
"Software"), to deal in the Software without restriction, including
without limitation the rights to use, copy, modify, merge, publish,
distribute, sublicense, and/or sell copies of the Software, and to
permit persons to whom the Software is furnished to do so, subject to
the following conditions:
The above copyright notice and this permission notice shall be
included in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */
#include "libunwind_i.h"
HIDDEN unw_dyn_info_list_t _U_dyn_info_list;
unw_word_t
_U_dyn_info_list_addr (void)
{
return (unw_word_t) (uintptr_t) &_U_dyn_info_list;
}
| -1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/tests/JIT/HardwareIntrinsics/Arm/AdvSimd/And.Vector128.UInt16.cs
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
/******************************************************************************
* This file is auto-generated from a template file by the GenerateTests.csx *
* script in tests\src\JIT\HardwareIntrinsics.Arm\Shared. In order to make *
* changes, please update the corresponding template and run according to the *
* directions listed in the file. *
******************************************************************************/
using System;
using System.Runtime.CompilerServices;
using System.Runtime.InteropServices;
using System.Runtime.Intrinsics;
using System.Runtime.Intrinsics.Arm;
namespace JIT.HardwareIntrinsics.Arm
{
public static partial class Program
{
private static void And_Vector128_UInt16()
{
var test = new SimpleBinaryOpTest__And_Vector128_UInt16();
if (test.IsSupported)
{
// Validates basic functionality works, using Unsafe.Read
test.RunBasicScenario_UnsafeRead();
if (AdvSimd.IsSupported)
{
// Validates basic functionality works, using Load
test.RunBasicScenario_Load();
}
// Validates calling via reflection works, using Unsafe.Read
test.RunReflectionScenario_UnsafeRead();
if (AdvSimd.IsSupported)
{
// Validates calling via reflection works, using Load
test.RunReflectionScenario_Load();
}
// Validates passing a static member works
test.RunClsVarScenario();
if (AdvSimd.IsSupported)
{
// Validates passing a static member works, using pinning and Load
test.RunClsVarScenario_Load();
}
// Validates passing a local works, using Unsafe.Read
test.RunLclVarScenario_UnsafeRead();
if (AdvSimd.IsSupported)
{
// Validates passing a local works, using Load
test.RunLclVarScenario_Load();
}
// Validates passing the field of a local class works
test.RunClassLclFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing the field of a local class works, using pinning and Load
test.RunClassLclFldScenario_Load();
}
// Validates passing an instance member of a class works
test.RunClassFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing an instance member of a class works, using pinning and Load
test.RunClassFldScenario_Load();
}
// Validates passing the field of a local struct works
test.RunStructLclFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing the field of a local struct works, using pinning and Load
test.RunStructLclFldScenario_Load();
}
// Validates passing an instance member of a struct works
test.RunStructFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing an instance member of a struct works, using pinning and Load
test.RunStructFldScenario_Load();
}
}
else
{
// Validates we throw on unsupported hardware
test.RunUnsupportedScenario();
}
if (!test.Succeeded)
{
throw new Exception("One or more scenarios did not complete as expected.");
}
}
}
public sealed unsafe class SimpleBinaryOpTest__And_Vector128_UInt16
{
private struct DataTable
{
private byte[] inArray1;
private byte[] inArray2;
private byte[] outArray;
private GCHandle inHandle1;
private GCHandle inHandle2;
private GCHandle outHandle;
private ulong alignment;
public DataTable(UInt16[] inArray1, UInt16[] inArray2, UInt16[] outArray, int alignment)
{
int sizeOfinArray1 = inArray1.Length * Unsafe.SizeOf<UInt16>();
int sizeOfinArray2 = inArray2.Length * Unsafe.SizeOf<UInt16>();
int sizeOfoutArray = outArray.Length * Unsafe.SizeOf<UInt16>();
if ((alignment != 16 && alignment != 8) || (alignment * 2) < sizeOfinArray1 || (alignment * 2) < sizeOfinArray2 || (alignment * 2) < sizeOfoutArray)
{
throw new ArgumentException("Invalid value of alignment");
}
this.inArray1 = new byte[alignment * 2];
this.inArray2 = new byte[alignment * 2];
this.outArray = new byte[alignment * 2];
this.inHandle1 = GCHandle.Alloc(this.inArray1, GCHandleType.Pinned);
this.inHandle2 = GCHandle.Alloc(this.inArray2, GCHandleType.Pinned);
this.outHandle = GCHandle.Alloc(this.outArray, GCHandleType.Pinned);
this.alignment = (ulong)alignment;
Unsafe.CopyBlockUnaligned(ref Unsafe.AsRef<byte>(inArray1Ptr), ref Unsafe.As<UInt16, byte>(ref inArray1[0]), (uint)sizeOfinArray1);
Unsafe.CopyBlockUnaligned(ref Unsafe.AsRef<byte>(inArray2Ptr), ref Unsafe.As<UInt16, byte>(ref inArray2[0]), (uint)sizeOfinArray2);
}
public void* inArray1Ptr => Align((byte*)(inHandle1.AddrOfPinnedObject().ToPointer()), alignment);
public void* inArray2Ptr => Align((byte*)(inHandle2.AddrOfPinnedObject().ToPointer()), alignment);
public void* outArrayPtr => Align((byte*)(outHandle.AddrOfPinnedObject().ToPointer()), alignment);
public void Dispose()
{
inHandle1.Free();
inHandle2.Free();
outHandle.Free();
}
private static unsafe void* Align(byte* buffer, ulong expectedAlignment)
{
return (void*)(((ulong)buffer + expectedAlignment - 1) & ~(expectedAlignment - 1));
}
}
private struct TestStruct
{
public Vector128<UInt16> _fld1;
public Vector128<UInt16> _fld2;
public static TestStruct Create()
{
var testStruct = new TestStruct();
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetUInt16(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<UInt16>, byte>(ref testStruct._fld1), ref Unsafe.As<UInt16, byte>(ref _data1[0]), (uint)Unsafe.SizeOf<Vector128<UInt16>>());
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetUInt16(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<UInt16>, byte>(ref testStruct._fld2), ref Unsafe.As<UInt16, byte>(ref _data2[0]), (uint)Unsafe.SizeOf<Vector128<UInt16>>());
return testStruct;
}
public void RunStructFldScenario(SimpleBinaryOpTest__And_Vector128_UInt16 testClass)
{
var result = AdvSimd.And(_fld1, _fld2);
Unsafe.Write(testClass._dataTable.outArrayPtr, result);
testClass.ValidateResult(_fld1, _fld2, testClass._dataTable.outArrayPtr);
}
public void RunStructFldScenario_Load(SimpleBinaryOpTest__And_Vector128_UInt16 testClass)
{
fixed (Vector128<UInt16>* pFld1 = &_fld1)
fixed (Vector128<UInt16>* pFld2 = &_fld2)
{
var result = AdvSimd.And(
AdvSimd.LoadVector128((UInt16*)(pFld1)),
AdvSimd.LoadVector128((UInt16*)(pFld2))
);
Unsafe.Write(testClass._dataTable.outArrayPtr, result);
testClass.ValidateResult(_fld1, _fld2, testClass._dataTable.outArrayPtr);
}
}
}
private static readonly int LargestVectorSize = 16;
private static readonly int Op1ElementCount = Unsafe.SizeOf<Vector128<UInt16>>() / sizeof(UInt16);
private static readonly int Op2ElementCount = Unsafe.SizeOf<Vector128<UInt16>>() / sizeof(UInt16);
private static readonly int RetElementCount = Unsafe.SizeOf<Vector128<UInt16>>() / sizeof(UInt16);
private static UInt16[] _data1 = new UInt16[Op1ElementCount];
private static UInt16[] _data2 = new UInt16[Op2ElementCount];
private static Vector128<UInt16> _clsVar1;
private static Vector128<UInt16> _clsVar2;
private Vector128<UInt16> _fld1;
private Vector128<UInt16> _fld2;
private DataTable _dataTable;
static SimpleBinaryOpTest__And_Vector128_UInt16()
{
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetUInt16(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<UInt16>, byte>(ref _clsVar1), ref Unsafe.As<UInt16, byte>(ref _data1[0]), (uint)Unsafe.SizeOf<Vector128<UInt16>>());
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetUInt16(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<UInt16>, byte>(ref _clsVar2), ref Unsafe.As<UInt16, byte>(ref _data2[0]), (uint)Unsafe.SizeOf<Vector128<UInt16>>());
}
public SimpleBinaryOpTest__And_Vector128_UInt16()
{
Succeeded = true;
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetUInt16(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<UInt16>, byte>(ref _fld1), ref Unsafe.As<UInt16, byte>(ref _data1[0]), (uint)Unsafe.SizeOf<Vector128<UInt16>>());
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetUInt16(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<UInt16>, byte>(ref _fld2), ref Unsafe.As<UInt16, byte>(ref _data2[0]), (uint)Unsafe.SizeOf<Vector128<UInt16>>());
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetUInt16(); }
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetUInt16(); }
_dataTable = new DataTable(_data1, _data2, new UInt16[RetElementCount], LargestVectorSize);
}
public bool IsSupported => AdvSimd.IsSupported;
public bool Succeeded { get; set; }
public void RunBasicScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunBasicScenario_UnsafeRead));
var result = AdvSimd.And(
Unsafe.Read<Vector128<UInt16>>(_dataTable.inArray1Ptr),
Unsafe.Read<Vector128<UInt16>>(_dataTable.inArray2Ptr)
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunBasicScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunBasicScenario_Load));
var result = AdvSimd.And(
AdvSimd.LoadVector128((UInt16*)(_dataTable.inArray1Ptr)),
AdvSimd.LoadVector128((UInt16*)(_dataTable.inArray2Ptr))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunReflectionScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunReflectionScenario_UnsafeRead));
var result = typeof(AdvSimd).GetMethod(nameof(AdvSimd.And), new Type[] { typeof(Vector128<UInt16>), typeof(Vector128<UInt16>) })
.Invoke(null, new object[] {
Unsafe.Read<Vector128<UInt16>>(_dataTable.inArray1Ptr),
Unsafe.Read<Vector128<UInt16>>(_dataTable.inArray2Ptr)
});
Unsafe.Write(_dataTable.outArrayPtr, (Vector128<UInt16>)(result));
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunReflectionScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunReflectionScenario_Load));
var result = typeof(AdvSimd).GetMethod(nameof(AdvSimd.And), new Type[] { typeof(Vector128<UInt16>), typeof(Vector128<UInt16>) })
.Invoke(null, new object[] {
AdvSimd.LoadVector128((UInt16*)(_dataTable.inArray1Ptr)),
AdvSimd.LoadVector128((UInt16*)(_dataTable.inArray2Ptr))
});
Unsafe.Write(_dataTable.outArrayPtr, (Vector128<UInt16>)(result));
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunClsVarScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClsVarScenario));
var result = AdvSimd.And(
_clsVar1,
_clsVar2
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_clsVar1, _clsVar2, _dataTable.outArrayPtr);
}
public void RunClsVarScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClsVarScenario_Load));
fixed (Vector128<UInt16>* pClsVar1 = &_clsVar1)
fixed (Vector128<UInt16>* pClsVar2 = &_clsVar2)
{
var result = AdvSimd.And(
AdvSimd.LoadVector128((UInt16*)(pClsVar1)),
AdvSimd.LoadVector128((UInt16*)(pClsVar2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_clsVar1, _clsVar2, _dataTable.outArrayPtr);
}
}
public void RunLclVarScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunLclVarScenario_UnsafeRead));
var op1 = Unsafe.Read<Vector128<UInt16>>(_dataTable.inArray1Ptr);
var op2 = Unsafe.Read<Vector128<UInt16>>(_dataTable.inArray2Ptr);
var result = AdvSimd.And(op1, op2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(op1, op2, _dataTable.outArrayPtr);
}
public void RunLclVarScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunLclVarScenario_Load));
var op1 = AdvSimd.LoadVector128((UInt16*)(_dataTable.inArray1Ptr));
var op2 = AdvSimd.LoadVector128((UInt16*)(_dataTable.inArray2Ptr));
var result = AdvSimd.And(op1, op2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(op1, op2, _dataTable.outArrayPtr);
}
public void RunClassLclFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassLclFldScenario));
var test = new SimpleBinaryOpTest__And_Vector128_UInt16();
var result = AdvSimd.And(test._fld1, test._fld2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
public void RunClassLclFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassLclFldScenario_Load));
var test = new SimpleBinaryOpTest__And_Vector128_UInt16();
fixed (Vector128<UInt16>* pFld1 = &test._fld1)
fixed (Vector128<UInt16>* pFld2 = &test._fld2)
{
var result = AdvSimd.And(
AdvSimd.LoadVector128((UInt16*)(pFld1)),
AdvSimd.LoadVector128((UInt16*)(pFld2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
}
public void RunClassFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassFldScenario));
var result = AdvSimd.And(_fld1, _fld2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_fld1, _fld2, _dataTable.outArrayPtr);
}
public void RunClassFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassFldScenario_Load));
fixed (Vector128<UInt16>* pFld1 = &_fld1)
fixed (Vector128<UInt16>* pFld2 = &_fld2)
{
var result = AdvSimd.And(
AdvSimd.LoadVector128((UInt16*)(pFld1)),
AdvSimd.LoadVector128((UInt16*)(pFld2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_fld1, _fld2, _dataTable.outArrayPtr);
}
}
public void RunStructLclFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructLclFldScenario));
var test = TestStruct.Create();
var result = AdvSimd.And(test._fld1, test._fld2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
public void RunStructLclFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructLclFldScenario_Load));
var test = TestStruct.Create();
var result = AdvSimd.And(
AdvSimd.LoadVector128((UInt16*)(&test._fld1)),
AdvSimd.LoadVector128((UInt16*)(&test._fld2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
public void RunStructFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructFldScenario));
var test = TestStruct.Create();
test.RunStructFldScenario(this);
}
public void RunStructFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructFldScenario_Load));
var test = TestStruct.Create();
test.RunStructFldScenario_Load(this);
}
public void RunUnsupportedScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunUnsupportedScenario));
bool succeeded = false;
try
{
RunBasicScenario_UnsafeRead();
}
catch (PlatformNotSupportedException)
{
succeeded = true;
}
if (!succeeded)
{
Succeeded = false;
}
}
private void ValidateResult(Vector128<UInt16> op1, Vector128<UInt16> op2, void* result, [CallerMemberName] string method = "")
{
UInt16[] inArray1 = new UInt16[Op1ElementCount];
UInt16[] inArray2 = new UInt16[Op2ElementCount];
UInt16[] outArray = new UInt16[RetElementCount];
Unsafe.WriteUnaligned(ref Unsafe.As<UInt16, byte>(ref inArray1[0]), op1);
Unsafe.WriteUnaligned(ref Unsafe.As<UInt16, byte>(ref inArray2[0]), op2);
Unsafe.CopyBlockUnaligned(ref Unsafe.As<UInt16, byte>(ref outArray[0]), ref Unsafe.AsRef<byte>(result), (uint)Unsafe.SizeOf<Vector128<UInt16>>());
ValidateResult(inArray1, inArray2, outArray, method);
}
private void ValidateResult(void* op1, void* op2, void* result, [CallerMemberName] string method = "")
{
UInt16[] inArray1 = new UInt16[Op1ElementCount];
UInt16[] inArray2 = new UInt16[Op2ElementCount];
UInt16[] outArray = new UInt16[RetElementCount];
Unsafe.CopyBlockUnaligned(ref Unsafe.As<UInt16, byte>(ref inArray1[0]), ref Unsafe.AsRef<byte>(op1), (uint)Unsafe.SizeOf<Vector128<UInt16>>());
Unsafe.CopyBlockUnaligned(ref Unsafe.As<UInt16, byte>(ref inArray2[0]), ref Unsafe.AsRef<byte>(op2), (uint)Unsafe.SizeOf<Vector128<UInt16>>());
Unsafe.CopyBlockUnaligned(ref Unsafe.As<UInt16, byte>(ref outArray[0]), ref Unsafe.AsRef<byte>(result), (uint)Unsafe.SizeOf<Vector128<UInt16>>());
ValidateResult(inArray1, inArray2, outArray, method);
}
private void ValidateResult(UInt16[] left, UInt16[] right, UInt16[] result, [CallerMemberName] string method = "")
{
bool succeeded = true;
for (var i = 0; i < RetElementCount; i++)
{
if (Helpers.And(left[i], right[i]) != result[i])
{
succeeded = false;
break;
}
}
if (!succeeded)
{
TestLibrary.TestFramework.LogInformation($"{nameof(AdvSimd)}.{nameof(AdvSimd.And)}<UInt16>(Vector128<UInt16>, Vector128<UInt16>): {method} failed:");
TestLibrary.TestFramework.LogInformation($" left: ({string.Join(", ", left)})");
TestLibrary.TestFramework.LogInformation($" right: ({string.Join(", ", right)})");
TestLibrary.TestFramework.LogInformation($" result: ({string.Join(", ", result)})");
TestLibrary.TestFramework.LogInformation(string.Empty);
Succeeded = false;
}
}
}
}
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
/******************************************************************************
* This file is auto-generated from a template file by the GenerateTests.csx *
* script in tests\src\JIT\HardwareIntrinsics.Arm\Shared. In order to make *
* changes, please update the corresponding template and run according to the *
* directions listed in the file. *
******************************************************************************/
using System;
using System.Runtime.CompilerServices;
using System.Runtime.InteropServices;
using System.Runtime.Intrinsics;
using System.Runtime.Intrinsics.Arm;
namespace JIT.HardwareIntrinsics.Arm
{
public static partial class Program
{
private static void And_Vector128_UInt16()
{
var test = new SimpleBinaryOpTest__And_Vector128_UInt16();
if (test.IsSupported)
{
// Validates basic functionality works, using Unsafe.Read
test.RunBasicScenario_UnsafeRead();
if (AdvSimd.IsSupported)
{
// Validates basic functionality works, using Load
test.RunBasicScenario_Load();
}
// Validates calling via reflection works, using Unsafe.Read
test.RunReflectionScenario_UnsafeRead();
if (AdvSimd.IsSupported)
{
// Validates calling via reflection works, using Load
test.RunReflectionScenario_Load();
}
// Validates passing a static member works
test.RunClsVarScenario();
if (AdvSimd.IsSupported)
{
// Validates passing a static member works, using pinning and Load
test.RunClsVarScenario_Load();
}
// Validates passing a local works, using Unsafe.Read
test.RunLclVarScenario_UnsafeRead();
if (AdvSimd.IsSupported)
{
// Validates passing a local works, using Load
test.RunLclVarScenario_Load();
}
// Validates passing the field of a local class works
test.RunClassLclFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing the field of a local class works, using pinning and Load
test.RunClassLclFldScenario_Load();
}
// Validates passing an instance member of a class works
test.RunClassFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing an instance member of a class works, using pinning and Load
test.RunClassFldScenario_Load();
}
// Validates passing the field of a local struct works
test.RunStructLclFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing the field of a local struct works, using pinning and Load
test.RunStructLclFldScenario_Load();
}
// Validates passing an instance member of a struct works
test.RunStructFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing an instance member of a struct works, using pinning and Load
test.RunStructFldScenario_Load();
}
}
else
{
// Validates we throw on unsupported hardware
test.RunUnsupportedScenario();
}
if (!test.Succeeded)
{
throw new Exception("One or more scenarios did not complete as expected.");
}
}
}
public sealed unsafe class SimpleBinaryOpTest__And_Vector128_UInt16
{
private struct DataTable
{
private byte[] inArray1;
private byte[] inArray2;
private byte[] outArray;
private GCHandle inHandle1;
private GCHandle inHandle2;
private GCHandle outHandle;
private ulong alignment;
public DataTable(UInt16[] inArray1, UInt16[] inArray2, UInt16[] outArray, int alignment)
{
int sizeOfinArray1 = inArray1.Length * Unsafe.SizeOf<UInt16>();
int sizeOfinArray2 = inArray2.Length * Unsafe.SizeOf<UInt16>();
int sizeOfoutArray = outArray.Length * Unsafe.SizeOf<UInt16>();
if ((alignment != 16 && alignment != 8) || (alignment * 2) < sizeOfinArray1 || (alignment * 2) < sizeOfinArray2 || (alignment * 2) < sizeOfoutArray)
{
throw new ArgumentException("Invalid value of alignment");
}
this.inArray1 = new byte[alignment * 2];
this.inArray2 = new byte[alignment * 2];
this.outArray = new byte[alignment * 2];
this.inHandle1 = GCHandle.Alloc(this.inArray1, GCHandleType.Pinned);
this.inHandle2 = GCHandle.Alloc(this.inArray2, GCHandleType.Pinned);
this.outHandle = GCHandle.Alloc(this.outArray, GCHandleType.Pinned);
this.alignment = (ulong)alignment;
Unsafe.CopyBlockUnaligned(ref Unsafe.AsRef<byte>(inArray1Ptr), ref Unsafe.As<UInt16, byte>(ref inArray1[0]), (uint)sizeOfinArray1);
Unsafe.CopyBlockUnaligned(ref Unsafe.AsRef<byte>(inArray2Ptr), ref Unsafe.As<UInt16, byte>(ref inArray2[0]), (uint)sizeOfinArray2);
}
public void* inArray1Ptr => Align((byte*)(inHandle1.AddrOfPinnedObject().ToPointer()), alignment);
public void* inArray2Ptr => Align((byte*)(inHandle2.AddrOfPinnedObject().ToPointer()), alignment);
public void* outArrayPtr => Align((byte*)(outHandle.AddrOfPinnedObject().ToPointer()), alignment);
public void Dispose()
{
inHandle1.Free();
inHandle2.Free();
outHandle.Free();
}
private static unsafe void* Align(byte* buffer, ulong expectedAlignment)
{
return (void*)(((ulong)buffer + expectedAlignment - 1) & ~(expectedAlignment - 1));
}
}
private struct TestStruct
{
public Vector128<UInt16> _fld1;
public Vector128<UInt16> _fld2;
public static TestStruct Create()
{
var testStruct = new TestStruct();
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetUInt16(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<UInt16>, byte>(ref testStruct._fld1), ref Unsafe.As<UInt16, byte>(ref _data1[0]), (uint)Unsafe.SizeOf<Vector128<UInt16>>());
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetUInt16(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<UInt16>, byte>(ref testStruct._fld2), ref Unsafe.As<UInt16, byte>(ref _data2[0]), (uint)Unsafe.SizeOf<Vector128<UInt16>>());
return testStruct;
}
public void RunStructFldScenario(SimpleBinaryOpTest__And_Vector128_UInt16 testClass)
{
var result = AdvSimd.And(_fld1, _fld2);
Unsafe.Write(testClass._dataTable.outArrayPtr, result);
testClass.ValidateResult(_fld1, _fld2, testClass._dataTable.outArrayPtr);
}
public void RunStructFldScenario_Load(SimpleBinaryOpTest__And_Vector128_UInt16 testClass)
{
fixed (Vector128<UInt16>* pFld1 = &_fld1)
fixed (Vector128<UInt16>* pFld2 = &_fld2)
{
var result = AdvSimd.And(
AdvSimd.LoadVector128((UInt16*)(pFld1)),
AdvSimd.LoadVector128((UInt16*)(pFld2))
);
Unsafe.Write(testClass._dataTable.outArrayPtr, result);
testClass.ValidateResult(_fld1, _fld2, testClass._dataTable.outArrayPtr);
}
}
}
private static readonly int LargestVectorSize = 16;
private static readonly int Op1ElementCount = Unsafe.SizeOf<Vector128<UInt16>>() / sizeof(UInt16);
private static readonly int Op2ElementCount = Unsafe.SizeOf<Vector128<UInt16>>() / sizeof(UInt16);
private static readonly int RetElementCount = Unsafe.SizeOf<Vector128<UInt16>>() / sizeof(UInt16);
private static UInt16[] _data1 = new UInt16[Op1ElementCount];
private static UInt16[] _data2 = new UInt16[Op2ElementCount];
private static Vector128<UInt16> _clsVar1;
private static Vector128<UInt16> _clsVar2;
private Vector128<UInt16> _fld1;
private Vector128<UInt16> _fld2;
private DataTable _dataTable;
static SimpleBinaryOpTest__And_Vector128_UInt16()
{
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetUInt16(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<UInt16>, byte>(ref _clsVar1), ref Unsafe.As<UInt16, byte>(ref _data1[0]), (uint)Unsafe.SizeOf<Vector128<UInt16>>());
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetUInt16(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<UInt16>, byte>(ref _clsVar2), ref Unsafe.As<UInt16, byte>(ref _data2[0]), (uint)Unsafe.SizeOf<Vector128<UInt16>>());
}
public SimpleBinaryOpTest__And_Vector128_UInt16()
{
Succeeded = true;
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetUInt16(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<UInt16>, byte>(ref _fld1), ref Unsafe.As<UInt16, byte>(ref _data1[0]), (uint)Unsafe.SizeOf<Vector128<UInt16>>());
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetUInt16(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<UInt16>, byte>(ref _fld2), ref Unsafe.As<UInt16, byte>(ref _data2[0]), (uint)Unsafe.SizeOf<Vector128<UInt16>>());
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetUInt16(); }
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetUInt16(); }
_dataTable = new DataTable(_data1, _data2, new UInt16[RetElementCount], LargestVectorSize);
}
public bool IsSupported => AdvSimd.IsSupported;
public bool Succeeded { get; set; }
public void RunBasicScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunBasicScenario_UnsafeRead));
var result = AdvSimd.And(
Unsafe.Read<Vector128<UInt16>>(_dataTable.inArray1Ptr),
Unsafe.Read<Vector128<UInt16>>(_dataTable.inArray2Ptr)
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunBasicScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunBasicScenario_Load));
var result = AdvSimd.And(
AdvSimd.LoadVector128((UInt16*)(_dataTable.inArray1Ptr)),
AdvSimd.LoadVector128((UInt16*)(_dataTable.inArray2Ptr))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunReflectionScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunReflectionScenario_UnsafeRead));
var result = typeof(AdvSimd).GetMethod(nameof(AdvSimd.And), new Type[] { typeof(Vector128<UInt16>), typeof(Vector128<UInt16>) })
.Invoke(null, new object[] {
Unsafe.Read<Vector128<UInt16>>(_dataTable.inArray1Ptr),
Unsafe.Read<Vector128<UInt16>>(_dataTable.inArray2Ptr)
});
Unsafe.Write(_dataTable.outArrayPtr, (Vector128<UInt16>)(result));
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunReflectionScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunReflectionScenario_Load));
var result = typeof(AdvSimd).GetMethod(nameof(AdvSimd.And), new Type[] { typeof(Vector128<UInt16>), typeof(Vector128<UInt16>) })
.Invoke(null, new object[] {
AdvSimd.LoadVector128((UInt16*)(_dataTable.inArray1Ptr)),
AdvSimd.LoadVector128((UInt16*)(_dataTable.inArray2Ptr))
});
Unsafe.Write(_dataTable.outArrayPtr, (Vector128<UInt16>)(result));
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunClsVarScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClsVarScenario));
var result = AdvSimd.And(
_clsVar1,
_clsVar2
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_clsVar1, _clsVar2, _dataTable.outArrayPtr);
}
public void RunClsVarScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClsVarScenario_Load));
fixed (Vector128<UInt16>* pClsVar1 = &_clsVar1)
fixed (Vector128<UInt16>* pClsVar2 = &_clsVar2)
{
var result = AdvSimd.And(
AdvSimd.LoadVector128((UInt16*)(pClsVar1)),
AdvSimd.LoadVector128((UInt16*)(pClsVar2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_clsVar1, _clsVar2, _dataTable.outArrayPtr);
}
}
public void RunLclVarScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunLclVarScenario_UnsafeRead));
var op1 = Unsafe.Read<Vector128<UInt16>>(_dataTable.inArray1Ptr);
var op2 = Unsafe.Read<Vector128<UInt16>>(_dataTable.inArray2Ptr);
var result = AdvSimd.And(op1, op2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(op1, op2, _dataTable.outArrayPtr);
}
public void RunLclVarScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunLclVarScenario_Load));
var op1 = AdvSimd.LoadVector128((UInt16*)(_dataTable.inArray1Ptr));
var op2 = AdvSimd.LoadVector128((UInt16*)(_dataTable.inArray2Ptr));
var result = AdvSimd.And(op1, op2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(op1, op2, _dataTable.outArrayPtr);
}
public void RunClassLclFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassLclFldScenario));
var test = new SimpleBinaryOpTest__And_Vector128_UInt16();
var result = AdvSimd.And(test._fld1, test._fld2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
public void RunClassLclFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassLclFldScenario_Load));
var test = new SimpleBinaryOpTest__And_Vector128_UInt16();
fixed (Vector128<UInt16>* pFld1 = &test._fld1)
fixed (Vector128<UInt16>* pFld2 = &test._fld2)
{
var result = AdvSimd.And(
AdvSimd.LoadVector128((UInt16*)(pFld1)),
AdvSimd.LoadVector128((UInt16*)(pFld2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
}
public void RunClassFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassFldScenario));
var result = AdvSimd.And(_fld1, _fld2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_fld1, _fld2, _dataTable.outArrayPtr);
}
public void RunClassFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassFldScenario_Load));
fixed (Vector128<UInt16>* pFld1 = &_fld1)
fixed (Vector128<UInt16>* pFld2 = &_fld2)
{
var result = AdvSimd.And(
AdvSimd.LoadVector128((UInt16*)(pFld1)),
AdvSimd.LoadVector128((UInt16*)(pFld2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_fld1, _fld2, _dataTable.outArrayPtr);
}
}
public void RunStructLclFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructLclFldScenario));
var test = TestStruct.Create();
var result = AdvSimd.And(test._fld1, test._fld2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
public void RunStructLclFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructLclFldScenario_Load));
var test = TestStruct.Create();
var result = AdvSimd.And(
AdvSimd.LoadVector128((UInt16*)(&test._fld1)),
AdvSimd.LoadVector128((UInt16*)(&test._fld2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
public void RunStructFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructFldScenario));
var test = TestStruct.Create();
test.RunStructFldScenario(this);
}
public void RunStructFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructFldScenario_Load));
var test = TestStruct.Create();
test.RunStructFldScenario_Load(this);
}
public void RunUnsupportedScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunUnsupportedScenario));
bool succeeded = false;
try
{
RunBasicScenario_UnsafeRead();
}
catch (PlatformNotSupportedException)
{
succeeded = true;
}
if (!succeeded)
{
Succeeded = false;
}
}
private void ValidateResult(Vector128<UInt16> op1, Vector128<UInt16> op2, void* result, [CallerMemberName] string method = "")
{
UInt16[] inArray1 = new UInt16[Op1ElementCount];
UInt16[] inArray2 = new UInt16[Op2ElementCount];
UInt16[] outArray = new UInt16[RetElementCount];
Unsafe.WriteUnaligned(ref Unsafe.As<UInt16, byte>(ref inArray1[0]), op1);
Unsafe.WriteUnaligned(ref Unsafe.As<UInt16, byte>(ref inArray2[0]), op2);
Unsafe.CopyBlockUnaligned(ref Unsafe.As<UInt16, byte>(ref outArray[0]), ref Unsafe.AsRef<byte>(result), (uint)Unsafe.SizeOf<Vector128<UInt16>>());
ValidateResult(inArray1, inArray2, outArray, method);
}
private void ValidateResult(void* op1, void* op2, void* result, [CallerMemberName] string method = "")
{
UInt16[] inArray1 = new UInt16[Op1ElementCount];
UInt16[] inArray2 = new UInt16[Op2ElementCount];
UInt16[] outArray = new UInt16[RetElementCount];
Unsafe.CopyBlockUnaligned(ref Unsafe.As<UInt16, byte>(ref inArray1[0]), ref Unsafe.AsRef<byte>(op1), (uint)Unsafe.SizeOf<Vector128<UInt16>>());
Unsafe.CopyBlockUnaligned(ref Unsafe.As<UInt16, byte>(ref inArray2[0]), ref Unsafe.AsRef<byte>(op2), (uint)Unsafe.SizeOf<Vector128<UInt16>>());
Unsafe.CopyBlockUnaligned(ref Unsafe.As<UInt16, byte>(ref outArray[0]), ref Unsafe.AsRef<byte>(result), (uint)Unsafe.SizeOf<Vector128<UInt16>>());
ValidateResult(inArray1, inArray2, outArray, method);
}
private void ValidateResult(UInt16[] left, UInt16[] right, UInt16[] result, [CallerMemberName] string method = "")
{
bool succeeded = true;
for (var i = 0; i < RetElementCount; i++)
{
if (Helpers.And(left[i], right[i]) != result[i])
{
succeeded = false;
break;
}
}
if (!succeeded)
{
TestLibrary.TestFramework.LogInformation($"{nameof(AdvSimd)}.{nameof(AdvSimd.And)}<UInt16>(Vector128<UInt16>, Vector128<UInt16>): {method} failed:");
TestLibrary.TestFramework.LogInformation($" left: ({string.Join(", ", left)})");
TestLibrary.TestFramework.LogInformation($" right: ({string.Join(", ", right)})");
TestLibrary.TestFramework.LogInformation($" result: ({string.Join(", ", result)})");
TestLibrary.TestFramework.LogInformation(string.Empty);
Succeeded = false;
}
}
}
}
| -1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/tests/JIT/HardwareIntrinsics/General/Vector128_1/ToScalar.SByte.cs
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
/******************************************************************************
* This file is auto-generated from a template file by the GenerateTests.csx *
* script in tests\src\JIT\HardwareIntrinsics\General\Shared. In order to make *
* changes, please update the corresponding template and run according to the *
* directions listed in the file. *
******************************************************************************/
using System;
using System.Runtime.CompilerServices;
using System.Runtime.InteropServices;
using System.Runtime.Intrinsics;
namespace JIT.HardwareIntrinsics.General
{
public static partial class Program
{
private static void ToScalarSByte()
{
var test = new VectorToScalar__ToScalarSByte();
// Validates basic functionality works
test.RunBasicScenario();
// Validates calling via reflection works
test.RunReflectionScenario();
if (!test.Succeeded)
{
throw new Exception("One or more scenarios did not complete as expected.");
}
}
}
public sealed unsafe class VectorToScalar__ToScalarSByte
{
private static readonly int LargestVectorSize = 16;
private static readonly int ElementCount = Unsafe.SizeOf<Vector128<SByte>>() / sizeof(SByte);
public bool Succeeded { get; set; } = true;
public void RunBasicScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunBasicScenario));
SByte[] values = new SByte[ElementCount];
for (int i = 0; i < ElementCount; i++)
{
values[i] = TestLibrary.Generator.GetSByte();
}
Vector128<SByte> value = Vector128.Create(values[0], values[1], values[2], values[3], values[4], values[5], values[6], values[7], values[8], values[9], values[10], values[11], values[12], values[13], values[14], values[15]);
SByte result = value.ToScalar();
ValidateResult(result, values);
}
public void RunReflectionScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunReflectionScenario));
SByte[] values = new SByte[ElementCount];
for (int i = 0; i < ElementCount; i++)
{
values[i] = TestLibrary.Generator.GetSByte();
}
Vector128<SByte> value = Vector128.Create(values[0], values[1], values[2], values[3], values[4], values[5], values[6], values[7], values[8], values[9], values[10], values[11], values[12], values[13], values[14], values[15]);
object result = typeof(Vector128)
.GetMethod(nameof(Vector128.ToScalar))
.MakeGenericMethod(typeof(SByte))
.Invoke(null, new object[] { value });
ValidateResult((SByte)(result), values);
}
private void ValidateResult(SByte result, SByte[] values, [CallerMemberName] string method = "")
{
if (result != values[0])
{
TestLibrary.TestFramework.LogInformation($"Vector128<SByte>.ToScalar(): {method} failed:");
TestLibrary.TestFramework.LogInformation($" values: ({string.Join(", ", values)})");
TestLibrary.TestFramework.LogInformation($" result: {result}");
TestLibrary.TestFramework.LogInformation(string.Empty);
Succeeded = false;
}
}
}
}
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
/******************************************************************************
* This file is auto-generated from a template file by the GenerateTests.csx *
* script in tests\src\JIT\HardwareIntrinsics\General\Shared. In order to make *
* changes, please update the corresponding template and run according to the *
* directions listed in the file. *
******************************************************************************/
using System;
using System.Runtime.CompilerServices;
using System.Runtime.InteropServices;
using System.Runtime.Intrinsics;
namespace JIT.HardwareIntrinsics.General
{
public static partial class Program
{
private static void ToScalarSByte()
{
var test = new VectorToScalar__ToScalarSByte();
// Validates basic functionality works
test.RunBasicScenario();
// Validates calling via reflection works
test.RunReflectionScenario();
if (!test.Succeeded)
{
throw new Exception("One or more scenarios did not complete as expected.");
}
}
}
public sealed unsafe class VectorToScalar__ToScalarSByte
{
private static readonly int LargestVectorSize = 16;
private static readonly int ElementCount = Unsafe.SizeOf<Vector128<SByte>>() / sizeof(SByte);
public bool Succeeded { get; set; } = true;
public void RunBasicScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunBasicScenario));
SByte[] values = new SByte[ElementCount];
for (int i = 0; i < ElementCount; i++)
{
values[i] = TestLibrary.Generator.GetSByte();
}
Vector128<SByte> value = Vector128.Create(values[0], values[1], values[2], values[3], values[4], values[5], values[6], values[7], values[8], values[9], values[10], values[11], values[12], values[13], values[14], values[15]);
SByte result = value.ToScalar();
ValidateResult(result, values);
}
public void RunReflectionScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunReflectionScenario));
SByte[] values = new SByte[ElementCount];
for (int i = 0; i < ElementCount; i++)
{
values[i] = TestLibrary.Generator.GetSByte();
}
Vector128<SByte> value = Vector128.Create(values[0], values[1], values[2], values[3], values[4], values[5], values[6], values[7], values[8], values[9], values[10], values[11], values[12], values[13], values[14], values[15]);
object result = typeof(Vector128)
.GetMethod(nameof(Vector128.ToScalar))
.MakeGenericMethod(typeof(SByte))
.Invoke(null, new object[] { value });
ValidateResult((SByte)(result), values);
}
private void ValidateResult(SByte result, SByte[] values, [CallerMemberName] string method = "")
{
if (result != values[0])
{
TestLibrary.TestFramework.LogInformation($"Vector128<SByte>.ToScalar(): {method} failed:");
TestLibrary.TestFramework.LogInformation($" values: ({string.Join(", ", values)})");
TestLibrary.TestFramework.LogInformation($" result: {result}");
TestLibrary.TestFramework.LogInformation(string.Empty);
Succeeded = false;
}
}
}
}
| -1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/libraries/System.Private.Xml/tests/Xslt/TestFiles/TestData/XsltApi/MyObject_ProtectedAccess.xsl
|
<xsl:stylesheet version="1.0" xmlns:xsl="http://www.w3.org/1999/XSL/Transform" xmlns:myObj="urn:my-object">
<xsl:template match="/">
<result>
Protected:<xsl:value-of select="myObj:ProtectedFunction()"/>
You should not see this! Bug this if you do.
</result>
</xsl:template>
</xsl:stylesheet>
|
<xsl:stylesheet version="1.0" xmlns:xsl="http://www.w3.org/1999/XSL/Transform" xmlns:myObj="urn:my-object">
<xsl:template match="/">
<result>
Protected:<xsl:value-of select="myObj:ProtectedFunction()"/>
You should not see this! Bug this if you do.
</result>
</xsl:template>
</xsl:stylesheet>
| -1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/libraries/System.Private.CoreLib/src/System/Buffers/Text/Utf8Parser/Utf8Parser.TimeSpanSplitter.cs
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
using System.Diagnostics;
namespace System.Buffers.Text
{
public static partial class Utf8Parser
{
private enum ComponentParseResult : byte
{
// Do not change or add values in this enum unless you review every use of the TimeSpanSplitter.Separators field. That field is an "array of four
// ComponentParseResults" encoded as a 32-bit integer with each of its four bytes containing one of 0 (NoMoreData), 1 (Colon) or 2 (Period).
// (So a value of 0x01010200 means the string parsed as "nn:nn:nn.nnnnnnn")
NoMoreData = 0,
Colon = 1,
Period = 2,
ParseFailure = 3,
}
private struct TimeSpanSplitter
{
public uint V1;
public uint V2;
public uint V3;
public uint V4;
public uint V5;
public bool IsNegative;
// Encodes an "array of four ComponentParseResults" as a 32-bit integer with each of its four bytes containing one of 0 (NoMoreData), 1 (Colon) or 2 (Period).
// (So a value of 0x01010200 means the string parsed as "nn:nn:nn.nnnnnnn")
public uint Separators;
public bool TrySplitTimeSpan(ReadOnlySpan<byte> source, bool periodUsedToSeparateDay, out int bytesConsumed)
{
int srcIndex = 0;
byte c = default;
// Unlike many other data types, TimeSpan allow leading whitespace.
while (srcIndex != source.Length)
{
c = source[srcIndex];
if (!(c == ' ' || c == '\t'))
break;
srcIndex++;
}
if (srcIndex == source.Length)
{
bytesConsumed = 0;
return false;
}
// Check for an option negative sign. ('+' is not allowed.)
if (c == Utf8Constants.Minus)
{
IsNegative = true;
srcIndex++;
if (srcIndex == source.Length)
{
bytesConsumed = 0;
return false;
}
}
// From here, we terminate on anything that's not a digit, ':' or '.' The '.' is only allowed after at least three components have
// been specified. If we see it earlier, we'll assume that's an error and fail out rather than treating it as the end of data.
//
// Timespan has to start with a number - parse the first one.
//
if (!TryParseUInt32D(source.Slice(srcIndex), out V1, out int justConsumed))
{
bytesConsumed = 0;
return false;
}
srcIndex += justConsumed;
//
// Split out the second number (if any) For the 'c' format, a period might validly appear here as it;s used both to separate the day and the fraction - however,
// the fraction is always the fourth component at earliest, so if we do see a period at this stage, always parse the integer as a regular integer, not as
// a fraction.
//
ComponentParseResult result = ParseComponent(source, neverParseAsFraction: periodUsedToSeparateDay, ref srcIndex, out V2);
if (result == ComponentParseResult.ParseFailure)
{
bytesConsumed = 0;
return false;
}
else if (result == ComponentParseResult.NoMoreData)
{
bytesConsumed = srcIndex;
return true;
}
else
{
Debug.Assert(result == ComponentParseResult.Colon || result == ComponentParseResult.Period);
Separators |= ((uint)result) << 24;
}
//
// Split out the third number (if any)
//
result = ParseComponent(source, false, ref srcIndex, out V3);
if (result == ComponentParseResult.ParseFailure)
{
bytesConsumed = 0;
return false;
}
else if (result == ComponentParseResult.NoMoreData)
{
bytesConsumed = srcIndex;
return true;
}
else
{
Debug.Assert(result == ComponentParseResult.Colon || result == ComponentParseResult.Period);
Separators |= ((uint)result) << 16;
}
//
// Split out the fourth number (if any)
//
result = ParseComponent(source, false, ref srcIndex, out V4);
if (result == ComponentParseResult.ParseFailure)
{
bytesConsumed = 0;
return false;
}
else if (result == ComponentParseResult.NoMoreData)
{
bytesConsumed = srcIndex;
return true;
}
else
{
Debug.Assert(result == ComponentParseResult.Colon || result == ComponentParseResult.Period);
Separators |= ((uint)result) << 8;
}
//
// Split out the fifth number (if any)
//
result = ParseComponent(source, false, ref srcIndex, out V5);
if (result == ComponentParseResult.ParseFailure)
{
bytesConsumed = 0;
return false;
}
else if (result == ComponentParseResult.NoMoreData)
{
bytesConsumed = srcIndex;
return true;
}
else
{
Debug.Assert(result == ComponentParseResult.Colon || result == ComponentParseResult.Period);
Separators |= (uint)result;
}
//
// There cannot legally be a sixth number. If the next character is a period or colon, treat this as a error as it's likely
// to indicate the start of a sixth number. Otherwise, treat as end of parse with data left over.
//
if (srcIndex != source.Length && (source[srcIndex] == Utf8Constants.Period || source[srcIndex] == Utf8Constants.Colon))
{
bytesConsumed = 0;
return false;
}
bytesConsumed = srcIndex;
return true;
}
//
// Look for a separator followed by an unsigned integer.
//
private static ComponentParseResult ParseComponent(ReadOnlySpan<byte> source, bool neverParseAsFraction, ref int srcIndex, out uint value)
{
if (srcIndex == source.Length)
{
value = default;
return ComponentParseResult.NoMoreData;
}
byte c = source[srcIndex];
if (c == Utf8Constants.Colon || (c == Utf8Constants.Period && neverParseAsFraction))
{
srcIndex++;
if (!TryParseUInt32D(source.Slice(srcIndex), out value, out int bytesConsumed))
{
value = default;
return ComponentParseResult.ParseFailure;
}
srcIndex += bytesConsumed;
return c == Utf8Constants.Colon ? ComponentParseResult.Colon : ComponentParseResult.Period;
}
else if (c == Utf8Constants.Period)
{
srcIndex++;
if (!TryParseTimeSpanFraction(source.Slice(srcIndex), out value, out int bytesConsumed))
{
value = default;
return ComponentParseResult.ParseFailure;
}
srcIndex += bytesConsumed;
return ComponentParseResult.Period;
}
else
{
value = default;
return ComponentParseResult.NoMoreData;
}
}
}
}
}
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
using System.Diagnostics;
namespace System.Buffers.Text
{
public static partial class Utf8Parser
{
private enum ComponentParseResult : byte
{
// Do not change or add values in this enum unless you review every use of the TimeSpanSplitter.Separators field. That field is an "array of four
// ComponentParseResults" encoded as a 32-bit integer with each of its four bytes containing one of 0 (NoMoreData), 1 (Colon) or 2 (Period).
// (So a value of 0x01010200 means the string parsed as "nn:nn:nn.nnnnnnn")
NoMoreData = 0,
Colon = 1,
Period = 2,
ParseFailure = 3,
}
private struct TimeSpanSplitter
{
public uint V1;
public uint V2;
public uint V3;
public uint V4;
public uint V5;
public bool IsNegative;
// Encodes an "array of four ComponentParseResults" as a 32-bit integer with each of its four bytes containing one of 0 (NoMoreData), 1 (Colon) or 2 (Period).
// (So a value of 0x01010200 means the string parsed as "nn:nn:nn.nnnnnnn")
public uint Separators;
public bool TrySplitTimeSpan(ReadOnlySpan<byte> source, bool periodUsedToSeparateDay, out int bytesConsumed)
{
int srcIndex = 0;
byte c = default;
// Unlike many other data types, TimeSpan allow leading whitespace.
while (srcIndex != source.Length)
{
c = source[srcIndex];
if (!(c == ' ' || c == '\t'))
break;
srcIndex++;
}
if (srcIndex == source.Length)
{
bytesConsumed = 0;
return false;
}
// Check for an option negative sign. ('+' is not allowed.)
if (c == Utf8Constants.Minus)
{
IsNegative = true;
srcIndex++;
if (srcIndex == source.Length)
{
bytesConsumed = 0;
return false;
}
}
// From here, we terminate on anything that's not a digit, ':' or '.' The '.' is only allowed after at least three components have
// been specified. If we see it earlier, we'll assume that's an error and fail out rather than treating it as the end of data.
//
// Timespan has to start with a number - parse the first one.
//
if (!TryParseUInt32D(source.Slice(srcIndex), out V1, out int justConsumed))
{
bytesConsumed = 0;
return false;
}
srcIndex += justConsumed;
//
// Split out the second number (if any) For the 'c' format, a period might validly appear here as it;s used both to separate the day and the fraction - however,
// the fraction is always the fourth component at earliest, so if we do see a period at this stage, always parse the integer as a regular integer, not as
// a fraction.
//
ComponentParseResult result = ParseComponent(source, neverParseAsFraction: periodUsedToSeparateDay, ref srcIndex, out V2);
if (result == ComponentParseResult.ParseFailure)
{
bytesConsumed = 0;
return false;
}
else if (result == ComponentParseResult.NoMoreData)
{
bytesConsumed = srcIndex;
return true;
}
else
{
Debug.Assert(result == ComponentParseResult.Colon || result == ComponentParseResult.Period);
Separators |= ((uint)result) << 24;
}
//
// Split out the third number (if any)
//
result = ParseComponent(source, false, ref srcIndex, out V3);
if (result == ComponentParseResult.ParseFailure)
{
bytesConsumed = 0;
return false;
}
else if (result == ComponentParseResult.NoMoreData)
{
bytesConsumed = srcIndex;
return true;
}
else
{
Debug.Assert(result == ComponentParseResult.Colon || result == ComponentParseResult.Period);
Separators |= ((uint)result) << 16;
}
//
// Split out the fourth number (if any)
//
result = ParseComponent(source, false, ref srcIndex, out V4);
if (result == ComponentParseResult.ParseFailure)
{
bytesConsumed = 0;
return false;
}
else if (result == ComponentParseResult.NoMoreData)
{
bytesConsumed = srcIndex;
return true;
}
else
{
Debug.Assert(result == ComponentParseResult.Colon || result == ComponentParseResult.Period);
Separators |= ((uint)result) << 8;
}
//
// Split out the fifth number (if any)
//
result = ParseComponent(source, false, ref srcIndex, out V5);
if (result == ComponentParseResult.ParseFailure)
{
bytesConsumed = 0;
return false;
}
else if (result == ComponentParseResult.NoMoreData)
{
bytesConsumed = srcIndex;
return true;
}
else
{
Debug.Assert(result == ComponentParseResult.Colon || result == ComponentParseResult.Period);
Separators |= (uint)result;
}
//
// There cannot legally be a sixth number. If the next character is a period or colon, treat this as a error as it's likely
// to indicate the start of a sixth number. Otherwise, treat as end of parse with data left over.
//
if (srcIndex != source.Length && (source[srcIndex] == Utf8Constants.Period || source[srcIndex] == Utf8Constants.Colon))
{
bytesConsumed = 0;
return false;
}
bytesConsumed = srcIndex;
return true;
}
//
// Look for a separator followed by an unsigned integer.
//
private static ComponentParseResult ParseComponent(ReadOnlySpan<byte> source, bool neverParseAsFraction, ref int srcIndex, out uint value)
{
if (srcIndex == source.Length)
{
value = default;
return ComponentParseResult.NoMoreData;
}
byte c = source[srcIndex];
if (c == Utf8Constants.Colon || (c == Utf8Constants.Period && neverParseAsFraction))
{
srcIndex++;
if (!TryParseUInt32D(source.Slice(srcIndex), out value, out int bytesConsumed))
{
value = default;
return ComponentParseResult.ParseFailure;
}
srcIndex += bytesConsumed;
return c == Utf8Constants.Colon ? ComponentParseResult.Colon : ComponentParseResult.Period;
}
else if (c == Utf8Constants.Period)
{
srcIndex++;
if (!TryParseTimeSpanFraction(source.Slice(srcIndex), out value, out int bytesConsumed))
{
value = default;
return ComponentParseResult.ParseFailure;
}
srcIndex += bytesConsumed;
return ComponentParseResult.Period;
}
else
{
value = default;
return ComponentParseResult.NoMoreData;
}
}
}
}
}
| -1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/tests/JIT/HardwareIntrinsics/Arm/AdvSimd/MinPairwise.Vector64.UInt16.cs
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
/******************************************************************************
* This file is auto-generated from a template file by the GenerateTests.csx *
* script in tests\src\JIT\HardwareIntrinsics.Arm\Shared. In order to make *
* changes, please update the corresponding template and run according to the *
* directions listed in the file. *
******************************************************************************/
using System;
using System.Runtime.CompilerServices;
using System.Runtime.InteropServices;
using System.Runtime.Intrinsics;
using System.Runtime.Intrinsics.Arm;
namespace JIT.HardwareIntrinsics.Arm
{
public static partial class Program
{
private static void MinPairwise_Vector64_UInt16()
{
var test = new SimpleBinaryOpTest__MinPairwise_Vector64_UInt16();
if (test.IsSupported)
{
// Validates basic functionality works, using Unsafe.Read
test.RunBasicScenario_UnsafeRead();
if (AdvSimd.IsSupported)
{
// Validates basic functionality works, using Load
test.RunBasicScenario_Load();
}
// Validates calling via reflection works, using Unsafe.Read
test.RunReflectionScenario_UnsafeRead();
if (AdvSimd.IsSupported)
{
// Validates calling via reflection works, using Load
test.RunReflectionScenario_Load();
}
// Validates passing a static member works
test.RunClsVarScenario();
if (AdvSimd.IsSupported)
{
// Validates passing a static member works, using pinning and Load
test.RunClsVarScenario_Load();
}
// Validates passing a local works, using Unsafe.Read
test.RunLclVarScenario_UnsafeRead();
if (AdvSimd.IsSupported)
{
// Validates passing a local works, using Load
test.RunLclVarScenario_Load();
}
// Validates passing the field of a local class works
test.RunClassLclFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing the field of a local class works, using pinning and Load
test.RunClassLclFldScenario_Load();
}
// Validates passing an instance member of a class works
test.RunClassFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing an instance member of a class works, using pinning and Load
test.RunClassFldScenario_Load();
}
// Validates passing the field of a local struct works
test.RunStructLclFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing the field of a local struct works, using pinning and Load
test.RunStructLclFldScenario_Load();
}
// Validates passing an instance member of a struct works
test.RunStructFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing an instance member of a struct works, using pinning and Load
test.RunStructFldScenario_Load();
}
}
else
{
// Validates we throw on unsupported hardware
test.RunUnsupportedScenario();
}
if (!test.Succeeded)
{
throw new Exception("One or more scenarios did not complete as expected.");
}
}
}
public sealed unsafe class SimpleBinaryOpTest__MinPairwise_Vector64_UInt16
{
private struct DataTable
{
private byte[] inArray1;
private byte[] inArray2;
private byte[] outArray;
private GCHandle inHandle1;
private GCHandle inHandle2;
private GCHandle outHandle;
private ulong alignment;
public DataTable(UInt16[] inArray1, UInt16[] inArray2, UInt16[] outArray, int alignment)
{
int sizeOfinArray1 = inArray1.Length * Unsafe.SizeOf<UInt16>();
int sizeOfinArray2 = inArray2.Length * Unsafe.SizeOf<UInt16>();
int sizeOfoutArray = outArray.Length * Unsafe.SizeOf<UInt16>();
if ((alignment != 16 && alignment != 8) || (alignment * 2) < sizeOfinArray1 || (alignment * 2) < sizeOfinArray2 || (alignment * 2) < sizeOfoutArray)
{
throw new ArgumentException("Invalid value of alignment");
}
this.inArray1 = new byte[alignment * 2];
this.inArray2 = new byte[alignment * 2];
this.outArray = new byte[alignment * 2];
this.inHandle1 = GCHandle.Alloc(this.inArray1, GCHandleType.Pinned);
this.inHandle2 = GCHandle.Alloc(this.inArray2, GCHandleType.Pinned);
this.outHandle = GCHandle.Alloc(this.outArray, GCHandleType.Pinned);
this.alignment = (ulong)alignment;
Unsafe.CopyBlockUnaligned(ref Unsafe.AsRef<byte>(inArray1Ptr), ref Unsafe.As<UInt16, byte>(ref inArray1[0]), (uint)sizeOfinArray1);
Unsafe.CopyBlockUnaligned(ref Unsafe.AsRef<byte>(inArray2Ptr), ref Unsafe.As<UInt16, byte>(ref inArray2[0]), (uint)sizeOfinArray2);
}
public void* inArray1Ptr => Align((byte*)(inHandle1.AddrOfPinnedObject().ToPointer()), alignment);
public void* inArray2Ptr => Align((byte*)(inHandle2.AddrOfPinnedObject().ToPointer()), alignment);
public void* outArrayPtr => Align((byte*)(outHandle.AddrOfPinnedObject().ToPointer()), alignment);
public void Dispose()
{
inHandle1.Free();
inHandle2.Free();
outHandle.Free();
}
private static unsafe void* Align(byte* buffer, ulong expectedAlignment)
{
return (void*)(((ulong)buffer + expectedAlignment - 1) & ~(expectedAlignment - 1));
}
}
private struct TestStruct
{
public Vector64<UInt16> _fld1;
public Vector64<UInt16> _fld2;
public static TestStruct Create()
{
var testStruct = new TestStruct();
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetUInt16(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector64<UInt16>, byte>(ref testStruct._fld1), ref Unsafe.As<UInt16, byte>(ref _data1[0]), (uint)Unsafe.SizeOf<Vector64<UInt16>>());
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetUInt16(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector64<UInt16>, byte>(ref testStruct._fld2), ref Unsafe.As<UInt16, byte>(ref _data2[0]), (uint)Unsafe.SizeOf<Vector64<UInt16>>());
return testStruct;
}
public void RunStructFldScenario(SimpleBinaryOpTest__MinPairwise_Vector64_UInt16 testClass)
{
var result = AdvSimd.MinPairwise(_fld1, _fld2);
Unsafe.Write(testClass._dataTable.outArrayPtr, result);
testClass.ValidateResult(_fld1, _fld2, testClass._dataTable.outArrayPtr);
}
public void RunStructFldScenario_Load(SimpleBinaryOpTest__MinPairwise_Vector64_UInt16 testClass)
{
fixed (Vector64<UInt16>* pFld1 = &_fld1)
fixed (Vector64<UInt16>* pFld2 = &_fld2)
{
var result = AdvSimd.MinPairwise(
AdvSimd.LoadVector64((UInt16*)(pFld1)),
AdvSimd.LoadVector64((UInt16*)(pFld2))
);
Unsafe.Write(testClass._dataTable.outArrayPtr, result);
testClass.ValidateResult(_fld1, _fld2, testClass._dataTable.outArrayPtr);
}
}
}
private static readonly int LargestVectorSize = 8;
private static readonly int Op1ElementCount = Unsafe.SizeOf<Vector64<UInt16>>() / sizeof(UInt16);
private static readonly int Op2ElementCount = Unsafe.SizeOf<Vector64<UInt16>>() / sizeof(UInt16);
private static readonly int RetElementCount = Unsafe.SizeOf<Vector64<UInt16>>() / sizeof(UInt16);
private static UInt16[] _data1 = new UInt16[Op1ElementCount];
private static UInt16[] _data2 = new UInt16[Op2ElementCount];
private static Vector64<UInt16> _clsVar1;
private static Vector64<UInt16> _clsVar2;
private Vector64<UInt16> _fld1;
private Vector64<UInt16> _fld2;
private DataTable _dataTable;
static SimpleBinaryOpTest__MinPairwise_Vector64_UInt16()
{
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetUInt16(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector64<UInt16>, byte>(ref _clsVar1), ref Unsafe.As<UInt16, byte>(ref _data1[0]), (uint)Unsafe.SizeOf<Vector64<UInt16>>());
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetUInt16(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector64<UInt16>, byte>(ref _clsVar2), ref Unsafe.As<UInt16, byte>(ref _data2[0]), (uint)Unsafe.SizeOf<Vector64<UInt16>>());
}
public SimpleBinaryOpTest__MinPairwise_Vector64_UInt16()
{
Succeeded = true;
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetUInt16(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector64<UInt16>, byte>(ref _fld1), ref Unsafe.As<UInt16, byte>(ref _data1[0]), (uint)Unsafe.SizeOf<Vector64<UInt16>>());
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetUInt16(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector64<UInt16>, byte>(ref _fld2), ref Unsafe.As<UInt16, byte>(ref _data2[0]), (uint)Unsafe.SizeOf<Vector64<UInt16>>());
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetUInt16(); }
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetUInt16(); }
_dataTable = new DataTable(_data1, _data2, new UInt16[RetElementCount], LargestVectorSize);
}
public bool IsSupported => AdvSimd.IsSupported;
public bool Succeeded { get; set; }
public void RunBasicScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunBasicScenario_UnsafeRead));
var result = AdvSimd.MinPairwise(
Unsafe.Read<Vector64<UInt16>>(_dataTable.inArray1Ptr),
Unsafe.Read<Vector64<UInt16>>(_dataTable.inArray2Ptr)
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunBasicScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunBasicScenario_Load));
var result = AdvSimd.MinPairwise(
AdvSimd.LoadVector64((UInt16*)(_dataTable.inArray1Ptr)),
AdvSimd.LoadVector64((UInt16*)(_dataTable.inArray2Ptr))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunReflectionScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunReflectionScenario_UnsafeRead));
var result = typeof(AdvSimd).GetMethod(nameof(AdvSimd.MinPairwise), new Type[] { typeof(Vector64<UInt16>), typeof(Vector64<UInt16>) })
.Invoke(null, new object[] {
Unsafe.Read<Vector64<UInt16>>(_dataTable.inArray1Ptr),
Unsafe.Read<Vector64<UInt16>>(_dataTable.inArray2Ptr)
});
Unsafe.Write(_dataTable.outArrayPtr, (Vector64<UInt16>)(result));
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunReflectionScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunReflectionScenario_Load));
var result = typeof(AdvSimd).GetMethod(nameof(AdvSimd.MinPairwise), new Type[] { typeof(Vector64<UInt16>), typeof(Vector64<UInt16>) })
.Invoke(null, new object[] {
AdvSimd.LoadVector64((UInt16*)(_dataTable.inArray1Ptr)),
AdvSimd.LoadVector64((UInt16*)(_dataTable.inArray2Ptr))
});
Unsafe.Write(_dataTable.outArrayPtr, (Vector64<UInt16>)(result));
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunClsVarScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClsVarScenario));
var result = AdvSimd.MinPairwise(
_clsVar1,
_clsVar2
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_clsVar1, _clsVar2, _dataTable.outArrayPtr);
}
public void RunClsVarScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClsVarScenario_Load));
fixed (Vector64<UInt16>* pClsVar1 = &_clsVar1)
fixed (Vector64<UInt16>* pClsVar2 = &_clsVar2)
{
var result = AdvSimd.MinPairwise(
AdvSimd.LoadVector64((UInt16*)(pClsVar1)),
AdvSimd.LoadVector64((UInt16*)(pClsVar2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_clsVar1, _clsVar2, _dataTable.outArrayPtr);
}
}
public void RunLclVarScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunLclVarScenario_UnsafeRead));
var op1 = Unsafe.Read<Vector64<UInt16>>(_dataTable.inArray1Ptr);
var op2 = Unsafe.Read<Vector64<UInt16>>(_dataTable.inArray2Ptr);
var result = AdvSimd.MinPairwise(op1, op2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(op1, op2, _dataTable.outArrayPtr);
}
public void RunLclVarScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunLclVarScenario_Load));
var op1 = AdvSimd.LoadVector64((UInt16*)(_dataTable.inArray1Ptr));
var op2 = AdvSimd.LoadVector64((UInt16*)(_dataTable.inArray2Ptr));
var result = AdvSimd.MinPairwise(op1, op2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(op1, op2, _dataTable.outArrayPtr);
}
public void RunClassLclFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassLclFldScenario));
var test = new SimpleBinaryOpTest__MinPairwise_Vector64_UInt16();
var result = AdvSimd.MinPairwise(test._fld1, test._fld2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
public void RunClassLclFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassLclFldScenario_Load));
var test = new SimpleBinaryOpTest__MinPairwise_Vector64_UInt16();
fixed (Vector64<UInt16>* pFld1 = &test._fld1)
fixed (Vector64<UInt16>* pFld2 = &test._fld2)
{
var result = AdvSimd.MinPairwise(
AdvSimd.LoadVector64((UInt16*)(pFld1)),
AdvSimd.LoadVector64((UInt16*)(pFld2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
}
public void RunClassFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassFldScenario));
var result = AdvSimd.MinPairwise(_fld1, _fld2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_fld1, _fld2, _dataTable.outArrayPtr);
}
public void RunClassFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassFldScenario_Load));
fixed (Vector64<UInt16>* pFld1 = &_fld1)
fixed (Vector64<UInt16>* pFld2 = &_fld2)
{
var result = AdvSimd.MinPairwise(
AdvSimd.LoadVector64((UInt16*)(pFld1)),
AdvSimd.LoadVector64((UInt16*)(pFld2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_fld1, _fld2, _dataTable.outArrayPtr);
}
}
public void RunStructLclFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructLclFldScenario));
var test = TestStruct.Create();
var result = AdvSimd.MinPairwise(test._fld1, test._fld2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
public void RunStructLclFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructLclFldScenario_Load));
var test = TestStruct.Create();
var result = AdvSimd.MinPairwise(
AdvSimd.LoadVector64((UInt16*)(&test._fld1)),
AdvSimd.LoadVector64((UInt16*)(&test._fld2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
public void RunStructFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructFldScenario));
var test = TestStruct.Create();
test.RunStructFldScenario(this);
}
public void RunStructFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructFldScenario_Load));
var test = TestStruct.Create();
test.RunStructFldScenario_Load(this);
}
public void RunUnsupportedScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunUnsupportedScenario));
bool succeeded = false;
try
{
RunBasicScenario_UnsafeRead();
}
catch (PlatformNotSupportedException)
{
succeeded = true;
}
if (!succeeded)
{
Succeeded = false;
}
}
private void ValidateResult(Vector64<UInt16> op1, Vector64<UInt16> op2, void* result, [CallerMemberName] string method = "")
{
UInt16[] inArray1 = new UInt16[Op1ElementCount];
UInt16[] inArray2 = new UInt16[Op2ElementCount];
UInt16[] outArray = new UInt16[RetElementCount];
Unsafe.WriteUnaligned(ref Unsafe.As<UInt16, byte>(ref inArray1[0]), op1);
Unsafe.WriteUnaligned(ref Unsafe.As<UInt16, byte>(ref inArray2[0]), op2);
Unsafe.CopyBlockUnaligned(ref Unsafe.As<UInt16, byte>(ref outArray[0]), ref Unsafe.AsRef<byte>(result), (uint)Unsafe.SizeOf<Vector64<UInt16>>());
ValidateResult(inArray1, inArray2, outArray, method);
}
private void ValidateResult(void* op1, void* op2, void* result, [CallerMemberName] string method = "")
{
UInt16[] inArray1 = new UInt16[Op1ElementCount];
UInt16[] inArray2 = new UInt16[Op2ElementCount];
UInt16[] outArray = new UInt16[RetElementCount];
Unsafe.CopyBlockUnaligned(ref Unsafe.As<UInt16, byte>(ref inArray1[0]), ref Unsafe.AsRef<byte>(op1), (uint)Unsafe.SizeOf<Vector64<UInt16>>());
Unsafe.CopyBlockUnaligned(ref Unsafe.As<UInt16, byte>(ref inArray2[0]), ref Unsafe.AsRef<byte>(op2), (uint)Unsafe.SizeOf<Vector64<UInt16>>());
Unsafe.CopyBlockUnaligned(ref Unsafe.As<UInt16, byte>(ref outArray[0]), ref Unsafe.AsRef<byte>(result), (uint)Unsafe.SizeOf<Vector64<UInt16>>());
ValidateResult(inArray1, inArray2, outArray, method);
}
private void ValidateResult(UInt16[] left, UInt16[] right, UInt16[] result, [CallerMemberName] string method = "")
{
bool succeeded = true;
for (var i = 0; i < RetElementCount; i++)
{
if (Helpers.MinPairwise(left, right, i) != result[i])
{
succeeded = false;
break;
}
}
if (!succeeded)
{
TestLibrary.TestFramework.LogInformation($"{nameof(AdvSimd)}.{nameof(AdvSimd.MinPairwise)}<UInt16>(Vector64<UInt16>, Vector64<UInt16>): {method} failed:");
TestLibrary.TestFramework.LogInformation($" left: ({string.Join(", ", left)})");
TestLibrary.TestFramework.LogInformation($" right: ({string.Join(", ", right)})");
TestLibrary.TestFramework.LogInformation($" result: ({string.Join(", ", result)})");
TestLibrary.TestFramework.LogInformation(string.Empty);
Succeeded = false;
}
}
}
}
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
/******************************************************************************
* This file is auto-generated from a template file by the GenerateTests.csx *
* script in tests\src\JIT\HardwareIntrinsics.Arm\Shared. In order to make *
* changes, please update the corresponding template and run according to the *
* directions listed in the file. *
******************************************************************************/
using System;
using System.Runtime.CompilerServices;
using System.Runtime.InteropServices;
using System.Runtime.Intrinsics;
using System.Runtime.Intrinsics.Arm;
namespace JIT.HardwareIntrinsics.Arm
{
public static partial class Program
{
private static void MinPairwise_Vector64_UInt16()
{
var test = new SimpleBinaryOpTest__MinPairwise_Vector64_UInt16();
if (test.IsSupported)
{
// Validates basic functionality works, using Unsafe.Read
test.RunBasicScenario_UnsafeRead();
if (AdvSimd.IsSupported)
{
// Validates basic functionality works, using Load
test.RunBasicScenario_Load();
}
// Validates calling via reflection works, using Unsafe.Read
test.RunReflectionScenario_UnsafeRead();
if (AdvSimd.IsSupported)
{
// Validates calling via reflection works, using Load
test.RunReflectionScenario_Load();
}
// Validates passing a static member works
test.RunClsVarScenario();
if (AdvSimd.IsSupported)
{
// Validates passing a static member works, using pinning and Load
test.RunClsVarScenario_Load();
}
// Validates passing a local works, using Unsafe.Read
test.RunLclVarScenario_UnsafeRead();
if (AdvSimd.IsSupported)
{
// Validates passing a local works, using Load
test.RunLclVarScenario_Load();
}
// Validates passing the field of a local class works
test.RunClassLclFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing the field of a local class works, using pinning and Load
test.RunClassLclFldScenario_Load();
}
// Validates passing an instance member of a class works
test.RunClassFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing an instance member of a class works, using pinning and Load
test.RunClassFldScenario_Load();
}
// Validates passing the field of a local struct works
test.RunStructLclFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing the field of a local struct works, using pinning and Load
test.RunStructLclFldScenario_Load();
}
// Validates passing an instance member of a struct works
test.RunStructFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing an instance member of a struct works, using pinning and Load
test.RunStructFldScenario_Load();
}
}
else
{
// Validates we throw on unsupported hardware
test.RunUnsupportedScenario();
}
if (!test.Succeeded)
{
throw new Exception("One or more scenarios did not complete as expected.");
}
}
}
public sealed unsafe class SimpleBinaryOpTest__MinPairwise_Vector64_UInt16
{
private struct DataTable
{
private byte[] inArray1;
private byte[] inArray2;
private byte[] outArray;
private GCHandle inHandle1;
private GCHandle inHandle2;
private GCHandle outHandle;
private ulong alignment;
public DataTable(UInt16[] inArray1, UInt16[] inArray2, UInt16[] outArray, int alignment)
{
int sizeOfinArray1 = inArray1.Length * Unsafe.SizeOf<UInt16>();
int sizeOfinArray2 = inArray2.Length * Unsafe.SizeOf<UInt16>();
int sizeOfoutArray = outArray.Length * Unsafe.SizeOf<UInt16>();
if ((alignment != 16 && alignment != 8) || (alignment * 2) < sizeOfinArray1 || (alignment * 2) < sizeOfinArray2 || (alignment * 2) < sizeOfoutArray)
{
throw new ArgumentException("Invalid value of alignment");
}
this.inArray1 = new byte[alignment * 2];
this.inArray2 = new byte[alignment * 2];
this.outArray = new byte[alignment * 2];
this.inHandle1 = GCHandle.Alloc(this.inArray1, GCHandleType.Pinned);
this.inHandle2 = GCHandle.Alloc(this.inArray2, GCHandleType.Pinned);
this.outHandle = GCHandle.Alloc(this.outArray, GCHandleType.Pinned);
this.alignment = (ulong)alignment;
Unsafe.CopyBlockUnaligned(ref Unsafe.AsRef<byte>(inArray1Ptr), ref Unsafe.As<UInt16, byte>(ref inArray1[0]), (uint)sizeOfinArray1);
Unsafe.CopyBlockUnaligned(ref Unsafe.AsRef<byte>(inArray2Ptr), ref Unsafe.As<UInt16, byte>(ref inArray2[0]), (uint)sizeOfinArray2);
}
public void* inArray1Ptr => Align((byte*)(inHandle1.AddrOfPinnedObject().ToPointer()), alignment);
public void* inArray2Ptr => Align((byte*)(inHandle2.AddrOfPinnedObject().ToPointer()), alignment);
public void* outArrayPtr => Align((byte*)(outHandle.AddrOfPinnedObject().ToPointer()), alignment);
public void Dispose()
{
inHandle1.Free();
inHandle2.Free();
outHandle.Free();
}
private static unsafe void* Align(byte* buffer, ulong expectedAlignment)
{
return (void*)(((ulong)buffer + expectedAlignment - 1) & ~(expectedAlignment - 1));
}
}
private struct TestStruct
{
public Vector64<UInt16> _fld1;
public Vector64<UInt16> _fld2;
public static TestStruct Create()
{
var testStruct = new TestStruct();
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetUInt16(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector64<UInt16>, byte>(ref testStruct._fld1), ref Unsafe.As<UInt16, byte>(ref _data1[0]), (uint)Unsafe.SizeOf<Vector64<UInt16>>());
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetUInt16(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector64<UInt16>, byte>(ref testStruct._fld2), ref Unsafe.As<UInt16, byte>(ref _data2[0]), (uint)Unsafe.SizeOf<Vector64<UInt16>>());
return testStruct;
}
public void RunStructFldScenario(SimpleBinaryOpTest__MinPairwise_Vector64_UInt16 testClass)
{
var result = AdvSimd.MinPairwise(_fld1, _fld2);
Unsafe.Write(testClass._dataTable.outArrayPtr, result);
testClass.ValidateResult(_fld1, _fld2, testClass._dataTable.outArrayPtr);
}
public void RunStructFldScenario_Load(SimpleBinaryOpTest__MinPairwise_Vector64_UInt16 testClass)
{
fixed (Vector64<UInt16>* pFld1 = &_fld1)
fixed (Vector64<UInt16>* pFld2 = &_fld2)
{
var result = AdvSimd.MinPairwise(
AdvSimd.LoadVector64((UInt16*)(pFld1)),
AdvSimd.LoadVector64((UInt16*)(pFld2))
);
Unsafe.Write(testClass._dataTable.outArrayPtr, result);
testClass.ValidateResult(_fld1, _fld2, testClass._dataTable.outArrayPtr);
}
}
}
private static readonly int LargestVectorSize = 8;
private static readonly int Op1ElementCount = Unsafe.SizeOf<Vector64<UInt16>>() / sizeof(UInt16);
private static readonly int Op2ElementCount = Unsafe.SizeOf<Vector64<UInt16>>() / sizeof(UInt16);
private static readonly int RetElementCount = Unsafe.SizeOf<Vector64<UInt16>>() / sizeof(UInt16);
private static UInt16[] _data1 = new UInt16[Op1ElementCount];
private static UInt16[] _data2 = new UInt16[Op2ElementCount];
private static Vector64<UInt16> _clsVar1;
private static Vector64<UInt16> _clsVar2;
private Vector64<UInt16> _fld1;
private Vector64<UInt16> _fld2;
private DataTable _dataTable;
static SimpleBinaryOpTest__MinPairwise_Vector64_UInt16()
{
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetUInt16(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector64<UInt16>, byte>(ref _clsVar1), ref Unsafe.As<UInt16, byte>(ref _data1[0]), (uint)Unsafe.SizeOf<Vector64<UInt16>>());
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetUInt16(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector64<UInt16>, byte>(ref _clsVar2), ref Unsafe.As<UInt16, byte>(ref _data2[0]), (uint)Unsafe.SizeOf<Vector64<UInt16>>());
}
public SimpleBinaryOpTest__MinPairwise_Vector64_UInt16()
{
Succeeded = true;
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetUInt16(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector64<UInt16>, byte>(ref _fld1), ref Unsafe.As<UInt16, byte>(ref _data1[0]), (uint)Unsafe.SizeOf<Vector64<UInt16>>());
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetUInt16(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector64<UInt16>, byte>(ref _fld2), ref Unsafe.As<UInt16, byte>(ref _data2[0]), (uint)Unsafe.SizeOf<Vector64<UInt16>>());
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetUInt16(); }
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetUInt16(); }
_dataTable = new DataTable(_data1, _data2, new UInt16[RetElementCount], LargestVectorSize);
}
public bool IsSupported => AdvSimd.IsSupported;
public bool Succeeded { get; set; }
public void RunBasicScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunBasicScenario_UnsafeRead));
var result = AdvSimd.MinPairwise(
Unsafe.Read<Vector64<UInt16>>(_dataTable.inArray1Ptr),
Unsafe.Read<Vector64<UInt16>>(_dataTable.inArray2Ptr)
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunBasicScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunBasicScenario_Load));
var result = AdvSimd.MinPairwise(
AdvSimd.LoadVector64((UInt16*)(_dataTable.inArray1Ptr)),
AdvSimd.LoadVector64((UInt16*)(_dataTable.inArray2Ptr))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunReflectionScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunReflectionScenario_UnsafeRead));
var result = typeof(AdvSimd).GetMethod(nameof(AdvSimd.MinPairwise), new Type[] { typeof(Vector64<UInt16>), typeof(Vector64<UInt16>) })
.Invoke(null, new object[] {
Unsafe.Read<Vector64<UInt16>>(_dataTable.inArray1Ptr),
Unsafe.Read<Vector64<UInt16>>(_dataTable.inArray2Ptr)
});
Unsafe.Write(_dataTable.outArrayPtr, (Vector64<UInt16>)(result));
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunReflectionScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunReflectionScenario_Load));
var result = typeof(AdvSimd).GetMethod(nameof(AdvSimd.MinPairwise), new Type[] { typeof(Vector64<UInt16>), typeof(Vector64<UInt16>) })
.Invoke(null, new object[] {
AdvSimd.LoadVector64((UInt16*)(_dataTable.inArray1Ptr)),
AdvSimd.LoadVector64((UInt16*)(_dataTable.inArray2Ptr))
});
Unsafe.Write(_dataTable.outArrayPtr, (Vector64<UInt16>)(result));
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunClsVarScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClsVarScenario));
var result = AdvSimd.MinPairwise(
_clsVar1,
_clsVar2
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_clsVar1, _clsVar2, _dataTable.outArrayPtr);
}
public void RunClsVarScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClsVarScenario_Load));
fixed (Vector64<UInt16>* pClsVar1 = &_clsVar1)
fixed (Vector64<UInt16>* pClsVar2 = &_clsVar2)
{
var result = AdvSimd.MinPairwise(
AdvSimd.LoadVector64((UInt16*)(pClsVar1)),
AdvSimd.LoadVector64((UInt16*)(pClsVar2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_clsVar1, _clsVar2, _dataTable.outArrayPtr);
}
}
public void RunLclVarScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunLclVarScenario_UnsafeRead));
var op1 = Unsafe.Read<Vector64<UInt16>>(_dataTable.inArray1Ptr);
var op2 = Unsafe.Read<Vector64<UInt16>>(_dataTable.inArray2Ptr);
var result = AdvSimd.MinPairwise(op1, op2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(op1, op2, _dataTable.outArrayPtr);
}
public void RunLclVarScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunLclVarScenario_Load));
var op1 = AdvSimd.LoadVector64((UInt16*)(_dataTable.inArray1Ptr));
var op2 = AdvSimd.LoadVector64((UInt16*)(_dataTable.inArray2Ptr));
var result = AdvSimd.MinPairwise(op1, op2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(op1, op2, _dataTable.outArrayPtr);
}
public void RunClassLclFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassLclFldScenario));
var test = new SimpleBinaryOpTest__MinPairwise_Vector64_UInt16();
var result = AdvSimd.MinPairwise(test._fld1, test._fld2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
public void RunClassLclFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassLclFldScenario_Load));
var test = new SimpleBinaryOpTest__MinPairwise_Vector64_UInt16();
fixed (Vector64<UInt16>* pFld1 = &test._fld1)
fixed (Vector64<UInt16>* pFld2 = &test._fld2)
{
var result = AdvSimd.MinPairwise(
AdvSimd.LoadVector64((UInt16*)(pFld1)),
AdvSimd.LoadVector64((UInt16*)(pFld2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
}
public void RunClassFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassFldScenario));
var result = AdvSimd.MinPairwise(_fld1, _fld2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_fld1, _fld2, _dataTable.outArrayPtr);
}
public void RunClassFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassFldScenario_Load));
fixed (Vector64<UInt16>* pFld1 = &_fld1)
fixed (Vector64<UInt16>* pFld2 = &_fld2)
{
var result = AdvSimd.MinPairwise(
AdvSimd.LoadVector64((UInt16*)(pFld1)),
AdvSimd.LoadVector64((UInt16*)(pFld2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_fld1, _fld2, _dataTable.outArrayPtr);
}
}
public void RunStructLclFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructLclFldScenario));
var test = TestStruct.Create();
var result = AdvSimd.MinPairwise(test._fld1, test._fld2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
public void RunStructLclFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructLclFldScenario_Load));
var test = TestStruct.Create();
var result = AdvSimd.MinPairwise(
AdvSimd.LoadVector64((UInt16*)(&test._fld1)),
AdvSimd.LoadVector64((UInt16*)(&test._fld2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
public void RunStructFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructFldScenario));
var test = TestStruct.Create();
test.RunStructFldScenario(this);
}
public void RunStructFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructFldScenario_Load));
var test = TestStruct.Create();
test.RunStructFldScenario_Load(this);
}
public void RunUnsupportedScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunUnsupportedScenario));
bool succeeded = false;
try
{
RunBasicScenario_UnsafeRead();
}
catch (PlatformNotSupportedException)
{
succeeded = true;
}
if (!succeeded)
{
Succeeded = false;
}
}
private void ValidateResult(Vector64<UInt16> op1, Vector64<UInt16> op2, void* result, [CallerMemberName] string method = "")
{
UInt16[] inArray1 = new UInt16[Op1ElementCount];
UInt16[] inArray2 = new UInt16[Op2ElementCount];
UInt16[] outArray = new UInt16[RetElementCount];
Unsafe.WriteUnaligned(ref Unsafe.As<UInt16, byte>(ref inArray1[0]), op1);
Unsafe.WriteUnaligned(ref Unsafe.As<UInt16, byte>(ref inArray2[0]), op2);
Unsafe.CopyBlockUnaligned(ref Unsafe.As<UInt16, byte>(ref outArray[0]), ref Unsafe.AsRef<byte>(result), (uint)Unsafe.SizeOf<Vector64<UInt16>>());
ValidateResult(inArray1, inArray2, outArray, method);
}
private void ValidateResult(void* op1, void* op2, void* result, [CallerMemberName] string method = "")
{
UInt16[] inArray1 = new UInt16[Op1ElementCount];
UInt16[] inArray2 = new UInt16[Op2ElementCount];
UInt16[] outArray = new UInt16[RetElementCount];
Unsafe.CopyBlockUnaligned(ref Unsafe.As<UInt16, byte>(ref inArray1[0]), ref Unsafe.AsRef<byte>(op1), (uint)Unsafe.SizeOf<Vector64<UInt16>>());
Unsafe.CopyBlockUnaligned(ref Unsafe.As<UInt16, byte>(ref inArray2[0]), ref Unsafe.AsRef<byte>(op2), (uint)Unsafe.SizeOf<Vector64<UInt16>>());
Unsafe.CopyBlockUnaligned(ref Unsafe.As<UInt16, byte>(ref outArray[0]), ref Unsafe.AsRef<byte>(result), (uint)Unsafe.SizeOf<Vector64<UInt16>>());
ValidateResult(inArray1, inArray2, outArray, method);
}
private void ValidateResult(UInt16[] left, UInt16[] right, UInt16[] result, [CallerMemberName] string method = "")
{
bool succeeded = true;
for (var i = 0; i < RetElementCount; i++)
{
if (Helpers.MinPairwise(left, right, i) != result[i])
{
succeeded = false;
break;
}
}
if (!succeeded)
{
TestLibrary.TestFramework.LogInformation($"{nameof(AdvSimd)}.{nameof(AdvSimd.MinPairwise)}<UInt16>(Vector64<UInt16>, Vector64<UInt16>): {method} failed:");
TestLibrary.TestFramework.LogInformation($" left: ({string.Join(", ", left)})");
TestLibrary.TestFramework.LogInformation($" right: ({string.Join(", ", right)})");
TestLibrary.TestFramework.LogInformation($" result: ({string.Join(", ", result)})");
TestLibrary.TestFramework.LogInformation(string.Empty);
Succeeded = false;
}
}
}
}
| -1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/installer/tests/Assets/TestProjects/BundleProbeTester/BundleProbeTester.csproj
|
<Project Sdk="Microsoft.NET.Sdk">
<PropertyGroup>
<TargetFramework>$(NetCoreAppCurrent)</TargetFramework>
<OutputType>Exe</OutputType>
<RuntimeIdentifier>$(TestTargetRid)</RuntimeIdentifier>
<RuntimeFrameworkVersion>$(MNAVersion)</RuntimeFrameworkVersion>
</PropertyGroup>
<PropertyGroup>
<AllowUnsafeBlocks>true</AllowUnsafeBlocks>
</PropertyGroup>
</Project>
|
<Project Sdk="Microsoft.NET.Sdk">
<PropertyGroup>
<TargetFramework>$(NetCoreAppCurrent)</TargetFramework>
<OutputType>Exe</OutputType>
<RuntimeIdentifier>$(TestTargetRid)</RuntimeIdentifier>
<RuntimeFrameworkVersion>$(MNAVersion)</RuntimeFrameworkVersion>
</PropertyGroup>
<PropertyGroup>
<AllowUnsafeBlocks>true</AllowUnsafeBlocks>
</PropertyGroup>
</Project>
| -1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/tests/JIT/Generics/Parameters/static_passing_class01.cs
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
//
using System;
public struct ValX0 { }
public struct ValY0 { }
public struct ValX1<T> { }
public struct ValY1<T> { }
public struct ValX2<T, U> { }
public struct ValY2<T, U> { }
public struct ValX3<T, U, V> { }
public struct ValY3<T, U, V> { }
public class RefX0 { }
public class RefY0 { }
public class RefX1<T> { }
public class RefY1<T> { }
public class RefX2<T, U> { }
public class RefY2<T, U> { }
public class RefX3<T, U, V> { }
public class RefY3<T, U, V> { }
public class Gen<T>
{
public static T PassAsIn(T t)
{
return t;
}
public static T PassAsRef(ref T t, T Fld2)
{
T temp = t;
t = Fld2;
return temp;
}
public static void PassAsOut(out T t, T Fld2)
{
t = Fld2;
}
public static void PassAsParameter(T t1, T t2)
{
T temp = t1;
Test_static_passing_class01.Eval(t1.Equals(PassAsIn(temp)));
Test_static_passing_class01.Eval(t1.Equals(PassAsRef(ref temp, t2)));
Test_static_passing_class01.Eval(t2.Equals(temp));
temp = t1;
PassAsOut(out temp, t2);
Test_static_passing_class01.Eval(t2.Equals(temp));
}
}
public class Test_static_passing_class01
{
public static int counter = 0;
public static bool result = true;
public static void Eval(bool exp)
{
counter++;
if (!exp)
{
result = exp;
Console.WriteLine("Test Failed at location: " + counter);
}
}
public static int Main()
{
int _int1 = 1;
int _int2 = -1;
Gen<int>.PassAsParameter(_int1, _int2);
double _double1 = 1;
double _double2 = -1;
Gen<double>.PassAsParameter(_double1, _double2);
string _string1 = "string1";
string _string2 = "string2";
Gen<string>.PassAsParameter(_string1, _string2);
object _object1 = (object)_string1;
object _object2 = (object)_string2;
Gen<object>.PassAsParameter(_object1, _object2);
Guid _Guid1 = new Guid(1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1);
Guid _Guid2 = new Guid(1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11);
Gen<Guid>.PassAsParameter(_Guid1, _Guid2);
if (result)
{
Console.WriteLine("Test Passed");
return 100;
}
else
{
Console.WriteLine("Test Failed");
return 1;
}
}
}
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
//
using System;
public struct ValX0 { }
public struct ValY0 { }
public struct ValX1<T> { }
public struct ValY1<T> { }
public struct ValX2<T, U> { }
public struct ValY2<T, U> { }
public struct ValX3<T, U, V> { }
public struct ValY3<T, U, V> { }
public class RefX0 { }
public class RefY0 { }
public class RefX1<T> { }
public class RefY1<T> { }
public class RefX2<T, U> { }
public class RefY2<T, U> { }
public class RefX3<T, U, V> { }
public class RefY3<T, U, V> { }
public class Gen<T>
{
public static T PassAsIn(T t)
{
return t;
}
public static T PassAsRef(ref T t, T Fld2)
{
T temp = t;
t = Fld2;
return temp;
}
public static void PassAsOut(out T t, T Fld2)
{
t = Fld2;
}
public static void PassAsParameter(T t1, T t2)
{
T temp = t1;
Test_static_passing_class01.Eval(t1.Equals(PassAsIn(temp)));
Test_static_passing_class01.Eval(t1.Equals(PassAsRef(ref temp, t2)));
Test_static_passing_class01.Eval(t2.Equals(temp));
temp = t1;
PassAsOut(out temp, t2);
Test_static_passing_class01.Eval(t2.Equals(temp));
}
}
public class Test_static_passing_class01
{
public static int counter = 0;
public static bool result = true;
public static void Eval(bool exp)
{
counter++;
if (!exp)
{
result = exp;
Console.WriteLine("Test Failed at location: " + counter);
}
}
public static int Main()
{
int _int1 = 1;
int _int2 = -1;
Gen<int>.PassAsParameter(_int1, _int2);
double _double1 = 1;
double _double2 = -1;
Gen<double>.PassAsParameter(_double1, _double2);
string _string1 = "string1";
string _string2 = "string2";
Gen<string>.PassAsParameter(_string1, _string2);
object _object1 = (object)_string1;
object _object2 = (object)_string2;
Gen<object>.PassAsParameter(_object1, _object2);
Guid _Guid1 = new Guid(1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1);
Guid _Guid2 = new Guid(1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11);
Gen<Guid>.PassAsParameter(_Guid1, _Guid2);
if (result)
{
Console.WriteLine("Test Passed");
return 100;
}
else
{
Console.WriteLine("Test Failed");
return 1;
}
}
}
| -1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/libraries/System.IO.FileSystem/tests/RandomAccess/SectorAlignedMemory.Windows.cs
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
using System.Buffers;
using System.Runtime.CompilerServices;
using System.Runtime.InteropServices;
using System.Threading;
using static Interop.Kernel32;
namespace System.IO.Tests
{
internal sealed class SectorAlignedMemory<T> : MemoryManager<T>
{
private bool _disposed;
private int _refCount;
private IntPtr _memory;
private int _length;
private unsafe SectorAlignedMemory(void* memory, int length)
{
_memory = (IntPtr)memory;
_length = length;
}
public static unsafe SectorAlignedMemory<T> Allocate(int length)
{
void* memory = VirtualAlloc(
IntPtr.Zero.ToPointer(),
new UIntPtr((uint)(Marshal.SizeOf<T>() * length)),
MemOptions.MEM_COMMIT | MemOptions.MEM_RESERVE,
PageOptions.PAGE_READWRITE);
return new SectorAlignedMemory<T>(memory, length);
}
public bool IsDisposed => _disposed;
public unsafe override Span<T> GetSpan() => new Span<T>((void*)_memory, _length);
public override MemoryHandle Pin(int elementIndex = 0)
{
unsafe
{
Retain();
if ((uint)elementIndex > _length) throw new ArgumentOutOfRangeException(nameof(elementIndex));
void* pointer = Unsafe.Add<T>((void*)_memory, elementIndex);
return new MemoryHandle(pointer, default, this);
}
}
private bool Release()
{
int newRefCount = Interlocked.Decrement(ref _refCount);
if (newRefCount < 0)
{
throw new InvalidOperationException("Unmatched Release/Retain");
}
return newRefCount != 0;
}
private void Retain()
{
if (_disposed)
{
throw new ObjectDisposedException(nameof(SectorAlignedMemory<T>));
}
Interlocked.Increment(ref _refCount);
}
protected override unsafe void Dispose(bool disposing)
{
if (_disposed)
{
return;
}
VirtualAlloc(
_memory.ToPointer(),
new UIntPtr((uint)(Marshal.SizeOf<T>() * _length)),
MemOptions.MEM_FREE,
PageOptions.PAGE_READWRITE);
_memory = IntPtr.Zero;
_disposed = true;
}
protected override bool TryGetArray(out ArraySegment<T> arraySegment)
{
// cannot expose managed array
arraySegment = default;
return false;
}
public override void Unpin()
{
Release();
}
}
}
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
using System.Buffers;
using System.Runtime.CompilerServices;
using System.Runtime.InteropServices;
using System.Threading;
using static Interop.Kernel32;
namespace System.IO.Tests
{
internal sealed class SectorAlignedMemory<T> : MemoryManager<T>
{
private bool _disposed;
private int _refCount;
private IntPtr _memory;
private int _length;
private unsafe SectorAlignedMemory(void* memory, int length)
{
_memory = (IntPtr)memory;
_length = length;
}
public static unsafe SectorAlignedMemory<T> Allocate(int length)
{
void* memory = VirtualAlloc(
IntPtr.Zero.ToPointer(),
new UIntPtr((uint)(Marshal.SizeOf<T>() * length)),
MemOptions.MEM_COMMIT | MemOptions.MEM_RESERVE,
PageOptions.PAGE_READWRITE);
return new SectorAlignedMemory<T>(memory, length);
}
public bool IsDisposed => _disposed;
public unsafe override Span<T> GetSpan() => new Span<T>((void*)_memory, _length);
public override MemoryHandle Pin(int elementIndex = 0)
{
unsafe
{
Retain();
if ((uint)elementIndex > _length) throw new ArgumentOutOfRangeException(nameof(elementIndex));
void* pointer = Unsafe.Add<T>((void*)_memory, elementIndex);
return new MemoryHandle(pointer, default, this);
}
}
private bool Release()
{
int newRefCount = Interlocked.Decrement(ref _refCount);
if (newRefCount < 0)
{
throw new InvalidOperationException("Unmatched Release/Retain");
}
return newRefCount != 0;
}
private void Retain()
{
if (_disposed)
{
throw new ObjectDisposedException(nameof(SectorAlignedMemory<T>));
}
Interlocked.Increment(ref _refCount);
}
protected override unsafe void Dispose(bool disposing)
{
if (_disposed)
{
return;
}
VirtualAlloc(
_memory.ToPointer(),
new UIntPtr((uint)(Marshal.SizeOf<T>() * _length)),
MemOptions.MEM_FREE,
PageOptions.PAGE_READWRITE);
_memory = IntPtr.Zero;
_disposed = true;
}
protected override bool TryGetArray(out ArraySegment<T> arraySegment)
{
// cannot expose managed array
arraySegment = default;
return false;
}
public override void Unpin()
{
Release();
}
}
}
| -1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/tests/JIT/CodeGenBringUpTests/IntArraySum_do.csproj
|
<Project Sdk="Microsoft.NET.Sdk">
<PropertyGroup>
<OutputType>Exe</OutputType>
<CLRTestPriority>1</CLRTestPriority>
</PropertyGroup>
<PropertyGroup>
<DebugType>Full</DebugType>
<Optimize>True</Optimize>
</PropertyGroup>
<ItemGroup>
<Compile Include="IntArraySum.cs" />
</ItemGroup>
</Project>
|
<Project Sdk="Microsoft.NET.Sdk">
<PropertyGroup>
<OutputType>Exe</OutputType>
<CLRTestPriority>1</CLRTestPriority>
</PropertyGroup>
<PropertyGroup>
<DebugType>Full</DebugType>
<Optimize>True</Optimize>
</PropertyGroup>
<ItemGroup>
<Compile Include="IntArraySum.cs" />
</ItemGroup>
</Project>
| -1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/libraries/System.ComponentModel.Annotations/src/System/ComponentModel/DataAnnotations/Schema/ColumnAttribute.cs
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
using System.Diagnostics.CodeAnalysis;
using System.Globalization;
namespace System.ComponentModel.DataAnnotations.Schema
{
/// <summary>
/// Specifies the database column that a property is mapped to.
/// </summary>
[AttributeUsage(AttributeTargets.Property | AttributeTargets.Field, AllowMultiple = false)]
public class ColumnAttribute : Attribute
{
private int _order = -1;
private string? _typeName;
/// <summary>
/// Initializes a new instance of the <see cref="ColumnAttribute" /> class.
/// </summary>
public ColumnAttribute()
{
}
/// <summary>
/// Initializes a new instance of the <see cref="ColumnAttribute" /> class.
/// </summary>
/// <param name="name">The name of the column the property is mapped to.</param>
public ColumnAttribute(string name)
{
if (string.IsNullOrWhiteSpace(name))
{
throw new ArgumentException(SR.Format(SR.ArgumentIsNullOrWhitespace, nameof(name)), nameof(name));
}
Name = name;
}
/// <summary>
/// The name of the column the property is mapped to.
/// </summary>
public string? Name { get; }
/// <summary>
/// The zero-based order of the column the property is mapped to.
/// </summary>
public int Order
{
get => _order;
set
{
if (value < 0)
{
throw new ArgumentOutOfRangeException(nameof(value));
}
_order = value;
}
}
/// <summary>
/// The database provider specific data type of the column the property is mapped to.
/// </summary>
[DisallowNull]
public string? TypeName
{
get => _typeName;
set
{
if (string.IsNullOrWhiteSpace(value))
{
throw new ArgumentException(SR.Format(SR.ArgumentIsNullOrWhitespace, nameof(value)), nameof(value));
}
_typeName = value;
}
}
}
}
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
using System.Diagnostics.CodeAnalysis;
using System.Globalization;
namespace System.ComponentModel.DataAnnotations.Schema
{
/// <summary>
/// Specifies the database column that a property is mapped to.
/// </summary>
[AttributeUsage(AttributeTargets.Property | AttributeTargets.Field, AllowMultiple = false)]
public class ColumnAttribute : Attribute
{
private int _order = -1;
private string? _typeName;
/// <summary>
/// Initializes a new instance of the <see cref="ColumnAttribute" /> class.
/// </summary>
public ColumnAttribute()
{
}
/// <summary>
/// Initializes a new instance of the <see cref="ColumnAttribute" /> class.
/// </summary>
/// <param name="name">The name of the column the property is mapped to.</param>
public ColumnAttribute(string name)
{
if (string.IsNullOrWhiteSpace(name))
{
throw new ArgumentException(SR.Format(SR.ArgumentIsNullOrWhitespace, nameof(name)), nameof(name));
}
Name = name;
}
/// <summary>
/// The name of the column the property is mapped to.
/// </summary>
public string? Name { get; }
/// <summary>
/// The zero-based order of the column the property is mapped to.
/// </summary>
public int Order
{
get => _order;
set
{
if (value < 0)
{
throw new ArgumentOutOfRangeException(nameof(value));
}
_order = value;
}
}
/// <summary>
/// The database provider specific data type of the column the property is mapped to.
/// </summary>
[DisallowNull]
public string? TypeName
{
get => _typeName;
set
{
if (string.IsNullOrWhiteSpace(value))
{
throw new ArgumentException(SR.Format(SR.ArgumentIsNullOrWhitespace, nameof(value)), nameof(value));
}
_typeName = value;
}
}
}
}
| -1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/tests/JIT/HardwareIntrinsics/Arm/AdvSimd.Arm64/ReciprocalStep.Vector128.Double.cs
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
/******************************************************************************
* This file is auto-generated from a template file by the GenerateTests.csx *
* script in tests\src\JIT\HardwareIntrinsics.Arm\Shared. In order to make *
* changes, please update the corresponding template and run according to the *
* directions listed in the file. *
******************************************************************************/
using System;
using System.Runtime.CompilerServices;
using System.Runtime.InteropServices;
using System.Runtime.Intrinsics;
using System.Runtime.Intrinsics.Arm;
namespace JIT.HardwareIntrinsics.Arm
{
public static partial class Program
{
private static void ReciprocalStep_Vector128_Double()
{
var test = new SimpleBinaryOpTest__ReciprocalStep_Vector128_Double();
if (test.IsSupported)
{
// Validates basic functionality works, using Unsafe.Read
test.RunBasicScenario_UnsafeRead();
if (AdvSimd.IsSupported)
{
// Validates basic functionality works, using Load
test.RunBasicScenario_Load();
}
// Validates calling via reflection works, using Unsafe.Read
test.RunReflectionScenario_UnsafeRead();
if (AdvSimd.IsSupported)
{
// Validates calling via reflection works, using Load
test.RunReflectionScenario_Load();
}
// Validates passing a static member works
test.RunClsVarScenario();
if (AdvSimd.IsSupported)
{
// Validates passing a static member works, using pinning and Load
test.RunClsVarScenario_Load();
}
// Validates passing a local works, using Unsafe.Read
test.RunLclVarScenario_UnsafeRead();
if (AdvSimd.IsSupported)
{
// Validates passing a local works, using Load
test.RunLclVarScenario_Load();
}
// Validates passing the field of a local class works
test.RunClassLclFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing the field of a local class works, using pinning and Load
test.RunClassLclFldScenario_Load();
}
// Validates passing an instance member of a class works
test.RunClassFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing an instance member of a class works, using pinning and Load
test.RunClassFldScenario_Load();
}
// Validates passing the field of a local struct works
test.RunStructLclFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing the field of a local struct works, using pinning and Load
test.RunStructLclFldScenario_Load();
}
// Validates passing an instance member of a struct works
test.RunStructFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing an instance member of a struct works, using pinning and Load
test.RunStructFldScenario_Load();
}
}
else
{
// Validates we throw on unsupported hardware
test.RunUnsupportedScenario();
}
if (!test.Succeeded)
{
throw new Exception("One or more scenarios did not complete as expected.");
}
}
}
public sealed unsafe class SimpleBinaryOpTest__ReciprocalStep_Vector128_Double
{
private struct DataTable
{
private byte[] inArray1;
private byte[] inArray2;
private byte[] outArray;
private GCHandle inHandle1;
private GCHandle inHandle2;
private GCHandle outHandle;
private ulong alignment;
public DataTable(Double[] inArray1, Double[] inArray2, Double[] outArray, int alignment)
{
int sizeOfinArray1 = inArray1.Length * Unsafe.SizeOf<Double>();
int sizeOfinArray2 = inArray2.Length * Unsafe.SizeOf<Double>();
int sizeOfoutArray = outArray.Length * Unsafe.SizeOf<Double>();
if ((alignment != 16 && alignment != 8) || (alignment * 2) < sizeOfinArray1 || (alignment * 2) < sizeOfinArray2 || (alignment * 2) < sizeOfoutArray)
{
throw new ArgumentException("Invalid value of alignment");
}
this.inArray1 = new byte[alignment * 2];
this.inArray2 = new byte[alignment * 2];
this.outArray = new byte[alignment * 2];
this.inHandle1 = GCHandle.Alloc(this.inArray1, GCHandleType.Pinned);
this.inHandle2 = GCHandle.Alloc(this.inArray2, GCHandleType.Pinned);
this.outHandle = GCHandle.Alloc(this.outArray, GCHandleType.Pinned);
this.alignment = (ulong)alignment;
Unsafe.CopyBlockUnaligned(ref Unsafe.AsRef<byte>(inArray1Ptr), ref Unsafe.As<Double, byte>(ref inArray1[0]), (uint)sizeOfinArray1);
Unsafe.CopyBlockUnaligned(ref Unsafe.AsRef<byte>(inArray2Ptr), ref Unsafe.As<Double, byte>(ref inArray2[0]), (uint)sizeOfinArray2);
}
public void* inArray1Ptr => Align((byte*)(inHandle1.AddrOfPinnedObject().ToPointer()), alignment);
public void* inArray2Ptr => Align((byte*)(inHandle2.AddrOfPinnedObject().ToPointer()), alignment);
public void* outArrayPtr => Align((byte*)(outHandle.AddrOfPinnedObject().ToPointer()), alignment);
public void Dispose()
{
inHandle1.Free();
inHandle2.Free();
outHandle.Free();
}
private static unsafe void* Align(byte* buffer, ulong expectedAlignment)
{
return (void*)(((ulong)buffer + expectedAlignment - 1) & ~(expectedAlignment - 1));
}
}
private struct TestStruct
{
public Vector128<Double> _fld1;
public Vector128<Double> _fld2;
public static TestStruct Create()
{
var testStruct = new TestStruct();
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetDouble(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<Double>, byte>(ref testStruct._fld1), ref Unsafe.As<Double, byte>(ref _data1[0]), (uint)Unsafe.SizeOf<Vector128<Double>>());
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetDouble(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<Double>, byte>(ref testStruct._fld2), ref Unsafe.As<Double, byte>(ref _data2[0]), (uint)Unsafe.SizeOf<Vector128<Double>>());
return testStruct;
}
public void RunStructFldScenario(SimpleBinaryOpTest__ReciprocalStep_Vector128_Double testClass)
{
var result = AdvSimd.Arm64.ReciprocalStep(_fld1, _fld2);
Unsafe.Write(testClass._dataTable.outArrayPtr, result);
testClass.ValidateResult(_fld1, _fld2, testClass._dataTable.outArrayPtr);
}
public void RunStructFldScenario_Load(SimpleBinaryOpTest__ReciprocalStep_Vector128_Double testClass)
{
fixed (Vector128<Double>* pFld1 = &_fld1)
fixed (Vector128<Double>* pFld2 = &_fld2)
{
var result = AdvSimd.Arm64.ReciprocalStep(
AdvSimd.LoadVector128((Double*)(pFld1)),
AdvSimd.LoadVector128((Double*)(pFld2))
);
Unsafe.Write(testClass._dataTable.outArrayPtr, result);
testClass.ValidateResult(_fld1, _fld2, testClass._dataTable.outArrayPtr);
}
}
}
private static readonly int LargestVectorSize = 16;
private static readonly int Op1ElementCount = Unsafe.SizeOf<Vector128<Double>>() / sizeof(Double);
private static readonly int Op2ElementCount = Unsafe.SizeOf<Vector128<Double>>() / sizeof(Double);
private static readonly int RetElementCount = Unsafe.SizeOf<Vector128<Double>>() / sizeof(Double);
private static Double[] _data1 = new Double[Op1ElementCount];
private static Double[] _data2 = new Double[Op2ElementCount];
private static Vector128<Double> _clsVar1;
private static Vector128<Double> _clsVar2;
private Vector128<Double> _fld1;
private Vector128<Double> _fld2;
private DataTable _dataTable;
static SimpleBinaryOpTest__ReciprocalStep_Vector128_Double()
{
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetDouble(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<Double>, byte>(ref _clsVar1), ref Unsafe.As<Double, byte>(ref _data1[0]), (uint)Unsafe.SizeOf<Vector128<Double>>());
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetDouble(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<Double>, byte>(ref _clsVar2), ref Unsafe.As<Double, byte>(ref _data2[0]), (uint)Unsafe.SizeOf<Vector128<Double>>());
}
public SimpleBinaryOpTest__ReciprocalStep_Vector128_Double()
{
Succeeded = true;
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetDouble(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<Double>, byte>(ref _fld1), ref Unsafe.As<Double, byte>(ref _data1[0]), (uint)Unsafe.SizeOf<Vector128<Double>>());
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetDouble(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<Double>, byte>(ref _fld2), ref Unsafe.As<Double, byte>(ref _data2[0]), (uint)Unsafe.SizeOf<Vector128<Double>>());
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetDouble(); }
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetDouble(); }
_dataTable = new DataTable(_data1, _data2, new Double[RetElementCount], LargestVectorSize);
}
public bool IsSupported => AdvSimd.Arm64.IsSupported;
public bool Succeeded { get; set; }
public void RunBasicScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunBasicScenario_UnsafeRead));
var result = AdvSimd.Arm64.ReciprocalStep(
Unsafe.Read<Vector128<Double>>(_dataTable.inArray1Ptr),
Unsafe.Read<Vector128<Double>>(_dataTable.inArray2Ptr)
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunBasicScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunBasicScenario_Load));
var result = AdvSimd.Arm64.ReciprocalStep(
AdvSimd.LoadVector128((Double*)(_dataTable.inArray1Ptr)),
AdvSimd.LoadVector128((Double*)(_dataTable.inArray2Ptr))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunReflectionScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunReflectionScenario_UnsafeRead));
var result = typeof(AdvSimd.Arm64).GetMethod(nameof(AdvSimd.Arm64.ReciprocalStep), new Type[] { typeof(Vector128<Double>), typeof(Vector128<Double>) })
.Invoke(null, new object[] {
Unsafe.Read<Vector128<Double>>(_dataTable.inArray1Ptr),
Unsafe.Read<Vector128<Double>>(_dataTable.inArray2Ptr)
});
Unsafe.Write(_dataTable.outArrayPtr, (Vector128<Double>)(result));
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunReflectionScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunReflectionScenario_Load));
var result = typeof(AdvSimd.Arm64).GetMethod(nameof(AdvSimd.Arm64.ReciprocalStep), new Type[] { typeof(Vector128<Double>), typeof(Vector128<Double>) })
.Invoke(null, new object[] {
AdvSimd.LoadVector128((Double*)(_dataTable.inArray1Ptr)),
AdvSimd.LoadVector128((Double*)(_dataTable.inArray2Ptr))
});
Unsafe.Write(_dataTable.outArrayPtr, (Vector128<Double>)(result));
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunClsVarScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClsVarScenario));
var result = AdvSimd.Arm64.ReciprocalStep(
_clsVar1,
_clsVar2
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_clsVar1, _clsVar2, _dataTable.outArrayPtr);
}
public void RunClsVarScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClsVarScenario_Load));
fixed (Vector128<Double>* pClsVar1 = &_clsVar1)
fixed (Vector128<Double>* pClsVar2 = &_clsVar2)
{
var result = AdvSimd.Arm64.ReciprocalStep(
AdvSimd.LoadVector128((Double*)(pClsVar1)),
AdvSimd.LoadVector128((Double*)(pClsVar2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_clsVar1, _clsVar2, _dataTable.outArrayPtr);
}
}
public void RunLclVarScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunLclVarScenario_UnsafeRead));
var op1 = Unsafe.Read<Vector128<Double>>(_dataTable.inArray1Ptr);
var op2 = Unsafe.Read<Vector128<Double>>(_dataTable.inArray2Ptr);
var result = AdvSimd.Arm64.ReciprocalStep(op1, op2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(op1, op2, _dataTable.outArrayPtr);
}
public void RunLclVarScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunLclVarScenario_Load));
var op1 = AdvSimd.LoadVector128((Double*)(_dataTable.inArray1Ptr));
var op2 = AdvSimd.LoadVector128((Double*)(_dataTable.inArray2Ptr));
var result = AdvSimd.Arm64.ReciprocalStep(op1, op2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(op1, op2, _dataTable.outArrayPtr);
}
public void RunClassLclFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassLclFldScenario));
var test = new SimpleBinaryOpTest__ReciprocalStep_Vector128_Double();
var result = AdvSimd.Arm64.ReciprocalStep(test._fld1, test._fld2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
public void RunClassLclFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassLclFldScenario_Load));
var test = new SimpleBinaryOpTest__ReciprocalStep_Vector128_Double();
fixed (Vector128<Double>* pFld1 = &test._fld1)
fixed (Vector128<Double>* pFld2 = &test._fld2)
{
var result = AdvSimd.Arm64.ReciprocalStep(
AdvSimd.LoadVector128((Double*)(pFld1)),
AdvSimd.LoadVector128((Double*)(pFld2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
}
public void RunClassFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassFldScenario));
var result = AdvSimd.Arm64.ReciprocalStep(_fld1, _fld2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_fld1, _fld2, _dataTable.outArrayPtr);
}
public void RunClassFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassFldScenario_Load));
fixed (Vector128<Double>* pFld1 = &_fld1)
fixed (Vector128<Double>* pFld2 = &_fld2)
{
var result = AdvSimd.Arm64.ReciprocalStep(
AdvSimd.LoadVector128((Double*)(pFld1)),
AdvSimd.LoadVector128((Double*)(pFld2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_fld1, _fld2, _dataTable.outArrayPtr);
}
}
public void RunStructLclFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructLclFldScenario));
var test = TestStruct.Create();
var result = AdvSimd.Arm64.ReciprocalStep(test._fld1, test._fld2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
public void RunStructLclFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructLclFldScenario_Load));
var test = TestStruct.Create();
var result = AdvSimd.Arm64.ReciprocalStep(
AdvSimd.LoadVector128((Double*)(&test._fld1)),
AdvSimd.LoadVector128((Double*)(&test._fld2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
public void RunStructFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructFldScenario));
var test = TestStruct.Create();
test.RunStructFldScenario(this);
}
public void RunStructFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructFldScenario_Load));
var test = TestStruct.Create();
test.RunStructFldScenario_Load(this);
}
public void RunUnsupportedScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunUnsupportedScenario));
bool succeeded = false;
try
{
RunBasicScenario_UnsafeRead();
}
catch (PlatformNotSupportedException)
{
succeeded = true;
}
if (!succeeded)
{
Succeeded = false;
}
}
private void ValidateResult(Vector128<Double> op1, Vector128<Double> op2, void* result, [CallerMemberName] string method = "")
{
Double[] inArray1 = new Double[Op1ElementCount];
Double[] inArray2 = new Double[Op2ElementCount];
Double[] outArray = new Double[RetElementCount];
Unsafe.WriteUnaligned(ref Unsafe.As<Double, byte>(ref inArray1[0]), op1);
Unsafe.WriteUnaligned(ref Unsafe.As<Double, byte>(ref inArray2[0]), op2);
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Double, byte>(ref outArray[0]), ref Unsafe.AsRef<byte>(result), (uint)Unsafe.SizeOf<Vector128<Double>>());
ValidateResult(inArray1, inArray2, outArray, method);
}
private void ValidateResult(void* op1, void* op2, void* result, [CallerMemberName] string method = "")
{
Double[] inArray1 = new Double[Op1ElementCount];
Double[] inArray2 = new Double[Op2ElementCount];
Double[] outArray = new Double[RetElementCount];
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Double, byte>(ref inArray1[0]), ref Unsafe.AsRef<byte>(op1), (uint)Unsafe.SizeOf<Vector128<Double>>());
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Double, byte>(ref inArray2[0]), ref Unsafe.AsRef<byte>(op2), (uint)Unsafe.SizeOf<Vector128<Double>>());
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Double, byte>(ref outArray[0]), ref Unsafe.AsRef<byte>(result), (uint)Unsafe.SizeOf<Vector128<Double>>());
ValidateResult(inArray1, inArray2, outArray, method);
}
private void ValidateResult(Double[] left, Double[] right, Double[] result, [CallerMemberName] string method = "")
{
bool succeeded = true;
for (var i = 0; i < RetElementCount; i++)
{
if (BitConverter.DoubleToInt64Bits(Helpers.FPRecipStepFused(left[i], right[i])) != BitConverter.DoubleToInt64Bits(result[i]))
{
succeeded = false;
break;
}
}
if (!succeeded)
{
TestLibrary.TestFramework.LogInformation($"{nameof(AdvSimd.Arm64)}.{nameof(AdvSimd.Arm64.ReciprocalStep)}<Double>(Vector128<Double>, Vector128<Double>): {method} failed:");
TestLibrary.TestFramework.LogInformation($" left: ({string.Join(", ", left)})");
TestLibrary.TestFramework.LogInformation($" right: ({string.Join(", ", right)})");
TestLibrary.TestFramework.LogInformation($" result: ({string.Join(", ", result)})");
TestLibrary.TestFramework.LogInformation(string.Empty);
Succeeded = false;
}
}
}
}
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
/******************************************************************************
* This file is auto-generated from a template file by the GenerateTests.csx *
* script in tests\src\JIT\HardwareIntrinsics.Arm\Shared. In order to make *
* changes, please update the corresponding template and run according to the *
* directions listed in the file. *
******************************************************************************/
using System;
using System.Runtime.CompilerServices;
using System.Runtime.InteropServices;
using System.Runtime.Intrinsics;
using System.Runtime.Intrinsics.Arm;
namespace JIT.HardwareIntrinsics.Arm
{
public static partial class Program
{
private static void ReciprocalStep_Vector128_Double()
{
var test = new SimpleBinaryOpTest__ReciprocalStep_Vector128_Double();
if (test.IsSupported)
{
// Validates basic functionality works, using Unsafe.Read
test.RunBasicScenario_UnsafeRead();
if (AdvSimd.IsSupported)
{
// Validates basic functionality works, using Load
test.RunBasicScenario_Load();
}
// Validates calling via reflection works, using Unsafe.Read
test.RunReflectionScenario_UnsafeRead();
if (AdvSimd.IsSupported)
{
// Validates calling via reflection works, using Load
test.RunReflectionScenario_Load();
}
// Validates passing a static member works
test.RunClsVarScenario();
if (AdvSimd.IsSupported)
{
// Validates passing a static member works, using pinning and Load
test.RunClsVarScenario_Load();
}
// Validates passing a local works, using Unsafe.Read
test.RunLclVarScenario_UnsafeRead();
if (AdvSimd.IsSupported)
{
// Validates passing a local works, using Load
test.RunLclVarScenario_Load();
}
// Validates passing the field of a local class works
test.RunClassLclFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing the field of a local class works, using pinning and Load
test.RunClassLclFldScenario_Load();
}
// Validates passing an instance member of a class works
test.RunClassFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing an instance member of a class works, using pinning and Load
test.RunClassFldScenario_Load();
}
// Validates passing the field of a local struct works
test.RunStructLclFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing the field of a local struct works, using pinning and Load
test.RunStructLclFldScenario_Load();
}
// Validates passing an instance member of a struct works
test.RunStructFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing an instance member of a struct works, using pinning and Load
test.RunStructFldScenario_Load();
}
}
else
{
// Validates we throw on unsupported hardware
test.RunUnsupportedScenario();
}
if (!test.Succeeded)
{
throw new Exception("One or more scenarios did not complete as expected.");
}
}
}
public sealed unsafe class SimpleBinaryOpTest__ReciprocalStep_Vector128_Double
{
private struct DataTable
{
private byte[] inArray1;
private byte[] inArray2;
private byte[] outArray;
private GCHandle inHandle1;
private GCHandle inHandle2;
private GCHandle outHandle;
private ulong alignment;
public DataTable(Double[] inArray1, Double[] inArray2, Double[] outArray, int alignment)
{
int sizeOfinArray1 = inArray1.Length * Unsafe.SizeOf<Double>();
int sizeOfinArray2 = inArray2.Length * Unsafe.SizeOf<Double>();
int sizeOfoutArray = outArray.Length * Unsafe.SizeOf<Double>();
if ((alignment != 16 && alignment != 8) || (alignment * 2) < sizeOfinArray1 || (alignment * 2) < sizeOfinArray2 || (alignment * 2) < sizeOfoutArray)
{
throw new ArgumentException("Invalid value of alignment");
}
this.inArray1 = new byte[alignment * 2];
this.inArray2 = new byte[alignment * 2];
this.outArray = new byte[alignment * 2];
this.inHandle1 = GCHandle.Alloc(this.inArray1, GCHandleType.Pinned);
this.inHandle2 = GCHandle.Alloc(this.inArray2, GCHandleType.Pinned);
this.outHandle = GCHandle.Alloc(this.outArray, GCHandleType.Pinned);
this.alignment = (ulong)alignment;
Unsafe.CopyBlockUnaligned(ref Unsafe.AsRef<byte>(inArray1Ptr), ref Unsafe.As<Double, byte>(ref inArray1[0]), (uint)sizeOfinArray1);
Unsafe.CopyBlockUnaligned(ref Unsafe.AsRef<byte>(inArray2Ptr), ref Unsafe.As<Double, byte>(ref inArray2[0]), (uint)sizeOfinArray2);
}
public void* inArray1Ptr => Align((byte*)(inHandle1.AddrOfPinnedObject().ToPointer()), alignment);
public void* inArray2Ptr => Align((byte*)(inHandle2.AddrOfPinnedObject().ToPointer()), alignment);
public void* outArrayPtr => Align((byte*)(outHandle.AddrOfPinnedObject().ToPointer()), alignment);
public void Dispose()
{
inHandle1.Free();
inHandle2.Free();
outHandle.Free();
}
private static unsafe void* Align(byte* buffer, ulong expectedAlignment)
{
return (void*)(((ulong)buffer + expectedAlignment - 1) & ~(expectedAlignment - 1));
}
}
private struct TestStruct
{
public Vector128<Double> _fld1;
public Vector128<Double> _fld2;
public static TestStruct Create()
{
var testStruct = new TestStruct();
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetDouble(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<Double>, byte>(ref testStruct._fld1), ref Unsafe.As<Double, byte>(ref _data1[0]), (uint)Unsafe.SizeOf<Vector128<Double>>());
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetDouble(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<Double>, byte>(ref testStruct._fld2), ref Unsafe.As<Double, byte>(ref _data2[0]), (uint)Unsafe.SizeOf<Vector128<Double>>());
return testStruct;
}
public void RunStructFldScenario(SimpleBinaryOpTest__ReciprocalStep_Vector128_Double testClass)
{
var result = AdvSimd.Arm64.ReciprocalStep(_fld1, _fld2);
Unsafe.Write(testClass._dataTable.outArrayPtr, result);
testClass.ValidateResult(_fld1, _fld2, testClass._dataTable.outArrayPtr);
}
public void RunStructFldScenario_Load(SimpleBinaryOpTest__ReciprocalStep_Vector128_Double testClass)
{
fixed (Vector128<Double>* pFld1 = &_fld1)
fixed (Vector128<Double>* pFld2 = &_fld2)
{
var result = AdvSimd.Arm64.ReciprocalStep(
AdvSimd.LoadVector128((Double*)(pFld1)),
AdvSimd.LoadVector128((Double*)(pFld2))
);
Unsafe.Write(testClass._dataTable.outArrayPtr, result);
testClass.ValidateResult(_fld1, _fld2, testClass._dataTable.outArrayPtr);
}
}
}
private static readonly int LargestVectorSize = 16;
private static readonly int Op1ElementCount = Unsafe.SizeOf<Vector128<Double>>() / sizeof(Double);
private static readonly int Op2ElementCount = Unsafe.SizeOf<Vector128<Double>>() / sizeof(Double);
private static readonly int RetElementCount = Unsafe.SizeOf<Vector128<Double>>() / sizeof(Double);
private static Double[] _data1 = new Double[Op1ElementCount];
private static Double[] _data2 = new Double[Op2ElementCount];
private static Vector128<Double> _clsVar1;
private static Vector128<Double> _clsVar2;
private Vector128<Double> _fld1;
private Vector128<Double> _fld2;
private DataTable _dataTable;
static SimpleBinaryOpTest__ReciprocalStep_Vector128_Double()
{
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetDouble(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<Double>, byte>(ref _clsVar1), ref Unsafe.As<Double, byte>(ref _data1[0]), (uint)Unsafe.SizeOf<Vector128<Double>>());
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetDouble(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<Double>, byte>(ref _clsVar2), ref Unsafe.As<Double, byte>(ref _data2[0]), (uint)Unsafe.SizeOf<Vector128<Double>>());
}
public SimpleBinaryOpTest__ReciprocalStep_Vector128_Double()
{
Succeeded = true;
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetDouble(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<Double>, byte>(ref _fld1), ref Unsafe.As<Double, byte>(ref _data1[0]), (uint)Unsafe.SizeOf<Vector128<Double>>());
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetDouble(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<Double>, byte>(ref _fld2), ref Unsafe.As<Double, byte>(ref _data2[0]), (uint)Unsafe.SizeOf<Vector128<Double>>());
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetDouble(); }
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetDouble(); }
_dataTable = new DataTable(_data1, _data2, new Double[RetElementCount], LargestVectorSize);
}
public bool IsSupported => AdvSimd.Arm64.IsSupported;
public bool Succeeded { get; set; }
public void RunBasicScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunBasicScenario_UnsafeRead));
var result = AdvSimd.Arm64.ReciprocalStep(
Unsafe.Read<Vector128<Double>>(_dataTable.inArray1Ptr),
Unsafe.Read<Vector128<Double>>(_dataTable.inArray2Ptr)
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunBasicScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunBasicScenario_Load));
var result = AdvSimd.Arm64.ReciprocalStep(
AdvSimd.LoadVector128((Double*)(_dataTable.inArray1Ptr)),
AdvSimd.LoadVector128((Double*)(_dataTable.inArray2Ptr))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunReflectionScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunReflectionScenario_UnsafeRead));
var result = typeof(AdvSimd.Arm64).GetMethod(nameof(AdvSimd.Arm64.ReciprocalStep), new Type[] { typeof(Vector128<Double>), typeof(Vector128<Double>) })
.Invoke(null, new object[] {
Unsafe.Read<Vector128<Double>>(_dataTable.inArray1Ptr),
Unsafe.Read<Vector128<Double>>(_dataTable.inArray2Ptr)
});
Unsafe.Write(_dataTable.outArrayPtr, (Vector128<Double>)(result));
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunReflectionScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunReflectionScenario_Load));
var result = typeof(AdvSimd.Arm64).GetMethod(nameof(AdvSimd.Arm64.ReciprocalStep), new Type[] { typeof(Vector128<Double>), typeof(Vector128<Double>) })
.Invoke(null, new object[] {
AdvSimd.LoadVector128((Double*)(_dataTable.inArray1Ptr)),
AdvSimd.LoadVector128((Double*)(_dataTable.inArray2Ptr))
});
Unsafe.Write(_dataTable.outArrayPtr, (Vector128<Double>)(result));
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunClsVarScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClsVarScenario));
var result = AdvSimd.Arm64.ReciprocalStep(
_clsVar1,
_clsVar2
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_clsVar1, _clsVar2, _dataTable.outArrayPtr);
}
public void RunClsVarScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClsVarScenario_Load));
fixed (Vector128<Double>* pClsVar1 = &_clsVar1)
fixed (Vector128<Double>* pClsVar2 = &_clsVar2)
{
var result = AdvSimd.Arm64.ReciprocalStep(
AdvSimd.LoadVector128((Double*)(pClsVar1)),
AdvSimd.LoadVector128((Double*)(pClsVar2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_clsVar1, _clsVar2, _dataTable.outArrayPtr);
}
}
public void RunLclVarScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunLclVarScenario_UnsafeRead));
var op1 = Unsafe.Read<Vector128<Double>>(_dataTable.inArray1Ptr);
var op2 = Unsafe.Read<Vector128<Double>>(_dataTable.inArray2Ptr);
var result = AdvSimd.Arm64.ReciprocalStep(op1, op2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(op1, op2, _dataTable.outArrayPtr);
}
public void RunLclVarScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunLclVarScenario_Load));
var op1 = AdvSimd.LoadVector128((Double*)(_dataTable.inArray1Ptr));
var op2 = AdvSimd.LoadVector128((Double*)(_dataTable.inArray2Ptr));
var result = AdvSimd.Arm64.ReciprocalStep(op1, op2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(op1, op2, _dataTable.outArrayPtr);
}
public void RunClassLclFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassLclFldScenario));
var test = new SimpleBinaryOpTest__ReciprocalStep_Vector128_Double();
var result = AdvSimd.Arm64.ReciprocalStep(test._fld1, test._fld2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
public void RunClassLclFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassLclFldScenario_Load));
var test = new SimpleBinaryOpTest__ReciprocalStep_Vector128_Double();
fixed (Vector128<Double>* pFld1 = &test._fld1)
fixed (Vector128<Double>* pFld2 = &test._fld2)
{
var result = AdvSimd.Arm64.ReciprocalStep(
AdvSimd.LoadVector128((Double*)(pFld1)),
AdvSimd.LoadVector128((Double*)(pFld2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
}
public void RunClassFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassFldScenario));
var result = AdvSimd.Arm64.ReciprocalStep(_fld1, _fld2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_fld1, _fld2, _dataTable.outArrayPtr);
}
public void RunClassFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassFldScenario_Load));
fixed (Vector128<Double>* pFld1 = &_fld1)
fixed (Vector128<Double>* pFld2 = &_fld2)
{
var result = AdvSimd.Arm64.ReciprocalStep(
AdvSimd.LoadVector128((Double*)(pFld1)),
AdvSimd.LoadVector128((Double*)(pFld2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_fld1, _fld2, _dataTable.outArrayPtr);
}
}
public void RunStructLclFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructLclFldScenario));
var test = TestStruct.Create();
var result = AdvSimd.Arm64.ReciprocalStep(test._fld1, test._fld2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
public void RunStructLclFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructLclFldScenario_Load));
var test = TestStruct.Create();
var result = AdvSimd.Arm64.ReciprocalStep(
AdvSimd.LoadVector128((Double*)(&test._fld1)),
AdvSimd.LoadVector128((Double*)(&test._fld2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
public void RunStructFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructFldScenario));
var test = TestStruct.Create();
test.RunStructFldScenario(this);
}
public void RunStructFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructFldScenario_Load));
var test = TestStruct.Create();
test.RunStructFldScenario_Load(this);
}
public void RunUnsupportedScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunUnsupportedScenario));
bool succeeded = false;
try
{
RunBasicScenario_UnsafeRead();
}
catch (PlatformNotSupportedException)
{
succeeded = true;
}
if (!succeeded)
{
Succeeded = false;
}
}
private void ValidateResult(Vector128<Double> op1, Vector128<Double> op2, void* result, [CallerMemberName] string method = "")
{
Double[] inArray1 = new Double[Op1ElementCount];
Double[] inArray2 = new Double[Op2ElementCount];
Double[] outArray = new Double[RetElementCount];
Unsafe.WriteUnaligned(ref Unsafe.As<Double, byte>(ref inArray1[0]), op1);
Unsafe.WriteUnaligned(ref Unsafe.As<Double, byte>(ref inArray2[0]), op2);
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Double, byte>(ref outArray[0]), ref Unsafe.AsRef<byte>(result), (uint)Unsafe.SizeOf<Vector128<Double>>());
ValidateResult(inArray1, inArray2, outArray, method);
}
private void ValidateResult(void* op1, void* op2, void* result, [CallerMemberName] string method = "")
{
Double[] inArray1 = new Double[Op1ElementCount];
Double[] inArray2 = new Double[Op2ElementCount];
Double[] outArray = new Double[RetElementCount];
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Double, byte>(ref inArray1[0]), ref Unsafe.AsRef<byte>(op1), (uint)Unsafe.SizeOf<Vector128<Double>>());
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Double, byte>(ref inArray2[0]), ref Unsafe.AsRef<byte>(op2), (uint)Unsafe.SizeOf<Vector128<Double>>());
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Double, byte>(ref outArray[0]), ref Unsafe.AsRef<byte>(result), (uint)Unsafe.SizeOf<Vector128<Double>>());
ValidateResult(inArray1, inArray2, outArray, method);
}
private void ValidateResult(Double[] left, Double[] right, Double[] result, [CallerMemberName] string method = "")
{
bool succeeded = true;
for (var i = 0; i < RetElementCount; i++)
{
if (BitConverter.DoubleToInt64Bits(Helpers.FPRecipStepFused(left[i], right[i])) != BitConverter.DoubleToInt64Bits(result[i]))
{
succeeded = false;
break;
}
}
if (!succeeded)
{
TestLibrary.TestFramework.LogInformation($"{nameof(AdvSimd.Arm64)}.{nameof(AdvSimd.Arm64.ReciprocalStep)}<Double>(Vector128<Double>, Vector128<Double>): {method} failed:");
TestLibrary.TestFramework.LogInformation($" left: ({string.Join(", ", left)})");
TestLibrary.TestFramework.LogInformation($" right: ({string.Join(", ", right)})");
TestLibrary.TestFramework.LogInformation($" result: ({string.Join(", ", result)})");
TestLibrary.TestFramework.LogInformation(string.Empty);
Succeeded = false;
}
}
}
}
| -1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/native/corehost/test/ijw/ijw.cpp
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
#include <iostream>
#using <System.Console.dll>
#using <System.Runtime.Loader.dll>
using namespace System;
using namespace System::Reflection;
using namespace System::Runtime::Loader;
public ref class ManagedClass
{
private:
static int s_count = 0;
public:
static void Print()
{
Assembly^ assembly = Assembly::GetExecutingAssembly();
AssemblyLoadContext^ alc = AssemblyLoadContext::GetLoadContext(assembly);
Console::WriteLine("[C++/CLI] ManagedClass: AssemblyLoadContext = " + alc->ToString());
}
};
extern "C" __declspec(dllexport) void __cdecl NativeEntryPoint()
{
std::cout << "[C++/CLI] NativeEntryPoint: calling managed class" << std::endl;
ManagedClass::Print();
}
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
#include <iostream>
#using <System.Console.dll>
#using <System.Runtime.Loader.dll>
using namespace System;
using namespace System::Reflection;
using namespace System::Runtime::Loader;
public ref class ManagedClass
{
private:
static int s_count = 0;
public:
static void Print()
{
Assembly^ assembly = Assembly::GetExecutingAssembly();
AssemblyLoadContext^ alc = AssemblyLoadContext::GetLoadContext(assembly);
Console::WriteLine("[C++/CLI] ManagedClass: AssemblyLoadContext = " + alc->ToString());
}
};
extern "C" __declspec(dllexport) void __cdecl NativeEntryPoint()
{
std::cout << "[C++/CLI] NativeEntryPoint: calling managed class" << std::endl;
ManagedClass::Print();
}
| -1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/tests/JIT/HardwareIntrinsics/X86/Avx1/HorizontalSubtract_ro.csproj
|
<Project Sdk="Microsoft.NET.Sdk">
<PropertyGroup>
<OutputType>Exe</OutputType>
<AllowUnsafeBlocks>true</AllowUnsafeBlocks>
</PropertyGroup>
<PropertyGroup>
<DebugType>Embedded</DebugType>
<Optimize>True</Optimize>
</PropertyGroup>
<ItemGroup>
<Compile Include="HorizontalSubtract.cs" />
</ItemGroup>
</Project>
|
<Project Sdk="Microsoft.NET.Sdk">
<PropertyGroup>
<OutputType>Exe</OutputType>
<AllowUnsafeBlocks>true</AllowUnsafeBlocks>
</PropertyGroup>
<PropertyGroup>
<DebugType>Embedded</DebugType>
<Optimize>True</Optimize>
</PropertyGroup>
<ItemGroup>
<Compile Include="HorizontalSubtract.cs" />
</ItemGroup>
</Project>
| -1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/libraries/System.Formats.Asn1/src/System/Formats/Asn1/AsnWriter.UtcTime.cs
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
using System.Buffers;
using System.Buffers.Text;
using System.Diagnostics;
namespace System.Formats.Asn1
{
public sealed partial class AsnWriter
{
/// <summary>
/// Write the provided value as a UTCTime with a specified tag,
/// accepting the two-digit year as valid in context.
/// </summary>
/// <param name="value">The value to write.</param>
/// <param name="tag">The tag to write, or <see langword="null"/> for the default tag (Universal 23).</param>
/// <exception cref="ArgumentException">
/// <paramref name="tag"/>.<see cref="Asn1Tag.TagClass"/> is
/// <see cref="TagClass.Universal"/>, but
/// <paramref name="tag"/>.<see cref="Asn1Tag.TagValue"/> is not correct for
/// the method.
/// </exception>
/// <seealso cref="WriteUtcTime(DateTimeOffset,int,Nullable{Asn1Tag})"/>
/// <seealso cref="System.Globalization.Calendar.TwoDigitYearMax"/>
public void WriteUtcTime(DateTimeOffset value, Asn1Tag? tag = null)
{
CheckUniversalTag(tag, UniversalTagNumber.UtcTime);
// Clear the constructed flag, if present.
WriteUtcTimeCore(tag?.AsPrimitive() ?? Asn1Tag.UtcTime, value);
}
/// <summary>
/// Write the provided value as a UTCTime with a specified tag,
/// provided the year is in the allowed range.
/// </summary>
/// <param name="value">The value to write.</param>
/// <param name="twoDigitYearMax">
/// The maximum valid year for <paramref name="value"/>, after conversion to UTC.
/// For the X.509 Time.utcTime range of 1950-2049, pass <c>2049</c>.
/// </param>
/// <param name="tag">The tag to write, or <see langword="null"/> for the default tag (Universal 23).</param>
/// <exception cref="ArgumentException">
/// <paramref name="tag"/>.<see cref="Asn1Tag.TagClass"/> is
/// <see cref="TagClass.Universal"/>, but
/// <paramref name="tag"/>.<see cref="Asn1Tag.TagValue"/> is not correct for
/// the method.
/// </exception>
/// <exception cref="ArgumentOutOfRangeException">
/// <paramref name="value"/>.<see cref="DateTimeOffset.Year"/> (after conversion to UTC)
/// is not in the range
/// (<paramref name="twoDigitYearMax"/> - 100, <paramref name="twoDigitYearMax"/>].
/// </exception>
/// <seealso cref="WriteUtcTime(DateTimeOffset,Nullable{Asn1Tag})"/>
/// <seealso cref="System.Globalization.Calendar.TwoDigitYearMax"/>
public void WriteUtcTime(DateTimeOffset value, int twoDigitYearMax, Asn1Tag? tag = null)
{
CheckUniversalTag(tag, UniversalTagNumber.UtcTime);
value = value.ToUniversalTime();
if (value.Year > twoDigitYearMax || value.Year <= twoDigitYearMax - 100)
{
throw new ArgumentOutOfRangeException(nameof(value));
}
WriteUtcTimeCore(tag?.AsPrimitive() ?? Asn1Tag.UtcTime, value);
}
// T-REC-X.680-201508 sec 47
// T-REC-X.690-201508 sec 11.8
private void WriteUtcTimeCore(Asn1Tag tag, DateTimeOffset value)
{
// Because UtcTime is IMPLICIT VisibleString it technically can have
// a constructed form.
// DER says character strings must be primitive.
// CER says character strings <= 1000 encoded bytes must be primitive.
// So we'll just make BER be primitive, too.
Debug.Assert(!tag.IsConstructed);
WriteTag(tag);
// BER allows for omitting the seconds, but that's not an option we need to expose.
// BER allows for non-UTC values, but that's also not an option we need to expose.
// So the format is always yyMMddHHmmssZ (13)
const int UtcTimeValueLength = 13;
WriteLength(UtcTimeValueLength);
DateTimeOffset normalized = value.ToUniversalTime();
int year = normalized.Year;
int month = normalized.Month;
int day = normalized.Day;
int hour = normalized.Hour;
int minute = normalized.Minute;
int second = normalized.Second;
Span<byte> baseSpan = _buffer.AsSpan(_offset);
StandardFormat format = new StandardFormat('D', 2);
if (!Utf8Formatter.TryFormat(year % 100, baseSpan.Slice(0, 2), out _, format) ||
!Utf8Formatter.TryFormat(month, baseSpan.Slice(2, 2), out _, format) ||
!Utf8Formatter.TryFormat(day, baseSpan.Slice(4, 2), out _, format) ||
!Utf8Formatter.TryFormat(hour, baseSpan.Slice(6, 2), out _, format) ||
!Utf8Formatter.TryFormat(minute, baseSpan.Slice(8, 2), out _, format) ||
!Utf8Formatter.TryFormat(second, baseSpan.Slice(10, 2), out _, format))
{
Debug.Fail($"Utf8Formatter.TryFormat failed to build components of {normalized:O}");
throw new InvalidOperationException();
}
_buffer[_offset + 12] = (byte)'Z';
_offset += UtcTimeValueLength;
}
}
}
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
using System.Buffers;
using System.Buffers.Text;
using System.Diagnostics;
namespace System.Formats.Asn1
{
public sealed partial class AsnWriter
{
/// <summary>
/// Write the provided value as a UTCTime with a specified tag,
/// accepting the two-digit year as valid in context.
/// </summary>
/// <param name="value">The value to write.</param>
/// <param name="tag">The tag to write, or <see langword="null"/> for the default tag (Universal 23).</param>
/// <exception cref="ArgumentException">
/// <paramref name="tag"/>.<see cref="Asn1Tag.TagClass"/> is
/// <see cref="TagClass.Universal"/>, but
/// <paramref name="tag"/>.<see cref="Asn1Tag.TagValue"/> is not correct for
/// the method.
/// </exception>
/// <seealso cref="WriteUtcTime(DateTimeOffset,int,Nullable{Asn1Tag})"/>
/// <seealso cref="System.Globalization.Calendar.TwoDigitYearMax"/>
public void WriteUtcTime(DateTimeOffset value, Asn1Tag? tag = null)
{
CheckUniversalTag(tag, UniversalTagNumber.UtcTime);
// Clear the constructed flag, if present.
WriteUtcTimeCore(tag?.AsPrimitive() ?? Asn1Tag.UtcTime, value);
}
/// <summary>
/// Write the provided value as a UTCTime with a specified tag,
/// provided the year is in the allowed range.
/// </summary>
/// <param name="value">The value to write.</param>
/// <param name="twoDigitYearMax">
/// The maximum valid year for <paramref name="value"/>, after conversion to UTC.
/// For the X.509 Time.utcTime range of 1950-2049, pass <c>2049</c>.
/// </param>
/// <param name="tag">The tag to write, or <see langword="null"/> for the default tag (Universal 23).</param>
/// <exception cref="ArgumentException">
/// <paramref name="tag"/>.<see cref="Asn1Tag.TagClass"/> is
/// <see cref="TagClass.Universal"/>, but
/// <paramref name="tag"/>.<see cref="Asn1Tag.TagValue"/> is not correct for
/// the method.
/// </exception>
/// <exception cref="ArgumentOutOfRangeException">
/// <paramref name="value"/>.<see cref="DateTimeOffset.Year"/> (after conversion to UTC)
/// is not in the range
/// (<paramref name="twoDigitYearMax"/> - 100, <paramref name="twoDigitYearMax"/>].
/// </exception>
/// <seealso cref="WriteUtcTime(DateTimeOffset,Nullable{Asn1Tag})"/>
/// <seealso cref="System.Globalization.Calendar.TwoDigitYearMax"/>
public void WriteUtcTime(DateTimeOffset value, int twoDigitYearMax, Asn1Tag? tag = null)
{
CheckUniversalTag(tag, UniversalTagNumber.UtcTime);
value = value.ToUniversalTime();
if (value.Year > twoDigitYearMax || value.Year <= twoDigitYearMax - 100)
{
throw new ArgumentOutOfRangeException(nameof(value));
}
WriteUtcTimeCore(tag?.AsPrimitive() ?? Asn1Tag.UtcTime, value);
}
// T-REC-X.680-201508 sec 47
// T-REC-X.690-201508 sec 11.8
private void WriteUtcTimeCore(Asn1Tag tag, DateTimeOffset value)
{
// Because UtcTime is IMPLICIT VisibleString it technically can have
// a constructed form.
// DER says character strings must be primitive.
// CER says character strings <= 1000 encoded bytes must be primitive.
// So we'll just make BER be primitive, too.
Debug.Assert(!tag.IsConstructed);
WriteTag(tag);
// BER allows for omitting the seconds, but that's not an option we need to expose.
// BER allows for non-UTC values, but that's also not an option we need to expose.
// So the format is always yyMMddHHmmssZ (13)
const int UtcTimeValueLength = 13;
WriteLength(UtcTimeValueLength);
DateTimeOffset normalized = value.ToUniversalTime();
int year = normalized.Year;
int month = normalized.Month;
int day = normalized.Day;
int hour = normalized.Hour;
int minute = normalized.Minute;
int second = normalized.Second;
Span<byte> baseSpan = _buffer.AsSpan(_offset);
StandardFormat format = new StandardFormat('D', 2);
if (!Utf8Formatter.TryFormat(year % 100, baseSpan.Slice(0, 2), out _, format) ||
!Utf8Formatter.TryFormat(month, baseSpan.Slice(2, 2), out _, format) ||
!Utf8Formatter.TryFormat(day, baseSpan.Slice(4, 2), out _, format) ||
!Utf8Formatter.TryFormat(hour, baseSpan.Slice(6, 2), out _, format) ||
!Utf8Formatter.TryFormat(minute, baseSpan.Slice(8, 2), out _, format) ||
!Utf8Formatter.TryFormat(second, baseSpan.Slice(10, 2), out _, format))
{
Debug.Fail($"Utf8Formatter.TryFormat failed to build components of {normalized:O}");
throw new InvalidOperationException();
}
_buffer[_offset + 12] = (byte)'Z';
_offset += UtcTimeValueLength;
}
}
}
| -1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/mono/mono/tests/dim-constrained3_gm.il
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
.assembly extern mscorlib { }
.assembly constrained3_gm { }
.class interface private abstract auto ansi IFrobber`1<T>
{
.method public hidebysig newslot virtual instance int32 Frob<U>()
{
ldstr "IFrobber<T>:Frob"
call void [mscorlib]System.Console::WriteLine(string)
ldc.i4 34
ret
}
}
.class interface private abstract auto ansi IRobber`1<T> implements class IFrobber`1<!T>
{
.method public hidebysig final newslot virtual instance int32 Frob<U>()
{
.override class IFrobber`1<!T>::Frob
ldstr "IRobber<T>:Frob"
call void [mscorlib]System.Console::WriteLine(string)
ldc.i4 66
ret
}
}
.class interface private abstract auto ansi IGrabber`1<T> implements class IFrobber`1<!T>
{
.method public hidebysig final newslot virtual instance int32 Frob<U>()
{
.override class IFrobber`1<!T>::Frob
ldstr "IGrabber<T>:Frob"
call void [mscorlib]System.Console::WriteLine(string)
ldc.i4.3
ret
}
}
.class value Adder`1<T, U> implements class IFrobber`1<!T>, class IRobber`1<!U>, class IGrabber`1<!U[]>
{
}
.method public hidebysig static int32 Main()
{
.entrypoint
.locals init (
valuetype Adder`1<object, string>
)
ldloca.s 0
constrained. valuetype Adder`1<object, string>
callvirt instance int32 class IFrobber`1<object>::Frob<object>()
ldloca.s 0
constrained. valuetype Adder`1<object, string>
callvirt instance int32 class IFrobber`1<string>::Frob<object>()
add
ldc.i4 100
sub
ret
}
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
.assembly extern mscorlib { }
.assembly constrained3_gm { }
.class interface private abstract auto ansi IFrobber`1<T>
{
.method public hidebysig newslot virtual instance int32 Frob<U>()
{
ldstr "IFrobber<T>:Frob"
call void [mscorlib]System.Console::WriteLine(string)
ldc.i4 34
ret
}
}
.class interface private abstract auto ansi IRobber`1<T> implements class IFrobber`1<!T>
{
.method public hidebysig final newslot virtual instance int32 Frob<U>()
{
.override class IFrobber`1<!T>::Frob
ldstr "IRobber<T>:Frob"
call void [mscorlib]System.Console::WriteLine(string)
ldc.i4 66
ret
}
}
.class interface private abstract auto ansi IGrabber`1<T> implements class IFrobber`1<!T>
{
.method public hidebysig final newslot virtual instance int32 Frob<U>()
{
.override class IFrobber`1<!T>::Frob
ldstr "IGrabber<T>:Frob"
call void [mscorlib]System.Console::WriteLine(string)
ldc.i4.3
ret
}
}
.class value Adder`1<T, U> implements class IFrobber`1<!T>, class IRobber`1<!U>, class IGrabber`1<!U[]>
{
}
.method public hidebysig static int32 Main()
{
.entrypoint
.locals init (
valuetype Adder`1<object, string>
)
ldloca.s 0
constrained. valuetype Adder`1<object, string>
callvirt instance int32 class IFrobber`1<object>::Frob<object>()
ldloca.s 0
constrained. valuetype Adder`1<object, string>
callvirt instance int32 class IFrobber`1<string>::Frob<object>()
add
ldc.i4 100
sub
ret
}
| -1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/tests/JIT/HardwareIntrinsics/Arm/AdvSimd/ShiftArithmeticRoundedSaturate.Vector128.Int32.cs
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
/******************************************************************************
* This file is auto-generated from a template file by the GenerateTests.csx *
* script in tests\src\JIT\HardwareIntrinsics.Arm\Shared. In order to make *
* changes, please update the corresponding template and run according to the *
* directions listed in the file. *
******************************************************************************/
using System;
using System.Runtime.CompilerServices;
using System.Runtime.InteropServices;
using System.Runtime.Intrinsics;
using System.Runtime.Intrinsics.Arm;
namespace JIT.HardwareIntrinsics.Arm
{
public static partial class Program
{
private static void ShiftArithmeticRoundedSaturate_Vector128_Int32()
{
var test = new SimpleBinaryOpTest__ShiftArithmeticRoundedSaturate_Vector128_Int32();
if (test.IsSupported)
{
// Validates basic functionality works, using Unsafe.Read
test.RunBasicScenario_UnsafeRead();
if (AdvSimd.IsSupported)
{
// Validates basic functionality works, using Load
test.RunBasicScenario_Load();
}
// Validates calling via reflection works, using Unsafe.Read
test.RunReflectionScenario_UnsafeRead();
if (AdvSimd.IsSupported)
{
// Validates calling via reflection works, using Load
test.RunReflectionScenario_Load();
}
// Validates passing a static member works
test.RunClsVarScenario();
if (AdvSimd.IsSupported)
{
// Validates passing a static member works, using pinning and Load
test.RunClsVarScenario_Load();
}
// Validates passing a local works, using Unsafe.Read
test.RunLclVarScenario_UnsafeRead();
if (AdvSimd.IsSupported)
{
// Validates passing a local works, using Load
test.RunLclVarScenario_Load();
}
// Validates passing the field of a local class works
test.RunClassLclFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing the field of a local class works, using pinning and Load
test.RunClassLclFldScenario_Load();
}
// Validates passing an instance member of a class works
test.RunClassFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing an instance member of a class works, using pinning and Load
test.RunClassFldScenario_Load();
}
// Validates passing the field of a local struct works
test.RunStructLclFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing the field of a local struct works, using pinning and Load
test.RunStructLclFldScenario_Load();
}
// Validates passing an instance member of a struct works
test.RunStructFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing an instance member of a struct works, using pinning and Load
test.RunStructFldScenario_Load();
}
}
else
{
// Validates we throw on unsupported hardware
test.RunUnsupportedScenario();
}
if (!test.Succeeded)
{
throw new Exception("One or more scenarios did not complete as expected.");
}
}
}
public sealed unsafe class SimpleBinaryOpTest__ShiftArithmeticRoundedSaturate_Vector128_Int32
{
private struct DataTable
{
private byte[] inArray1;
private byte[] inArray2;
private byte[] outArray;
private GCHandle inHandle1;
private GCHandle inHandle2;
private GCHandle outHandle;
private ulong alignment;
public DataTable(Int32[] inArray1, Int32[] inArray2, Int32[] outArray, int alignment)
{
int sizeOfinArray1 = inArray1.Length * Unsafe.SizeOf<Int32>();
int sizeOfinArray2 = inArray2.Length * Unsafe.SizeOf<Int32>();
int sizeOfoutArray = outArray.Length * Unsafe.SizeOf<Int32>();
if ((alignment != 16 && alignment != 8) || (alignment * 2) < sizeOfinArray1 || (alignment * 2) < sizeOfinArray2 || (alignment * 2) < sizeOfoutArray)
{
throw new ArgumentException("Invalid value of alignment");
}
this.inArray1 = new byte[alignment * 2];
this.inArray2 = new byte[alignment * 2];
this.outArray = new byte[alignment * 2];
this.inHandle1 = GCHandle.Alloc(this.inArray1, GCHandleType.Pinned);
this.inHandle2 = GCHandle.Alloc(this.inArray2, GCHandleType.Pinned);
this.outHandle = GCHandle.Alloc(this.outArray, GCHandleType.Pinned);
this.alignment = (ulong)alignment;
Unsafe.CopyBlockUnaligned(ref Unsafe.AsRef<byte>(inArray1Ptr), ref Unsafe.As<Int32, byte>(ref inArray1[0]), (uint)sizeOfinArray1);
Unsafe.CopyBlockUnaligned(ref Unsafe.AsRef<byte>(inArray2Ptr), ref Unsafe.As<Int32, byte>(ref inArray2[0]), (uint)sizeOfinArray2);
}
public void* inArray1Ptr => Align((byte*)(inHandle1.AddrOfPinnedObject().ToPointer()), alignment);
public void* inArray2Ptr => Align((byte*)(inHandle2.AddrOfPinnedObject().ToPointer()), alignment);
public void* outArrayPtr => Align((byte*)(outHandle.AddrOfPinnedObject().ToPointer()), alignment);
public void Dispose()
{
inHandle1.Free();
inHandle2.Free();
outHandle.Free();
}
private static unsafe void* Align(byte* buffer, ulong expectedAlignment)
{
return (void*)(((ulong)buffer + expectedAlignment - 1) & ~(expectedAlignment - 1));
}
}
private struct TestStruct
{
public Vector128<Int32> _fld1;
public Vector128<Int32> _fld2;
public static TestStruct Create()
{
var testStruct = new TestStruct();
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetInt32(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<Int32>, byte>(ref testStruct._fld1), ref Unsafe.As<Int32, byte>(ref _data1[0]), (uint)Unsafe.SizeOf<Vector128<Int32>>());
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetInt32(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<Int32>, byte>(ref testStruct._fld2), ref Unsafe.As<Int32, byte>(ref _data2[0]), (uint)Unsafe.SizeOf<Vector128<Int32>>());
return testStruct;
}
public void RunStructFldScenario(SimpleBinaryOpTest__ShiftArithmeticRoundedSaturate_Vector128_Int32 testClass)
{
var result = AdvSimd.ShiftArithmeticRoundedSaturate(_fld1, _fld2);
Unsafe.Write(testClass._dataTable.outArrayPtr, result);
testClass.ValidateResult(_fld1, _fld2, testClass._dataTable.outArrayPtr);
}
public void RunStructFldScenario_Load(SimpleBinaryOpTest__ShiftArithmeticRoundedSaturate_Vector128_Int32 testClass)
{
fixed (Vector128<Int32>* pFld1 = &_fld1)
fixed (Vector128<Int32>* pFld2 = &_fld2)
{
var result = AdvSimd.ShiftArithmeticRoundedSaturate(
AdvSimd.LoadVector128((Int32*)(pFld1)),
AdvSimd.LoadVector128((Int32*)(pFld2))
);
Unsafe.Write(testClass._dataTable.outArrayPtr, result);
testClass.ValidateResult(_fld1, _fld2, testClass._dataTable.outArrayPtr);
}
}
}
private static readonly int LargestVectorSize = 16;
private static readonly int Op1ElementCount = Unsafe.SizeOf<Vector128<Int32>>() / sizeof(Int32);
private static readonly int Op2ElementCount = Unsafe.SizeOf<Vector128<Int32>>() / sizeof(Int32);
private static readonly int RetElementCount = Unsafe.SizeOf<Vector128<Int32>>() / sizeof(Int32);
private static Int32[] _data1 = new Int32[Op1ElementCount];
private static Int32[] _data2 = new Int32[Op2ElementCount];
private static Vector128<Int32> _clsVar1;
private static Vector128<Int32> _clsVar2;
private Vector128<Int32> _fld1;
private Vector128<Int32> _fld2;
private DataTable _dataTable;
static SimpleBinaryOpTest__ShiftArithmeticRoundedSaturate_Vector128_Int32()
{
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetInt32(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<Int32>, byte>(ref _clsVar1), ref Unsafe.As<Int32, byte>(ref _data1[0]), (uint)Unsafe.SizeOf<Vector128<Int32>>());
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetInt32(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<Int32>, byte>(ref _clsVar2), ref Unsafe.As<Int32, byte>(ref _data2[0]), (uint)Unsafe.SizeOf<Vector128<Int32>>());
}
public SimpleBinaryOpTest__ShiftArithmeticRoundedSaturate_Vector128_Int32()
{
Succeeded = true;
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetInt32(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<Int32>, byte>(ref _fld1), ref Unsafe.As<Int32, byte>(ref _data1[0]), (uint)Unsafe.SizeOf<Vector128<Int32>>());
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetInt32(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<Int32>, byte>(ref _fld2), ref Unsafe.As<Int32, byte>(ref _data2[0]), (uint)Unsafe.SizeOf<Vector128<Int32>>());
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetInt32(); }
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetInt32(); }
_dataTable = new DataTable(_data1, _data2, new Int32[RetElementCount], LargestVectorSize);
}
public bool IsSupported => AdvSimd.IsSupported;
public bool Succeeded { get; set; }
public void RunBasicScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunBasicScenario_UnsafeRead));
var result = AdvSimd.ShiftArithmeticRoundedSaturate(
Unsafe.Read<Vector128<Int32>>(_dataTable.inArray1Ptr),
Unsafe.Read<Vector128<Int32>>(_dataTable.inArray2Ptr)
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunBasicScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunBasicScenario_Load));
var result = AdvSimd.ShiftArithmeticRoundedSaturate(
AdvSimd.LoadVector128((Int32*)(_dataTable.inArray1Ptr)),
AdvSimd.LoadVector128((Int32*)(_dataTable.inArray2Ptr))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunReflectionScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunReflectionScenario_UnsafeRead));
var result = typeof(AdvSimd).GetMethod(nameof(AdvSimd.ShiftArithmeticRoundedSaturate), new Type[] { typeof(Vector128<Int32>), typeof(Vector128<Int32>) })
.Invoke(null, new object[] {
Unsafe.Read<Vector128<Int32>>(_dataTable.inArray1Ptr),
Unsafe.Read<Vector128<Int32>>(_dataTable.inArray2Ptr)
});
Unsafe.Write(_dataTable.outArrayPtr, (Vector128<Int32>)(result));
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunReflectionScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunReflectionScenario_Load));
var result = typeof(AdvSimd).GetMethod(nameof(AdvSimd.ShiftArithmeticRoundedSaturate), new Type[] { typeof(Vector128<Int32>), typeof(Vector128<Int32>) })
.Invoke(null, new object[] {
AdvSimd.LoadVector128((Int32*)(_dataTable.inArray1Ptr)),
AdvSimd.LoadVector128((Int32*)(_dataTable.inArray2Ptr))
});
Unsafe.Write(_dataTable.outArrayPtr, (Vector128<Int32>)(result));
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunClsVarScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClsVarScenario));
var result = AdvSimd.ShiftArithmeticRoundedSaturate(
_clsVar1,
_clsVar2
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_clsVar1, _clsVar2, _dataTable.outArrayPtr);
}
public void RunClsVarScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClsVarScenario_Load));
fixed (Vector128<Int32>* pClsVar1 = &_clsVar1)
fixed (Vector128<Int32>* pClsVar2 = &_clsVar2)
{
var result = AdvSimd.ShiftArithmeticRoundedSaturate(
AdvSimd.LoadVector128((Int32*)(pClsVar1)),
AdvSimd.LoadVector128((Int32*)(pClsVar2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_clsVar1, _clsVar2, _dataTable.outArrayPtr);
}
}
public void RunLclVarScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunLclVarScenario_UnsafeRead));
var op1 = Unsafe.Read<Vector128<Int32>>(_dataTable.inArray1Ptr);
var op2 = Unsafe.Read<Vector128<Int32>>(_dataTable.inArray2Ptr);
var result = AdvSimd.ShiftArithmeticRoundedSaturate(op1, op2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(op1, op2, _dataTable.outArrayPtr);
}
public void RunLclVarScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunLclVarScenario_Load));
var op1 = AdvSimd.LoadVector128((Int32*)(_dataTable.inArray1Ptr));
var op2 = AdvSimd.LoadVector128((Int32*)(_dataTable.inArray2Ptr));
var result = AdvSimd.ShiftArithmeticRoundedSaturate(op1, op2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(op1, op2, _dataTable.outArrayPtr);
}
public void RunClassLclFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassLclFldScenario));
var test = new SimpleBinaryOpTest__ShiftArithmeticRoundedSaturate_Vector128_Int32();
var result = AdvSimd.ShiftArithmeticRoundedSaturate(test._fld1, test._fld2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
public void RunClassLclFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassLclFldScenario_Load));
var test = new SimpleBinaryOpTest__ShiftArithmeticRoundedSaturate_Vector128_Int32();
fixed (Vector128<Int32>* pFld1 = &test._fld1)
fixed (Vector128<Int32>* pFld2 = &test._fld2)
{
var result = AdvSimd.ShiftArithmeticRoundedSaturate(
AdvSimd.LoadVector128((Int32*)(pFld1)),
AdvSimd.LoadVector128((Int32*)(pFld2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
}
public void RunClassFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassFldScenario));
var result = AdvSimd.ShiftArithmeticRoundedSaturate(_fld1, _fld2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_fld1, _fld2, _dataTable.outArrayPtr);
}
public void RunClassFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassFldScenario_Load));
fixed (Vector128<Int32>* pFld1 = &_fld1)
fixed (Vector128<Int32>* pFld2 = &_fld2)
{
var result = AdvSimd.ShiftArithmeticRoundedSaturate(
AdvSimd.LoadVector128((Int32*)(pFld1)),
AdvSimd.LoadVector128((Int32*)(pFld2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_fld1, _fld2, _dataTable.outArrayPtr);
}
}
public void RunStructLclFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructLclFldScenario));
var test = TestStruct.Create();
var result = AdvSimd.ShiftArithmeticRoundedSaturate(test._fld1, test._fld2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
public void RunStructLclFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructLclFldScenario_Load));
var test = TestStruct.Create();
var result = AdvSimd.ShiftArithmeticRoundedSaturate(
AdvSimd.LoadVector128((Int32*)(&test._fld1)),
AdvSimd.LoadVector128((Int32*)(&test._fld2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
public void RunStructFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructFldScenario));
var test = TestStruct.Create();
test.RunStructFldScenario(this);
}
public void RunStructFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructFldScenario_Load));
var test = TestStruct.Create();
test.RunStructFldScenario_Load(this);
}
public void RunUnsupportedScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunUnsupportedScenario));
bool succeeded = false;
try
{
RunBasicScenario_UnsafeRead();
}
catch (PlatformNotSupportedException)
{
succeeded = true;
}
if (!succeeded)
{
Succeeded = false;
}
}
private void ValidateResult(Vector128<Int32> op1, Vector128<Int32> op2, void* result, [CallerMemberName] string method = "")
{
Int32[] inArray1 = new Int32[Op1ElementCount];
Int32[] inArray2 = new Int32[Op2ElementCount];
Int32[] outArray = new Int32[RetElementCount];
Unsafe.WriteUnaligned(ref Unsafe.As<Int32, byte>(ref inArray1[0]), op1);
Unsafe.WriteUnaligned(ref Unsafe.As<Int32, byte>(ref inArray2[0]), op2);
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Int32, byte>(ref outArray[0]), ref Unsafe.AsRef<byte>(result), (uint)Unsafe.SizeOf<Vector128<Int32>>());
ValidateResult(inArray1, inArray2, outArray, method);
}
private void ValidateResult(void* op1, void* op2, void* result, [CallerMemberName] string method = "")
{
Int32[] inArray1 = new Int32[Op1ElementCount];
Int32[] inArray2 = new Int32[Op2ElementCount];
Int32[] outArray = new Int32[RetElementCount];
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Int32, byte>(ref inArray1[0]), ref Unsafe.AsRef<byte>(op1), (uint)Unsafe.SizeOf<Vector128<Int32>>());
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Int32, byte>(ref inArray2[0]), ref Unsafe.AsRef<byte>(op2), (uint)Unsafe.SizeOf<Vector128<Int32>>());
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Int32, byte>(ref outArray[0]), ref Unsafe.AsRef<byte>(result), (uint)Unsafe.SizeOf<Vector128<Int32>>());
ValidateResult(inArray1, inArray2, outArray, method);
}
private void ValidateResult(Int32[] left, Int32[] right, Int32[] result, [CallerMemberName] string method = "")
{
bool succeeded = true;
for (var i = 0; i < RetElementCount; i++)
{
if (Helpers.ShiftArithmeticRoundedSaturate(left[i], right[i]) != result[i])
{
succeeded = false;
break;
}
}
if (!succeeded)
{
TestLibrary.TestFramework.LogInformation($"{nameof(AdvSimd)}.{nameof(AdvSimd.ShiftArithmeticRoundedSaturate)}<Int32>(Vector128<Int32>, Vector128<Int32>): {method} failed:");
TestLibrary.TestFramework.LogInformation($" left: ({string.Join(", ", left)})");
TestLibrary.TestFramework.LogInformation($" right: ({string.Join(", ", right)})");
TestLibrary.TestFramework.LogInformation($" result: ({string.Join(", ", result)})");
TestLibrary.TestFramework.LogInformation(string.Empty);
Succeeded = false;
}
}
}
}
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
/******************************************************************************
* This file is auto-generated from a template file by the GenerateTests.csx *
* script in tests\src\JIT\HardwareIntrinsics.Arm\Shared. In order to make *
* changes, please update the corresponding template and run according to the *
* directions listed in the file. *
******************************************************************************/
using System;
using System.Runtime.CompilerServices;
using System.Runtime.InteropServices;
using System.Runtime.Intrinsics;
using System.Runtime.Intrinsics.Arm;
namespace JIT.HardwareIntrinsics.Arm
{
public static partial class Program
{
private static void ShiftArithmeticRoundedSaturate_Vector128_Int32()
{
var test = new SimpleBinaryOpTest__ShiftArithmeticRoundedSaturate_Vector128_Int32();
if (test.IsSupported)
{
// Validates basic functionality works, using Unsafe.Read
test.RunBasicScenario_UnsafeRead();
if (AdvSimd.IsSupported)
{
// Validates basic functionality works, using Load
test.RunBasicScenario_Load();
}
// Validates calling via reflection works, using Unsafe.Read
test.RunReflectionScenario_UnsafeRead();
if (AdvSimd.IsSupported)
{
// Validates calling via reflection works, using Load
test.RunReflectionScenario_Load();
}
// Validates passing a static member works
test.RunClsVarScenario();
if (AdvSimd.IsSupported)
{
// Validates passing a static member works, using pinning and Load
test.RunClsVarScenario_Load();
}
// Validates passing a local works, using Unsafe.Read
test.RunLclVarScenario_UnsafeRead();
if (AdvSimd.IsSupported)
{
// Validates passing a local works, using Load
test.RunLclVarScenario_Load();
}
// Validates passing the field of a local class works
test.RunClassLclFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing the field of a local class works, using pinning and Load
test.RunClassLclFldScenario_Load();
}
// Validates passing an instance member of a class works
test.RunClassFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing an instance member of a class works, using pinning and Load
test.RunClassFldScenario_Load();
}
// Validates passing the field of a local struct works
test.RunStructLclFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing the field of a local struct works, using pinning and Load
test.RunStructLclFldScenario_Load();
}
// Validates passing an instance member of a struct works
test.RunStructFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing an instance member of a struct works, using pinning and Load
test.RunStructFldScenario_Load();
}
}
else
{
// Validates we throw on unsupported hardware
test.RunUnsupportedScenario();
}
if (!test.Succeeded)
{
throw new Exception("One or more scenarios did not complete as expected.");
}
}
}
public sealed unsafe class SimpleBinaryOpTest__ShiftArithmeticRoundedSaturate_Vector128_Int32
{
private struct DataTable
{
private byte[] inArray1;
private byte[] inArray2;
private byte[] outArray;
private GCHandle inHandle1;
private GCHandle inHandle2;
private GCHandle outHandle;
private ulong alignment;
public DataTable(Int32[] inArray1, Int32[] inArray2, Int32[] outArray, int alignment)
{
int sizeOfinArray1 = inArray1.Length * Unsafe.SizeOf<Int32>();
int sizeOfinArray2 = inArray2.Length * Unsafe.SizeOf<Int32>();
int sizeOfoutArray = outArray.Length * Unsafe.SizeOf<Int32>();
if ((alignment != 16 && alignment != 8) || (alignment * 2) < sizeOfinArray1 || (alignment * 2) < sizeOfinArray2 || (alignment * 2) < sizeOfoutArray)
{
throw new ArgumentException("Invalid value of alignment");
}
this.inArray1 = new byte[alignment * 2];
this.inArray2 = new byte[alignment * 2];
this.outArray = new byte[alignment * 2];
this.inHandle1 = GCHandle.Alloc(this.inArray1, GCHandleType.Pinned);
this.inHandle2 = GCHandle.Alloc(this.inArray2, GCHandleType.Pinned);
this.outHandle = GCHandle.Alloc(this.outArray, GCHandleType.Pinned);
this.alignment = (ulong)alignment;
Unsafe.CopyBlockUnaligned(ref Unsafe.AsRef<byte>(inArray1Ptr), ref Unsafe.As<Int32, byte>(ref inArray1[0]), (uint)sizeOfinArray1);
Unsafe.CopyBlockUnaligned(ref Unsafe.AsRef<byte>(inArray2Ptr), ref Unsafe.As<Int32, byte>(ref inArray2[0]), (uint)sizeOfinArray2);
}
public void* inArray1Ptr => Align((byte*)(inHandle1.AddrOfPinnedObject().ToPointer()), alignment);
public void* inArray2Ptr => Align((byte*)(inHandle2.AddrOfPinnedObject().ToPointer()), alignment);
public void* outArrayPtr => Align((byte*)(outHandle.AddrOfPinnedObject().ToPointer()), alignment);
public void Dispose()
{
inHandle1.Free();
inHandle2.Free();
outHandle.Free();
}
private static unsafe void* Align(byte* buffer, ulong expectedAlignment)
{
return (void*)(((ulong)buffer + expectedAlignment - 1) & ~(expectedAlignment - 1));
}
}
private struct TestStruct
{
public Vector128<Int32> _fld1;
public Vector128<Int32> _fld2;
public static TestStruct Create()
{
var testStruct = new TestStruct();
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetInt32(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<Int32>, byte>(ref testStruct._fld1), ref Unsafe.As<Int32, byte>(ref _data1[0]), (uint)Unsafe.SizeOf<Vector128<Int32>>());
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetInt32(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<Int32>, byte>(ref testStruct._fld2), ref Unsafe.As<Int32, byte>(ref _data2[0]), (uint)Unsafe.SizeOf<Vector128<Int32>>());
return testStruct;
}
public void RunStructFldScenario(SimpleBinaryOpTest__ShiftArithmeticRoundedSaturate_Vector128_Int32 testClass)
{
var result = AdvSimd.ShiftArithmeticRoundedSaturate(_fld1, _fld2);
Unsafe.Write(testClass._dataTable.outArrayPtr, result);
testClass.ValidateResult(_fld1, _fld2, testClass._dataTable.outArrayPtr);
}
public void RunStructFldScenario_Load(SimpleBinaryOpTest__ShiftArithmeticRoundedSaturate_Vector128_Int32 testClass)
{
fixed (Vector128<Int32>* pFld1 = &_fld1)
fixed (Vector128<Int32>* pFld2 = &_fld2)
{
var result = AdvSimd.ShiftArithmeticRoundedSaturate(
AdvSimd.LoadVector128((Int32*)(pFld1)),
AdvSimd.LoadVector128((Int32*)(pFld2))
);
Unsafe.Write(testClass._dataTable.outArrayPtr, result);
testClass.ValidateResult(_fld1, _fld2, testClass._dataTable.outArrayPtr);
}
}
}
private static readonly int LargestVectorSize = 16;
private static readonly int Op1ElementCount = Unsafe.SizeOf<Vector128<Int32>>() / sizeof(Int32);
private static readonly int Op2ElementCount = Unsafe.SizeOf<Vector128<Int32>>() / sizeof(Int32);
private static readonly int RetElementCount = Unsafe.SizeOf<Vector128<Int32>>() / sizeof(Int32);
private static Int32[] _data1 = new Int32[Op1ElementCount];
private static Int32[] _data2 = new Int32[Op2ElementCount];
private static Vector128<Int32> _clsVar1;
private static Vector128<Int32> _clsVar2;
private Vector128<Int32> _fld1;
private Vector128<Int32> _fld2;
private DataTable _dataTable;
static SimpleBinaryOpTest__ShiftArithmeticRoundedSaturate_Vector128_Int32()
{
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetInt32(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<Int32>, byte>(ref _clsVar1), ref Unsafe.As<Int32, byte>(ref _data1[0]), (uint)Unsafe.SizeOf<Vector128<Int32>>());
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetInt32(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<Int32>, byte>(ref _clsVar2), ref Unsafe.As<Int32, byte>(ref _data2[0]), (uint)Unsafe.SizeOf<Vector128<Int32>>());
}
public SimpleBinaryOpTest__ShiftArithmeticRoundedSaturate_Vector128_Int32()
{
Succeeded = true;
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetInt32(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<Int32>, byte>(ref _fld1), ref Unsafe.As<Int32, byte>(ref _data1[0]), (uint)Unsafe.SizeOf<Vector128<Int32>>());
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetInt32(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector128<Int32>, byte>(ref _fld2), ref Unsafe.As<Int32, byte>(ref _data2[0]), (uint)Unsafe.SizeOf<Vector128<Int32>>());
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetInt32(); }
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetInt32(); }
_dataTable = new DataTable(_data1, _data2, new Int32[RetElementCount], LargestVectorSize);
}
public bool IsSupported => AdvSimd.IsSupported;
public bool Succeeded { get; set; }
public void RunBasicScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunBasicScenario_UnsafeRead));
var result = AdvSimd.ShiftArithmeticRoundedSaturate(
Unsafe.Read<Vector128<Int32>>(_dataTable.inArray1Ptr),
Unsafe.Read<Vector128<Int32>>(_dataTable.inArray2Ptr)
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunBasicScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunBasicScenario_Load));
var result = AdvSimd.ShiftArithmeticRoundedSaturate(
AdvSimd.LoadVector128((Int32*)(_dataTable.inArray1Ptr)),
AdvSimd.LoadVector128((Int32*)(_dataTable.inArray2Ptr))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunReflectionScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunReflectionScenario_UnsafeRead));
var result = typeof(AdvSimd).GetMethod(nameof(AdvSimd.ShiftArithmeticRoundedSaturate), new Type[] { typeof(Vector128<Int32>), typeof(Vector128<Int32>) })
.Invoke(null, new object[] {
Unsafe.Read<Vector128<Int32>>(_dataTable.inArray1Ptr),
Unsafe.Read<Vector128<Int32>>(_dataTable.inArray2Ptr)
});
Unsafe.Write(_dataTable.outArrayPtr, (Vector128<Int32>)(result));
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunReflectionScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunReflectionScenario_Load));
var result = typeof(AdvSimd).GetMethod(nameof(AdvSimd.ShiftArithmeticRoundedSaturate), new Type[] { typeof(Vector128<Int32>), typeof(Vector128<Int32>) })
.Invoke(null, new object[] {
AdvSimd.LoadVector128((Int32*)(_dataTable.inArray1Ptr)),
AdvSimd.LoadVector128((Int32*)(_dataTable.inArray2Ptr))
});
Unsafe.Write(_dataTable.outArrayPtr, (Vector128<Int32>)(result));
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunClsVarScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClsVarScenario));
var result = AdvSimd.ShiftArithmeticRoundedSaturate(
_clsVar1,
_clsVar2
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_clsVar1, _clsVar2, _dataTable.outArrayPtr);
}
public void RunClsVarScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClsVarScenario_Load));
fixed (Vector128<Int32>* pClsVar1 = &_clsVar1)
fixed (Vector128<Int32>* pClsVar2 = &_clsVar2)
{
var result = AdvSimd.ShiftArithmeticRoundedSaturate(
AdvSimd.LoadVector128((Int32*)(pClsVar1)),
AdvSimd.LoadVector128((Int32*)(pClsVar2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_clsVar1, _clsVar2, _dataTable.outArrayPtr);
}
}
public void RunLclVarScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunLclVarScenario_UnsafeRead));
var op1 = Unsafe.Read<Vector128<Int32>>(_dataTable.inArray1Ptr);
var op2 = Unsafe.Read<Vector128<Int32>>(_dataTable.inArray2Ptr);
var result = AdvSimd.ShiftArithmeticRoundedSaturate(op1, op2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(op1, op2, _dataTable.outArrayPtr);
}
public void RunLclVarScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunLclVarScenario_Load));
var op1 = AdvSimd.LoadVector128((Int32*)(_dataTable.inArray1Ptr));
var op2 = AdvSimd.LoadVector128((Int32*)(_dataTable.inArray2Ptr));
var result = AdvSimd.ShiftArithmeticRoundedSaturate(op1, op2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(op1, op2, _dataTable.outArrayPtr);
}
public void RunClassLclFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassLclFldScenario));
var test = new SimpleBinaryOpTest__ShiftArithmeticRoundedSaturate_Vector128_Int32();
var result = AdvSimd.ShiftArithmeticRoundedSaturate(test._fld1, test._fld2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
public void RunClassLclFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassLclFldScenario_Load));
var test = new SimpleBinaryOpTest__ShiftArithmeticRoundedSaturate_Vector128_Int32();
fixed (Vector128<Int32>* pFld1 = &test._fld1)
fixed (Vector128<Int32>* pFld2 = &test._fld2)
{
var result = AdvSimd.ShiftArithmeticRoundedSaturate(
AdvSimd.LoadVector128((Int32*)(pFld1)),
AdvSimd.LoadVector128((Int32*)(pFld2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
}
public void RunClassFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassFldScenario));
var result = AdvSimd.ShiftArithmeticRoundedSaturate(_fld1, _fld2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_fld1, _fld2, _dataTable.outArrayPtr);
}
public void RunClassFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassFldScenario_Load));
fixed (Vector128<Int32>* pFld1 = &_fld1)
fixed (Vector128<Int32>* pFld2 = &_fld2)
{
var result = AdvSimd.ShiftArithmeticRoundedSaturate(
AdvSimd.LoadVector128((Int32*)(pFld1)),
AdvSimd.LoadVector128((Int32*)(pFld2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_fld1, _fld2, _dataTable.outArrayPtr);
}
}
public void RunStructLclFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructLclFldScenario));
var test = TestStruct.Create();
var result = AdvSimd.ShiftArithmeticRoundedSaturate(test._fld1, test._fld2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
public void RunStructLclFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructLclFldScenario_Load));
var test = TestStruct.Create();
var result = AdvSimd.ShiftArithmeticRoundedSaturate(
AdvSimd.LoadVector128((Int32*)(&test._fld1)),
AdvSimd.LoadVector128((Int32*)(&test._fld2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
public void RunStructFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructFldScenario));
var test = TestStruct.Create();
test.RunStructFldScenario(this);
}
public void RunStructFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructFldScenario_Load));
var test = TestStruct.Create();
test.RunStructFldScenario_Load(this);
}
public void RunUnsupportedScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunUnsupportedScenario));
bool succeeded = false;
try
{
RunBasicScenario_UnsafeRead();
}
catch (PlatformNotSupportedException)
{
succeeded = true;
}
if (!succeeded)
{
Succeeded = false;
}
}
private void ValidateResult(Vector128<Int32> op1, Vector128<Int32> op2, void* result, [CallerMemberName] string method = "")
{
Int32[] inArray1 = new Int32[Op1ElementCount];
Int32[] inArray2 = new Int32[Op2ElementCount];
Int32[] outArray = new Int32[RetElementCount];
Unsafe.WriteUnaligned(ref Unsafe.As<Int32, byte>(ref inArray1[0]), op1);
Unsafe.WriteUnaligned(ref Unsafe.As<Int32, byte>(ref inArray2[0]), op2);
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Int32, byte>(ref outArray[0]), ref Unsafe.AsRef<byte>(result), (uint)Unsafe.SizeOf<Vector128<Int32>>());
ValidateResult(inArray1, inArray2, outArray, method);
}
private void ValidateResult(void* op1, void* op2, void* result, [CallerMemberName] string method = "")
{
Int32[] inArray1 = new Int32[Op1ElementCount];
Int32[] inArray2 = new Int32[Op2ElementCount];
Int32[] outArray = new Int32[RetElementCount];
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Int32, byte>(ref inArray1[0]), ref Unsafe.AsRef<byte>(op1), (uint)Unsafe.SizeOf<Vector128<Int32>>());
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Int32, byte>(ref inArray2[0]), ref Unsafe.AsRef<byte>(op2), (uint)Unsafe.SizeOf<Vector128<Int32>>());
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Int32, byte>(ref outArray[0]), ref Unsafe.AsRef<byte>(result), (uint)Unsafe.SizeOf<Vector128<Int32>>());
ValidateResult(inArray1, inArray2, outArray, method);
}
private void ValidateResult(Int32[] left, Int32[] right, Int32[] result, [CallerMemberName] string method = "")
{
bool succeeded = true;
for (var i = 0; i < RetElementCount; i++)
{
if (Helpers.ShiftArithmeticRoundedSaturate(left[i], right[i]) != result[i])
{
succeeded = false;
break;
}
}
if (!succeeded)
{
TestLibrary.TestFramework.LogInformation($"{nameof(AdvSimd)}.{nameof(AdvSimd.ShiftArithmeticRoundedSaturate)}<Int32>(Vector128<Int32>, Vector128<Int32>): {method} failed:");
TestLibrary.TestFramework.LogInformation($" left: ({string.Join(", ", left)})");
TestLibrary.TestFramework.LogInformation($" right: ({string.Join(", ", right)})");
TestLibrary.TestFramework.LogInformation($" result: ({string.Join(", ", result)})");
TestLibrary.TestFramework.LogInformation(string.Empty);
Succeeded = false;
}
}
}
}
| -1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/tests/JIT/Methodical/Invoke/implicit/i4u2.il
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
.assembly extern mscorlib { }
.assembly extern System.Console
{
.publickeytoken = (B0 3F 5F 7F 11 D5 0A 3A )
.ver 4:0:0:0
}
.assembly 'i4u2'
{
// .custom instance void ['mscorlib']System.Diagnostics.DebuggableAttribute::.ctor(bool,
// bool) = ( 01 00 00 01 00 00 )
}
.assembly extern xunit.core {}
// MVID: {37F05BF1-E8CC-42FA-A268-D866F07CFFF8}
.namespace TestCase
{
.class private auto ansi Test
extends ['mscorlib']System.Object
{
.method private hidebysig static int32
compare(unsigned int16 arg1,
unsigned int16 arg2) il managed
{
// Code size 26 (0x1a)
.maxstack 2
.locals (int32 V_0)
IL_0000: ldarg.0
IL_0002: ldarg.1
IL_0004: bge.s IL_000a
IL_0006: ldc.i4.m1
IL_0007: stloc.0
IL_0008: br.s IL_0018
IL_000a: ldarg.0
IL_000c: ldarg.1
IL_000e: ble.s IL_0014
IL_0010: ldc.i4.m1
IL_0011: stloc.0
IL_0012: br.s IL_0018
IL_0014: ldc.i4.0
IL_0015: stloc.0
IL_0016: br.s IL_0018
IL_0018: ldloc.0
IL_0019: ret
} // end of method 'Test::compare'
.method private hidebysig static int32
Main() il managed
{
.custom instance void [xunit.core]Xunit.FactAttribute::.ctor() = (
01 00 00 00
)
.entrypoint
// Code size 39 (0x27)
.maxstack 2
.locals (int32 V_0)
IL_0000: ldc.i4 0x00002
IL_0001: ldc.i4 0x20002
IL_0002: call int32 TestCase.Test::compare(unsigned int16,
unsigned int16)
IL_0007: brfalse.s IL_0017
IL_0009: ldstr "FAILED"
IL_000e: call void [System.Console]System.Console::WriteLine(class System.String)
IL_0013: ldc.i4.1
IL_0014: stloc.0
IL_0015: br.s IL_0025
IL_0017: ldstr "PASSED"
IL_001c: call void [System.Console]System.Console::WriteLine(class System.String)
IL_0021: ldc.i4 0x64
IL_0022: stloc.0
IL_0023: br.s IL_0025
IL_0025: ldloc.0
IL_0026: ret
} // end of method 'Test::Main'
.method public hidebysig specialname rtspecialname
instance void .ctor() il managed
{
// Code size 7 (0x7)
.maxstack 8
IL_0000: ldarg.0
IL_0001: call instance void ['mscorlib']System.Object::.ctor()
IL_0006: ret
} // end of method 'Test::.ctor'
} // end of class 'Test'
} // end of namespace 'TestCase'
//*********** DISASSEMBLY COMPLETE ***********************
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
.assembly extern mscorlib { }
.assembly extern System.Console
{
.publickeytoken = (B0 3F 5F 7F 11 D5 0A 3A )
.ver 4:0:0:0
}
.assembly 'i4u2'
{
// .custom instance void ['mscorlib']System.Diagnostics.DebuggableAttribute::.ctor(bool,
// bool) = ( 01 00 00 01 00 00 )
}
.assembly extern xunit.core {}
// MVID: {37F05BF1-E8CC-42FA-A268-D866F07CFFF8}
.namespace TestCase
{
.class private auto ansi Test
extends ['mscorlib']System.Object
{
.method private hidebysig static int32
compare(unsigned int16 arg1,
unsigned int16 arg2) il managed
{
// Code size 26 (0x1a)
.maxstack 2
.locals (int32 V_0)
IL_0000: ldarg.0
IL_0002: ldarg.1
IL_0004: bge.s IL_000a
IL_0006: ldc.i4.m1
IL_0007: stloc.0
IL_0008: br.s IL_0018
IL_000a: ldarg.0
IL_000c: ldarg.1
IL_000e: ble.s IL_0014
IL_0010: ldc.i4.m1
IL_0011: stloc.0
IL_0012: br.s IL_0018
IL_0014: ldc.i4.0
IL_0015: stloc.0
IL_0016: br.s IL_0018
IL_0018: ldloc.0
IL_0019: ret
} // end of method 'Test::compare'
.method private hidebysig static int32
Main() il managed
{
.custom instance void [xunit.core]Xunit.FactAttribute::.ctor() = (
01 00 00 00
)
.entrypoint
// Code size 39 (0x27)
.maxstack 2
.locals (int32 V_0)
IL_0000: ldc.i4 0x00002
IL_0001: ldc.i4 0x20002
IL_0002: call int32 TestCase.Test::compare(unsigned int16,
unsigned int16)
IL_0007: brfalse.s IL_0017
IL_0009: ldstr "FAILED"
IL_000e: call void [System.Console]System.Console::WriteLine(class System.String)
IL_0013: ldc.i4.1
IL_0014: stloc.0
IL_0015: br.s IL_0025
IL_0017: ldstr "PASSED"
IL_001c: call void [System.Console]System.Console::WriteLine(class System.String)
IL_0021: ldc.i4 0x64
IL_0022: stloc.0
IL_0023: br.s IL_0025
IL_0025: ldloc.0
IL_0026: ret
} // end of method 'Test::Main'
.method public hidebysig specialname rtspecialname
instance void .ctor() il managed
{
// Code size 7 (0x7)
.maxstack 8
IL_0000: ldarg.0
IL_0001: call instance void ['mscorlib']System.Object::.ctor()
IL_0006: ret
} // end of method 'Test::.ctor'
} // end of class 'Test'
} // end of namespace 'TestCase'
//*********** DISASSEMBLY COMPLETE ***********************
| -1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/libraries/Microsoft.Extensions.Logging.Console/src/ConsoleLoggerProcessor.cs
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
using System;
using System.Collections.Concurrent;
using System.Runtime.Versioning;
using System.Threading;
namespace Microsoft.Extensions.Logging.Console
{
[UnsupportedOSPlatform("browser")]
internal class ConsoleLoggerProcessor : IDisposable
{
private const int _maxQueuedMessages = 1024;
private readonly BlockingCollection<LogMessageEntry> _messageQueue = new BlockingCollection<LogMessageEntry>(_maxQueuedMessages);
private readonly Thread _outputThread;
public IConsole Console;
public IConsole ErrorConsole;
public ConsoleLoggerProcessor()
{
// Start Console message queue processor
_outputThread = new Thread(ProcessLogQueue)
{
IsBackground = true,
Name = "Console logger queue processing thread"
};
_outputThread.Start();
}
public virtual void EnqueueMessage(LogMessageEntry message)
{
if (!_messageQueue.IsAddingCompleted)
{
try
{
_messageQueue.Add(message);
return;
}
catch (InvalidOperationException) { }
}
// Adding is completed so just log the message
try
{
WriteMessage(message);
}
catch (Exception) { }
}
// for testing
internal virtual void WriteMessage(LogMessageEntry entry)
{
IConsole console = entry.LogAsError ? ErrorConsole : Console;
console.Write(entry.Message);
}
private void ProcessLogQueue()
{
try
{
foreach (LogMessageEntry message in _messageQueue.GetConsumingEnumerable())
{
WriteMessage(message);
}
}
catch
{
try
{
_messageQueue.CompleteAdding();
}
catch { }
}
}
public void Dispose()
{
_messageQueue.CompleteAdding();
try
{
_outputThread.Join(1500); // with timeout in-case Console is locked by user input
}
catch (ThreadStateException) { }
}
}
}
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
using System;
using System.Collections.Concurrent;
using System.Runtime.Versioning;
using System.Threading;
namespace Microsoft.Extensions.Logging.Console
{
[UnsupportedOSPlatform("browser")]
internal class ConsoleLoggerProcessor : IDisposable
{
private const int _maxQueuedMessages = 1024;
private readonly BlockingCollection<LogMessageEntry> _messageQueue = new BlockingCollection<LogMessageEntry>(_maxQueuedMessages);
private readonly Thread _outputThread;
public IConsole Console;
public IConsole ErrorConsole;
public ConsoleLoggerProcessor()
{
// Start Console message queue processor
_outputThread = new Thread(ProcessLogQueue)
{
IsBackground = true,
Name = "Console logger queue processing thread"
};
_outputThread.Start();
}
public virtual void EnqueueMessage(LogMessageEntry message)
{
if (!_messageQueue.IsAddingCompleted)
{
try
{
_messageQueue.Add(message);
return;
}
catch (InvalidOperationException) { }
}
// Adding is completed so just log the message
try
{
WriteMessage(message);
}
catch (Exception) { }
}
// for testing
internal virtual void WriteMessage(LogMessageEntry entry)
{
IConsole console = entry.LogAsError ? ErrorConsole : Console;
console.Write(entry.Message);
}
private void ProcessLogQueue()
{
try
{
foreach (LogMessageEntry message in _messageQueue.GetConsumingEnumerable())
{
WriteMessage(message);
}
}
catch
{
try
{
_messageQueue.CompleteAdding();
}
catch { }
}
}
public void Dispose()
{
_messageQueue.CompleteAdding();
try
{
_outputThread.Join(1500); // with timeout in-case Console is locked by user input
}
catch (ThreadStateException) { }
}
}
}
| -1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/tests/Interop/IDynamicInterfaceCastable/IDynamicInterfaceCastable.csproj
|
<Project Sdk="Microsoft.NET.Sdk">
<PropertyGroup>
<OutputType>Exe</OutputType>
<DisableProjectBuild Condition="'$(RuntimeFlavor)' == 'mono'">true</DisableProjectBuild>
</PropertyGroup>
<ItemGroup>
<Compile Include="Program.cs" />
</ItemGroup>
<ItemGroup>
<ProjectReference Include="$(TestSourceDir)Common/CoreCLRTestLibrary/CoreCLRTestLibrary.csproj" />
</ItemGroup>
</Project>
|
<Project Sdk="Microsoft.NET.Sdk">
<PropertyGroup>
<OutputType>Exe</OutputType>
<DisableProjectBuild Condition="'$(RuntimeFlavor)' == 'mono'">true</DisableProjectBuild>
</PropertyGroup>
<ItemGroup>
<Compile Include="Program.cs" />
</ItemGroup>
<ItemGroup>
<ProjectReference Include="$(TestSourceDir)Common/CoreCLRTestLibrary/CoreCLRTestLibrary.csproj" />
</ItemGroup>
</Project>
| -1 |
dotnet/runtime
| 66,391 |
[Mono] Intrinsify Vector Dot product and Sum on Arm64
|
Contributes to #64072
|
simonrozsival
| 2022-03-09T13:35:31Z | 2022-03-11T19:38:16Z |
2575ce5f513c8f5cd37f935ba70b87cbd787c8df
|
89469632fe5eee29af5f4bc274c86a1e938d33c8
|
[Mono] Intrinsify Vector Dot product and Sum on Arm64. Contributes to #64072
|
./src/libraries/System.Security.Cryptography/src/System/Security/Cryptography/X509Certificates/Asn1/TimeAsn.xml
|
<?xml version="1.0" encoding="utf-8" ?>
<asn:Choice
xmlns:asn="http://schemas.dot.net/asnxml/201808/"
name="TimeAsn"
namespace="System.Security.Cryptography.X509Certificates.Asn1">
<!--
https://tools.ietf.org/html/rfc5280#section-4.1
Time ::= CHOICE {
utcTime UTCTime,
generalTime GeneralizedTime
}
-->
<asn:UtcTime name="UtcTime" />
<asn:GeneralizedTime name="GeneralTime" omitFractionalSeconds="true"/>
</asn:Choice>
|
<?xml version="1.0" encoding="utf-8" ?>
<asn:Choice
xmlns:asn="http://schemas.dot.net/asnxml/201808/"
name="TimeAsn"
namespace="System.Security.Cryptography.X509Certificates.Asn1">
<!--
https://tools.ietf.org/html/rfc5280#section-4.1
Time ::= CHOICE {
utcTime UTCTime,
generalTime GeneralizedTime
}
-->
<asn:UtcTime name="UtcTime" />
<asn:GeneralizedTime name="GeneralTime" omitFractionalSeconds="true"/>
</asn:Choice>
| -1 |
dotnet/runtime
| 66,381 |
Disable timing out test on mono
|
Fix #66371.
|
eiriktsarpalis
| 2022-03-09T08:35:58Z | 2022-03-10T18:40:15Z |
406d8541926a608ec636b8e4865b4d168273aba3
|
7b71e1bf5c78204a63542a2a8efbfa71723b3d0f
|
Disable timing out test on mono. Fix #66371.
|
./src/libraries/System.Text.Json/tests/System.Text.Json.SourceGeneration.Tests/JsonSerializerContextTests.cs
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
using System.Collections.Generic;
using System.Reflection;
using System.Text.Json.Serialization;
using Microsoft.DotNet.RemoteExecutor;
using Xunit;
namespace System.Text.Json.SourceGeneration.Tests
{
public static partial class JsonSerializerContextTests
{
[Fact]
public static void VariousNestingAndVisibilityLevelsAreSupported()
{
Assert.NotNull(PublicContext.Default);
Assert.NotNull(NestedContext.Default);
Assert.NotNull(NestedPublicContext.Default);
Assert.NotNull(NestedPublicContext.NestedProtectedInternalClass.Default);
}
[ConditionalFact(typeof(RemoteExecutor), nameof(RemoteExecutor.IsSupported))]
public static void Converters_AndTypeInfoCreator_NotRooted_WhenMetadataNotPresent()
{
RemoteExecutor.Invoke(
() =>
{
object[] objArr = new object[] { new MyStruct() };
// Metadata not generated for MyStruct without JsonSerializableAttribute.
NotSupportedException ex = Assert.Throws<NotSupportedException>(
() => JsonSerializer.Serialize(objArr, MetadataContext.Default.ObjectArray));
string exAsStr = ex.ToString();
Assert.Contains(typeof(MyStruct).ToString(), exAsStr);
Assert.Contains("JsonSerializerOptions", exAsStr);
// This test uses reflection to:
// - Access JsonSerializerOptions.s_defaultSimpleConverters
// - Access JsonSerializerOptions.s_defaultFactoryConverters
// - Access JsonSerializerOptions.s_typeInfoCreationFunc
//
// If any of them changes, this test will need to be kept in sync.
// Confirm built-in converters not set.
AssertFieldNull("s_defaultSimpleConverters", optionsInstance: null);
AssertFieldNull("s_defaultFactoryConverters", optionsInstance: null);
// Confirm type info dynamic creator not set.
AssertFieldNull("s_typeInfoCreationFunc", optionsInstance: null);
static void AssertFieldNull(string fieldName, JsonSerializerOptions? optionsInstance)
{
BindingFlags bindingFlags = BindingFlags.NonPublic | (optionsInstance == null ? BindingFlags.Static : BindingFlags.Instance);
FieldInfo fieldInfo = typeof(JsonSerializerOptions).GetField(fieldName, bindingFlags);
Assert.NotNull(fieldInfo);
Assert.Null(fieldInfo.GetValue(optionsInstance));
}
}).Dispose();
}
[Fact]
public static void SupportsPositionalRecords()
{
Person person = new(FirstName: "Jane", LastName: "Doe");
byte[] utf8Json = JsonSerializer.SerializeToUtf8Bytes(person, PersonJsonContext.Default.Person);
person = JsonSerializer.Deserialize<Person>(utf8Json, PersonJsonContext.Default.Person);
Assert.Equal("Jane", person.FirstName);
Assert.Equal("Doe", person.LastName);
}
[JsonSerializable(typeof(JsonMessage))]
internal partial class NestedContext : JsonSerializerContext { }
[JsonSerializable(typeof(JsonMessage))]
public partial class NestedPublicContext : JsonSerializerContext
{
[JsonSerializable(typeof(JsonMessage))]
protected internal partial class NestedProtectedInternalClass : JsonSerializerContext { }
}
internal record Person(string FirstName, string LastName);
[JsonSourceGenerationOptions(
PropertyNamingPolicy = JsonKnownNamingPolicy.CamelCase)]
[JsonSerializable(typeof(Person))]
internal partial class PersonJsonContext : JsonSerializerContext
{
}
// Regression test for https://github.com/dotnet/runtime/issues/62079
[Fact]
public static void SupportsPropertiesWithCustomConverterFactory()
{
var value = new ClassWithCustomConverterFactoryProperty { MyEnum = Serialization.Tests.SampleEnum.MinZero };
string json = JsonSerializer.Serialize(value, SingleClassWithCustomConverterFactoryPropertyContext.Default.ClassWithCustomConverterFactoryProperty);
Assert.Equal(@"{""MyEnum"":""MinZero""}", json);
}
public class ParentClass
{
public ClassWithCustomConverterFactoryProperty? Child { get; set; }
}
[JsonSerializable(typeof(ParentClass))]
internal partial class SingleClassWithCustomConverterFactoryPropertyContext : JsonSerializerContext
{
}
// Regression test for https://github.com/dotnet/runtime/issues/61860
[Fact]
public static void SupportsGenericParameterWithCustomConverterFactory()
{
var value = new List<TestEnum> { TestEnum.Cee };
string json = JsonSerializer.Serialize(value, GenericParameterWithCustomConverterFactoryContext.Default.ListTestEnum);
Assert.Equal(@"[""Cee""]", json);
}
[JsonConverter(typeof(JsonStringEnumConverter))]
public enum TestEnum
{
Aye, Bee, Cee
}
[JsonSerializable(typeof(List<TestEnum>))]
internal partial class GenericParameterWithCustomConverterFactoryContext : JsonSerializerContext
{
}
}
}
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
using System.Collections.Generic;
using System.Reflection;
using System.Text.Json.Serialization;
using Microsoft.DotNet.RemoteExecutor;
using Xunit;
namespace System.Text.Json.SourceGeneration.Tests
{
public static partial class JsonSerializerContextTests
{
[Fact]
public static void VariousNestingAndVisibilityLevelsAreSupported()
{
Assert.NotNull(PublicContext.Default);
Assert.NotNull(NestedContext.Default);
Assert.NotNull(NestedPublicContext.Default);
Assert.NotNull(NestedPublicContext.NestedProtectedInternalClass.Default);
}
[ConditionalFact(typeof(RemoteExecutor), nameof(RemoteExecutor.IsSupported))]
public static void Converters_AndTypeInfoCreator_NotRooted_WhenMetadataNotPresent()
{
RemoteExecutor.Invoke(
static () =>
{
object[] objArr = new object[] { new MyStruct() };
// Metadata not generated for MyStruct without JsonSerializableAttribute.
NotSupportedException ex = Assert.Throws<NotSupportedException>(
() => JsonSerializer.Serialize(objArr, MetadataContext.Default.ObjectArray));
string exAsStr = ex.ToString();
Assert.Contains(typeof(MyStruct).ToString(), exAsStr);
Assert.Contains("JsonSerializerOptions", exAsStr);
// This test uses reflection to:
// - Access JsonSerializerOptions.s_defaultSimpleConverters
// - Access JsonSerializerOptions.s_defaultFactoryConverters
// - Access JsonSerializerOptions.s_typeInfoCreationFunc
//
// If any of them changes, this test will need to be kept in sync.
// Confirm built-in converters not set.
AssertFieldNull("s_defaultSimpleConverters", optionsInstance: null);
AssertFieldNull("s_defaultFactoryConverters", optionsInstance: null);
// Confirm type info dynamic creator not set.
AssertFieldNull("s_typeInfoCreationFunc", optionsInstance: null);
static void AssertFieldNull(string fieldName, JsonSerializerOptions? optionsInstance)
{
BindingFlags bindingFlags = BindingFlags.NonPublic | (optionsInstance == null ? BindingFlags.Static : BindingFlags.Instance);
FieldInfo fieldInfo = typeof(JsonSerializerOptions).GetField(fieldName, bindingFlags);
Assert.NotNull(fieldInfo);
Assert.Null(fieldInfo.GetValue(optionsInstance));
}
}).Dispose();
}
[Fact]
public static void SupportsPositionalRecords()
{
Person person = new(FirstName: "Jane", LastName: "Doe");
byte[] utf8Json = JsonSerializer.SerializeToUtf8Bytes(person, PersonJsonContext.Default.Person);
person = JsonSerializer.Deserialize<Person>(utf8Json, PersonJsonContext.Default.Person);
Assert.Equal("Jane", person.FirstName);
Assert.Equal("Doe", person.LastName);
}
[JsonSerializable(typeof(JsonMessage))]
internal partial class NestedContext : JsonSerializerContext { }
[JsonSerializable(typeof(JsonMessage))]
public partial class NestedPublicContext : JsonSerializerContext
{
[JsonSerializable(typeof(JsonMessage))]
protected internal partial class NestedProtectedInternalClass : JsonSerializerContext { }
}
internal record Person(string FirstName, string LastName);
[JsonSourceGenerationOptions(
PropertyNamingPolicy = JsonKnownNamingPolicy.CamelCase)]
[JsonSerializable(typeof(Person))]
internal partial class PersonJsonContext : JsonSerializerContext
{
}
// Regression test for https://github.com/dotnet/runtime/issues/62079
[Fact]
public static void SupportsPropertiesWithCustomConverterFactory()
{
var value = new ClassWithCustomConverterFactoryProperty { MyEnum = Serialization.Tests.SampleEnum.MinZero };
string json = JsonSerializer.Serialize(value, SingleClassWithCustomConverterFactoryPropertyContext.Default.ClassWithCustomConverterFactoryProperty);
Assert.Equal(@"{""MyEnum"":""MinZero""}", json);
}
public class ParentClass
{
public ClassWithCustomConverterFactoryProperty? Child { get; set; }
}
[JsonSerializable(typeof(ParentClass))]
internal partial class SingleClassWithCustomConverterFactoryPropertyContext : JsonSerializerContext
{
}
// Regression test for https://github.com/dotnet/runtime/issues/61860
[Fact]
public static void SupportsGenericParameterWithCustomConverterFactory()
{
var value = new List<TestEnum> { TestEnum.Cee };
string json = JsonSerializer.Serialize(value, GenericParameterWithCustomConverterFactoryContext.Default.ListTestEnum);
Assert.Equal(@"[""Cee""]", json);
}
[JsonConverter(typeof(JsonStringEnumConverter))]
public enum TestEnum
{
Aye, Bee, Cee
}
[JsonSerializable(typeof(List<TestEnum>))]
internal partial class GenericParameterWithCustomConverterFactoryContext : JsonSerializerContext
{
}
}
}
| 1 |
dotnet/runtime
| 66,381 |
Disable timing out test on mono
|
Fix #66371.
|
eiriktsarpalis
| 2022-03-09T08:35:58Z | 2022-03-10T18:40:15Z |
406d8541926a608ec636b8e4865b4d168273aba3
|
7b71e1bf5c78204a63542a2a8efbfa71723b3d0f
|
Disable timing out test on mono. Fix #66371.
|
./src/libraries/System.Text.Json/tests/System.Text.Json.Tests/Serialization/CacheTests.cs
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
using System.Collections.Generic;
using System.IO;
using System.Linq;
using System.Reflection;
using System.Text.Encodings.Web;
using System.Text.Json.Serialization.Metadata;
using System.Threading.Tasks;
using Xunit;
using Microsoft.DotNet.RemoteExecutor;
namespace System.Text.Json.Serialization.Tests
{
public static class CacheTests
{
[Fact, OuterLoop]
public static async Task MultipleThreads_SameType_DifferentJson_Looping()
{
const int Iterations = 100;
for (int i = 0; i < Iterations; i++)
{
await MultipleThreads_SameType_DifferentJson();
}
}
[Fact]
public static async Task MultipleThreads_SameType_DifferentJson()
{
// Use local options to avoid obtaining already cached metadata from the default options.
var options = new JsonSerializerOptions();
// Verify the test class has >64 properties since that is a threshold for using the fallback dictionary.
Assert.True(typeof(SimpleTestClass).GetProperties(BindingFlags.Instance | BindingFlags.Public).Length > 64);
void DeserializeObjectMinimal()
{
SimpleTestClass obj = JsonSerializer.Deserialize<SimpleTestClass>(@"{""MyDecimal"" : 3.3}", options);
};
void DeserializeObjectFlipped()
{
SimpleTestClass obj = JsonSerializer.Deserialize<SimpleTestClass>(SimpleTestClass.s_json_flipped, options);
obj.Verify();
};
void DeserializeObjectNormal()
{
SimpleTestClass obj = JsonSerializer.Deserialize<SimpleTestClass>(SimpleTestClass.s_json, options);
obj.Verify();
};
void SerializeObject()
{
var obj = new SimpleTestClass();
obj.Initialize();
JsonSerializer.Serialize(obj, options);
};
const int ThreadCount = 8;
const int ConcurrentTestsCount = 4;
Task[] tasks = new Task[ThreadCount * ConcurrentTestsCount];
for (int i = 0; i < tasks.Length; i += ConcurrentTestsCount)
{
// Create race condition to populate the sorted property cache with different json ordering.
tasks[i + 0] = Task.Run(() => DeserializeObjectMinimal());
tasks[i + 1] = Task.Run(() => DeserializeObjectFlipped());
tasks[i + 2] = Task.Run(() => DeserializeObjectNormal());
// Ensure no exceptions on serialization
tasks[i + 3] = Task.Run(() => SerializeObject());
};
await Task.WhenAll(tasks);
}
[Fact, OuterLoop]
public static async Task MultipleThreads_DifferentTypes_Looping()
{
const int Iterations = 100;
for (int i = 0; i < Iterations; i++)
{
await MultipleThreads_DifferentTypes();
}
}
[Fact]
public static async Task MultipleThreads_DifferentTypes()
{
// Use local options to avoid obtaining already cached metadata from the default options.
var options = new JsonSerializerOptions();
const int TestClassCount = 2;
var testObjects = new ITestClass[TestClassCount]
{
new SimpleTestClassWithNulls(),
new SimpleTestClass(),
};
foreach (ITestClass obj in testObjects)
{
obj.Initialize();
}
void Test(int i)
{
Type testClassType = testObjects[i].GetType();
string json = JsonSerializer.Serialize(testObjects[i], testClassType, options);
ITestClass obj = (ITestClass)JsonSerializer.Deserialize(json, testClassType, options);
obj.Verify();
};
const int OuterCount = 12;
Task[] tasks = new Task[OuterCount * TestClassCount];
for (int i = 0; i < tasks.Length; i += TestClassCount)
{
tasks[i + 0] = Task.Run(() => Test(TestClassCount - 1));
tasks[i + 1] = Task.Run(() => Test(TestClassCount - 2));
}
await Task.WhenAll(tasks);
}
[Fact]
public static void PropertyCacheWithMinInputsFirst()
{
// Use local options to avoid obtaining already cached metadata from the default options.
var options = new JsonSerializerOptions();
string json = "{}";
JsonSerializer.Deserialize<SimpleTestClass>(json, options);
SimpleTestClass testObj = new SimpleTestClass();
testObj.Initialize();
testObj.Verify();
json = JsonSerializer.Serialize(testObj, options);
testObj = JsonSerializer.Deserialize<SimpleTestClass>(json, options);
testObj.Verify();
}
[Fact]
public static void PropertyCacheWithMinInputsLast()
{
// Use local options to avoid obtaining already cached metadata from the default options.
var options = new JsonSerializerOptions();
SimpleTestClass testObj = new SimpleTestClass();
testObj.Initialize();
testObj.Verify();
string json = JsonSerializer.Serialize(testObj, options);
testObj = JsonSerializer.Deserialize<SimpleTestClass>(json, options);
testObj.Verify();
json = "{}";
JsonSerializer.Deserialize<SimpleTestClass>(json, options);
}
// Use a common options instance to encourage additional metadata collisions across types. Also since
// this options is not the default options instance the tests will not use previously cached metadata.
private static JsonSerializerOptions s_options = new JsonSerializerOptions { IncludeFields = true };
[Theory]
[MemberData(nameof(WriteSuccessCases))]
public static async Task MultipleTypes(ITestClass testObj)
{
Type type = testObj.GetType();
// Get the test json with the default options to avoid cache pollution of Deserialize() below.
testObj.Initialize();
testObj.Verify();
var options = new JsonSerializerOptions { IncludeFields = true };
string json = JsonSerializer.Serialize(testObj, type, options);
void Serialize()
{
ITestClass localTestObj = (ITestClass)Activator.CreateInstance(type);
localTestObj.Initialize();
localTestObj.Verify();
string json = JsonSerializer.Serialize(localTestObj, type, s_options);
};
void Deserialize()
{
ITestClass obj = (ITestClass)JsonSerializer.Deserialize(json, type, s_options);
obj.Verify();
};
const int ThreadCount = 12;
const int ConcurrentTestsCount = 2;
Task[] tasks = new Task[ThreadCount * ConcurrentTestsCount];
for (int i = 0; i < tasks.Length; i += ConcurrentTestsCount)
{
tasks[i + 0] = Task.Run(() => Deserialize());
tasks[i + 1] = Task.Run(() => Serialize());
};
await Task.WhenAll(tasks);
}
[SkipOnTargetFramework(TargetFrameworkMonikers.NetFramework)]
[ConditionalFact(typeof(RemoteExecutor), nameof(RemoteExecutor.IsSupported))]
public static void JsonSerializerOptionsUpdateHandler_ClearingDoesntPreventSerialization()
{
// This test uses reflection to:
// - Access JsonSerializerOptions._cachingContext.Count
// - Access JsonSerializerOptionsUpdateHandler.ClearCache
//
// If either of them changes, this test will need to be kept in sync.
RemoteExecutor.Invoke(() =>
{
var options = new JsonSerializerOptions();
Func<JsonSerializerOptions, int> getCount = CreateCacheCountAccessor();
Assert.Equal(0, getCount(options));
SimpleTestClass testObj = new SimpleTestClass();
testObj.Initialize();
JsonSerializer.Serialize<SimpleTestClass>(testObj, options);
Assert.NotEqual(0, getCount(options));
Type updateHandler = typeof(JsonSerializerOptions).Assembly.GetType("System.Text.Json.JsonSerializerOptionsUpdateHandler", throwOnError: true, ignoreCase: false);
MethodInfo clearCache = updateHandler.GetMethod("ClearCache");
Assert.NotNull(clearCache);
clearCache.Invoke(null, new object[] { null });
Assert.Equal(0, getCount(options));
JsonSerializer.Serialize<SimpleTestClass>(testObj, options);
Assert.NotEqual(0, getCount(options));
}).Dispose();
static Func<JsonSerializerOptions, int> CreateCacheCountAccessor()
{
FieldInfo cacheField = typeof(JsonSerializerOptions).GetField("_cachingContext", BindingFlags.NonPublic | BindingFlags.Instance);
Assert.NotNull(cacheField);
PropertyInfo countProperty = cacheField.FieldType.GetProperty("Count", BindingFlags.Public | BindingFlags.Instance);
Assert.NotNull(countProperty);
return options =>
{
object? cache = cacheField.GetValue(options);
return cache is null ? 0 : (int)countProperty.GetValue(cache);
};
}
}
[ActiveIssue("https://github.com/dotnet/runtime/issues/66232", TargetFrameworkMonikers.NetFramework)]
[ConditionalFact(typeof(RemoteExecutor), nameof(RemoteExecutor.IsSupported))]
[MemberData(nameof(GetJsonSerializerOptions))]
public static void JsonSerializerOptions_ReuseConverterCaches()
{
// This test uses reflection to:
// - Access JsonSerializerOptions._cachingContext._options
// - Access JsonSerializerOptions.EqualityComparer.AreEquivalent
//
// If either of them changes, this test will need to be kept in sync.
RemoteExecutor.Invoke(static () =>
{
Func<JsonSerializerOptions, JsonSerializerOptions?> getCacheOptions = CreateCacheOptionsAccessor();
IEqualityComparer<JsonSerializerOptions> equalityComparer = CreateEqualityComparerAccessor();
foreach (var args in GetJsonSerializerOptions())
{
var options = (JsonSerializerOptions)args[0];
Assert.Null(getCacheOptions(options));
JsonSerializer.Serialize(42, options);
JsonSerializerOptions originalCacheOptions = getCacheOptions(options);
Assert.NotNull(originalCacheOptions);
Assert.True(equalityComparer.Equals(options, originalCacheOptions));
Assert.Equal(equalityComparer.GetHashCode(options), equalityComparer.GetHashCode(originalCacheOptions));
for (int i = 0; i < 5; i++)
{
var options2 = new JsonSerializerOptions(options);
Assert.Null(getCacheOptions(options2));
JsonSerializer.Serialize(42, options2);
Assert.True(equalityComparer.Equals(options2, originalCacheOptions));
Assert.Equal(equalityComparer.GetHashCode(options2), equalityComparer.GetHashCode(originalCacheOptions));
Assert.Same(originalCacheOptions, getCacheOptions(options2));
}
}
}).Dispose();
static Func<JsonSerializerOptions, JsonSerializerOptions?> CreateCacheOptionsAccessor()
{
FieldInfo cacheField = typeof(JsonSerializerOptions).GetField("_cachingContext", BindingFlags.NonPublic | BindingFlags.Instance);
Assert.NotNull(cacheField);
PropertyInfo optionsField = cacheField.FieldType.GetProperty("Options", BindingFlags.Public | BindingFlags.Instance);
Assert.NotNull(optionsField);
return options =>
{
object? cache = cacheField.GetValue(options);
return cache is null ? null : (JsonSerializerOptions)optionsField.GetValue(cache);
};
}
}
public static IEnumerable<object[]> GetJsonSerializerOptions()
{
yield return new[] { new JsonSerializerOptions() };
yield return new[] { new JsonSerializerOptions(JsonSerializerDefaults.Web) };
yield return new[] { new JsonSerializerOptions { WriteIndented = true } };
yield return new[] { new JsonSerializerOptions { Converters = { new JsonStringEnumConverter() } } };
}
[Fact]
public static void JsonSerializerOptions_EqualityComparer_ChangingAnySettingShouldReturnFalse()
{
// This test uses reflection to:
// - Access JsonSerializerOptions.EqualityComparer.AreEquivalent
// - All public setters in JsonSerializerOptions
//
// If either of them changes, this test will need to be kept in sync.
IEqualityComparer<JsonSerializerOptions> equalityComparer = CreateEqualityComparerAccessor();
(PropertyInfo prop, object value)[] propertySettersAndValues = GetPropertiesWithSettersAndNonDefaultValues().ToArray();
// Ensure we're testing equality for all JsonSerializerOptions settings
foreach (PropertyInfo prop in GetAllPublicPropertiesWithSetters().Except(propertySettersAndValues.Select(x => x.prop)))
{
Assert.Fail($"{nameof(GetPropertiesWithSettersAndNonDefaultValues)} missing property declaration for {prop.Name}, please update the method.");
}
Assert.True(equalityComparer.Equals(JsonSerializerOptions.Default, JsonSerializerOptions.Default));
Assert.Equal(equalityComparer.GetHashCode(JsonSerializerOptions.Default), equalityComparer.GetHashCode(JsonSerializerOptions.Default));
foreach ((PropertyInfo prop, object? value) in propertySettersAndValues)
{
var options = new JsonSerializerOptions();
prop.SetValue(options, value);
Assert.True(equalityComparer.Equals(options, options));
Assert.Equal(equalityComparer.GetHashCode(options), equalityComparer.GetHashCode(options));
Assert.False(equalityComparer.Equals(JsonSerializerOptions.Default, options));
Assert.NotEqual(equalityComparer.GetHashCode(JsonSerializerOptions.Default), equalityComparer.GetHashCode(options));
}
static IEnumerable<(PropertyInfo, object)> GetPropertiesWithSettersAndNonDefaultValues()
{
yield return (GetProp(nameof(JsonSerializerOptions.AllowTrailingCommas)), true);
yield return (GetProp(nameof(JsonSerializerOptions.DefaultBufferSize)), 42);
yield return (GetProp(nameof(JsonSerializerOptions.Encoder)), JavaScriptEncoder.UnsafeRelaxedJsonEscaping);
yield return (GetProp(nameof(JsonSerializerOptions.DictionaryKeyPolicy)), JsonNamingPolicy.CamelCase);
yield return (GetProp(nameof(JsonSerializerOptions.IgnoreNullValues)), true);
yield return (GetProp(nameof(JsonSerializerOptions.DefaultIgnoreCondition)), JsonIgnoreCondition.WhenWritingDefault);
yield return (GetProp(nameof(JsonSerializerOptions.NumberHandling)), JsonNumberHandling.AllowReadingFromString);
yield return (GetProp(nameof(JsonSerializerOptions.IgnoreReadOnlyProperties)), true);
yield return (GetProp(nameof(JsonSerializerOptions.IgnoreReadOnlyFields)), true);
yield return (GetProp(nameof(JsonSerializerOptions.IncludeFields)), true);
yield return (GetProp(nameof(JsonSerializerOptions.MaxDepth)), 11);
yield return (GetProp(nameof(JsonSerializerOptions.PropertyNamingPolicy)), JsonNamingPolicy.CamelCase);
yield return (GetProp(nameof(JsonSerializerOptions.PropertyNameCaseInsensitive)), true);
yield return (GetProp(nameof(JsonSerializerOptions.ReadCommentHandling)), JsonCommentHandling.Skip);
yield return (GetProp(nameof(JsonSerializerOptions.UnknownTypeHandling)), JsonUnknownTypeHandling.JsonNode);
yield return (GetProp(nameof(JsonSerializerOptions.WriteIndented)), true);
yield return (GetProp(nameof(JsonSerializerOptions.ReferenceHandler)), ReferenceHandler.Preserve);
static PropertyInfo GetProp(string name)
{
PropertyInfo property = typeof(JsonSerializerOptions).GetProperty(name, BindingFlags.Public | BindingFlags.Instance);
Assert.True(property.CanWrite);
return property;
}
}
static IEnumerable<PropertyInfo> GetAllPublicPropertiesWithSetters()
=> typeof(JsonSerializerOptions)
.GetProperties(BindingFlags.Public | BindingFlags.Instance)
.Where(p => p.CanWrite);
}
[Fact]
public static void JsonSerializerOptions_EqualityComparer_ApplyingJsonSerializerContextShouldReturnFalse()
{
// This test uses reflection to:
// - Access JsonSerializerOptions.EqualityComparer
//
// If either of them changes, this test will need to be kept in sync.
IEqualityComparer<JsonSerializerOptions> equalityComparer = CreateEqualityComparerAccessor();
var options1 = new JsonSerializerOptions { WriteIndented = true };
var options2 = new JsonSerializerOptions { WriteIndented = true };
Assert.True(equalityComparer.Equals(options1, options2));
Assert.Equal(equalityComparer.GetHashCode(options1), equalityComparer.GetHashCode(options2));
_ = new MyJsonContext(options1); // Associate copy with a JsonSerializerContext
Assert.False(equalityComparer.Equals(options1, options2));
Assert.NotEqual(equalityComparer.GetHashCode(options1), equalityComparer.GetHashCode(options2));
}
private class MyJsonContext : JsonSerializerContext
{
public MyJsonContext(JsonSerializerOptions options) : base(options) { }
public override JsonTypeInfo? GetTypeInfo(Type _) => null;
protected override JsonSerializerOptions? GeneratedSerializerOptions => Options;
}
public static IEqualityComparer<JsonSerializerOptions> CreateEqualityComparerAccessor()
{
Type equalityComparerType = typeof(JsonSerializerOptions).GetNestedType("EqualityComparer", BindingFlags.NonPublic);
Assert.NotNull(equalityComparerType);
return (IEqualityComparer<JsonSerializerOptions>)Activator.CreateInstance(equalityComparerType, nonPublic: true);
}
public static IEnumerable<object[]> WriteSuccessCases
{
get
{
return TestData.WriteSuccessCases;
}
}
}
}
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
using System.Collections.Generic;
using System.IO;
using System.Linq;
using System.Reflection;
using System.Text.Encodings.Web;
using System.Text.Json.Serialization.Metadata;
using System.Threading.Tasks;
using Xunit;
using Microsoft.DotNet.RemoteExecutor;
namespace System.Text.Json.Serialization.Tests
{
public static class CacheTests
{
[Fact, OuterLoop]
public static async Task MultipleThreads_SameType_DifferentJson_Looping()
{
const int Iterations = 100;
for (int i = 0; i < Iterations; i++)
{
await MultipleThreads_SameType_DifferentJson();
}
}
[Fact]
public static async Task MultipleThreads_SameType_DifferentJson()
{
// Use local options to avoid obtaining already cached metadata from the default options.
var options = new JsonSerializerOptions();
// Verify the test class has >64 properties since that is a threshold for using the fallback dictionary.
Assert.True(typeof(SimpleTestClass).GetProperties(BindingFlags.Instance | BindingFlags.Public).Length > 64);
void DeserializeObjectMinimal()
{
SimpleTestClass obj = JsonSerializer.Deserialize<SimpleTestClass>(@"{""MyDecimal"" : 3.3}", options);
};
void DeserializeObjectFlipped()
{
SimpleTestClass obj = JsonSerializer.Deserialize<SimpleTestClass>(SimpleTestClass.s_json_flipped, options);
obj.Verify();
};
void DeserializeObjectNormal()
{
SimpleTestClass obj = JsonSerializer.Deserialize<SimpleTestClass>(SimpleTestClass.s_json, options);
obj.Verify();
};
void SerializeObject()
{
var obj = new SimpleTestClass();
obj.Initialize();
JsonSerializer.Serialize(obj, options);
};
const int ThreadCount = 8;
const int ConcurrentTestsCount = 4;
Task[] tasks = new Task[ThreadCount * ConcurrentTestsCount];
for (int i = 0; i < tasks.Length; i += ConcurrentTestsCount)
{
// Create race condition to populate the sorted property cache with different json ordering.
tasks[i + 0] = Task.Run(() => DeserializeObjectMinimal());
tasks[i + 1] = Task.Run(() => DeserializeObjectFlipped());
tasks[i + 2] = Task.Run(() => DeserializeObjectNormal());
// Ensure no exceptions on serialization
tasks[i + 3] = Task.Run(() => SerializeObject());
};
await Task.WhenAll(tasks);
}
[Fact, OuterLoop]
public static async Task MultipleThreads_DifferentTypes_Looping()
{
const int Iterations = 100;
for (int i = 0; i < Iterations; i++)
{
await MultipleThreads_DifferentTypes();
}
}
[Fact]
public static async Task MultipleThreads_DifferentTypes()
{
// Use local options to avoid obtaining already cached metadata from the default options.
var options = new JsonSerializerOptions();
const int TestClassCount = 2;
var testObjects = new ITestClass[TestClassCount]
{
new SimpleTestClassWithNulls(),
new SimpleTestClass(),
};
foreach (ITestClass obj in testObjects)
{
obj.Initialize();
}
void Test(int i)
{
Type testClassType = testObjects[i].GetType();
string json = JsonSerializer.Serialize(testObjects[i], testClassType, options);
ITestClass obj = (ITestClass)JsonSerializer.Deserialize(json, testClassType, options);
obj.Verify();
};
const int OuterCount = 12;
Task[] tasks = new Task[OuterCount * TestClassCount];
for (int i = 0; i < tasks.Length; i += TestClassCount)
{
tasks[i + 0] = Task.Run(() => Test(TestClassCount - 1));
tasks[i + 1] = Task.Run(() => Test(TestClassCount - 2));
}
await Task.WhenAll(tasks);
}
[Fact]
public static void PropertyCacheWithMinInputsFirst()
{
// Use local options to avoid obtaining already cached metadata from the default options.
var options = new JsonSerializerOptions();
string json = "{}";
JsonSerializer.Deserialize<SimpleTestClass>(json, options);
SimpleTestClass testObj = new SimpleTestClass();
testObj.Initialize();
testObj.Verify();
json = JsonSerializer.Serialize(testObj, options);
testObj = JsonSerializer.Deserialize<SimpleTestClass>(json, options);
testObj.Verify();
}
[Fact]
public static void PropertyCacheWithMinInputsLast()
{
// Use local options to avoid obtaining already cached metadata from the default options.
var options = new JsonSerializerOptions();
SimpleTestClass testObj = new SimpleTestClass();
testObj.Initialize();
testObj.Verify();
string json = JsonSerializer.Serialize(testObj, options);
testObj = JsonSerializer.Deserialize<SimpleTestClass>(json, options);
testObj.Verify();
json = "{}";
JsonSerializer.Deserialize<SimpleTestClass>(json, options);
}
// Use a common options instance to encourage additional metadata collisions across types. Also since
// this options is not the default options instance the tests will not use previously cached metadata.
private static JsonSerializerOptions s_options = new JsonSerializerOptions { IncludeFields = true };
[Theory]
[MemberData(nameof(WriteSuccessCases))]
public static async Task MultipleTypes(ITestClass testObj)
{
Type type = testObj.GetType();
// Get the test json with the default options to avoid cache pollution of Deserialize() below.
testObj.Initialize();
testObj.Verify();
var options = new JsonSerializerOptions { IncludeFields = true };
string json = JsonSerializer.Serialize(testObj, type, options);
void Serialize()
{
ITestClass localTestObj = (ITestClass)Activator.CreateInstance(type);
localTestObj.Initialize();
localTestObj.Verify();
string json = JsonSerializer.Serialize(localTestObj, type, s_options);
};
void Deserialize()
{
ITestClass obj = (ITestClass)JsonSerializer.Deserialize(json, type, s_options);
obj.Verify();
};
const int ThreadCount = 12;
const int ConcurrentTestsCount = 2;
Task[] tasks = new Task[ThreadCount * ConcurrentTestsCount];
for (int i = 0; i < tasks.Length; i += ConcurrentTestsCount)
{
tasks[i + 0] = Task.Run(() => Deserialize());
tasks[i + 1] = Task.Run(() => Serialize());
};
await Task.WhenAll(tasks);
}
[SkipOnTargetFramework(TargetFrameworkMonikers.NetFramework)]
[ConditionalFact(typeof(RemoteExecutor), nameof(RemoteExecutor.IsSupported))]
public static void JsonSerializerOptionsUpdateHandler_ClearingDoesntPreventSerialization()
{
// This test uses reflection to:
// - Access JsonSerializerOptions._cachingContext.Count
// - Access JsonSerializerOptionsUpdateHandler.ClearCache
//
// If either of them changes, this test will need to be kept in sync.
RemoteExecutor.Invoke(static () =>
{
var options = new JsonSerializerOptions();
Func<JsonSerializerOptions, int> getCount = CreateCacheCountAccessor();
Assert.Equal(0, getCount(options));
SimpleTestClass testObj = new SimpleTestClass();
testObj.Initialize();
JsonSerializer.Serialize<SimpleTestClass>(testObj, options);
Assert.NotEqual(0, getCount(options));
Type updateHandler = typeof(JsonSerializerOptions).Assembly.GetType("System.Text.Json.JsonSerializerOptionsUpdateHandler", throwOnError: true, ignoreCase: false);
MethodInfo clearCache = updateHandler.GetMethod("ClearCache");
Assert.NotNull(clearCache);
clearCache.Invoke(null, new object[] { null });
Assert.Equal(0, getCount(options));
JsonSerializer.Serialize<SimpleTestClass>(testObj, options);
Assert.NotEqual(0, getCount(options));
}).Dispose();
static Func<JsonSerializerOptions, int> CreateCacheCountAccessor()
{
FieldInfo cacheField = typeof(JsonSerializerOptions).GetField("_cachingContext", BindingFlags.NonPublic | BindingFlags.Instance);
Assert.NotNull(cacheField);
PropertyInfo countProperty = cacheField.FieldType.GetProperty("Count", BindingFlags.Public | BindingFlags.Instance);
Assert.NotNull(countProperty);
return options =>
{
object? cache = cacheField.GetValue(options);
return cache is null ? 0 : (int)countProperty.GetValue(cache);
};
}
}
[ActiveIssue("https://github.com/dotnet/runtime/issues/66232", TargetFrameworkMonikers.NetFramework)]
[ConditionalFact(typeof(RemoteExecutor), nameof(RemoteExecutor.IsSupported))]
[MemberData(nameof(GetJsonSerializerOptions))]
public static void JsonSerializerOptions_ReuseConverterCaches()
{
// This test uses reflection to:
// - Access JsonSerializerOptions._cachingContext._options
// - Access JsonSerializerOptions.EqualityComparer.AreEquivalent
//
// If either of them changes, this test will need to be kept in sync.
RemoteExecutor.Invoke(static () =>
{
Func<JsonSerializerOptions, JsonSerializerOptions?> getCacheOptions = CreateCacheOptionsAccessor();
IEqualityComparer<JsonSerializerOptions> equalityComparer = CreateEqualityComparerAccessor();
foreach (var args in GetJsonSerializerOptions())
{
var options = (JsonSerializerOptions)args[0];
Assert.Null(getCacheOptions(options));
JsonSerializer.Serialize(42, options);
JsonSerializerOptions originalCacheOptions = getCacheOptions(options);
Assert.NotNull(originalCacheOptions);
Assert.True(equalityComparer.Equals(options, originalCacheOptions));
Assert.Equal(equalityComparer.GetHashCode(options), equalityComparer.GetHashCode(originalCacheOptions));
for (int i = 0; i < 5; i++)
{
var options2 = new JsonSerializerOptions(options);
Assert.Null(getCacheOptions(options2));
JsonSerializer.Serialize(42, options2);
Assert.True(equalityComparer.Equals(options2, originalCacheOptions));
Assert.Equal(equalityComparer.GetHashCode(options2), equalityComparer.GetHashCode(originalCacheOptions));
Assert.Same(originalCacheOptions, getCacheOptions(options2));
}
}
}).Dispose();
static Func<JsonSerializerOptions, JsonSerializerOptions?> CreateCacheOptionsAccessor()
{
FieldInfo cacheField = typeof(JsonSerializerOptions).GetField("_cachingContext", BindingFlags.NonPublic | BindingFlags.Instance);
Assert.NotNull(cacheField);
PropertyInfo optionsField = cacheField.FieldType.GetProperty("Options", BindingFlags.Public | BindingFlags.Instance);
Assert.NotNull(optionsField);
return options =>
{
object? cache = cacheField.GetValue(options);
return cache is null ? null : (JsonSerializerOptions)optionsField.GetValue(cache);
};
}
}
public static IEnumerable<object[]> GetJsonSerializerOptions()
{
yield return new[] { new JsonSerializerOptions() };
yield return new[] { new JsonSerializerOptions(JsonSerializerDefaults.Web) };
yield return new[] { new JsonSerializerOptions { WriteIndented = true } };
yield return new[] { new JsonSerializerOptions { Converters = { new JsonStringEnumConverter() } } };
}
[Fact]
public static void JsonSerializerOptions_EqualityComparer_ChangingAnySettingShouldReturnFalse()
{
// This test uses reflection to:
// - Access JsonSerializerOptions.EqualityComparer.AreEquivalent
// - All public setters in JsonSerializerOptions
//
// If either of them changes, this test will need to be kept in sync.
IEqualityComparer<JsonSerializerOptions> equalityComparer = CreateEqualityComparerAccessor();
(PropertyInfo prop, object value)[] propertySettersAndValues = GetPropertiesWithSettersAndNonDefaultValues().ToArray();
// Ensure we're testing equality for all JsonSerializerOptions settings
foreach (PropertyInfo prop in GetAllPublicPropertiesWithSetters().Except(propertySettersAndValues.Select(x => x.prop)))
{
Assert.Fail($"{nameof(GetPropertiesWithSettersAndNonDefaultValues)} missing property declaration for {prop.Name}, please update the method.");
}
Assert.True(equalityComparer.Equals(JsonSerializerOptions.Default, JsonSerializerOptions.Default));
Assert.Equal(equalityComparer.GetHashCode(JsonSerializerOptions.Default), equalityComparer.GetHashCode(JsonSerializerOptions.Default));
foreach ((PropertyInfo prop, object? value) in propertySettersAndValues)
{
var options = new JsonSerializerOptions();
prop.SetValue(options, value);
Assert.True(equalityComparer.Equals(options, options));
Assert.Equal(equalityComparer.GetHashCode(options), equalityComparer.GetHashCode(options));
Assert.False(equalityComparer.Equals(JsonSerializerOptions.Default, options));
Assert.NotEqual(equalityComparer.GetHashCode(JsonSerializerOptions.Default), equalityComparer.GetHashCode(options));
}
static IEnumerable<(PropertyInfo, object)> GetPropertiesWithSettersAndNonDefaultValues()
{
yield return (GetProp(nameof(JsonSerializerOptions.AllowTrailingCommas)), true);
yield return (GetProp(nameof(JsonSerializerOptions.DefaultBufferSize)), 42);
yield return (GetProp(nameof(JsonSerializerOptions.Encoder)), JavaScriptEncoder.UnsafeRelaxedJsonEscaping);
yield return (GetProp(nameof(JsonSerializerOptions.DictionaryKeyPolicy)), JsonNamingPolicy.CamelCase);
yield return (GetProp(nameof(JsonSerializerOptions.IgnoreNullValues)), true);
yield return (GetProp(nameof(JsonSerializerOptions.DefaultIgnoreCondition)), JsonIgnoreCondition.WhenWritingDefault);
yield return (GetProp(nameof(JsonSerializerOptions.NumberHandling)), JsonNumberHandling.AllowReadingFromString);
yield return (GetProp(nameof(JsonSerializerOptions.IgnoreReadOnlyProperties)), true);
yield return (GetProp(nameof(JsonSerializerOptions.IgnoreReadOnlyFields)), true);
yield return (GetProp(nameof(JsonSerializerOptions.IncludeFields)), true);
yield return (GetProp(nameof(JsonSerializerOptions.MaxDepth)), 11);
yield return (GetProp(nameof(JsonSerializerOptions.PropertyNamingPolicy)), JsonNamingPolicy.CamelCase);
yield return (GetProp(nameof(JsonSerializerOptions.PropertyNameCaseInsensitive)), true);
yield return (GetProp(nameof(JsonSerializerOptions.ReadCommentHandling)), JsonCommentHandling.Skip);
yield return (GetProp(nameof(JsonSerializerOptions.UnknownTypeHandling)), JsonUnknownTypeHandling.JsonNode);
yield return (GetProp(nameof(JsonSerializerOptions.WriteIndented)), true);
yield return (GetProp(nameof(JsonSerializerOptions.ReferenceHandler)), ReferenceHandler.Preserve);
static PropertyInfo GetProp(string name)
{
PropertyInfo property = typeof(JsonSerializerOptions).GetProperty(name, BindingFlags.Public | BindingFlags.Instance);
Assert.True(property.CanWrite);
return property;
}
}
static IEnumerable<PropertyInfo> GetAllPublicPropertiesWithSetters()
=> typeof(JsonSerializerOptions)
.GetProperties(BindingFlags.Public | BindingFlags.Instance)
.Where(p => p.CanWrite);
}
[Fact]
public static void JsonSerializerOptions_EqualityComparer_ApplyingJsonSerializerContextShouldReturnFalse()
{
// This test uses reflection to:
// - Access JsonSerializerOptions.EqualityComparer
//
// If either of them changes, this test will need to be kept in sync.
IEqualityComparer<JsonSerializerOptions> equalityComparer = CreateEqualityComparerAccessor();
var options1 = new JsonSerializerOptions { WriteIndented = true };
var options2 = new JsonSerializerOptions { WriteIndented = true };
Assert.True(equalityComparer.Equals(options1, options2));
Assert.Equal(equalityComparer.GetHashCode(options1), equalityComparer.GetHashCode(options2));
_ = new MyJsonContext(options1); // Associate copy with a JsonSerializerContext
Assert.False(equalityComparer.Equals(options1, options2));
Assert.NotEqual(equalityComparer.GetHashCode(options1), equalityComparer.GetHashCode(options2));
}
private class MyJsonContext : JsonSerializerContext
{
public MyJsonContext(JsonSerializerOptions options) : base(options) { }
public override JsonTypeInfo? GetTypeInfo(Type _) => null;
protected override JsonSerializerOptions? GeneratedSerializerOptions => Options;
}
public static IEqualityComparer<JsonSerializerOptions> CreateEqualityComparerAccessor()
{
Type equalityComparerType = typeof(JsonSerializerOptions).GetNestedType("EqualityComparer", BindingFlags.NonPublic);
Assert.NotNull(equalityComparerType);
return (IEqualityComparer<JsonSerializerOptions>)Activator.CreateInstance(equalityComparerType, nonPublic: true);
}
public static IEnumerable<object[]> WriteSuccessCases
{
get
{
return TestData.WriteSuccessCases;
}
}
}
}
| 1 |
dotnet/runtime
| 66,381 |
Disable timing out test on mono
|
Fix #66371.
|
eiriktsarpalis
| 2022-03-09T08:35:58Z | 2022-03-10T18:40:15Z |
406d8541926a608ec636b8e4865b4d168273aba3
|
7b71e1bf5c78204a63542a2a8efbfa71723b3d0f
|
Disable timing out test on mono. Fix #66371.
|
./src/libraries/System.Text.Json/tests/System.Text.Json.Tests/Serialization/CustomConverterTests/CustomConverterTests.cs
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
using System.Diagnostics;
using System.IO;
using Microsoft.DotNet.RemoteExecutor;
using Xunit;
namespace System.Text.Json.Serialization.Tests
{
public static partial class CustomConverterTests
{
[Fact]
public static void MultipleConvertersInObjectArray()
{
const string expectedJson = @"[""?"",{""TypeDiscriminator"":1,""CreditLimit"":100,""Name"":""C""},null]";
var options = new JsonSerializerOptions();
options.Converters.Add(new MyBoolEnumConverter());
options.Converters.Add(new PersonConverterWithTypeDiscriminator());
Customer customer = new Customer();
customer.CreditLimit = 100;
customer.Name = "C";
MyBoolEnum myBoolEnum = MyBoolEnum.Unknown;
MyBoolEnum? myNullBoolEnum = null;
string json = JsonSerializer.Serialize(new object[] { myBoolEnum, customer, myNullBoolEnum }, options);
Assert.Equal(expectedJson, json);
JsonElement jsonElement = JsonSerializer.Deserialize<JsonElement>(json, options);
string jsonElementString = jsonElement.ToString();
Assert.Equal(expectedJson, jsonElementString);
}
[Fact]
public static void OptionsArePassedToCreateConverter()
{
TestFactory factory = new TestFactory();
JsonSerializerOptions options = new JsonSerializerOptions { Converters = { factory } };
string json = JsonSerializer.Serialize("Test", options);
Assert.Equal(@"""Test""", json);
Assert.Same(options, factory.Options);
}
public class TestFactory : JsonConverterFactory
{
public JsonSerializerOptions Options { get; private set; }
public override bool CanConvert(Type typeToConvert) => true;
public override JsonConverter CreateConverter(Type typeToConvert, JsonSerializerOptions options)
{
Options = options;
return new SimpleConverter();
}
public class SimpleConverter : JsonConverter<string>
{
public override string Read(ref Utf8JsonReader reader, Type typeToConvert, JsonSerializerOptions options)
{
throw new NotImplementedException();
}
public override void Write(Utf8JsonWriter writer, string value, JsonSerializerOptions options)
=> writer.WriteStringValue(value);
}
}
private class ConverterReturningNull : JsonConverter<Customer>
{
public override Customer Read(ref Utf8JsonReader reader, Type typeToConvert, JsonSerializerOptions options)
{
Assert.Equal(JsonTokenType.StartObject, reader.TokenType);
bool rc = reader.Read();
Assert.True(rc);
Assert.Equal(JsonTokenType.EndObject, reader.TokenType);
return null;
}
public override void Write(Utf8JsonWriter writer, Customer value, JsonSerializerOptions options)
{
throw new NotSupportedException();
}
}
[Fact]
public static void VerifyConverterWithTrailingWhitespace()
{
string json = "{} ";
var options = new JsonSerializerOptions();
options.Converters.Add(new ConverterReturningNull());
byte[] utf8 = Encoding.UTF8.GetBytes(json);
// The serializer will finish reading the whitespace and no exception will be thrown.
Customer c = JsonSerializer.Deserialize<Customer>(utf8, options);
Assert.Null(c);
}
[Fact]
public static void VerifyConverterWithTrailingComments()
{
string json = "{} //";
byte[] utf8 = Encoding.UTF8.GetBytes(json);
// Disallow comments
var options = new JsonSerializerOptions();
options.Converters.Add(new ConverterReturningNull());
Assert.Throws<JsonException>(() => JsonSerializer.Deserialize<Customer>(utf8, options));
// Skip comments
options = new JsonSerializerOptions();
options.Converters.Add(new ConverterReturningNull());
options.ReadCommentHandling = JsonCommentHandling.Skip;
Customer c = JsonSerializer.Deserialize<Customer>(utf8, options);
Assert.Null(c);
}
public class ObjectBoolConverter : JsonConverter<object>
{
public override object Read(ref Utf8JsonReader reader, Type typeToConvert, JsonSerializerOptions options)
{
if (reader.TokenType == JsonTokenType.True)
{
return true;
}
if (reader.TokenType == JsonTokenType.False)
{
return false;
}
throw new JsonException();
}
public override void Write(Utf8JsonWriter writer, object value, JsonSerializerOptions options)
{
throw new NotImplementedException();
}
}
[Fact]
public static void VerifyObjectConverterWithPreservedReferences()
{
var json = "true";
byte[] utf8 = Encoding.UTF8.GetBytes(json);
var options = new JsonSerializerOptions()
{
ReferenceHandler = ReferenceHandler.Preserve,
};
options.Converters.Add(new ObjectBoolConverter());
object obj = (JsonSerializer.Deserialize<object>(utf8, options));
Assert.IsType<bool>(obj);
Assert.Equal(true, obj);
}
[Fact]
public static void GetConverterRootsBuiltInConverters()
{
JsonSerializerOptions options = new();
RunTest<DateTime>();
RunTest<Point_2D>();
void RunTest<TConverterReturn>()
{
JsonConverter converter = options.GetConverter(typeof(TConverterReturn));
Assert.NotNull(converter);
Assert.True(converter is JsonConverter<TConverterReturn>);
}
}
[ActiveIssue("https://github.com/dotnet/runtime/issues/66232", TargetFrameworkMonikers.NetFramework)]
[ConditionalFact(typeof(RemoteExecutor), nameof(RemoteExecutor.IsSupported))]
public static void GetConverter_Poco_WriteThrowsNotSupportedException()
{
RemoteExecutor.Invoke(() =>
{
JsonSerializerOptions options = new();
JsonConverter<Point_2D> converter = (JsonConverter<Point_2D>)options.GetConverter(typeof(Point_2D));
using var writer = new Utf8JsonWriter(new MemoryStream());
var value = new Point_2D(0, 0);
// Running the converter without priming the options instance
// for reflection-based serialization should throw NotSupportedException
// since it can't resolve reflection-based metadata.
Assert.Throws<NotSupportedException>(() => converter.Write(writer, value, options));
Debug.Assert(writer.BytesCommitted + writer.BytesPending == 0);
JsonSerializer.Serialize(42, options);
// Same operation should succeed when instance has been primed.
converter.Write(writer, value, options);
Debug.Assert(writer.BytesCommitted + writer.BytesPending > 0);
writer.Reset();
// State change should not leak into unrelated options instances.
var options2 = new JsonSerializerOptions();
options2.AddContext<JsonContext>();
Assert.Throws<NotSupportedException>(() => converter.Write(writer, value, options2));
Debug.Assert(writer.BytesCommitted + writer.BytesPending == 0);
}).Dispose();
}
[Fact]
public static void GetConverterTypeToConvertNull()
{
Assert.Throws<ArgumentNullException>(() => (new JsonSerializerOptions()).GetConverter(typeToConvert: null!));
}
}
}
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
using System.Diagnostics;
using System.IO;
using Microsoft.DotNet.RemoteExecutor;
using Xunit;
namespace System.Text.Json.Serialization.Tests
{
public static partial class CustomConverterTests
{
[Fact]
public static void MultipleConvertersInObjectArray()
{
const string expectedJson = @"[""?"",{""TypeDiscriminator"":1,""CreditLimit"":100,""Name"":""C""},null]";
var options = new JsonSerializerOptions();
options.Converters.Add(new MyBoolEnumConverter());
options.Converters.Add(new PersonConverterWithTypeDiscriminator());
Customer customer = new Customer();
customer.CreditLimit = 100;
customer.Name = "C";
MyBoolEnum myBoolEnum = MyBoolEnum.Unknown;
MyBoolEnum? myNullBoolEnum = null;
string json = JsonSerializer.Serialize(new object[] { myBoolEnum, customer, myNullBoolEnum }, options);
Assert.Equal(expectedJson, json);
JsonElement jsonElement = JsonSerializer.Deserialize<JsonElement>(json, options);
string jsonElementString = jsonElement.ToString();
Assert.Equal(expectedJson, jsonElementString);
}
[Fact]
public static void OptionsArePassedToCreateConverter()
{
TestFactory factory = new TestFactory();
JsonSerializerOptions options = new JsonSerializerOptions { Converters = { factory } };
string json = JsonSerializer.Serialize("Test", options);
Assert.Equal(@"""Test""", json);
Assert.Same(options, factory.Options);
}
public class TestFactory : JsonConverterFactory
{
public JsonSerializerOptions Options { get; private set; }
public override bool CanConvert(Type typeToConvert) => true;
public override JsonConverter CreateConverter(Type typeToConvert, JsonSerializerOptions options)
{
Options = options;
return new SimpleConverter();
}
public class SimpleConverter : JsonConverter<string>
{
public override string Read(ref Utf8JsonReader reader, Type typeToConvert, JsonSerializerOptions options)
{
throw new NotImplementedException();
}
public override void Write(Utf8JsonWriter writer, string value, JsonSerializerOptions options)
=> writer.WriteStringValue(value);
}
}
private class ConverterReturningNull : JsonConverter<Customer>
{
public override Customer Read(ref Utf8JsonReader reader, Type typeToConvert, JsonSerializerOptions options)
{
Assert.Equal(JsonTokenType.StartObject, reader.TokenType);
bool rc = reader.Read();
Assert.True(rc);
Assert.Equal(JsonTokenType.EndObject, reader.TokenType);
return null;
}
public override void Write(Utf8JsonWriter writer, Customer value, JsonSerializerOptions options)
{
throw new NotSupportedException();
}
}
[Fact]
public static void VerifyConverterWithTrailingWhitespace()
{
string json = "{} ";
var options = new JsonSerializerOptions();
options.Converters.Add(new ConverterReturningNull());
byte[] utf8 = Encoding.UTF8.GetBytes(json);
// The serializer will finish reading the whitespace and no exception will be thrown.
Customer c = JsonSerializer.Deserialize<Customer>(utf8, options);
Assert.Null(c);
}
[Fact]
public static void VerifyConverterWithTrailingComments()
{
string json = "{} //";
byte[] utf8 = Encoding.UTF8.GetBytes(json);
// Disallow comments
var options = new JsonSerializerOptions();
options.Converters.Add(new ConverterReturningNull());
Assert.Throws<JsonException>(() => JsonSerializer.Deserialize<Customer>(utf8, options));
// Skip comments
options = new JsonSerializerOptions();
options.Converters.Add(new ConverterReturningNull());
options.ReadCommentHandling = JsonCommentHandling.Skip;
Customer c = JsonSerializer.Deserialize<Customer>(utf8, options);
Assert.Null(c);
}
public class ObjectBoolConverter : JsonConverter<object>
{
public override object Read(ref Utf8JsonReader reader, Type typeToConvert, JsonSerializerOptions options)
{
if (reader.TokenType == JsonTokenType.True)
{
return true;
}
if (reader.TokenType == JsonTokenType.False)
{
return false;
}
throw new JsonException();
}
public override void Write(Utf8JsonWriter writer, object value, JsonSerializerOptions options)
{
throw new NotImplementedException();
}
}
[Fact]
public static void VerifyObjectConverterWithPreservedReferences()
{
var json = "true";
byte[] utf8 = Encoding.UTF8.GetBytes(json);
var options = new JsonSerializerOptions()
{
ReferenceHandler = ReferenceHandler.Preserve,
};
options.Converters.Add(new ObjectBoolConverter());
object obj = (JsonSerializer.Deserialize<object>(utf8, options));
Assert.IsType<bool>(obj);
Assert.Equal(true, obj);
}
[Fact]
public static void GetConverterRootsBuiltInConverters()
{
JsonSerializerOptions options = new();
RunTest<DateTime>();
RunTest<Point_2D>();
void RunTest<TConverterReturn>()
{
JsonConverter converter = options.GetConverter(typeof(TConverterReturn));
Assert.NotNull(converter);
Assert.True(converter is JsonConverter<TConverterReturn>);
}
}
[ActiveIssue("https://github.com/dotnet/runtime/issues/66232", TargetFrameworkMonikers.NetFramework)]
[ActiveIssue("https://github.com/dotnet/runtime/issues/66371", typeof(PlatformDetection), nameof(PlatformDetection.IsMonoInterpreter))]
[ConditionalFact(typeof(RemoteExecutor), nameof(RemoteExecutor.IsSupported))]
public static void GetConverter_Poco_WriteThrowsNotSupportedException()
{
RemoteExecutor.Invoke(static () =>
{
JsonSerializerOptions options = new();
JsonConverter<Point_2D> converter = (JsonConverter<Point_2D>)options.GetConverter(typeof(Point_2D));
using var writer = new Utf8JsonWriter(new MemoryStream());
var value = new Point_2D(0, 0);
// Running the converter without priming the options instance
// for reflection-based serialization should throw NotSupportedException
// since it can't resolve reflection-based metadata.
Assert.Throws<NotSupportedException>(() => converter.Write(writer, value, options));
Debug.Assert(writer.BytesCommitted + writer.BytesPending == 0);
JsonSerializer.Serialize(42, options);
// Same operation should succeed when instance has been primed.
converter.Write(writer, value, options);
Debug.Assert(writer.BytesCommitted + writer.BytesPending > 0);
writer.Reset();
// State change should not leak into unrelated options instances.
var options2 = new JsonSerializerOptions();
options2.AddContext<JsonContext>();
Assert.Throws<NotSupportedException>(() => converter.Write(writer, value, options2));
Debug.Assert(writer.BytesCommitted + writer.BytesPending == 0);
}).Dispose();
}
[Fact]
public static void GetConverterTypeToConvertNull()
{
Assert.Throws<ArgumentNullException>(() => (new JsonSerializerOptions()).GetConverter(typeToConvert: null!));
}
}
}
| 1 |
dotnet/runtime
| 66,381 |
Disable timing out test on mono
|
Fix #66371.
|
eiriktsarpalis
| 2022-03-09T08:35:58Z | 2022-03-10T18:40:15Z |
406d8541926a608ec636b8e4865b4d168273aba3
|
7b71e1bf5c78204a63542a2a8efbfa71723b3d0f
|
Disable timing out test on mono. Fix #66371.
|
./src/tests/JIT/HardwareIntrinsics/Arm/AdvSimd/ShiftLogicalSaturate.Vector64.UInt32.cs
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
/******************************************************************************
* This file is auto-generated from a template file by the GenerateTests.csx *
* script in tests\src\JIT\HardwareIntrinsics.Arm\Shared. In order to make *
* changes, please update the corresponding template and run according to the *
* directions listed in the file. *
******************************************************************************/
using System;
using System.Runtime.CompilerServices;
using System.Runtime.InteropServices;
using System.Runtime.Intrinsics;
using System.Runtime.Intrinsics.Arm;
namespace JIT.HardwareIntrinsics.Arm
{
public static partial class Program
{
private static void ShiftLogicalSaturate_Vector64_UInt32()
{
var test = new SimpleBinaryOpTest__ShiftLogicalSaturate_Vector64_UInt32();
if (test.IsSupported)
{
// Validates basic functionality works, using Unsafe.Read
test.RunBasicScenario_UnsafeRead();
if (AdvSimd.IsSupported)
{
// Validates basic functionality works, using Load
test.RunBasicScenario_Load();
}
// Validates calling via reflection works, using Unsafe.Read
test.RunReflectionScenario_UnsafeRead();
if (AdvSimd.IsSupported)
{
// Validates calling via reflection works, using Load
test.RunReflectionScenario_Load();
}
// Validates passing a static member works
test.RunClsVarScenario();
if (AdvSimd.IsSupported)
{
// Validates passing a static member works, using pinning and Load
test.RunClsVarScenario_Load();
}
// Validates passing a local works, using Unsafe.Read
test.RunLclVarScenario_UnsafeRead();
if (AdvSimd.IsSupported)
{
// Validates passing a local works, using Load
test.RunLclVarScenario_Load();
}
// Validates passing the field of a local class works
test.RunClassLclFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing the field of a local class works, using pinning and Load
test.RunClassLclFldScenario_Load();
}
// Validates passing an instance member of a class works
test.RunClassFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing an instance member of a class works, using pinning and Load
test.RunClassFldScenario_Load();
}
// Validates passing the field of a local struct works
test.RunStructLclFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing the field of a local struct works, using pinning and Load
test.RunStructLclFldScenario_Load();
}
// Validates passing an instance member of a struct works
test.RunStructFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing an instance member of a struct works, using pinning and Load
test.RunStructFldScenario_Load();
}
}
else
{
// Validates we throw on unsupported hardware
test.RunUnsupportedScenario();
}
if (!test.Succeeded)
{
throw new Exception("One or more scenarios did not complete as expected.");
}
}
}
public sealed unsafe class SimpleBinaryOpTest__ShiftLogicalSaturate_Vector64_UInt32
{
private struct DataTable
{
private byte[] inArray1;
private byte[] inArray2;
private byte[] outArray;
private GCHandle inHandle1;
private GCHandle inHandle2;
private GCHandle outHandle;
private ulong alignment;
public DataTable(UInt32[] inArray1, Int32[] inArray2, UInt32[] outArray, int alignment)
{
int sizeOfinArray1 = inArray1.Length * Unsafe.SizeOf<UInt32>();
int sizeOfinArray2 = inArray2.Length * Unsafe.SizeOf<Int32>();
int sizeOfoutArray = outArray.Length * Unsafe.SizeOf<UInt32>();
if ((alignment != 16 && alignment != 8) || (alignment * 2) < sizeOfinArray1 || (alignment * 2) < sizeOfinArray2 || (alignment * 2) < sizeOfoutArray)
{
throw new ArgumentException("Invalid value of alignment");
}
this.inArray1 = new byte[alignment * 2];
this.inArray2 = new byte[alignment * 2];
this.outArray = new byte[alignment * 2];
this.inHandle1 = GCHandle.Alloc(this.inArray1, GCHandleType.Pinned);
this.inHandle2 = GCHandle.Alloc(this.inArray2, GCHandleType.Pinned);
this.outHandle = GCHandle.Alloc(this.outArray, GCHandleType.Pinned);
this.alignment = (ulong)alignment;
Unsafe.CopyBlockUnaligned(ref Unsafe.AsRef<byte>(inArray1Ptr), ref Unsafe.As<UInt32, byte>(ref inArray1[0]), (uint)sizeOfinArray1);
Unsafe.CopyBlockUnaligned(ref Unsafe.AsRef<byte>(inArray2Ptr), ref Unsafe.As<Int32, byte>(ref inArray2[0]), (uint)sizeOfinArray2);
}
public void* inArray1Ptr => Align((byte*)(inHandle1.AddrOfPinnedObject().ToPointer()), alignment);
public void* inArray2Ptr => Align((byte*)(inHandle2.AddrOfPinnedObject().ToPointer()), alignment);
public void* outArrayPtr => Align((byte*)(outHandle.AddrOfPinnedObject().ToPointer()), alignment);
public void Dispose()
{
inHandle1.Free();
inHandle2.Free();
outHandle.Free();
}
private static unsafe void* Align(byte* buffer, ulong expectedAlignment)
{
return (void*)(((ulong)buffer + expectedAlignment - 1) & ~(expectedAlignment - 1));
}
}
private struct TestStruct
{
public Vector64<UInt32> _fld1;
public Vector64<Int32> _fld2;
public static TestStruct Create()
{
var testStruct = new TestStruct();
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetUInt32(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector64<UInt32>, byte>(ref testStruct._fld1), ref Unsafe.As<UInt32, byte>(ref _data1[0]), (uint)Unsafe.SizeOf<Vector64<UInt32>>());
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetInt32(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector64<Int32>, byte>(ref testStruct._fld2), ref Unsafe.As<Int32, byte>(ref _data2[0]), (uint)Unsafe.SizeOf<Vector64<Int32>>());
return testStruct;
}
public void RunStructFldScenario(SimpleBinaryOpTest__ShiftLogicalSaturate_Vector64_UInt32 testClass)
{
var result = AdvSimd.ShiftLogicalSaturate(_fld1, _fld2);
Unsafe.Write(testClass._dataTable.outArrayPtr, result);
testClass.ValidateResult(_fld1, _fld2, testClass._dataTable.outArrayPtr);
}
public void RunStructFldScenario_Load(SimpleBinaryOpTest__ShiftLogicalSaturate_Vector64_UInt32 testClass)
{
fixed (Vector64<UInt32>* pFld1 = &_fld1)
fixed (Vector64<Int32>* pFld2 = &_fld2)
{
var result = AdvSimd.ShiftLogicalSaturate(
AdvSimd.LoadVector64((UInt32*)(pFld1)),
AdvSimd.LoadVector64((Int32*)(pFld2))
);
Unsafe.Write(testClass._dataTable.outArrayPtr, result);
testClass.ValidateResult(_fld1, _fld2, testClass._dataTable.outArrayPtr);
}
}
}
private static readonly int LargestVectorSize = 8;
private static readonly int Op1ElementCount = Unsafe.SizeOf<Vector64<UInt32>>() / sizeof(UInt32);
private static readonly int Op2ElementCount = Unsafe.SizeOf<Vector64<Int32>>() / sizeof(Int32);
private static readonly int RetElementCount = Unsafe.SizeOf<Vector64<UInt32>>() / sizeof(UInt32);
private static UInt32[] _data1 = new UInt32[Op1ElementCount];
private static Int32[] _data2 = new Int32[Op2ElementCount];
private static Vector64<UInt32> _clsVar1;
private static Vector64<Int32> _clsVar2;
private Vector64<UInt32> _fld1;
private Vector64<Int32> _fld2;
private DataTable _dataTable;
static SimpleBinaryOpTest__ShiftLogicalSaturate_Vector64_UInt32()
{
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetUInt32(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector64<UInt32>, byte>(ref _clsVar1), ref Unsafe.As<UInt32, byte>(ref _data1[0]), (uint)Unsafe.SizeOf<Vector64<UInt32>>());
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetInt32(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector64<Int32>, byte>(ref _clsVar2), ref Unsafe.As<Int32, byte>(ref _data2[0]), (uint)Unsafe.SizeOf<Vector64<Int32>>());
}
public SimpleBinaryOpTest__ShiftLogicalSaturate_Vector64_UInt32()
{
Succeeded = true;
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetUInt32(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector64<UInt32>, byte>(ref _fld1), ref Unsafe.As<UInt32, byte>(ref _data1[0]), (uint)Unsafe.SizeOf<Vector64<UInt32>>());
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetInt32(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector64<Int32>, byte>(ref _fld2), ref Unsafe.As<Int32, byte>(ref _data2[0]), (uint)Unsafe.SizeOf<Vector64<Int32>>());
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetUInt32(); }
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetInt32(); }
_dataTable = new DataTable(_data1, _data2, new UInt32[RetElementCount], LargestVectorSize);
}
public bool IsSupported => AdvSimd.IsSupported;
public bool Succeeded { get; set; }
public void RunBasicScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunBasicScenario_UnsafeRead));
var result = AdvSimd.ShiftLogicalSaturate(
Unsafe.Read<Vector64<UInt32>>(_dataTable.inArray1Ptr),
Unsafe.Read<Vector64<Int32>>(_dataTable.inArray2Ptr)
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunBasicScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunBasicScenario_Load));
var result = AdvSimd.ShiftLogicalSaturate(
AdvSimd.LoadVector64((UInt32*)(_dataTable.inArray1Ptr)),
AdvSimd.LoadVector64((Int32*)(_dataTable.inArray2Ptr))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunReflectionScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunReflectionScenario_UnsafeRead));
var result = typeof(AdvSimd).GetMethod(nameof(AdvSimd.ShiftLogicalSaturate), new Type[] { typeof(Vector64<UInt32>), typeof(Vector64<Int32>) })
.Invoke(null, new object[] {
Unsafe.Read<Vector64<UInt32>>(_dataTable.inArray1Ptr),
Unsafe.Read<Vector64<Int32>>(_dataTable.inArray2Ptr)
});
Unsafe.Write(_dataTable.outArrayPtr, (Vector64<UInt32>)(result));
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunReflectionScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunReflectionScenario_Load));
var result = typeof(AdvSimd).GetMethod(nameof(AdvSimd.ShiftLogicalSaturate), new Type[] { typeof(Vector64<UInt32>), typeof(Vector64<Int32>) })
.Invoke(null, new object[] {
AdvSimd.LoadVector64((UInt32*)(_dataTable.inArray1Ptr)),
AdvSimd.LoadVector64((Int32*)(_dataTable.inArray2Ptr))
});
Unsafe.Write(_dataTable.outArrayPtr, (Vector64<UInt32>)(result));
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunClsVarScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClsVarScenario));
var result = AdvSimd.ShiftLogicalSaturate(
_clsVar1,
_clsVar2
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_clsVar1, _clsVar2, _dataTable.outArrayPtr);
}
public void RunClsVarScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClsVarScenario_Load));
fixed (Vector64<UInt32>* pClsVar1 = &_clsVar1)
fixed (Vector64<Int32>* pClsVar2 = &_clsVar2)
{
var result = AdvSimd.ShiftLogicalSaturate(
AdvSimd.LoadVector64((UInt32*)(pClsVar1)),
AdvSimd.LoadVector64((Int32*)(pClsVar2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_clsVar1, _clsVar2, _dataTable.outArrayPtr);
}
}
public void RunLclVarScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunLclVarScenario_UnsafeRead));
var op1 = Unsafe.Read<Vector64<UInt32>>(_dataTable.inArray1Ptr);
var op2 = Unsafe.Read<Vector64<Int32>>(_dataTable.inArray2Ptr);
var result = AdvSimd.ShiftLogicalSaturate(op1, op2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(op1, op2, _dataTable.outArrayPtr);
}
public void RunLclVarScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunLclVarScenario_Load));
var op1 = AdvSimd.LoadVector64((UInt32*)(_dataTable.inArray1Ptr));
var op2 = AdvSimd.LoadVector64((Int32*)(_dataTable.inArray2Ptr));
var result = AdvSimd.ShiftLogicalSaturate(op1, op2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(op1, op2, _dataTable.outArrayPtr);
}
public void RunClassLclFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassLclFldScenario));
var test = new SimpleBinaryOpTest__ShiftLogicalSaturate_Vector64_UInt32();
var result = AdvSimd.ShiftLogicalSaturate(test._fld1, test._fld2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
public void RunClassLclFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassLclFldScenario_Load));
var test = new SimpleBinaryOpTest__ShiftLogicalSaturate_Vector64_UInt32();
fixed (Vector64<UInt32>* pFld1 = &test._fld1)
fixed (Vector64<Int32>* pFld2 = &test._fld2)
{
var result = AdvSimd.ShiftLogicalSaturate(
AdvSimd.LoadVector64((UInt32*)(pFld1)),
AdvSimd.LoadVector64((Int32*)(pFld2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
}
public void RunClassFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassFldScenario));
var result = AdvSimd.ShiftLogicalSaturate(_fld1, _fld2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_fld1, _fld2, _dataTable.outArrayPtr);
}
public void RunClassFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassFldScenario_Load));
fixed (Vector64<UInt32>* pFld1 = &_fld1)
fixed (Vector64<Int32>* pFld2 = &_fld2)
{
var result = AdvSimd.ShiftLogicalSaturate(
AdvSimd.LoadVector64((UInt32*)(pFld1)),
AdvSimd.LoadVector64((Int32*)(pFld2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_fld1, _fld2, _dataTable.outArrayPtr);
}
}
public void RunStructLclFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructLclFldScenario));
var test = TestStruct.Create();
var result = AdvSimd.ShiftLogicalSaturate(test._fld1, test._fld2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
public void RunStructLclFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructLclFldScenario_Load));
var test = TestStruct.Create();
var result = AdvSimd.ShiftLogicalSaturate(
AdvSimd.LoadVector64((UInt32*)(&test._fld1)),
AdvSimd.LoadVector64((Int32*)(&test._fld2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
public void RunStructFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructFldScenario));
var test = TestStruct.Create();
test.RunStructFldScenario(this);
}
public void RunStructFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructFldScenario_Load));
var test = TestStruct.Create();
test.RunStructFldScenario_Load(this);
}
public void RunUnsupportedScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunUnsupportedScenario));
bool succeeded = false;
try
{
RunBasicScenario_UnsafeRead();
}
catch (PlatformNotSupportedException)
{
succeeded = true;
}
if (!succeeded)
{
Succeeded = false;
}
}
private void ValidateResult(Vector64<UInt32> op1, Vector64<Int32> op2, void* result, [CallerMemberName] string method = "")
{
UInt32[] inArray1 = new UInt32[Op1ElementCount];
Int32[] inArray2 = new Int32[Op2ElementCount];
UInt32[] outArray = new UInt32[RetElementCount];
Unsafe.WriteUnaligned(ref Unsafe.As<UInt32, byte>(ref inArray1[0]), op1);
Unsafe.WriteUnaligned(ref Unsafe.As<Int32, byte>(ref inArray2[0]), op2);
Unsafe.CopyBlockUnaligned(ref Unsafe.As<UInt32, byte>(ref outArray[0]), ref Unsafe.AsRef<byte>(result), (uint)Unsafe.SizeOf<Vector64<UInt32>>());
ValidateResult(inArray1, inArray2, outArray, method);
}
private void ValidateResult(void* op1, void* op2, void* result, [CallerMemberName] string method = "")
{
UInt32[] inArray1 = new UInt32[Op1ElementCount];
Int32[] inArray2 = new Int32[Op2ElementCount];
UInt32[] outArray = new UInt32[RetElementCount];
Unsafe.CopyBlockUnaligned(ref Unsafe.As<UInt32, byte>(ref inArray1[0]), ref Unsafe.AsRef<byte>(op1), (uint)Unsafe.SizeOf<Vector64<UInt32>>());
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Int32, byte>(ref inArray2[0]), ref Unsafe.AsRef<byte>(op2), (uint)Unsafe.SizeOf<Vector64<Int32>>());
Unsafe.CopyBlockUnaligned(ref Unsafe.As<UInt32, byte>(ref outArray[0]), ref Unsafe.AsRef<byte>(result), (uint)Unsafe.SizeOf<Vector64<UInt32>>());
ValidateResult(inArray1, inArray2, outArray, method);
}
private void ValidateResult(UInt32[] left, Int32[] right, UInt32[] result, [CallerMemberName] string method = "")
{
bool succeeded = true;
for (var i = 0; i < RetElementCount; i++)
{
if (Helpers.ShiftLogicalSaturate(left[i], right[i]) != result[i])
{
succeeded = false;
break;
}
}
if (!succeeded)
{
TestLibrary.TestFramework.LogInformation($"{nameof(AdvSimd)}.{nameof(AdvSimd.ShiftLogicalSaturate)}<UInt32>(Vector64<UInt32>, Vector64<Int32>): {method} failed:");
TestLibrary.TestFramework.LogInformation($" left: ({string.Join(", ", left)})");
TestLibrary.TestFramework.LogInformation($" right: ({string.Join(", ", right)})");
TestLibrary.TestFramework.LogInformation($" result: ({string.Join(", ", result)})");
TestLibrary.TestFramework.LogInformation(string.Empty);
Succeeded = false;
}
}
}
}
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
/******************************************************************************
* This file is auto-generated from a template file by the GenerateTests.csx *
* script in tests\src\JIT\HardwareIntrinsics.Arm\Shared. In order to make *
* changes, please update the corresponding template and run according to the *
* directions listed in the file. *
******************************************************************************/
using System;
using System.Runtime.CompilerServices;
using System.Runtime.InteropServices;
using System.Runtime.Intrinsics;
using System.Runtime.Intrinsics.Arm;
namespace JIT.HardwareIntrinsics.Arm
{
public static partial class Program
{
private static void ShiftLogicalSaturate_Vector64_UInt32()
{
var test = new SimpleBinaryOpTest__ShiftLogicalSaturate_Vector64_UInt32();
if (test.IsSupported)
{
// Validates basic functionality works, using Unsafe.Read
test.RunBasicScenario_UnsafeRead();
if (AdvSimd.IsSupported)
{
// Validates basic functionality works, using Load
test.RunBasicScenario_Load();
}
// Validates calling via reflection works, using Unsafe.Read
test.RunReflectionScenario_UnsafeRead();
if (AdvSimd.IsSupported)
{
// Validates calling via reflection works, using Load
test.RunReflectionScenario_Load();
}
// Validates passing a static member works
test.RunClsVarScenario();
if (AdvSimd.IsSupported)
{
// Validates passing a static member works, using pinning and Load
test.RunClsVarScenario_Load();
}
// Validates passing a local works, using Unsafe.Read
test.RunLclVarScenario_UnsafeRead();
if (AdvSimd.IsSupported)
{
// Validates passing a local works, using Load
test.RunLclVarScenario_Load();
}
// Validates passing the field of a local class works
test.RunClassLclFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing the field of a local class works, using pinning and Load
test.RunClassLclFldScenario_Load();
}
// Validates passing an instance member of a class works
test.RunClassFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing an instance member of a class works, using pinning and Load
test.RunClassFldScenario_Load();
}
// Validates passing the field of a local struct works
test.RunStructLclFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing the field of a local struct works, using pinning and Load
test.RunStructLclFldScenario_Load();
}
// Validates passing an instance member of a struct works
test.RunStructFldScenario();
if (AdvSimd.IsSupported)
{
// Validates passing an instance member of a struct works, using pinning and Load
test.RunStructFldScenario_Load();
}
}
else
{
// Validates we throw on unsupported hardware
test.RunUnsupportedScenario();
}
if (!test.Succeeded)
{
throw new Exception("One or more scenarios did not complete as expected.");
}
}
}
public sealed unsafe class SimpleBinaryOpTest__ShiftLogicalSaturate_Vector64_UInt32
{
private struct DataTable
{
private byte[] inArray1;
private byte[] inArray2;
private byte[] outArray;
private GCHandle inHandle1;
private GCHandle inHandle2;
private GCHandle outHandle;
private ulong alignment;
public DataTable(UInt32[] inArray1, Int32[] inArray2, UInt32[] outArray, int alignment)
{
int sizeOfinArray1 = inArray1.Length * Unsafe.SizeOf<UInt32>();
int sizeOfinArray2 = inArray2.Length * Unsafe.SizeOf<Int32>();
int sizeOfoutArray = outArray.Length * Unsafe.SizeOf<UInt32>();
if ((alignment != 16 && alignment != 8) || (alignment * 2) < sizeOfinArray1 || (alignment * 2) < sizeOfinArray2 || (alignment * 2) < sizeOfoutArray)
{
throw new ArgumentException("Invalid value of alignment");
}
this.inArray1 = new byte[alignment * 2];
this.inArray2 = new byte[alignment * 2];
this.outArray = new byte[alignment * 2];
this.inHandle1 = GCHandle.Alloc(this.inArray1, GCHandleType.Pinned);
this.inHandle2 = GCHandle.Alloc(this.inArray2, GCHandleType.Pinned);
this.outHandle = GCHandle.Alloc(this.outArray, GCHandleType.Pinned);
this.alignment = (ulong)alignment;
Unsafe.CopyBlockUnaligned(ref Unsafe.AsRef<byte>(inArray1Ptr), ref Unsafe.As<UInt32, byte>(ref inArray1[0]), (uint)sizeOfinArray1);
Unsafe.CopyBlockUnaligned(ref Unsafe.AsRef<byte>(inArray2Ptr), ref Unsafe.As<Int32, byte>(ref inArray2[0]), (uint)sizeOfinArray2);
}
public void* inArray1Ptr => Align((byte*)(inHandle1.AddrOfPinnedObject().ToPointer()), alignment);
public void* inArray2Ptr => Align((byte*)(inHandle2.AddrOfPinnedObject().ToPointer()), alignment);
public void* outArrayPtr => Align((byte*)(outHandle.AddrOfPinnedObject().ToPointer()), alignment);
public void Dispose()
{
inHandle1.Free();
inHandle2.Free();
outHandle.Free();
}
private static unsafe void* Align(byte* buffer, ulong expectedAlignment)
{
return (void*)(((ulong)buffer + expectedAlignment - 1) & ~(expectedAlignment - 1));
}
}
private struct TestStruct
{
public Vector64<UInt32> _fld1;
public Vector64<Int32> _fld2;
public static TestStruct Create()
{
var testStruct = new TestStruct();
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetUInt32(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector64<UInt32>, byte>(ref testStruct._fld1), ref Unsafe.As<UInt32, byte>(ref _data1[0]), (uint)Unsafe.SizeOf<Vector64<UInt32>>());
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetInt32(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector64<Int32>, byte>(ref testStruct._fld2), ref Unsafe.As<Int32, byte>(ref _data2[0]), (uint)Unsafe.SizeOf<Vector64<Int32>>());
return testStruct;
}
public void RunStructFldScenario(SimpleBinaryOpTest__ShiftLogicalSaturate_Vector64_UInt32 testClass)
{
var result = AdvSimd.ShiftLogicalSaturate(_fld1, _fld2);
Unsafe.Write(testClass._dataTable.outArrayPtr, result);
testClass.ValidateResult(_fld1, _fld2, testClass._dataTable.outArrayPtr);
}
public void RunStructFldScenario_Load(SimpleBinaryOpTest__ShiftLogicalSaturate_Vector64_UInt32 testClass)
{
fixed (Vector64<UInt32>* pFld1 = &_fld1)
fixed (Vector64<Int32>* pFld2 = &_fld2)
{
var result = AdvSimd.ShiftLogicalSaturate(
AdvSimd.LoadVector64((UInt32*)(pFld1)),
AdvSimd.LoadVector64((Int32*)(pFld2))
);
Unsafe.Write(testClass._dataTable.outArrayPtr, result);
testClass.ValidateResult(_fld1, _fld2, testClass._dataTable.outArrayPtr);
}
}
}
private static readonly int LargestVectorSize = 8;
private static readonly int Op1ElementCount = Unsafe.SizeOf<Vector64<UInt32>>() / sizeof(UInt32);
private static readonly int Op2ElementCount = Unsafe.SizeOf<Vector64<Int32>>() / sizeof(Int32);
private static readonly int RetElementCount = Unsafe.SizeOf<Vector64<UInt32>>() / sizeof(UInt32);
private static UInt32[] _data1 = new UInt32[Op1ElementCount];
private static Int32[] _data2 = new Int32[Op2ElementCount];
private static Vector64<UInt32> _clsVar1;
private static Vector64<Int32> _clsVar2;
private Vector64<UInt32> _fld1;
private Vector64<Int32> _fld2;
private DataTable _dataTable;
static SimpleBinaryOpTest__ShiftLogicalSaturate_Vector64_UInt32()
{
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetUInt32(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector64<UInt32>, byte>(ref _clsVar1), ref Unsafe.As<UInt32, byte>(ref _data1[0]), (uint)Unsafe.SizeOf<Vector64<UInt32>>());
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetInt32(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector64<Int32>, byte>(ref _clsVar2), ref Unsafe.As<Int32, byte>(ref _data2[0]), (uint)Unsafe.SizeOf<Vector64<Int32>>());
}
public SimpleBinaryOpTest__ShiftLogicalSaturate_Vector64_UInt32()
{
Succeeded = true;
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetUInt32(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector64<UInt32>, byte>(ref _fld1), ref Unsafe.As<UInt32, byte>(ref _data1[0]), (uint)Unsafe.SizeOf<Vector64<UInt32>>());
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetInt32(); }
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Vector64<Int32>, byte>(ref _fld2), ref Unsafe.As<Int32, byte>(ref _data2[0]), (uint)Unsafe.SizeOf<Vector64<Int32>>());
for (var i = 0; i < Op1ElementCount; i++) { _data1[i] = TestLibrary.Generator.GetUInt32(); }
for (var i = 0; i < Op2ElementCount; i++) { _data2[i] = TestLibrary.Generator.GetInt32(); }
_dataTable = new DataTable(_data1, _data2, new UInt32[RetElementCount], LargestVectorSize);
}
public bool IsSupported => AdvSimd.IsSupported;
public bool Succeeded { get; set; }
public void RunBasicScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunBasicScenario_UnsafeRead));
var result = AdvSimd.ShiftLogicalSaturate(
Unsafe.Read<Vector64<UInt32>>(_dataTable.inArray1Ptr),
Unsafe.Read<Vector64<Int32>>(_dataTable.inArray2Ptr)
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunBasicScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunBasicScenario_Load));
var result = AdvSimd.ShiftLogicalSaturate(
AdvSimd.LoadVector64((UInt32*)(_dataTable.inArray1Ptr)),
AdvSimd.LoadVector64((Int32*)(_dataTable.inArray2Ptr))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunReflectionScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunReflectionScenario_UnsafeRead));
var result = typeof(AdvSimd).GetMethod(nameof(AdvSimd.ShiftLogicalSaturate), new Type[] { typeof(Vector64<UInt32>), typeof(Vector64<Int32>) })
.Invoke(null, new object[] {
Unsafe.Read<Vector64<UInt32>>(_dataTable.inArray1Ptr),
Unsafe.Read<Vector64<Int32>>(_dataTable.inArray2Ptr)
});
Unsafe.Write(_dataTable.outArrayPtr, (Vector64<UInt32>)(result));
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunReflectionScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunReflectionScenario_Load));
var result = typeof(AdvSimd).GetMethod(nameof(AdvSimd.ShiftLogicalSaturate), new Type[] { typeof(Vector64<UInt32>), typeof(Vector64<Int32>) })
.Invoke(null, new object[] {
AdvSimd.LoadVector64((UInt32*)(_dataTable.inArray1Ptr)),
AdvSimd.LoadVector64((Int32*)(_dataTable.inArray2Ptr))
});
Unsafe.Write(_dataTable.outArrayPtr, (Vector64<UInt32>)(result));
ValidateResult(_dataTable.inArray1Ptr, _dataTable.inArray2Ptr, _dataTable.outArrayPtr);
}
public void RunClsVarScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClsVarScenario));
var result = AdvSimd.ShiftLogicalSaturate(
_clsVar1,
_clsVar2
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_clsVar1, _clsVar2, _dataTable.outArrayPtr);
}
public void RunClsVarScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClsVarScenario_Load));
fixed (Vector64<UInt32>* pClsVar1 = &_clsVar1)
fixed (Vector64<Int32>* pClsVar2 = &_clsVar2)
{
var result = AdvSimd.ShiftLogicalSaturate(
AdvSimd.LoadVector64((UInt32*)(pClsVar1)),
AdvSimd.LoadVector64((Int32*)(pClsVar2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_clsVar1, _clsVar2, _dataTable.outArrayPtr);
}
}
public void RunLclVarScenario_UnsafeRead()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunLclVarScenario_UnsafeRead));
var op1 = Unsafe.Read<Vector64<UInt32>>(_dataTable.inArray1Ptr);
var op2 = Unsafe.Read<Vector64<Int32>>(_dataTable.inArray2Ptr);
var result = AdvSimd.ShiftLogicalSaturate(op1, op2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(op1, op2, _dataTable.outArrayPtr);
}
public void RunLclVarScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunLclVarScenario_Load));
var op1 = AdvSimd.LoadVector64((UInt32*)(_dataTable.inArray1Ptr));
var op2 = AdvSimd.LoadVector64((Int32*)(_dataTable.inArray2Ptr));
var result = AdvSimd.ShiftLogicalSaturate(op1, op2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(op1, op2, _dataTable.outArrayPtr);
}
public void RunClassLclFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassLclFldScenario));
var test = new SimpleBinaryOpTest__ShiftLogicalSaturate_Vector64_UInt32();
var result = AdvSimd.ShiftLogicalSaturate(test._fld1, test._fld2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
public void RunClassLclFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassLclFldScenario_Load));
var test = new SimpleBinaryOpTest__ShiftLogicalSaturate_Vector64_UInt32();
fixed (Vector64<UInt32>* pFld1 = &test._fld1)
fixed (Vector64<Int32>* pFld2 = &test._fld2)
{
var result = AdvSimd.ShiftLogicalSaturate(
AdvSimd.LoadVector64((UInt32*)(pFld1)),
AdvSimd.LoadVector64((Int32*)(pFld2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
}
public void RunClassFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassFldScenario));
var result = AdvSimd.ShiftLogicalSaturate(_fld1, _fld2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_fld1, _fld2, _dataTable.outArrayPtr);
}
public void RunClassFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunClassFldScenario_Load));
fixed (Vector64<UInt32>* pFld1 = &_fld1)
fixed (Vector64<Int32>* pFld2 = &_fld2)
{
var result = AdvSimd.ShiftLogicalSaturate(
AdvSimd.LoadVector64((UInt32*)(pFld1)),
AdvSimd.LoadVector64((Int32*)(pFld2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(_fld1, _fld2, _dataTable.outArrayPtr);
}
}
public void RunStructLclFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructLclFldScenario));
var test = TestStruct.Create();
var result = AdvSimd.ShiftLogicalSaturate(test._fld1, test._fld2);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
public void RunStructLclFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructLclFldScenario_Load));
var test = TestStruct.Create();
var result = AdvSimd.ShiftLogicalSaturate(
AdvSimd.LoadVector64((UInt32*)(&test._fld1)),
AdvSimd.LoadVector64((Int32*)(&test._fld2))
);
Unsafe.Write(_dataTable.outArrayPtr, result);
ValidateResult(test._fld1, test._fld2, _dataTable.outArrayPtr);
}
public void RunStructFldScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructFldScenario));
var test = TestStruct.Create();
test.RunStructFldScenario(this);
}
public void RunStructFldScenario_Load()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunStructFldScenario_Load));
var test = TestStruct.Create();
test.RunStructFldScenario_Load(this);
}
public void RunUnsupportedScenario()
{
TestLibrary.TestFramework.BeginScenario(nameof(RunUnsupportedScenario));
bool succeeded = false;
try
{
RunBasicScenario_UnsafeRead();
}
catch (PlatformNotSupportedException)
{
succeeded = true;
}
if (!succeeded)
{
Succeeded = false;
}
}
private void ValidateResult(Vector64<UInt32> op1, Vector64<Int32> op2, void* result, [CallerMemberName] string method = "")
{
UInt32[] inArray1 = new UInt32[Op1ElementCount];
Int32[] inArray2 = new Int32[Op2ElementCount];
UInt32[] outArray = new UInt32[RetElementCount];
Unsafe.WriteUnaligned(ref Unsafe.As<UInt32, byte>(ref inArray1[0]), op1);
Unsafe.WriteUnaligned(ref Unsafe.As<Int32, byte>(ref inArray2[0]), op2);
Unsafe.CopyBlockUnaligned(ref Unsafe.As<UInt32, byte>(ref outArray[0]), ref Unsafe.AsRef<byte>(result), (uint)Unsafe.SizeOf<Vector64<UInt32>>());
ValidateResult(inArray1, inArray2, outArray, method);
}
private void ValidateResult(void* op1, void* op2, void* result, [CallerMemberName] string method = "")
{
UInt32[] inArray1 = new UInt32[Op1ElementCount];
Int32[] inArray2 = new Int32[Op2ElementCount];
UInt32[] outArray = new UInt32[RetElementCount];
Unsafe.CopyBlockUnaligned(ref Unsafe.As<UInt32, byte>(ref inArray1[0]), ref Unsafe.AsRef<byte>(op1), (uint)Unsafe.SizeOf<Vector64<UInt32>>());
Unsafe.CopyBlockUnaligned(ref Unsafe.As<Int32, byte>(ref inArray2[0]), ref Unsafe.AsRef<byte>(op2), (uint)Unsafe.SizeOf<Vector64<Int32>>());
Unsafe.CopyBlockUnaligned(ref Unsafe.As<UInt32, byte>(ref outArray[0]), ref Unsafe.AsRef<byte>(result), (uint)Unsafe.SizeOf<Vector64<UInt32>>());
ValidateResult(inArray1, inArray2, outArray, method);
}
private void ValidateResult(UInt32[] left, Int32[] right, UInt32[] result, [CallerMemberName] string method = "")
{
bool succeeded = true;
for (var i = 0; i < RetElementCount; i++)
{
if (Helpers.ShiftLogicalSaturate(left[i], right[i]) != result[i])
{
succeeded = false;
break;
}
}
if (!succeeded)
{
TestLibrary.TestFramework.LogInformation($"{nameof(AdvSimd)}.{nameof(AdvSimd.ShiftLogicalSaturate)}<UInt32>(Vector64<UInt32>, Vector64<Int32>): {method} failed:");
TestLibrary.TestFramework.LogInformation($" left: ({string.Join(", ", left)})");
TestLibrary.TestFramework.LogInformation($" right: ({string.Join(", ", right)})");
TestLibrary.TestFramework.LogInformation($" result: ({string.Join(", ", result)})");
TestLibrary.TestFramework.LogInformation(string.Empty);
Succeeded = false;
}
}
}
}
| -1 |
dotnet/runtime
| 66,381 |
Disable timing out test on mono
|
Fix #66371.
|
eiriktsarpalis
| 2022-03-09T08:35:58Z | 2022-03-10T18:40:15Z |
406d8541926a608ec636b8e4865b4d168273aba3
|
7b71e1bf5c78204a63542a2a8efbfa71723b3d0f
|
Disable timing out test on mono. Fix #66371.
|
./src/tests/JIT/opt/Devirtualization/enum.cs
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
using System;
enum MyEnum { One, Two, Three, Four, Five, Six, Seven, Eight, Nine, Ten };
public class Test_enum
{
public static int Main()
{
// Call to ToString should be devirtualize since boxed enums
// are sealed classes. This doesn't happen yet.
string s = (MyEnum.Seven).ToString();
// Call to Equals will devirtualize since string is sealed
return (s.Equals((object)"Seven") ? 100 : -1);
}
}
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
using System;
enum MyEnum { One, Two, Three, Four, Five, Six, Seven, Eight, Nine, Ten };
public class Test_enum
{
public static int Main()
{
// Call to ToString should be devirtualize since boxed enums
// are sealed classes. This doesn't happen yet.
string s = (MyEnum.Seven).ToString();
// Call to Equals will devirtualize since string is sealed
return (s.Equals((object)"Seven") ? 100 : -1);
}
}
| -1 |
dotnet/runtime
| 66,381 |
Disable timing out test on mono
|
Fix #66371.
|
eiriktsarpalis
| 2022-03-09T08:35:58Z | 2022-03-10T18:40:15Z |
406d8541926a608ec636b8e4865b4d168273aba3
|
7b71e1bf5c78204a63542a2a8efbfa71723b3d0f
|
Disable timing out test on mono. Fix #66371.
|
./src/libraries/System.CodeDom/tests/System/CodeDom/CodeRemoveEventStatementTests.cs
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
using System.Collections.Generic;
using Xunit;
namespace System.CodeDom.Tests
{
public class CodeRemoveEventStatementTests : CodeStatementTestBase<CodeRemoveEventStatement>
{
[Fact]
public void Ctor_Default()
{
var removeEvent = new CodeRemoveEventStatement();
Assert.Empty(removeEvent.Event.EventName);
Assert.Null(removeEvent.Event.TargetObject);
Assert.Null(removeEvent.Listener);
}
public static IEnumerable<object[]> Ctor_CodeExpression_String_CodeExpression_TestData()
{
yield return new object[] { null, null, null };
yield return new object[] { new CodePrimitiveExpression("Value1"), "EventName", new CodePrimitiveExpression("Value2") };
}
[Theory]
[MemberData(nameof(Ctor_CodeExpression_String_CodeExpression_TestData))]
public void Ctor_CodeExpression_String_CodeExpression(CodeExpression targetObject, string eventName, CodeExpression listener)
{
var removeEvent = new CodeRemoveEventStatement(targetObject, eventName, listener);
Assert.Equal(targetObject, removeEvent.Event.TargetObject);
Assert.Equal(eventName ?? string.Empty, removeEvent.Event.EventName);
Assert.Equal(listener, removeEvent.Listener);
}
public static IEnumerable<object[]> CodeEventReferenceExpression_CodeExpression_TestData()
{
yield return new object[] { null, null };
yield return new object[] { new CodeEventReferenceExpression(null, null), null };
yield return new object[] { new CodeEventReferenceExpression(new CodePrimitiveExpression("Value1"), "EventName"), new CodePrimitiveExpression("Value2") };
}
[Theory]
[MemberData(nameof(CodeEventReferenceExpression_CodeExpression_TestData))]
public void Ctor_CodeEventReferenceExpression_CodeExpression(CodeEventReferenceExpression eventExpresion, CodeExpression listener)
{
var removeEvent = new CodeRemoveEventStatement(eventExpresion, listener);
Assert.Equal((eventExpresion ?? new CodeEventReferenceExpression()).TargetObject, removeEvent.Event.TargetObject);
Assert.Equal((eventExpresion ?? new CodeEventReferenceExpression()).EventName, removeEvent.Event.EventName);
Assert.Equal(listener, removeEvent.Listener);
}
[Theory]
[MemberData(nameof(CodeEventReferenceExpression_CodeExpression_TestData))]
public void Event_Set_Get_ReturnsExpected(CodeEventReferenceExpression value, CodeExpression listener)
{
_ = listener;
var removeEvent = new CodeRemoveEventStatement();
removeEvent.Event = value;
Assert.Equal((value ?? new CodeEventReferenceExpression()).TargetObject, removeEvent.Event.TargetObject);
Assert.Equal((value ?? new CodeEventReferenceExpression()).EventName, removeEvent.Event.EventName);
}
[Theory]
[MemberData(nameof(CodeExpression_TestData))]
public void Listener_Set_Get_ReturnsExpected(CodeExpression value)
{
var removeEvent = new CodeRemoveEventStatement();
removeEvent.Listener = value;
Assert.Equal(value, removeEvent.Listener);
}
}
}
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
using System.Collections.Generic;
using Xunit;
namespace System.CodeDom.Tests
{
public class CodeRemoveEventStatementTests : CodeStatementTestBase<CodeRemoveEventStatement>
{
[Fact]
public void Ctor_Default()
{
var removeEvent = new CodeRemoveEventStatement();
Assert.Empty(removeEvent.Event.EventName);
Assert.Null(removeEvent.Event.TargetObject);
Assert.Null(removeEvent.Listener);
}
public static IEnumerable<object[]> Ctor_CodeExpression_String_CodeExpression_TestData()
{
yield return new object[] { null, null, null };
yield return new object[] { new CodePrimitiveExpression("Value1"), "EventName", new CodePrimitiveExpression("Value2") };
}
[Theory]
[MemberData(nameof(Ctor_CodeExpression_String_CodeExpression_TestData))]
public void Ctor_CodeExpression_String_CodeExpression(CodeExpression targetObject, string eventName, CodeExpression listener)
{
var removeEvent = new CodeRemoveEventStatement(targetObject, eventName, listener);
Assert.Equal(targetObject, removeEvent.Event.TargetObject);
Assert.Equal(eventName ?? string.Empty, removeEvent.Event.EventName);
Assert.Equal(listener, removeEvent.Listener);
}
public static IEnumerable<object[]> CodeEventReferenceExpression_CodeExpression_TestData()
{
yield return new object[] { null, null };
yield return new object[] { new CodeEventReferenceExpression(null, null), null };
yield return new object[] { new CodeEventReferenceExpression(new CodePrimitiveExpression("Value1"), "EventName"), new CodePrimitiveExpression("Value2") };
}
[Theory]
[MemberData(nameof(CodeEventReferenceExpression_CodeExpression_TestData))]
public void Ctor_CodeEventReferenceExpression_CodeExpression(CodeEventReferenceExpression eventExpresion, CodeExpression listener)
{
var removeEvent = new CodeRemoveEventStatement(eventExpresion, listener);
Assert.Equal((eventExpresion ?? new CodeEventReferenceExpression()).TargetObject, removeEvent.Event.TargetObject);
Assert.Equal((eventExpresion ?? new CodeEventReferenceExpression()).EventName, removeEvent.Event.EventName);
Assert.Equal(listener, removeEvent.Listener);
}
[Theory]
[MemberData(nameof(CodeEventReferenceExpression_CodeExpression_TestData))]
public void Event_Set_Get_ReturnsExpected(CodeEventReferenceExpression value, CodeExpression listener)
{
_ = listener;
var removeEvent = new CodeRemoveEventStatement();
removeEvent.Event = value;
Assert.Equal((value ?? new CodeEventReferenceExpression()).TargetObject, removeEvent.Event.TargetObject);
Assert.Equal((value ?? new CodeEventReferenceExpression()).EventName, removeEvent.Event.EventName);
}
[Theory]
[MemberData(nameof(CodeExpression_TestData))]
public void Listener_Set_Get_ReturnsExpected(CodeExpression value)
{
var removeEvent = new CodeRemoveEventStatement();
removeEvent.Listener = value;
Assert.Equal(value, removeEvent.Listener);
}
}
}
| -1 |
dotnet/runtime
| 66,381 |
Disable timing out test on mono
|
Fix #66371.
|
eiriktsarpalis
| 2022-03-09T08:35:58Z | 2022-03-10T18:40:15Z |
406d8541926a608ec636b8e4865b4d168273aba3
|
7b71e1bf5c78204a63542a2a8efbfa71723b3d0f
|
Disable timing out test on mono. Fix #66371.
|
./src/libraries/System.Private.Xml/tests/Readers/ReaderSettings/TCDtdProcessingCoreReader.cs
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
using OLEDB.Test.ModuleCore;
namespace System.Xml.Tests
{
public partial class TCDtdProcessingCoreReader : TCXMLReaderBaseGeneral
{
// Type is System.Xml.Tests.TCDtdProcessingCoreReader
// Test Case
public override void AddChildren()
{
// for function v0
{
this.AddChild(new CVariation(v0) { Attribute = new Variation("Read xml without DTD.Prohibit") { Param = 0 } });
this.AddChild(new CVariation(v0) { Attribute = new Variation("Read xml without DTD.Ignore") { Param = 1 } });
}
// for function v1a
{
this.AddChild(new CVariation(v1a) { Attribute = new Variation("Wrap with Prohibit, xml w/o DTD.Prohibit") { Param = 0 } });
this.AddChild(new CVariation(v1a) { Attribute = new Variation("Wrap with Prohibit, xml w/o DTD.Ignore") { Param = 1 } });
}
// for function v1b
{
this.AddChild(new CVariation(v1b) { Attribute = new Variation("Wrap with Ignore, xml w/o DTD.Prohibit") { Param = 0 } });
this.AddChild(new CVariation(v1b) { Attribute = new Variation("Wrap with Ignore, xml w/o DTD.Ignore") { Param = 1 } });
}
// for function v1d
{
this.AddChild(new CVariation(v1d) { Attribute = new Variation("Wrap with Prohibit, change RS, xml w/o DTD.Ignore") { Param = 1 } });
this.AddChild(new CVariation(v1d) { Attribute = new Variation("Wrap with Prohibit, change RS, xml w/o DTD.Prohibit") { Param = 0 } });
}
// for function v1e
{
this.AddChild(new CVariation(v1e) { Attribute = new Variation("Wrap with Ignore, change RS, xml w/o DTD.Prohibit") { Param = 0 } });
this.AddChild(new CVariation(v1e) { Attribute = new Variation("Wrap with Ignore, change RS, xml w/o DTD.Ignore") { Param = 1 } });
}
// for function v2a
{
this.AddChild(new CVariation(v2a) { Attribute = new Variation("Wrap with Prohibit, xml with DTD.Prohibit") { Param = 0 } });
this.AddChild(new CVariation(v2a) { Attribute = new Variation("Wrap with Prohibit, xml with DTD.Ignore") { Param = 1 } });
}
// for function v2b
{
this.AddChild(new CVariation(v2b) { Attribute = new Variation("Wrap with Ignore, xml with DTD.Ignore") { Param = 1 } });
this.AddChild(new CVariation(v2b) { Attribute = new Variation("Wrap with Ignore, xml with DTD.Prohibit") { Param = 0 } });
}
// for function V3
{
this.AddChild(new CVariation(V3) { Attribute = new Variation("Testing default values.") });
}
// for function V4
{
this.AddChild(new CVariation(V4) { Attribute = new Variation("Parse a file with inline DTD.Ignore") { Param = 1 } });
this.AddChild(new CVariation(V4) { Attribute = new Variation("Parse a file with inline DTD.Prohibit") { Param = 0 } });
}
// for function V4c
{
this.AddChild(new CVariation(V4c) { Attribute = new Variation("Parse a xml with inline inv.DTD.Ignore") { Param = 1 } });
this.AddChild(new CVariation(V4c) { Attribute = new Variation("Parse a xml with inline inv.DTD.Prohibit") { Param = 0 } });
}
// for function V4i
{
this.AddChild(new CVariation(V4i) { Attribute = new Variation("Read xml with invalid content.Prohibit") { Param = 0 } });
this.AddChild(new CVariation(V4i) { Attribute = new Variation("Read xml with invalid content.Ignore") { Param = 1 } });
}
// for function V7a
{
this.AddChild(new CVariation(V7a) { Attribute = new Variation("Changing DtdProcessing to Prohibit,Ignore.Prohibit") { Param = 0 } });
this.AddChild(new CVariation(V7a) { Attribute = new Variation("Changing DtdProcessing to Prohibit,Ignore.Ignore") { Param = 1 } });
}
// for function V8
{
this.AddChild(new CVariation(V8) { Attribute = new Variation("Parse a file with external DTD.Prohibit") { Param = 0 } });
this.AddChild(new CVariation(V8) { Attribute = new Variation("Parse a file with external DTD.Ignore") { Param = 1 } });
}
// for function V9
{
this.AddChild(new CVariation(V9) { Attribute = new Variation("Parse a file with invalid inline DTD.Prohibit") { Param = 0 } });
this.AddChild(new CVariation(V9) { Attribute = new Variation("Parse a file with invalid inline DTD.Ignore") { Param = 1 } });
}
// for function V11
{
this.AddChild(new CVariation(V11) { Attribute = new Variation("Parse a valid xml with predefined entities with no DTD.Prohibit") { Param = 0 } });
this.AddChild(new CVariation(V11) { Attribute = new Variation("Parse a valid xml with predefined entities with no DTD.Ignore") { Param = 1 } });
}
// for function V11a
{
this.AddChild(new CVariation(V11a) { Attribute = new Variation("Parse a valid xml with entity and DTD.Ignore") { Param = 1 } });
this.AddChild(new CVariation(V11a) { Attribute = new Variation("Parse a valid xml with entity and DTD.Prohibit") { Param = 0 } });
}
// for function V11b
{
this.AddChild(new CVariation(V11b) { Attribute = new Variation("Parse a valid xml with entity in attribute and DTD.Ignore") { Param = 1 } });
this.AddChild(new CVariation(V11b) { Attribute = new Variation("Parse a valid xml with entity in attribute and DTD.Prohibit") { Param = 0 } });
}
// for function V11c
{
this.AddChild(new CVariation(V11c) { Attribute = new Variation("Parse a invalid xml with entity in attribute and DTD.Ignore") { Param = 1 } });
this.AddChild(new CVariation(V11c) { Attribute = new Variation("Parse a invalid xml with entity in attribute and DTD.Prohibit") { Param = 0 } });
}
// for function v12
{
this.AddChild(new CVariation(v12) { Attribute = new Variation("Set value to Reader.Settings.DtdProcessing.Prohibit") { Param = 0 } });
this.AddChild(new CVariation(v12) { Attribute = new Variation("Set value to Reader.Settings.DtdProcessing.Ignore") { Param = 1 } });
}
// for function V14
{
this.AddChild(new CVariation(V14) { Attribute = new Variation("DtdProcessing - ArgumentOutOfRangeException") });
}
// for function V15
{
this.AddChild(new CVariation(V15) { Attribute = new Variation("DtdProcessing - ArgumentOutOfRangeException.Ignore") { Param = 1 } });
//this.AddChild(new CVariation(V15){ Attribute = new Variation("DtdProcessing - ArgumentOutOfRangeException.Parse"){ Param = 2}});
this.AddChild(new CVariation(V15) { Attribute = new Variation("DtdProcessing - ArgumentOutOfRangeException.Prohibit") { Param = 0 } });
}
// for function V16
{
this.AddChild(new CVariation(V16) { Attribute = new Variation("Parse a valid xml DTD and check NodeType.Prohibit") { Param = 0 } });
this.AddChild(new CVariation(V16) { Attribute = new Variation("Parse a valid xml DTD and check NodeType.Ignore") { Param = 1 } });
//this.AddChild(new CVariation(V16){ Attribute = new Variation("Parse a valid xml DTD and check NodeType.Parse"){ Param = 2}});
}
// for function V18
{
this.AddChild(new CVariation(V18) { Attribute = new Variation("Parse a invalid xml DTD SYSTEM PUBLIC.Ignore") { Param = 1 } });
this.AddChild(new CVariation(V18) { Attribute = new Variation("Parse a invalid xml DTD SYSTEM PUBLIC.Prohibit") { Param = 0 } });
//this.AddChild(new CVariation(V18){ Attribute = new Variation("Parse a invalid xml DTD SYSTEM PUBLIC.Parse"){ Param = 2}});
}
// for function V19
{
this.AddChild(new CVariation(V19) { Attribute = new Variation("6.Parsing invalid DOCTYPE.Ignore") { Params = new object[] { DtdProcessing.Ignore, 6 } } });
this.AddChild(new CVariation(V19) { Attribute = new Variation("8.PParsing invalid xml version.Ignore") { Params = new object[] { DtdProcessing.Ignore, 8 } } });
this.AddChild(new CVariation(V19) { Attribute = new Variation("9.Parsing invalid xml version.Prohibit") { Params = new object[] { DtdProcessing.Prohibit, 9 } } });
this.AddChild(new CVariation(V19) { Attribute = new Variation("9.Parsing invalid xml version.Ignore") { Params = new object[] { DtdProcessing.Ignore, 9 } } });
this.AddChild(new CVariation(V19) { Attribute = new Variation("10.Parsing invalid xml version.Prohibit") { Params = new object[] { DtdProcessing.Prohibit, 10 } } });
this.AddChild(new CVariation(V19) { Attribute = new Variation("10.Parsing invalid xml version.Ignore") { Params = new object[] { DtdProcessing.Ignore, 10 } } });
this.AddChild(new CVariation(V19) { Attribute = new Variation("11.Parsing invalid xml version.Prohibit") { Params = new object[] { DtdProcessing.Prohibit, 11 } } });
this.AddChild(new CVariation(V19) { Attribute = new Variation("11.Parsing invalid xml version.Ignore") { Params = new object[] { DtdProcessing.Ignore, 11 } } });
this.AddChild(new CVariation(V19) { Attribute = new Variation("12.Parsing invalid xml version.Prohibit") { Params = new object[] { DtdProcessing.Prohibit, 12 } } });
this.AddChild(new CVariation(V19) { Attribute = new Variation("12.Parsing invalid xml version.Ignore") { Params = new object[] { DtdProcessing.Ignore, 12 } } });
this.AddChild(new CVariation(V19) { Attribute = new Variation("1.Parsing invalid DOCTYPE.Prohibit") { Params = new object[] { DtdProcessing.Prohibit, 1 } } });
this.AddChild(new CVariation(V19) { Attribute = new Variation("1.Parsing invalid DOCTYPE.Ignore") { Params = new object[] { DtdProcessing.Ignore, 1 } } });
this.AddChild(new CVariation(V19) { Attribute = new Variation("2.Parsing invalid DOCTYPE.Prohibit") { Params = new object[] { DtdProcessing.Prohibit, 2 } } });
this.AddChild(new CVariation(V19) { Attribute = new Variation("7.Parsing invalid DOCTYPE.Prohibit") { Params = new object[] { DtdProcessing.Prohibit, 7 } } });
this.AddChild(new CVariation(V19) { Attribute = new Variation("7.Parsing invalid DOCTYPE.Ignore") { Params = new object[] { DtdProcessing.Ignore, 7 } } });
this.AddChild(new CVariation(V19) { Attribute = new Variation("8.Parsing invalid xml version.Prohibit") { Params = new object[] { DtdProcessing.Prohibit, 8 } } });
this.AddChild(new CVariation(V19) { Attribute = new Variation("2.Parsing invalid DOCTYPE.Ignore") { Params = new object[] { DtdProcessing.Ignore, 2 } } });
this.AddChild(new CVariation(V19) { Attribute = new Variation("3.Parsing invalid DOCTYPE.Prohibit") { Params = new object[] { DtdProcessing.Prohibit, 3 } } });
this.AddChild(new CVariation(V19) { Attribute = new Variation("3.Parsing invalid DOCTYPE.Ignore") { Params = new object[] { DtdProcessing.Ignore, 3 } } });
this.AddChild(new CVariation(V19) { Attribute = new Variation("4.Parsing invalid DOCTYPE.Prohibit") { Params = new object[] { DtdProcessing.Prohibit, 4 } } });
this.AddChild(new CVariation(V19) { Attribute = new Variation("4.Parsing invalid DOCTYPE.Ignore") { Params = new object[] { DtdProcessing.Ignore, 4 } } });
this.AddChild(new CVariation(V19) { Attribute = new Variation("5.Parsing invalid DOCTYPE.Prohibit") { Params = new object[] { DtdProcessing.Prohibit, 5 } } });
this.AddChild(new CVariation(V19) { Attribute = new Variation("5.Parsing invalid DOCTYPE.Ignore") { Params = new object[] { DtdProcessing.Ignore, 5 } } });
this.AddChild(new CVariation(V19) { Attribute = new Variation("6.Parsing invalid DOCTYPE.Prohibit") { Params = new object[] { DtdProcessing.Prohibit, 6 } } });
}
}
}
}
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
using OLEDB.Test.ModuleCore;
namespace System.Xml.Tests
{
public partial class TCDtdProcessingCoreReader : TCXMLReaderBaseGeneral
{
// Type is System.Xml.Tests.TCDtdProcessingCoreReader
// Test Case
public override void AddChildren()
{
// for function v0
{
this.AddChild(new CVariation(v0) { Attribute = new Variation("Read xml without DTD.Prohibit") { Param = 0 } });
this.AddChild(new CVariation(v0) { Attribute = new Variation("Read xml without DTD.Ignore") { Param = 1 } });
}
// for function v1a
{
this.AddChild(new CVariation(v1a) { Attribute = new Variation("Wrap with Prohibit, xml w/o DTD.Prohibit") { Param = 0 } });
this.AddChild(new CVariation(v1a) { Attribute = new Variation("Wrap with Prohibit, xml w/o DTD.Ignore") { Param = 1 } });
}
// for function v1b
{
this.AddChild(new CVariation(v1b) { Attribute = new Variation("Wrap with Ignore, xml w/o DTD.Prohibit") { Param = 0 } });
this.AddChild(new CVariation(v1b) { Attribute = new Variation("Wrap with Ignore, xml w/o DTD.Ignore") { Param = 1 } });
}
// for function v1d
{
this.AddChild(new CVariation(v1d) { Attribute = new Variation("Wrap with Prohibit, change RS, xml w/o DTD.Ignore") { Param = 1 } });
this.AddChild(new CVariation(v1d) { Attribute = new Variation("Wrap with Prohibit, change RS, xml w/o DTD.Prohibit") { Param = 0 } });
}
// for function v1e
{
this.AddChild(new CVariation(v1e) { Attribute = new Variation("Wrap with Ignore, change RS, xml w/o DTD.Prohibit") { Param = 0 } });
this.AddChild(new CVariation(v1e) { Attribute = new Variation("Wrap with Ignore, change RS, xml w/o DTD.Ignore") { Param = 1 } });
}
// for function v2a
{
this.AddChild(new CVariation(v2a) { Attribute = new Variation("Wrap with Prohibit, xml with DTD.Prohibit") { Param = 0 } });
this.AddChild(new CVariation(v2a) { Attribute = new Variation("Wrap with Prohibit, xml with DTD.Ignore") { Param = 1 } });
}
// for function v2b
{
this.AddChild(new CVariation(v2b) { Attribute = new Variation("Wrap with Ignore, xml with DTD.Ignore") { Param = 1 } });
this.AddChild(new CVariation(v2b) { Attribute = new Variation("Wrap with Ignore, xml with DTD.Prohibit") { Param = 0 } });
}
// for function V3
{
this.AddChild(new CVariation(V3) { Attribute = new Variation("Testing default values.") });
}
// for function V4
{
this.AddChild(new CVariation(V4) { Attribute = new Variation("Parse a file with inline DTD.Ignore") { Param = 1 } });
this.AddChild(new CVariation(V4) { Attribute = new Variation("Parse a file with inline DTD.Prohibit") { Param = 0 } });
}
// for function V4c
{
this.AddChild(new CVariation(V4c) { Attribute = new Variation("Parse a xml with inline inv.DTD.Ignore") { Param = 1 } });
this.AddChild(new CVariation(V4c) { Attribute = new Variation("Parse a xml with inline inv.DTD.Prohibit") { Param = 0 } });
}
// for function V4i
{
this.AddChild(new CVariation(V4i) { Attribute = new Variation("Read xml with invalid content.Prohibit") { Param = 0 } });
this.AddChild(new CVariation(V4i) { Attribute = new Variation("Read xml with invalid content.Ignore") { Param = 1 } });
}
// for function V7a
{
this.AddChild(new CVariation(V7a) { Attribute = new Variation("Changing DtdProcessing to Prohibit,Ignore.Prohibit") { Param = 0 } });
this.AddChild(new CVariation(V7a) { Attribute = new Variation("Changing DtdProcessing to Prohibit,Ignore.Ignore") { Param = 1 } });
}
// for function V8
{
this.AddChild(new CVariation(V8) { Attribute = new Variation("Parse a file with external DTD.Prohibit") { Param = 0 } });
this.AddChild(new CVariation(V8) { Attribute = new Variation("Parse a file with external DTD.Ignore") { Param = 1 } });
}
// for function V9
{
this.AddChild(new CVariation(V9) { Attribute = new Variation("Parse a file with invalid inline DTD.Prohibit") { Param = 0 } });
this.AddChild(new CVariation(V9) { Attribute = new Variation("Parse a file with invalid inline DTD.Ignore") { Param = 1 } });
}
// for function V11
{
this.AddChild(new CVariation(V11) { Attribute = new Variation("Parse a valid xml with predefined entities with no DTD.Prohibit") { Param = 0 } });
this.AddChild(new CVariation(V11) { Attribute = new Variation("Parse a valid xml with predefined entities with no DTD.Ignore") { Param = 1 } });
}
// for function V11a
{
this.AddChild(new CVariation(V11a) { Attribute = new Variation("Parse a valid xml with entity and DTD.Ignore") { Param = 1 } });
this.AddChild(new CVariation(V11a) { Attribute = new Variation("Parse a valid xml with entity and DTD.Prohibit") { Param = 0 } });
}
// for function V11b
{
this.AddChild(new CVariation(V11b) { Attribute = new Variation("Parse a valid xml with entity in attribute and DTD.Ignore") { Param = 1 } });
this.AddChild(new CVariation(V11b) { Attribute = new Variation("Parse a valid xml with entity in attribute and DTD.Prohibit") { Param = 0 } });
}
// for function V11c
{
this.AddChild(new CVariation(V11c) { Attribute = new Variation("Parse a invalid xml with entity in attribute and DTD.Ignore") { Param = 1 } });
this.AddChild(new CVariation(V11c) { Attribute = new Variation("Parse a invalid xml with entity in attribute and DTD.Prohibit") { Param = 0 } });
}
// for function v12
{
this.AddChild(new CVariation(v12) { Attribute = new Variation("Set value to Reader.Settings.DtdProcessing.Prohibit") { Param = 0 } });
this.AddChild(new CVariation(v12) { Attribute = new Variation("Set value to Reader.Settings.DtdProcessing.Ignore") { Param = 1 } });
}
// for function V14
{
this.AddChild(new CVariation(V14) { Attribute = new Variation("DtdProcessing - ArgumentOutOfRangeException") });
}
// for function V15
{
this.AddChild(new CVariation(V15) { Attribute = new Variation("DtdProcessing - ArgumentOutOfRangeException.Ignore") { Param = 1 } });
//this.AddChild(new CVariation(V15){ Attribute = new Variation("DtdProcessing - ArgumentOutOfRangeException.Parse"){ Param = 2}});
this.AddChild(new CVariation(V15) { Attribute = new Variation("DtdProcessing - ArgumentOutOfRangeException.Prohibit") { Param = 0 } });
}
// for function V16
{
this.AddChild(new CVariation(V16) { Attribute = new Variation("Parse a valid xml DTD and check NodeType.Prohibit") { Param = 0 } });
this.AddChild(new CVariation(V16) { Attribute = new Variation("Parse a valid xml DTD and check NodeType.Ignore") { Param = 1 } });
//this.AddChild(new CVariation(V16){ Attribute = new Variation("Parse a valid xml DTD and check NodeType.Parse"){ Param = 2}});
}
// for function V18
{
this.AddChild(new CVariation(V18) { Attribute = new Variation("Parse a invalid xml DTD SYSTEM PUBLIC.Ignore") { Param = 1 } });
this.AddChild(new CVariation(V18) { Attribute = new Variation("Parse a invalid xml DTD SYSTEM PUBLIC.Prohibit") { Param = 0 } });
//this.AddChild(new CVariation(V18){ Attribute = new Variation("Parse a invalid xml DTD SYSTEM PUBLIC.Parse"){ Param = 2}});
}
// for function V19
{
this.AddChild(new CVariation(V19) { Attribute = new Variation("6.Parsing invalid DOCTYPE.Ignore") { Params = new object[] { DtdProcessing.Ignore, 6 } } });
this.AddChild(new CVariation(V19) { Attribute = new Variation("8.PParsing invalid xml version.Ignore") { Params = new object[] { DtdProcessing.Ignore, 8 } } });
this.AddChild(new CVariation(V19) { Attribute = new Variation("9.Parsing invalid xml version.Prohibit") { Params = new object[] { DtdProcessing.Prohibit, 9 } } });
this.AddChild(new CVariation(V19) { Attribute = new Variation("9.Parsing invalid xml version.Ignore") { Params = new object[] { DtdProcessing.Ignore, 9 } } });
this.AddChild(new CVariation(V19) { Attribute = new Variation("10.Parsing invalid xml version.Prohibit") { Params = new object[] { DtdProcessing.Prohibit, 10 } } });
this.AddChild(new CVariation(V19) { Attribute = new Variation("10.Parsing invalid xml version.Ignore") { Params = new object[] { DtdProcessing.Ignore, 10 } } });
this.AddChild(new CVariation(V19) { Attribute = new Variation("11.Parsing invalid xml version.Prohibit") { Params = new object[] { DtdProcessing.Prohibit, 11 } } });
this.AddChild(new CVariation(V19) { Attribute = new Variation("11.Parsing invalid xml version.Ignore") { Params = new object[] { DtdProcessing.Ignore, 11 } } });
this.AddChild(new CVariation(V19) { Attribute = new Variation("12.Parsing invalid xml version.Prohibit") { Params = new object[] { DtdProcessing.Prohibit, 12 } } });
this.AddChild(new CVariation(V19) { Attribute = new Variation("12.Parsing invalid xml version.Ignore") { Params = new object[] { DtdProcessing.Ignore, 12 } } });
this.AddChild(new CVariation(V19) { Attribute = new Variation("1.Parsing invalid DOCTYPE.Prohibit") { Params = new object[] { DtdProcessing.Prohibit, 1 } } });
this.AddChild(new CVariation(V19) { Attribute = new Variation("1.Parsing invalid DOCTYPE.Ignore") { Params = new object[] { DtdProcessing.Ignore, 1 } } });
this.AddChild(new CVariation(V19) { Attribute = new Variation("2.Parsing invalid DOCTYPE.Prohibit") { Params = new object[] { DtdProcessing.Prohibit, 2 } } });
this.AddChild(new CVariation(V19) { Attribute = new Variation("7.Parsing invalid DOCTYPE.Prohibit") { Params = new object[] { DtdProcessing.Prohibit, 7 } } });
this.AddChild(new CVariation(V19) { Attribute = new Variation("7.Parsing invalid DOCTYPE.Ignore") { Params = new object[] { DtdProcessing.Ignore, 7 } } });
this.AddChild(new CVariation(V19) { Attribute = new Variation("8.Parsing invalid xml version.Prohibit") { Params = new object[] { DtdProcessing.Prohibit, 8 } } });
this.AddChild(new CVariation(V19) { Attribute = new Variation("2.Parsing invalid DOCTYPE.Ignore") { Params = new object[] { DtdProcessing.Ignore, 2 } } });
this.AddChild(new CVariation(V19) { Attribute = new Variation("3.Parsing invalid DOCTYPE.Prohibit") { Params = new object[] { DtdProcessing.Prohibit, 3 } } });
this.AddChild(new CVariation(V19) { Attribute = new Variation("3.Parsing invalid DOCTYPE.Ignore") { Params = new object[] { DtdProcessing.Ignore, 3 } } });
this.AddChild(new CVariation(V19) { Attribute = new Variation("4.Parsing invalid DOCTYPE.Prohibit") { Params = new object[] { DtdProcessing.Prohibit, 4 } } });
this.AddChild(new CVariation(V19) { Attribute = new Variation("4.Parsing invalid DOCTYPE.Ignore") { Params = new object[] { DtdProcessing.Ignore, 4 } } });
this.AddChild(new CVariation(V19) { Attribute = new Variation("5.Parsing invalid DOCTYPE.Prohibit") { Params = new object[] { DtdProcessing.Prohibit, 5 } } });
this.AddChild(new CVariation(V19) { Attribute = new Variation("5.Parsing invalid DOCTYPE.Ignore") { Params = new object[] { DtdProcessing.Ignore, 5 } } });
this.AddChild(new CVariation(V19) { Attribute = new Variation("6.Parsing invalid DOCTYPE.Prohibit") { Params = new object[] { DtdProcessing.Prohibit, 6 } } });
}
}
}
}
| -1 |
dotnet/runtime
| 66,381 |
Disable timing out test on mono
|
Fix #66371.
|
eiriktsarpalis
| 2022-03-09T08:35:58Z | 2022-03-10T18:40:15Z |
406d8541926a608ec636b8e4865b4d168273aba3
|
7b71e1bf5c78204a63542a2a8efbfa71723b3d0f
|
Disable timing out test on mono. Fix #66371.
|
./src/libraries/System.Private.CoreLib/src/System/Threading/LowLevelLifoSemaphore.Windows.cs
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
using System.Diagnostics;
using System.Runtime.InteropServices;
namespace System.Threading
{
/// <summary>
/// A LIFO semaphore implemented using Win32 IO Completion Ports.
/// </summary>
/// <remarks>
/// IO Completion ports release waiting threads in LIFO order, so we can use them to create a LIFO semaphore.
/// See https://msdn.microsoft.com/en-us/library/windows/desktop/aa365198(v=vs.85).aspx under How I/O Completion Ports Work.
/// From the docs "Threads that block their execution on an I/O completion port are released in last-in-first-out (LIFO) order."
/// </remarks>
internal sealed partial class LowLevelLifoSemaphore : IDisposable
{
private IntPtr _completionPort;
private void Create(int maximumSignalCount)
{
Debug.Assert(maximumSignalCount > 0);
_completionPort =
Interop.Kernel32.CreateIoCompletionPort(new IntPtr(-1), IntPtr.Zero, UIntPtr.Zero, maximumSignalCount);
if (_completionPort == IntPtr.Zero)
{
int hr = Marshal.GetHRForLastWin32Error();
var exception = new OutOfMemoryException();
exception.HResult = hr;
throw exception;
}
}
~LowLevelLifoSemaphore()
{
if (_completionPort != IntPtr.Zero)
{
Dispose();
}
}
public bool WaitCore(int timeoutMs)
{
Debug.Assert(timeoutMs >= -1);
bool success = Interop.Kernel32.GetQueuedCompletionStatus(_completionPort, out _, out _, out _, timeoutMs);
Debug.Assert(success || (Marshal.GetLastPInvokeError() == WaitHandle.WaitTimeout));
return success;
}
public void ReleaseCore(int count)
{
Debug.Assert(count > 0);
for (int i = 0; i < count; i++)
{
if (!Interop.Kernel32.PostQueuedCompletionStatus(_completionPort, 1, UIntPtr.Zero, IntPtr.Zero))
{
int lastError = Marshal.GetLastPInvokeError();
var exception = new OutOfMemoryException();
exception.HResult = lastError;
throw exception;
}
}
}
public void Dispose()
{
Debug.Assert(_completionPort != IntPtr.Zero);
Interop.Kernel32.CloseHandle(_completionPort);
_completionPort = IntPtr.Zero;
GC.SuppressFinalize(this);
}
}
}
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
using System.Diagnostics;
using System.Runtime.InteropServices;
namespace System.Threading
{
/// <summary>
/// A LIFO semaphore implemented using Win32 IO Completion Ports.
/// </summary>
/// <remarks>
/// IO Completion ports release waiting threads in LIFO order, so we can use them to create a LIFO semaphore.
/// See https://msdn.microsoft.com/en-us/library/windows/desktop/aa365198(v=vs.85).aspx under How I/O Completion Ports Work.
/// From the docs "Threads that block their execution on an I/O completion port are released in last-in-first-out (LIFO) order."
/// </remarks>
internal sealed partial class LowLevelLifoSemaphore : IDisposable
{
private IntPtr _completionPort;
private void Create(int maximumSignalCount)
{
Debug.Assert(maximumSignalCount > 0);
_completionPort =
Interop.Kernel32.CreateIoCompletionPort(new IntPtr(-1), IntPtr.Zero, UIntPtr.Zero, maximumSignalCount);
if (_completionPort == IntPtr.Zero)
{
int hr = Marshal.GetHRForLastWin32Error();
var exception = new OutOfMemoryException();
exception.HResult = hr;
throw exception;
}
}
~LowLevelLifoSemaphore()
{
if (_completionPort != IntPtr.Zero)
{
Dispose();
}
}
public bool WaitCore(int timeoutMs)
{
Debug.Assert(timeoutMs >= -1);
bool success = Interop.Kernel32.GetQueuedCompletionStatus(_completionPort, out _, out _, out _, timeoutMs);
Debug.Assert(success || (Marshal.GetLastPInvokeError() == WaitHandle.WaitTimeout));
return success;
}
public void ReleaseCore(int count)
{
Debug.Assert(count > 0);
for (int i = 0; i < count; i++)
{
if (!Interop.Kernel32.PostQueuedCompletionStatus(_completionPort, 1, UIntPtr.Zero, IntPtr.Zero))
{
int lastError = Marshal.GetLastPInvokeError();
var exception = new OutOfMemoryException();
exception.HResult = lastError;
throw exception;
}
}
}
public void Dispose()
{
Debug.Assert(_completionPort != IntPtr.Zero);
Interop.Kernel32.CloseHandle(_completionPort);
_completionPort = IntPtr.Zero;
GC.SuppressFinalize(this);
}
}
}
| -1 |
dotnet/runtime
| 66,381 |
Disable timing out test on mono
|
Fix #66371.
|
eiriktsarpalis
| 2022-03-09T08:35:58Z | 2022-03-10T18:40:15Z |
406d8541926a608ec636b8e4865b4d168273aba3
|
7b71e1bf5c78204a63542a2a8efbfa71723b3d0f
|
Disable timing out test on mono. Fix #66371.
|
./src/libraries/System.Private.Xml.Linq/tests/SDMSample/SDMMisc.cs
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
using System.Xml;
using System.Xml.Linq;
using Xunit;
namespace XDocumentTests.SDMSample
{
public class SDM_Misc
{
[Fact]
public void NodeTypes()
{
XDocument document = new XDocument();
XElement element = new XElement("x");
XText text = new XText("text-value");
XComment comment = new XComment("comment");
XProcessingInstruction processingInstruction = new XProcessingInstruction("target", "data");
Assert.Equal(XmlNodeType.Document, document.NodeType);
Assert.Equal(XmlNodeType.Element, element.NodeType);
Assert.Equal(XmlNodeType.Text, text.NodeType);
Assert.Equal(XmlNodeType.Comment, comment.NodeType);
Assert.Equal(XmlNodeType.ProcessingInstruction, processingInstruction.NodeType);
}
}
}
|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
using System.Xml;
using System.Xml.Linq;
using Xunit;
namespace XDocumentTests.SDMSample
{
public class SDM_Misc
{
[Fact]
public void NodeTypes()
{
XDocument document = new XDocument();
XElement element = new XElement("x");
XText text = new XText("text-value");
XComment comment = new XComment("comment");
XProcessingInstruction processingInstruction = new XProcessingInstruction("target", "data");
Assert.Equal(XmlNodeType.Document, document.NodeType);
Assert.Equal(XmlNodeType.Element, element.NodeType);
Assert.Equal(XmlNodeType.Text, text.NodeType);
Assert.Equal(XmlNodeType.Comment, comment.NodeType);
Assert.Equal(XmlNodeType.ProcessingInstruction, processingInstruction.NodeType);
}
}
}
| -1 |
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