# mypy: allow-untyped-defs import collections import cProfile import dis import functools import itertools import logging import os import pstats import random import subprocess import sys import threading import time import traceback import types import typing import weakref from pathlib import Path from typing import Any, Callable, Dict, List, Optional, Set from torch._utils_internal import maybe_upload_prof_stats_to_manifold from torch.fx._lazy_graph_module import ( # type: ignore[attr-defined] _use_lazy_graph_module, ) from torch.utils._traceback import CapturedTraceback try: import numpy as np except ModuleNotFoundError: np = None # type: ignore[assignment] import torch import torch._logging from torch._guards import compile_context, CompileContext, CompileId, tracing from torch._logging import structured from torch._utils_internal import compile_time_strobelight_meta, signpost_event from torch.fx.experimental.symbolic_shapes import ( ConstraintViolationError, GuardOnDataDependentSymNode, ) from torch.fx.graph_module import _forward_from_src as original_forward_from_src from torch.nn.parallel.distributed import DistributedDataParallel from torch.utils._python_dispatch import _disable_current_modes from torch.utils._traceback import format_traceback_short from . import config, exc, trace_rules from .backends.registry import CompilerFn from .bytecode_analysis import remove_dead_code, remove_pointless_jumps from .bytecode_transformation import ( check_inst_exn_tab_entries_valid, Instruction, is_generator, propagate_inst_exn_table_entries, transform_code_object, ) from .cache_size import ( CacheSizeRelevantForFrame, compute_cache_size, exceeds_cache_size_limit, is_recompilation, ) from .eval_frame import always_optimize_code_objects, skip_code, TorchPatcher from .exc import ( augment_exc_message, BackendCompilerFailed, format_error_msg, InternalTorchDynamoError, TorchRuntimeError, UncapturedHigherOrderOpError, unimplemented, Unsupported, ) from .guards import ( CheckFunctionManager, get_and_maybe_log_recompilation_reason, GuardedCode, ) from .hooks import Hooks from .replay_record import ExecutionRecord from .symbolic_convert import InstructionTranslator, SpeculationLog from .trace_rules import is_numpy from .types import BytecodeHook from .utils import ( CleanupManager, CompilationMetrics, counters, dynamo_timed, format_bytecode, frame_phase_timing, gen_record_file_name, increment_frame, is_namedtuple, istype, LazyString, orig_code_map, record_compilation_metrics, reset_graph_break_dup_checker, setup_compile_debug, troubleshooting_url, write_record_to_file, ) log = logging.getLogger(__name__) bytecode_log = torch._logging.getArtifactLogger(__name__, "bytecode") graph_break_log = torch._logging.getArtifactLogger(__name__, "graph_breaks") GlobalStateGuard = torch._C._dynamo.guards.GlobalStateGuard compile_lock = threading.RLock() class Tracker: def __init__(self): self.seen = [] self.seen_ids = set() def add(self, strong_obj): idx = id(strong_obj) if idx not in self.seen_ids: obj = weakref.ref(strong_obj, lambda _: self.seen_ids.remove(idx)) self.seen.append(obj) self.seen_ids.add(idx) def __contains__(self, item): return id(item) in self.seen_ids def clear(self): self.seen.clear() self.seen_ids.clear() input_codes = Tracker() output_codes = Tracker() initial_global_state: Optional[GlobalStateGuard] = None @functools.wraps(original_forward_from_src) def fx_forward_from_src_skip_result(*args, **kwargs): # we monkey patch FX to prevent infinite loop of trying to convert # our generated code result: types.FunctionType = original_forward_from_src(*args, **kwargs) skip_code(result.__code__) return result def preserve_global_state(fn): """ Context manager to: 1) Save/restore torch.is_grad_enabled() state 2) Save/restore python random state 3) Save/restore torch random state 4) Monkey patch torch.fx.graph_module._forward_from_src """ @functools.wraps(fn) def _fn(*args, **kwargs): guards = GlobalStateGuard() prior_grad_mode = torch.is_grad_enabled() # Just in case we get left in a bad dispatch state we want to restore # it. This can happen because the dispatch bits aren't a true # stack/counter - so we can't just increment/decrement them as we enter # and leave. with torch._C._PreserveDispatchKeyGuard(): prior_inference_mode = torch.is_inference_mode_enabled() prior_deterministic = torch.are_deterministic_algorithms_enabled() prior_warn_only = torch.is_deterministic_algorithms_warn_only_enabled() py_rng_state = random.getstate() torch_rng_state = torch.random.get_rng_state() if torch.cuda.is_available(): cuda_rng_state = torch.cuda.get_rng_state() allow_tf32 = torch._C._get_cublas_allow_tf32() prior_fwd_from_src = torch.fx.graph_module._forward_from_src torch.fx.graph_module._forward_from_src = fx_forward_from_src_skip_result cleanup = setup_compile_debug() try: return fn(*args, **kwargs) finally: cleanup.close() torch._C._set_grad_enabled(prior_grad_mode) torch.autograd.grad_mode._enter_inference_mode(prior_inference_mode) torch.use_deterministic_algorithms( prior_deterministic, warn_only=prior_warn_only ) random.setstate(py_rng_state) torch.random.set_rng_state(torch_rng_state) if torch.cuda.is_available(): torch.cuda.set_rng_state(cuda_rng_state) # type: ignore[possibly-undefined] torch._C._set_cublas_allow_tf32(allow_tf32) torch.fx.graph_module._forward_from_src = prior_fwd_from_src assert ( guards.check() ), f"Global {guards.reason()}state changed while dynamo tracing, please report a bug" _fn._torchdynamo_orig_callable = fn # type: ignore[attr-defined] return _fn @TorchPatcher.suppress_torch_distributed_warnings def has_tensor_in_frame(frame): """Check if the frame has torch.* related bits""" # Check if the function was decorated using torch._dynamo.optimize if frame.f_code in always_optimize_code_objects: return True # Check if there is global import of torch.* for co_name in frame.f_code.co_names: if co_name in frame.f_globals: obj = frame.f_globals[co_name] if isinstance(obj, types.ModuleType) and ( obj.__name__.startswith("torch.") or obj is torch ): return True # ... or a global import of numpy.* if np and config.trace_numpy and (obj is np or is_numpy(obj)): return True seen_ids: Dict[int, bool] = dict() def has_tensor(obj): """Recursively check if the obj has a tensor""" obj_id = id(obj) if obj_id in seen_ids: return seen_ids[obj_id] seen_ids[obj_id] = False if isinstance(obj, (torch.Tensor, torch.nn.Module)) or ( istype(obj, type) and issubclass(obj, torch.nn.Module) ): seen_ids[obj_id] = True return seen_ids[obj_id] elif ( config.trace_numpy and np and (istype(obj, np.ndarray) or isinstance(obj, np.generic)) ): seen_ids[obj_id] = True return seen_ids[obj_id] elif istype(obj, (list, tuple)): seen_ids[obj_id] = any(has_tensor(v) for v in obj) return seen_ids[obj_id] elif istype(obj, dict): # Some packages like pytest can be updated during runtime. So, make a # copy of values to avoid issues like "RuntimeError: dictionary # changed size during iteration" values = list(obj.values()) seen_ids[obj_id] = any(has_tensor(v) for v in values) return seen_ids[obj_id] elif istype(obj, (str, int, float, type(None), bool)): seen_ids[obj_id] = False return seen_ids[obj_id] elif is_namedtuple(obj) and hasattr(obj, "_fields"): seen_ids[obj_id] = any(has_tensor(getattr(obj, v)) for v in obj._fields) return seen_ids[obj_id] else: # if config.debug: # print( # f"Assuming that object of type {type(obj)} does not have a tensor" # ) return False # Check if the passed arguments are of type Tensor for value in frame.f_locals.values(): if has_tensor(value): return True log.debug( "skipping because no torch.* %s \ %s %s", frame.f_code.co_name, frame.f_code.co_filename, frame.f_code.co_firstlineno, ) return False def exception_handler(e, code, frame=None, export=False): record_filename = None if hasattr(e, "exec_record"): record_filename = gen_record_file_name(e, code) write_record_to_file(record_filename, e.exec_record) e.record_filename = record_filename augment_exc_message(e, export=export) FRAME_COUNTER = 0 FRAME_COMPILE_COUNTER: typing.Counter[int] = collections.Counter() def maybe_cprofile(func): if config.cprofile: return cprofile_wrapper(func) return func def cprofile_wrapper(func): @functools.wraps(func) def profile_wrapper(*args, **kwargs): trace_id = CompileContext.current_trace_id() assert trace_id, "Trace id is None" profile_path = Path( f"/tmp/{func.__name__}_{str(trace_id).replace('/','_')}.profile" ) prof = cProfile.Profile() prof.enable() start_ts = time.time() retval = prof.runcall(func, *args, **kwargs) profile_latency = time.time() - start_ts prof.disable() log.warning( "### Cprofile for %s trace id [%s] took %.3f seconds ###", func.__name__, trace_id, profile_latency, ) ps = pstats.Stats(prof) try: prof.dump_stats(profile_path) except PermissionError: log.warning("Cannot write to %s", str(profile_path)) svg_path = profile_path.with_suffix(".svg") try: gprof2dot_process = subprocess.Popen( [ "gprof2dot", "-f", "pstats", "--node-label=total-time-percentage", "--node-label=self-time-percentage", "--node-label=total-time", str(profile_path), ], stdout=subprocess.PIPE, ) subprocess.check_call( ["dot", "-Tsvg", "-o", str(svg_path)], stdin=gprof2dot_process.stdout, ) log.warning("Generated SVG from profile at %s", str(svg_path)) except FileNotFoundError: log.warning( "Failed to generate SVG from profile -- dumping stats instead." "Try installing gprof2dot and dot for a better visualization" ) ps.sort_stats(pstats.SortKey.TIME).print_stats(20) ps.sort_stats(pstats.SortKey.CUMULATIVE).print_stats(20) if manifold_link := maybe_upload_prof_stats_to_manifold( str(profile_path) ): # fb-only torch._logging.trace_structured( "link", lambda: {"name": "cprofile_manifold_url", "url": manifold_link}, ) return retval return profile_wrapper class ConvertFrameAssert: def __init__( self, compiler_fn: CompilerFn, one_graph: bool = True, export: bool = False, export_constraints=None, ): reset_graph_break_dup_checker() self._torchdynamo_orig_callable = compiler_fn # type: ignore[attr-defined] self._one_graph = one_graph self._export = export self._export_constraints = export_constraints @property def _clone_with_backend(self): return lambda backend: convert_frame_assert( backend, self._one_graph, self._export, self._export_constraints ) def __call__( self, frame: types.FrameType, cache_entry, hooks: Hooks, frame_state, *, skip: int = 0, ): increment_frame() code = frame.f_code cache_size = compute_cache_size(frame, cache_entry) input_codes.add(code) if code in output_codes: return None if ( os.environ.get("TORCHDYNAMO_DEBUG_FUNCTION") and os.environ.get("TORCHDYNAMO_DEBUG_FUNCTION") != code.co_name ): return None if code.co_name == "" and code.co_filename.endswith( ( "transformers/file_utils.py", "transformers/utils/generic.py", "diffusers/utils/outputs.py", ) ): # not needed, but cleans up torchbench error stats return None if code.co_name == "__setattr__": # setattr could be tricky to handle generally, # but also not likely useful to compile- skip the whole frame return None if code.co_name == "__init__" and code.co_filename.startswith( os.path.dirname(torch.optim.__file__) ): # optimizer support is still incomplete see # test_state_dict in test/dynamo/test_optimizers.py return None # Check if the frame is generated by an exec builtin call # TODO - Running exec generated frame seems propagates f_globals to the # next frames. if code.co_name == "" and code.co_filename == "": return None if ( code.co_name == "" and code.co_filename == "" and not bool(frame.f_builtins) ): # namedtuple subclass constructor. Empty builtins cause issue with # len keyword in LIST_LEN guard. return None if is_generator(code): unimplemented("generator") if not has_tensor_in_frame(frame): return None global initial_global_state initial_global_state = GlobalStateGuard() global FRAME_COUNTER if "_id" not in frame_state: frame_state["_id"] = FRAME_COUNTER FRAME_COUNTER += 1 frame_id = frame_state["_id"] frame_compile_id = FRAME_COMPILE_COUNTER[frame_id] FRAME_COMPILE_COUNTER[frame_id] += 1 compile_id = CompileId(frame_id, frame_compile_id) signpost_event( "dynamo", "_convert_frame_assert._compile", { "co_name": code.co_name, "co_filename": code.co_filename, "co_firstlineno": code.co_firstlineno, "cache_size": cache_size.num_cache_entries_with_same_id_matched_objs, "accumulated_cache_size": cache_size.num_cache_entries, }, ) return _compile( frame.f_code, frame.f_globals, frame.f_locals, frame.f_builtins, self._torchdynamo_orig_callable, self._one_graph, self._export, self._export_constraints, hooks, cache_entry, cache_size, frame, frame_state=frame_state, compile_id=compile_id, skip=skip + 1, ) def convert_frame_assert( compiler_fn: CompilerFn, one_graph: bool = True, export: bool = False, export_constraints=None, ): """Fully convert a frame into an FX graph""" return ConvertFrameAssert(compiler_fn, one_graph, export, export_constraints) from collections import OrderedDict from torch.utils.hooks import RemovableHandle if typing.TYPE_CHECKING: from .output_graph import OutputGraph # we have to use `OrderedDict` to make `RemovableHandle` work. _bytecode_hooks: Dict[int, BytecodeHook] = OrderedDict() def register_bytecode_hook(hook: BytecodeHook) -> RemovableHandle: """Register hooks for bytecode generated by Dynamo. The hook can do some logging, as well as return a new code object to be used. Please refer to `BytecodeHook` for the hook signature. """ handle = RemovableHandle(_bytecode_hooks) _bytecode_hooks[handle.id] = hook return handle @compile_time_strobelight_meta(phase_name="_compile") @_use_lazy_graph_module(config.use_lazy_graph_module) def _compile( code: types.CodeType, globals: Dict[str, object], locals: Dict[str, object], builtins: Dict[str, object], compiler_fn: CompilerFn, one_graph: bool, export: bool, export_constraints, hooks: Hooks, cache_entry, cache_size: CacheSizeRelevantForFrame, frame: Optional[types.FrameType] = None, frame_state=None, compile_id=None, *, skip: int = 0, ) -> Optional[GuardedCode]: from torch.fx.experimental.validator import ( bisect, BisectValidationException, translation_validation_enabled, ValidationException, ) # Time spent compiling this frame before restarting or failing analysis dynamo_time_before_restart: float = 0.0 restart_reasons: set[str] = set() output: Optional[OutputGraph] = None tracer: Optional[InstructionTranslator] = None # This is shared across restarts mutated_closure_cell_contents: Set[str] = set() speculation_log = SpeculationLog() torch._dynamo.callback_handler.run_start_callbacks() @preserve_global_state def transform(instructions, code_options): nonlocal output nonlocal tracer speculation_log.restart() tracer = InstructionTranslator( instructions, code, locals, globals, builtins, code_options, compiler_fn, one_graph, export, export_constraints, mutated_closure_cell_contents, frame_state=frame_state, speculation_log=speculation_log, ) try: with tracing(tracer.output.tracing_context), tracer.set_current_tx(): tracer.run() except exc.UnspecializeRestartAnalysis: speculation_log.clear() raise except (exc.SpeculationRestartAnalysis, exc.SkipFrame): raise except Exception: if translation_validation_enabled(): bisect(tracer.output.shape_env) raise finally: tracer.output.call_cleanup_hooks() output = tracer.output assert output is not None assert output.output_instructions instructions[:] = output.output_instructions code_options.update(output.code_options) if config.dead_code_elimination: propagate_inst_exn_table_entries(instructions) check_inst_exn_tab_entries_valid(instructions) instructions[:] = remove_pointless_jumps(remove_dead_code(instructions)) @dynamo_timed(phase_name="entire_frame_compile") @maybe_cprofile def compile_inner( code: types.CodeType, one_graph: bool, hooks: Hooks, transform: Callable[[List[Instruction], Dict[str, Any]], Any], ) -> Optional[GuardedCode]: nonlocal output nonlocal dynamo_time_before_restart nonlocal restart_reasons last_attempt_start_time = start_time = time.time() def log_bytecode(prefix, name, filename, line_no, code): if bytecode_log.isEnabledFor(logging.DEBUG): bytecode_log.debug( format_bytecode(prefix, name, filename, line_no, code) ) log_bytecode( "ORIGINAL BYTECODE", code.co_name, code.co_filename, code.co_firstlineno, code, ) for attempt in itertools.count(): CompileContext.get().attempt = attempt try: out_code = transform_code_object(code, transform) break except exc.RestartAnalysis as e: log.info( "Restarting analysis due to %s", LazyString(format_traceback_short, e.__traceback__), ) # If restart reason is None just log the type of the exception restart_reasons.add(e.restart_reason or str(type(e))) # We now have a new "last attempt", reset the clock last_attempt_start_time = time.time() if attempt > 100: unimplemented("100+ RestartAnalysis() calls") except exc.SkipFrame as e: log.debug( "Skipping frame %s %s \ %s %s", e, code.co_name, code.co_filename, code.co_firstlineno, ) if one_graph: log.debug("No graph captured with one_graph=True") return None log_bytecode( "MODIFIED BYTECODE", code.co_name, code.co_filename, code.co_firstlineno, out_code, # type: ignore[possibly-undefined] ) for hook in _bytecode_hooks.values(): hook_output = hook(code, out_code) if hook_output is not None: out_code = hook_output orig_code_map[out_code] = code output_codes.add(out_code) dynamo_time_before_restart = last_attempt_start_time - start_time assert output is not None # Tests for new code objects. # The rationale for these tests can be found in torch/csrc/dynamo/eval_frame.c # Only test once the code object is created. # They are not tested during runtime. def count_args(code): import inspect return ( code.co_argcount + code.co_kwonlyargcount + bool(code.co_flags & inspect.CO_VARARGS) + bool(code.co_flags & inspect.CO_VARKEYWORDS) ) total_argcount_old = count_args(code) total_argcount_new = count_args(out_code) msg = "arg mismatch: " msg += f"old code object has args {code.co_varnames[:total_argcount_old]}, " msg += f"new code object has args {out_code.co_varnames[:total_argcount_new]}" assert ( code.co_varnames[:total_argcount_old] == out_code.co_varnames[:total_argcount_new] ), msg msg = "free var mismatch: " msg += f"old code object has free var {code.co_freevars}, " msg += f"new code object has free var {out_code.co_freevars}" assert code.co_freevars == out_code.co_freevars, msg msg = "cell var mismatch: " msg += f"old code object has cell var {code.co_cellvars}, " msg += f"new code object has cell var {out_code.co_cellvars}" assert code.co_cellvars == out_code.co_cellvars, msg # Skipping Dynamo on a frame without any extracted graph. # This does not affect eager functionality. But this is necessary # for export for cases where Dynamo-reconstructed bytecode can create # new function frames, confusing export in thinking that there # are extra graphs now. if output.export and output.is_empty_graph(): return None assert output.guards is not None CleanupManager.instance[out_code] = output.cleanups check_fn = CheckFunctionManager( output, hooks.guard_fail_fn if hooks else None, ) guarded_code = GuardedCode(out_code, check_fn.check_fn) if not output.is_empty_graph() and hooks.guard_export_fn is not None: # We should not run the guard_export_fn when Dynamo does not # generate any graph. This can happen in export when TorchDynamo # generated bytecode has some reconstruction logic for mutated # variables which can trigger TorchDynamo on the children frames but # they are benign and do not generate any new graphs. hooks.guard_export_fn(output.guards) return guarded_code with compile_context(CompileContext(compile_id)): # Check recompilations recompile_reasons = None if is_recompilation(cache_size) and frame: recompile_reasons = get_and_maybe_log_recompilation_reason( cache_entry, frame ) exceeded, limit_type = exceeds_cache_size_limit(cache_size) if exceeded: def format_func_info(code): return f"'{code.co_name}' ({code.co_filename}:{code.co_firstlineno})" def format_guard_failures(): if not recompile_reasons: return "Unable to find recompilation reasons" return recompile_reasons[-1] log.warning( "torch._dynamo hit config.%s (%s)\n" " function: %s\n" " last reason: %s\n" 'To log all recompilation reasons, use TORCH_LOGS="recompiles".\n' "To diagnose recompilation issues, see %s.", limit_type, getattr(config, limit_type), format_func_info(code), format_guard_failures(), troubleshooting_url, ) unimplemented(f"{limit_type} reached") log.debug( "torchdynamo start compiling %s %s:%s, stack (elided %s frames):\n%s", code.co_name, code.co_filename, code.co_firstlineno, skip + 2, # -2: omit current frame, omit contextlib decorator "".join(CapturedTraceback.extract(skip=2 + skip).format()), ) # -4: -2 as above, plus trace_structured frames # # NB: the frame looks like this: # # # handled by skip argument # torch/_dynamo/convert_frame.py:1069 in catch_errors # torch/_dynamo/convert_frame.py:910 in _convert_frame # torch/_dynamo/convert_frame.py:464 in _convert_frame_assert # torch/_utils_internal.py:70 in wrapper_function # # # 2 current frame and context lib # env/lib/python3.10/contextlib.py:79 in inner # torch/_dynamo/convert_frame.py:776 in _compile # # # 2 extra here # torch/_logging/_internal.py:1064 in trace_structured # torch/_dynamo/convert_frame.py:780 in torch._logging.trace_structured( "dynamo_start", lambda: { "stack": structured.from_traceback( CapturedTraceback.extract(skip=4 + skip).summary() ) }, ) start_time = time.time() fail_type: Optional[str] = None fail_reason: Optional[str] = None fail_user_frame_filename: Optional[str] = None fail_user_frame_lineno: Optional[int] = None guarded_code = None try: guarded_code = compile_inner(code, one_graph, hooks, transform) return guarded_code except ( Unsupported, TorchRuntimeError, BackendCompilerFailed, AssertionError, ConstraintViolationError, GuardOnDataDependentSymNode, ValidationException, UncapturedHigherOrderOpError, BisectValidationException, ) as e: fail_type = str(type(e)) fail_reason = str(e) exception_handler(e, code, frame, export=export) if e.innermost_user_frame_summary is not None: # type: ignore[union-attr] fail_user_frame_filename = e.innermost_user_frame_summary.filename # type: ignore[union-attr] fail_user_frame_lineno = e.innermost_user_frame_summary.lineno # type: ignore[union-attr] e.compile_id = compile_id # type: ignore[union-attr] raise except Exception as e: fail_type = str(type(e)) fail_reason = str(e) exception_handler(e, code, frame, export=export) if e.innermost_user_frame_summary is not None: # type: ignore[attr-defined] fail_user_frame_filename = e.innermost_user_frame_summary.filename # type: ignore[attr-defined] fail_user_frame_lineno = e.innermost_user_frame_summary.lineno # type: ignore[attr-defined] e.compile_id = compile_id # type: ignore[attr-defined] raise InternalTorchDynamoError(str(e)).with_traceback( e.__traceback__ ) from None finally: if tracer: tracer.output.local_scope = {} from .utils import curr_frame frame_key = str(curr_frame) if ( fail_reason is None and output is not None and frame_key in frame_phase_timing ): guard_count = len(output.guards) shape_env_guard_count = len(output.shape_env.guards) graph_op_count = output.count_calls() graph_node_count = len(output.graph.nodes) graph_input_count = len(output.placeholders) entire_frame_compile_time = frame_phase_timing[frame_key].get( "entire_frame_compile", None ) backend_compile_time = frame_phase_timing[frame_key].get( "backend_compile", None ) inductor_compile_time = frame_phase_timing[frame_key].get( "inductor_compile", None ) code_gen_time = frame_phase_timing[frame_key].get("code_gen", None) non_compliant_ops = {op.__qualname__ for op in output.non_compliant_ops} compliant_custom_ops = { op.__qualname__ for op in output.compliant_custom_ops } else: guard_count = None shape_env_guard_count = None graph_op_count = None graph_node_count = None graph_input_count = None entire_frame_compile_time = None backend_compile_time = None inductor_compile_time = None code_gen_time = None non_compliant_ops = set({}) compliant_custom_ops = set({}) restart_reasons = set() # If compilation failed, the entire time is wasted dynamo_time_before_restart = time.time() - start_time metrics = CompilationMetrics( str(compile_id), frame_key, code.co_name, code.co_filename, code.co_firstlineno, cache_size.num_cache_entries_with_same_id_matched_objs, cache_size.num_cache_entries, guard_count, shape_env_guard_count, graph_op_count, graph_node_count, graph_input_count, start_time, entire_frame_compile_time, backend_compile_time, inductor_compile_time, code_gen_time, fail_type, fail_reason, fail_user_frame_filename, fail_user_frame_lineno, non_compliant_ops, compliant_custom_ops, restart_reasons, dynamo_time_before_restart, guarded_code is not None, ) record_compilation_metrics(metrics) torch._dynamo.callback_handler.run_end_callbacks() class ConvertFrame: def __init__(self, compiler_fn: CompilerFn, hooks: Hooks): self._torchdynamo_orig_callable = compiler_fn self._inner_convert = convert_frame_assert(compiler_fn, one_graph=False) self._hooks = hooks @property def _clone_with_backend(self): return lambda backend: convert_frame(backend, self._hooks) def __call__( self, frame: types.FrameType, cache_entry, hooks: Hooks, frame_state, skip: int = 0, ): counters["frames"]["total"] += 1 try: result = self._inner_convert( frame, cache_entry, hooks, frame_state, skip=skip + 1 ) counters["frames"]["ok"] += 1 return result except Exception as e: # These two exception types are "soft" failure, in the sense that # we know this is due to something we didn't implement all the # way, scare the user less about it. That being said, if you # are trying to understand why a graph break happened, it's still # important to have this information, so offer it. # # NB: NotImplementedError used to be on this list, but actually # it is impossible for it to reach here, as it is converted into # InternalTorchDynamoError. This behavior seemed reasonable # to me (ezyang, Aug 2023) so I kept it, but maybe at some point # someone wanted these to also get suppressed. If so, you'll # need to make these exceptions not get wrapped # We intentionally don't want to suppress error here. if isinstance(e, UncapturedHigherOrderOpError): raise soft_fail = isinstance(e, Unsupported) # This is a soft failure. In the sense, the code path reaches here # when we do not support graph breaks on bytecodes like LOAD_ATTR, # BUILD_SET etc. In such case, we can fallback to eager without # scaring users. if isinstance(e, Unsupported) and graph_break_log.isEnabledFor( logging.DEBUG ): # Log this message in the graph break. Also use the string # "skip: " to tell that the whole frame is falling back to # eager. if hasattr(e, "compile_id"): with compile_context(CompileContext(e.compile_id)): # type: ignore[attr-defined] user_stack = e.real_stack user_stack_formatted = "".join( traceback.format_list(user_stack) ) graph_break_log.debug( "Graph break: skip: from user code at:\n%s", user_stack_formatted, exc_info=True, ) if not config.suppress_errors and not soft_fail: raise # Suppress the error. NB: It's very important to do the # suppression logging HERE, where the actual suppression # happens. Previously it was somewhere else and so it was # possible to accidentally not log at all. record_filename = getattr(e, "record_filename", None) code = frame.f_code error_msg = format_error_msg(e, code, record_filename, frame) if soft_fail: log.info(error_msg, exc_info=True) else: log.warning(error_msg, exc_info=True) return None def convert_frame(compiler_fn: CompilerFn, hooks: Hooks): """Try to convert a frame into an FX graph, if error leave frame unmodified""" return ConvertFrame(compiler_fn, hooks) # TODO mlazos: add support for same args, or record them def replay(filename): from .backends.debugging import eager original_replay_val = config.replay_record_enabled config.replay_record_enabled = False with open(filename, "rb") as in_file: record = ExecutionRecord.load(in_file) record.globals = dict(itertools.chain(record.globals.items(), globals().items())) try: _compile( record.code, record.globals, record.locals, record.builtins, compiler_fn=eager, one_graph=False, export=False, export_constraints=None, hooks=Hooks(), cache_size=CacheSizeRelevantForFrame(0, 0), frame=None, frame_state={}, ) finally: config.replay_record_enabled = original_replay_val def first_real_inst_idx(code): if sys.version_info < (3, 11): return 0 for inst in dis.get_instructions(code): if inst.opname == "RESUME": return inst.offset // 2 raise RuntimeError("RESUME instruction not found in code") class CatchErrorsWrapper: def __init__(self, callback, hooks): functools.wraps(callback)(self) self._torchdynamo_orig_callable = callback self.hooks = hooks def __call__(self, frame, cache_entry, frame_state): assert frame_state is not None is_skipfile = trace_rules.check(frame.f_code) if ( # TODO: the first condition is not covered by any test frame.f_lasti >= first_real_inst_idx(frame.f_code) or is_skipfile or config.disable ): if log.isEnabledFor(logging.DEBUG): skip_reason = ( "traced frame already" if frame.f_lasti >= first_real_inst_idx(frame.f_code) else ( "in skipfiles" if trace_rules.check(frame.f_code) else "dynamo tracing is disabled" ) ) log.debug( "skipping: %s (reason: %s, file: %s)", frame.f_code.co_name, skip_reason, frame.f_code.co_filename, ) return None if frame.f_code.co_filename == "" and frame.f_code.co_name == "__new__": # nametuple constructor return None if config._get_optimize_ddp_mode() == "ddp_optimizer": ddp_module = DistributedDataParallel._get_active_ddp_module() if ddp_module: with compile_lock: from torch._dynamo.backends.distributed import DDPOptimizer ddp_optimizer = DDPOptimizer( bucket_bytes_cap=ddp_module.bucket_bytes_cap, backend_compile_fn=self._torchdynamo_orig_callable._torchdynamo_orig_callable, ) assert hasattr( self._torchdynamo_orig_callable, "_clone_with_backend" ), "DDPOptimizer only supports callback fns that know how to clone themselves." hijacked_callback = ( self._torchdynamo_orig_callable._clone_with_backend( ddp_optimizer.compile_fn, ) ) return hijacked_callback( frame, cache_entry, self.hooks, frame_state ) with compile_lock, _disable_current_modes(): # skip=1: skip this frame return self._torchdynamo_orig_callable( frame, cache_entry, self.hooks, frame_state, skip=1 ) def catch_errors_wrapper(callback, hooks: Hooks): return CatchErrorsWrapper(callback, hooks)