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omniverse-code/kit/exts/omni.kit.window.extensions/ext_template/README.md | # Extension Project Template
This project was automatically generated.
- `app` - It is a folder link to the location of your *Omniverse Kit* based app.
- `exts` - It is a folder where you can add new extensions. It was automatically added to extension search path. (Extension Manager -> Gear Icon -> Extension Search Path).
Open this folder using Visual Studio Code. It will suggest you to install few extensions that will make python experience better.
Look for "${ext_id}" extension in extension manager and enable it. Try applying changes to any python files, it will hot-reload and you can observe results immediately.
Alternatively, you can launch your app from console with this folder added to search path and your extension enabled, e.g.:
```
> app\omni.code.bat --ext-folder exts --enable company.hello.world
```
# App Link Setup
If `app` folder link doesn't exist or broken it can be created again. For better developer experience it is recommended to create a folder link named `app` to the *Omniverse Kit* app installed from *Omniverse Launcher*. Convenience script to use is included.
Run:
```
> link_app.bat
```
If successful you should see `app` folder link in the root of this repo.
If multiple Omniverse apps is installed script will select recommended one. Or you can explicitly pass an app:
```
> link_app.bat --app create
```
You can also just pass a path to create link to:
```
> link_app.bat --path "C:/Users/bob/AppData/Local/ov/pkg/create-2021.3.4"
```
# Sharing Your Extensions
This folder is ready to be pushed to any git repository. Once pushed direct link to a git repository can be added to *Omniverse Kit* extension search paths.
Link might look like this: `git://github.com/[user]/[your_repo].git?branch=main&dir=exts`
Notice `exts` is repo subfolder with extensions. More information can be found in "Git URL as Extension Search Paths" section of developers manual.
To add a link to your *Omniverse Kit* based app go into: Extension Manager -> Gear Icon -> Extension Search Path
| 2,033 | Markdown | 37.377358 | 258 | 0.755042 |
omniverse-code/kit/exts/omni.kit.window.extensions/ext_template/tools/scripts/link_app.py | import argparse
import json
import os
import sys
import packmanapi
import urllib3
def find_omniverse_apps():
http = urllib3.PoolManager()
try:
r = http.request("GET", "http://127.0.0.1:33480/components")
except Exception as e:
print(f"Failed retrieving apps from an Omniverse Launcher, maybe it is not installed?\nError: {e}")
sys.exit(1)
apps = {}
for x in json.loads(r.data.decode("utf-8")):
latest = x.get("installedVersions", {}).get("latest", "")
if latest:
for s in x.get("settings", []):
if s.get("version", "") == latest:
root = s.get("launch", {}).get("root", "")
apps[x["slug"]] = (x["name"], root)
break
return apps
def create_link(src, dst):
print(f"Creating a link '{src}' -> '{dst}'")
packmanapi.link(src, dst)
APP_PRIORITIES = ["code", "create", "view"]
if __name__ == "__main__":
parser = argparse.ArgumentParser(description="Create folder link to Kit App installed from Omniverse Launcher")
parser.add_argument(
"--path",
help="Path to Kit App installed from Omniverse Launcher, e.g.: 'C:/Users/bob/AppData/Local/ov/pkg/create-2021.3.4'",
required=False,
)
parser.add_argument(
"--app", help="Name of Kit App installed from Omniverse Launcher, e.g.: 'code', 'create'", required=False
)
args = parser.parse_args()
path = args.path
if not path:
print("Path is not specified, looking for Omniverse Apps...")
apps = find_omniverse_apps()
if len(apps) == 0:
print(
"Can't find any Omniverse Apps. Use Omniverse Launcher to install one. 'Code' is the recommended app for developers."
)
sys.exit(0)
print("\nFound following Omniverse Apps:")
for i, slug in enumerate(apps):
name, root = apps[slug]
print(f"{i}: {name} ({slug}) at: '{root}'")
if args.app:
selected_app = args.app.lower()
if selected_app not in apps:
choices = ", ".join(apps.keys())
print(f"Passed app: '{selected_app}' is not found. Specify one of the following found Apps: {choices}")
sys.exit(0)
else:
selected_app = next((x for x in APP_PRIORITIES if x in apps), None)
if not selected_app:
selected_app = next(iter(apps))
print(f"\nSelected app: {selected_app}")
_, path = apps[selected_app]
if not os.path.exists(path):
print(f"Provided path doesn't exist: {path}")
else:
SCRIPT_ROOT = os.path.dirname(os.path.realpath(__file__))
create_link(f"{SCRIPT_ROOT}/../../app", path)
print("Success!")
| 2,814 | Python | 32.117647 | 133 | 0.562189 |
omniverse-code/kit/exts/omni.kit.window.extensions/ext_template/tools/packman/config.packman.xml | <config remotes="cloudfront">
<remote2 name="cloudfront">
<transport actions="download" protocol="https" packageLocation="d4i3qtqj3r0z5.cloudfront.net/${name}@${version}" />
</remote2>
</config>
| 211 | XML | 34.333328 | 123 | 0.691943 |
omniverse-code/kit/exts/omni.kit.window.extensions/ext_template/tools/packman/bootstrap/install_package.py | # Copyright 2019 NVIDIA CORPORATION
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
# http://www.apache.org/licenses/LICENSE-2.0
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import logging
import shutil
import sys
import tempfile
import zipfile
__author__ = "hfannar"
logging.basicConfig(level=logging.WARNING, format="%(message)s")
logger = logging.getLogger("install_package")
class TemporaryDirectory:
def __init__(self):
self.path = None
def __enter__(self):
self.path = tempfile.mkdtemp()
return self.path
def __exit__(self, type, value, traceback):
# Remove temporary data created
shutil.rmtree(self.path)
def install_package(package_src_path, package_dst_path):
with zipfile.ZipFile(package_src_path, allowZip64=True) as zip_file, TemporaryDirectory() as temp_dir:
zip_file.extractall(temp_dir)
# Recursively copy (temp_dir will be automatically cleaned up on exit)
try:
# Recursive copy is needed because both package name and version folder could be missing in
# target directory:
shutil.copytree(temp_dir, package_dst_path)
except OSError as exc:
logger.warning("Directory %s already present, packaged installation aborted" % package_dst_path)
else:
logger.info("Package successfully installed to %s" % package_dst_path)
install_package(sys.argv[1], sys.argv[2])
| 1,844 | Python | 33.166666 | 108 | 0.703362 |
omniverse-code/kit/exts/omni.kit.window.extensions/ext_template/exts/[ext_id]/[python_module]/extension.py | import omni.ext
import omni.ui as ui
# Functions and vars are available to other extension as usual in python: `example.python_ext.some_public_function(x)`
def some_public_function(x: int):
print("[${ext_id}] some_public_function was called with x: ", x)
return x ** x
# Any class derived from `omni.ext.IExt` in top level module (defined in `python.modules` of `extension.toml`) will be
# instantiated when extension gets enabled and `on_startup(ext_id)` will be called. Later when extension gets disabled
# on_shutdown() is called.
class ${ext_name}Extension(omni.ext.IExt):
# ext_id is current extension id. It can be used with extension manager to query additional information, like where
# this extension is located on filesystem.
def on_startup(self, ext_id):
print("[${ext_id}] ${ext_title} startup")
self._count = 0
self._window = ui.Window("My Window", width=300, height=300)
with self._window.frame:
with ui.VStack():
label = ui.Label("")
def on_click():
self._count += 1
label.text = f"count: {self._count}"
def on_reset():
self._count = 0
label.text = "empty"
on_reset()
with ui.HStack():
ui.Button("Add", clicked_fn=on_click)
ui.Button("Reset", clicked_fn=on_reset)
def on_shutdown(self):
print("[${ext_id}] ${ext_title} shutdown")
| 1,533 | Python | 33.863636 | 119 | 0.58578 |
omniverse-code/kit/exts/omni.kit.window.extensions/ext_template/exts/[ext_id]/[python_module]/__init__.py | from .extension import *
| 25 | Python | 11.999994 | 24 | 0.76 |
omniverse-code/kit/exts/omni.kit.window.extensions/ext_template/exts/[ext_id]/[python_module]/tests/__init__.py | from .test_hello_world import * | 31 | Python | 30.999969 | 31 | 0.774194 |
omniverse-code/kit/exts/omni.kit.window.extensions/ext_template/exts/[ext_id]/[python_module]/tests/test_hello_world.py | # NOTE:
# omni.kit.test - std python's unittest module with additional wrapping to add suport for async/await tests
# For most things refer to unittest docs: https://docs.python.org/3/library/unittest.html
import omni.kit.test
# Extnsion for writing UI tests (simulate UI interaction)
import omni.kit.ui_test as ui_test
# Import extension python module we are testing with absolute import path, as if we are external user (other extension)
import ${python_module}
# Having a test class dervived from omni.kit.test.AsyncTestCase declared on the root of module will make it auto-discoverable by omni.kit.test
class Test(omni.kit.test.AsyncTestCase):
# Before running each test
async def setUp(self):
pass
# After running each test
async def tearDown(self):
pass
# Actual test, notice it is "async" function, so "await" can be used if needed
async def test_hello_public_function(self):
result = ${python_module}.some_public_function(4)
self.assertEqual(result, 256)
async def test_window_button(self):
# Find a label in our window
label = ui_test.find("My Window//Frame/**/Label[*]")
# Find buttons in our window
add_button = ui_test.find("My Window//Frame/**/Button[*].text=='Add'")
reset_button = ui_test.find("My Window//Frame/**/Button[*].text=='Reset'")
# Click reset button
await reset_button.click()
self.assertEqual(label.widget.text, "empty")
await add_button.click()
self.assertEqual(label.widget.text, "count: 1")
await add_button.click()
self.assertEqual(label.widget.text, "count: 2")
| 1,668 | Python | 34.510638 | 142 | 0.678657 |
omniverse-code/kit/exts/omni.kit.window.extensions/ext_template/exts/[ext_id]/config/extension.toml | [package]
# Semantic Versioning is used: https://semver.org/
version = "1.0.0"
# Lists people or organizations that are considered the "authors" of the package.
authors = ["NVIDIA"]
# The title and description fields are primarily for displaying extension info in UI
title = "${ext_title}"
description="A simple python extension example to use as a starting point for your extensions."
# Path (relative to the root) or content of readme markdown file for UI.
readme = "docs/README.md"
# URL of the extension source repository.
repository = ""
# One of categories for UI.
category = "Example"
# Keywords for the extension
keywords = ["kit", "example"]
# Location of change log file in target (final) folder of extension, relative to the root.
# More info on writing changelog: https://keepachangelog.com/en/1.0.0/
changelog="docs/CHANGELOG.md"
# Preview image and icon. Folder named "data" automatically goes in git lfs (see .gitattributes file).
# Preview image is shown in "Overview" of Extensions window. Screenshot of an extension might be a good preview image.
preview_image = "data/preview.png"
# Icon is shown in Extensions window, it is recommended to be square, of size 256x256.
icon = "data/icon.png"
# Use omni.ui to build simple UI
[dependencies]
"omni.kit.uiapp" = {}
# Main python module this extension provides, it will be publicly available as "import ${python_module}".
[[python.module]]
name = "${python_module}"
[[test]]
# Extra dependencies only to be used during test run
dependencies = [
"omni.kit.ui_test" # UI testing extension
]
| 1,570 | TOML | 31.729166 | 118 | 0.73949 |
omniverse-code/kit/exts/omni.kit.window.extensions/ext_template/exts/[ext_id]/docs/CHANGELOG.md | # Changelog
The format is based on [Keep a Changelog](https://keepachangelog.com/en/1.0.0/).
## [1.0.0] - 2021-04-26
- Initial version of extension UI template with a window
| 178 | Markdown | 18.888887 | 80 | 0.702247 |
omniverse-code/kit/exts/omni.kit.window.extensions/ext_template/exts/[ext_id]/docs/README.md | # Python Extension Example [${ext_id}]
This is an example of pure python Kit extension. It is intended to be copied and serve as a template to create new extensions.
| 168 | Markdown | 32.799993 | 126 | 0.761905 |
omniverse-code/kit/exts/omni.kit.window.extensions/ext_template/exts/[ext_id]/docs/index.rst | ${ext_id}
#############################
Example of Python only extension
.. toctree::
:maxdepth: 1
README
CHANGELOG
.. automodule::"${python_module}"
:platform: Windows-x86_64, Linux-x86_64
:members:
:undoc-members:
:show-inheritance:
:imported-members:
:exclude-members: contextmanager
| 326 | reStructuredText | 14.571428 | 43 | 0.592025 |
omniverse-code/kit/exts/omni.kit.window.extensions/PACKAGE-LICENSES/omni.kit.window.extensions-LICENSE.md | Copyright (c) 2020, NVIDIA CORPORATION. All rights reserved.
NVIDIA CORPORATION and its licensors retain all intellectual property
and proprietary rights in and to this software, related documentation
and any modifications thereto. Any use, reproduction, disclosure or
distribution of this software and related documentation without an express
license agreement from NVIDIA CORPORATION is strictly prohibited. | 412 | Markdown | 57.999992 | 74 | 0.839806 |
omniverse-code/kit/exts/omni.kit.window.extensions/config/extension.toml | [package]
title = "Extensions"
description = "Customize and personalize Kit with extensions"
version = "1.1.1"
category = "Internal"
feature = true
changelog = "docs/CHANGELOG.md"
[dependencies]
"omni.kit.async_engine" = {}
"omni.kit.clipboard" = {}
"omni.kit.commands" = {}
"omni.kit.test" = {}
"omni.kit.widget.graph" = {}
"omni.ui" = {}
"omni.client" = {}
"omni.kit.menu.utils" = {}
[[python.module]]
name = "omni.kit.window.extensions"
[settings]
# Enable publish and unpublish from UI feature:
persistent.exts."omni.kit.window.extensions".publishingEnabled = false
# Open folders and files in VSCode instead of OS file explorer:
persistent.exts."omni.kit.window.extensions".openInVSCode = false
exts."omni.kit.window.extensions".docUrlInternal = "http://omniverse-docs.s3-website-us-east-1.amazonaws.com/${extName}/${version}"
exts."omni.kit.window.extensions".docUrlExternal = "https://docs.omniverse.nvidia.com/kit/docs/${extName}/${version}"
# Show Community extensions tab. Just always show or have an option to manually enable.
exts."omni.kit.window.extensions".communityTabEnabled = true
exts."omni.kit.window.extensions".communityTabOption = true
# Links to create menu entries for under '+'
exts."omni.kit.window.extensions".openExampleLinks = [
["Open Extension Template On Github", "https://github.com/NVIDIA-Omniverse/kit-extension-template"]
]
[[test]]
args = ["--reset-user"]
pythonTests.unreliable = [ "*UNRELIABLE*" ] #See https://nvidia-omniverse.atlassian.net/browse/OM-46331
stdoutFailPatterns.exclude = [
"*Failed to acquire interface*while unloading all plugins*"
]
unreliable = true # OM-59453
| 1,637 | TOML | 32.428571 | 131 | 0.736103 |
omniverse-code/kit/exts/omni.kit.window.extensions/omni/kit/window/extensions/common.py | # Copyright (c) 2018-2020, NVIDIA CORPORATION. All rights reserved.
#
# NVIDIA CORPORATION and its licensors retain all intellectual property
# and proprietary rights in and to this software, related documentation
# and any modifications thereto. Any use, reproduction, disclosure or
# distribution of this software and related documentation without an express
# license agreement from NVIDIA CORPORATION is strictly prohibited.
#
import asyncio
import os
import os.path
from enum import Enum
from functools import lru_cache
from string import Template
from typing import Callable, Dict, List, Tuple
import carb.events
import carb.settings
import carb.tokens
import omni.kit.app
from . import ext_controller
from .utils import get_ext_info_dict, get_extpath_git_ext, get_setting, set_default_and_get_setting, show_ok_popup
# Extension root path. Set when extension starts.
EXT_ROOT = None
REGISTRIES_CHANGED_EVENT = carb.events.type_from_string("omni.kit.registry.nucleus.REGISTRIES_CHANGED_EVENT")
REGISTRIES_SETTING = "/exts/omni.kit.registry.nucleus/registries"
USER_REGISTRIES_SETTING = "/persistent/exts/omni.kit.registry.nucleus/userRegistries"
EXTENSION_PULL_STARTED_EVENT = carb.events.type_from_string("omni.kit.window.extensions.EXTENSION_PULL_STARTED_EVENT")
COMMUNITY_TAB_TOGGLE_EVENT = carb.events.type_from_string("omni.kit.window.extensions.COMMUNITY_TAB_TOGGLE_EVENT")
REMOTE_IMAGE_SUPPORTED_EXTS = {".png"}
def path_is_parent(parent_path, child_path):
try:
return os.path.commonpath([parent_path]) == os.path.commonpath([parent_path, child_path])
except ValueError:
return False
def is_in_omni_documents(path):
return path_is_parent(get_omni_documents_path(), path)
@lru_cache()
def get_icons_path() -> str:
assert EXT_ROOT is not None, "This function should be called only after EXT_ROOT is set"
return f"{EXT_ROOT}/icons"
@lru_cache()
def get_omni_documents_path() -> str:
return os.path.abspath(carb.tokens.get_tokens_interface().resolve("${omni_documents}"))
@lru_cache()
def get_kit_path() -> str:
return os.path.abspath(carb.tokens.get_tokens_interface().resolve("${kit}"))
@lru_cache()
def get_categories() -> Dict:
icons_path = get_icons_path()
categories = {
"animation": {"name": "Animation", "image": f"{icons_path}/data/category-animation.png"},
"graph": {"name": "Graph", "image": f"{icons_path}/data/category-graph.png"},
"rendering": {"name": "Lighting & Rendering", "image": f"{icons_path}/data/category-rendering.png"},
"audio": {"name": "Audio", "image": f"{icons_path}/data/category-audio.png"},
"simulation": {"name": "Simulation", "image": f"{icons_path}/data/category-simulation.png"},
"services": {"name": "Services", "image": f"{icons_path}/data/category-internal.png"},
"core": {"name": "Core", "image": f"{icons_path}/data/category-core.png"},
"example": {"name": "Example", "image": f"{icons_path}/data/category-example.png"},
"internal": {"name": "Internal", "image": f"{icons_path}/data/category-internal.png", "hidden": False},
"legacy": {"name": "Legacy", "image": f"{icons_path}/data/category-legacy.png"},
"other": {"name": "Other", "image": f"{icons_path}/data/category-internal.png"},
}
return categories
class ExtSource(Enum):
NVIDIA = 0
THIRD_PARTY = 1
def get_ui_name(self):
return "NVIDIA" if self == ExtSource.NVIDIA else "THIRD PARTY"
class ExtAuthorGroup(Enum):
NVIDIA = 0
PARTNER = 1
COMMUNITY_VERIFIED = 2
COMMUNITY_UNVERIFIED = 3
USER = 4
def get_ui_name(self):
if self == ExtAuthorGroup.NVIDIA:
return "NVIDIA"
if self == ExtAuthorGroup.PARTNER:
return "PARTNER"
if self == ExtAuthorGroup.USER:
return "USER"
return "COMMUNITY"
def get_registries():
settings = carb.settings.get_settings()
settings_dict = settings.get_settings_dictionary("")
for key, is_user in [(REGISTRIES_SETTING, False), (USER_REGISTRIES_SETTING, True)]:
for r in settings_dict.get(key[1:], []):
name = r.get("name", "")
url = r.get("url", "")
url = carb.tokens.get_tokens_interface().resolve(url)
yield name, url, is_user
@lru_cache()
def get_registry_url(registry_name):
version = get_setting("/app/extensions/registryVersion", "NOT_SET")
for name, url, _ in get_registries():
if name == registry_name:
return f"{url}/{version}"
return None
class ExtensionCommonInfo:
def __init__(self, ext_id, ext_info, is_local):
self.id = ext_id
package_dict = ext_info.get("package", {})
self.fullname = package_dict["name"]
self.title = package_dict.get("title", "").upper() or self.fullname
self.name = self.title.lower() # used for sorting
self.description = package_dict.get("description", "") or "No Description"
self.version = package_dict.get("version", None)
self.keywords = package_dict.get("keywords", [])
self.toggleable = package_dict.get("toggleable", True)
self.feature = package_dict.get("feature", False)
self.authors = package_dict.get("authors", "")
self.repository = package_dict.get("repository", "")
self.package_id = package_dict.get("packageId", "")
self.is_kit_file = ext_info.get("isKitFile", False)
self.is_app = ("app" in self.keywords) or package_dict.get("app", self.is_kit_file)
self.is_startup = ext_controller.is_startup_ext(self.fullname)
self.is_startup_version = ext_controller.is_startup_ext(ext_id)
self.is_featured = ext_controller.is_featured_ext(self.fullname)
self.is_local = is_local
state_dict = ext_info.get("state", {})
self.failed = state_dict.get("failed", False)
self.enabled = state_dict.get("enabled", False)
self.reloadable = state_dict.get("reloadable", False)
self.is_pulled = state_dict.get("isPulled", False)
self.is_toggle_blocked = (self.enabled and not self.reloadable) or (not self.toggleable)
self.path = ext_info.get("path", "")
self.provider_name = None
# Only if solve_extensions is called
self.non_toggleable_deps = []
self.solver_error = ""
self.category = package_dict.get("category", "other").lower()
# Ext sources
if package_dict.get("exchange", False):
if package_dict.get("partner", False):
self.author_group = ExtAuthorGroup.PARTNER
else:
self.author_group = ExtAuthorGroup.COMMUNITY_VERIFIED
elif not package_dict.get("trusted", True):
self.author_group = ExtAuthorGroup.COMMUNITY_UNVERIFIED
else:
self.author_group = ExtAuthorGroup.NVIDIA
# Extension location tag for UI and user extensions
self.location_tag = ""
if is_local:
abs_path = os.path.abspath(self.path)
if ext_info.get("isInCache", False):
self.location_tag = "INSTALLED"
elif self.author_group == ExtAuthorGroup.NVIDIA and (
ext_info.get("isUser", False) or is_in_omni_documents(abs_path)
):
self.author_group = ExtAuthorGroup.USER
else:
git_ext = get_extpath_git_ext()
if git_ext and path_is_parent(git_ext.get_cache_path(), abs_path):
self.location_tag = "GIT"
# Finalize source
self.ext_source = ExtSource.NVIDIA if self.author_group == ExtAuthorGroup.NVIDIA else ExtSource.THIRD_PARTY
self.is_untrusted = self.author_group == ExtAuthorGroup.COMMUNITY_UNVERIFIED
# Remote exts
if not is_local:
self.location_tag = "REMOTE"
self.provider_name = ext_info.get("registryProviderName", None)
# If unknown category -> fallback to other
categories = get_categories()
if self.category not in categories:
self.category = "other"
# For icon by default use category icon, can be overriden with custom:
self.icon_path = self._build_image_resource_path(package_dict, "icon", categories[self.category]["image"])
# For preview image there is no default
self.preview_image_path = self._build_image_resource_path(package_dict, "preview_image")
def _build_image_resource_path(self, package_dict, key, default_path=None):
resource_path = default_path
if self.is_local:
path = package_dict.get(key, None)
if path:
icon_path = os.path.join(self.path, path)
if os.path.exists(icon_path):
resource_path = icon_path
else:
path = package_dict.get(key + "_remote", None)
if path:
if os.path.splitext(path)[1] not in REMOTE_IMAGE_SUPPORTED_EXTS:
return default_path
url = get_registry_url(self.provider_name)
if url:
resource_path = url + "/" + path
return resource_path
def solve_extensions(self):
# This function is costly, so we don't run it for each item. Only on demand when UI shows selected extension.
manager = omni.kit.app.get_app().get_extension_manager()
result, exts, err = manager.solve_extensions([self.id], add_enabled=True, return_only_disabled=True)
if not result:
self.failed = True
self.non_toggleable_deps = []
self.solver_error = err
if result:
for ext in exts:
ext_dict, _ = get_ext_info_dict(manager, ext)
if not ext_dict.get("package", {}).get("toggleable", True):
self.non_toggleable_deps.append(ext["id"])
def build_ext_info(ext_id, package_id=None) -> Tuple[ExtensionCommonInfo, dict]:
manager = omni.kit.app.get_app().get_extension_manager()
package_id = package_id or ext_id
ext_info_remote = manager.get_registry_extension_dict(package_id)
ext_info_local = manager.get_extension_dict(ext_id)
is_local = ext_info_local is not None
ext_info = ext_info_local or ext_info_remote
if not ext_info:
return None, None
ext_info = ext_info.get_dict() # convert to python dict to prolong lifetime
return ExtensionCommonInfo(ext_id, ext_info, is_local), ext_info
def check_can_be_toggled(ext_id: str, for_autoload=False):
ext_item, _ = build_ext_info(ext_id)
if ext_item:
ext_item.solve_extensions()
# Error to solve?
if ext_item.solver_error:
text = "Failed to solve all extension dependencies:"
text += f"\n{ext_item.solver_error}"
asyncio.ensure_future(show_ok_popup("Error", text))
return False
if not for_autoload and ext_item.non_toggleable_deps:
text = "This extension cannot be enabled at runtime.\n"
text += "Some of dependencies require an app restart to be enabled (toggleable=false):\n\n"
for ext in ext_item.non_toggleable_deps:
text += f" * {ext}"
text += "\n\n"
text += "Set this extension to autoload and restart an app to enable it."
asyncio.ensure_future(show_ok_popup("Warning", text))
return False
return True
def toggle_extension(ext_id: str, enable: bool):
if enable and not check_can_be_toggled(ext_id):
return False
omni.kit.commands.execute("ToggleExtension", ext_id=ext_id, enable=enable)
return True
async def pull_extension_async(ext_item: ExtensionCommonInfo, on_pull_started_fn: Callable = None):
if ext_item.is_untrusted:
cancel = False
def on_cancel(dialog):
nonlocal cancel
cancel = True
dialog.hide()
message = """
ATTENTION: UNVERIFIED COMMUNITY EXTENSION
This extension will be installed directly from the repository (see "Repo Url").
It is not verified by NVIDIA and may contain bugs or malicious code. Do you want to proceed?
"""
await show_ok_popup(
"Warning",
message,
ok_label="Install",
cancel_label="Cancel",
disable_cancel_button=False,
cancel_handler=on_cancel,
width=600,
)
if cancel:
return
ext_manager = omni.kit.app.get_app().get_extension_manager()
ext_manager.pull_extension_async(ext_item.id)
omni.kit.app.get_app().get_message_bus_event_stream().push(EXTENSION_PULL_STARTED_EVENT)
if on_pull_started_fn:
on_pull_started_fn()
class SettingBoolValue:
def __init__(self, path: str, default: bool):
self._path = path
self._value = set_default_and_get_setting(path, default)
def get(self) -> bool:
return self._value
def set_bool(self, value: bool):
self._value = value
carb.settings.get_settings().set(self._path, self._value)
def __bool__(self):
return self.get()
def build_doc_urls(ext_item: ExtensionCommonInfo) -> List[str]:
"""Produce possible candiates for doc urls"""
# Base url
if omni.kit.app.get_app().is_app_external():
doc_url = get_setting("/exts/omni.kit.window.extensions/docUrlExternal", "")
else:
doc_url = get_setting("/exts/omni.kit.window.extensions/docUrlInternal", "")
if not doc_url:
return []
# Build candidates. Prefer exact version, fallback to just a link to latest
candidates = []
for v in [ext_item.version, "latest", ""]:
candidates.append(Template(doc_url).safe_substitute({"version": v, "extName": ext_item.fullname}))
return candidates
@lru_cache()
def is_community_tab_always_enabled() -> bool:
return get_setting("/exts/omni.kit.window.extensions/communityTabEnabled", True)
def is_community_tab_enabled_as_option() -> bool:
if is_community_tab_always_enabled():
return False
return get_setting("/exts/omni.kit.window.extensions/communityTabOption", True)
class ExtOptions:
def __init__(self):
self.community_tab = None
if is_community_tab_enabled_as_option():
self.community_tab = SettingBoolValue(
"/persistent/exts/omni.kit.window.extensions/communityTabEnabled", default=False
)
self.publishing = SettingBoolValue(
"/persistent/exts/omni.kit.window.extensions/publishingEnabled", default=False
)
@lru_cache()
def get_options() -> ExtOptions:
return ExtOptions()
def is_community_tab_enabled() -> bool:
# Can be either always enabled, or as a toggleable preference
if is_community_tab_always_enabled():
return True
return get_options().community_tab is not None and get_options().community_tab
@lru_cache()
def get_open_example_links():
return get_setting("/exts/omni.kit.window.extensions/openExampleLinks", [])
| 15,092 | Python | 36.451613 | 118 | 0.633316 |
omniverse-code/kit/exts/omni.kit.window.extensions/omni/kit/window/extensions/exts_properties_paths.py | # Copyright (c) 2018-2020, NVIDIA CORPORATION. All rights reserved.
#
# NVIDIA CORPORATION and its licensors retain all intellectual property
# and proprietary rights in and to this software, related documentation
# and any modifications thereto. Any use, reproduction, disclosure or
# distribution of this software and related documentation without an express
# license agreement from NVIDIA CORPORATION is strictly prohibited.
#
import omni.kit.app
import omni.ui as ui
from .styles import get_style
from .utils import cleanup_folder, copy_text, get_extpath_git_ext
PATH_TYPE_TO_LABEL = {
omni.ext.ExtensionPathType.COLLECTION: "[dir]",
omni.ext.ExtensionPathType.COLLECTION_USER: "[user dir]",
omni.ext.ExtensionPathType.COLLECTION_CACHE: "[cache dir]",
omni.ext.ExtensionPathType.DIRECT_PATH: "[ext]",
omni.ext.ExtensionPathType.EXT_1_FOLDER: "[exts 1.0]",
}
PATH_TYPE_TO_COLOR = {
omni.ext.ExtensionPathType.COLLECTION: 0xFF29A9A9,
omni.ext.ExtensionPathType.COLLECTION_USER: 0xFF1989A9,
omni.ext.ExtensionPathType.COLLECTION_CACHE: 0xFFA9A929,
omni.ext.ExtensionPathType.DIRECT_PATH: 0xFF29A929,
omni.ext.ExtensionPathType.EXT_1_FOLDER: 0xFF2929A9,
}
PATHS_COLUMNS = ["", "name", "type", "edit"]
class PathItem(ui.AbstractItem):
def __init__(self, path, path_type: omni.ext.ExtensionPathType, add_dummy=False):
super().__init__()
self.path_model = ui.SimpleStringModel(path)
self.type = path_type
self.is_user = path_type == omni.ext.ExtensionPathType.COLLECTION_USER
self.is_cache = path_type == omni.ext.ExtensionPathType.COLLECTION_CACHE
self.add_dummy = add_dummy
git_ext = get_extpath_git_ext()
if git_ext and git_ext.is_git_path(path):
self.is_git = True
self.local_path = git_ext.get_local_path(path)
else:
self.is_git = False
self.local_path = path
class PathsModel(ui.AbstractItemModel):
def __init__(self):
super().__init__()
self._ext_manager = omni.kit.app.get_app().get_extension_manager()
self._children = []
self._load()
self._add_dummy = PathItem("", omni.ext.ExtensionPathType.COLLECTION_USER, add_dummy=True)
def destroy(self):
self._children = []
def get_item_children(self, item):
"""Returns all the children when the widget asks it."""
if item is not None:
return []
return self._children + [self._add_dummy]
def get_item_value_model_count(self, item):
"""The number of columns"""
return 4
def get_item_value_model(self, item, column_id):
if column_id == 1:
return item.path_model
return None
def _load(self):
self._children = []
folders = self._ext_manager.get_folders()
for folder in folders:
path = folder["path"]
path_type = folder["type"]
item = PathItem(path, path_type)
self._children.append(item)
self._item_changed(None)
def add_empty(self):
self._children.append(PathItem("", omni.ext.ExtensionPathType.COLLECTION_USER))
self._item_changed(None)
def remove_item(self, item):
self._children.remove(item)
self.save()
self._item_changed(None)
def clean_cache(self, item):
path = item.local_path
print(f"Cleaning up cache: {path}")
cleanup_folder(path)
def update_git(self, item):
path = item.path_model.as_string
get_extpath_git_ext().update_git_path(path)
def save(self):
current = [
folder["path"]
for folder in self._ext_manager.get_folders()
if folder["type"] == omni.ext.ExtensionPathType.COLLECTION_USER
]
paths = [c.path_model.as_string for c in self._children if c.is_user]
if current != paths:
# remove and add again. We can only apply diff here, but then it is impossible to preserve the order.
for p in current:
self._ext_manager.remove_path(p)
for p in paths:
self._ext_manager.add_path(p, omni.ext.ExtensionPathType.COLLECTION_USER)
get_extpath_git_ext.cache_clear()
class EditableDelegate(ui.AbstractItemDelegate):
def __init__(self):
super().__init__()
self._subscription = None
self._context_menu = ui.Menu("Context menu")
def destroy(self):
self._subscription = None
self._context_menu = None
def _show_copy_context_menu(self, x, y, button, modifier, text):
if button != 1:
return
self._context_menu.clear()
with self._context_menu:
ui.MenuItem("Copy", triggered_fn=lambda: copy_text(text))
self._context_menu.show()
def build_widget(self, model, item, column_id, level, expanded):
"""Create a widget per column per item"""
with ui.HStack(width=20):
if column_id == 0 and not item.add_dummy:
def open_path(item_=item):
# Import it here instead of on the file root because it has long import time.
path = item_.local_path
if path:
import webbrowser
webbrowser.open(path)
ui.Button("open", width=0, clicked_fn=open_path, tooltip="Open path using OS file explorer.")
elif column_id == 1 and not item.add_dummy:
value_model = model.get_item_value_model(item, column_id)
stack = ui.ZStack(height=20)
with stack:
label = ui.Label(value_model.as_string, width=500, name=("config" if item.is_user else "builtin"))
field = ui.StringField(value_model, visible=False)
# Start editing when double clicked
stack.set_mouse_double_clicked_fn(
lambda x, y, b, _, f=field, l=label, m=model, i=item: self.on_double_click(b, f, l, m, i)
)
# Right click is copy menu
stack.set_mouse_pressed_fn(
lambda x, y, b, m, t=value_model.as_string: self._show_copy_context_menu(x, y, b, m, t)
)
elif column_id == 2 and not item.add_dummy:
ui.Label(PATH_TYPE_TO_LABEL[item.type], style={"color": PATH_TYPE_TO_COLOR[item.type]})
elif column_id == 3:
if item.is_user:
def on_click(item_=item):
if item.add_dummy:
model.add_empty()
else:
model.remove_item(item_)
ui.Spacer(width=10)
ui.Button(
name=("add" if item.add_dummy else "remove"),
style_type_name_override="ItemButton",
width=20,
height=20,
clicked_fn=on_click,
)
ui.Spacer(width=4)
elif item.is_cache:
def clean_cache(item_=item):
model.clean_cache(item_)
ui.Spacer(width=10)
ui.Button(
name="clean",
style_type_name_override="ItemButton",
width=20,
height=20,
clicked_fn=clean_cache,
)
ui.Spacer(width=4)
if item.is_git:
def update_git(item_=item):
model.update_git(item_)
ui.Button(
name="update",
style_type_name_override="ItemButton",
width=20,
height=20,
clicked_fn=update_git,
)
ui.Spacer()
def on_double_click(self, button, field, label, model, item):
"""Called when the user double-clicked the item in TreeView"""
if button != 0:
return
if item.add_dummy:
return
if not item.is_user:
copy_text(field.model.as_string)
return
# Make Field visible when double clicked
field.visible = True
field.focus_keyboard()
# When editing is finished (enter pressed of mouse clicked outside of the viewport)
self._subscription = field.model.subscribe_end_edit_fn(
lambda m, f=field, l=label, md=model: self.on_end_edit(m.as_string, f, l, md)
)
def on_end_edit(self, text, field, label, model):
"""Called when the user is editing the item and pressed Enter or clicked outside of the item"""
field.visible = False
label.text = text
self._subscription = None
if text:
model.save()
def build_header(self, column_id):
with ui.HStack():
ui.Spacer(width=10)
ui.Label(PATHS_COLUMNS[column_id], name="header")
class ExtsPathsWidget:
def __init__(self):
self._model = PathsModel()
self._delegate = EditableDelegate()
with ui.VStack(style=get_style(self)):
ui.Spacer(height=20)
with ui.ScrollingFrame(
height=400,
horizontal_scrollbar_policy=ui.ScrollBarPolicy.SCROLLBAR_ALWAYS_OFF,
vertical_scrollbar_policy=ui.ScrollBarPolicy.SCROLLBAR_ALWAYS_OFF,
style_type_name_override="TreeView",
):
tree_view = ui.TreeView(
self._model,
delegate=self._delegate,
root_visible=False,
header_visible=True,
)
tree_view.column_widths = [ui.Pixel(46), ui.Fraction(1), ui.Pixel(70), ui.Pixel(60)]
ui.Spacer(height=10)
def destroy(self):
self._model.destroy()
self._model = None
self._delegate.destroy()
self._delegate = None
| 10,223 | Python | 35.127208 | 118 | 0.55023 |
omniverse-code/kit/exts/omni.kit.window.extensions/omni/kit/window/extensions/styles.py | # Copyright (c) 2018-2020, NVIDIA CORPORATION. All rights reserved.
#
# NVIDIA CORPORATION and its licensors retain all intellectual property
# and proprietary rights in and to this software, related documentation
# and any modifications thereto. Any use, reproduction, disclosure or
# distribution of this software and related documentation without an express
# license agreement from NVIDIA CORPORATION is strictly prohibited.
#
from functools import lru_cache
from typing import Dict
import omni.ui as ui
from omni.ui import color as cl
from .common import get_icons_path
# Common size constants:
EXT_ICON_SIZE = (70, 70)
EXT_ICON_SIZE_LARGE = (100, 100)
CATEGORY_ICON_SIZE = (70, 70)
EXT_LIST_ITEM_H = 106
EXT_LIST_ITEMS_MARGIN_H = 3
EXT_ITEM_TITLE_BAR_H = 27
EXT_LIST_ITEM_ICON_ZONE_W = 87
@lru_cache()
def get_styles() -> Dict:
icons_path = get_icons_path()
styles = {
"ExtensionToggle": {
"Image::Failed": {"image_url": f"{icons_path}/exclamation.svg", "color": 0xFF2222DD, "margin": 5},
"Button": {"margin": 0, "padding": 0, "background_color": 0x0},
"Button:checked": {"background_color": 0x0},
"Button.Image::nonclickable": {"color": 0x60FFFFFF, "image_url": f"{icons_path}/toggle-off.svg"},
"Button.Image::nonclickable:checked": {"color": 0x60FFFFFF, "image_url": f"{icons_path}/toggle-on.svg"},
"Button.Image::clickable": {"image_url": f"{icons_path}/toggle-off.svg", "color": 0xFFFFFFFF},
"Button.Image::clickable:checked": {"image_url": f"{icons_path}/toggle-on.svg"},
"Label::EnabledLabel": {"font_size": 16, "color": 0xFF71A376},
"Label::DisabledLabel": {"font_size": 16, "color": 0xFFB9B9B9},
"Button::InstallButton": {"background_color": 0xFF00B976, "border_radius": 4},
"Button::InstallButton:checked": {"background_color": 0xFF06A66B},
"Button.Label::InstallButton": {"color": 0xFF3E3E3E, "font_size": 14},
"Button::DownloadingButton": {"background_color": 0xFF008253, "border_radius": 4},
"Button.Label::DownloadingButton": {"color": 0xFF3E3E3E, "font_size": 8},
"Button::LaunchButton": {"background_color": 0xFF00B976, "border_radius": 4},
"Button.Label::LaunchButton": {"color": 0xFF3E3E3E, "font_size": 14},
},
"SimpleCheckBox": {
"Button": {"margin": 0, "padding": 0, "background_color": 0x0},
"Button:hovered": {"background_color": 0x0},
"Button:checked": {"background_color": 0x0},
"Button:pressed": {"background_color": 0x0},
"Button.Image": {"image_url": f"{icons_path}/checkbox-off.svg", "color": 0xFFA8A8A8},
"Button.Image:hovered": {"color": 0xFF929292},
"Button.Image:pressed": {"color": 0xFFA4A4A4},
"Button.Image:checked": {"image_url": f"{icons_path}/checkbox-on.svg", "color": 0xFFA8A8A8},
"Image::disabled_checked": {"image_url": f"{icons_path}/checkbox-on.svg", "color": 0x3FA8A8A8},
"Image::disabled_unchecked": {"image_url": f"{icons_path}/checkbox-off.svg", "color": 0x3FA8A8A8},
"Label::disabled": {"font_size": 12, "color": 0xFF444444},
"Label": {"font_size": 16, "color": 0xFFC4C4C4},
},
"SearchWidget": {
"SearchField": {
"background_color": 0xFF212121,
"color": 0xFFA2A2A2,
"border_radius": 0,
"font_size": 16,
"margin": 0,
"padding": 5,
},
"Image::SearchIcon": {"image_url": f"{icons_path}/search.svg", "color": 0xFF646464},
"Label::Search": {"color": 0xFF646464},
"Button.Image::ClearSearch": {
"image_url": f"{icons_path}/close.svg",
"color": 0xFF646464,
},
"Button.Image::ClearSearch:hovered": {
"image_url": f"{icons_path}/close.svg",
"color": 0xFF929292,
},
"Button.Image::ClearSearch:pressed": {
"image_url": f"{icons_path}/close.svg",
"color": 0xFFC4C4C4,
},
"Button::ClearSearch": {
"margin": 0,
"border_radius": 0,
"border_width": 0,
"padding": 3,
"background_color": 0x00000000,
},
"Button::ClearSearch:hovered": {
"background_color": 0x00000000,
},
"Button::ClearSearch:pressed": {
"background_color": 0x00000000,
},
},
"MarkdownText": {
"Label": {"font_size": 16, "color": 0xFFCCCCCC},
"Label::text": {"font_size": 16, "color": 0xFFCCCCCC},
"Label::H1": {"font_size": 32, "color": 0xFFCCCCCC},
"Label::H2": {"font_size": 28, "color": 0xFFCCCCCC},
"Label::H3": {"font_size": 24, "color": 0xFFCCCCCC},
"Label::H4": {"font_size": 20, "color": 0xFFCCCCCC},
},
"ExtsWindow": {
"ExtensionDescription.Button": {"background_color": 0xFF090969},
"ExtensionDescription.Title": {"font_size": 18, "color": 0xFFCCCCCC, "margin": 5},
"ExtensionDescription.Header": {"font_size": 20, "color": 0xFF409656},
"ExtensionDescription.Content": {"font_size": 16, "color": 0xFFCCCCCC, "margin": 5},
"ExtensionDescription.ContentError": {"font_size": 16, "color": 0xFF4056C6, "margin": 5},
"ExtensionDescription.ContentValue": {"font_size": 16, "color": 0xFF409656},
"ExtensionDescription.ContentLink": {"font_size": 16, "color": 0xFF82C994},
"ExtensionDescription.ContentLink:hovered": {"color": 0xFFB8E0C2},
"ExtensionList.Label::Description": {"font_size": 16},
"ExtensionList.Label::Name": {"font_size": 12},
"ExtensionDescription.Background": {"background_color": 0xFF363636, "border_radius": 4},
"ExtensionDescription.ContentBackground": {"background_color": 0xFF23211F},
"ExtensionList.Background": {
"background_color": 0xFF212121,
"border_radius": 0,
"corner_flag": ui.CornerFlag.BOTTOM,
},
"Rectangle::ExtensionListGroup": {
"background_color": 0xFF303030,
},
"Rectangle::ExtensionListGroup:hovered": {
"background_color": 0xFF404040,
},
"Rectangle::ExtensionListGroup:pressed": {
"background_color": 0xFF303030,
},
"ExtensionList.Group.Label": {"font_size": 16, "color": 0xFFC0C0C0},
"ExtensionList.Group.Icon::expanded": {"image_url": f"{icons_path}/expanded.svg"},
"ExtensionList.Group.Icon": {"image_url": f"{icons_path}/collapsed.svg"},
"ExtensionList.Separator": {"background_color": 0xFF000000},
# "ExtensionList.Background:hovered": {"background_color": 0xFF191919},
"ExtensionList.Background:selected": {"background_color": 0xFF8A8777},
"ExtensionList.Foreground": {
"background_color": 0xFF2F2F2F,
"border_width": 0,
"border_radius": 0,
"corner_flag": ui.CornerFlag.BOTTOM_RIGHT,
},
"ExtensionList.Foreground:selected": {"background_color": 0xFF9F9B8A},
"ExtensionList.Label": {"font_size": 16, "color": 0xFF878787},
"ExtensionList.Label:selected": {"color": 0xFF212121},
"ExtensionList.Label::Title": {"font_size": 20, "margin_width": 10},
"ExtensionList.Label::Title:selected": {"color": 0xFFE0E0E0},
"ExtensionList.Label::Category": {"font_size": 16, "margin_width": 10},
"ExtensionList.Label::Id": {"font_size": 16, "margin_width": 10},
"ExtensionList.Label::Version": {"font_size": 16, "margin_width": 10, "margin_height": 5},
"TreeView": {
"background_color": 0xFF23211F,
"background_selected_color": 0xFF23211F,
"secondary_color": 0xFF989898, # Scroll knob
"alignment": ui.Alignment.RIGHT,
},
"TreeView.ScrollingFrame": {"background_color": 0xFF4A4A4A},
"ComboBox": {
"background_color": 0xFF212121,
"border_radius": 0,
"font_size": 16,
"margin": 0,
"color": 0xFF929292,
"padding": 0,
},
"ComboBox:hovered": {"background_color": 0xFF2F2F2F},
"ComboBox:selected": {"background_color": 0xFF2F2F2F},
"ExtensionDescription.Label": {"color": 0xFFC4C4C4, "margin": 2, "font_size": 16},
"ExtensionDescription.Id::Name": {"background_color": 0xFF000000, "color": 0xFFC4C4C4, "font_size": 14},
"ExtensionDescription.Rectangle::Name": {"background_color": 0xFF24211F, "border_radius": 2},
"ExtensionDescription.UpdateButton": {"background_color": 0xFF00B976, "border_radius": 4},
"ExtensionDescription.UpdateButton.Label": {"color": 0xFF3E3E3E, "font_size": 18},
"ExtensionDescription.RestartButton": {"background_color": 0xFF00B976, "border_radius": 4},
"ExtensionDescription.RestartButton.Label": {"color": 0xFF3E3E3E, "font_size": 18},
"ExtensionDescription.UpToDateButton": {"background_color": 0xFF747474, "border_radius": 4},
"ExtensionDescription.UpToDateButton.Label": {"color": 0xFF3E3E3E, "font_size": 18},
"ExtensionDescription.InstallButton": {"background_color": 0xFF00B976, "border_radius": 4},
"ExtensionDescription.InstallButton.Label": {"color": 0xFF3E3E3E, "font_size": 18},
"ExtensionDescription.DownloadingButton": {"background_color": 0xFF00754A, "border_radius": 4},
"ExtensionDescription.DownloadingButton.Label": {"color": 0xFF3E3E3E, "font_size": 18},
"ExtensionDescription.CommunityRectangle": {"background_color": 0xFF1F1F1F, "border_radius": 2},
"ExtensionDescription.CommunityImage": {
"image_url": f"{icons_path}/community.svg",
"color": cl(180, 180, 180),
},
"ExtensionDescription.CommunityLabel": {"color": 0xFFA4A4A4, "font_size": 16},
"ExtensionDescription.UnverifiedRectangle": {"background_color": 0xFF000038, "border_radius": 2},
"ExtensionDescription.UnverifiedLabel": {"color": 0xFFC4C4C4, "margin_width": 30, "font_size": 16},
"Button::create": {"background_color": 0x0, "margin": 0},
"Button.Image::create": {"image_url": f"{icons_path}/plus.svg", "color": 0xFF00B976},
"Button.Image::create:hovered": {"color": 0xFF00D976},
"Button::options": {"background_color": 0x0, "margin": 0},
"Button.Image::options": {"image_url": f"{icons_path}/options.svg", "color": 0xFF989898},
"Button.Image::options:hovered": {"color": 0xFFC2C2C2},
"Button::filter": {"background_color": 0x0, "margin": 0},
"Button.Image::filter": {"image_url": f"{icons_path}/filter_grey.svg", "color": 0xFF989898},
"Button.Image::filter:hovered": {"color": 0xFFC2C2C2},
"Button::filter_on": {"background_color": 0x0, "margin": 0},
"Button.Image::filter_on": {"image_url": f"{icons_path}/filter.svg", "color": 0xFF989898},
"Button.Image::filter_on:hovered": {"color": 0xFFC2C2C2},
"Button::sortby": {"background_color": 0x0, "margin": 0},
"Button.Image::sortby": {"image_url": f"{icons_path}/sort_by_grey.svg", "color": 0xFF989898},
"Button.Image::sortby:hovered": {"color": 0xFFC2C2C2},
"Button::sortby_on": {"background_color": 0x0, "margin": 0},
"Button.Image::sortby_on": {"image_url": f"{icons_path}/sort_by.svg", "color": 0xFF989898},
"Button.Image::sortby_on:hovered": {"color": 0xFFC2C2C2},
"ExtensionDescription.Tab": {"background_color": 0x0},
"ExtensionDescription.Tab.Label": {"color": 0xFF8D8D8D, "font_size": 16},
"ExtensionDescription.Tab.Label:pressed": {"color": 0xFFF3F2EC},
"ExtensionDescription.Tab.Label:selected": {"color": 0xFFF3F2EC},
"ExtensionDescription.Tab.Label:hovered": {"color": 0xFFADADAD},
"ExtensionDescription.TabLine": {"color": 0xFF00B976, "border_width": 1},
"ExtensionDescription.TabLineFull": {"color": 0xFF707070},
"ExtensionVersionMenu.MenuItem": {"color": 0x0, "margin": 0},
"IconButton": {"margin": 0, "padding": 0, "background_color": 0x0},
"IconButton:hovered": {"background_color": 0x0},
"IconButton:checked": {"background_color": 0x0},
"IconButton:pressed": {"background_color": 0x0},
"IconButton.Image": {"color": 0xFFA8A8A8},
"IconButton.Image:hovered": {"color": 0xFF929292},
"IconButton.Image:pressed": {"color": 0xFFA4A4A4},
"IconButton.Image:checked": {"color": 0xFFFFFFFF},
"IconButton.Image::OpenDoc": {"image_url": f"{icons_path}/question.svg"},
"IconButton.Image::OpenFolder": {"image_url": f"{icons_path}/open-folder.svg"},
"IconButton.Image::OpenConfig": {"image_url": f"{icons_path}/open-config.svg"},
"IconButton.Image::OpenInVSCode": {"image_url": f"{icons_path}/vscode.svg"},
"IconButton.Image::Export": {"image_url": f"{icons_path}/export.svg"},
"Image::UpdateAvailable": {
"image_url": f"{icons_path}/update-available.svg",
"color": 0xFFFFFFFF,
"spacing": 50,
},
"Label::UpdateAvailable": {"color": 0xFF00B977, "margin": 10},
"Label::LocationTag": {"color": 0xFF00B977, "margin": 10, "font_size": 16},
"Image::Community": {"image_url": f"{icons_path}/community.svg", "color": cl(255, 255, 255)},
"Image::Community:selected": {"color": cl("#ddefff")},
"Label::Community": {"color": 0xFFA4A4A4, "margin": 10, "font_size": 16},
"Rectangle::Splitter": {"background_color": 0x0, "margin": 3, "border_radius": 2},
"Rectangle::Splitter:hovered": {"background_color": 0xFFB0703B},
"Rectangle::Splitter:pressed": {"background_color": 0xFFB0703B},
"Image::UNKNOWN": {"color": 0xFFFFFFFF, "image_url": f"{icons_path}/question.svg"},
"Image::RUNNING": {"color": 0xFFFF7D7D, "image_url": f"{icons_path}/spinner.svg"},
"Image::PASSED": {"color": 0xFF00FF00, "image_url": f"{icons_path}/check_solid.svg"},
"Image::FAILED": {"color": 0xFF0000FF, "image_url": f"{icons_path}/exclamation.svg"},
},
"ExtsPropertiesWidget": {
"Properies.Background": {"background_color": 0xFF24211F, "border_radius": 4},
},
"ExtsRegistriesWidget": {
"TreeView": {
"background_color": 0xFF23211F,
"background_selected_color": 0xFF444444,
},
"TreeView.Item": {"margin": 14, "color": 0xFF000055},
"Field": {"background_color": 0xFF333322},
"Label::header": {"margin": 4},
"Label": {"margin": 5},
"Label::builtin": {"color": 0xFF909090},
"Label::config": {"color": 0xFFDDDDDD},
"ItemButton": {"padding": 2, "background_color": 0xFF444444, "border_radius": 4},
"ItemButton.Image::add": {"image_url": f"{icons_path}/plus.svg", "color": 0xFF06C66B},
"ItemButton.Image::remove": {"image_url": f"{icons_path}/trash.svg", "color": 0xFF1010C6},
"ItemButton:hovered": {"background_color": 0xFF333333},
"ItemButton:pressed": {"background_color": 0xFF222222},
},
"ExtsPathsWidget": {
"TreeView": {
"background_color": 0xFF23211F,
"background_selected_color": 0xFF444444,
},
"TreeView.Item": {"margin": 14, "color": 0xFF000055},
"Field": {"background_color": 0xFF333322},
"Label::header": {"margin": 4},
"Label": {"margin": 5},
"Label::builtin": {"color": 0xFF909090},
"Label::config": {"color": 0xFFDDDDDD},
"ItemButton": {"padding": 2, "background_color": 0xFF444444, "border_radius": 4},
"ItemButton.Image::add": {"image_url": f"{icons_path}/plus.svg", "color": 0xFF06C66B},
"ItemButton.Image::remove": {"image_url": f"{icons_path}/trash.svg", "color": 0xFF1010C6},
"ItemButton.Image::clean": {"image_url": f"{icons_path}/broom.svg", "color": 0xFF5EDAFA},
"ItemButton.Image::update": {"image_url": f"{icons_path}/refresh.svg", "color": 0xFF5EDAFA},
"ItemButton:hovered": {"background_color": 0xFF333333},
"ItemButton:pressed": {"background_color": 0xFF222222},
},
}
return styles
def get_style(instance):
return get_styles()[instance.__class__.__name__]
| 17,286 | Python | 57.402027 | 116 | 0.571272 |
omniverse-code/kit/exts/omni.kit.window.extensions/omni/kit/window/extensions/ext_test_tab.py | # Copyright (c) 2018-2020, NVIDIA CORPORATION. All rights reserved.
#
# NVIDIA CORPORATION and its licensors retain all intellectual property
# and proprietary rights in and to this software, related documentation
# and any modifications thereto. Any use, reproduction, disclosure or
# distribution of this software and related documentation without an express
# license agreement from NVIDIA CORPORATION is strictly prohibited.
#
import carb.settings
import omni.kit.app
import omni.ui as ui
from omni.kit.test import TestRunStatus
from .ext_components import SimpleCheckBox
DEFAULT_TEST_APP = "${kit}/apps/omni.app.test_ext.kit"
class ExtTestTab:
def __init__(self):
self.test_status = {}
# options
self.info_log = False
self.wait_for_debugger = False
self.python_debugger = False
self.wait_for_python_debugger = False
self.ui_mode = False
self.do_not_exit = False
self.coverage = False
self.tests_filter = ""
self._test_filter_model = None
self._app_combo = None
self.apps = [f"{DEFAULT_TEST_APP} (empty)"]
manager = omni.kit.app.get_app_interface().get_extension_manager()
all_exts = [(manager.get_extension_dict(e["id"]), e["id"]) for e in manager.get_extensions()]
self.apps += [ext_id for d, ext_id in all_exts if d.get("isKitFile", False)]
def destroy(self):
pass
def build_cb(self, attr, name):
SimpleCheckBox(
getattr(self, attr),
lambda v: setattr(self, attr, not getattr(self, attr)),
name,
)
def _update_test_args(self):
args = []
if self.info_log:
args += ["-v"]
if self.wait_for_debugger:
args += ["-d"]
if self.wait_for_python_debugger:
self.python_debugger = True
args += ["--/exts/omni.kit.debug.python/break=1"]
if self.python_debugger:
args += ["--enable", "omni.kit.debug.python"]
if self.do_not_exit:
args += ["--/exts/omni.kit.test/doNotQuit=1"]
self.tests_filter = self._test_filter_model.as_string
args += [f"--/exts/omni.kit.test/runTestsFilter='{self.tests_filter}'"]
settings = carb.settings.get_settings()
selected_app = self._app_combo.model.get_item_value_model().as_int
app = self.apps[selected_app] if selected_app > 0 else DEFAULT_TEST_APP
settings.set("/exts/omni.kit.test/testExtApp", app)
settings.set("/exts/omni.kit.test/testExtArgs", args)
settings.set("/exts/omni.kit.test/testExtUIMode", self.ui_mode)
settings.set("/exts/omni.kit.test/testExtGenerateCoverageReport", self.coverage)
settings.set("/exts/omni.kit.test/testExtCleanOutputPath", self.coverage)
# todo offer a way to pick reliable/unreliable/both
# settings.set("/exts/omni.kit.test/testExtRunUnreliableTests", 2)
def build(self, ext_info):
ext_id = ext_info.get("package").get("id")
with ui.VStack(height=0):
ui.Spacer(height=20)
ui.Label("Options:", height=0, width=50, style_type_name_override="ExtensionDescription.Label")
ui.Spacer(height=10)
self.build_cb("info_log", "info log")
self.build_cb("ui_mode", "ui mode (test selection)")
self.build_cb("coverage", "generate coverage report")
self.build_cb("wait_for_debugger", "wait for native debugger")
self.build_cb("python_debugger", "enable python debugger")
self.build_cb("wait_for_python_debugger", "enable python debugger and wait")
self.build_cb("do_not_exit", "do not exit after tests")
ui.Spacer(height=10)
with ui.HStack():
ui.Spacer(width=10)
ui.Label(
"filter (e.g.: *test_usd*):",
height=0,
width=50,
style_type_name_override="ExtensionDescription.Label",
)
self._test_filter_model = ui.StringField(width=250).model
self._test_filter_model.as_string = self.tests_filter
ui.Spacer(height=20)
with ui.HStack():
ui.Spacer(width=10)
ui.Label("app:", height=0, width=50, style_type_name_override="ExtensionDescription.Label")
self._app_combo = ui.ComboBox(0, *self.apps, style={"padding": 4}, width=400)
ui.Spacer(height=20)
with ui.HStack():
status_image = None
def _refresh_test_status():
status = self.test_status.get(ext_id, TestRunStatus.UNKNOWN)
status_image.name = str(status.name)
def on_status(test_id, status, **_):
self.test_status[ext_id] = status
_refresh_test_status()
def on_finish(status, *_):
if self.coverage:
omni.kit.test.generate_report()
def on_click(ext_id=ext_id):
self._update_test_args()
omni.kit.test.run_ext_tests([ext_id], on_finish, on_status)
ui.Button(
"RUN EXTENSION TESTS",
style_type_name_override="ExtensionDescription.InstallButton",
width=80,
height=20,
clicked_fn=on_click,
)
ui.Spacer(width=20)
ui.Label("Result:", width=0, style_type_name_override="ExtensionDescription.Label")
status_image = ui.Image(
name="TestStatus",
width=20,
height=20,
alignment=ui.Alignment.RIGHT_CENTER,
)
_refresh_test_status()
| 5,923 | Python | 36.025 | 107 | 0.564072 |
omniverse-code/kit/exts/omni.kit.window.extensions/omni/kit/window/extensions/ext_info_widget.py | # Copyright (c) 2018-2020, NVIDIA CORPORATION. All rights reserved.
#
# NVIDIA CORPORATION and its licensors retain all intellectual property
# and proprietary rights in and to this software, related documentation
# and any modifications thereto. Any use, reproduction, disclosure or
# distribution of this software and related documentation without an express
# license agreement from NVIDIA CORPORATION is strictly prohibited.
#
# pylint: disable=protected-access, access-member-before-definition
import abc
import asyncio
import contextlib
import os
import weakref
from datetime import datetime, timezone
from typing import Callable
import omni.kit.app
import omni.kit.commands
import omni.kit.test
import omni.ui as ui
from . import ext_controller
from .common import (
ExtAuthorGroup,
ExtensionCommonInfo,
build_ext_info,
check_can_be_toggled,
get_categories,
get_options,
pull_extension_async,
toggle_extension,
)
from .ext_components import ExtensionToggle, SimpleCheckBox, add_doc_link_button
from .ext_data_fetcher import get_ext_data_fetcher
from .ext_export_import import export_ext
from .ext_test_tab import ExtTestTab
from .exts_graph_window import ExtsGraphWidget
from .markdown_renderer import MarkdownText
from .styles import CATEGORY_ICON_SIZE, EXT_ICON_SIZE_LARGE
from .utils import clip_text, is_vscode_installed, open_in_vscode_if_enabled, version_to_str
ICON_ZONE_WIDTH = 120
CATEGORY_ZONE_WIDTH = 120
def get_ext_text_content(key: str, ext_info, ext_item: ExtensionCommonInfo):
"""Get extension readme/changelog from either local dict or registry extra data"""
content_str = ""
# Get the data
if ext_item.is_local:
content_str = ext_info.get("package", {}).get(key, "")
else:
fetcher = get_ext_data_fetcher()
ext_data = fetcher.get_ext_data(ext_item.package_id)
if ext_data:
content_str = ext_data.get("package", {}).get(key, "")
# Figure out if it is a path to a file or actual data
if content_str and "\n" not in content_str:
ext_path = ext_info.get("path", "")
# If it is a path -> load file content
readme_file = os.path.join(ext_path, content_str)
if os.path.exists(readme_file):
with open(readme_file, "r", encoding="utf-8") as f:
content_str = f.read()
return content_str
class PageBase:
"""
Interface for any classes adding Tabs to the Extension Manager UI
"""
@abc.abstractmethod
def build_tab(self, ext_info: dict, ext_item: ExtensionCommonInfo) -> None:
"""Build the Tab."""
@abc.abstractmethod
def destroy(self) -> None:
"""Teardown the Tab."""
@staticmethod
@abc.abstractmethod
def get_tab_name() -> str:
"""Get the name used for the tab name in the UI"""
def build_package_info(ext_info):
if ext_info is None:
return
package_dict = ext_info.get("package", {})
publish_dict = package_dict.get("publish", {})
def add_info(name, value):
if not value:
return
if isinstance(value, (tuple, list)):
value = ", ".join(value)
if isinstance(value, dict):
value = str(value)
with ui.HStack():
ui.Label(name, width=100, style_type_name_override="ExtensionDescription.Content")
if value.startswith("http://") or value.startswith("https://"):
def open_link():
import webbrowser
webbrowser.open(value)
ui.Label(
value,
style_type_name_override="ExtensionDescription.ContentLink",
mouse_pressed_fn=lambda x, y, b, a: b == 0 and open_link(),
)
else:
ui.Label(value, style_type_name_override="ExtensionDescription.ContentValue")
def add_package_info(name, key):
add_info(name, package_dict.get(key, None))
# Package info
add_package_info("Authors", "authors")
add_package_info("Keywords", "keywords")
add_info("Repo Name", publish_dict.get("repoName", None))
add_package_info("Repo Url", "repository")
add_package_info("Github Release", "githubRelease")
# Publish info
ts = publish_dict.get("date", None)
if not ts:
ts = package_dict.get("publishDate", None) # backward compatibility for deprecated key
if ts:
add_info("Publish Date", str(datetime.fromtimestamp(ts, tz=timezone.utc).astimezone()))
add_info("Build Number", publish_dict.get("buildNumber", None))
add_info("Kit Version", publish_dict.get("kitVersion", None))
add_package_info("Target", "target")
# Test info
test = ext_info.get("test", None)
if isinstance(test, (list, tuple)):
for t in test:
add_info("Test Waiver", t.get("waiver", None))
class OverviewPage(PageBase):
"""
Build a class with same interface and add it to ExtInfoWidget.pages
below to have it show up as a tab
"""
def build_tab(self, ext_info, ext_item: ExtensionCommonInfo):
def content_label(text):
ui.Label(text, style_type_name_override="ExtensionDescription.Content")
readme_str = get_ext_text_content("readme", ext_info, ext_item)
with ui.ScrollingFrame(
horizontal_scrollbar_policy=ui.ScrollBarPolicy.SCROLLBAR_AS_NEEDED,
vertical_scrollbar_policy=ui.ScrollBarPolicy.SCROLLBAR_ALWAYS_ON,
):
with ui.ZStack():
ui.Rectangle(style_type_name_override="ExtensionDescription.ContentBackground")
with ui.HStack():
ui.Spacer(width=10)
with ui.VStack(height=0):
ui.Spacer(height=10)
# All the meta info about the package (version, date, authors)
build_package_info(ext_info)
ui.Spacer(height=15)
# Readme
MarkdownText(readme_str)
# Preview ?
if ext_item.preview_image_path:
ui.Image(
ext_item.preview_image_path,
alignment=ui.Alignment.H_CENTER,
fill_policy=ui.FillPolicy.PRESERVE_ASPECT_FIT,
width=700,
height=700,
)
else:
content_label("Preview: 'package/preview_image' is not specified.")
def destroy(self):
pass
@staticmethod
def get_tab_name():
return "OVERVIEW"
class ChangelogPage(PageBase):
def build_tab(self, ext_info, ext_item: ExtensionCommonInfo):
changelog_str = get_ext_text_content("changelog", ext_info, ext_item)
if not changelog_str:
changelog_str = "[no changelog]"
# word_wrap is important here because changelog can
# be Markdown, and if word_wrap is defalut, Label
# ignores everything after double hash. word_wrap fixes it.
with ui.ScrollingFrame(
horizontal_scrollbar_policy=ui.ScrollBarPolicy.SCROLLBAR_ALWAYS_OFF,
vertical_scrollbar_policy=ui.ScrollBarPolicy.SCROLLBAR_ALWAYS_ON,
):
with ui.ZStack():
ui.Rectangle(style_type_name_override="ExtensionDescription.ContentBackground")
with ui.HStack():
ui.Spacer(width=10)
with ui.VStack(height=0):
ui.Spacer(height=10)
MarkdownText(changelog_str)
def destroy(self):
pass
@staticmethod
def get_tab_name():
return "CHANGELOG"
class DependenciesPage(PageBase):
def __init__(self):
self._ext_graph = None
def build_tab(self, ext_info, ext_item: ExtensionCommonInfo):
# Graph available if extension is enabled:
if ext_info.get("state", {}).get("enabled", False):
self._ext_graph = ExtsGraphWidget(ext_info.get("package").get("id"))
else:
with ui.VStack(height=0):
manager = omni.kit.app.get_app().get_extension_manager()
# Enable result
result, exts, err = manager.solve_extensions([ext_item.id], add_enabled=True, return_only_disabled=True)
if not result:
ui.Label(
"Enabling this extension will fail with the following error:",
style_type_name_override="ExtensionDescription.Header",
)
ui.Label(err, style_type_name_override="ExtensionDescription.ContentError")
else:
ui.Label(
"Enabling this extension will enable the following extensions in order:",
style_type_name_override="ExtensionDescription.Header",
)
ui.Label(
"".join(f"\n - {ext['id']}" for ext in exts),
style_type_name_override="ExtensionDescription.Content",
)
ui.Spacer(height=30)
# Dependencies
ui.Label("Dependencies (in config):", style_type_name_override="ExtensionDescription.Header")
ui.Spacer(height=4)
for k, v in ext_info.get("dependencies", {}).items():
label_text = f"{k}"
tag = v.get("tag", None)
if tag:
label_text += f"-{tag}"
version = v.get("version", "*.*.*")
if version:
label_text += f" | v{version}"
optional = v.get("optional", False)
if optional:
label_text += "(optional)"
ui.Label(label_text, style_type_name_override="ExtensionDescription.Content")
def destroy(self):
pass
@staticmethod
def get_tab_name():
return "DEPENDENCIES"
class PackagesPage(PageBase):
def build_tab(self, ext_info, ext_item: ExtensionCommonInfo):
manager = omni.kit.app.get_app().get_extension_manager()
package_info = ext_info.get("package")
packages = manager.fetch_extension_packages(package_info.get("id"))
with ui.VStack(height=0):
ui.Label(
"All available packages for version {} :".format(package_info["version"]),
style_type_name_override="ExtensionDescription.Title",
)
for p in packages:
package_id = p["package_id"]
with ui.CollapsableFrame(package_id, collapsed=True):
with ui.HStack():
ui.Spacer(width=20)
with ui.VStack():
build_package_info(manager.get_registry_extension_dict(package_id))
def destroy(self):
pass
@staticmethod
def get_tab_name():
return "PACKAGES"
class ExtTestPage(PageBase):
def __init__(self):
self.tab = ExtTestTab()
def build_tab(self, ext_info, ext_item: ExtensionCommonInfo):
self.tab.build(ext_info)
def destroy(self):
self.tab.destroy()
@staticmethod
def get_tab_name():
return "TESTS"
class ExtInfoWidget:
pages = [OverviewPage, ChangelogPage, DependenciesPage, PackagesPage, ExtTestPage]
current_page = 0
def __init__(self):
# Widgets for tabs
self.__tabs = []
self.__pages = []
# Put into frame to enable rebuilding of UI
self._frame = ui.Frame()
self._ext_manager = omni.kit.app.get_app().get_extension_manager()
self._ext_change_sub = self._ext_manager.get_change_event_stream().create_subscription_to_pop(
lambda *_: self._refresh_once_next_frame(), name="ExtInfoWidget"
)
self._ext_graph = None
self._version_menu = None
self._selected_version = None
self._selected_package_id = None
# Refresh when new ext data fetched
fetcher = get_ext_data_fetcher()
def on_data_fetched(package_id):
if self._selected_package_id == package_id:
self._refresh_once_next_frame()
fetcher.on_data_fetched_fn = on_data_fetched
self.select_ext(None)
self.page_tabs = []
self.update_tabs()
self.set_show_graph_fn(None)
def update_tabs(self):
self.page_tabs = []
for page in self.pages:
self.page_tabs.append(page())
def set_visible(self, visible):
self._frame.visible = visible
def select_ext(self, ext_summary):
"""Select extension to display info about. Can be None"""
self._ext_summary = ext_summary
self._selected_version = None
self._selected_package_id = None
self._refresh_once_next_frame()
def _refresh(self):
# Fetch all extensions for currently selected extension summary
extensions = (
self._ext_manager.fetch_extension_versions(self._ext_summary.fullname)
if self._ext_summary is not None
else []
)
def _draw_empty_page():
with self._frame:
ui.Label("Select an extension")
if len(extensions) == 0:
_draw_empty_page()
return
# If user hasn't yet changed the version to display summary advices which should be shown by default:
if self._selected_version is None:
self._selected_version = self._ext_summary.default_ext["version"]
# Now actual extension is selected (including version). Get all the info for it
selected_index = next(
(i for i, v in enumerate(extensions) if v["version"][:4] == self._selected_version[:4]), None
)
# If selected version is not available, select latest. That can happen if latest published is incompatible with
# current target. In summaries it will show later version than the one you can select by default.
if self._selected_version is not None and selected_index is None:
selected_index = 0
self._selected_version = extensions[selected_index]["version"]
if selected_index is None:
_draw_empty_page()
return
selected_ext = extensions[selected_index]
is_version_latest = selected_index == 0
ext_id = selected_ext["id"]
package_id = selected_ext["package_id"]
self._selected_package_id = package_id
# If this extension is enabled or other version of this extension is enabled:
any_version_enabled = any(ext["enabled"] for ext in extensions)
ext_item, ext_info = build_ext_info(ext_id, package_id) # -> Tuple[ExtensionCommonInfo, dict]:
# Get ext info either from local or remote index
if not ext_info:
_draw_empty_page()
return
# Gather more info by solving dependencies. When other version of this extension is already enabled solving is
# known to fail because of conflict. It will always display a red icon then.
# When we actually toggle it we will first turn off that version. So for that case do not solve extensions.
# An alternative solution might be to manually build a list of all enabled extensions, but exclude current one.
if not any_version_enabled:
ext_item.solve_extensions()
if not ext_item.is_local:
fetcher = get_ext_data_fetcher()
fetcher.fetch(ext_item)
ext_path = ext_info.get("path", "")
package_dict = ext_info.get("package", {})
docs_dict = ext_info.get("documentation", {})
if ext_item.is_local:
# For local extensions add version to ext_id to make it more concrete (for later enabling etc.)
name = package_dict.get("name")
version = package_dict.get("version", None)
ext_id = name + "-" + version if version else name
name = package_dict.get("name", "")
enabled = ext_item.enabled
category = get_categories().get(ext_item.category)
################################################################################################################
# Build version selector menu
def select_version(version):
self._selected_version = version
self._refresh_once_next_frame()
self._version_menu = ui.Menu("Version")
with self._version_menu:
ui.MenuItem("Version(s)", enabled=False)
ui.Separator()
for i, e in enumerate(extensions):
version = e["version"]
version_str = version_to_str(version[:4])
color = 0xFF76B900 if selected_index == i else 0xFFC0C0C0
ui.MenuItem(
version_str,
checked=selected_index == i,
checkable=True,
style={"color": color, "margin": 0},
triggered_fn=lambda v=version: select_version(v),
)
# Publish / Unpublish buttons
if get_options().publishing:
ui.Separator()
ui.MenuItem("Publishing", enabled=False)
ui.Separator()
if ext_item.is_local:
ui.MenuItem(
"PUBLISH", triggered_fn=lambda ext_id=ext_id: self._ext_manager.publish_extension(ext_id)
)
else:
ui.MenuItem(
"UNPUBLISH", triggered_fn=lambda ext_id=ext_id: self._ext_manager.unpublish_extension(ext_id)
)
# Uninstall
can_be_uninstalled = not ext_item.enabled and ext_item.location_tag == "INSTALLED"
if can_be_uninstalled:
ui.Separator()
ui.MenuItem(
"UNINSTALL", triggered_fn=lambda ext_id=ext_id: self._ext_manager.uninstall_extension(ext_id)
)
################################################################################################################
################################################################################################################
def draw_icon_block():
# Icon
with ui.HStack(width=ICON_ZONE_WIDTH):
ui.Spacer()
with ui.VStack(width=EXT_ICON_SIZE_LARGE[0]):
ui.Spacer()
ui.Image(ext_item.icon_path, height=EXT_ICON_SIZE_LARGE[1], style={"color": 0xFFFFFFFF})
ui.Spacer()
ui.Spacer()
################################################################################################################
def draw_top_row_block():
with ui.HStack():
# Big button
if not ext_item.is_local:
if ext_info.get("state", {}).get("isPulled", False):
ui.Button(
"INSTALLING...",
style_type_name_override="ExtensionDescription.DownloadingButton",
width=100,
height=30,
)
else:
def on_click(item=ext_item):
asyncio.ensure_future(pull_extension_async(item, self._refresh_once_next_frame))
ui.Button(
"INSTALL",
style_type_name_override="ExtensionDescription.InstallButton",
width=100,
height=30,
clicked_fn=on_click,
)
else:
can_update = not is_version_latest
is_autoload_enabled = ext_controller.is_autoload_enabled(ext_item.id)
if not ext_item.enabled and ext_item.is_toggle_blocked and is_autoload_enabled:
def on_click():
omni.kit.app.get_app().restart()
ui.Button(
"RESTART APP",
style_type_name_override="ExtensionDescription.RestartButton",
clicked_fn=on_click,
width=100,
height=30,
)
elif can_update:
def on_click(ext_id=ext_id, switch_off_on=(enabled and not ext_item.is_toggle_blocked)):
latest_ext = extensions[0]
latest_ext_id = latest_ext["id"]
latest_ext_version = latest_ext["version"]
# If autoload for that one is enabled, move it to latest:
if ext_controller.is_autoload_enabled(ext_id):
ext_controller.toggle_autoload(ext_id, False)
if check_can_be_toggled(latest_ext_id, for_autoload=True):
ext_controller.toggle_autoload(latest_ext_id, True)
# If extension is enabled, switch off to latest:
if switch_off_on:
toggle_extension(ext_id, False)
toggle_extension(latest_ext_id, True)
# Finally switch UI to show newest version
select_version(latest_ext_version)
ui.Button(
"UPDATE",
style_type_name_override="ExtensionDescription.UpdateButton",
clicked_fn=on_click,
width=100,
height=30,
)
else:
ui.Button(
"UP TO DATE",
style_type_name_override="ExtensionDescription.UpToDateButton",
width=100,
height=30,
)
# Version selector
with ui.VStack(width=0):
ui.Spacer()
ui.Button(name="options", width=40, height=22, clicked_fn=self._version_menu.show)
ui.Spacer()
# Toggle
ui.Spacer(width=15)
ExtensionToggle(ext_item, with_label=True, show_install_button=False)
# Autoload toggle
with ui.HStack():
ui.Spacer(width=20)
def toggle_autoload(value, ext_id=ext_id):
if check_can_be_toggled(ext_id, for_autoload=True):
ext_controller.toggle_autoload(ext_id, value)
self._refresh_once_next_frame()
SimpleCheckBox(
ext_controller.is_autoload_enabled(ext_id), toggle_autoload, "AUTOLOAD", enabled=True
)
ui.Spacer(width=20)
def add_icon_button(name, on_click, tooltip=None):
with ui.VStack(width=0):
ui.Spacer()
# cannot get style tooltip override to work, so force it here
b = ui.Button(
name=name,
style_type_name_override="IconButton",
width=23,
height=18,
clicked_fn=on_click,
style={"Label": {"color": 0xFF444444}},
)
if tooltip:
b.set_tooltip_fn(lambda *_: ui.Label(tooltip))
ui.Spacer()
return b
def add_open_button(url, name, prefer_vscode=False, tooltip=None):
def on_click(url=url):
open_in_vscode_if_enabled(url, prefer_vscode)
b = add_icon_button(name, on_click)
if not tooltip:
tooltip = url
b.set_tooltip_fn(lambda *_: ui.Label(tooltip))
# Doc button
add_doc_link_button(ext_item, package_dict, docs_dict)
ui.Spacer(width=8)
if ext_item.is_local:
# Extension "open folder" button
ext_folder = os.path.dirname(ext_path) if os.path.isfile(ext_path) else ext_path
add_open_button(ext_folder, name="OpenFolder")
ui.Spacer(width=8)
# Extension "open folder" button
if is_vscode_installed():
add_open_button(ext_folder, name="OpenInVSCode", prefer_vscode=True, tooltip="Open in VSCode")
ui.Spacer(width=8)
# Extension "open config" button
add_open_button(ext_info.get("configPath", ""), name="OpenConfig", prefer_vscode=True)
ui.Spacer(width=8)
# Extension export button
def on_export(ext_id=ext_id):
export_ext(ext_id)
add_icon_button("Export", on_export, tooltip=f"Export {ext_info['package']['packageId']}")
################################################################################################################
def draw_extension_name_block():
with ui.HStack():
# Extension id
ui.Label(
ext_item.title,
height=0,
width=0,
style_type_name_override="ExtensionDescription.Label",
tooltip=ext_id,
)
ui.Spacer()
# Remove that separate rect block with ext_id?
# with ui.ZStack(height=0, width=0):
# ui.Rectangle(style_type_name_override="ExtensionDescription.Rectangle", name="Name")
# ui.Label(ext_id, style_type_name_override="ExtensionDescription.Id", name="Name")
################################################################################################################
def draw_extension_description_block():
with ui.HStack():
ui.Label(
clip_text(ext_item.description),
height=0,
width=50,
style_type_name_override="ExtensionDescription.Label",
)
################################################################################################################
def draw_extension_version_block():
with ui.HStack():
if ext_item.version:
ui.Label(
"v" + ext_item.version,
style_type_name_override="ExtensionDescription.Label",
width=0,
name="Version",
)
def add_separator():
ui.Spacer(width=10)
ui.Line(alignment=ui.Alignment.LEFT, style_type_name_override="ExtensionDescription.Label", width=0)
ui.Spacer(width=10)
add_separator()
# Repository/Local
text = f"Registry: {ext_item.provider_name}" if ext_item.provider_name else "Local"
ui.Label(text, style_type_name_override="ExtensionDescription.Label", width=0)
ui.Spacer()
################################################################################################################
def draw_category_block():
# Categoty Info and Icon
with ui.HStack(width=CATEGORY_ZONE_WIDTH):
ui.Spacer()
with ui.VStack(width=CATEGORY_ICON_SIZE[0]):
ui.Spacer()
ui.Image(category["image"], width=CATEGORY_ICON_SIZE[0], height=CATEGORY_ICON_SIZE[1])
ui.Spacer(height=10)
ui.Label(category["name"], alignment=ui.Alignment.CENTER)
ui.Spacer()
ui.Spacer()
def draw_ext_source_block():
with ui.HStack(height=0):
with ui.ZStack(height=32, width=0):
ui.Image(style_type_name_override="ExtensionDescription.CommunityImage", width=148, height=32)
with ui.HStack(width=0):
ui.Spacer(width=52)
name = ext_item.author_group.get_ui_name()
ui.Label(name, style_type_name_override="ExtensionDescription.CommunityLabel")
ui.Spacer(width=2)
if ext_item.is_untrusted:
with ui.ZStack(height=30):
with ui.VStack():
ui.Spacer(height=2)
ui.Rectangle(style_type_name_override="ExtensionDescription.UnverifiedRectangle")
ui.Label(
"UNVERIFIED",
alignment=ui.Alignment.RIGHT_CENTER,
style_type_name_override="ExtensionDescription.UnverifiedLabel",
)
def draw_content_block():
def set_page(index):
for i in self.__tabs:
i.selected = False
for i in self.__pages:
i.visible = False
self.__tabs[index].selected = True
self.__pages[index].visible = True
ExtInfoWidget.current_page = index
ui.Spacer(height=10)
with ui.HStack(height=20):
tab_buttons = []
for index, page in enumerate(self.page_tabs):
tab_btn = ui.Button(
page.get_tab_name(),
width=0,
style_type_name_override="ExtensionDescription.Tab",
clicked_fn=lambda i=index: set_page(i),
)
tab_buttons.append(tab_btn)
if index < len(self.page_tabs) - 1:
ui.Line(
style_type_name_override="ExtensionDescription.TabLine",
alignment=ui.Alignment.H_CENTER,
height=20,
width=40,
)
ui.Spacer()
self.__tabs[:] = tab_buttons
ui.Spacer(height=8)
with ui.ZStack():
pages = []
for page_tab in self.page_tabs:
page = ui.Frame(build_fn=lambda i=ext_info, e=ext_item, page_tab=page_tab: page_tab.build_tab(i, e))
pages.append(page)
self.__pages[:] = pages
set_page(ExtInfoWidget.current_page) # Default page
################################################################################################################
################################################################################################################
# Build Actual UI Layout of all blocks
with self._frame:
with ui.ZStack():
ui.Rectangle(style_type_name_override="ExtensionDescription.Background")
with ui.VStack(spacing=4):
# Top Margin
ui.Spacer(height=15)
with ui.HStack(height=0, spacing=5):
draw_icon_block()
with ui.VStack():
draw_top_row_block()
ui.Spacer(height=10)
draw_extension_name_block()
draw_extension_description_block()
ui.Spacer(height=10)
draw_extension_version_block()
draw_category_block()
#
ui.Spacer(height=4)
if ext_item.author_group != ExtAuthorGroup.NVIDIA:
draw_ext_source_block()
with ui.HStack():
ui.Spacer(width=10)
# Content page
with ui.VStack():
# Separator line
ui.Line(
height=0,
alignment=ui.Alignment.BOTTOM,
style_type_name_override="ExtensionDescription.TabLineFull",
)
draw_content_block()
ui.Spacer(width=10)
ui.Spacer(height=5)
def _refresh_once_next_frame(self):
async def _delayed_refresh(weak_widget):
await omni.kit.app.get_app().next_update_async()
w = weak_widget()
if w:
w._refresh_task = None
w._refresh()
with contextlib.suppress(Exception):
self._refresh_task.cancel()
self._refresh_task = asyncio.ensure_future(_delayed_refresh(weakref.ref(self)))
def set_show_graph_fn(self, fn: Callable):
self._show_graph_fn = fn
def _show_graph(self, ext_id):
if self._show_graph_fn:
self._show_graph_fn(ext_id)
def destroy(self):
self._ext_change_sub = None
if self._ext_graph:
self._ext_graph.destroy()
self._ext_graph = None
for page in self.page_tabs:
page.destroy()
# We want to None the instances also
self._version_menu = None
self.__tabs = []
self.__pages = []
| 34,417 | Python | 36.988962 | 120 | 0.498097 |
omniverse-code/kit/exts/omni.kit.window.extensions/omni/kit/window/extensions/ext_export_import.py | import asyncio
import os
import carb
import carb.tokens
import omni.kit.app
from .common import get_omni_documents_path
from .utils import get_setting
# Store last user choosen folder for convenience between sessions
RECENT_EXPORT_PATH_KEY = "/persistent/exts/omni.kit.window.extensions/recentExportPath"
def _print_and_log(message):
carb.log_info(message)
print(message)
async def _ask_user_for_path(is_export: bool, apply_button_label="Choose", title=None):
app = omni.kit.app.get_app()
manager = app.get_extension_manager()
if not manager.is_extension_enabled("omni.kit.window.filepicker"):
manager.set_extension_enabled("omni.kit.window.filepicker", True)
await app.next_update_async()
await app.next_update_async()
from omni.kit.widget.filebrowser import FileBrowserItem
from omni.kit.window.filepicker import FilePickerDialog
done = False
choosen_path = None
def on_click_cancel(f, d):
nonlocal done
done = True
if is_export:
def on_click_open(f, d):
nonlocal done, choosen_path
choosen_path = d
done = True
filepicker = FilePickerDialog(
title or "Choose Folder",
allow_multi_selection=False,
apply_button_label=apply_button_label,
click_apply_handler=on_click_open,
click_cancel_handler=on_click_cancel,
enable_filename_input=False,
)
else:
def on_click_open(f, d):
nonlocal done, choosen_path
choosen_path = os.path.join(d, f)
done = True
def on_filter_zip_files(item: FileBrowserItem) -> bool:
if not item or item.is_folder:
return True
return os.path.splitext(item.path)[1] == ".zip"
filepicker = FilePickerDialog(
title or "Choose Extension Zip Archive",
allow_multi_selection=False,
apply_button_label="Import",
click_apply_handler=on_click_open,
click_cancel_handler=on_click_cancel,
item_filter_options=[("*.zip", ".zip Archives (*.zip)")],
item_filter_fn=on_filter_zip_files,
)
recent_path = get_setting(RECENT_EXPORT_PATH_KEY, None)
if not recent_path:
recent_path = get_omni_documents_path()
filepicker.show(path=recent_path)
while not done:
await app.next_update_async()
filepicker.hide()
filepicker.destroy()
if choosen_path:
recent_path = os.path.dirname(choosen_path) if os.path.isfile(choosen_path) else choosen_path
carb.settings.get_settings().set(RECENT_EXPORT_PATH_KEY, recent_path)
return choosen_path
async def _export(ext_id: str):
output = await _ask_user_for_path(is_export=True, apply_button_label="Export")
if output:
app = omni.kit.app.get_app()
manager = app.get_extension_manager()
archive_path = manager.pack_extension(ext_id, output)
app.print_and_log(f"Extension: '{ext_id}' was exported to: '{archive_path}'")
async def _import():
archive_path = await _ask_user_for_path(is_export=False, apply_button_label="Import")
# Registry Local Cache Folder
registry_cache = get_setting("/app/extensions/registryCacheFull", None)
if not registry_cache:
carb.log_error("Can't import extension, registry cache path is not set.")
return
if archive_path:
omni.ext.unpack_extension(archive_path, registry_cache)
omni.kit.app.get_app().print_and_log(f"Extension: '{archive_path}' was imported to: '{registry_cache}'")
def export_ext(ext_id: str):
asyncio.ensure_future(_export(ext_id))
def import_ext():
asyncio.ensure_future(_import())
| 3,771 | Python | 29.176 | 112 | 0.641474 |
omniverse-code/kit/exts/omni.kit.window.extensions/omni/kit/window/extensions/exts_graph_window.py | # Copyright (c) 2018-2020, NVIDIA CORPORATION. All rights reserved.
#
# NVIDIA CORPORATION and its licensors retain all intellectual property
# and proprietary rights in and to this software, related documentation
# and any modifications thereto. Any use, reproduction, disclosure or
# distribution of this software and related documentation without an express
# license agreement from NVIDIA CORPORATION is strictly prohibited.
#
import os
from collections import defaultdict
from typing import List, Tuple
import carb
import omni.kit.app
import omni.ui as ui
from omni.kit.widget.graph import GraphNodeDescription, GraphPortDescription
from omni.kit.widget.graph.abstract_graph_node_delegate import AbstractGraphNodeDelegate
from omni.kit.widget.graph.graph_model import GraphModel
from omni.kit.widget.graph.graph_view import GraphView
from .utils import ext_id_to_fullname
# pylint: disable=property-with-parameters
# Colors & Style
BACKGROUND_COLOR = 0xFF34302A
BORDER_DEFAULT = 0xFF232323
CONNECTION = 0xFF80C280
NODE_BACKGROUND = 0xFF141414
PLUGINS_COLOR = 0xFFFFE3C4
LIBRARIES_COLOR = 0xAA44EBE7
MODULES_COLOR = 0xFFAAE3C4
GRAPH_STYLE = {
"Graph": {"background_color": BACKGROUND_COLOR},
"Graph.Connection": {"color": CONNECTION, "background_color": CONNECTION, "border_width": 2.0},
# Node
"Graph.Node.Background": {"background_color": NODE_BACKGROUND},
"Graph.Node.Border": {"background_color": BORDER_DEFAULT},
# Header
"Graph.Node.Header.Label": {"color": 0xFFEEEEEE, "margin_height": 5.0, "font_size": 14.0},
}
# Constants
MARGIN_WIDTH = 7.5
MARGIN_TOP = 20.0
MARGIN_BOTTOM = 25.0
BORDER_THICKNESS = 3.0
HEADER_HEIGHT = 25.0
MIN_WIDTH = 180.0
CONNECTION_CURVE = 60
class GraphNodeDelegate(AbstractGraphNodeDelegate):
"""
The delegate with the Omniverse design.
"""
def __init__(self, scale_factor=1.0):
self._manager = omni.kit.app.get_app_interface().get_extension_manager()
self._scale_factor = scale_factor
def __scale(self, value):
"""Return the value multiplied by global scale multiplier"""
return value * self._scale_factor
def set_scale_factor(self, scale_factor):
"""Replace scale factor"""
self._scale_factor = scale_factor
def node_background(self, model, node_desc: GraphNodeDescription):
"""Called to create widgets of the node background"""
# Computed values
left_right_offset = MARGIN_WIDTH - BORDER_THICKNESS * 0.5
# Draw a rectangle and a top line
with ui.HStack():
# Left offset
ui.Spacer(width=self.__scale(left_right_offset))
with ui.VStack():
ui.Spacer(height=self.__scale(MARGIN_TOP))
# The node body
with ui.ZStack():
# This trick makes min width
ui.Spacer(width=self.__scale(MIN_WIDTH))
# Build outer rectangle
ui.Rectangle(style_type_name_override="Graph.Node.Border")
# Build inner rectangle
with ui.VStack():
ui.Spacer(height=self.__scale(HEADER_HEIGHT))
with ui.HStack():
ui.Spacer(width=self.__scale(BORDER_THICKNESS))
ui.Rectangle(style_type_name_override="Graph.Node.Background")
ui.Spacer(width=self.__scale(BORDER_THICKNESS))
ui.Spacer(height=self.__scale(BORDER_THICKNESS))
ui.Spacer(height=self.__scale(MARGIN_BOTTOM))
# Right offset
ui.Spacer(width=self.__scale(left_right_offset))
def node_header_input(self, model, node_desc: GraphNodeDescription):
"""Called to create the left part of the header that will be used as input when the node is collapsed"""
with ui.ZStack(width=self.__scale(8)):
if node_desc.connected_target:
# Circle that shows that the port is a target for the connection
ui.Circle(
radius=self.__scale(4),
size_policy=ui.CircleSizePolicy.FIXED,
style_type_name_override="Graph.Connection",
alignment=ui.Alignment.RIGHT_CENTER,
)
def node_header_output(self, model, node_desc: GraphNodeDescription):
"""Called to create the right part of the header that will be used as output when the node is collapsed"""
with ui.ZStack(width=self.__scale(8)):
if node_desc.connected_source:
# Circle that shows that the port is a source for the connection
ui.Circle(
radius=self.__scale(4),
size_policy=ui.CircleSizePolicy.FIXED,
style_type_name_override="Graph.Connection",
alignment=ui.Alignment.LEFT_CENTER,
)
def node_header(self, model, node_desc: GraphNodeDescription):
"""Called to create widgets of the top of the node"""
item = model[node_desc.node].item
def build_list(files, title, color):
if len(files) > 0:
style = {"CollapsableFrame": {"color": color, "background_color": NODE_BACKGROUND}}
with ui.CollapsableFrame(title, collapsed=False, style=style):
with ui.VStack(height=0):
for p in files:
ui.Label(" - " + os.path.basename(p), height=self.__scale(20)).set_tooltip(p)
# Draw the node name and a bit of space
with ui.VStack(height=0):
ui.Spacer(height=self.__scale(18))
with ui.HStack(height=0):
ui.Spacer(width=self.__scale(18))
title = item.id
ui.Label(title, style_type_name_override="Graph.Node.Header.Label")
build_list(item.plugins, "carb plugins", PLUGINS_COLOR)
build_list(item.libraries, "shared libraries", LIBRARIES_COLOR)
build_list(item.modules, "python modules", MODULES_COLOR)
ui.Spacer(height=self.__scale(55))
def node_footer(self, model, node_desc: GraphNodeDescription):
pass
def port_input(self, model, node_desc: GraphNodeDescription, port_desc: GraphPortDescription):
pass
def port_output(self, model, node_desc: GraphNodeDescription, port_desc: GraphPortDescription):
pass
def port(self, model, node_desc: GraphNodeDescription, port_desc: GraphPortDescription):
pass
def connection(self, model, source, target):
"""Called to create the connection between ports"""
# If the connection is reversed, we need to mirror tangents
connection_direction_is_same_as_flow = source.level >= target.level
reversed_tangent = -1.0 if connection_direction_is_same_as_flow else 1.0
ui.FreeBezierCurve(
target.widget,
source.widget,
start_tangent_width=ui.Percent(CONNECTION_CURVE * reversed_tangent),
end_tangent_width=ui.Percent(-CONNECTION_CURVE * reversed_tangent),
style_type_name_override="Graph.Connection",
)
class ExtGraphItem:
def __init__(self, manager, ext_id):
info = manager.get_extension_dict(ext_id)
# Extension dependencies:
self.deps = info.get("state/dependencies", [])
self.port_deps = [d + "/out" for d in self.deps]
# Extension useful info (id, version, plugins, modules etc)
state_dict = info.get("state", {})
native_dict = state_dict.get("native", {})
self.id = ext_id
self.plugins = native_dict.get("plugins", [])
self.libraries = native_dict.get("libraries", [])
self.modules = state_dict.get("python", {}).get("modules", [])
def __lt__(self, other):
return self.id < other.id
class Model(GraphModel):
def __init__(self, ext_id: str = None):
super().__init__()
# build graph out of enabled extensions
manager = omni.kit.app.get_app_interface().get_extension_manager()
exts = manager.get_extensions()
enabled_exts = [e["id"] for e in exts if e["enabled"]]
self._nodes = {ext_id: ExtGraphItem(manager, ext_id) for ext_id in enabled_exts}
# If ext_id was passed filter out extension that are not reachable from this one. To show only its graph:
self._root_ext_id = ext_id
if self._root_ext_id:
self._filter_out_unreachable_nodes(ext_id)
def _filter_out_unreachable_nodes(self, ext_id):
visited = set()
q = []
root = self._nodes.get(ext_id, None)
if not root:
carb.log_error(f"Failure to filter dep graph, can't find ext node: {ext_id}")
return
q.append(root)
visited.add(root)
while len(q) > 0:
node = q.pop()
for d in node.deps:
child = self._nodes[d]
if child not in visited:
visited.add(child)
q.append(child)
self._nodes = {ext_id: item for ext_id, item in self._nodes.items() if item in visited}
@property
def expansion_state(self, item=None):
return self.ExpansionState.CLOSED
@property
def nodes(self, item=None):
return {e.id for e in self._nodes.values()}
@property
def name(self, item=None):
return self._nodes[item].id
@property
def item(self, item=None):
return self._nodes[item]
@property
def ports(self, item=None):
return [item + "/in", item + "/out"]
@property
def inputs(self, item):
if item.endswith("/in"):
item = self._nodes.get(item[:-3], None)
return item.port_deps if item else []
return None
@property
def outputs(self, item):
outputs = [] if item.endswith("/out") else None
return outputs
def copy_as_graphviz(self):
output = ""
output += """
digraph Extensions {
graph [outputMode=nodesfirst rankdir=LR]
node [shape=box style=filled]
"""
for _, node in self._nodes.items():
label = node.id + "\\n-------------------\\n"
def gen(files, title):
if len(files) == 0:
return ""
return f"{title}:\\l" + "".join([f" * {os.path.basename(f)}\\l" for f in files])
label += gen(node.plugins, "plugins")
label += gen(node.libraries, "libraries")
label += gen(node.modules, "modules")
output += f'\t\t"{node.id}" [label="{label}"]\n'
for d in node.deps:
output += f'\t\t"{d}" -> "{node.id}"\n'
output += "}\n"
print(output)
omni.kit.clipboard.copy(output)
class ExtsListView:
def __init__(self, model, ext_id):
self._model = model
self._ext_id = ext_id
# gather reverse dependencies from both local extensions and registry extensions
registry_exts = []
unique_registry_exts = set()
manager = omni.kit.app.get_app_interface().get_extension_manager()
for ext in manager.get_extensions():
ext_name = ext["name"]
registry_exts.append(ext)
unique_registry_exts.add(ext_name)
for ext in manager.get_registry_extensions():
ext_id = ext["id"]
ext_name = ext["name"]
if ext_name not in unique_registry_exts:
# grab latest version of each extension
versions = manager.fetch_extension_versions(ext_name)
if len(versions) > 0 and versions[0]["id"] == ext_id:
registry_exts.append(ext)
unique_registry_exts.add(ext_name)
self._reverse_dep = self._get_reverse_dependencies(manager, registry_exts)
with ui.ScrollingFrame(
horizontal_scrollbar_policy=ui.ScrollBarPolicy.SCROLLBAR_ALWAYS_OFF,
vertical_scrollbar_policy=ui.ScrollBarPolicy.SCROLLBAR_ALWAYS_ON,
):
with ui.ZStack():
ui.Rectangle(style_type_name_override="ExtensionDescription.ContentBackground")
with ui.HStack():
ui.Spacer(width=10)
with ui.VStack(height=0):
ui.Spacer(height=10)
direct = self._model._nodes[self._ext_id].deps if self._ext_id else ()
ui.Label(f"- Direct Dependencies ({len(direct)}):", height=20)
for ext in sorted(direct):
ui.Label(ext)
ui.Spacer(height=10)
indirect = [
node
for node in self._model._nodes.values()
if node.id not in direct and node.id != self._ext_id
]
ui.Label(f"- All Indirect Dependencies ({len(indirect)}):", height=20)
for node in sorted(indirect):
ui.Label(node.id)
ui.Spacer(width=10)
with ui.VStack(height=10):
ui.Spacer(height=10)
direct = self._reverse_dep[0]
ui.Label(f"- Direct Reverse Dependencies ({len(direct)}):", height=20)
for item in sorted(direct):
ui.Label(item)
ui.Spacer(height=10)
indirect = [
ext
for ext in self._reverse_dep[1]
if ext not in direct and ext != ext_id_to_fullname(self._ext_id)
]
ui.Label(f"- All Indirect Reverse Dependencies ({len(indirect)}):", height=20)
for item in sorted(indirect):
ui.Label(item)
def _get_reverse_dependencies(self, manager, exts) -> Tuple[List, List]:
dependents = defaultdict(set)
unique_exts_first_order = set()
unique_exts = set()
max_depth = 40
for ext in exts:
ext_id = ext["id"]
ext_name = ext["name"]
info = manager.get_extension_dict(ext_id)
if not info:
info = manager.get_registry_extension_dict(ext_id)
if info:
deps = info.get("dependencies", [])
for dep_name in deps:
dependents[dep_name].add(ext_name)
def recurse(ext_name: str, cur_depth: int):
if cur_depth < max_depth:
if cur_depth == 1:
unique_exts_first_order.add(ext_name)
unique_exts.add(ext_name)
for dep_name in dependents[ext_name]:
recurse(dep_name, cur_depth + 1)
if self._ext_id:
info = manager.get_extension_dict(self._ext_id)
ext_name = info.get("package/name", "")
recurse(ext_name, 0)
# returns a tuple, 1st order deps only and all reverse deps
return list(unique_exts_first_order), list(unique_exts)
class ExtsGraphWidget:
"""Extensions graph window"""
def __init__(self, ext_id):
self._ext_id = ext_id
self._view_index = 0
with ui.ZStack():
self._delegate = GraphNodeDelegate()
self._model = Model(self._ext_id)
# TODO(anov): remove pan_x, pan_y hardcoded after graph auto align fixed.
self._graph_frame = ui.Frame()
raster_nodes = carb.settings.get_settings().get("/exts/omni.kit.window.extensions/raster_nodes")
with self._graph_frame:
self._graph_view = GraphView(
delegate=self._delegate,
model=self._model,
style=GRAPH_STYLE,
zoom=0.5,
pan_x=1000,
pan_y=400,
raster_nodes=raster_nodes,
)
self._list_frame = ui.Frame()
with self._list_frame:
self._list_view = ExtsListView(self._model, self._ext_id)
self._list_frame.visible = False
with ui.VStack():
ui.Spacer()
with ui.HStack(height=0):
ui.Spacer()
with ui.VStack(width=200, height=0, content_clipping=True):
ui.Button(
"Toggle View",
width=200,
height=20,
mouse_pressed_fn=lambda *_: self._toggle_view(),
)
ui.Button(
"Copy as Graphviz .dot",
width=200,
height=20,
mouse_pressed_fn=lambda *_: self._model.copy_as_graphviz(),
)
ui.Spacer(width=10)
ui.Spacer(height=10)
def _toggle_view(self):
self._view_index = (self._view_index + 1) % 2
self._list_frame.visible = self._view_index == 1
self._graph_frame.visible = self._view_index == 0
def destroy(self):
self._delegate = None
self._model = None
self._list_frame = None
self._list_view = None
self._graph_frame = None
self._graph_view = None
class ExtsGraphWindow:
"""Extensions graph window"""
def __init__(self):
self._frame = ui.Frame()
self._frame.visible = False
self._graph_widget = None
self.select_ext(None)
manager = omni.kit.app.get_app_interface().get_extension_manager()
change_stream = manager.get_change_event_stream()
self._change_script_sub = change_stream.create_subscription_to_pop(
lambda _: self._refresh(), name="ExtsGraphWindow watch for exts"
)
def destroy(self):
self._frame = None
if self._graph_widget:
self._graph_widget.destroy()
self._change_script_sub = None
def _refresh(self):
self.set_visible(self._frame.visible)
def select_ext(self, ext_id):
self._ext_id = ext_id
def set_visible(self, visible: bool):
if self._frame.visible == visible:
if visible:
# recreate if already shown
self.set_visible(False)
else:
# if not shown already -> do nothing.
return
if not visible:
self._frame.visible = False
else:
self._build()
self._frame.visible = True
def _build(self):
with self._frame:
if self._graph_widget:
self._graph_widget.destroy()
self._graph_widget = ExtsGraphWidget(self._ext_id)
| 19,076 | Python | 35.89942 | 114 | 0.551478 |
omniverse-code/kit/exts/omni.kit.window.extensions/omni/kit/window/extensions/extension.py | # Copyright (c) 2018-2020, NVIDIA CORPORATION. All rights reserved.
#
# NVIDIA CORPORATION and its licensors retain all intellectual property
# and proprietary rights in and to this software, related documentation
# and any modifications thereto. Any use, reproduction, disclosure or
# distribution of this software and related documentation without an express
# license agreement from NVIDIA CORPORATION is strictly prohibited.
#
# pylint: disable=attribute-defined-outside-init, protected-access
import asyncio
import contextlib
import weakref
from typing import Callable
import omni.ext
import omni.kit.app
import omni.kit.ui
import omni.ui as ui
from . import common, ext_controller, ext_info_widget
from .exts_list_widget import ExtsListWidget
from .utils import get_setting
from .window import ExtsWindow
MENU_PATH = "Window/Extensions"
_ext_instance = None
def show_window(value: bool):
"""Show/Hide Extensions window"""
if _ext_instance:
_ext_instance.show_window(value)
def get_instance() -> "weakref.ReferenceType[ExtsWindowExtension]":
return weakref.ref(_ext_instance)
class ExtsWindowExtension(omni.ext.IExt):
"""The entry point exts 2.0 window"""
def on_startup(self, ext_id):
global _ext_instance
_ext_instance = self
app = omni.kit.app.get_app()
common.EXT_ROOT = app.get_extension_manager().get_extension_path(ext_id)
self._window = None
# # Add to menu - will fail if the editor is not loaded
self._menu = None # Throwing is ok, but leaves self._menu undefined
with contextlib.suppress(Exception):
self._menu = omni.kit.ui.get_editor_menu().add_item(
MENU_PATH, lambda _, v: self.show_window(v), toggle=True, value=False, priority=100
)
ui.Workspace.set_show_window_fn(
"Extensions",
lambda value: self.show_window(value), # pylint: disable=unnecessary-lambda
)
# Start enabling autoloadable extensions:
asyncio.ensure_future(ext_controller.autoload_extensions())
# Auto show window, for convenience
show = get_setting("/exts/omni.kit.window.extensions/showWindow", False)
if self._menu:
omni.kit.ui.get_editor_menu().set_value(MENU_PATH, show)
if show:
self.show_window(True)
# Some events trigger rebuild of a whole window
bus = app.get_message_bus_event_stream()
self._subs = []
def on_rebuild(_):
if self._window:
self.show_window(False)
self.show_window(True)
self._subs.append(bus.create_subscription_to_pop_by_type(common.COMMUNITY_TAB_TOGGLE_EVENT, on_rebuild))
def on_shutdown(self):
global _ext_instance
_ext_instance = None
self.show_window(False)
self._menu = None
self._subs = None
def show_window(self, value):
if value:
def on_visibility_changed(visible):
omni.kit.ui.get_editor_menu().set_value(MENU_PATH, visible)
self._window = ExtsWindow(on_visibility_changed if self._menu else None)
else:
if self._window:
self._window.destroy()
self._window = None
# --------------------------------------------------------------------------------------------------------------
# API to add a new tab to the extension info pane
@classmethod
def refresh_extension_info_widget(cls):
if _ext_instance._window and _ext_instance._window._ext_info_widget:
_ext_instance._window._ext_info_widget.update_tabs()
_ext_instance._window._ext_info_widget._refresh()
@classmethod
def add_tab_to_info_widget(cls, tab: ext_info_widget.PageBase):
ext_info_widget.ExtInfoWidget.pages.append(tab)
cls.refresh_extension_info_widget()
@classmethod
def remove_tab_from_info_widget(cls, tab: ext_info_widget.PageBase):
if tab in ext_info_widget.ExtInfoWidget.pages:
ext_info_widget.ExtInfoWidget.pages.remove(tab)
ext_info_widget.ExtInfoWidget.current_page = 0
cls.refresh_extension_info_widget()
# --------------------------------------------------------------------------------------------------------------
# API to add a searchable keyword
@classmethod
def refresh_search_items(cls):
if _ext_instance._window and _ext_instance._window._exts_list_widget:
_ext_instance._window._exts_list_widget.rebuild_filter_menu()
_ext_instance._window._exts_list_widget._model.refresh_all()
@classmethod
def add_searchable_keyword(cls, keyword: str, description: str, filter_on_keyword: Callable, clear_cache: Callable):
ExtsListWidget.searches[keyword] = (description, filter_on_keyword, clear_cache)
cls.refresh_search_items()
@classmethod
def remove_searchable_keyword(cls, keyword_to_remove: str):
if keyword_to_remove in ExtsListWidget.searches:
del ExtsListWidget.searches[keyword_to_remove]
cls.refresh_search_items()
| 5,156 | Python | 34.565517 | 120 | 0.63014 |
omniverse-code/kit/exts/omni.kit.window.extensions/omni/kit/window/extensions/__init__.py | # flake8: noqa
from .ext_commands import ToggleExtension
from .ext_components import SimpleCheckBox
from .extension import ExtsWindowExtension, get_instance
| 157 | Python | 30.599994 | 56 | 0.840764 |
omniverse-code/kit/exts/omni.kit.window.extensions/omni/kit/window/extensions/ext_controller.py | # Copyright (c) 2018-2020, NVIDIA CORPORATION. All rights reserved.
#
# NVIDIA CORPORATION and its licensors retain all intellectual property
# and proprietary rights in and to this software, related documentation
# and any modifications thereto. Any use, reproduction, disclosure or
# distribution of this software and related documentation without an express
# license agreement from NVIDIA CORPORATION is strictly prohibited.
#
from functools import lru_cache
import carb
import carb.settings
import omni.kit.app
from .utils import ext_id_to_fullname, set_default_and_get_setting
DEFERRED_LOAD_SETTING_KEY = "/exts/omni.kit.window.extensions/deferredLoadExts"
AUTOLOAD_SETTING_KEY = "/persistent/app/exts/enabled"
FEATURED_EXT_SETTING_KEY = "/exts/omni.kit.window.extensions/featuredExts"
WAIT_FRAMES_SETTING_KEY = "/exts/omni.kit.window.extensions/waitFramesBetweenEnable"
_autoload_exts = None
_startup_exts = set()
_startup_ext_ids = set()
def _get_autoload_exts():
global _autoload_exts
if _autoload_exts is None:
_autoload_exts = set(set_default_and_get_setting(AUTOLOAD_SETTING_KEY, []))
return _autoload_exts
@lru_cache()
def _get_featured_exts():
return set(set_default_and_get_setting(FEATURED_EXT_SETTING_KEY, []))
def _save():
exts = _get_autoload_exts()
carb.settings.get_settings().set(AUTOLOAD_SETTING_KEY, list(exts))
def toggle_autoload(ext_id: str, toggle: bool):
exts = _get_autoload_exts()
if toggle:
# Disable all other versions
ext_manager = omni.kit.app.get_app().get_extension_manager()
extensions = ext_manager.fetch_extension_versions(ext_id_to_fullname(ext_id))
for e in extensions:
exts.discard(e["id"])
exts.add(ext_id)
else:
exts.discard(ext_id)
_save()
def is_autoload_enabled(ext_id: str) -> bool:
exts = _get_autoload_exts()
return ext_id in exts
def is_startup_ext(ext_name: str) -> bool:
return ext_name in _startup_exts
def is_startup_ext_id(ext_id: str) -> bool:
return ext_id in _startup_ext_ids
def is_featured_ext(ext_name: str) -> bool:
return ext_name in _get_featured_exts()
def are_featured_exts_enabled() -> bool:
return len(_get_featured_exts()) > 0
async def autoload_extensions():
# Delay for one update until everything else of a core app is loaded
await omni.kit.app.get_app().next_update_async()
ext_manager = omni.kit.app.get_app().get_extension_manager()
wait_frames = set_default_and_get_setting(WAIT_FRAMES_SETTING_KEY, 1)
# Enable all deferered extension, one by one. Wait for next frame inbetween each.
for ext_id in set_default_and_get_setting(DEFERRED_LOAD_SETTING_KEY, []):
ext_manager.set_extension_enabled_immediate(ext_id, True)
for _ in range(wait_frames):
await omni.kit.app.get_app().next_update_async()
# Build list of startup extensions (those that were started by this point)
_autoload_exts = _get_autoload_exts()
for ext_info in ext_manager.get_extensions():
if ext_info["enabled"] and ext_info["id"] not in _autoload_exts:
_startup_exts.add(ext_info["name"])
_startup_ext_ids.add(ext_info["id"])
| 3,228 | Python | 31.29 | 85 | 0.696097 |
omniverse-code/kit/exts/omni.kit.window.extensions/omni/kit/window/extensions/utils.py | # Copyright (c) 2018-2020, NVIDIA CORPORATION. All rights reserved.
#
# NVIDIA CORPORATION and its licensors retain all intellectual property
# and proprietary rights in and to this software, related documentation
# and any modifications thereto. Any use, reproduction, disclosure or
# distribution of this software and related documentation without an express
# license agreement from NVIDIA CORPORATION is strictly prohibited.
#
# pylint: disable=protected-access, access-member-before-definition
import asyncio
import contextlib
import glob
import os
import platform
import shutil
import subprocess
from functools import lru_cache
from typing import Callable, Tuple
import carb
import carb.dictionary
import carb.settings
import omni.kit.commands
def call_once_with_delay(fn: Callable, delay: float):
"""Call function once after `delay` seconds.
If this function called again before `delay` is passed the timer gets reset."""
async def _delayed_refresh():
await asyncio.sleep(delay)
fn()
with contextlib.suppress(Exception):
fn._delay_call_task.cancel()
fn._delay_call_task = asyncio.ensure_future(_delayed_refresh())
@lru_cache()
def is_windows():
return platform.system().lower() == "windows"
def run_process(args):
print(f"running process: {args}")
kwargs = {"close_fds": False}
if is_windows():
kwargs["creationflags"] = subprocess.CREATE_NEW_CONSOLE | subprocess.CREATE_NEW_PROCESS_GROUP
subprocess.Popen(args, **kwargs) # pylint: disable=consider-using-with
def version_to_str(version: Tuple[int, int, int, str, str]) -> str:
"""Generate string `0.0.0-tag+tag`"""
delimiters = ("", ".", ".", "-", "+")
return "".join(f"{d}{v}" for d, v in zip(delimiters, version) if str(v) and v is not None)
def ext_id_to_fullname(ext_id: str) -> str:
return omni.ext.get_extension_name(ext_id)
def ext_id_to_name_version(ext_id: str) -> Tuple[str, str]:
"""Convert 'omni.foo-tag-1.2.3' to 'omni.foo-tag' and '1.2.3'"""
a, b, *rest = ext_id.split("-")
if b:
if not b[0:1].isdigit():
return f"{a}-{b}", "-".join(rest)
return a, "-".join([b] + rest)
return a, ""
def get_ext_info_dict(ext_manager, ext_info) -> Tuple[carb.dictionary.Item, bool]:
ext_dict = ext_manager.get_extension_dict(ext_info["id"])
if ext_dict is not None:
return (ext_dict, True)
return (ext_manager.get_registry_extension_dict(ext_info["package_id"]), False)
def get_setting(path, default=None):
setting = carb.settings.get_settings().get(path)
return setting if setting is not None else default
def set_default_and_get_setting(path, default=None):
settings = carb.settings.get_settings()
settings.set_default(path, default)
return settings.get(path)
def clip_text(s, max_count=80):
return s[:max_count] + ("..." if len(s) > max_count else "")
def open_file_using_os_default(path: str):
if platform.system() == "Darwin": # macOS
subprocess.call(("open", path))
elif platform.system() == "Windows": # Windows
os.startfile(path) # noqa: PLE1101
else: # linux variants
subprocess.call(("xdg-open", path))
def open_url(url):
import webbrowser
webbrowser.open(url)
def open_using_os_default(path: str):
if os.path.isfile(path):
open_file_using_os_default(path)
else:
# open dir
import webbrowser
webbrowser.open(path)
def open_in_vscode(path: str):
subprocess.call(["code", path], shell=is_windows())
@lru_cache()
def is_vscode_installed():
try:
cmd = ["code", "--version"]
return subprocess.call(cmd, shell=is_windows(), stdout=subprocess.DEVNULL, stderr=subprocess.STDOUT) == 0
except FileNotFoundError:
return False
def _search_path_entry_up(path, entry, max_steps_up=3):
for _ in range(0, max_steps_up + 1):
if os.path.exists(os.path.join(path, entry)):
return os.path.normpath(path)
new_path = os.path.normpath(os.path.join(path, ".."))
if new_path == path:
break
path = new_path
return None
def open_in_vscode_if_enabled(path: str, prefer_vscode: bool = True):
if prefer_vscode and is_vscode_installed():
# Search for .vscode folder few folders up to open project instead of just extension
# 5 steps is enough for '_build/window/release/exts/omni.foo' for instance
if os.path.isdir(path):
path = _search_path_entry_up(path, ".vscode", max_steps_up=5) or path
open_in_vscode(path)
else:
open_using_os_default(path)
def copy_text(text):
omni.kit.clipboard.copy(text)
def cleanup_folder(path):
try:
for p in glob.glob(f"{path}/*"):
if os.path.isdir(p):
if omni.ext.is_link(p):
omni.ext.destroy_link(p)
else:
shutil.rmtree(p)
else:
os.remove(p)
except Exception as exc: # pylint: disable=broad-except
carb.log_warn(f"Unable to clean up files: {path}: {exc}")
@lru_cache()
def get_extpath_git_ext():
try:
import omni.kit.extpath.git as git_ext
return git_ext
except ImportError:
return None
async def _load_popup_dialog_ext():
app = omni.kit.app.get_app()
manager = app.get_extension_manager()
if not manager.is_extension_enabled("omni.kit.window.popup_dialog"):
manager.set_extension_enabled("omni.kit.window.popup_dialog", True)
await app.next_update_async()
await app.next_update_async()
async def show_ok_popup(title, message, **dialog_kwargs):
await _load_popup_dialog_ext()
from omni.kit.window.popup_dialog import MessageDialog
app = omni.kit.app.get_app()
done = False
def on_click(d):
nonlocal done
done = True
dialog_kwargs.setdefault("disable_cancel_button", True)
dialog = MessageDialog(title=title, message=message, ok_handler=on_click, **dialog_kwargs)
dialog.show()
while not done:
await app.next_update_async()
dialog.destroy()
async def show_user_input_popup(title, label, default):
await _load_popup_dialog_ext()
from omni.kit.window.popup_dialog import InputDialog
app = omni.kit.app.get_app()
value = None
def on_click(dialog: InputDialog):
nonlocal value
value = dialog.get_value()
dialog = InputDialog(
message=title,
pre_label=label,
post_label="",
default_value=default,
ok_handler=on_click,
ok_label="Ok",
)
dialog.show()
while not value:
await app.next_update_async()
dialog.destroy()
return value
| 6,773 | Python | 26.425101 | 113 | 0.641223 |
omniverse-code/kit/exts/omni.kit.window.extensions/omni/kit/window/extensions/ext_components.py | # Copyright (c) 2018-2020, NVIDIA CORPORATION. All rights reserved.
#
# NVIDIA CORPORATION and its licensors retain all intellectual property
# and proprietary rights in and to this software, related documentation
# and any modifications thereto. Any use, reproduction, disclosure or
# distribution of this software and related documentation without an express
# license agreement from NVIDIA CORPORATION is strictly prohibited.
#
import asyncio
import sys
from typing import Callable, Dict
import omni.kit.app
import omni.ui as ui
from .common import ExtensionCommonInfo, ExtSource, build_doc_urls, pull_extension_async, toggle_extension
from .styles import get_style
from .utils import get_setting, open_url, run_process
class ExtensionToggle:
def __init__(self, item: ExtensionCommonInfo, with_label=False, show_install_button=True, refresh_cb=None):
with ui.HStack(width=0, style=get_style(self)):
if item.is_app:
def on_click(is_local=item.is_local, ext_id=item.id):
manager = omni.kit.app.get_app().get_extension_manager()
if not is_local:
manager.pull_extension(ext_id)
args = [sys.argv[0]]
ext_info = manager.get_extension_dict(ext_id)
if ext_info.get("isKitFile", False):
args.append(ext_info["path"])
else:
args.extend(["--enable", ext_id])
# Pass all exts folders
for folder in get_setting("/app/exts/folders", default=[]):
args.extend(["--ext-folder", folder])
run_process(args)
with ui.VStack():
ui.Spacer()
ui.Button("LAUNCH", name="LaunchButton", width=60, height=20, clicked_fn=on_click)
ui.Spacer()
elif not item.is_local:
if not show_install_button:
return
with ui.VStack():
ui.Spacer()
if item.is_pulled:
ui.Button("INSTALLING...", name="DownloadingButton", width=60, height=20)
else:
def on_click(item=item):
asyncio.ensure_future(pull_extension_async(item))
ui.Button("INSTALL", name="InstallButton", width=60, height=20, clicked_fn=on_click)
ui.Spacer()
else:
if item.failed:
with ui.VStack():
ui.Spacer()
# OM-90861: Add tooltip for extension depdency solve failure
tooltip = "Failed to solve extension dependency."
if item.solver_error:
tooltip += f"\nError: {item.solver_error}"
ui.Image(name="Failed", width=26, height=26, tooltip=tooltip)
ui.Spacer()
with ui.VStack():
ui.Spacer()
name = "clickable"
tb = ui.ToolButton(image_width=39, image_height=18, height=0, name=name)
tb.model.as_bool = item.enabled
def toggle(model, ext_id=item.id, fullname=item.fullname):
enable = model.get_value_as_bool()
# If we about to enable, toggle other versions if enabled
if enable:
manager = omni.kit.app.get_app().get_extension_manager()
extensions = manager.fetch_extension_versions(fullname)
for e in extensions:
if e["enabled"] and e["id"] != ext_id:
toggle_extension(e["id"], False)
if not toggle_extension(ext_id, enable=enable):
model.as_bool = not enable
if item.is_toggle_blocked:
tb.name = "nonclickable"
# TODO(anov): how to make ToolButton disabled?
def block_change(model, enabled=item.enabled):
model.as_bool = enabled
tb.model.add_value_changed_fn(block_change)
else:
tb.model.add_value_changed_fn(toggle)
ui.Spacer()
if with_label:
ui.Spacer(width=8)
if item.enabled:
ui.Label("ENABLED", name="EnabledLabel")
else:
ui.Label("DISABLED", name="DisabledLabel")
class SimpleCheckBox:
def __init__(self, checked: bool, on_checked_fn: Callable, text: str = None, model=None, enabled=True):
with ui.HStack(width=0, style=get_style(self)):
with ui.VStack(width=0):
ui.Spacer()
if enabled:
tb = ui.ToolButton(image_width=39, image_height=18, height=0, model=model)
tb.model.as_bool = checked
tb.model.add_value_changed_fn(lambda model: on_checked_fn(model.get_value_as_bool()))
else:
name = "disabled_checked" if checked else "disabled_unchecked"
ui.Image(width=39, height=18, name=name)
ui.Spacer()
if text:
ui.Label(text)
class SearchWidget:
"""String field with a label overlay to type search string into."""
def __init__(self, on_search_fn: Callable[[str], None]):
def clear_text(widget):
widget.model.set_value("")
widget.focus_keyboard()
def field_changed(field_string):
self._clear_button.visible = len(field_string) > 0
on_search_fn(field_string)
self.clear_filters()
with ui.ZStack(height=0, style=get_style(self)):
# Search filed
with ui.HStack():
field_widget = ui.StringField(style_type_name_override="SearchField")
self._search = field_widget.model
ui.Rectangle(width=20, style={"background_color": 0xFF212121, "border_radius": 0.0})
with ui.HStack():
ui.Spacer()
self._clear_button = ui.Button(
"",
name="ClearSearch",
width=16,
alignment=ui.Alignment.CENTER,
clicked_fn=lambda w=field_widget: clear_text(w),
visible=False,
)
# The label on the top of the search field
with ui.HStack():
ui.Spacer(width=5)
with ui.VStack(width=0):
ui.Spacer()
self._search_icon = ui.Image(name="SearchIcon", width=12, height=13)
ui.Spacer()
self._search_label = ui.Label("Search", style={"margin_width": 4}, name="Search")
# The filtering logic
self._begin_filter_sub = self._search.subscribe_begin_edit_fn(lambda _: self._toggle_visible(False))
self._edit_filter_sub = self._search.subscribe_value_changed_fn(lambda m: field_changed(m.as_string))
self._end_filter_sub = self._search.subscribe_end_edit_fn(lambda m: self._toggle_visible(not m.as_string))
def _toggle_visible(self, visible):
self._search_label.visible = visible
self._search_icon.visible = visible
def set_text(self, text):
self._search.as_string = text
self._toggle_visible(False)
def get_text(self):
return self._search.as_string
def get_filters(self):
return self._filters
def toggle_filter(self, filter_to_toggle):
if filter_to_toggle in self._filters:
self._filters.remove(filter_to_toggle)
else:
self._filters.append(filter_to_toggle)
def clear_filters(self):
self._filters = []
def destroy(self):
self._begin_filter_sub = None
self._edit_filter_sub = None
self._end_filter_sub = None
class ExtSourceSelector:
def __init__(self, on_selected_fn):
self._on_selected_fn = None
self._buttons = {}
with ui.HStack(height=20):
for index, source in enumerate(ExtSource):
ui.Spacer()
tab_btn = ui.Button(
source.get_ui_name(),
width=0,
style_type_name_override="ExtensionDescription.Tab",
clicked_fn=lambda s=source: self.set_tab(s),
)
self._buttons[source] = tab_btn
if index < len(ExtSource) - 1:
ui.Spacer()
ui.Line(
style_type_name_override="ExtensionDescription.TabLine",
alignment=ui.Alignment.H_CENTER,
height=20,
width=40,
)
ui.Spacer()
self.set_tab(ExtSource.NVIDIA)
self._on_selected_fn = on_selected_fn
def set_badge_number(self, source, number):
self._buttons[source].text = source.get_ui_name() + f" ({number})"
def set_tab(self, source):
for b in self._buttons.values():
b.selected = False
self._buttons[source].selected = True
if self._on_selected_fn:
self._on_selected_fn(source)
def add_icon_button(name, on_click):
with ui.VStack(width=0):
ui.Spacer()
b = ui.Button(name=name, style_type_name_override="IconButton", width=23, height=18, clicked_fn=on_click)
ui.Spacer()
return b
def add_doc_link_button(ext_item: ExtensionCommonInfo, package_dict: Dict, docs_dict: Dict):
# Create a button, but hide.
button = None
with ui.VStack(width=0):
ui.Spacer()
button = ui.Button(
name="OpenDoc",
style_type_name_override="IconButton",
width=23,
height=18,
style={"Label": {"color": 0xFF444444}},
)
ui.Spacer()
button.visible = False
def check_url_sync(url):
import urllib
try:
return urllib.request.urlopen(url).getcode() == 200
except urllib.error.HTTPError:
return False
async def check_urls(doc_urls):
for doc_url in doc_urls:
# run sync code on other thread not to block
if await asyncio.get_event_loop().run_in_executor(None, check_url_sync, doc_url):
button.visible = True
def on_click(url=doc_url):
open_url(url)
button.set_clicked_fn(on_click)
button.set_tooltip_fn(lambda url=doc_url: ui.Label(url))
break
# Async check for URLs and if valid show the button
doc_urls = build_doc_urls(ext_item)
if doc_urls:
asyncio.ensure_future(check_urls(doc_urls))
| 11,164 | Python | 35.848185 | 114 | 0.523647 |
omniverse-code/kit/exts/omni.kit.window.extensions/omni/kit/window/extensions/ext_data_fetcher.py | # Copyright (c) 2018-2020, NVIDIA CORPORATION. All rights reserved.
#
# NVIDIA CORPORATION and its licensors retain all intellectual property
# and proprietary rights in and to this software, related documentation
# and any modifications thereto. Any use, reproduction, disclosure or
# distribution of this software and related documentation without an express
# license agreement from NVIDIA CORPORATION is strictly prohibited.
#
import asyncio
import json
import logging
import os
from functools import lru_cache
from typing import Callable, List
import omni.kit.app
from .common import ExtensionCommonInfo, get_registry_url
logger = logging.getLogger(__name__)
class ExtDataFetcher:
"""Fetches json files near extension archives from the registry and caches them"""
def __init__(self):
# Notify when anything new fetched
self.on_data_fetched_fn: Callable = None
# Cached data
self._data = {}
def get_ext_data(self, package_id) -> dict:
return self._data.get(package_id, None)
def fetch(self, ext_item: ExtensionCommonInfo):
if self.get_ext_data(ext_item.package_id):
return
json_data_urls = self._build_json_data_urls(ext_item)
if json_data_urls:
async def read_data():
for json_data_url in json_data_urls:
result, _, content = await omni.client.read_file_async(json_data_url)
if result == omni.client.Result.OK:
try:
content = memoryview(content).tobytes().decode("utf-8")
self._data[ext_item.package_id] = json.loads(content)
if self.on_data_fetched_fn:
self.on_data_fetched_fn(ext_item.package_id) # noqa
break
except Exception as e: # noqa
logger.error("Error reading extra registry data from: %s. Error: %s", json_data_url, e)
asyncio.ensure_future(read_data())
def _build_json_data_urls(self, ext_item: ExtensionCommonInfo) -> List[str]:
ext_manager = omni.kit.app.get_app().get_extension_manager()
ext_remote_info = ext_manager.get_registry_extension_dict(ext_item.package_id)
registry_url = get_registry_url(ext_item.provider_name)
if not registry_url:
return None
# Same as archive path, but extension is `.json`:
archive_path = ext_remote_info.get("package", {}).get("archivePath", None)
if archive_path:
# build url relative to the registry url
archive_path = archive_path.replace("\\", "/")
archive_path = omni.client.combine_urls(registry_url + "/index.zip", archive_path)
archive_path = omni.client.normalize_url(archive_path)
archive_path = os.path.splitext(archive_path)[0] + ".json"
if omni.client.break_url(archive_path).host == omni.client.break_url(registry_url).host:
return [archive_path]
# that means archive path is on different host (like packman). Do the best guess using registry url.
# Old format is one big folder, new format is a subfolder for each extension
data_filename = os.path.basename(archive_path)
return [
"{}/archives/{}".format(registry_url, data_filename),
"{}/archives/{}/{}".format(registry_url, ext_item.fullname, data_filename),
]
return None
@lru_cache()
def get_ext_data_fetcher():
return ExtDataFetcher()
| 3,635 | Python | 39.4 | 115 | 0.616506 |
omniverse-code/kit/exts/omni.kit.window.extensions/omni/kit/window/extensions/markdown_renderer.py | # Copyright (c) 2018-2020, NVIDIA CORPORATION. All rights reserved.
#
# NVIDIA CORPORATION and its licensors retain all intellectual property
# and proprietary rights in and to this software, related documentation
# and any modifications thereto. Any use, reproduction, disclosure or
# distribution of this software and related documentation without an express
# license agreement from NVIDIA CORPORATION is strictly prohibited.
#
import omni.ui as ui
from .styles import get_style
class MarkdownText:
def __init__(self, content):
with ui.VStack(height=0, style=get_style(self)):
def consume_heading(s):
heading = 0
while s.startswith("#"):
s = s[1:]
heading += 1
return heading, s.lstrip()
for line in content.splitlines():
line = line.lstrip()
heading, line = consume_heading(line)
style_name = "text"
if heading > 0:
style_name = f"H{heading}"
ui.Label(line, name=style_name, height=0, word_wrap=True)
| 1,138 | Python | 32.499999 | 76 | 0.603691 |
omniverse-code/kit/exts/omni.kit.window.extensions/omni/kit/window/extensions/exts_list_widget.py | # Copyright (c) 2018-2020, NVIDIA CORPORATION. All rights reserved.
#
# NVIDIA CORPORATION and its licensors retain all intellectual property
# and proprietary rights in and to this software, related documentation
# and any modifications thereto. Any use, reproduction, disclosure or
# distribution of this software and related documentation without an express
# license agreement from NVIDIA CORPORATION is strictly prohibited.
#
# pylint: disable=attribute-defined-outside-init, protected-access,
# pylint: disable=access-member-before-definition, unnecessary-lambda-assignment
import asyncio
import contextlib
import fnmatch
from collections import OrderedDict, defaultdict
from enum import IntFlag
from functools import lru_cache
from typing import Callable, List, Optional
import carb
import carb.events
import carb.settings
import omni.kit.app
import omni.kit.commands
import omni.ui as ui
from omni.kit.widget.filter import FilterButton
from omni.kit.widget.options_menu import OptionItem
from omni.ui import color as cl
from .common import (
EXTENSION_PULL_STARTED_EVENT,
REGISTRIES_CHANGED_EVENT,
ExtAuthorGroup,
ExtensionCommonInfo,
ExtSource,
get_categories,
get_open_example_links,
is_community_tab_enabled,
)
from .ext_components import ExtensionToggle, ExtSourceSelector, SearchWidget
from .ext_controller import are_featured_exts_enabled
from .ext_export_import import import_ext
from .ext_template import create_new_extension_template
from .styles import (
EXT_ICON_SIZE,
EXT_ITEM_TITLE_BAR_H,
EXT_LIST_ITEM_H,
EXT_LIST_ITEM_ICON_ZONE_W,
EXT_LIST_ITEMS_MARGIN_H,
)
from .utils import get_ext_info_dict, get_extpath_git_ext
ext_manager = None
# Sync only once for now
@lru_cache()
def _sync_registry():
ext_manager.refresh_registry()
class ExtGroupItem(ui.AbstractItem):
def __init__(self, name):
super().__init__()
self.name = name
self.total_count = 0
self.items = []
self.ext_source = ExtSource.NVIDIA
def contains(self, ext_summary):
return True
def is_expanded_by_default(self):
return True
class ExtFeatureGroupItem(ExtGroupItem):
def contains(self, ext_summary):
return ext_summary.feature
class ExtToggleableGroupItem(ExtGroupItem):
def contains(self, ext_summary):
return ext_summary.toggleable
class ExtNonToggleableGroupItem(ExtGroupItem):
def contains(self, ext_summary):
return not ext_summary.toggleable
def is_expanded_by_default(self):
return False
class ExtAuthorGroupItem(ExtGroupItem):
def __init__(self, name, author_group: ExtAuthorGroup):
super().__init__(name)
self.author_group = author_group
self.ext_source = ExtSource.THIRD_PARTY
def contains(self, ext_summary):
return ext_summary.author_group == self.author_group
def is_expanded_by_default(self):
return True
class ExtSummaryItem(ui.AbstractItem):
"""An abstract item that represents an extension summary"""
def refresh(self, ext_summary):
self.fullname = ext_summary["fullname"]
self.flags = ext_summary["flags"]
self.enabled_ext = ext_summary["enabled_version"]
self.latest_ext = ext_summary["latest_version"]
self.default_ext = self.latest_ext
self.enabled = bool(self.flags & omni.ext.EXTENSION_SUMMARY_FLAG_ANY_ENABLED)
if self.enabled:
self.default_ext = self.enabled_ext
self.id = self.default_ext["id"]
is_latest = self.enabled_ext["id"] == self.latest_ext["id"]
self.can_update = self.enabled and not is_latest
# Query more info
ext_info, is_local = get_ext_info_dict(ext_manager, self.default_ext)
# Take latest version (in terms of semver) and grab publish date from it if any, for sorting invert it.
latest_info = ext_info if is_latest else get_ext_info_dict(ext_manager, self.latest_ext)[0]
publish_date = latest_info.get("package", {}).get("publish", {}).get("date", 0)
self.publish_date_rev = -publish_date
# Move all attributes from ExtensionCommonInfo class to this class
self.__dict__.update(ExtensionCommonInfo(self.id, ext_info, is_local).__dict__)
class ExtSummariesModel(ui.AbstractItemModel):
"""Extension summary model that watches the changes in ext manager"""
class SortDirection(IntFlag):
NONE = 0
Ascending = 1
Descending = 2
def __init__(self, flat=None):
super().__init__()
global ext_manager
app = omni.kit.app.get_app()
ext_manager = app.get_extension_manager()
self._ext_summaries = {}
# Order matters here, because contains() matches first group
self._groups = [
ExtAuthorGroupItem("User", ExtAuthorGroup.USER),
ExtAuthorGroupItem("Partner", ExtAuthorGroup.PARTNER),
ExtAuthorGroupItem("Community - Verified", ExtAuthorGroup.COMMUNITY_VERIFIED),
ExtAuthorGroupItem("Community - Unverified", ExtAuthorGroup.COMMUNITY_UNVERIFIED),
ExtFeatureGroupItem("Feature"),
ExtToggleableGroupItem("General"),
ExtNonToggleableGroupItem("Non-Toggleable"),
]
# Attribute in ExtSummaryItem to sort by. For each attribute store order of sort in a dict (can be toggled)
self._sort_attr = "name"
self._sort_direction = ExtSummariesModel.SortDirection.Ascending
# exscribe for ext manager changes and generic event
def on_change(*_):
self._resync_exts()
self._subs = []
self._subs.append(
ext_manager.get_change_event_stream().create_subscription_to_pop(
on_change, name="ExtSummariesModel watch for exts"
)
)
bus = app.get_message_bus_event_stream()
self._subs.append(bus.create_subscription_to_pop_by_type(REGISTRIES_CHANGED_EVENT, on_change))
self._subs.append(bus.create_subscription_to_pop_by_type(EXTENSION_PULL_STARTED_EVENT, on_change))
# Current name filter
self._filter_name_text = []
# Current category filter
self._filter_category = ""
# Current ext source
self._filter_ext_source = ExtSource.NVIDIA
# Hacky link back to tree view to be able to update expanded state
self.tree_view = None
# on refresh callback
self.on_refresh_cb = None
# Builds a list
self._resync_exts()
def resync_registry(self):
ext_manager.refresh_registry()
def refresh_all(self):
self._resync_exts()
def _resync_exts(self):
get_extpath_git_ext.cache_clear()
for (_, _, clear_cache) in ExtsListWidget.searches.values():
if clear_cache is not None:
clear_cache()
_sync_registry()
ext_summaries = ext_manager.fetch_extension_summaries()
# groups
for g in self._groups:
g.total_count = 0
self._ext_summaries = {}
for ext_s in ext_summaries:
item = ExtSummaryItem()
item.refresh(ext_s)
# assign group
item.group = next(x for x in self._groups if x.contains(item))
item.group.total_count += 1
self._item_changed(item)
self._ext_summaries[ext_s["fullname"]] = item
self._item_changed(None)
# Update expanded state after tree was built and rendered
async def _delayed_expand():
await omni.kit.app.get_app().next_update_async()
if self.tree_view:
for g in self._groups:
self.tree_view.set_expanded(g, g.is_expanded_by_default(), False)
if self.tree_view:
asyncio.ensure_future(_delayed_expand())
self._sorted_summaries = list(self._ext_summaries.values())
self._make_sure_sorted()
def _refresh_item_group_lists(self):
# Filtering logic here:
matching_fns = []
# Split text in words and look for @keywords. Add matching functions and remove from the list.
# To remove from list while iterating use backward iteration trick.
parts = self._filter_name_text.copy()
for i in range(len(parts) - 1, -1, -1):
w = parts[i]
if w.startswith("@"):
# Predefined keywords or use default ones
fn = ExtsListWidget.searches.get(w, [None, None, None])[1]
if fn is None:
fn = lambda item, w=w: w[1:] in item.keywords
matching_fns.append(fn)
del parts[i]
# Whatever left just use as wildcard search:
if len(parts) > 0:
for part in parts:
filter_str = f"*{part.lower()}*"
matching_fns.append(
lambda item, filter_str=filter_str: fnmatch.fnmatch(item.name.lower(), filter_str)
or fnmatch.fnmatch(item.fullname.lower(), filter_str)
)
# If category filter enabled, add matching function for it
if len(self._filter_category) != 0:
matching_fns.append(lambda item: self._filter_category == item.category)
else:
hidden_categories = [c for c, v in get_categories().items() if v.get("hidden", False)]
matching_fns.append(lambda item: item.category not in hidden_categories)
# Show item only if it matches all matching functions
for group in self._groups:
group.items = [v for v in self._sorted_summaries if v.group == group and all(f(v) for f in matching_fns)]
self._item_changed(group)
# callback
if self.on_refresh_cb:
self.on_refresh_cb()
def get_item_children(self, item):
"""Reimplemented from AbstractItemModel"""
if item is None:
self._refresh_item_group_lists()
return [g for g in self._groups if g.total_count and g.ext_source == self._filter_ext_source]
if isinstance(item, ExtGroupItem):
return item.items
return []
def get_item_value_model_count(self, item):
"""Reimplemented from AbstractItemModel"""
return 1
def get_item_value_model(self, item, column_id):
"""Reimplemented from AbstractItemModel"""
return
def filter_by_text(self, filter_name_text, filters):
"""Specify the filter string that is used to reduce the model"""
new_list = filters + [filter_name_text]
if self._filter_name_text == new_list and not new_list:
return
self._filter_name_text = new_list
# Avoid refreshing on every key typed, as it can be slow. Add delay:
self._refresh_once_with_delay(delay=0.3)
def select_category(self, filter_category):
# Special case for "All" => ""
if self._filter_category == filter_category:
return
self._filter_category = filter_category
self._refresh_once_with_delay(delay=0.1)
def select_ext_source(self, ext_source):
if self._filter_ext_source == ext_source:
return False
self._filter_ext_source = ext_source
self._resync_exts()
return True
def _refresh_once_with_delay(self, delay: float):
"""Call refresh once after `delay` seconds. If called again before `delay` is passed the timer gets reset."""
async def _delayed_refresh():
await asyncio.sleep(delay)
self._item_changed(None)
with contextlib.suppress(Exception):
self._refresh_task.cancel()
self._refresh_task = asyncio.ensure_future(_delayed_refresh())
def sort_by_attr(self, attr: str):
"""Sort by item attribute."""
if attr is None:
return
if self._sort_attr != attr:
self._sort_attr = attr
self._make_sure_sorted()
def sort_direction(self, direction: SortDirection):
"""Sort by direction."""
if direction is None:
return
self._sort_direction = direction
self._make_sure_sorted()
def _make_sure_sorted(self):
# Sort order setting is global
reverse = self._sort_direction == ExtSummariesModel.SortDirection.Descending
# Attribute value getter
key_fn = lambda x: getattr(x, self._sort_attr)
cmp_fn = (lambda x, y: x >= y) if reverse else (lambda x, y: x <= y)
# Check that it is already sorted to avoid list rebuild
is_sorted_fn = lambda l: all(cmp_fn(key_fn(l[i]), key_fn(l[i + 1])) for i in range(len(l) - 1))
if not is_sorted_fn(self._sorted_summaries):
self._sorted_summaries = sorted(self._sorted_summaries, key=key_fn, reverse=reverse)
self._item_changed(None)
def destroy(self):
self._ext_summaries = {}
self._sorted_summaries = []
self._subs = None
self.tree_view = None
self.on_refresh_cb = None
class ExtsDelegate(ui.AbstractItemDelegate):
def build_branch(self, model, item, column_id, level, expanded):
"""ui.AbstractItemDelegate API: Create a branch widget that opens or closes subtree"""
return
def build_widget(self, model, item, column_id, level, expanded):
"""ui.AbstractItemDelegate API: Create a widget per column"""
if isinstance(item, ExtGroupItem):
with ui.ZStack():
with ui.VStack():
ui.Spacer(height=1)
ui.Rectangle(height=30, name="ExtensionListGroup")
with ui.HStack():
image_name = "expanded" if expanded else ""
ui.Image(
style_type_name_override="ExtensionList.Group.Icon",
name=image_name,
width=31,
height=31,
alignment=ui.Alignment.LEFT_CENTER,
)
ui.Label(
"{} ({}/{})".format(item.name, len(item.items), item.total_count),
style_type_name_override="ExtensionList.Group.Label",
)
return
h = EXT_LIST_ITEM_H - EXT_ITEM_TITLE_BAR_H
with ui.VStack(height=EXT_LIST_ITEM_H + EXT_LIST_ITEMS_MARGIN_H):
with ui.ZStack():
with ui.VStack(height=0):
ui.Rectangle(height=EXT_LIST_ITEM_H, style_type_name_override="ExtensionList.Background")
ui.Rectangle(height=EXT_LIST_ITEMS_MARGIN_H, style_type_name_override="ExtensionList.Separator")
with ui.VStack():
# Top row
with ui.HStack(height=EXT_ITEM_TITLE_BAR_H):
# Title
ui.Label(
item.title, style_type_name_override="ExtensionList.Label", name="Title", elided_text=True
)
# Toggle
ExtensionToggle(item, show_install_button=not item.is_untrusted)
ui.Spacer(width=5)
with ui.HStack():
with ui.HStack(width=EXT_LIST_ITEM_ICON_ZONE_W):
ui.Spacer()
with ui.VStack(width=EXT_ICON_SIZE[0]):
ui.Spacer()
ui.Image(item.icon_path, height=EXT_ICON_SIZE[1], style={"color": 0xFFFFFFFF})
ui.Spacer()
ui.Spacer()
with ui.ZStack():
ui.Rectangle(height=h, style_type_name_override="ExtensionList.Foreground")
with ui.VStack():
ui.Spacer(height=5)
# Category name
category = get_categories().get(item.category)
ui.Label(
category["name"],
height=0,
style_type_name_override="ExtensionList.Label",
name="Category",
)
# Extension id
ui.Label(
item.fullname,
height=0,
style_type_name_override="ExtensionList.Label",
name="Id",
elided_text=True,
)
# Version
if item.version and item.version[0:3] != (0, 0, 0):
ui.Label(
"v" + item.version,
style_type_name_override="ExtensionList.Label",
name="Version",
alignment=ui.Alignment.BOTTOM,
)
# Update available?
# if item.can_update:
with ui.VStack():
ui.Spacer(height=10)
with ui.HStack():
ui.Spacer()
if item.can_update:
ui.Image(
name="UpdateAvailable",
width=28,
height=31,
alignment=ui.Alignment.RIGHT_CENTER,
)
ui.Spacer(width=10)
if item.can_update:
ui.Label(
"UPDATE AVAILABLE", alignment=ui.Alignment.RIGHT_CENTER, name="UpdateAvailable"
)
elif item.author_group != ExtAuthorGroup.NVIDIA:
with ui.HStack():
ui.Spacer()
with ui.VStack(width=148, height=0):
ui.Spacer()
with ui.ZStack():
ui.Image(
name="Community",
width=148,
height=32,
alignment=ui.Alignment.RIGHT_BOTTOM,
)
name = item.author_group.get_ui_name()
ui.Label(name, alignment=ui.Alignment.RIGHT_CENTER, name="Community")
elif item.location_tag:
ui.Label(item.location_tag, alignment=ui.Alignment.RIGHT_CENTER, name="LocationTag")
ui.Spacer()
def build_header(self, column_id):
pass
class ExtsListWidget:
# Search configuration information as SearchKey:(SearchUiName, FilterBySearchKey, ClearSearchCache)
searches = OrderedDict(
{
"@startup": ("Startup", lambda item: item.is_startup, None),
"@featured": ("Featured", lambda item: item.is_featured or item.ext_source == ExtSource.THIRD_PARTY, None),
"@bundled": ("Bundled", lambda item: bool(item.flags & omni.ext.EXTENSION_SUMMARY_FLAG_BUILTIN), None),
"@user": ("User", lambda item: item.author_group == ExtAuthorGroup.USER, None),
"@app": ("App", lambda item: item.is_app, None),
"@enabled": ("Enabled", lambda item: bool(item.flags & omni.ext.EXTENSION_SUMMARY_FLAG_ANY_ENABLED), None),
"@update": ("Update Available", lambda item: item.can_update, None),
"@installed": (
"Installed",
lambda item: bool(item.flags & omni.ext.EXTENSION_SUMMARY_FLAG_INSTALLED),
None,
),
"@remote": ("Remote", lambda item: not bool(item.flags & omni.ext.EXTENSION_SUMMARY_FLAG_BUILTIN), None),
}
)
# remove "Featured" when not in use
if not are_featured_exts_enabled():
del searches["@featured"]
def __init__(self):
# Extensions List Data Model
self._model = ExtSummariesModel()
self._model.on_refresh_cb = self._on_ext_list_refresh
menu_style = {
"padding": 2,
"Menu.Item.CheckMark": {"color": cl.shade(cl("#34C7FF"))},
"Titlebar.Background": {"background_color": cl.shade(cl("#1F2123"))},
"Titlebar.Title": {"color": cl.shade(cl("#848484"))},
"Titlebar.Reset": {"background_color": 0},
"Titlebar.Reset.Label": {"color": cl.shade(cl("#2E86A9"))},
"Titlebar.Reset.Label:hovered": {"color": cl.shade(cl("#34C7FF"))},
}
# Delegate to build list rows.
self._delegate = ExtsDelegate()
self.set_show_graph_fn(None)
self.set_show_properties_fn(None)
# Filter button
self._filter_button: Optional[FilterButton] = None
# Sort menu. One day it will be a hamburger. One can dream.
self._sortby_menu = ui.Menu("Sort By", style=menu_style, menu_compatibility=False, tearable=False)
self.rebuild_sortby_menu()
self._options_menu = ui.Menu("Options", style=menu_style, menu_compatibility=False, tearable=False)
self.rebuild_options_menu()
# Extension creation menu
self._create_menu = ui.Menu("Create", style=menu_style, menu_compatibility=False, tearable=False)
self.rebuild_create_menu()
def _menu_header(self, title, clicked_fn):
with ui.ZStack(height=0):
ui.Rectangle(style_type_name_override="Titlebar.Background")
with ui.VStack():
ui.Spacer(height=3)
with ui.HStack():
ui.Spacer(width=10)
ui.Label(title, style_type_name_override="Titlebar.Title")
ui.Spacer()
ui.Button(
"Reset all" if clicked_fn else " ",
style_type_name_override="Titlebar.Reset",
clicked_fn=clicked_fn,
)
ui.Spacer(width=10)
ui.Spacer(height=2)
def rebuild_filter_menu(self):
if self._filter_button:
option_items = self._build_filter_items()
self._filter_button.model.rebuild_items(option_items)
def rebuild_sortby_menu(self):
def reset_sort():
asyncio.ensure_future(update_sort("name", ExtSummariesModel.SortDirection.Ascending))
async def update_sort(sb: str, sd: ExtSummariesModel.SortDirection):
if sb:
await omni.kit.app.get_app().next_update_async()
self._model.sort_by_attr(sb)
if sd is not ExtSummariesModel.SortDirection.NONE:
await omni.kit.app.get_app().next_update_async()
self._model.sort_direction(sd)
sort_by = self._model._sort_attr
sort_direction = self._model._sort_direction
# change button color
self._sortby_button.name = (
"sortby"
if sort_by == "name" and sort_direction == ExtSummariesModel.SortDirection.Ascending
else "sortby_on"
)
self._sortby_menu.clear()
with self._sortby_menu:
self._menu_header("Sort", reset_sort)
ui.MenuItem(
"Name",
triggered_fn=lambda: asyncio.ensure_future(
update_sort("name", ExtSummariesModel.SortDirection.NONE)
),
checkable=True,
checked=sort_by == "name",
)
ui.MenuItem(
"Enabled",
triggered_fn=lambda: asyncio.ensure_future(
update_sort("enabled", ExtSummariesModel.SortDirection.NONE)
),
checkable=True,
checked=sort_by == "enabled",
)
ui.MenuItem(
"Publish Date",
triggered_fn=lambda: asyncio.ensure_future(
update_sort("publish_date_rev", ExtSummariesModel.SortDirection.NONE)
),
checkable=True,
checked=sort_by == "publish_date_rev",
)
ui.Separator()
ui.MenuItem(
"Ascending",
triggered_fn=lambda: asyncio.ensure_future(
update_sort(None, ExtSummariesModel.SortDirection.Ascending)
),
checkable=True,
checked=sort_direction == ExtSummariesModel.SortDirection.Ascending,
)
ui.MenuItem(
"Descending",
triggered_fn=lambda: asyncio.ensure_future(
update_sort(None, ExtSummariesModel.SortDirection.Descending)
),
checkable=True,
checked=sort_direction == ExtSummariesModel.SortDirection.Descending,
)
asyncio.ensure_future(update_sort(None, ExtSummariesModel.SortDirection.NONE))
def rebuild_options_menu(self):
self._options_menu.clear()
with self._options_menu:
self._menu_header("Options", None)
ui.MenuItem("Settings", triggered_fn=self._show_properties)
ui.MenuItem("Refresh", triggered_fn=self._model.refresh_all)
ui.MenuItem("Resync Registry", triggered_fn=self._resync_registry)
ui.MenuItem("Show Extension Graph", triggered_fn=self._show_graph)
ui.MenuItem("Import Extension", triggered_fn=import_ext)
def rebuild_create_menu(self):
def open_url(url):
import webbrowser
webbrowser.open(url)
self._create_menu.clear()
with self._create_menu:
self._menu_header("Create Extension", None)
ui.MenuItem("New Extension Template Project", triggered_fn=create_new_extension_template)
for name, url in get_open_example_links():
ui.MenuItem(name, triggered_fn=lambda u=url: open_url(u))
def _on_key_pressed(self, key, mod, pressed):
"""Allow up/down arrow to be used to select prev/next extension"""
def _select_next(treeview: ui.TreeView, model: ui.AbstractItemModel, after=True):
full_list = model.get_item_children(None)
selection = treeview.selection
if not selection:
treeview.selection = [full_list[0]]
else:
index = full_list.index(selection[0])
index += 1 if after else -1
if index < 0 or index >= len(full_list):
return
treeview.selection = [full_list[index]]
if not pressed:
return
if mod == 0 and key == int(carb.input.KeyboardInput.DOWN):
_select_next(self.tree_view, self._model, after=True)
elif mod == 0 and key == int(carb.input.KeyboardInput.UP):
_select_next(self.tree_view, self._model, after=False)
def _on_selection_changed(self, selection):
item = selection[0] if len(selection) > 0 else None
if item and isinstance(item, ExtGroupItem):
self.tree_view.set_expanded(item, not self.tree_view.is_expanded(item), False)
self.tree_view.clear_selection()
else:
self._ext_selected_fn(item)
def _on_ext_list_refresh(self):
cnt = defaultdict(int)
for group in self._model._groups:
cnt[group.ext_source] += len(group.items)
for source, value in cnt.items():
self._ext_source_selector.set_badge_number(source, value)
async def __update_filter(self, search_key: str) -> None:
if search_key:
self._search.toggle_filter(search_key)
await omni.kit.app.get_app().next_update_async()
self._filter_by_text(self._search.get_text(), self._search.get_filters())
def _build_filter_items(self) -> List[OptionItem]:
option_items = []
filters = self._search.get_filters()
for search_key, (search_description, _, _) in self.searches.items():
option_item = OptionItem(
search_description,
on_value_changed_fn=lambda m, sk=search_key: asyncio.ensure_future(self.__update_filter(sk)),
)
option_item.model.set_value(search_key in filters)
option_items.append(option_item)
return option_items
def _build_filter_button(self):
option_items = self._build_filter_items()
self._filter_button = FilterButton(option_items)
def build(self):
with ui.VStack(spacing=3):
with ui.HStack(height=0):
# Create button
ui.Button(name="create", width=22, height=22, clicked_fn=self._create_menu.show)
# Search field
with ui.HStack(width=ui.Fraction(2)):
self._search = SearchWidget(
on_search_fn=lambda t: self._filter_by_text(t, self._search.get_filters())
)
if are_featured_exts_enabled():
self._search.toggle_filter("@featured")
ui.Spacer(width=10)
# Category selector
category_list = [("All", "")] + [(v["name"], c) for c, v in get_categories().items()]
self._category_combo = ui.ComboBox(0, *[c[0] for c in category_list], style={"padding": 4})
self._category_combo.model.add_item_changed_fn(
lambda model, item: self._select_category(category_list[model.get_item_value_model(item).as_int][1])
)
ui.Spacer(width=5)
# Filter button
self._build_filter_button()
# Sort-By button
self._sortby_button = ui.Button(name="sortby", width=24, height=24, clicked_fn=self._sortby_menu.show)
# Properies
ui.Button(name="options", width=24, height=24, clicked_fn=self._options_menu.show)
# Source selector (community tab)
self._ext_source_selector = None
if is_community_tab_enabled():
self._ext_source_selector = ExtSourceSelector(self._select_ext_source)
frame = ui.ScrollingFrame(
horizontal_scrollbar_policy=ui.ScrollBarPolicy.SCROLLBAR_ALWAYS_OFF,
vertical_scrollbar_policy=ui.ScrollBarPolicy.SCROLLBAR_ALWAYS_ON,
style_type_name_override="TreeView",
)
with frame:
with ui.ZStack():
self.tree_view = ui.TreeView(
self._model,
header_visible=False,
delegate=self._delegate,
column_widths=[ui.Fraction(1)],
root_visible=False,
keep_expanded=False,
)
self._model.tree_view = self.tree_view
self.tree_view.set_selection_changed_fn(self._on_selection_changed)
# make that public
self.clear_selection = self.tree_view.clear_selection
frame.set_key_pressed_fn(self._on_key_pressed)
def set_show_graph_fn(self, fn: Callable):
self._show_graph_fn = fn
def set_ext_selected_fn(self, fn: Callable):
self._ext_selected_fn = fn
def _resync_registry(self):
self._model.resync_registry()
def _show_graph(self):
if self._show_graph_fn:
self._show_graph_fn()
def set_show_properties_fn(self, fn: Callable):
self._show_properties_fn = fn
def _show_properties(self):
if self._show_properties_fn:
self._show_properties_fn()
def _filter_by_text(self, filter_text: str, filters: list):
"""Set the search filter string to the models and widgets"""
self._model.filter_by_text(filter_text, filters)
def _select_category(self, category: str):
"""Set the category to show"""
self._model.select_category(category)
def _select_ext_source(self, ext_source):
self._model.select_ext_source(ext_source)
def destroy(self):
self._delegate = None
if self._filter_button:
self._filter_button.destroy()
self._filter_button = None
self._sortby_menu = None
self._options_menu = None
self._search.destroy()
self._search = None
self._category_combo = None
self._model.destroy()
self._model = None
| 33,624 | Python | 38.235706 | 120 | 0.545444 |
omniverse-code/kit/exts/omni.kit.window.extensions/omni/kit/window/extensions/ext_commands.py | # Copyright (c) 2018-2020, NVIDIA CORPORATION. All rights reserved.
#
# NVIDIA CORPORATION and its licensors retain all intellectual property
# and proprietary rights in and to this software, related documentation
# and any modifications thereto. Any use, reproduction, disclosure or
# distribution of this software and related documentation without an express
# license agreement from NVIDIA CORPORATION is strictly prohibited.
#
import omni.kit.app
import omni.kit.commands
class ToggleExtension(omni.kit.commands.Command):
"""
Toggle extension **Command**. Enables/disables an extension.
Args:
ext_id(str): Extension id.
enable(bool): Enable or disable.
"""
def __init__(self, ext_id: str, enable: bool):
self._ext_id = ext_id
self._enable = enable
self._ext_manager = omni.kit.app.get_app().get_extension_manager()
def do(self):
manager = omni.kit.app.get_app().get_extension_manager()
manager.set_extension_enabled_immediate(self._ext_id, self._enable)
omni.kit.app.send_telemetry_event(
"omni.kit.window.extensions@enable_ext", data1=self._ext_id, value1=float(self._enable)
)
| 1,199 | Python | 35.363635 | 99 | 0.694746 |
omniverse-code/kit/exts/omni.kit.window.extensions/omni/kit/window/extensions/ext_template.py | # pylint: disable=protected-access
import asyncio
import glob
import os
import re
import sys
from datetime import datetime
from itertools import chain
from pathlib import Path
from string import Template
import carb.tokens
import omni.ext
import omni.kit.app
from . import ext_controller
from .ext_export_import import _ask_user_for_path
from .utils import open_in_vscode_if_enabled, show_ok_popup, show_user_input_popup
def substitute_tokens_in_file(path, tokens):
try:
with open(path, "r", encoding="utf-8") as f:
content = Template(f.read()).safe_substitute(tokens)
except UnicodeDecodeError:
# Non-text file, ignore
return
with open(path, "w", encoding="utf-8") as f:
f.write(content)
def is_subpath(path, root):
return root in path.parents
def _copy_template(src, dst, ext_id, python_module_path):
import shutil
from distutils.dir_util import copy_tree # noqa: PLW0612, PLW4901
from os.path import join
copy_tree(join(src, "tools"), join(dst, "tools"))
copy_tree(join(src, "vscode"), join(dst, ".vscode"))
shutil.copy(join(src, "README.md"), join(dst, "README.md"))
shutil.copy(join(src, "gitignore"), join(dst, ".gitignore"))
shutil.copy(join(src, "link_app.bat"), join(dst, "link_app.bat"))
shutil.copy(join(src, "link_app.sh"), join(dst, "link_app.sh"))
copy_tree(join(src, "exts", "[ext_id]", "[python_module]"), join(dst, "exts", ext_id, python_module_path))
copy_tree(join(src, "exts", "[ext_id]", "config"), join(dst, "exts", ext_id, "config"))
copy_tree(join(src, "exts", "[ext_id]", "docs"), join(dst, "exts", ext_id, "docs"))
copy_tree(join(src, "exts", "[ext_id]", "data"), join(dst, "exts", ext_id, "data"))
async def _create_new_extension_template():
export_path = await _ask_user_for_path(
is_export=True, apply_button_label="Select", title="Choose a location for your extension project"
)
if not export_path:
return
project_folder = await show_user_input_popup(
"Name the extension project. This is the root folder of the repository.", "Project Name: ", "kit-exts-project"
)
export_path = os.path.join(export_path, project_folder)
# Create folder
os.makedirs(export_path, exist_ok=True)
if len(os.listdir(export_path)) > 0:
await show_ok_popup("Error", f"Folder already exist: {export_path}")
return
template_path = carb.tokens.get_tokens_interface().resolve("${omni.kit.window.extensions}/ext_template")
if sys.platform == "win32":
kit_exec = "kit.exe"
python_exe = "python.exe"
else:
kit_exec = "kit"
python_exe = "bin/python3"
ext_id = await show_user_input_popup("Choose Extension Name:", "ext_id: ", "company.hello.world")
ext_name = "".join([token.capitalize() for token in ext_id.split(".")])
ext_title = " ".join(ext_id.split("."))
ext_id_pattern = r"^[a-zA-Z0-9._]+$"
if not re.match(ext_id_pattern, ext_id):
await show_ok_popup("Error", f"Invalid extension name: {ext_id}. Supported chars: {ext_id_pattern}")
return
python_module = ext_id
python_module_path = ext_id.replace(".", "/")
# copy template folder
_copy_template(template_path, export_path, ext_id, python_module_path)
# Find app root
def _look_for_app_root(path):
path = Path(path)
for p in chain([path], path.parents):
for kit_subpath in ["", "kit"]:
if p.joinpath(kit_subpath, kit_exec).is_file():
return str(p), str(kit_subpath)
return None, None
app_path = carb.tokens.get_tokens_interface().resolve("${app}")
app_root_path, kit_subpath = _look_for_app_root(app_path)
if not app_root_path:
await show_ok_popup("Error", f"Can't find app root in {app_root_path}")
return
# build vscode exts search paths:
ext_relative_paths = []
app = omni.kit.app.get_app()
manager = app.get_extension_manager()
for folder in manager.get_folders():
path_type = folder["type"]
if path_type == omni.ext.ExtensionPathType.COLLECTION:
path = Path(folder["path"])
if is_subpath(path, Path(app_root_path)):
for p in glob.glob(f"{path}/*"):
if os.path.isdir(p):
s = ' "${{workspaceFolder}}/app/{}",'.format(
Path(p).relative_to(app_root_path).as_posix()
)
ext_relative_paths.append(s)
export_exts_path = f"{export_path}/exts"
export_app_path = f"{export_path}/app"
# substitute all tokens
tokens = {
"ext_id": ext_id,
"ext_name": ext_name,
"ext_title": ext_title,
"kit_subpath": kit_subpath + "/" if kit_subpath else "",
"python_exe": python_exe,
"python_module": python_module,
"ext_search_paths": "\n".join(ext_relative_paths),
"export_path": export_path,
"export_exts_path": export_exts_path,
"export_app_path": export_app_path,
"author": os.environ.get("USERNAME", "please fill in author information"),
"today": datetime.today().strftime("%Y-%m-%d"),
}
for folder, _, files in os.walk(export_path):
for filename in files:
substitute_tokens_in_file(os.path.join(folder, filename), tokens)
# create link
omni.ext.create_link(export_app_path, app_root_path)
# try open in vscode:
open_in_vscode_if_enabled(export_path, prefer_vscode=True)
# add new search path (remove + add will trigger fs search for sure)
manager.remove_path(export_exts_path)
manager.add_path(export_exts_path, omni.ext.ExtensionPathType.COLLECTION_USER)
await app.next_update_async()
# Enable that one ext and make it autoload
manager.set_extension_enabled(ext_id, True)
ext_controller.toggle_autoload(f"{ext_id}-1.0.0", True)
# Focus on it
from .extension import get_instance
instance = get_instance()()
instance._window._ext_info_widget._refresh_once_next_frame()
instance._window._exts_list_widget._search.set_text(ext_id)
def create_new_extension_template():
asyncio.ensure_future(_create_new_extension_template())
| 6,299 | Python | 35 | 118 | 0.622003 |
omniverse-code/kit/exts/omni.kit.window.extensions/omni/kit/window/extensions/exts_properties_registries.py | # Copyright (c) 2018-2020, NVIDIA CORPORATION. All rights reserved.
#
# NVIDIA CORPORATION and its licensors retain all intellectual property
# and proprietary rights in and to this software, related documentation
# and any modifications thereto. Any use, reproduction, disclosure or
# distribution of this software and related documentation without an express
# license agreement from NVIDIA CORPORATION is strictly prohibited.
#
import carb
import carb.dictionary
import carb.settings
import omni.kit.app
import omni.ui as ui
from .common import REGISTRIES_CHANGED_EVENT, USER_REGISTRIES_SETTING, get_registries
from .ext_components import SimpleCheckBox
from .styles import get_style
from .utils import copy_text, get_setting
DEFAUT_PUBLISH_SETTING = "app/extensions/registryPublishDefault"
EMPTY_REGISTRY_NAME = "[enter_name]"
REGISTRIES_COLUMNS = ["name", "url", "default", "user"]
class RegistryItem(ui.AbstractItem):
def __init__(self, name, url, is_user=True, is_default=False, add_dummy=False):
super().__init__()
self.name_model = ui.SimpleStringModel(name)
self.url_model = ui.SimpleStringModel(url)
self.default_model = ui.SimpleBoolModel(is_default)
self.is_user = is_user
self.add_dummy = add_dummy
class RegistriesModel(ui.AbstractItemModel):
def __init__(self):
super().__init__()
self._children = []
self._load()
self._add_dummy = RegistryItem("", "", add_dummy=True)
self._default_changing = False
def destroy(self):
self._children = []
def get_item_children(self, item):
"""Returns all the children when the widget asks it."""
if item is not None:
return []
return self._children + [self._add_dummy]
def get_item_value_model_count(self, item):
"""The number of columns"""
return 4
def get_item_value_model(self, item, column_id):
if column_id == 0:
return item.name_model
if column_id == 1:
return item.url_model
return None
def _load(self):
self._children = []
default_registry = get_setting(DEFAUT_PUBLISH_SETTING, "")
# Registries
ui.Label("Registries:")
for name, url, is_user in get_registries():
self._children.append(RegistryItem(name, url, is_user, is_default=(name == default_registry)))
self._item_changed(None)
def add_empty(self):
self._children.append(RegistryItem(EMPTY_REGISTRY_NAME, "", is_user=True))
self._item_changed(None)
def remove_item(self, item):
self._children.remove(item)
self._item_changed(None)
self.save()
def save(self):
registries = []
for child in self._children:
if child.is_user:
name = child.name_model.as_string
url = child.url_model.as_string
if name and url:
# Auto fill name?
if name == EMPTY_REGISTRY_NAME:
name = "/".join(url.split("/")[-2:]) # Take last 2
child.name_model.as_string = name
registries.append({"name": name, "url": url})
settings_dict = carb.settings.get_settings().get_settings_dictionary("")
settings_dict[USER_REGISTRIES_SETTING[1:]] = registries
# Notify registry
omni.kit.app.get_app().get_message_bus_event_stream().push(REGISTRIES_CHANGED_EVENT)
def set_default(self, item, value):
# to avoid recursion
if self._default_changing:
return
self._default_changing = True
for c in self._children:
c.default_model.as_bool = False
item.default_model.as_bool = value
carb.settings.get_settings().set(DEFAUT_PUBLISH_SETTING, item.name_model.as_string if value else "")
self._default_changing = False
class EditableDelegate(ui.AbstractItemDelegate):
def __init__(self):
super().__init__()
self._subscription = None
self._context_menu = ui.Menu("Context menu")
def destroy(self):
self._subscription = None
self._context_menu = None
def _show_copy_context_menu(self, x, y, button, modifier, text):
if button != 1:
return
self._context_menu.clear()
with self._context_menu:
ui.MenuItem("Copy", triggered_fn=lambda: copy_text(text))
self._context_menu.show()
def build_widget(self, model, item, column_id, level, expanded):
"""Create a widget per column per item"""
with ui.HStack(width=20):
value_model = model.get_item_value_model(item, column_id)
if column_id in (0, 1):
stack = ui.ZStack(height=20)
with stack:
label = ui.Label(value_model.as_string, width=500, name=("config" if item.is_user else "builtin"))
field = ui.StringField(value_model, visible=False)
# Start editing when double clicked
stack.set_mouse_double_clicked_fn(
lambda x, y, b, _, f=field, l=label, m=model, i=item: self.on_double_click(b, f, l, m, i)
)
# Right click is copy menu
stack.set_mouse_pressed_fn(
lambda x, y, b, m, t=value_model.as_string: self._show_copy_context_menu(x, y, b, m, t)
)
elif column_id == 2:
if not item.add_dummy:
with ui.HStack():
ui.Spacer(width=10)
SimpleCheckBox(
item.default_model.as_bool,
lambda value, item=item: model.set_default(item, value),
model=item.default_model,
text="",
)
ui.Spacer(width=20)
else:
if item.is_user:
def on_click():
if item.add_dummy:
model.add_empty()
else:
model.remove_item(item)
with ui.HStack():
ui.Spacer(width=10)
ui.Button(
name=("add" if item.add_dummy else "remove"),
style_type_name_override="ItemButton",
width=20,
height=20,
clicked_fn=on_click,
)
ui.Spacer()
def on_double_click(self, button, field, label, model, item):
"""Called when the user double-clicked the item in TreeView"""
if button != 0:
return
if item.add_dummy:
return
if not item.is_user:
copy_text(field.model.as_string)
return
# Make Field visible when double clicked
field.visible = True
field.focus_keyboard()
# When editing is finished (enter pressed of mouse clicked outside of the viewport)
self._subscription = field.model.subscribe_end_edit_fn(
lambda m, f=field, l=label, md=model: self.on_end_edit(m.as_string, f, l, md)
)
def on_end_edit(self, text, field, label, model):
"""Called when the user is editing the item and pressed Enter or clicked outside of the item"""
field.visible = False
label.text = text
self._subscription = None
if text:
model.save()
def build_header(self, column_id):
with ui.HStack():
ui.Spacer(width=10)
ui.Label(REGISTRIES_COLUMNS[column_id], name="header")
class ExtsRegistriesWidget:
def __init__(self):
self._model = RegistriesModel()
self._delegate = EditableDelegate()
with ui.VStack(style=get_style(self)):
ui.Spacer(height=20)
with ui.ScrollingFrame(
height=200,
horizontal_scrollbar_policy=ui.ScrollBarPolicy.SCROLLBAR_ALWAYS_OFF,
vertical_scrollbar_policy=ui.ScrollBarPolicy.SCROLLBAR_ALWAYS_OFF,
style_type_name_override="TreeView",
):
tree_view = ui.TreeView(
self._model,
delegate=self._delegate,
root_visible=False,
header_visible=True,
)
tree_view.column_widths = [ui.Fraction(1), ui.Fraction(4), ui.Pixel(60), ui.Pixel(40)]
ui.Spacer(height=10)
def destroy(self):
self._model.destroy()
self._model = None
self._delegate.destroy()
self._delegate = None
| 8,863 | Python | 35.03252 | 118 | 0.55207 |
omniverse-code/kit/exts/omni.kit.window.extensions/omni/kit/window/extensions/ext_status_bar.py | # Copyright (c) 2018-2020, NVIDIA CORPORATION. All rights reserved.
#
# NVIDIA CORPORATION and its licensors retain all intellectual property
# and proprietary rights in and to this software, related documentation
# and any modifications thereto. Any use, reproduction, disclosure or
# distribution of this software and related documentation without an express
# license agreement from NVIDIA CORPORATION is strictly prohibited.
#
from datetime import datetime
import omni.ext
import omni.kit.app
import omni.ui as ui
from omni.ui import color as cl
NEUTRAL = cl("#FFFFFF")
SUCCESS = cl("#3794ff")
FAILURE = cl("#CC0000")
class ExtStatusBar:
def __init__(self):
self._label = ui.Label("", height=8)
app = omni.kit.app.get_app()
bus = app.get_message_bus_event_stream()
self._subs = []
self._set_status("")
def sub(e, message, color):
self._subs.append(bus.create_subscription_to_pop_by_type(e, lambda e: self._set_status(message, color, e)))
sub(omni.ext.EVENT_REGISTRY_REFRESH_BEGIN, "Syncing Registry...", NEUTRAL)
sub(
omni.ext.EVENT_REGISTRY_REFRESH_END_SUCCESS,
"Registry Synced: " + datetime.now().strftime("%H:%M:%S"),
SUCCESS,
)
sub(omni.ext.EVENT_REGISTRY_REFRESH_END_FAILURE, "Registry Sync Failed.", FAILURE)
sub(omni.ext.EVENT_EXTENSION_PULL_BEGIN, "Installing: {}...", NEUTRAL)
sub(omni.ext.EVENT_EXTENSION_PULL_END_SUCCESS, "Installed successfully: {}", SUCCESS)
sub(omni.ext.EVENT_EXTENSION_PULL_END_FAILURE, "Install failed: {}", FAILURE)
def _set_status(self, status, color=NEUTRAL, evt=None):
if evt and evt.payload["packageId"]:
status = status.format(evt.payload["packageId"])
self._status = status
self._status_color = color
self._refresh_ui()
def _refresh_ui(self):
self._label.style = {"font_size": 14, "color": self._status_color}
self._label.text = self._status
| 2,023 | Python | 35.799999 | 119 | 0.655956 |
omniverse-code/kit/exts/omni.kit.window.extensions/omni/kit/window/extensions/exts_properties_widget.py | # Copyright (c) 2018-2020, NVIDIA CORPORATION. All rights reserved.
#
# NVIDIA CORPORATION and its licensors retain all intellectual property
# and proprietary rights in and to this software, related documentation
# and any modifications thereto. Any use, reproduction, disclosure or
# distribution of this software and related documentation without an express
# license agreement from NVIDIA CORPORATION is strictly prohibited.
#
import carb
import carb.dictionary
import carb.settings
import carb.tokens
import omni.kit.app
import omni.ui as ui
from .common import COMMUNITY_TAB_TOGGLE_EVENT, SettingBoolValue, get_options
from .exts_list_widget import ExtSummaryItem
from .exts_properties_paths import ExtsPathsWidget
from .exts_properties_registries import ExtsRegistriesWidget
from .styles import get_style
from .utils import cleanup_folder, copy_text, ext_id_to_name_version, get_setting, version_to_str
class ExtsPropertiesWidget:
def __init__(self):
self._ext_manager = omni.kit.app.get_app().get_extension_manager()
self._ext_change_sub = self._ext_manager.get_change_event_stream().create_subscription_to_pop(
lambda *_: self._refresh(), name="ExtPropertiesWidget"
)
self._registries_widget = None
self._paths_widget = None
self._frame = ui.Frame()
def destroy(self):
self._clean_widgets()
self._ext_change_sub = None
self._frame = None
def set_visible(self, visible):
self._frame.visible = visible
self._refresh()
def _clean_widgets(self):
if self._registries_widget:
self._registries_widget.destroy()
self._registries_widget = None
if self._paths_widget:
self._paths_widget.destroy()
self._paths_widget = None
def _refresh(self):
if not self._frame.visible:
return
self._clean_widgets()
# Build UI
with self._frame:
with ui.ScrollingFrame(
horizontal_scrollbar_policy=ui.ScrollBarPolicy.SCROLLBAR_ALWAYS_OFF,
vertical_scrollbar_policy=ui.ScrollBarPolicy.SCROLLBAR_ALWAYS_ON,
):
with ui.ZStack(style=get_style(self)):
ui.Rectangle(style_type_name_override="Properies.Background")
with ui.HStack():
ui.Spacer(width=20)
with ui.VStack(spacing=4, height=0):
def add_open_button(text, url):
def open_url(url_=url):
# Import it here instead of on the file root because it has long import time.
import webbrowser
webbrowser.open(url_)
ui.Button(text, width=0, clicked_fn=open_url, tooltip=url)
ui.Spacer(height=10)
# Extension Search Paths
with ui.CollapsableFrame("Extension Search Paths", collapsed=False):
self._paths_widget = ExtsPathsWidget()
# Registries
with ui.CollapsableFrame("Extension Registries", collapsed=False):
self._registries_widget = ExtsRegistriesWidget()
with ui.CollapsableFrame("Extension System Cache", collapsed=True):
with ui.VStack():
ui.Spacer(height=10)
cache_path = get_setting("/exts/omni.kit.registry.nucleus/cachePath", None)
if cache_path:
cache_path = carb.tokens.get_tokens_interface().resolve(cache_path)
with ui.HStack():
add_open_button("Open", cache_path)
def clean(p_=cache_path):
cleanup_folder(p_)
ui.Button(
"Clean",
width=0,
clicked_fn=clean,
tooltip="Remove all downloaded extensions",
)
ui.Label(f"Path: {cache_path}")
ui.Spacer(height=10)
with ui.CollapsableFrame("Options", collapsed=True):
with ui.VStack():
ui.Spacer(height=10)
def add_option(option: SettingBoolValue, name: str, evt: int = None):
# Publishing enabled
with ui.HStack(width=60):
cb = ui.CheckBox()
def on_change(model):
option.set_bool(model.get_value_as_bool())
if evt:
omni.kit.app.get_app().get_message_bus_event_stream().push(evt)
cb.model.set_value(option.get())
cb.model.add_value_changed_fn(on_change)
ui.Label(name)
options = get_options()
add_option(options.publishing, "Publishing Enabled")
if options.community_tab is not None:
ui.Spacer(height=10)
add_option(
options.community_tab,
"Show Community Extensions",
COMMUNITY_TAB_TOGGLE_EVENT,
)
ui.Spacer(height=10)
# Export all exts data
with ui.CollapsableFrame("Miscellaneous", collapsed=True):
with ui.VStack():
ui.Spacer(height=10)
ext_summaries = self._ext_manager.fetch_extension_summaries()
total_cnt = len(ext_summaries)
builtin_cnt = sum(
bool(e["flags"] & omni.ext.EXTENSION_SUMMARY_FLAG_BUILTIN)
for e in ext_summaries
)
installed_cnt = sum(
bool(e["flags"] & omni.ext.EXTENSION_SUMMARY_FLAG_INSTALLED)
for e in ext_summaries
)
ui.Label(f"Total Extensions: {total_cnt}", height=20)
ui.Label(f"Bultin Extensions: {builtin_cnt}", height=20)
ui.Label(f"Installed Extensions: {installed_cnt}", height=20)
registry_count = len(self._ext_manager.get_registry_extensions())
ui.Label(f"Registry Packages: {registry_count}", height=20)
ui.Spacer(height=10)
ui.Button(
"Copy all exts as CSV",
width=100,
height=30,
clicked_fn=lambda: self.export_all_exts(ext_summaries),
)
# Export all exts data
ui.Button(
"Copy enabled exts as .kit file (top level)",
width=100,
height=30,
clicked_fn=lambda: self.export_enabled_exts_as_kit_file(only_top_level=True),
)
# Export all exts data
ui.Button(
"Copy enabled exts as .kit file (all)",
width=100,
height=30,
clicked_fn=lambda: self.export_enabled_exts_as_kit_file(only_top_level=False),
)
ui.Spacer()
ui.Spacer(width=20)
def export_all_exts(self, ext_summaries):
"""Export all exts in CSV format with some of config params. print and copy result."""
ext_sum_dict = {}
for ext_s in ext_summaries:
item = ExtSummaryItem()
item.refresh(ext_s)
ext_sum_dict[ext_s["fullname"]] = item
fields_to_export = [
"package/name",
"package/version",
"can_update,latest_version", # special case
"state/enabled",
"isKitFile",
"package/category",
"package/title",
"package/description",
"package/authors",
"package/repository",
"package/keywords",
"package/readme",
"package/changelog",
"package/preview_image",
"package/icon",
"core/reloadable",
]
# Header
output = ",".join(["id"] + fields_to_export) + "\n"
# Per ext row data
for ext in self._ext_manager.get_extensions():
d = self._ext_manager.get_extension_dict(ext["id"])
row = ext["id"] + ","
for f in fields_to_export:
if f.startswith("can_update"): # special case, do both rows at once
item = ext_sum_dict.get(ext["name"], None)
if item:
latest_version = version_to_str(item.latest_ext["version"][:4])
row += f'"{item.can_update}",'
row += f'"{latest_version}",'
else:
row += ",,"
else:
row += f'"{str(d.get(f, ""))}",'
row = row.replace("\n", r"\n")
output += row + "\n"
print(output)
copy_text(output)
def export_enabled_exts_as_kit_file(self, only_top_level=True):
"""Export all topmost exts in .kit format. print and copy result."""
excludes = {"omni.kit.registry.nucleus", "omni.kit.profile_python"}
all_deps = set()
all_exts = set()
for ext in self._ext_manager.get_extensions():
if ext["enabled"]:
ext_id = ext["id"]
info = self._ext_manager.get_extension_dict(ext_id)
deps = info.get("state/dependencies", [])
all_exts.add(ext_id)
all_deps.update(deps)
output = "[dependencies]\n"
exported_exts = (all_exts - all_deps) if only_top_level else all_exts
for e in exported_exts:
if "-" not in e:
print(f"skipping ext 1.0: {e}")
continue
name, version = ext_id_to_name_version(e)
if name in excludes:
continue
output += '"{0}" = {{ version = "{1}", exact = true }}\n'.format(name, version)
print(output)
copy_text(output)
| 12,066 | Python | 42.88 | 118 | 0.436184 |
omniverse-code/kit/exts/omni.kit.window.extensions/omni/kit/window/extensions/window.py | # Copyright (c) 2018-2020, NVIDIA CORPORATION. All rights reserved.
#
# NVIDIA CORPORATION and its licensors retain all intellectual property
# and proprietary rights in and to this software, related documentation
# and any modifications thereto. Any use, reproduction, disclosure or
# distribution of this software and related documentation without an express
# license agreement from NVIDIA CORPORATION is strictly prohibited.
#
from typing import Callable
import omni.ui as ui
from .ext_info_widget import ExtInfoWidget
from .ext_status_bar import ExtStatusBar
from .exts_graph_window import ExtsGraphWindow
from .exts_list_widget import ExtsListWidget
from .exts_properties_widget import ExtsPropertiesWidget
from .styles import get_style
class PageSwitcher:
def __init__(self):
self._main_pages = {}
self._selected_page = None
def add_page(self, name, widget):
widget.set_visible(False)
self._main_pages[name] = widget
def select_page(self, name, force=False):
if self._selected_page == name and not force:
return
# Set previous inviisible
selected_page = self._main_pages.get(self._selected_page, None)
if selected_page:
selected_page.set_visible(False)
# Set new and make visible
self._selected_page = name
selected_page = self._main_pages.get(self._selected_page, None)
if selected_page:
selected_page.set_visible(True)
def destroy(self):
self._main_pages = {}
PAGE_GRAPH = "graph"
PAGE_INFO = "info"
PAGE_PROPERTIES = "properties"
class ExtsWindow:
"""Extensions window"""
def __init__(self, on_visibility_changed_fn: Callable):
self._window = ui.Window("Extensions", width=1300, height=800, flags=ui.WINDOW_FLAGS_NO_SCROLLBAR)
self._window.set_visibility_changed_fn(on_visibility_changed_fn)
# Tree view style
self._exts_list_widget = ExtsListWidget()
self._page_switcher = PageSwitcher()
# Build UI
with self._window.frame:
with ui.HStack(style=get_style(self)):
with ui.ZStack(width=0):
# Draggable splitter
with ui.Placer(offset_x=392, draggable=True, drag_axis=ui.Axis.X):
ui.Rectangle(width=10, name="Splitter")
with ui.HStack():
with ui.VStack():
# Extensions List Widget (on the left)
self._exts_list_widget.build()
# Status bar
self._status_bar = ExtStatusBar()
ui.Spacer(width=10)
with ui.ScrollingFrame(vertical_scrollbar_policy=ui.ScrollBarPolicy.SCROLLBAR_ALWAYS_OFF):
with ui.HStack():
# Selected Extension info
self._ext_info_widget = ExtInfoWidget()
self._page_switcher.add_page(PAGE_INFO, self._ext_info_widget)
# Graph
self._exts_graph = ExtsGraphWindow()
self._page_switcher.add_page(PAGE_GRAPH, self._exts_graph)
# Properties
self._exts_properties = ExtsPropertiesWidget()
self._page_switcher.add_page(PAGE_PROPERTIES, self._exts_properties)
# Setup show graph callback
self._exts_list_widget.set_show_graph_fn(lambda: self._show_graph(None))
self._exts_list_widget.set_show_properties_fn(self._show_properties)
self._exts_list_widget.set_ext_selected_fn(self._select_ext)
self._ext_info_widget.set_show_graph_fn(self._show_graph)
self._select_ext(None)
def _show_graph(self, ext_id: str):
self._exts_list_widget.clear_selection()
self._exts_graph.select_ext(ext_id)
self._page_switcher.select_page(PAGE_GRAPH, force=True)
def _show_properties(self):
self._exts_list_widget.clear_selection()
self._page_switcher.select_page(PAGE_PROPERTIES)
def _select_ext(self, ext_summary):
self._page_switcher.select_page(PAGE_INFO)
self._ext_info_widget.select_ext(ext_summary)
def destroy(self):
"""
Called by extension before destroying this object. It doesn't happen automatically.
Without this hot reloading doesn't work.
"""
self._exts_graph.destroy()
self._exts_graph = None
self._ext_info_widget.destroy()
self._ext_info_widget = None
self._exts_list_widget.destroy()
self._exts_list_widget = None
self._exts_properties.destroy()
self._exts_properties = None
self._page_switcher.destroy()
self._page_switcher = None
self._window = None
| 4,868 | Python | 37.039062 | 106 | 0.609901 |
omniverse-code/kit/exts/omni.kit.window.extensions/omni/kit/window/extensions/tests/test_properties_paths.py | import os
import tempfile
import omni.kit.app
import omni.kit.test
import omni.kit.window.extensions
# pylint: disable=protected-access
class TestPaths(omni.kit.test.AsyncTestCase):
async def test_add_remove_user_path(self):
manager = omni.kit.app.get_app().get_extension_manager()
def get_paths():
return {p["path"] for p in manager.get_folders()}
async def wait():
await omni.kit.app.get_app().next_update_async()
await omni.kit.app.get_app().next_update_async()
def get_model():
omni.kit.window.extensions.get_instance()()
return instance._window._exts_properties._paths_widget._model
instance = omni.kit.window.extensions.get_instance()()
instance.show_window(True)
instance._window._show_properties()
await wait()
paths_before = get_paths()
with tempfile.TemporaryDirectory() as tmp_dir:
p0 = f"{tmp_dir}/0"
p1 = f"{tmp_dir}/1"
# Add new path using model
get_model().add_empty()
last = get_model()._children[-1]
last.path_model.as_string = p0
get_model().save()
# Ext manager creates it automatically
self.assertTrue(os.path.exists(p0))
self.assertEqual(len(get_paths()) - len(paths_before), 1)
# Add new path using model
get_model().add_empty()
last = get_model()._children[-1]
last.path_model.as_string = p1
get_model().save()
await wait()
# Ext manager creates it automatically
self.assertTrue(os.path.exists(p1))
self.assertEqual(len(get_paths()) - len(paths_before), 2)
# Remove!
get_model().remove_item(get_model()._children[-1])
await wait()
self.assertEqual(len(get_paths()) - len(paths_before), 1)
# Remove!
get_model().remove_item(get_model()._children[-1])
await wait()
self.assertEqual(get_paths(), paths_before)
| 2,114 | Python | 30.567164 | 73 | 0.566225 |
omniverse-code/kit/exts/omni.kit.window.extensions/omni/kit/window/extensions/tests/__init__.py | # flake8: noqa
from .test_properties_paths import *
from .test_properties_registries import *
| 94 | Python | 22.749994 | 41 | 0.776596 |
omniverse-code/kit/exts/omni.kit.window.extensions/omni/kit/window/extensions/tests/test_properties_registries.py | import carb.settings
import omni.kit.app
import omni.kit.test
import omni.kit.window.extensions
# pylint: disable=protected-access
class TestRegistries(omni.kit.test.AsyncTestCase):
async def test_add_remove_registry_UNRELIABLE(self): # noqa
manager = omni.kit.app.get_app().get_extension_manager()
settings = carb.settings.get_settings()
def get_default():
return settings.get("/app/extensions/registryPublishDefault")
def get_providers():
return {p["name"] for p in manager.get_registry_providers()}
instance = omni.kit.window.extensions.get_instance()()
instance.show_window(True)
instance._window._show_properties()
await omni.kit.app.get_app().next_update_async()
def get_model():
widget = instance._window._exts_properties._registries_widget
return widget._model
model = get_model()
model.set_default(model._children[0], True)
providers_before = get_providers()
default_before = get_default()
self.assertEqual(model._children[0].name_model.as_string, default_before)
# Add new registry using model
model.add_empty()
last = model._children[-1]
last.url_model.as_string = "omniverse://kit-extensions.ov.nvidia.com/exts/kit/debug"
# name is set automatically
model.save()
model = None
# Wait to propagate and check
await omni.kit.app.get_app().next_update_async()
await omni.kit.app.get_app().next_update_async()
self.assertEqual(get_providers() - providers_before, {"kit/debug"})
# Make it default now
get_model().set_default(get_model()._children[-1], True)
await omni.kit.app.get_app().next_update_async()
self.assertEqual(get_default(), "kit/debug")
# Remove!
get_model().remove_item(get_model()._children[-1])
await omni.kit.app.get_app().next_update_async()
await omni.kit.app.get_app().next_update_async()
self.assertEqual(get_providers(), providers_before)
# get back default:
get_model()._children[0].default_model.as_bool = True
await omni.kit.app.get_app().next_update_async()
self.assertEqual(get_default(), default_before)
| 2,310 | Python | 35.109374 | 92 | 0.635065 |
omniverse-code/kit/exts/omni.kit.window.extensions/docs/CHANGELOG.md | # Changelog
The format is based on [Keep a Changelog](https://keepachangelog.com/en/1.0.0/).
## [1.1.1] - 2022-11-17
### Updated
- Switched out pyperclip for linux-friendly copy & paste
## [1.1.0] - 2022-05-06
### Added
- Added support for truncated words in extension search window
## [1.0.2] - 2020-12-07
### Changed
- Fix path_is_parent exception with different drive paths
## [1.0.1] - 2020-07-09
### Changed
- Don't produce symlink for icons in the extension folder
## [1.0.0] - 2020-07-08
### Added
- The initial release with minimal support of loading/unloading extensions and access to the external extension registry.
| 633 | Markdown | 25.416666 | 121 | 0.704581 |
omniverse-code/kit/exts/omni.kit.window.extensions/docs/index.rst | omni.kit.window.extensions
###########################
Extensions Window
| 75 | reStructuredText | 11.666665 | 27 | 0.52 |
omniverse-code/kit/exts/omni.kit.test_helpers_gfx/omni/kit/test_helpers_gfx/__init__.py | from .compare_utils import * | 28 | Python | 27.999972 | 28 | 0.785714 |
omniverse-code/kit/exts/omni.kit.test_helpers_gfx/omni/kit/test_helpers_gfx/compare_utils.py | ## Copyright (c) 2018-2019, NVIDIA CORPORATION. All rights reserved.
##
## NVIDIA CORPORATION and its licensors retain all intellectual property
## and proprietary rights in and to this software, related documentation
## and any modifications thereto. Any use, reproduction, disclosure or
## distribution of this software and related documentation without an express
## license agreement from NVIDIA CORPORATION is strictly prohibited.
##
"""The utilities for image comparison"""
import pathlib
import sys
import traceback
import math
from enum import Enum
import numpy as np
import carb
import carb.tokens
import omni.appwindow
from omni.kit.test.teamcity import teamcity_publish_image_artifact
class CompareError(Exception):
pass
class ComparisonMetric(Enum):
MAX_DIFFERENCE = 0 # the maximum differrence between pixels. 0 is no difference. In the range [0-255].
PIXEL_COUNT = 1 # the total number of pixels that is not the same for two images
MEAN_ERROR_SQUARED = 2 # Mean root square difference between pixels of two images
PEAK_SIGNAL_TO_NOISE_RATIO = 3
def computeMSE(difference):
components = len(difference.getpixel((0, 0)))
errors = np.asarray(difference) / 255
return sum(np.mean(np.square(errors), axis = (0, 1))) / components
def compare(image1: pathlib.Path, image2: pathlib.Path, image_diffmap: pathlib.Path,
metric: ComparisonMetric = ComparisonMetric.MAX_DIFFERENCE):
"""
Compares two images and return a value that indicates the maximum differrence between pixels. 0 is no difference
in the range [0-255].
It uses Pillow for image read.
Args:
image1, image2: images to compare
image_diffmap: the difference map image will be saved if there is any difference between given images
"""
if not image1.exists():
raise CompareError(f"File image1 {image1} does not exist")
if not image2.exists():
raise CompareError(f"File image2 {image2} does not exist")
if "PIL" not in sys.modules.keys():
# Checking if we have Pillow imported
try:
from PIL import Image
except ImportError:
# Install Pillow if it's not installed
import omni.kit.pipapi
omni.kit.pipapi.install("Pillow", module="PIL")
from PIL import Image
from PIL import ImageChops
original = Image.open(str(image1))
contrast = Image.open(str(image2))
if original.size != contrast.size:
raise CompareError(
f"[omni.ui.test] Can't compare different resolutions\n\n"
f"{image1} {original.size[0]}x{original.size[1]}\n"
f"{image2} {contrast.size[0]}x{contrast.size[1]}\n\n"
f"It's possible that your monitor DPI is not 100%.\n\n"
)
difference = ImageChops.difference(original, contrast)
metric_value = 0.0
try:
if metric is ComparisonMetric.MAX_DIFFERENCE:
metric_value = sum([sum(i) for i in difference.convert("RGB").getextrema()])
if metric is ComparisonMetric.PIXEL_COUNT:
metric_value = sum([sum(
difference.getpixel((j, i))) > 0 for i in range(difference.height) for j in range(difference.width)])
if metric is ComparisonMetric.MEAN_ERROR_SQUARED:
metric_value = computeMSE(difference)
if metric is ComparisonMetric.PEAK_SIGNAL_TO_NOISE_RATIO:
metric_value = computeMSE(difference)
if metric_value < sys.float_info.epsilon:
metric_value = math.inf
metric_value = 10 * math.log10(1 / metric_value)
except():
raise CompareError(f"[omni.ui.test] Can't compute metric {metric} \n\n")
if metric_value > 0:
# Images are different
# Multiply image by 255
difference = difference.convert("RGB").point(lambda i: min(i * 255, 255))
difference.save(str(image_diffmap))
return metric_value
def capture(image_name: str, output_img_dir: str, app_window: omni.appwindow.IAppWindow = None, use_log: bool = True):
"""
Captures frame.
Args:
image_name: the image name of the image and golden image.
output_img_dir: the directory path that the capture will be saved to.
golden_img_dir: the directory path that stores the golden image. Leave it to None to use default dir.
"""
image1 = pathlib.Path(output_img_dir).joinpath(image_name)
if use_log:
carb.log_info(f"[tests.compare] Capturing {image1}")
import omni.renderer_capture
capture_interface = omni.renderer_capture.acquire_renderer_capture_interface()
capture_interface.capture_next_frame_swapchain(str(image1), app_window)
def finalize_capture_and_compare(image_name: str, threshold: float, output_img_dir: str, golden_img_dir: str,
app_window: omni.appwindow.IAppWindow = None,
metric: ComparisonMetric = ComparisonMetric.MAX_DIFFERENCE):
"""
Finalizes capture and compares it with the golden image.
Args:
image_name: the image name of the image and golden image.
threshold: the max threshold to collect TC artifacts.
output_img_dir: the directory path that the capture will be saved to.
golden_img_dir: the directory path that stores the golden image. Leave it to None to use default dir.
app_window: IAppWindow instance for which the capture will happen, use None to capture default app window.
Returns:
A value that indicates the maximum difference between pixels. 0 is no difference
in the range [0-255].
"""
image1 = pathlib.Path(output_img_dir).joinpath(image_name)
image2 = pathlib.Path(golden_img_dir).joinpath(image_name)
image_diffmap = pathlib.Path(output_img_dir).joinpath(f"{pathlib.Path(image_name).stem}.diffmap.png")
import omni.renderer_capture
capture_interface = omni.renderer_capture.acquire_renderer_capture_interface()
capture_interface.wait_async_capture(app_window)
carb.log_info(f"[tests.compare] Comparing {image1} to {image2}")
try:
diff = compare(image1, image2, image_diffmap, metric)
if diff >= threshold:
teamcity_publish_image_artifact(image2, "golden", "Reference")
teamcity_publish_image_artifact(image1, "results", "Generated")
teamcity_publish_image_artifact(image_diffmap, "results", "Diff")
return diff
except CompareError as e:
carb.log_error(f"[tests.compare] Failed to compare images for {image_name}. Error: {e}")
exc = traceback.format_exc()
carb.log_error(f"[tests.compare] Traceback:\n{exc}")
async def capture_and_compare(image_name: str, threshold, output_img_dir: str, golden_img_dir: str,
app_window: omni.appwindow.IAppWindow = None, use_log: bool = True,
metric: ComparisonMetric = ComparisonMetric.MAX_DIFFERENCE):
"""
Captures frame and compares it with the golden image.
Args:
image_name: the image name of the image and golden image.
threshold: the max threshold to collect TC artifacts.
golden_img_dir: the directory path that stores the golden image. Leave it to None to use default dir.
Returns:
A value that indicates the maximum difference between pixels. 0 is no difference
in the range [0-255].
"""
capture(image_name, output_img_dir, app_window, use_log=use_log)
await omni.kit.app.get_app().next_update_async()
return finalize_capture_and_compare(image_name, threshold, output_img_dir, golden_img_dir, app_window, metric)
| 7,732 | Python | 38.454081 | 119 | 0.66865 |
omniverse-code/kit/exts/omni.kit.test_helpers_gfx/docs/index.rst | omni.kit.test_helpers_gfx
###########################
Testing system helpers for graphics.
Module that provides helpers that simplify writing tests, e.g. capture and compare screenshots, create windows, etc.
.. automodule:: omni.kit.test_helpers_gfx
:platform: Windows-x86_64, Linux-x86_64
:members:
:show-inheritance:
:undoc-members:
:imported-members:
:noindex: enum
| 397 | reStructuredText | 23.874999 | 116 | 0.675063 |
omniverse-code/kit/exts/omni.kit.window.usd_paths/PACKAGE-LICENSES/omni.kit.window.usd_paths-LICENSE.md | Copyright (c) 2020, NVIDIA CORPORATION. All rights reserved.
NVIDIA CORPORATION and its licensors retain all intellectual property
and proprietary rights in and to this software, related documentation
and any modifications thereto. Any use, reproduction, disclosure or
distribution of this software and related documentation without an express
license agreement from NVIDIA CORPORATION is strictly prohibited. | 412 | Markdown | 57.999992 | 74 | 0.839806 |
omniverse-code/kit/exts/omni.kit.window.usd_paths/config/extension.toml | [package]
# Semantic Versioning is used: https://semver.org/
version = "1.0.4"
category = "Core"
# Lists people or organizations that are considered the "authors" of the package.
authors = ["NVIDIA"]
# The title and description fields are primarly for displaying extension info in UI
title = "USD Paths"
description="Lists paths in USD file and allows editing"
# URL of the extension source repository.
repository = ""
# Keywords for the extension
keywords = ["kit", "usd", "paths"]
# Location of change log file in target (final) folder of extension, relative to the root.
# More info on writing changelog: https://keepachangelog.com/en/1.0.0/
changelog = "docs/CHANGELOG.md"
[dependencies]
"omni.kit.commands" = {}
"omni.usd" = {}
"omni.ui" = {}
"omni.kit.menu.utils" = {}
[[python.module]]
name = "omni.kit.window.usd_paths"
# That will make tests auto-discoverable by test_runner:
[[python.module]]
name = "omni.kit.window.usd_paths.tests"
[[test]]
stdoutFailPatterns.exclude = [
"*extension object is still alive*", # Ignore any leaks for startup tests to not block pipeline
]
| 1,096 | TOML | 25.756097 | 99 | 0.718978 |
omniverse-code/kit/exts/omni.kit.window.usd_paths/omni/kit/window/usd_paths/__init__.py | from .scripts import *
| 23 | Python | 10.999995 | 22 | 0.73913 |
omniverse-code/kit/exts/omni.kit.window.usd_paths/omni/kit/window/usd_paths/scripts/__init__.py | from .usd_paths import *
| 25 | Python | 11.999994 | 24 | 0.72 |
omniverse-code/kit/exts/omni.kit.window.usd_paths/omni/kit/window/usd_paths/scripts/usd_paths.py | import re
import os
import asyncio
import carb
import omni.ext
import omni.kit.ui
import omni.ui as ui
from pxr import Usd, UsdGeom, UsdShade, UsdUtils, Ar, Sdf
_extension_instance = None
_extension_path = None
class UsdPathsExtension(omni.ext.IExt):
def __init__(self):
self.USD_PATHS_TOOL_MENU = "Window/USD Paths"
self._use_regex = False
self._regex_button = None
self._regex_button_style = {
"Button.Label":{"font_size": 12.0},
"Button":{"margin": 2, "padding": 2},
"Button:checked":{"background_color": 0xFF114411},
"Button:hovered":{"background_color": 0xFF444444},
"Button:pressed":{"background_color": 0xFF111111},
}
self._action_button_style = {
"Button.Label:disabled":{"color": 0xFF666666},
"Button:disabled": {"background_color": 0xFF222222}
}
super().__init__()
def on_startup(self, ext_id):
global _extension_instance
_extension_instance = self
global _extension_path
_extension_path = omni.kit.app.get_app_interface().get_extension_manager().get_extension_path(ext_id)
self._unique_paths = {}
self._window = None
editor_menu = omni.kit.ui.get_editor_menu()
if editor_menu:
self._menu = editor_menu.add_item(self.USD_PATHS_TOOL_MENU, self._show_ui, True, 10)
editor_menu.set_value(self.USD_PATHS_TOOL_MENU, False)
def on_shutdown(self):
global _extension_instance
global _template_list
_extension_instance = None
_template_list = None
def _clean_up_paths_ui(self):
if hasattr(self, "_scrollable") and self._scrollable is not None:
self._window.layout.remove_child(self._scrollable)
self._scrollable = None
def _list_all_paths(self, path):
if path not in self._scrollable_pending:
self._scrollable_pending.append(path)
return path
def _modify_path(self, path):
if path in self._unique_paths:
return self._unique_paths[path].model.get_value_as_string()
def _apply_path_edits(self, btn_widget=None):
stage = omni.usd.get_context().get_stage()
if not stage:
carb.log_error("stage not found")
return
(all_layers, all_assets, unresolved_paths) = UsdUtils.ComputeAllDependencies(stage.GetRootLayer().identifier)
if not all_layers:
all_layers = stage.GetLayerStack()
for layer in all_layers:
UsdUtils.ModifyAssetPaths(layer, self._modify_path)
self._traverse()
self._btn_apply.enabled = False
def _replace(self, btn_widget=None):
if not self._unique_paths:
self._traverse()
for path in self._unique_paths:
mdl_path = self._unique_paths[path].model.get_value_as_string()
if self._use_regex:
mdl_path = re.sub(
self._txt_search.model.get_value_as_string(),
self._txt_replace.model.get_value_as_string(),
mdl_path,
)
else:
mdl_path = mdl_path.replace(
self._txt_search.model.get_value_as_string(), self._txt_replace.model.get_value_as_string()
)
self._unique_paths[path].model.set_value(mdl_path)
self._btn_apply.enabled = True
self._btn_replace.enabled = False
def _toggle_block(self, is_enabled):
self._txt_search.enabled = is_enabled
self._txt_replace.enabled = is_enabled
self._btn_replace.enabled = is_enabled
if is_enabled:
return
self._btn_apply.enabled = False
async def _wait_frame_finished(self, finish_fn):
await omni.kit.app.get_app_interface().next_update_async()
finish_fn()
async def _preload_materials_from_stage(self, on_complete_fn):
shaders = []
stage = omni.usd.get_context().get_stage()
if not stage:
carb.log_error("stage not found")
return
for p in stage.Traverse():
if p.IsA(UsdShade.Material):
if not p.GetMetadata("ignore_material_updates"):
material = UsdShade.Material(p)
shader = material.ComputeSurfaceSource("mdl")[0]
shaders.append(shader.GetPath().pathString)
old_paths = omni.usd.get_context().get_selection().get_selected_prim_paths()
omni.usd.get_context().get_selection().set_selected_prim_paths(shaders, True)
await omni.kit.app.get_app_interface().next_update_async()
await omni.kit.app.get_app_interface().next_update_async()
def reload_old_paths():
omni.usd.get_context().get_selection().set_selected_prim_paths(old_paths, True)
on_complete_fn()
asyncio.ensure_future(self._wait_frame_finished(finish_fn=reload_old_paths))
def _traverse(self, btn_widget=None):
self._unique_paths = {}
self._scrollable.clear()
self._scrollable_pending = []
self._toggle_block(False)
def on_preload_complete():
with self._scrollable:
with ui.VStack(spacing=2, height=0):
self._scrollable_pending.sort()
for path in self._scrollable_pending:
text_box = ui.StringField(skip_draw_when_clipped=True)
text_box.model.set_value(path)
self._unique_paths[path] = text_box
self._scrollable_pending = None
if len(self._unique_paths) > 0:
self._toggle_block(True)
asyncio.ensure_future(self.get_asset_paths(on_preload_complete, self._list_all_paths))
def _build_ui(self):
with self._window.frame:
with ui.VStack(spacing=4):
with ui.VStack(spacing=2, height=0):
ui.Spacer(height=4)
with ui.HStack(spacing=10, height=0):
ui.Label("Search", width=60, alignment=ui.Alignment.RIGHT_CENTER)
with ui.ZStack(height=0):
self._txt_search = ui.StringField()
with ui.HStack():
ui.Spacer(height=0)
def toggle_regex(button):
self._use_regex = not self._use_regex
button.checked = self._use_regex
def on_mouse_hover(hover_state):
self._txt_search.enabled = not hover_state
self._regex_button = ui.Button(width=0, text="Regex", style=self._regex_button_style)
self._regex_button.set_clicked_fn(lambda b=self._regex_button: toggle_regex(b))
self._regex_button.set_mouse_hovered_fn(on_mouse_hover)
ui.Spacer(width=10)
ui.Spacer()
with ui.HStack(spacing=10, height=0):
ui.Label("Replace", width=60, alignment=ui.Alignment.RIGHT_CENTER)
self._txt_replace = ui.StringField(height=0)
ui.Spacer(width=10)
ui.Spacer()
with ui.HStack(spacing=10):
ui.Spacer(width=56)
ui.Button(
width=0,
style=self._action_button_style,
clicked_fn=self._traverse,
text=" Reload paths ")
ui.Spacer()
self._btn_replace = ui.Button(
width=0,
style=self._action_button_style,
clicked_fn=self._replace,
text=" Preview ",
enabled=False)
self._btn_apply = ui.Button(
width=0,
style=self._action_button_style,
clicked_fn=self._apply_path_edits,
text=" Apply ",
enabled=False
)
ui.Spacer()
ui.Spacer(width=100)
def on_text_changed(model):
if self._btn_apply.enabled:
self._btn_apply.enabled = False
if not self._btn_replace.enabled:
self._btn_replace.enabled = True
self._txt_search.model.add_value_changed_fn(on_text_changed)
self._txt_replace.model.add_value_changed_fn(on_text_changed)
ui.Spacer(width=14)
self._scrollable = ui.ScrollingFrame(
text="ScrollingFrame", vertical_scrollbar_policy=omni.ui.ScrollBarPolicy.SCROLLBAR_ALWAYS_ON
)
def _show_ui(self, menu, value):
if self._window is None:
window_flags = ui.WINDOW_FLAGS_NO_SCROLLBAR
self._window = ui.Window(
"USD Paths",
width=400,
height=400,
flags=window_flags,
dockPreference=omni.ui.DockPreference.LEFT_BOTTOM,
)
self._window.set_visibility_changed_fn(self._on_visibility_changed)
self._window.deferred_dock_in("Console", ui.DockPolicy.CURRENT_WINDOW_IS_ACTIVE)
self._window.dock_order = 99
self._build_ui()
if self._window:
if value:
self._window.visible = True
else:
self._window.visible = False
def _on_visibility_changed(self, visible):
omni.kit.ui.get_editor_menu().set_value(self.USD_PATHS_TOOL_MENU, visible)
async def get_asset_paths(self, on_complete_fn, get_path_fn):
stage = omni.usd.get_context().get_stage()
if not stage:
carb.log_error("stage not found")
return
def on_preload_complete():
(all_layers, all_assets, unresolved_paths) = UsdUtils.ComputeAllDependencies(
stage.GetRootLayer().identifier
)
if not all_layers:
all_layers = stage.GetLayerStack()
# all_layers doesn't include session layer, use that too
session_layer = stage.GetSessionLayer()
if not session_layer in all_layers:
all_layers.append(session_layer)
for layer in all_layers:
UsdUtils.ModifyAssetPaths(layer, get_path_fn)
on_complete_fn()
await self._preload_materials_from_stage(on_preload_complete)
def get_extension():
return Extension()
def get_instance():
return _extension_instance
def get_extension_path(sub_directory):
global _extension_path
path = _extension_path
if sub_directory:
path = os.path.normpath(os.path.join(path, sub_directory))
return path
| 11,339 | Python | 37.835616 | 117 | 0.529676 |
omniverse-code/kit/exts/omni.kit.window.usd_paths/omni/kit/window/usd_paths/tests/create_prims.py | import os
import carb
import omni.kit.commands
from pxr import Usd, Sdf, UsdGeom, Gf, Tf, UsdShade, UsdLux
def create_test_stage():
settings = carb.settings.get_settings()
default_prim_name = settings.get("/persistent/app/stage/defaultPrimName")
rootname = f"/{default_prim_name}"
stage = omni.usd.get_context().get_stage()
kit_folder = carb.tokens.get_tokens_interface().resolve("${kit}")
omni_pbr_mtl = os.path.normpath(kit_folder + "/mdl/core/Base/OmniPBR.mdl")
sunflower_hdr = omni.kit.window.usd_paths.get_extension_path("data/sunflowers.hdr")
lenna_dds = omni.kit.window.usd_paths.get_extension_path("textures/lenna.dds")
lenna_gif = omni.kit.window.usd_paths.get_extension_path("textures/lenna.gif")
lenna_jpg = omni.kit.window.usd_paths.get_extension_path("textures/lenna.jpg")
lenna_png = omni.kit.window.usd_paths.get_extension_path("textures/lenna.png")
lenna_tga = omni.kit.window.usd_paths.get_extension_path("textures/lenna.tga")
# create Looks folder
omni.kit.commands.execute(
"CreatePrim",
prim_path=omni.usd.get_stage_next_free_path(stage, "{}/Looks".format(rootname), False),
prim_type="Scope",
select_new_prim=False,
)
# create GroundMat material
mtl_name = "GroundMat"
mtl_path = omni.usd.get_stage_next_free_path(
stage, "{}/Looks/{}".format(rootname, Tf.MakeValidIdentifier(mtl_name)), False
)
omni.kit.commands.execute(
"CreateMdlMaterialPrim", mtl_url=omni_pbr_mtl, mtl_name=mtl_name, mtl_path=mtl_path
)
ground_mat_prim = stage.GetPrimAtPath(mtl_path)
shader = UsdShade.Material(ground_mat_prim).ComputeSurfaceSource("mdl")[0]
shader.SetSourceAssetSubIdentifier("OmniPBR", "mdl")
omni.usd.create_material_input(ground_mat_prim, "reflection_roughness_constant", 0.36, Sdf.ValueTypeNames.Float)
omni.usd.create_material_input(ground_mat_prim, "specular_level", 0.25, Sdf.ValueTypeNames.Float)
omni.usd.create_material_input(
ground_mat_prim, "diffuse_color_constant", Gf.Vec3f(0.08, 0.08, 0.08), Sdf.ValueTypeNames.Color3f
)
omni.usd.create_material_input(ground_mat_prim, "diffuse_tint", Gf.Vec3f(1, 1, 1), Sdf.ValueTypeNames.Color3f)
omni.usd.create_material_input(ground_mat_prim, "diffuse_tint", Gf.Vec3f(1, 1, 1), Sdf.ValueTypeNames.Color3f)
omni.usd.create_material_input(ground_mat_prim, "metallic_constant", 0.0, Sdf.ValueTypeNames.Float)
omni.usd.create_material_input(ground_mat_prim, "reflection_roughness_constant", 0.36, Sdf.ValueTypeNames.Float)
# add additional files to shader
omni.usd.create_material_input(
ground_mat_prim, "diffuse_texture", Sdf.AssetPath(lenna_dds), Sdf.ValueTypeNames.Asset
)
omni.usd.create_material_input(ground_mat_prim, "ao_texture", Sdf.AssetPath(lenna_gif), Sdf.ValueTypeNames.Asset)
omni.usd.create_material_input(
ground_mat_prim, "normalmap_texture", Sdf.AssetPath(lenna_jpg), Sdf.ValueTypeNames.Asset
)
omni.usd.create_material_input(
ground_mat_prim, "reflectionroughness_texture", Sdf.AssetPath(lenna_png), Sdf.ValueTypeNames.Asset
)
omni.usd.create_material_input(
ground_mat_prim, "metallic_texture", Sdf.AssetPath(lenna_tga), Sdf.ValueTypeNames.Asset
)
# create GroundCube
ground_cube_path = omni.usd.get_stage_next_free_path(stage, "{}/GroundCube".format(rootname), False)
omni.kit.commands.execute(
"CreatePrim",
prim_path=ground_cube_path,
prim_type="Cube",
select_new_prim=False,
attributes={UsdGeom.Tokens.size: 100, UsdGeom.Tokens.extent: [(-50, -50, -50), (50, 50, 50)]},
)
ground_cube_prim = stage.GetPrimAtPath(ground_cube_path)
# set transform
ground_cube_prim.CreateAttribute("xformOp:translate", Sdf.ValueTypeNames.Double3, False).Set(Gf.Vec3d(0, -50, 0))
ground_cube_prim.CreateAttribute("xformOp:scale", Sdf.ValueTypeNames.Double3, False).Set(Gf.Vec3d(2000, 1, 2000))
ground_cube_prim.CreateAttribute("xformOpOrder", Sdf.ValueTypeNames.String, False).Set(
["xformOp:translate", "xformOp:scale"]
)
# set doNotCastShadows
primvars_api = UsdGeom.PrimvarsAPI(ground_cube_prim)
primvars_api.CreatePrimvar("doNotCastShadows", Sdf.ValueTypeNames.Bool).Set(True)
# set misc
omni.kit.commands.execute(
"BindMaterial",
prim_path=ground_cube_path,
material_path=mtl_path,
strength=UsdShade.Tokens.strongerThanDescendants,
)
# create DistantLight
distant_light_path = omni.usd.get_stage_next_free_path(stage, "{}/DistantLight".format(rootname), False)
omni.kit.commands.execute(
"CreatePrim",
prim_path=distant_light_path,
prim_type="DistantLight",
select_new_prim=False,
# https://github.com/PixarAnimationStudios/USD/commit/b5d3809c943950cd3ff6be0467858a3297df0bb7
attributes={UsdLux.Tokens.inputsAngle: 1.0, UsdLux.Tokens.inputsColor: Gf.Vec3f(1, 1, 1), UsdLux.Tokens.inputsIntensity: 2000} if hasattr(UsdLux.Tokens, 'inputsIntensity') else \
{UsdLux.Tokens.angle: 1.0, UsdLux.Tokens.color: Gf.Vec3f(1, 1, 1), UsdLux.Tokens.intensity: 2000},
)
distant_light_prim = stage.GetPrimAtPath(distant_light_path)
# set transform
distant_light_prim.CreateAttribute("xformOp:scale", Sdf.ValueTypeNames.Double3, False).Set(
Gf.Vec3d(1, 1.0000004, 1.0000004)
)
distant_light_prim.CreateAttribute("xformOp:rotateZYX", Sdf.ValueTypeNames.Double3, False).Set(
Gf.Vec3d(242.08, 327.06, 0)
)
distant_light_prim.CreateAttribute("xformOp:translate", Sdf.ValueTypeNames.Double3, False).Set(Gf.Vec3d(0, 0, 0))
distant_light_prim.CreateAttribute("xformOpOrder", Sdf.ValueTypeNames.String, False).Set(
["xformOp:translate", "xformOp:rotateZYX", "xformOp:scale"]
)
# create DomeLight
dome_light_path = omni.usd.get_stage_next_free_path(stage, "{}/DomeLight".format(rootname), False)
omni.kit.commands.execute(
"CreatePrim",
prim_path=dome_light_path,
prim_type="DomeLight",
select_new_prim=False,
# https://github.com/PixarAnimationStudios/USD/commit/b5d3809c943950cd3ff6be0467858a3297df0bb7
attributes={
UsdLux.Tokens.inputsIntensity: 1000,
UsdLux.Tokens.inputsSpecular: 1,
UsdLux.Tokens.inputsTextureFile: sunflower_hdr,
UsdLux.Tokens.inputsTextureFormat: UsdLux.Tokens.latlong,
UsdGeom.Tokens.visibility: UsdGeom.Tokens.inherited,
} if hasattr(UsdLux.Tokens, 'inputsIntensity') else \
{
UsdLux.Tokens.intensity: 1000,
UsdLux.Tokens.specular: 1,
UsdLux.Tokens.textureFile: sunflower_hdr,
UsdLux.Tokens.textureFormat: UsdLux.Tokens.latlong,
UsdGeom.Tokens.visibility: UsdGeom.Tokens.inherited,
},
)
dome_light_prim = stage.GetPrimAtPath(dome_light_path)
# set misc
# https://github.com/PixarAnimationStudios/USD/commit/3738719d72e60fb78d1cd18100768a7dda7340a4
if hasattr(UsdLux.Tokens, 'inputsShapingFocusTint'):
dome_light_prim.GetAttribute(UsdLux.Tokens.inputsShapingFocusTint).Set(Gf.Vec3f(0, 0, 0))
dome_light_prim.GetAttribute(UsdLux.Tokens.inputsShapingFocus).Set(0)
else:
dome_light_prim.GetAttribute(UsdLux.Tokens.shapingFocusTint).Set(Gf.Vec3f(0, 0, 0))
dome_light_prim.GetAttribute(UsdLux.Tokens.shapingFocus).Set(0)
| 7,497 | Python | 47.374193 | 186 | 0.696012 |
omniverse-code/kit/exts/omni.kit.window.usd_paths/omni/kit/window/usd_paths/tests/__init__.py | from .test_usd_paths import *
from .create_prims import *
| 58 | Python | 18.66666 | 29 | 0.741379 |
omniverse-code/kit/exts/omni.kit.window.usd_paths/omni/kit/window/usd_paths/tests/test_usd_paths.py | import os
import unittest
import carb
import omni.kit.test
class TestUsdPaths(omni.kit.test.AsyncTestCase):
async def setUp(self):
# Disable logging for the time of tests to avoid spewing errors
await omni.usd.get_context().new_stage_async()
omni.kit.window.usd_paths.tests.create_test_stage()
async def tearDown(self):
pass
async def test_paths(self):
found_paths = []
def get_all_paths(path):
if path not in found_paths:
found_paths.append(os.path.basename(path).lower())
return path
def on_preload_complete():
paths = sorted(
[
path
for path in found_paths
if path.endswith(".hdr") or path.endswith(".mdl") or path.find("lenna.") != -1
]
)
self.assertListEqual(
paths,
["canary_wharf_4k.hdr", "lenna.dds", "lenna.gif", "lenna.jpg", "lenna.png", "lenna.tga", "omnipbr.mdl"],
)
await omni.kit.window.usd_paths.get_instance().get_asset_paths(on_preload_complete, get_all_paths)
| 1,173 | Python | 29.894736 | 120 | 0.553282 |
omniverse-code/kit/exts/omni.kit.window.usd_paths/docs/CHANGELOG.md | # Changelog
The format is based on [Keep a Changelog](https://keepachangelog.com/en/1.0.0/).
## [1.0.4] - 2022-02-11
### Changes
- reorganize UI
## [1.0.3] - 2020-12-01
### Changes
- fixed issues with apply button not enabled
## [1.0.2] - 2020-08-14
### Changes
- fixed issues with editor/stage not avaliable fixed issue with symlinks
## [1.0.1] - 2020-08-04
### Changes
- being created in source directory fixed issues with material paths not
## [1.0.0] - 2020-07-24
### Changes
- being listed converted to extension 2.0 added tests
| 542 | Markdown | 19.884615 | 80 | 0.680812 |
omniverse-code/kit/exts/omni.kit.window.usd_paths/docs/index.rst | omni.kit.window.usd_paths
###########################
USD Paths Window
.. toctree::
:maxdepth: 1
CHANGELOG
| 121 | reStructuredText | 7.133333 | 27 | 0.495868 |
omniverse-code/kit/exts/omni.kit.tagging/omni/tagging_client/__init__.py | # Copyright (c) 2020, NVIDIA CORPORATION. All rights reserved.
#
# NVIDIA CORPORATION and its licensors retain all intellectual property
# and proprietary rights in and to this software, related documentation
# and any modifications thereto. Any use, reproduction, disclosure or
# distribution of this software and related documentation without an express
# license agreement from NVIDIA CORPORATION is strictly prohibited.
from idl.connection.transport.ws import WebSocketClient
from omni.discovery import DiscoverySearch
from ._generated.client import *
import asyncio
class TaggingClientHelper:
default_fb: str = "localhost:3020"
def __init__(self, nucleus_server: str,
tagging_fallback: str = default_fb,
subscription_fallback: str = default_fb,
suggestions_fallback: str = default_fb,
discovery_timeout: float = 10):
self.server = nucleus_server
self.tagging_fallback = tagging_fallback
self.subscription_fallback = subscription_fallback
self.suggestions_fallback = suggestions_fallback
self.transports = {}
self.interfaces = {}
self.timeout = discovery_timeout
async def __aenter__(self):
return self
async def __aexit__(self, *args, **kwargs):
await self.close()
async def close(self):
try:
for i in self.interfaces.values():
await i.transport.close()
for t in self.transports.values():
await t.close()
except BaseException as e:
print(e)
async def get_tagging_service(self) -> TaggingService:
return await self._get_service(TaggingService, self.tagging_fallback)
async def get_tag_subscription_service(self) -> TagSubscription:
return await self._get_service(TagSubscription, self.subscription_fallback)
async def get_tag_suggestions_service(self) -> TagSuggestions:
return await self._get_service(TagSuggestions, self.suggestions_fallback)
async def _get_transport(self, fallback):
if fallback in self.transports:
return self.transports[fallback]
else:
print(f'discovery failed, trying fallback connection to {fallback}')
transport = WebSocketClient(uri=f'ws://{fallback}')
await transport.prepare()
self.transports[fallback] = transport
return transport
async def _find_service(self, interface):
async with DiscoverySearch(self.server) as search:
return await search.find(interface, meta={"deployment": "external"})
async def _get_service(self, interface, fallback):
if interface in self.interfaces:
return self.interfaces[interface]
else:
instance = await self._create_interface(interface, fallback)
self.interfaces[interface] = instance
return instance
async def _create_interface(self, interface, fallback):
try:
return await asyncio.wait_for(self._find_service(interface), timeout=self.timeout)
except Exception:
transport = await self._get_transport(fallback)
return interface(transport) if transport else None
| 3,275 | Python | 38.469879 | 94 | 0.661374 |
omniverse-code/kit/exts/omni.kit.tagging/omni/discovery/__init__.py | import asyncio
import logging
import os
import ssl
import urllib.parse
from typing import Callable, Optional, Awaitable, List, Dict
from idl.connection.marshallers import Marshaller
from idl.connection.transport import Client, TransportSettings, TransportError
from idl.connection.transport.http import HttpClient
from idl.connection.transport.http_file import HttpFileClient
from idl.connection.transport.omni import OmniClientTransport
from idl.connection.transport.ws import WebSocketClient
from idl.data.serializers import Serializer
from idl.data.serializers.json import JSONSerializer
from idl.types import Record
from omni.discovery.client import (
DiscoveryRegistration as DiscoveryRegistrationClient,
DiscoverySearch as DiscoverySearchClient
)
from omni.discovery.data import (
Manifest, HealthStatus, Meta, HealthCheck, DiscoverInterfaceQuery, ServiceInterface, SupportedTransport,
)
logger = logging.getLogger("omni.discovery")
sentinel = object()
Stop = bool
DISCOVERY_ENDPOINT = "/omni/discovery"
class DiscoveryManifest(Record):
token: str
interfaces: list
transport: TransportSettings
meta: Optional[Meta]
class DiscoveryRegistration:
def __init__(self, uri: str, ssl_context: ssl.SSLContext = None, *, conn_timeout: float = 5.0):
self.uri = uri
self.ssl_context = ssl_context
self.conn_timeout = conn_timeout
async def register(self, manifest: DiscoveryManifest,
on_check: Callable[[HealthCheck], Awaitable[Optional[Stop]]] = None,
retry_timeout: float = 5.0):
registered_manifest = Manifest(
token=manifest.token,
transport=manifest.transport,
meta=manifest.meta,
interfaces={
interface.__interface_name__: ServiceInterface(
origin=interface.__interface_origin__,
name=interface.__interface_name__,
capabilities=getattr(interface, "__interface_capabilities__", None)
)
for interface in manifest.interfaces
}
)
info = "\n".join([
f" Discovery URI: {self.uri}",
f" Transport settings: {registered_manifest.transport}",
f" Meta: {registered_manifest.meta}"
])
logger.info(f"Registering the service in the discovery with these parameters:\n{info}")
running = True
while running:
try:
registering = True
ws = await connect(self.uri, self.ssl_context, timeout=self.conn_timeout)
if ws is None:
raise ConnectionError(f"Failed to connect to the discovery service {self.uri}")
async with DiscoveryRegistrationClient(ws) as discovery:
async for health_check in discovery.register(registered_manifest):
if on_check:
stop = await on_check(health_check)
if stop:
break
if health_check.status == HealthStatus.OK:
if registering:
if manifest.meta:
logger.info(f"Registered in {self.uri} with {manifest.meta} meta.")
else:
logger.info(f"Registered in {self.uri}.")
registering = False
else:
logger.error(
f"Can't register the service: {health_check.message or health_check.status}.\n"
f"Info:\n{info}"
)
if registering:
running = False
break
except asyncio.CancelledError:
return
except Exception as exc:
logger.exception(
f"An error has occurred while registering the service in the discovery.\n"
f"Info:\n{info}",
exc_info=exc
)
try:
loop = asyncio.get_event_loop()
except RuntimeError:
break
else:
if loop.is_closed():
break
await asyncio.sleep(retry_timeout)
class DiscoverySearch:
def __init__(self, uri: str, ssl_context: ssl.SSLContext = None):
self._uri = uri
self._ssl_context = ssl_context
self._ws: Optional[WebSocketClient] = None
self._closing: Optional[asyncio.Task] = None
async def __aenter__(self):
return self
async def __aexit__(self, exc_type, exc_val, exc_tb):
await self.close()
async def find(
self,
interface,
meta: Meta = None,
supported_transport: Optional[List[SupportedTransport]] = sentinel,
capabilities: Dict[str, int] = None,
*,
timeout: float = 5.0
):
if supported_transport is sentinel:
supported_transport = list(Client.get_supported())
ws = await self._connect(timeout)
discovery = DiscoverySearchClient(ws)
origin = interface.__interface_origin__
interface_name = interface.__interface_name__
if capabilities is None:
capabilities = getattr(interface, "__interface_capabilities__", None)
try:
response = await discovery.find(DiscoverInterfaceQuery(
service_interface=ServiceInterface(
origin=origin,
name=interface_name,
capabilities=capabilities
),
supported_transport=supported_transport,
meta=meta
))
except TransportError as exc:
raise ConnectionError(f"Failed to communicate with the discovery service {self._uri}.") from exc
if not response.found:
raise ConnectionError(
f"Interface {interface_name!r} from {origin!r} has not been found."
)
transport = Client.create(response.transport)
try:
await transport.prepare()
except Exception as exc:
msg = "\n".join([
f"An error has occurred when tried to establish a connection to {interface.__name__}.",
f"Info: ",
f" Discovery URI: {self._uri}",
f" Interface: {interface_name}",
f" Meta: {meta}",
f" Response: {response}",
])
raise ConnectionError(msg) from exc
return interface(transport)
async def close(self):
if self._closing:
self._closing.cancel()
if self._ws:
await self._ws.close()
async def _connect(self, timeout: float = 5.0):
if self._ws is not None:
return self._ws
ws = await connect(self._uri, self._ssl_context, timeout=timeout)
if ws is None:
raise ConnectionError(f"Failed to connect to the discovery service {self._uri}.")
loop = asyncio.get_event_loop()
if self._closing:
self._closing.cancel()
self._ws = ws
self._closing = loop.create_task(self._wait_closed())
return self._ws
async def _wait_closed(self):
if self._ws is not None:
await self._ws.closed.wait()
self._ws = None
async def connect(uri: str, ssl_context: ssl.SSLContext, *, timeout: float = 5.0) -> Optional[WebSocketClient]:
loop = asyncio.get_event_loop()
url = parse_url(uri)
hostname = url.hostname
# Path-based routing is not used on Workstation setup:
# https://nvidia-omniverse.atlassian.net/browse/OM-32965
force_pbr = int(os.getenv("OMNI_DISCOVERY_FORCE_PBR", "0"))
if hostname in ("localhost", "127.0.0.1", "::1") and not force_pbr:
ws_port_based_client_task = loop.create_task(create_port_based_client(uri, ssl_context=ssl_context))
done, pending = await asyncio.wait({ws_port_based_client_task}, timeout=timeout)
if ws_port_based_client_task in done:
return ws_port_based_client_task.result()
else:
ws_port_based_client_task.cancel()
else:
wss_path_based_client_task = loop.create_task(
create_path_based_client(uri, scheme="wss", ssl_context=ssl_context)
)
ws_path_based_client_task = loop.create_task(
create_path_based_client(uri, scheme="ws", ssl_context=ssl_context)
)
ws_port_based_client_task = loop.create_task(
create_port_based_client(uri, ssl_context=ssl_context)
)
tasks = [
wss_path_based_client_task,
ws_path_based_client_task,
ws_port_based_client_task,
]
done = []
try:
ws_timeout = loop.create_task(asyncio.sleep(timeout))
done, pending = await asyncio.wait(
{wss_path_based_client_task, ws_timeout},
return_when=asyncio.FIRST_COMPLETED,
)
if wss_path_based_client_task in done:
ws = wss_path_based_client_task.result()
if ws:
return ws
done, pending = await asyncio.wait(
{ws_path_based_client_task, ws_timeout},
return_when=asyncio.FIRST_COMPLETED
)
if ws_path_based_client_task in done:
ws = ws_path_based_client_task.result()
if ws:
return ws
done, pending = await asyncio.wait(
{ws_port_based_client_task, ws_timeout},
return_when=asyncio.FIRST_COMPLETED
)
if ws_port_based_client_task in done:
ws = ws_port_based_client_task.result()
if ws:
return ws
finally:
for task in tasks:
if task not in done:
if task.done():
ws: WebSocketClient = task.result()
if ws:
try:
await ws.close()
except:
pass
else:
task.cancel()
async def create_path_based_client(uri: str, scheme: str = "wss", ssl_context: ssl.SSLContext = None) -> Optional[WebSocketClient]:
url = parse_url(uri, default_scheme=scheme)
path = url.path.rstrip("/") + DISCOVERY_ENDPOINT
hostname = url.hostname
port = url.port
scheme = url.scheme
if port:
uri = f"{scheme}://{hostname}:{port}{path}"
else:
uri = f"{scheme}://{hostname}{path}"
try:
ws = WebSocketClient(uri=uri, ssl_context=ssl_context)
await ws.prepare()
return ws
except Exception as exc:
msg = f"Failed to connect to the discovery service using path-based routing ({uri})."
logger.debug(msg, exc_info=exc)
return None
async def create_port_based_client(uri: str, ssl_context: ssl.SSLContext = None) -> Optional[WebSocketClient]:
url = parse_url(uri, default_scheme="ws")
hostname = url.hostname
port = url.port
scheme = url.scheme
if not port:
port = "3333"
uri = f"{scheme}://{hostname}:{port}"
try:
ws = WebSocketClient(uri=uri, ssl_context=ssl_context)
await ws.prepare()
return ws
except Exception as exc:
msg = f"Failed to connect to the discovery service using port-based routing ({uri})."
logger.debug(msg, exc_info=exc)
return None
def parse_url(value: str, default_scheme: str = "ws") -> urllib.parse.ParseResult:
url = urllib.parse.urlparse(value)
if not url.scheme:
url = urllib.parse.urlparse(f"{default_scheme}://{value}")
return url
Serializer.register(JSONSerializer)
Marshaller.register(Marshaller)
Client.register(HttpClient)
Client.register(HttpFileClient)
Client.register(WebSocketClient)
Client.register(OmniClientTransport)
| 12,344 | Python | 35.308823 | 131 | 0.559786 |
omniverse-code/kit/exts/omni.kit.tagging/omni/discovery/data.py | from typing import List, Optional, Dict, AsyncIterator
from idl.types import Enum, Record, Literal
Capabilities = Dict[str, int]
DiscoverySearchServerRemoteCapabilities = Capabilities
DiscoverySearchServerLocalCapabilities = {'find': 2, 'find_all': 2}
DiscoverySearchServerCapabilities = DiscoverySearchServerRemoteCapabilities
DiscoverySearchClientRemoteCapabilities = Capabilities
DiscoverySearchClientLocalCapabilities = {'find': 2, 'find_all': 2}
DiscoverySearchClientCapabilities = DiscoverySearchClientLocalCapabilities
DiscoverySearchFindAllServerRemoteVersion = int
DiscoverySearchFindAllServerLocalVersion = 2
DiscoverySearchFindAllServerVersion = DiscoverySearchFindAllServerRemoteVersion
DiscoverySearchFindAllClientRemoteVersion = int
DiscoverySearchFindAllClientLocalVersion = 2
DiscoverySearchFindServerRemoteVersion = int
DiscoverySearchFindServerLocalVersion = 2
DiscoverySearchFindServerVersion = DiscoverySearchFindServerRemoteVersion
DiscoverySearchFindClientRemoteVersion = int
DiscoverySearchFindClientLocalVersion = 2
DiscoveryRegistrationServerRemoteCapabilities = Capabilities
DiscoveryRegistrationServerLocalCapabilities = {'register': 2, 'register_unsafe': 2, 'unregister_unsafe': 2}
DiscoveryRegistrationServerCapabilities = DiscoveryRegistrationServerRemoteCapabilities
DiscoveryRegistrationClientRemoteCapabilities = Capabilities
DiscoveryRegistrationClientLocalCapabilities = {'register': 2, 'register_unsafe': 2, 'unregister_unsafe': 2}
DiscoveryRegistrationClientCapabilities = DiscoveryRegistrationClientLocalCapabilities
DiscoveryRegistrationUnregisterUnsafeServerRemoteVersion = int
DiscoveryRegistrationUnregisterUnsafeServerLocalVersion = 2
DiscoveryRegistrationUnregisterUnsafeServerVersion = DiscoveryRegistrationUnregisterUnsafeServerRemoteVersion
DiscoveryRegistrationUnregisterUnsafeClientRemoteVersion = int
DiscoveryRegistrationUnregisterUnsafeClientLocalVersion = 2
DiscoveryRegistrationRegisterUnsafeServerRemoteVersion = int
DiscoveryRegistrationRegisterUnsafeServerLocalVersion = 2
DiscoveryRegistrationRegisterUnsafeServerVersion = DiscoveryRegistrationRegisterUnsafeServerRemoteVersion
DiscoveryRegistrationRegisterUnsafeClientRemoteVersion = int
DiscoveryRegistrationRegisterUnsafeClientLocalVersion = 2
DiscoveryRegistrationRegisterServerRemoteVersion = int
DiscoveryRegistrationRegisterServerLocalVersion = 2
DiscoveryRegistrationRegisterServerVersion = DiscoveryRegistrationRegisterServerRemoteVersion
DiscoveryRegistrationRegisterClientRemoteVersion = int
DiscoveryRegistrationRegisterClientLocalVersion = 2
Meta = Dict[str, str]
class HealthStatus(metaclass=Enum):
OK = "OK"
Closed = "CLOSED"
Denied = "DENIED"
AlreadyExists = "ALREADY_EXISTS"
InvalidSettings = "INVALID_SETTINGS"
InvalidCapabilities = "INVALID_CAPABILITIES"
class ServiceInterface(Record):
origin: str
name: str
capabilities: Optional[Capabilities]
class TransportSettings(Record):
name: str
params: str
meta: Meta
ServiceInterfaceMap = Dict[str, ServiceInterface]
class SupportedTransport(Record):
name: str
meta: Optional[Meta]
class SearchResult(Record):
found: bool
version: Optional[int]
service_interface: Optional[ServiceInterface]
transport: Optional[TransportSettings]
meta: Optional[Meta]
DiscoverySearchFindAllClientVersion = DiscoverySearchFindAllClientLocalVersion
DiscoverySearchFindClientVersion = DiscoverySearchFindClientLocalVersion
class DiscoverInterfaceQuery(Record):
service_interface: ServiceInterface
supported_transport: Optional[List[SupportedTransport]]
meta: Optional[Meta]
class HealthCheck(Record):
status: HealthStatus
time: str
version: Optional[int]
message: Optional[str]
meta: Optional[Meta]
DiscoveryRegistrationUnregisterUnsafeClientVersion = DiscoveryRegistrationUnregisterUnsafeClientLocalVersion
class Manifest(Record):
interfaces: ServiceInterfaceMap
transport: TransportSettings
token: str
meta: Optional[Meta]
DiscoveryRegistrationRegisterUnsafeClientVersion = DiscoveryRegistrationRegisterUnsafeClientLocalVersion
DiscoveryRegistrationRegisterClientVersion = DiscoveryRegistrationRegisterClientLocalVersion | 4,228 | Python | 35.456896 | 109 | 0.854778 |
omniverse-code/kit/exts/omni.kit.tagging/omni/discovery/client.py | from typing import AsyncIterator, Dict, List, Optional
from idl.connection.transport import Client
from idl.types import Literal, Record
from .data import *
class DiscoverySearch:
def __init__(self, transport: Client):
self.transport = transport
async def __aenter__(self) -> 'DiscoverySearch':
await self.transport.prepare()
return self
async def __aexit__(self, exc_type, exc_val, exc_tb):
await self.transport.close()
async def find(self, query: DiscoverInterfaceQuery) -> SearchResult:
"""
Finds an entry for specified origin and interface.
A query can specify the required capabilities, connection settings and
other metadata.
"""
_request = {}
_request["query"] = query
_request["version"] = DiscoverySearchFindClientVersion
_response = await self.transport.call("DiscoverySearch", "find", _request, request_type=DiscoverySearchFindArgs, return_type=SearchResult)
return _response
async def find_all(self, ) -> AsyncIterator[SearchResult]:
"""
Retrieves all registered interfaces for this discovery service.
"""
_request = {}
_request["version"] = DiscoverySearchFindAllClientVersion
agen = self.transport.call_many("DiscoverySearch", "find_all", _request, request_type=DiscoverySearchFindAllArgs, return_type=SearchResult)
try:
async for _response in agen:
yield _response
finally:
await agen.aclose()
__interface_name__ = "DiscoverySearch"
__interface_origin__ = "Discovery.idl.ts"
__interface_capabilities__ = DiscoverySearchClientLocalCapabilities
class DiscoveryRegistration:
def __init__(self, transport: Client):
self.transport = transport
async def __aenter__(self) -> 'DiscoveryRegistration':
await self.transport.prepare()
return self
async def __aexit__(self, exc_type, exc_val, exc_tb):
await self.transport.close()
async def register(self, manifest: Manifest) -> AsyncIterator[HealthCheck]:
"""
Registers a new service with specified connection settings and
interfaces.
The discovery keeps a subscription to ensure that registered service is
still available.
The service is removed from discovery as soon as it stops receiving
health checks from the subscription.
You can use `register_unsafe` to register a service without a
subscription and health checks.
"""
_request = {}
_request["manifest"] = manifest
_request["version"] = DiscoveryRegistrationRegisterClientVersion
agen = self.transport.call_many("DiscoveryRegistration", "register", _request, request_type=DiscoveryRegistrationRegisterArgs, return_type=HealthCheck)
try:
async for _response in agen:
yield _response
finally:
await agen.aclose()
async def register_unsafe(self, manifest: Manifest) -> HealthCheck:
"""
Registers a new service without a health checking.
It's a service responsibility to call `unregister_unsafe` when the
provided functions become not available.
"""
_request = {}
_request["manifest"] = manifest
_request["version"] = DiscoveryRegistrationRegisterUnsafeClientVersion
_response = await self.transport.call("DiscoveryRegistration", "register_unsafe", _request, request_type=DiscoveryRegistrationRegisterUnsafeArgs, return_type=HealthCheck)
return _response
async def unregister_unsafe(self, manifest: Manifest) -> HealthCheck:
"""
Removes the service registered with `register_unsafe` from the
discovery.
"""
_request = {}
_request["manifest"] = manifest
_request["version"] = DiscoveryRegistrationUnregisterUnsafeClientVersion
_response = await self.transport.call("DiscoveryRegistration", "unregister_unsafe", _request, request_type=DiscoveryRegistrationUnregisterUnsafeArgs, return_type=HealthCheck)
return _response
__interface_name__ = "DiscoveryRegistration"
__interface_origin__ = "Discovery.idl.ts"
__interface_capabilities__ = DiscoveryRegistrationClientLocalCapabilities
class DiscoverySearchFindArgs(Record):
query: DiscoverInterfaceQuery
version: Optional[Literal(DiscoverySearchFindClientVersion)] = DiscoverySearchFindClientVersion
class DiscoverySearchFindAllArgs(Record):
version: Optional[Literal(DiscoverySearchFindAllClientVersion)] = DiscoverySearchFindAllClientVersion
class DiscoveryRegistrationRegisterArgs(Record):
manifest: Manifest
version: Optional[Literal(DiscoveryRegistrationRegisterClientVersion)] = DiscoveryRegistrationRegisterClientVersion
class DiscoveryRegistrationRegisterUnsafeArgs(Record):
manifest: Manifest
version: Optional[Literal(DiscoveryRegistrationRegisterUnsafeClientVersion)] = DiscoveryRegistrationRegisterUnsafeClientVersion
class DiscoveryRegistrationUnregisterUnsafeArgs(Record):
manifest: Manifest
version: Optional[Literal(DiscoveryRegistrationUnregisterUnsafeClientVersion)] = DiscoveryRegistrationUnregisterUnsafeClientVersion
| 5,323 | Python | 38.731343 | 182 | 0.698854 |
omniverse-code/kit/exts/omni.kit.tagging/omni/kit/tagging/__init__.py | from .scripts.taggingservice import *
| 38 | Python | 18.499991 | 37 | 0.815789 |
omniverse-code/kit/exts/omni.kit.tagging/omni/kit/tagging/scripts/taggingservice.py | import carb
import carb.events
import asyncio
import omni.client
import omni.kit.tagging
from idl.connection.transport import TransportError
# rename this to omni.tagging.client after omni.tagging is deprecated
import omni.tagging_client as tagging_client
class TaggingClientContextAsync:
"""Create a tag client context."""
def __init__(self, ov_server, **kwargs):
self.ov_server = ov_server
async def init_client(self):
"""Create tagging client."""
self._helper = tagging_client.TaggingClientHelper(self.ov_server)
# connect to the tagging service
self.service = await self._helper.get_tagging_service()
# check that tagging server is responding
res = await self.service.generate_client_id()
# get the ID of the client (this will likely be deprecated)
self.client_id = res.client_id
async def close_client(self, client_msg: str = None, *args, **kwargs):
"""Close tagging client."""
await self._helper.__aexit__(*args, **kwargs)
# log the given message on success
if client_msg is not None:
tag_utils_logger.debug(client_msg)
class OmniKitTaggingDelegate:
"""Delegate that handles when async tagging events are finished.
"""
def updated_tags_for_url(self, url: str):
pass
def finished_getting_tags(self, urls: str):
pass
class OmniKitTagging(omni.ext.IExt):
"""The Tagging plugin. This plugin holds tagging client contexts."""
static_instance = None
def on_startup(self):
OmniKitTagging.static_instance = self
self._connections = {}
self._auth_tokens = {}
self._path_results = {}
self._tagging_clients = {}
self._conn_subscription = omni.client.register_connection_status_callback(self._server_status_changed)
self._delegate = None
self._initializing = False
def on_shutdown(self):
for client in self._tagging_clients:
asyncio.ensure_future(self._tagging_clients[client].close_client())
self._tagging_clients = None
self._conn_subscription = None
self._auth_subscription = None
self._delegate = None
OmniKitTagging.static_instance = None
def set_delegate(self, delegate: OmniKitTaggingDelegate):
self._delegate = delegate
def _server_status_changed(self, url, status):
def _server_info_callback(result, server_info):
nonlocal url
broken_url = omni.client.break_url(url)
if result == omni.client.Result.OK:
self._auth_tokens[broken_url.host] = server_info.auth_token
else:
carb.log_error(f"Server info error: {str(result)}")
broken_url = omni.client.break_url(url)
if status == omni.client.ConnectionStatus.CONNECTED:
self._connections[broken_url.host] = True
omni.client.get_server_info_with_callback(url, _server_info_callback)
else:
self._connections[broken_url.host] = False
async def _verify_connection(self, host):
if host is None:
return False
if host not in self._connections:
carb.log_warn(f"Unable to get tags. Not connected to host: {host}")
return False
if host not in self._auth_tokens:
carb.log_error(f"Error getting auth token for host: {host}")
return False
if host not in self._tagging_clients:
self._initializing = True
self._tagging_clients[host] = TaggingClientContextAsync(ov_server=host)
await self._tagging_clients[host].init_client()
self._initializing = False
if self._tagging_clients[host].service is None:
carb.log_error(f"Error creating tagging client service on {host}")
return False
return True
def tags_action(self, url, new_tag, action="add", old_tag=None):
if action.lower() == "add":
modify_type = tagging_client.TagModifyType.Add
elif action.lower() == "set":
modify_type = tagging_client.TagModifyType.Set
elif action.lower() == "reset":
modify_type = tagging_client.TagModifyType.Reset
elif action.lower() == "remove":
modify_type = tagging_client.TagModifyType.Remove
elif action.lower() == "update":
modify_type = tagging_client.TagModifyType.Remove
asyncio.ensure_future(self.tags_action_async(url, old_tag, modify_type))
modify_type = tagging_client.TagModifyType.Add
else:
carb.log_error(f"provided action is currently not supported: ({action})")
asyncio.ensure_future(self.tags_action_async(url, new_tag, modify_type))
async def tags_action_async(self, url, tag, modify_type):
broken_url = omni.client.break_url(url)
host = broken_url.host
if not await self._verify_connection(host):
return
tag_dict = self.validate_tag(tag)
if tag_dict:
# 5 second timout for service initialization.
timeout = 5.0
while self._initializing and timeout > 0:
await asyncio.sleep(0.5)
timeout -= 0.5
constructed_tag = tagging_client.Tag(
name=tag_dict["key"], tag_namespace=tag_dict["full_namespace"], value=tag_dict["value"]
)
try:
# get the tags
results = await self._tagging_clients[host].service.modify_tags(
auth_token=self._auth_tokens[host],
client_id=self._tagging_clients[host].client_id,
paths=[broken_url.path],
tags=[constructed_tag],
modify_type=modify_type,
)
except AttributeError:
# service is still being initialized
carb.log_warn("Timeout waiting for tagging service initialization")
return
except TransportError as msg:
# lost connection to tagging service
carb.log_warn(f"TransportError: {msg}")
self._tagging_clients = {}
return
if self._delegate:
self._delegate.updated_tags_for_url(url)
def get_tags(self, urls, callback):
asyncio.ensure_future(self.get_tags_async(urls, callback))
async def get_tags_async(self, urls, callback=None):
paths = {}
for url in urls:
broken_url = omni.client.break_url(url)
host = broken_url.host
if not await self._verify_connection(host):
return
# 5 second timout for service initialization.
timeout = 5.0
while self._initializing and timeout > 0:
await asyncio.sleep(0.5)
timeout -= 0.5
if host not in paths:
paths[host] = [broken_url.path]
else:
paths[host].append(broken_url.path)
for host in paths:
try:
# get the tags
results = await self._tagging_clients[host].service.get_tags(
auth_token=self._auth_tokens[host], paths=paths[host]
)
except AttributeError as msg:
# service is still being initialized
carb.log_warn(f"Timeout waiting for tagging service initialization: {msg}")
return
except TransportError as msg:
# lost connection to tagging service
self._tagging_clients = {}
return
for i, result in enumerate(results["path_result"]):
if result["connection_status"] != 1: # OmniTaggingStatusCodeOk
carb.log_warn(f"Tagging Connection Error Code: {result['connection_status']}")
self._tagging_clients = {}
return
# TODO check connection status
if host not in self._path_results:
self._path_results[host] = {}
self._path_results[host][paths[host][i]] = result["tags"]
if callback is not None:
callback()
if self._delegate:
self._delegate.finished_getting_tags(urls)
return self.tags_for_url(urls[0])
def tags_for_url(self, url):
broken_url = omni.client.break_url(url)
host = broken_url.host
path = broken_url.path
if host in self._path_results and path in self._path_results[host]:
return self._path_results[host][path]
def pack_tag(self, namespace, hidden_label, kv_pair=None, key=None, value=None):
""" Changes a keyvalue pair tag into a string like "namespace.key=value"
Adds a leading . when the namespace has one, and ommits the =value when no value is present.
Format of tags:
[namespace].[key]{=value}
.[namespace].[label].[key]{=value}
For Example:
appearance.car
.appearance.generated.truck=60
.appearance.excluded.banana
tag_without_namespace
.excluded.tag_without_namespace
"""
if kv_pair is None:
if not value:
kv_pair = key
else:
kv_pair = key + "=" + value
if hidden_label and len(hidden_label) > 0:
if namespace == "":
return ".".join(["", hidden_label, kv_pair])
return ".".join(["", namespace, hidden_label, kv_pair])
if namespace == "":
return kv_pair
return ".".join([namespace, kv_pair])
def validate_tag(self, tag, allow_hidden_tags=True):
""" Validate the tag, make sure there is a category, namespace, and key,
and return the dict if valid.
"""
is_hidden = False
namespace = None
hidden_label = None
kv_split = tag.split("=")
full_key = kv_split[0]
val = ""
if len(kv_split) > 2:
carb.log_warn(f"Too many '=' characters in tag: {tag}")
return False
if ".." in full_key:
carb.log_warn(f"Invalid tag (too many consecutive .'s): {tag}")
return False
if len(kv_split) > 1:
val = kv_split[1]
dot_split = full_key.split(".")
# the full_namespace combines the hidden/system namespace with the normal one.
if len(dot_split) <= 1:
key = full_key
full_namespace = ""
else:
key = dot_split[-1]
full_namespace = ".".join(dot_split[:-1])
# remove the key
dot_split = dot_split[:-1]
if len(dot_split) >= 1 and dot_split[0] == "":
# a hidden/system namespace begins with a .
is_hidden = True
# remove the empty string
dot_split = dot_split[1:]
if len(dot_split) == 0:
carb.log_warn(f"Tag has an empty system namespace: {tag}")
return False
elif len(dot_split) == 1:
namespace = ""
hidden_label = "." + dot_split[0]
else:
# a namespace may contain multiple .'s, but the system namespace may not
hidden_label = "." + dot_split[-1]
namespace = ".".join(dot_split[:-1])
else:
if full_namespace == "":
namespace = ""
else:
namespace = ".".join(dot_split)
if not key:
return False
if is_hidden and not allow_hidden_tags:
return False
return {
"hidden_label": hidden_label,
"namespace": namespace,
"key": key,
"value": val,
"full_namespace": full_namespace,
}
def ordered_tag_list(self, tag_dict_list):
""" Returns a sorted (user tags, then generated in order of value) list of unique tags.
"""
tag_tuples = []
namespaces = list(set([d["tag_namespace"] for d in tag_dict_list]))
user_namespaces = []
generated_namespaces = []
excluded_namespaces = []
for n in namespaces:
if n[0] != ".":
user_namespaces.append(n)
elif n[0] == "." and n.split(".")[-1] == "generated":
generated_namespaces.append(n)
elif n[0] == "." and n.split(".")[-1] == "excluded":
excluded_namespaces.append(n)
user_namespaces.sort()
generated_namespaces.sort()
for gen_namespace in generated_namespaces:
stripped = gen_namespace[1 : -(1 + len("generated"))]
if stripped not in user_namespaces:
user_namespaces.append(stripped)
def safe_int(value):
try:
return int(value)
except ValueError:
return 0
# for each namespace, add user tags
# then add generated tags (if they are not already added or excluded) sorted by value
for n in user_namespaces:
g = "." + n + ".generated"
e = "." + n + ".excluded"
# tags will contain tuples (name, value)
tags = []
excluded = []
for tag_dict in tag_dict_list:
if tag_dict["tag_namespace"] == n:
tags.append((tag_dict["name"], 100))
elif tag_dict["tag_namespace"] == e and tag_dict["name"] not in tags:
excluded.append(tag_dict["name"])
for tag_dict in tag_dict_list:
if tag_dict["tag_namespace"] == g:
if tag_dict["name"] not in tags and tag_dict["name"] not in excluded:
tags.append((tag_dict["name"], safe_int(tag_dict["value"])))
if len(tags) > 0:
# sort by name, then by value descending
tags.sort(key=lambda x: x[0])
tag_tuples += sorted(tags, key=lambda x: -x[1])
tags = []
for t in tag_tuples:
# prevent duplicates
if t[0] not in tags:
tags.append(t[0])
return tags
def unpack_raw_tags(self, tag_dict_list):
""" Changes a list of strings into a dictionary.
Example tag: {'name': 'notebook', 'tag_namespace': 'appearance', 'value': ''}
Example tag: {'name': 'book', 'tag_namespace': 'appearance.generated', 'value': '50'}
Returns a dictionary like:
{
"appearance": {
"car": "",
".generated": { "truck": 99 },
".excluded": { "banana": "" }
}
}
"""
tags = {}
namespace = None
for tag_dict in tag_dict_list:
# join the namespace to the name and value of the tag.
# Examples: appearance.notebook, appearance.generated.book=10
if tag_dict["tag_namespace"] == "":
tag = tag_dict["name"]
else:
tag = ".".join([tag_dict["tag_namespace"], tag_dict["name"]])
if "value" in tag_dict and tag_dict["value"]:
tag = f"{tag}={tag_dict['value']}"
# recover namespace, key, value from single string
tag = self.validate_tag(tag)
if tag:
hidden_label = tag["hidden_label"]
namespace = tag["namespace"]
key = tag["key"]
val = tag["value"]
if len(val) > 50:
val = "(value too long to display)"
if namespace not in tags:
tags[namespace] = {}
if hidden_label and hidden_label not in tags[namespace]:
tags[namespace][hidden_label] = {}
if hidden_label:
tags[namespace][hidden_label][key] = val
else:
tags[namespace][key] = val
return tags
def get_tagging_instance():
return OmniKitTagging.static_instance
| 16,316 | Python | 35.179601 | 110 | 0.53898 |
omniverse-code/kit/exts/omni.kit.tagging/omni/kit/tagging/tests/test_tagging_plugin.py | import asyncio
import math
import unittest
import omni.kit.test
from omni.kit.tagging import get_tagging_instance
class TestTaggingPlugin(omni.kit.test.AsyncTestCase):
async def test_tagging_plugin_load(self):
tagging_interface = get_tagging_instance()
self.assertTrue(tagging_interface is not None)
async def test_tagging_validation(self):
tagging_interface = get_tagging_instance()
valid_tags = [
"book",
"book=10",
"appearance.book",
"appearance.book=10",
"appearance.generated.book",
"appearance.generated.book=10",
"visual.appearance.generated.book",
"visual.appearance.generated.book=10",
".appearance.generated.book",
".appearance.generated.book=10",
".generated.book",
".generated.book=10",
]
invalid_tags = ["", ".", "a=b=c", "...", ".test", "test.", "test.=1", "test..test", "test..test=10"]
for tag in valid_tags:
self.assertTrue(tagging_interface.validate_tag(tag))
for tag in invalid_tags:
self.assertFalse(tagging_interface.validate_tag(tag))
async def test_sorted_tags(self):
expected_dict = [
{"name": "binder", "tag_namespace": ".appearance.generated", "value": "50"},
{"name": "notebook", "tag_namespace": "appearance", "value": ""},
{"name": "book", "tag_namespace": "appearance", "value": ""},
{"name": "book", "tag_namespace": ".appearance.generated", "value": "80"},
{"name": "Lighter", "tag_namespace": ".ImageNet.generated", "value": "36"},
{"name": "Wafer", "tag_namespace": ".ImageNet.generated", "value": "47"},
{"name": "Knife", "tag_namespace": ".ImageNet.generated", "value": "2"},
{"name": "Knife", "tag_namespace": ".ImageNet.excluded", "value": ""},
]
sorted_tags = ["book", "notebook", "binder", "Wafer", "Lighter"]
tagging_interface = get_tagging_instance()
ordered_tags = tagging_interface.ordered_tag_list(expected_dict)
self.assertEqual(ordered_tags, sorted_tags)
| 2,201 | Python | 37.631578 | 108 | 0.574739 |
omniverse-code/kit/exts/omni.kit.tagging/omni/kit/tagging/tests/__init__.py | """
Presence of this file allows the tests directory to be imported as a module so that all of its contents
can be scanned to automatically add tests that are placed into this directory.
"""
scan_for_test_modules = True
| 220 | Python | 35.833327 | 103 | 0.777273 |
omniverse-code/kit/exts/omni.kit.window.toolbar/PACKAGE-LICENSES/omni.kit.window.toolbar-LICENSE.md | Copyright (c) 2020, NVIDIA CORPORATION. All rights reserved.
NVIDIA CORPORATION and its licensors retain all intellectual property
and proprietary rights in and to this software, related documentation
and any modifications thereto. Any use, reproduction, disclosure or
distribution of this software and related documentation without an express
license agreement from NVIDIA CORPORATION is strictly prohibited. | 412 | Markdown | 57.999992 | 74 | 0.839806 |
omniverse-code/kit/exts/omni.kit.window.toolbar/config/extension.toml | [package]
# Semantic Versioning is used: https://semver.org/
version = "1.4.0"
# Lists people or organizations that are considered the "authors" of the package.
authors = ["NVIDIA"]
# The title and description fields are primarily for displaying extension info in UI
description = "Extension to create a dockable toolbar. It also comes with builtin tools for transform manipulation and animation playing."
title = "Toolbar Extension"
# URL of the extension source repository.
repository = ""
# One of categories for UI.
category = "Internal"
feature = true
# Keywords for the extension
keywords = ["kit", "toolbar"]
# Location of change log file in target (final) folder of extension, relative to the root. Can also be just a content
# of it instead of file path. More info on writing changelog: https://keepachangelog.com/en/1.0.0/
changelog = "docs/CHANGELOG.md"
[dependencies]
"omni.kit.context_menu" = {}
"omni.kit.menu.utils" = {}
"omni.kit.widget.toolbar" = {}
"omni.ui" = {}
# Main python module this extension provides, it will be publicly available as "import omni.example.hello".
[[python.module]]
name = "omni.kit.window.toolbar"
[[test]]
args = [
"--/app/window/width=480",
"--/app/window/height=480",
"--/app/renderer/resolution/width=480",
"--/app/renderer/resolution/height=480",
"--/app/window/scaleToMonitor=false",
"--no-window",
]
dependencies = [
"omni.kit.uiapp",
"omni.kit.renderer.capture",
]
stdoutFailPatterns.exclude = [
"*Failed to acquire interface*while unloading all plugins*",
]
| 1,538 | TOML | 28.037735 | 138 | 0.721066 |
omniverse-code/kit/exts/omni.kit.window.toolbar/omni/kit/window/toolbar/simple_tool_button.py | # Copyright (c) 2020, NVIDIA CORPORATION. All rights reserved.
#
# NVIDIA CORPORATION and its licensors retain all intellectual property
# and proprietary rights in and to this software, related documentation
# and any modifications thereto. Any use, reproduction, disclosure or
# distribution of this software and related documentation without an express
# license agreement from NVIDIA CORPORATION is strictly prohibited.
#
import omni.kit.app
omni.kit.app.log_deprecation(
'"import omni.kit.window.toolbar.simple_tool_button" is deprecated. '
'Please use "import omni.kit.widget.toolbar.simple_tool_button"'
)
try: # pragma: no cover
import inspect
for stackframe in inspect.stack():
if stackframe.code_context is None:
continue
code = stackframe.code_context[0]
if code and code.startswith(("import", "from")):
# name of importing file
omni.kit.app.log_deprecation(f"Imported from {stackframe.filename}")
break
except: # pragma: no cover
pass
from omni.kit.widget.toolbar.simple_tool_button import * # backward compatible
| 1,125 | Python | 37.827585 | 80 | 0.719111 |
omniverse-code/kit/exts/omni.kit.window.toolbar/omni/kit/window/toolbar/widget_group.py | # Copyright (c) 2020, NVIDIA CORPORATION. All rights reserved.
#
# NVIDIA CORPORATION and its licensors retain all intellectual property
# and proprietary rights in and to this software, related documentation
# and any modifications thereto. Any use, reproduction, disclosure or
# distribution of this software and related documentation without an express
# license agreement from NVIDIA CORPORATION is strictly prohibited.
#
import omni.kit.app # pragma: no cover
omni.kit.app.log_deprecation(
'"import omni.kit.window.toolbar.widget_group" is deprecated. '
'Please use "import omni.kit.widget.toolbar.widget_group"'
) # pragma: no cover
try: # pragma: no cover
import inspect
for stackframe in inspect.stack():
if stackframe.code_context is None:
continue
code = stackframe.code_context[0]
if code and code.startswith(("import", "from")):
# name of importing file
omni.kit.app.log_deprecation(f"Imported from {stackframe.filename}")
break
except: # pragma: no cover
pass
from omni.kit.widget.toolbar.widget_group import * # backward compatible # pragma: no cover
| 1,166 | Python | 39.241378 | 92 | 0.714408 |
omniverse-code/kit/exts/omni.kit.window.toolbar/omni/kit/window/toolbar/commands.py | # Copyright (c) 2020, NVIDIA CORPORATION. All rights reserved.
#
# NVIDIA CORPORATION and its licensors retain all intellectual property
# and proprietary rights in and to this software, related documentation
# and any modifications thereto. Any use, reproduction, disclosure or
# distribution of this software and related documentation without an express
# license agreement from NVIDIA CORPORATION is strictly prohibited.
#
import omni.kit.app
omni.kit.app.log_deprecation(
'"import omni.kit.window.toolbar.commands" is deprecated. Please use "import omni.kit.widget.toolbar.commands"'
)
try: # pragma: no cover
import inspect
for stackframe in inspect.stack():
if stackframe.code_context is None:
continue
code = stackframe.code_context[0]
if code and code.startswith(("import", "from")):
# name of importing file
omni.kit.app.log_deprecation(f"Imported from {stackframe.filename}")
break
except: # pragma: no cover
pass
from omni.kit.widget.toolbar.commands import * # backward compatible
| 1,088 | Python | 37.892856 | 115 | 0.721507 |
omniverse-code/kit/exts/omni.kit.window.toolbar/omni/kit/window/toolbar/__init__.py | from .toolbar import *
from omni.kit.widget.toolbar.simple_tool_button import * # backward compatible
| 103 | Python | 33.666655 | 79 | 0.786408 |
omniverse-code/kit/exts/omni.kit.window.toolbar/omni/kit/window/toolbar/context_menu.py | # Copyright (c) 2020, NVIDIA CORPORATION. All rights reserved.
#
# NVIDIA CORPORATION and its licensors retain all intellectual property
# and proprietary rights in and to this software, related documentation
# and any modifications thereto. Any use, reproduction, disclosure or
# distribution of this software and related documentation without an express
# license agreement from NVIDIA CORPORATION is strictly prohibited.
#
import omni.kit.app # pragma: no cover
omni.kit.app.log_deprecation(
'"import omni.kit.window.toolbar.context_menu" is deprecated. '
'Please use "import omni.kit.widget.toolbar.context_menu"'
) # pragma: no cover
from omni.kit.widget.toolbar.context_menu import * # backward compatible # pragma: no cover
| 744 | Python | 48.666663 | 92 | 0.778226 |
omniverse-code/kit/exts/omni.kit.window.toolbar/omni/kit/window/toolbar/toolbar.py | # Copyright (c) 2020, NVIDIA CORPORATION. All rights reserved.
#
# NVIDIA CORPORATION and its licensors retain all intellectual property
# and proprietary rights in and to this software, related documentation
# and any modifications thereto. Any use, reproduction, disclosure or
# distribution of this software and related documentation without an express
# license agreement from NVIDIA CORPORATION is strictly prohibited.
#
import asyncio
import weakref
from functools import lru_cache, partial
from pathlib import Path
import omni.kit.context_menu
import omni.ext
import omni.kit.app
import omni.ui as ui
from omni.kit.widget.toolbar.builtin_tools.builtin_tools import BuiltinTools # backward compatible
from omni.kit.widget.toolbar.commands import * # backward compatible
from omni.kit.widget.toolbar.context_menu import *
from omni.kit.widget.toolbar.widget_group import WidgetGroup # backward compatible
from omni.kit.widget.toolbar import get_instance as _get_widget_instance
DATA_PATH = Path()
_toolbar_instance = None
@lru_cache()
def get_data_path() -> Path:
return DATA_PATH
def get_instance():
return _toolbar_instance
# Any class derived from `omni.ext.IExt` in top level module (defined in `python.modules` of `extension.toml`) will be
# instantiated when extension gets enabled and `on_startup(ext_id)` will be called. Later when extension gets disabled
# on_shutdown() is called.
class Toolbar(omni.ext.IExt):
WINDOW_NAME = "Main ToolBar"
MENU_PATH = "Window/ToolBar"
def __init__(self):
self._main_toolbar = None
super().__init__()
# ext_id is current extension id. It can be used with extension manager to query additional information, like where
# this extension is located on filesystem.
def on_startup(self, ext_id):
import omni.kit.app
manager = omni.kit.app.get_app().get_extension_manager()
extension_path = manager.get_extension_path(ext_id)
global DATA_PATH
DATA_PATH = Path(extension_path).joinpath("data")
ui.Workspace.set_show_window_fn(Toolbar.WINDOW_NAME, partial(self._show_hide_window, None))
self._sub_grab_mouse_pressed = None
self._show_hide_menu_entry = None
self._widget_instance = _get_widget_instance()
self._main_toolbar = None
self._dock_task = None
self.create_main_toolbar()
try:
import omni.kit.ui
self._menu = omni.kit.ui.get_editor_menu().add_item(
self.MENU_PATH, self._show_hide_window, toggle=True, value=self._main_toolbar.visible
)
except ImportError: # pragma: no cover
pass
global _toolbar_instance
_toolbar_instance = self
def on_shutdown(self):
global _toolbar_instance
_toolbar_instance = None
if self._dock_task is not None: # pragma: no cover
self._dock_task.cancel()
try:
import omni.kit.ui
omni.kit.ui.get_editor_menu().remove_item(self.MENU_PATH)
except ImportError: # pragma: no cover
pass
self._show_hide_menu_entry = None
self._widget_instance = None
self._menu = None
if self._main_toolbar:
self._main_toolbar.destroy()
self._main_toolbar = None
self._sub_grab_mouse_pressed = None
ui.Workspace.set_show_window_fn(Toolbar.WINDOW_NAME, None)
@property
def context_menu(self):
return self._widget_instance.context_menu
def create_main_toolbar(self):
self._main_toolbar = ui.ToolBar(Toolbar.WINDOW_NAME, noTabBar=False, padding_x=3, padding_y=3, margin=5)
self._main_toolbar.set_axis_changed_fn(self._on_axis_changed)
self._rebuild_toolbar()
self._register_context_menu()
self._dock_task = asyncio.ensure_future(Toolbar._dock())
def add_widget(self, widget_group: "WidgetGroup", priority: int, context: str = ""):
self._widget_instance.add_widget(widget_group, priority, context=context)
def remove_widget(self, widget_group: "WidgetGroup"):
self._widget_instance.remove_widget(widget_group)
def get_widget(self, name: str):
return self._widget_instance.get_widget(name)
def acquire_toolbar_context(self, context: str):
"""
Request toolbar to switch to given context.
It takes the context preemptively even if previous context owner has not release the context.
Args:
context (str): Context to switch to.
Returns:
A token to be used to release_toolbar_context
"""
return self._widget_instance.acquire_toolbar_context(context)
def release_toolbar_context(self, token: int):
"""
Request toolbar to release context associated with token.
If token is expired (already released or context ownership taken by others), this function does nothing.
Args:
token (int): Context token to release.
"""
self._widget_instance.release_toolbar_context(token)
def get_context(self):
return self._widget_instance.get_context()
def _on_axis_changed(self, axis):
self._widget_instance.set_axis(axis)
self._rebuild_toolbar()
def _rebuild_toolbar(self):
self._main_toolbar.frame.clear()
self._widget_instance.rebuild_toolbar(root_frame=self._main_toolbar.frame)
self._sub_grab_mouse_pressed = self._widget_instance.subscribe_grab_mouse_pressed(
self.__on_grab_mouse_pressed
)
# Toolbar context menu on the grab area
def __on_grab_mouse_pressed(self, x, y, button, *args, **kwargs):
if button == 1: # Right click, show immediately
event = ContextMenuEvent()
event.payload["widget_name"] = "grab"
self.context_menu.on_mouse_event(event)
def _register_context_menu(self):
context_menu = omni.kit.context_menu.get_instance()
def is_button(objects: dict, button_name: str):
return objects.get("widget_name", None) == button_name
if context_menu:
menu = {
"name": "Hide",
"show_fn": [lambda obj: is_button(obj, "grab")],
"onclick_fn": self._menu_hide_toolbar,
}
self._show_hide_menu_entry = omni.kit.context_menu.add_menu(menu, "grab", "omni.kit.window.toolbar")
def _show_hide_window(self, menu, value): # pragma: no cover
self._main_toolbar.visible = value
@staticmethod
async def _dock():
frame = 3
while frame > 0:
viewport = ui.Workspace.get_window("Viewport")
if viewport: # pragma: no cover
await omni.kit.app.get_app().next_update_async()
break
await omni.kit.app.get_app().next_update_async()
frame -= 1
toolbar = ui.Workspace.get_window(Toolbar.WINDOW_NAME)
if viewport and toolbar: # pragma: no cover
toolbar.dock_in(viewport, ui.DockPosition.LEFT)
_toolbar_instance._dock_task = None
def _menu_hide_toolbar(self, objects): # pragma: no cover
if self._main_toolbar is not None:
self._main_toolbar.visible = False
import omni.kit.ui
omni.kit.ui.get_editor_menu().set_value("Window/ToolBar", False)
def add_custom_select_type(self, entry_name: str, selection_types: list):
self._widget_instance.add_custom_select_type(entry_name, selection_types)
def remove_custom_select(self, entry_name):
self._widget_instance.remove_custom_select(entry_name)
| 7,683 | Python | 34.086758 | 119 | 0.645451 |
omniverse-code/kit/exts/omni.kit.window.toolbar/omni/kit/window/toolbar/hotkey.py | # Copyright (c) 2020-2022, NVIDIA CORPORATION. All rights reserved.
#
# NVIDIA CORPORATION and its licensors retain all intellectual property
# and proprietary rights in and to this software, related documentation
# and any modifications thereto. Any use, reproduction, disclosure or
# distribution of this software and related documentation without an express
# license agreement from NVIDIA CORPORATION is strictly prohibited.
#
import omni.kit.app # pragma: no cover
omni.kit.app.log_deprecation(
'"import omni.kit.window.toolbar.hotkey" is deprecated. Please use "import omni.kit.widget.toolbar.hotkey"'
) # pragma: no cover
try: # pragma: no cover
import inspect
for stackframe in inspect.stack():
if stackframe.code_context is None:
continue
code = stackframe.code_context[0]
if code and code.startswith(("import", "from")):
# name of importing file
omni.kit.app.log_deprecation(f"Imported from {stackframe.filename}")
break
except: # pragma: no cover
pass
from omni.kit.widget.toolbar.hotkey import * # backward compatible # pragma: no cover
| 1,146 | Python | 39.964284 | 111 | 0.717277 |
omniverse-code/kit/exts/omni.kit.window.toolbar/omni/kit/window/toolbar/builtin_tools/play_button_group.py | # Copyright (c) 2020, NVIDIA CORPORATION. All rights reserved.
#
# NVIDIA CORPORATION and its licensors retain all intellectual property
# and proprietary rights in and to this software, related documentation
# and any modifications thereto. Any use, reproduction, disclosure or
# distribution of this software and related documentation without an express
# license agreement from NVIDIA CORPORATION is strictly prohibited.
#
import omni.kit.app
omni.kit.app.log_deprecation(
'"import omni.kit.window.toolbar.builtin_tools.play_button_group" is deprecated. '
'Please use "import omni.kit.widget.toolbar.builtin_tools.play_button_group"'
)
from omni.kit.widget.toolbar.builtin_tools.play_button_group import * # backward compatible
| 742 | Python | 48.53333 | 92 | 0.792453 |
omniverse-code/kit/exts/omni.kit.window.toolbar/omni/kit/window/toolbar/builtin_tools/builtin_tools.py | # Copyright (c) 2020, NVIDIA CORPORATION. All rights reserved.
#
# NVIDIA CORPORATION and its licensors retain all intellectual property
# and proprietary rights in and to this software, related documentation
# and any modifications thereto. Any use, reproduction, disclosure or
# distribution of this software and related documentation without an express
# license agreement from NVIDIA CORPORATION is strictly prohibited.
#
import omni.kit.app
omni.kit.app.log_deprecation(
'"import omni.kit.window.toolbar.builtin_tools.builtin_tools" is deprecated. '
'Please use "import omni.kit.widget.toolbar.builtin_tools.builtin_tools"'
)
from omni.kit.widget.toolbar.builtin_tools.builtin_tools import * # backward compatible
| 730 | Python | 47.73333 | 88 | 0.793151 |
omniverse-code/kit/exts/omni.kit.window.toolbar/omni/kit/window/toolbar/builtin_tools/transform_button_group.py | # Copyright (c) 2020, NVIDIA CORPORATION. All rights reserved.
#
# NVIDIA CORPORATION and its licensors retain all intellectual property
# and proprietary rights in and to this software, related documentation
# and any modifications thereto. Any use, reproduction, disclosure or
# distribution of this software and related documentation without an express
# license agreement from NVIDIA CORPORATION is strictly prohibited.
#
import omni.kit.app
omni.kit.app.log_deprecation(
'"import omni.kit.window.toolbar.builtin_tools.transform_button_group" is deprecated. '
'Please use "import omni.kit.widget.toolbar.builtin_tools.transform_button_group"'
)
from omni.kit.widget.toolbar.builtin_tools.transform_button_group import * # backward compatible
| 757 | Python | 49.53333 | 97 | 0.796565 |
omniverse-code/kit/exts/omni.kit.window.toolbar/omni/kit/window/toolbar/builtin_tools/snap_button_group.py | # Copyright (c) 2020, NVIDIA CORPORATION. All rights reserved.
#
# NVIDIA CORPORATION and its licensors retain all intellectual property
# and proprietary rights in and to this software, related documentation
# and any modifications thereto. Any use, reproduction, disclosure or
# distribution of this software and related documentation without an express
# license agreement from NVIDIA CORPORATION is strictly prohibited.
#
import omni.kit.app
omni.kit.app.log_deprecation(
'"import omni.kit.window.toolbar.builtin_tools.snap_button_group" is deprecated. '
'Please use "import omni.kit.widget.toolbar.builtin_tools.snap_button_group"'
)
from omni.kit.widget.toolbar.builtin_tools.snap_button_group import * # backward compatible
| 742 | Python | 48.53333 | 92 | 0.792453 |
omniverse-code/kit/exts/omni.kit.window.toolbar/omni/kit/window/toolbar/builtin_tools/select_button_group.py | # Copyright (c) 2020, NVIDIA CORPORATION. All rights reserved.
#
# NVIDIA CORPORATION and its licensors retain all intellectual property
# and proprietary rights in and to this software, related documentation
# and any modifications thereto. Any use, reproduction, disclosure or
# distribution of this software and related documentation without an express
# license agreement from NVIDIA CORPORATION is strictly prohibited.
#
import omni.kit.app
omni.kit.app.log_deprecation(
'"import omni.kit.window.toolbar.builtin_tools.select_button_group" is deprecated. '
'Please use "import omni.kit.widget.toolbar.builtin_tools.select_button_group"'
)
from omni.kit.widget.toolbar.builtin_tools.select_button_group import * # backward compatible
| 748 | Python | 48.93333 | 94 | 0.794118 |
omniverse-code/kit/exts/omni.kit.window.toolbar/omni/kit/window/toolbar/builtin_tools/models/transform_mode_model.py | # Copyright (c) 2020, NVIDIA CORPORATION. All rights reserved.
#
# NVIDIA CORPORATION and its licensors retain all intellectual property
# and proprietary rights in and to this software, related documentation
# and any modifications thereto. Any use, reproduction, disclosure or
# distribution of this software and related documentation without an express
# license agreement from NVIDIA CORPORATION is strictly prohibited.
#
import omni.kit.app
omni.kit.app.log_deprecation(
'"import omni.kit.window.toolbar.builtin_tools.models.transform_mode_model" is deprecated. '
'Please use "import omni.kit.widget.toolbar.builtin_tools.models.transform_mode_model"'
)
from omni.kit.widget.toolbar.builtin_tools.models.transform_mode_model import * # backward compatible
| 772 | Python | 50.53333 | 102 | 0.796632 |
omniverse-code/kit/exts/omni.kit.window.toolbar/omni/kit/window/toolbar/builtin_tools/models/setting_model.py | # Copyright (c) 2020, NVIDIA CORPORATION. All rights reserved.
#
# NVIDIA CORPORATION and its licensors retain all intellectual property
# and proprietary rights in and to this software, related documentation
# and any modifications thereto. Any use, reproduction, disclosure or
# distribution of this software and related documentation without an express
# license agreement from NVIDIA CORPORATION is strictly prohibited.
#
import omni.kit.app
omni.kit.app.log_deprecation(
'"import omni.kit.window.toolbar.builtin_tools.models.setting_model" is deprecated. '
'Please use "import omni.kit.widget.toolbar.builtin_tools.models.setting_model"'
)
from omni.kit.widget.toolbar.builtin_tools.models.setting_model import * # backward compatible
| 751 | Python | 49.13333 | 95 | 0.79494 |
omniverse-code/kit/exts/omni.kit.window.toolbar/omni/kit/window/toolbar/builtin_tools/models/timeline_model.py | # Copyright (c) 2020, NVIDIA CORPORATION. All rights reserved.
#
# NVIDIA CORPORATION and its licensors retain all intellectual property
# and proprietary rights in and to this software, related documentation
# and any modifications thereto. Any use, reproduction, disclosure or
# distribution of this software and related documentation without an express
# license agreement from NVIDIA CORPORATION is strictly prohibited.
#
import omni.kit.app
omni.kit.app.log_deprecation(
'"import omni.kit.window.toolbar.builtin_tools.models.timeline_model" is deprecated. '
'Please use "import omni.kit.widget.toolbar.builtin_tools.models.timeline_model"'
)
from omni.kit.widget.toolbar.builtin_tools.models.timeline_model import * # backward compatible
| 754 | Python | 49.33333 | 96 | 0.795756 |
omniverse-code/kit/exts/omni.kit.window.toolbar/omni/kit/window/toolbar/builtin_tools/models/select_mode_model.py | # Copyright (c) 2020, NVIDIA CORPORATION. All rights reserved.
#
# NVIDIA CORPORATION and its licensors retain all intellectual property
# and proprietary rights in and to this software, related documentation
# and any modifications thereto. Any use, reproduction, disclosure or
# distribution of this software and related documentation without an express
# license agreement from NVIDIA CORPORATION is strictly prohibited.
#
import omni.kit.app
omni.kit.app.log_deprecation(
'"import omni.kit.window.toolbar.builtin_tools.models.select_mode_model" is deprecated. '
'Please use "import omni.kit.widget.toolbar.builtin_tools.models.select_mode_model"'
)
from omni.kit.widget.toolbar.builtin_tools.models.select_mode_model import * # backward compatible
| 763 | Python | 49.93333 | 99 | 0.794233 |
omniverse-code/kit/exts/omni.kit.window.toolbar/omni/kit/window/toolbar/builtin_tools/models/select_no_kinds_model.py | # Copyright (c) 2023, NVIDIA CORPORATION. All rights reserved.
#
# NVIDIA CORPORATION and its licensors retain all intellectual property
# and proprietary rights in and to this software, related documentation
# and any modifications thereto. Any use, reproduction, disclosure or
# distribution of this software and related documentation without an express
# license agreement from NVIDIA CORPORATION is strictly prohibited.
#
import omni.kit.app
omni.kit.app.log_deprecation(
'"import omni.kit.window.toolbar.builtin_tools.models.select_no_kinds_model" is deprecated. '
'Please use "import omni.kit.widget.toolbar.builtin_tools.models.select_no_kinds_model"'
)
from omni.kit.widget.toolbar.builtin_tools.models.select_no_kinds_model import * # backward compatible
| 775 | Python | 50.73333 | 103 | 0.793548 |
omniverse-code/kit/exts/omni.kit.window.toolbar/omni/kit/window/toolbar/builtin_tools/models/select_include_ref_model.py | # Copyright (c) 2023, NVIDIA CORPORATION. All rights reserved.
#
# NVIDIA CORPORATION and its licensors retain all intellectual property
# and proprietary rights in and to this software, related documentation
# and any modifications thereto. Any use, reproduction, disclosure or
# distribution of this software and related documentation without an express
# license agreement from NVIDIA CORPORATION is strictly prohibited.
#
import omni.kit.app
omni.kit.app.log_deprecation(
'"import omni.kit.window.toolbar.builtin_tools.models.select_include_ref_mode" is deprecated. '
'Please use "import omni.kit.widget.toolbar.builtin_tools.models.select_include_ref_mode"'
)
from omni.kit.widget.toolbar.builtin_tools.models.select_include_ref_model import * # backward compatible
| 783 | Python | 47.999997 | 106 | 0.794381 |
omniverse-code/kit/exts/omni.kit.window.toolbar/omni/kit/window/toolbar/tests/__init__.py | from .test_docking import *
| 28 | Python | 13.499993 | 27 | 0.75 |
omniverse-code/kit/exts/omni.kit.window.toolbar/omni/kit/window/toolbar/tests/test_docking.py | # Copyright (c) 2021, NVIDIA CORPORATION. All rights reserved.
#
# NVIDIA CORPORATION and its licensors retain all intellectual property
# and proprietary rights in and to this software, related documentation
# and any modifications thereto. Any use, reproduction, disclosure or
# distribution of this software and related documentation without an express
# license agreement from NVIDIA CORPORATION is strictly prohibited.
#
import asyncio
import carb.input
import omni.appwindow
import omni.kit.app
import omni.kit.test
import omni.kit.window.toolbar
import omni.ui as ui
import omni.kit.ui_test as ui_test
from omni.ui.tests.test_base import OmniUiTest
from omni.kit.ui_test import emulate_mouse_move, emulate_mouse_move_and_click, Vec2
from omni.kit.ui_test.input import emulate_mouse
from carb.input import MouseEventType
from omni.kit.widget.toolbar.tests.helpers import reset_toolbar_settings
from omni.kit.widget.toolbar import WidgetGroup
GOLDEN_IMAGE_DIR = omni.kit.window.toolbar.get_data_path().joinpath("test", "golden_img").absolute()
class ToolbarDockingTest(OmniUiTest):
async def setUp(self):
await super().setUp()
reset_toolbar_settings()
self._main_dockspace = ui.Workspace.get_window("DockSpace")
self._toolbar_handle = ui.Workspace.get_window(omni.kit.window.toolbar.Toolbar.WINDOW_NAME)
self._toolbar_handle.undock()
# Move mouse to origin
await emulate_mouse_move(Vec2(0, 0))
await ui_test.human_delay(10)
async def test_docking_vertical(self):
"""Test vertical docking behavior."""
self._toolbar_handle.dock_in(self._main_dockspace, ui.DockPosition.LEFT)
await ui_test.human_delay(10)
await self.finalize_test(golden_img_dir=GOLDEN_IMAGE_DIR, golden_img_name="v_dock.png")
async def test_docking_horizontal(self):
"""Test horizontal docking behavior."""
self._toolbar_handle.dock_in(self._main_dockspace, ui.DockPosition.TOP)
await ui_test.human_delay(10)
await self.finalize_test(golden_img_dir=GOLDEN_IMAGE_DIR, golden_img_name="h_dock.png")
async def test_docking_vertical_context_menu(self):
"""Test vertical docking behavior showing context menu."""
self._toolbar_handle.dock_in(self._main_dockspace, ui.DockPosition.LEFT)
await ui_test.human_delay(10)
await emulate_mouse_move_and_click(Vec2(35, 135), right_click=True)
await ui_test.human_delay(10)
await self.finalize_test(golden_img_dir=GOLDEN_IMAGE_DIR, golden_img_name="v_dock_menu.png")
async def test_docking_horizontal_context_menu(self):
"""Test horizontal docking behavior showing context menu."""
self._toolbar_handle.dock_in(self._main_dockspace, ui.DockPosition.TOP)
await ui_test.human_delay(10)
await emulate_mouse_move_and_click(Vec2(125, 35), right_click=True)
await ui_test.human_delay(10)
await self.finalize_test(golden_img_dir=GOLDEN_IMAGE_DIR, golden_img_name="h_dock_menu.png")
async def test_docking_vertical_grab_context_menu(self):
"""Test vertical docking behavior showing grabber context menu."""
self._toolbar_handle.dock_in(self._main_dockspace, ui.DockPosition.LEFT)
await ui_test.human_delay(10)
await emulate_mouse_move_and_click(Vec2(15, 35), right_click=True)
await ui_test.human_delay(10)
# sometimes the menu appears 1 pixel lower than expected
await self.finalize_test(golden_img_dir=GOLDEN_IMAGE_DIR, golden_img_name="v_dock_grab_menu.png", threshold=0.07)
async def test_adding_widget(self):
class TestToolButtonGroup(WidgetGroup):
"""
Test of how to create two ToolButton in one WidgetGroup
"""
def __init__(self):
super().__init__()
def get_style(self):
return {}
def create(self, default_size):
button1 = ui.ToolButton(
name="test1",
width=default_size,
height=default_size,
)
button2 = ui.ToolButton(
name="test2",
width=default_size,
height=default_size,
)
# return a dictionary of name -> widget if you want to expose it to other widget_group
return {"test1": button1, "test2": button2}
widget_group = TestToolButtonGroup()
toolbar = omni.kit.window.toolbar.get_instance()
context = toolbar.acquire_toolbar_context('test')
toolbar.add_widget(widget_group, 100)
await ui_test.human_delay()
self.assertIsNotNone(toolbar.get_widget('test1'))
toolbar.remove_widget(widget_group)
toolbar.add_custom_select_type('test', ['test'])
toolbar.remove_custom_select('test')
self.assertEqual(toolbar.get_context(), 'test')
toolbar.release_toolbar_context(context)
| 5,035 | Python | 37.151515 | 121 | 0.662761 |
omniverse-code/kit/exts/omni.kit.window.toolbar/docs/CHANGELOG.md | # CHANGELOG
This document records all notable changes to ``omni.kit.window.toolbar`` extension.
This project adheres to `Semantic Versioning <https://semver.org/>`.
## [1.4.0] - 2022-11-29
### Changed
- Move part of the code in `omni.kit.widget.toolbar`
## [1.3.3] - 2022-09-26
### Changed
- Updated to use `omni.kit.actions.core` and `omni.kit.hotkeys.core` for hotkeys.
## [1.3.2] - 2022-09-01
### Changed
- Context menu without compatibility mode.
## [1.3.1] - 2022-06-23
### Changed
- Change how hotkey `W` is skipped during possible camera manipulation.
## [1.3.0] - 2022-05-17
### Changed
- Changed Snap button to legacy button. New snap button will be registered by extension.
## [1.2.4] - 2022-04-19
### Fixed
- Slienced menu_changed error on create exit
## [1.2.3] - 2022-04-06
### Fixed
- Message "Failed to acquire interface while unloading all plugins"
## [1.2.1] - 2021-06-22
### Added
- Fixed height of increment settings window
## [1.2.0] - 2021-06-04
### Added
- Moved all built-in toolbutton's flyout menu to use omni.kit.context_menu, making it easier to add additional menu items to exiting button from external extension.
## [1.1.0] - 2021-04-16
### Added
- Added "Context" concept to toolbar that can be used to control the effective scope of tool buttons.
## [1.0.0] - 2021-03-04
### Added
- Started tracking changelog. Added tests.
| 1,368 | Markdown | 26.379999 | 164 | 0.695175 |
omniverse-code/kit/exts/omni.kit.window.toolbar/docs/index.rst | omni.kit.window.toolbar
###########################
Omniverse Kit Toolbar extension
.. toctree::
:maxdepth: 1
CHANGELOG
| 129 | reStructuredText | 11.999999 | 31 | 0.565891 |
omniverse-code/kit/exts/usdrt.gf/python/usdrt/Gf/__init__.py | __copyright__ = "Copyright (c) 2022, NVIDIA CORPORATION. All rights reserved."
__license__ = """
NVIDIA CORPORATION and its licensors retain all intellectual property
and proprietary rights in and to this software, related documentation
and any modifications thereto. Any use, reproduction, disclosure or
distribution of this software and related documentation without an express
license agreement from NVIDIA CORPORATION is strictly prohibited.
"""
from ._Gf import *
| 470 | Python | 41.818178 | 78 | 0.795745 |
omniverse-code/kit/exts/usdrt.gf/python/usdrt/Gf/_Gf.pyi | import usdrt.Gf._Gf
import typing
__all__ = [
"CompDiv",
"CompMult",
"Cross",
"DegreesToRadians",
"Dot",
"GetComplement",
"GetLength",
"GetNormalized",
"GetProjection",
"IsClose",
"Lerp",
"Lerpf",
"Matrix3d",
"Matrix3f",
"Matrix4d",
"Matrix4f",
"Max",
"Min",
"Normalize",
"Quatd",
"Quatf",
"Quath",
"RadiansToDegrees",
"Range1d",
"Range1f",
"Range2d",
"Range2f",
"Range3d",
"Range3f",
"Rect2i",
"Slerp",
"Vec2d",
"Vec2f",
"Vec2h",
"Vec2i",
"Vec3d",
"Vec3f",
"Vec3h",
"Vec3i",
"Vec4d",
"Vec4f",
"Vec4h",
"Vec4i"
]
class Matrix3d():
def GetArrayItem(self, arg0: int) -> float: ...
def GetColumn(self, arg0: int) -> Vec3d: ...
def GetDeterminant(self) -> float: ...
def GetHandedness(self) -> int: ...
def GetInverse(self) -> Matrix3d: ...
def GetOrthonormalized(self) -> Matrix3d: ...
def GetRow(self, arg0: int) -> Vec3d: ...
def GetTranspose(self) -> Matrix3d: ...
def IsLeftHanded(self) -> bool: ...
def IsRightHanded(self) -> bool: ...
def Orthonormalize(self) -> bool: ...
def Set(self, arg0: float, arg1: float, arg2: float, arg3: float, arg4: float, arg5: float, arg6: float, arg7: float, arg8: float) -> Matrix3d: ...
def SetArrayItem(self, arg0: int, arg1: float) -> None: ...
def SetColumn(self, arg0: int, arg1: Vec3d) -> None: ...
@typing.overload
def SetDiagonal(self, arg0: Vec3d) -> Matrix3d: ...
@typing.overload
def SetDiagonal(self, arg0: float) -> Matrix3d: ...
def SetIdentity(self) -> Matrix3d: ...
def SetRow(self, arg0: int, arg1: Vec3d) -> None: ...
def SetZero(self) -> Matrix3d: ...
def __add__(self, arg0: Matrix3d) -> Matrix3d: ...
def __contains__(self, arg0: float) -> bool: ...
def __copy__(self) -> Matrix3d: ...
def __deepcopy__(self, memo: dict) -> Matrix3d: ...
@staticmethod
@typing.overload
def __eq__(*args, **kwargs) -> typing.Any: ...
@typing.overload
def __eq__(self, arg0: Matrix3d) -> bool: ...
@typing.overload
def __getitem__(self, arg0: int) -> Vec3d: ...
@typing.overload
def __getitem__(self, arg0: tuple) -> float: ...
def __iadd__(self, arg0: Matrix3d) -> Matrix3d: ...
def __imul__(self, arg0: float) -> Matrix3d: ...
@staticmethod
@typing.overload
def __init__(*args, **kwargs) -> typing.Any: ...
@typing.overload
def __init__(self) -> None: ...
@typing.overload
def __init__(self, arg0: Matrix3d) -> None: ...
@typing.overload
def __init__(self, arg0: Vec3d) -> None: ...
@typing.overload
def __init__(self, arg0: buffer) -> None: ...
@typing.overload
def __init__(self, arg0: float) -> None: ...
@typing.overload
def __init__(self, arg0: float, arg1: float, arg2: float, arg3: float, arg4: float, arg5: float, arg6: float, arg7: float, arg8: float) -> None: ...
def __isub__(self, arg0: Matrix3d) -> Matrix3d: ...
def __len__(self) -> int: ...
@typing.overload
def __mul__(self, arg0: Matrix3d) -> Matrix3d: ...
@typing.overload
def __mul__(self, arg0: Vec3d) -> Vec3d: ...
@typing.overload
def __mul__(self, arg0: Vec3f) -> Vec3f: ...
@typing.overload
def __mul__(self, arg0: float) -> Matrix3d: ...
@staticmethod
@typing.overload
def __ne__(*args, **kwargs) -> typing.Any: ...
@typing.overload
def __ne__(self, arg0: Matrix3d) -> bool: ...
def __neg__(self) -> Matrix3d: ...
def __repr__(self) -> str: ...
@typing.overload
def __rmul__(self, arg0: Vec3d) -> Vec3d: ...
@typing.overload
def __rmul__(self, arg0: Vec3f) -> Vec3f: ...
@typing.overload
def __rmul__(self, arg0: float) -> Matrix3d: ...
@typing.overload
def __setitem__(self, arg0: int, arg1: Vec3d) -> None: ...
@typing.overload
def __setitem__(self, arg0: tuple, arg1: float) -> None: ...
def __str__(self) -> str: ...
def __sub__(self, arg0: Matrix3d) -> Matrix3d: ...
def __truediv__(self, arg0: Matrix3d) -> Matrix3d: ...
__hash__ = None
dimension = (3, 3)
pass
class Matrix3f():
def GetArrayItem(self, arg0: int) -> float: ...
def GetColumn(self, arg0: int) -> Vec3f: ...
def GetDeterminant(self) -> float: ...
def GetHandedness(self) -> int: ...
def GetInverse(self) -> Matrix3f: ...
def GetOrthonormalized(self) -> Matrix3f: ...
def GetRow(self, arg0: int) -> Vec3f: ...
def GetTranspose(self) -> Matrix3f: ...
def IsLeftHanded(self) -> bool: ...
def IsRightHanded(self) -> bool: ...
def Orthonormalize(self) -> bool: ...
def Set(self, arg0: float, arg1: float, arg2: float, arg3: float, arg4: float, arg5: float, arg6: float, arg7: float, arg8: float) -> Matrix3f: ...
def SetArrayItem(self, arg0: int, arg1: float) -> None: ...
def SetColumn(self, arg0: int, arg1: Vec3f) -> None: ...
@typing.overload
def SetDiagonal(self, arg0: Vec3f) -> Matrix3f: ...
@typing.overload
def SetDiagonal(self, arg0: float) -> Matrix3f: ...
def SetIdentity(self) -> Matrix3f: ...
def SetRow(self, arg0: int, arg1: Vec3f) -> None: ...
def SetZero(self) -> Matrix3f: ...
def __add__(self, arg0: Matrix3f) -> Matrix3f: ...
def __contains__(self, arg0: float) -> bool: ...
def __copy__(self) -> Matrix3f: ...
def __deepcopy__(self, memo: dict) -> Matrix3f: ...
@typing.overload
def __eq__(self, arg0: Matrix3d) -> bool: ...
@typing.overload
def __eq__(self, arg0: Matrix3f) -> bool: ...
@typing.overload
def __getitem__(self, arg0: int) -> Vec3f: ...
@typing.overload
def __getitem__(self, arg0: tuple) -> float: ...
def __iadd__(self, arg0: Matrix3f) -> Matrix3f: ...
def __imul__(self, arg0: float) -> Matrix3f: ...
@typing.overload
def __init__(self) -> None: ...
@typing.overload
def __init__(self, arg0: Matrix3d) -> None: ...
@typing.overload
def __init__(self, arg0: Matrix3f) -> None: ...
@typing.overload
def __init__(self, arg0: Vec3f) -> None: ...
@typing.overload
def __init__(self, arg0: buffer) -> None: ...
@typing.overload
def __init__(self, arg0: float) -> None: ...
@typing.overload
def __init__(self, arg0: float, arg1: float, arg2: float, arg3: float, arg4: float, arg5: float, arg6: float, arg7: float, arg8: float) -> None: ...
def __isub__(self, arg0: Matrix3f) -> Matrix3f: ...
def __len__(self) -> int: ...
@typing.overload
def __mul__(self, arg0: Matrix3f) -> Matrix3f: ...
@typing.overload
def __mul__(self, arg0: Vec3f) -> Vec3f: ...
@typing.overload
def __mul__(self, arg0: float) -> Matrix3f: ...
@typing.overload
def __ne__(self, arg0: Matrix3d) -> bool: ...
@typing.overload
def __ne__(self, arg0: Matrix3f) -> bool: ...
def __neg__(self) -> Matrix3f: ...
def __repr__(self) -> str: ...
@typing.overload
def __rmul__(self, arg0: Vec3f) -> Vec3f: ...
@typing.overload
def __rmul__(self, arg0: float) -> Matrix3f: ...
@typing.overload
def __setitem__(self, arg0: int, arg1: Vec3f) -> None: ...
@typing.overload
def __setitem__(self, arg0: tuple, arg1: float) -> None: ...
def __str__(self) -> str: ...
def __sub__(self, arg0: Matrix3f) -> Matrix3f: ...
def __truediv__(self, arg0: Matrix3f) -> Matrix3f: ...
__hash__ = None
dimension = (3, 3)
pass
class Matrix4d():
@staticmethod
def ExtractRotation(*args, **kwargs) -> typing.Any: ...
@staticmethod
def ExtractRotationMatrix(*args, **kwargs) -> typing.Any: ...
def ExtractTranslation(self) -> Vec3d: ...
def GetArrayItem(self, arg0: int) -> float: ...
def GetColumn(self, arg0: int) -> Vec4d: ...
def GetDeterminant(self) -> float: ...
def GetDeterminant3(self) -> float: ...
def GetHandedness(self) -> int: ...
def GetInverse(self) -> Matrix4d: ...
def GetOrthonormalized(self) -> Matrix4d: ...
def GetRow(self, arg0: int) -> Vec4d: ...
def GetRow3(self, arg0: int) -> Vec3d: ...
def GetTranspose(self) -> Matrix4d: ...
def IsLeftHanded(self) -> bool: ...
def IsRightHanded(self) -> bool: ...
def Orthonormalize(self) -> bool: ...
def RemoveScaleShear(self) -> Matrix4d: ...
def Set(self, arg0: float, arg1: float, arg2: float, arg3: float, arg4: float, arg5: float, arg6: float, arg7: float, arg8: float, arg9: float, arg10: float, arg11: float, arg12: float, arg13: float, arg14: float, arg15: float) -> Matrix4d: ...
def SetArrayItem(self, arg0: int, arg1: float) -> None: ...
def SetColumn(self, arg0: int, arg1: Vec4d) -> None: ...
@typing.overload
def SetDiagonal(self, arg0: Vec4d) -> Matrix4d: ...
@typing.overload
def SetDiagonal(self, arg0: float) -> Matrix4d: ...
def SetIdentity(self) -> Matrix4d: ...
def SetLookAt(self, arg0: Vec3d, arg1: Vec3d, arg2: Vec3d) -> Matrix4d: ...
@staticmethod
def SetRotate(*args, **kwargs) -> typing.Any: ...
@staticmethod
def SetRotateOnly(*args, **kwargs) -> typing.Any: ...
def SetRow(self, arg0: int, arg1: Vec4d) -> None: ...
def SetRow3(self, arg0: int, arg1: Vec3d) -> None: ...
@typing.overload
def SetScale(self, arg0: Vec3d) -> Matrix4d: ...
@typing.overload
def SetScale(self, arg0: float) -> Matrix4d: ...
def SetTranslate(self, arg0: Vec3d) -> Matrix4d: ...
def SetTranslateOnly(self, arg0: Vec3d) -> Matrix4d: ...
def SetZero(self) -> Matrix4d: ...
@typing.overload
def Transform(self, arg0: Vec3d) -> Vec3d: ...
@typing.overload
def Transform(self, arg0: Vec3f) -> Vec3f: ...
@typing.overload
def TransformAffine(self, arg0: Vec3d) -> Vec3d: ...
@typing.overload
def TransformAffine(self, arg0: Vec3f) -> Vec3f: ...
@typing.overload
def TransformDir(self, arg0: Vec3d) -> Vec3d: ...
@typing.overload
def TransformDir(self, arg0: Vec3f) -> Vec3f: ...
def __add__(self, arg0: Matrix4d) -> Matrix4d: ...
def __contains__(self, arg0: float) -> bool: ...
def __copy__(self) -> Matrix4d: ...
def __deepcopy__(self, memo: dict) -> Matrix4d: ...
@staticmethod
@typing.overload
def __eq__(*args, **kwargs) -> typing.Any: ...
@typing.overload
def __eq__(self, arg0: Matrix4d) -> bool: ...
@typing.overload
def __getitem__(self, arg0: int) -> Vec4d: ...
@typing.overload
def __getitem__(self, arg0: tuple) -> float: ...
def __iadd__(self, arg0: Matrix4d) -> Matrix4d: ...
def __imul__(self, arg0: float) -> Matrix4d: ...
@staticmethod
@typing.overload
def __init__(*args, **kwargs) -> typing.Any: ...
@typing.overload
def __init__(self) -> None: ...
@typing.overload
def __init__(self, arg0: Matrix4d) -> None: ...
@typing.overload
def __init__(self, arg0: Vec4d) -> None: ...
@typing.overload
def __init__(self, arg0: buffer) -> None: ...
@typing.overload
def __init__(self, arg0: float) -> None: ...
@typing.overload
def __init__(self, arg0: float, arg1: float, arg2: float, arg3: float, arg4: float, arg5: float, arg6: float, arg7: float, arg8: float, arg9: float, arg10: float, arg11: float, arg12: float, arg13: float, arg14: float, arg15: float) -> None: ...
def __isub__(self, arg0: Matrix4d) -> Matrix4d: ...
def __len__(self) -> int: ...
@typing.overload
def __mul__(self, arg0: Matrix4d) -> Matrix4d: ...
@typing.overload
def __mul__(self, arg0: Vec4d) -> Vec4d: ...
@typing.overload
def __mul__(self, arg0: Vec4f) -> Vec4f: ...
@typing.overload
def __mul__(self, arg0: float) -> Matrix4d: ...
@staticmethod
@typing.overload
def __ne__(*args, **kwargs) -> typing.Any: ...
@typing.overload
def __ne__(self, arg0: Matrix4d) -> bool: ...
def __neg__(self) -> Matrix4d: ...
def __repr__(self) -> str: ...
@typing.overload
def __rmul__(self, arg0: Vec4d) -> Vec4d: ...
@typing.overload
def __rmul__(self, arg0: Vec4f) -> Vec4f: ...
@typing.overload
def __rmul__(self, arg0: float) -> Matrix4d: ...
@typing.overload
def __setitem__(self, arg0: int, arg1: Vec4d) -> None: ...
@typing.overload
def __setitem__(self, arg0: tuple, arg1: float) -> None: ...
def __str__(self) -> str: ...
def __sub__(self, arg0: Matrix4d) -> Matrix4d: ...
def __truediv__(self, arg0: Matrix4d) -> Matrix4d: ...
__hash__ = None
dimension = (4, 4)
pass
class Matrix4f():
@staticmethod
def ExtractRotation(*args, **kwargs) -> typing.Any: ...
@staticmethod
def ExtractRotationMatrix(*args, **kwargs) -> typing.Any: ...
def ExtractTranslation(self) -> Vec3f: ...
def GetArrayItem(self, arg0: int) -> float: ...
def GetColumn(self, arg0: int) -> Vec4f: ...
def GetDeterminant(self) -> float: ...
def GetDeterminant3(self) -> float: ...
def GetHandedness(self) -> int: ...
def GetInverse(self) -> Matrix4f: ...
def GetOrthonormalized(self) -> Matrix4f: ...
def GetRow(self, arg0: int) -> Vec4f: ...
def GetRow3(self, arg0: int) -> Vec3f: ...
def GetTranspose(self) -> Matrix4f: ...
def IsLeftHanded(self) -> bool: ...
def IsRightHanded(self) -> bool: ...
def Orthonormalize(self) -> bool: ...
def RemoveScaleShear(self) -> Matrix4f: ...
def Set(self, arg0: float, arg1: float, arg2: float, arg3: float, arg4: float, arg5: float, arg6: float, arg7: float, arg8: float, arg9: float, arg10: float, arg11: float, arg12: float, arg13: float, arg14: float, arg15: float) -> Matrix4f: ...
def SetArrayItem(self, arg0: int, arg1: float) -> None: ...
def SetColumn(self, arg0: int, arg1: Vec4f) -> None: ...
@typing.overload
def SetDiagonal(self, arg0: Vec4f) -> Matrix4f: ...
@typing.overload
def SetDiagonal(self, arg0: float) -> Matrix4f: ...
def SetIdentity(self) -> Matrix4f: ...
def SetLookAt(self, arg0: Vec3f, arg1: Vec3f, arg2: Vec3f) -> Matrix4f: ...
@staticmethod
def SetRotate(*args, **kwargs) -> typing.Any: ...
@staticmethod
def SetRotateOnly(*args, **kwargs) -> typing.Any: ...
def SetRow(self, arg0: int, arg1: Vec4f) -> None: ...
def SetRow3(self, arg0: int, arg1: Vec3f) -> None: ...
@typing.overload
def SetScale(self, arg0: Vec3f) -> Matrix4f: ...
@typing.overload
def SetScale(self, arg0: float) -> Matrix4f: ...
def SetTranslate(self, arg0: Vec3f) -> Matrix4f: ...
def SetTranslateOnly(self, arg0: Vec3f) -> Matrix4f: ...
def SetZero(self) -> Matrix4f: ...
@typing.overload
def Transform(self, arg0: Vec3d) -> Vec3d: ...
@typing.overload
def Transform(self, arg0: Vec3f) -> Vec3f: ...
@typing.overload
def TransformAffine(self, arg0: Vec3d) -> Vec3d: ...
@typing.overload
def TransformAffine(self, arg0: Vec3f) -> Vec3f: ...
@typing.overload
def TransformDir(self, arg0: Vec3d) -> Vec3d: ...
@typing.overload
def TransformDir(self, arg0: Vec3f) -> Vec3f: ...
def __add__(self, arg0: Matrix4f) -> Matrix4f: ...
def __contains__(self, arg0: float) -> bool: ...
def __copy__(self) -> Matrix4f: ...
def __deepcopy__(self, memo: dict) -> Matrix4f: ...
@typing.overload
def __eq__(self, arg0: Matrix4d) -> bool: ...
@typing.overload
def __eq__(self, arg0: Matrix4f) -> bool: ...
@typing.overload
def __getitem__(self, arg0: int) -> Vec4f: ...
@typing.overload
def __getitem__(self, arg0: tuple) -> float: ...
def __iadd__(self, arg0: Matrix4f) -> Matrix4f: ...
def __imul__(self, arg0: float) -> Matrix4f: ...
@typing.overload
def __init__(self) -> None: ...
@typing.overload
def __init__(self, arg0: Matrix4d) -> None: ...
@typing.overload
def __init__(self, arg0: Matrix4f) -> None: ...
@typing.overload
def __init__(self, arg0: Vec4f) -> None: ...
@typing.overload
def __init__(self, arg0: buffer) -> None: ...
@typing.overload
def __init__(self, arg0: float) -> None: ...
@typing.overload
def __init__(self, arg0: float, arg1: float, arg2: float, arg3: float, arg4: float, arg5: float, arg6: float, arg7: float, arg8: float, arg9: float, arg10: float, arg11: float, arg12: float, arg13: float, arg14: float, arg15: float) -> None: ...
def __isub__(self, arg0: Matrix4f) -> Matrix4f: ...
def __len__(self) -> int: ...
@typing.overload
def __mul__(self, arg0: Matrix4f) -> Matrix4f: ...
@typing.overload
def __mul__(self, arg0: Vec4f) -> Vec4f: ...
@typing.overload
def __mul__(self, arg0: float) -> Matrix4f: ...
@typing.overload
def __ne__(self, arg0: Matrix4d) -> bool: ...
@typing.overload
def __ne__(self, arg0: Matrix4f) -> bool: ...
def __neg__(self) -> Matrix4f: ...
def __repr__(self) -> str: ...
@typing.overload
def __rmul__(self, arg0: Vec4f) -> Vec4f: ...
@typing.overload
def __rmul__(self, arg0: float) -> Matrix4f: ...
@typing.overload
def __setitem__(self, arg0: int, arg1: Vec4f) -> None: ...
@typing.overload
def __setitem__(self, arg0: tuple, arg1: float) -> None: ...
def __str__(self) -> str: ...
def __sub__(self, arg0: Matrix4f) -> Matrix4f: ...
def __truediv__(self, arg0: Matrix4f) -> Matrix4f: ...
__hash__ = None
dimension = (4, 4)
pass
class Quatd():
def Dot(self, arg0: Quatd) -> float: ...
def GetConjugate(self) -> Quatd: ...
@staticmethod
def GetIdentity() -> Quatd: ...
def GetImaginary(self) -> Vec3d: ...
def GetInverse(self) -> Quatd: ...
def GetLength(self) -> float: ...
def GetLengthSq(self) -> float: ...
def GetNormalized(self) -> Quatd: ...
def GetReal(self) -> float: ...
def Normalize(self) -> float: ...
@typing.overload
def SetImaginary(self, i: float, j: float, k: float) -> None: ...
@typing.overload
def SetImaginary(self, imaginary: Vec3d) -> None: ...
def SetReal(self, real: float) -> None: ...
def Transform(self, point: Vec3d) -> Vec3d: ...
def __add__(self, arg0: Quatd) -> Quatd: ...
def __copy__(self) -> Quatd: ...
def __deepcopy__(self, memo: dict) -> Quatd: ...
def __eq__(self, arg0: Quatd) -> bool: ...
@typing.overload
def __getitem__(self, arg0: int) -> float: ...
@typing.overload
def __getitem__(self, arg0: slice) -> typing.List[float]: ...
def __iadd__(self, arg0: Quatd) -> Quatd: ...
@typing.overload
def __imul__(self, arg0: Quatd) -> Quatd: ...
@typing.overload
def __imul__(self, arg0: float) -> Quatd: ...
@staticmethod
@typing.overload
def __init__(*args, **kwargs) -> typing.Any: ...
@typing.overload
def __init__(self) -> None: ...
@typing.overload
def __init__(self, arg0: Quatd) -> None: ...
@typing.overload
def __init__(self, arg0: buffer) -> None: ...
@typing.overload
def __init__(self, arg0: float) -> None: ...
@typing.overload
def __init__(self, arg0: float, arg1: Vec3d) -> None: ...
@typing.overload
def __init__(self, arg0: float, arg1: float, arg2: float, arg3: float) -> None: ...
@typing.overload
def __init__(self, arg0: float, arg1: typing.Tuple[float, float, float]) -> None: ...
def __isub__(self, arg0: Quatd) -> Quatd: ...
def __itruediv__(self, arg0: float) -> Quatd: ...
def __len__(self) -> int: ...
@typing.overload
def __mul__(self, arg0: Quatd) -> Quatd: ...
@typing.overload
def __mul__(self, arg0: float) -> Quatd: ...
def __ne__(self, arg0: Quatd) -> bool: ...
def __neg__(self) -> Quatd: ...
def __repr__(self) -> str: ...
def __rmul__(self, arg0: float) -> Quatd: ...
@typing.overload
def __setitem__(self, arg0: int, arg1: float) -> None: ...
@typing.overload
def __setitem__(self, arg0: slice, arg1: sequence) -> None: ...
def __str__(self) -> str: ...
def __sub__(self, arg0: Quatd) -> Quatd: ...
def __truediv__(self, arg0: float) -> Quatd: ...
@property
def imaginary(self) -> Vec3d:
"""
:type: Vec3d
"""
@imaginary.setter
def imaginary(self, arg1: Vec3d) -> None:
pass
@property
def real(self) -> float:
"""
:type: float
"""
@real.setter
def real(self, arg1: float) -> None:
pass
__hash__ = None
pass
class Quatf():
def Dot(self, arg0: Quatf) -> float: ...
def GetConjugate(self) -> Quatf: ...
@staticmethod
def GetIdentity() -> Quatf: ...
def GetImaginary(self) -> Vec3f: ...
def GetInverse(self) -> Quatf: ...
def GetLength(self) -> float: ...
def GetLengthSq(self) -> float: ...
def GetNormalized(self) -> Quatf: ...
def GetReal(self) -> float: ...
def Normalize(self) -> float: ...
@typing.overload
def SetImaginary(self, i: float, j: float, k: float) -> None: ...
@typing.overload
def SetImaginary(self, imaginary: Vec3f) -> None: ...
def SetReal(self, real: float) -> None: ...
def Transform(self, point: Vec3f) -> Vec3f: ...
def __add__(self, arg0: Quatf) -> Quatf: ...
def __copy__(self) -> Quatf: ...
def __deepcopy__(self, memo: dict) -> Quatf: ...
def __eq__(self, arg0: Quatf) -> bool: ...
@typing.overload
def __getitem__(self, arg0: int) -> float: ...
@typing.overload
def __getitem__(self, arg0: slice) -> typing.List[float]: ...
def __iadd__(self, arg0: Quatf) -> Quatf: ...
@typing.overload
def __imul__(self, arg0: Quatf) -> Quatf: ...
@typing.overload
def __imul__(self, arg0: float) -> Quatf: ...
@staticmethod
@typing.overload
def __init__(*args, **kwargs) -> typing.Any: ...
@typing.overload
def __init__(self) -> None: ...
@typing.overload
def __init__(self, arg0: Quatd) -> None: ...
@typing.overload
def __init__(self, arg0: Quatf) -> None: ...
@typing.overload
def __init__(self, arg0: buffer) -> None: ...
@typing.overload
def __init__(self, arg0: float) -> None: ...
@typing.overload
def __init__(self, arg0: float, arg1: Vec3f) -> None: ...
@typing.overload
def __init__(self, arg0: float, arg1: float, arg2: float, arg3: float) -> None: ...
@typing.overload
def __init__(self, arg0: float, arg1: typing.Tuple[float, float, float]) -> None: ...
def __isub__(self, arg0: Quatf) -> Quatf: ...
def __itruediv__(self, arg0: float) -> Quatf: ...
def __len__(self) -> int: ...
@typing.overload
def __mul__(self, arg0: Quatf) -> Quatf: ...
@typing.overload
def __mul__(self, arg0: float) -> Quatf: ...
def __ne__(self, arg0: Quatf) -> bool: ...
def __neg__(self) -> Quatf: ...
def __repr__(self) -> str: ...
def __rmul__(self, arg0: float) -> Quatf: ...
@typing.overload
def __setitem__(self, arg0: int, arg1: float) -> None: ...
@typing.overload
def __setitem__(self, arg0: slice, arg1: sequence) -> None: ...
def __str__(self) -> str: ...
def __sub__(self, arg0: Quatf) -> Quatf: ...
def __truediv__(self, arg0: float) -> Quatf: ...
@property
def imaginary(self) -> Vec3f:
"""
:type: Vec3f
"""
@imaginary.setter
def imaginary(self, arg1: Vec3f) -> None:
pass
@property
def real(self) -> float:
"""
:type: float
"""
@real.setter
def real(self, arg1: float) -> None:
pass
__hash__ = None
pass
class Quath():
def Dot(self, arg0: Quath) -> GfHalf: ...
def GetConjugate(self) -> Quath: ...
@staticmethod
def GetIdentity() -> Quath: ...
def GetImaginary(self) -> Vec3h: ...
def GetInverse(self) -> Quath: ...
def GetLength(self) -> float: ...
def GetLengthSq(self) -> GfHalf: ...
def GetNormalized(self) -> Quath: ...
def GetReal(self) -> GfHalf: ...
def Normalize(self) -> float: ...
@typing.overload
def SetImaginary(self, i: GfHalf, j: GfHalf, k: GfHalf) -> None: ...
@typing.overload
def SetImaginary(self, imaginary: Vec3h) -> None: ...
def SetReal(self, real: GfHalf) -> None: ...
def Transform(self, point: Vec3h) -> Vec3h: ...
def __add__(self, arg0: Quath) -> Quath: ...
def __copy__(self) -> Quath: ...
def __deepcopy__(self, memo: dict) -> Quath: ...
def __eq__(self, arg0: Quath) -> bool: ...
@typing.overload
def __getitem__(self, arg0: int) -> GfHalf: ...
@typing.overload
def __getitem__(self, arg0: slice) -> typing.List[GfHalf]: ...
def __iadd__(self, arg0: Quath) -> Quath: ...
@typing.overload
def __imul__(self, arg0: GfHalf) -> Quath: ...
@typing.overload
def __imul__(self, arg0: Quath) -> Quath: ...
@typing.overload
def __init__(self) -> None: ...
@typing.overload
def __init__(self, arg0: GfHalf) -> None: ...
@typing.overload
def __init__(self, arg0: GfHalf, arg1: GfHalf, arg2: GfHalf, arg3: GfHalf) -> None: ...
@typing.overload
def __init__(self, arg0: GfHalf, arg1: Vec3h) -> None: ...
@typing.overload
def __init__(self, arg0: GfHalf, arg1: typing.Tuple[GfHalf, GfHalf, GfHalf]) -> None: ...
@typing.overload
def __init__(self, arg0: Quatd) -> None: ...
@typing.overload
def __init__(self, arg0: Quatf) -> None: ...
@typing.overload
def __init__(self, arg0: Quath) -> None: ...
@typing.overload
def __init__(self, arg0: buffer) -> None: ...
def __isub__(self, arg0: Quath) -> Quath: ...
def __itruediv__(self, arg0: GfHalf) -> Quath: ...
def __len__(self) -> int: ...
@typing.overload
def __mul__(self, arg0: GfHalf) -> Quath: ...
@typing.overload
def __mul__(self, arg0: Quath) -> Quath: ...
def __ne__(self, arg0: Quath) -> bool: ...
def __neg__(self) -> Quath: ...
def __repr__(self) -> str: ...
def __rmul__(self, arg0: GfHalf) -> Quath: ...
@typing.overload
def __setitem__(self, arg0: int, arg1: GfHalf) -> None: ...
@typing.overload
def __setitem__(self, arg0: slice, arg1: sequence) -> None: ...
def __str__(self) -> str: ...
def __sub__(self, arg0: Quath) -> Quath: ...
def __truediv__(self, arg0: GfHalf) -> Quath: ...
@property
def imaginary(self) -> Vec3h:
"""
:type: Vec3h
"""
@imaginary.setter
def imaginary(self, arg1: Vec3h) -> None:
pass
@property
def real(self) -> GfHalf:
"""
:type: GfHalf
"""
@real.setter
def real(self, arg1: GfHalf) -> None:
pass
__hash__ = None
pass
class Range1d():
@typing.overload
def Contains(self, arg0: Range1d) -> bool: ...
@typing.overload
def Contains(self, arg0: float) -> bool: ...
def GetDistanceSquared(self, arg0: float) -> float: ...
@staticmethod
def GetIntersection(arg0: Range1d, arg1: Range1d) -> Range1d: ...
def GetMax(self) -> float: ...
def GetMidpoint(self) -> float: ...
def GetMin(self) -> float: ...
def GetSize(self) -> float: ...
@staticmethod
def GetUnion(arg0: Range1d, arg1: Range1d) -> Range1d: ...
def IntersectWith(self, arg0: Range1d) -> Range1d: ...
def IsEmpty(self) -> bool: ...
def SetEmpty(self) -> None: ...
def SetMax(self, arg0: float) -> None: ...
def SetMin(self, arg0: float) -> None: ...
@typing.overload
def UnionWith(self, arg0: Range1d) -> Range1d: ...
@typing.overload
def UnionWith(self, arg0: float) -> Range1d: ...
def __add__(self, arg0: Range1d) -> Range1d: ...
def __copy__(self) -> Range1d: ...
def __deepcopy__(self, memo: dict) -> Range1d: ...
def __eq__(self, arg0: Range1d) -> bool: ...
def __iadd__(self, arg0: Range1d) -> Range1d: ...
def __imul__(self, arg0: float) -> Range1d: ...
@typing.overload
def __init__(self) -> None: ...
@typing.overload
def __init__(self, arg0: Range1d) -> None: ...
@typing.overload
def __init__(self, arg0: float) -> None: ...
@typing.overload
def __init__(self, arg0: float, arg1: float) -> None: ...
def __isub__(self, arg0: Range1d) -> Range1d: ...
def __itruediv__(self, arg0: float) -> Range1d: ...
def __mul__(self, arg0: float) -> Range1d: ...
def __ne__(self, arg0: Range1d) -> bool: ...
def __repr__(self) -> str: ...
def __rmul__(self, arg0: float) -> Range1d: ...
def __str__(self) -> str: ...
def __sub__(self, arg0: Range1d) -> Range1d: ...
def __truediv__(self, arg0: float) -> Range1d: ...
@property
def max(self) -> float:
"""
:type: float
"""
@max.setter
def max(self, arg1: float) -> None:
pass
@property
def min(self) -> float:
"""
:type: float
"""
@min.setter
def min(self, arg1: float) -> None:
pass
__hash__ = None
pass
class Range1f():
@typing.overload
def Contains(self, arg0: Range1f) -> bool: ...
@typing.overload
def Contains(self, arg0: float) -> bool: ...
def GetDistanceSquared(self, arg0: float) -> float: ...
@staticmethod
def GetIntersection(arg0: Range1f, arg1: Range1f) -> Range1f: ...
def GetMax(self) -> float: ...
def GetMidpoint(self) -> float: ...
def GetMin(self) -> float: ...
def GetSize(self) -> float: ...
@staticmethod
def GetUnion(arg0: Range1f, arg1: Range1f) -> Range1f: ...
def IntersectWith(self, arg0: Range1f) -> Range1f: ...
def IsEmpty(self) -> bool: ...
def SetEmpty(self) -> None: ...
def SetMax(self, arg0: float) -> None: ...
def SetMin(self, arg0: float) -> None: ...
@typing.overload
def UnionWith(self, arg0: Range1f) -> Range1f: ...
@typing.overload
def UnionWith(self, arg0: float) -> Range1f: ...
def __add__(self, arg0: Range1f) -> Range1f: ...
def __copy__(self) -> Range1f: ...
def __deepcopy__(self, memo: dict) -> Range1f: ...
def __eq__(self, arg0: Range1f) -> bool: ...
def __iadd__(self, arg0: Range1f) -> Range1f: ...
def __imul__(self, arg0: float) -> Range1f: ...
@typing.overload
def __init__(self) -> None: ...
@typing.overload
def __init__(self, arg0: Range1f) -> None: ...
@typing.overload
def __init__(self, arg0: float) -> None: ...
@typing.overload
def __init__(self, arg0: float, arg1: float) -> None: ...
def __isub__(self, arg0: Range1f) -> Range1f: ...
def __itruediv__(self, arg0: float) -> Range1f: ...
def __mul__(self, arg0: float) -> Range1f: ...
def __ne__(self, arg0: Range1f) -> bool: ...
def __repr__(self) -> str: ...
def __rmul__(self, arg0: float) -> Range1f: ...
def __str__(self) -> str: ...
def __sub__(self, arg0: Range1f) -> Range1f: ...
def __truediv__(self, arg0: float) -> Range1f: ...
@property
def max(self) -> float:
"""
:type: float
"""
@max.setter
def max(self, arg1: float) -> None:
pass
@property
def min(self) -> float:
"""
:type: float
"""
@min.setter
def min(self, arg1: float) -> None:
pass
__hash__ = None
pass
class Range2d():
@typing.overload
def Contains(self, arg0: Range2d) -> bool: ...
@typing.overload
def Contains(self, arg0: Vec2d) -> bool: ...
def GetCorner(self, arg0: int) -> Vec2d: ...
def GetDistanceSquared(self, arg0: Vec2d) -> float: ...
@staticmethod
def GetIntersection(arg0: Range2d, arg1: Range2d) -> Range2d: ...
def GetMax(self) -> Vec2d: ...
def GetMidpoint(self) -> Vec2d: ...
def GetMin(self) -> Vec2d: ...
def GetQuadrant(self, arg0: int) -> Range2d: ...
def GetSize(self) -> Vec2d: ...
@staticmethod
def GetUnion(arg0: Range2d, arg1: Range2d) -> Range2d: ...
def IntersectWith(self, arg0: Range2d) -> Range2d: ...
def IsEmpty(self) -> bool: ...
def SetEmpty(self) -> None: ...
def SetMax(self, arg0: Vec2d) -> None: ...
def SetMin(self, arg0: Vec2d) -> None: ...
@typing.overload
def UnionWith(self, arg0: Range2d) -> Range2d: ...
@typing.overload
def UnionWith(self, arg0: Vec2d) -> Range2d: ...
def __add__(self, arg0: Range2d) -> Range2d: ...
def __copy__(self) -> Range2d: ...
def __deepcopy__(self, memo: dict) -> Range2d: ...
def __eq__(self, arg0: Range2d) -> bool: ...
def __iadd__(self, arg0: Range2d) -> Range2d: ...
def __imul__(self, arg0: float) -> Range2d: ...
@typing.overload
def __init__(self) -> None: ...
@typing.overload
def __init__(self, arg0: Range2d) -> None: ...
@typing.overload
def __init__(self, arg0: Vec2d, arg1: Vec2d) -> None: ...
@typing.overload
def __init__(self, arg0: float) -> None: ...
def __isub__(self, arg0: Range2d) -> Range2d: ...
def __itruediv__(self, arg0: float) -> Range2d: ...
def __mul__(self, arg0: float) -> Range2d: ...
def __ne__(self, arg0: Range2d) -> bool: ...
def __repr__(self) -> str: ...
def __rmul__(self, arg0: float) -> Range2d: ...
def __str__(self) -> str: ...
def __sub__(self, arg0: Range2d) -> Range2d: ...
def __truediv__(self, arg0: float) -> Range2d: ...
@staticmethod
def unitSquare() -> Range2d: ...
@property
def max(self) -> Vec2d:
"""
:type: Vec2d
"""
@max.setter
def max(self, arg1: Vec2d) -> None:
pass
@property
def min(self) -> Vec2d:
"""
:type: Vec2d
"""
@min.setter
def min(self, arg1: Vec2d) -> None:
pass
__hash__ = None
pass
class Range2f():
@typing.overload
def Contains(self, arg0: Range2f) -> bool: ...
@typing.overload
def Contains(self, arg0: Vec2f) -> bool: ...
def GetCorner(self, arg0: int) -> Vec2f: ...
def GetDistanceSquared(self, arg0: Vec2f) -> float: ...
@staticmethod
def GetIntersection(arg0: Range2f, arg1: Range2f) -> Range2f: ...
def GetMax(self) -> Vec2f: ...
def GetMidpoint(self) -> Vec2f: ...
def GetMin(self) -> Vec2f: ...
def GetQuadrant(self, arg0: int) -> Range2f: ...
def GetSize(self) -> Vec2f: ...
@staticmethod
def GetUnion(arg0: Range2f, arg1: Range2f) -> Range2f: ...
def IntersectWith(self, arg0: Range2f) -> Range2f: ...
def IsEmpty(self) -> bool: ...
def SetEmpty(self) -> None: ...
def SetMax(self, arg0: Vec2f) -> None: ...
def SetMin(self, arg0: Vec2f) -> None: ...
@typing.overload
def UnionWith(self, arg0: Range2f) -> Range2f: ...
@typing.overload
def UnionWith(self, arg0: Vec2f) -> Range2f: ...
def __add__(self, arg0: Range2f) -> Range2f: ...
def __copy__(self) -> Range2f: ...
def __deepcopy__(self, memo: dict) -> Range2f: ...
def __eq__(self, arg0: Range2f) -> bool: ...
def __iadd__(self, arg0: Range2f) -> Range2f: ...
def __imul__(self, arg0: float) -> Range2f: ...
@typing.overload
def __init__(self) -> None: ...
@typing.overload
def __init__(self, arg0: Range2f) -> None: ...
@typing.overload
def __init__(self, arg0: Vec2f, arg1: Vec2f) -> None: ...
@typing.overload
def __init__(self, arg0: float) -> None: ...
def __isub__(self, arg0: Range2f) -> Range2f: ...
def __itruediv__(self, arg0: float) -> Range2f: ...
def __mul__(self, arg0: float) -> Range2f: ...
def __ne__(self, arg0: Range2f) -> bool: ...
def __repr__(self) -> str: ...
def __rmul__(self, arg0: float) -> Range2f: ...
def __str__(self) -> str: ...
def __sub__(self, arg0: Range2f) -> Range2f: ...
def __truediv__(self, arg0: float) -> Range2f: ...
@staticmethod
def unitSquare() -> Range2f: ...
@property
def max(self) -> Vec2f:
"""
:type: Vec2f
"""
@max.setter
def max(self, arg1: Vec2f) -> None:
pass
@property
def min(self) -> Vec2f:
"""
:type: Vec2f
"""
@min.setter
def min(self, arg1: Vec2f) -> None:
pass
__hash__ = None
pass
class Range3d():
@typing.overload
def Contains(self, arg0: Range3d) -> bool: ...
@typing.overload
def Contains(self, arg0: Vec3d) -> bool: ...
def GetCorner(self, arg0: int) -> Vec3d: ...
def GetDistanceSquared(self, arg0: Vec3d) -> float: ...
@staticmethod
def GetIntersection(arg0: Range3d, arg1: Range3d) -> Range3d: ...
def GetMax(self) -> Vec3d: ...
def GetMidpoint(self) -> Vec3d: ...
def GetMin(self) -> Vec3d: ...
def GetOctant(self, arg0: int) -> Range3d: ...
def GetSize(self) -> Vec3d: ...
@staticmethod
def GetUnion(arg0: Range3d, arg1: Range3d) -> Range3d: ...
def IntersectWith(self, arg0: Range3d) -> Range3d: ...
def IsEmpty(self) -> bool: ...
def SetEmpty(self) -> None: ...
def SetMax(self, arg0: Vec3d) -> None: ...
def SetMin(self, arg0: Vec3d) -> None: ...
@typing.overload
def UnionWith(self, arg0: Range3d) -> Range3d: ...
@typing.overload
def UnionWith(self, arg0: Vec3d) -> Range3d: ...
def __add__(self, arg0: Range3d) -> Range3d: ...
def __copy__(self) -> Range3d: ...
def __deepcopy__(self, memo: dict) -> Range3d: ...
def __eq__(self, arg0: Range3d) -> bool: ...
def __iadd__(self, arg0: Range3d) -> Range3d: ...
def __imul__(self, arg0: float) -> Range3d: ...
@typing.overload
def __init__(self) -> None: ...
@typing.overload
def __init__(self, arg0: Range3d) -> None: ...
@typing.overload
def __init__(self, arg0: Vec3d, arg1: Vec3d) -> None: ...
@typing.overload
def __init__(self, arg0: float) -> None: ...
def __isub__(self, arg0: Range3d) -> Range3d: ...
def __itruediv__(self, arg0: float) -> Range3d: ...
def __mul__(self, arg0: float) -> Range3d: ...
def __ne__(self, arg0: Range3d) -> bool: ...
def __repr__(self) -> str: ...
def __rmul__(self, arg0: float) -> Range3d: ...
def __str__(self) -> str: ...
def __sub__(self, arg0: Range3d) -> Range3d: ...
def __truediv__(self, arg0: float) -> Range3d: ...
@staticmethod
def unitCube() -> Range3d: ...
@property
def max(self) -> Vec3d:
"""
:type: Vec3d
"""
@max.setter
def max(self, arg1: Vec3d) -> None:
pass
@property
def min(self) -> Vec3d:
"""
:type: Vec3d
"""
@min.setter
def min(self, arg1: Vec3d) -> None:
pass
__hash__ = None
pass
class Range3f():
@typing.overload
def Contains(self, arg0: Range3f) -> bool: ...
@typing.overload
def Contains(self, arg0: Vec3f) -> bool: ...
def GetCorner(self, arg0: int) -> Vec3f: ...
def GetDistanceSquared(self, arg0: Vec3f) -> float: ...
@staticmethod
def GetIntersection(arg0: Range3f, arg1: Range3f) -> Range3f: ...
def GetMax(self) -> Vec3f: ...
def GetMidpoint(self) -> Vec3f: ...
def GetMin(self) -> Vec3f: ...
def GetOctant(self, arg0: int) -> Range3f: ...
def GetSize(self) -> Vec3f: ...
@staticmethod
def GetUnion(arg0: Range3f, arg1: Range3f) -> Range3f: ...
def IntersectWith(self, arg0: Range3f) -> Range3f: ...
def IsEmpty(self) -> bool: ...
def SetEmpty(self) -> None: ...
def SetMax(self, arg0: Vec3f) -> None: ...
def SetMin(self, arg0: Vec3f) -> None: ...
@typing.overload
def UnionWith(self, arg0: Range3f) -> Range3f: ...
@typing.overload
def UnionWith(self, arg0: Vec3f) -> Range3f: ...
def __add__(self, arg0: Range3f) -> Range3f: ...
def __copy__(self) -> Range3f: ...
def __deepcopy__(self, memo: dict) -> Range3f: ...
def __eq__(self, arg0: Range3f) -> bool: ...
def __iadd__(self, arg0: Range3f) -> Range3f: ...
def __imul__(self, arg0: float) -> Range3f: ...
@typing.overload
def __init__(self) -> None: ...
@typing.overload
def __init__(self, arg0: Range3f) -> None: ...
@typing.overload
def __init__(self, arg0: Vec3f, arg1: Vec3f) -> None: ...
@typing.overload
def __init__(self, arg0: float) -> None: ...
def __isub__(self, arg0: Range3f) -> Range3f: ...
def __itruediv__(self, arg0: float) -> Range3f: ...
def __mul__(self, arg0: float) -> Range3f: ...
def __ne__(self, arg0: Range3f) -> bool: ...
def __repr__(self) -> str: ...
def __rmul__(self, arg0: float) -> Range3f: ...
def __str__(self) -> str: ...
def __sub__(self, arg0: Range3f) -> Range3f: ...
def __truediv__(self, arg0: float) -> Range3f: ...
@staticmethod
def unitCube() -> Range3f: ...
@property
def max(self) -> Vec3f:
"""
:type: Vec3f
"""
@max.setter
def max(self, arg1: Vec3f) -> None:
pass
@property
def min(self) -> Vec3f:
"""
:type: Vec3f
"""
@min.setter
def min(self, arg1: Vec3f) -> None:
pass
__hash__ = None
pass
class Rect2i():
def Contains(self, arg0: Vec2i) -> bool: ...
def GetArea(self) -> int: ...
def GetCenter(self) -> Vec2i: ...
def GetHeight(self) -> int: ...
def GetIntersection(self, arg0: Rect2i) -> Rect2i: ...
def GetMax(self) -> Vec2i: ...
def GetMaxX(self) -> int: ...
def GetMaxY(self) -> int: ...
def GetMin(self) -> Vec2i: ...
def GetMinX(self) -> int: ...
def GetMinY(self) -> int: ...
def GetNormalized(self) -> Rect2i: ...
def GetSize(self) -> Vec2i: ...
def GetUnion(self, arg0: Rect2i) -> Rect2i: ...
def GetWidth(self) -> int: ...
def Intersect(self, arg0: Rect2i) -> Rect2i: ...
def IsEmpty(self) -> bool: ...
def IsNull(self) -> bool: ...
def IsValid(self) -> bool: ...
def SetMax(self, arg0: Vec2i) -> None: ...
def SetMaxX(self, arg0: int) -> None: ...
def SetMaxY(self, arg0: int) -> None: ...
def SetMin(self, arg0: Vec2i) -> None: ...
def SetMinX(self, arg0: int) -> None: ...
def SetMinY(self, arg0: int) -> None: ...
def Translate(self, arg0: Vec2i) -> None: ...
def Union(self, arg0: Rect2i) -> Rect2i: ...
def __add__(self, arg0: Rect2i) -> Rect2i: ...
def __copy__(self) -> Rect2i: ...
def __deepcopy__(self, memo: dict) -> Rect2i: ...
def __eq__(self, arg0: Rect2i) -> bool: ...
def __iadd__(self, arg0: Rect2i) -> Rect2i: ...
@typing.overload
def __init__(self) -> None: ...
@typing.overload
def __init__(self, arg0: Rect2i) -> None: ...
@typing.overload
def __init__(self, arg0: Vec2i, arg1: Vec2i) -> None: ...
@typing.overload
def __init__(self, arg0: Vec2i, arg1: int, arg2: int) -> None: ...
def __ne__(self, arg0: Rect2i) -> bool: ...
def __repr__(self) -> str: ...
def __str__(self) -> str: ...
@property
def area(self) -> int:
"""
:type: int
"""
@property
def center(self) -> Vec2i:
"""
:type: Vec2i
"""
@property
def height(self) -> int:
"""
:type: int
"""
@property
def max(self) -> Vec2i:
"""
:type: Vec2i
"""
@max.setter
def max(self, arg1: Vec2i) -> None:
pass
@property
def maxX(self) -> int:
"""
:type: int
"""
@maxX.setter
def maxX(self, arg1: int) -> None:
pass
@property
def maxY(self) -> int:
"""
:type: int
"""
@maxY.setter
def maxY(self, arg1: int) -> None:
pass
@property
def min(self) -> Vec2i:
"""
:type: Vec2i
"""
@min.setter
def min(self, arg1: Vec2i) -> None:
pass
@property
def minX(self) -> int:
"""
:type: int
"""
@minX.setter
def minX(self, arg1: int) -> None:
pass
@property
def minY(self) -> int:
"""
:type: int
"""
@minY.setter
def minY(self, arg1: int) -> None:
pass
@property
def size(self) -> Vec2i:
"""
:type: Vec2i
"""
@property
def width(self) -> int:
"""
:type: int
"""
__hash__ = None
pass
class Vec2d():
@staticmethod
def Axis(arg0: int) -> Vec2d: ...
def GetComplement(self, arg0: Vec2d) -> Vec2d: ...
def GetDot(self, arg0: Vec2d) -> float: ...
def GetLength(self) -> float: ...
def GetNormalized(self) -> Vec2d: ...
def GetProjection(self, arg0: Vec2d) -> Vec2d: ...
def Normalize(self) -> float: ...
@staticmethod
def XAxis() -> Vec2d: ...
@staticmethod
def YAxis() -> Vec2d: ...
def __add__(self, arg0: Vec2d) -> Vec2d: ...
def __copy__(self) -> Vec2d: ...
def __deepcopy__(self, memo: dict) -> Vec2d: ...
@staticmethod
@typing.overload
def __eq__(*args, **kwargs) -> typing.Any: ...
@typing.overload
def __eq__(self, arg0: Vec2d) -> bool: ...
@typing.overload
def __eq__(self, arg0: Vec2f) -> bool: ...
@typing.overload
def __getitem__(self, arg0: int) -> float: ...
@typing.overload
def __getitem__(self, arg0: slice) -> typing.List[float]: ...
def __iadd__(self, arg0: Vec2d) -> Vec2d: ...
def __imul__(self, arg0: float) -> Vec2d: ...
@staticmethod
@typing.overload
def __init__(*args, **kwargs) -> typing.Any: ...
@typing.overload
def __init__(self) -> None: ...
@typing.overload
def __init__(self, arg0: Vec2d) -> None: ...
@typing.overload
def __init__(self, arg0: Vec2f) -> None: ...
@typing.overload
def __init__(self, arg0: buffer) -> None: ...
@typing.overload
def __init__(self, arg0: float) -> None: ...
@typing.overload
def __init__(self, arg0: float, arg1: float) -> None: ...
@typing.overload
def __init__(self, arg0: typing.Tuple[float, float]) -> None: ...
def __isub__(self, arg0: Vec2d) -> Vec2d: ...
def __itruediv__(self, arg0: float) -> Vec2d: ...
def __len__(self) -> int: ...
@typing.overload
def __mul__(self, arg0: Vec2d) -> float: ...
@typing.overload
def __mul__(self, arg0: float) -> Vec2d: ...
@staticmethod
@typing.overload
def __ne__(*args, **kwargs) -> typing.Any: ...
@typing.overload
def __ne__(self, arg0: Vec2d) -> bool: ...
@typing.overload
def __ne__(self, arg0: Vec2f) -> bool: ...
def __neg__(self) -> Vec2d: ...
def __repr__(self) -> str: ...
def __rmul__(self, arg0: float) -> Vec2d: ...
@typing.overload
def __setitem__(self, arg0: int, arg1: float) -> None: ...
@typing.overload
def __setitem__(self, arg0: slice, arg1: sequence) -> None: ...
def __str__(self) -> str: ...
def __sub__(self, arg0: Vec2d) -> Vec2d: ...
def __truediv__(self, arg0: float) -> Vec2d: ...
__hash__ = None
__isGfVec = True
dimension = 2
pass
class Vec2f():
@staticmethod
def Axis(arg0: int) -> Vec2f: ...
def GetComplement(self, arg0: Vec2f) -> Vec2f: ...
def GetDot(self, arg0: Vec2f) -> float: ...
def GetLength(self) -> float: ...
def GetNormalized(self) -> Vec2f: ...
def GetProjection(self, arg0: Vec2f) -> Vec2f: ...
def Normalize(self) -> float: ...
@staticmethod
def XAxis() -> Vec2f: ...
@staticmethod
def YAxis() -> Vec2f: ...
def __add__(self, arg0: Vec2f) -> Vec2f: ...
def __copy__(self) -> Vec2f: ...
def __deepcopy__(self, memo: dict) -> Vec2f: ...
@staticmethod
@typing.overload
def __eq__(*args, **kwargs) -> typing.Any: ...
@typing.overload
def __eq__(self, arg0: Vec2f) -> bool: ...
@typing.overload
def __getitem__(self, arg0: int) -> float: ...
@typing.overload
def __getitem__(self, arg0: slice) -> typing.List[float]: ...
def __iadd__(self, arg0: Vec2f) -> Vec2f: ...
def __imul__(self, arg0: float) -> Vec2f: ...
@staticmethod
@typing.overload
def __init__(*args, **kwargs) -> typing.Any: ...
@typing.overload
def __init__(self) -> None: ...
@typing.overload
def __init__(self, arg0: Vec2f) -> None: ...
@typing.overload
def __init__(self, arg0: buffer) -> None: ...
@typing.overload
def __init__(self, arg0: float) -> None: ...
@typing.overload
def __init__(self, arg0: float, arg1: float) -> None: ...
@typing.overload
def __init__(self, arg0: typing.Tuple[float, float]) -> None: ...
def __isub__(self, arg0: Vec2f) -> Vec2f: ...
def __itruediv__(self, arg0: float) -> Vec2f: ...
def __len__(self) -> int: ...
@typing.overload
def __mul__(self, arg0: Vec2f) -> float: ...
@typing.overload
def __mul__(self, arg0: float) -> Vec2f: ...
@staticmethod
@typing.overload
def __ne__(*args, **kwargs) -> typing.Any: ...
@typing.overload
def __ne__(self, arg0: Vec2f) -> bool: ...
def __neg__(self) -> Vec2f: ...
def __repr__(self) -> str: ...
def __rmul__(self, arg0: float) -> Vec2f: ...
@typing.overload
def __setitem__(self, arg0: int, arg1: float) -> None: ...
@typing.overload
def __setitem__(self, arg0: slice, arg1: sequence) -> None: ...
def __str__(self) -> str: ...
def __sub__(self, arg0: Vec2f) -> Vec2f: ...
def __truediv__(self, arg0: float) -> Vec2f: ...
__hash__ = None
__isGfVec = True
dimension = 2
pass
class Vec2h():
@staticmethod
def Axis(arg0: int) -> Vec2h: ...
def GetComplement(self, arg0: Vec2h) -> Vec2h: ...
def GetDot(self, arg0: Vec2h) -> GfHalf: ...
def GetLength(self) -> float: ...
def GetNormalized(self) -> Vec2h: ...
def GetProjection(self, arg0: Vec2h) -> Vec2h: ...
def Normalize(self) -> float: ...
@staticmethod
def XAxis() -> Vec2h: ...
@staticmethod
def YAxis() -> Vec2h: ...
def __add__(self, arg0: Vec2h) -> Vec2h: ...
def __copy__(self) -> Vec2h: ...
def __deepcopy__(self, memo: dict) -> Vec2h: ...
@typing.overload
def __eq__(self, arg0: Vec2h) -> bool: ...
@typing.overload
def __eq__(self, arg0: Vec2i) -> bool: ...
@typing.overload
def __getitem__(self, arg0: int) -> GfHalf: ...
@typing.overload
def __getitem__(self, arg0: slice) -> typing.List[GfHalf]: ...
def __iadd__(self, arg0: Vec2h) -> Vec2h: ...
def __imul__(self, arg0: GfHalf) -> Vec2h: ...
@typing.overload
def __init__(self) -> None: ...
@typing.overload
def __init__(self, arg0: GfHalf) -> None: ...
@typing.overload
def __init__(self, arg0: GfHalf, arg1: GfHalf) -> None: ...
@typing.overload
def __init__(self, arg0: Vec2d) -> None: ...
@typing.overload
def __init__(self, arg0: Vec2f) -> None: ...
@typing.overload
def __init__(self, arg0: Vec2h) -> None: ...
@typing.overload
def __init__(self, arg0: Vec2i) -> None: ...
@typing.overload
def __init__(self, arg0: buffer) -> None: ...
@typing.overload
def __init__(self, arg0: typing.Tuple[GfHalf, GfHalf]) -> None: ...
def __isub__(self, arg0: Vec2h) -> Vec2h: ...
def __itruediv__(self, arg0: GfHalf) -> Vec2h: ...
def __len__(self) -> int: ...
@typing.overload
def __mul__(self, arg0: GfHalf) -> Vec2h: ...
@typing.overload
def __mul__(self, arg0: Vec2h) -> GfHalf: ...
@typing.overload
def __ne__(self, arg0: Vec2h) -> bool: ...
@typing.overload
def __ne__(self, arg0: Vec2i) -> bool: ...
def __neg__(self) -> Vec2h: ...
def __repr__(self) -> str: ...
def __rmul__(self, arg0: GfHalf) -> Vec2h: ...
@typing.overload
def __setitem__(self, arg0: int, arg1: GfHalf) -> None: ...
@typing.overload
def __setitem__(self, arg0: slice, arg1: sequence) -> None: ...
def __str__(self) -> str: ...
def __sub__(self, arg0: Vec2h) -> Vec2h: ...
def __truediv__(self, arg0: GfHalf) -> Vec2h: ...
__hash__ = None
__isGfVec = True
dimension = 2
pass
class Vec2i():
@staticmethod
def Axis(arg0: int) -> Vec2i: ...
def GetComplement(self, arg0: Vec2i) -> Vec2i: ...
def GetDot(self, arg0: Vec2i) -> int: ...
def GetLength(self) -> float: ...
def GetNormalized(self) -> Vec2i: ...
def GetProjection(self, arg0: Vec2i) -> Vec2i: ...
def Normalize(self) -> float: ...
@staticmethod
def XAxis() -> Vec2i: ...
@staticmethod
def YAxis() -> Vec2i: ...
def __add__(self, arg0: Vec2i) -> Vec2i: ...
def __copy__(self) -> Vec2i: ...
def __deepcopy__(self, memo: dict) -> Vec2i: ...
def __eq__(self, arg0: Vec2i) -> bool: ...
@typing.overload
def __getitem__(self, arg0: int) -> int: ...
@typing.overload
def __getitem__(self, arg0: slice) -> typing.List[int]: ...
def __iadd__(self, arg0: Vec2i) -> Vec2i: ...
def __imul__(self, arg0: int) -> Vec2i: ...
@staticmethod
@typing.overload
def __init__(*args, **kwargs) -> typing.Any: ...
@typing.overload
def __init__(self) -> None: ...
@typing.overload
def __init__(self, arg0: Vec2d) -> None: ...
@typing.overload
def __init__(self, arg0: Vec2f) -> None: ...
@typing.overload
def __init__(self, arg0: Vec2i) -> None: ...
@typing.overload
def __init__(self, arg0: buffer) -> None: ...
@typing.overload
def __init__(self, arg0: int) -> None: ...
@typing.overload
def __init__(self, arg0: int, arg1: int) -> None: ...
@typing.overload
def __init__(self, arg0: typing.Tuple[int, int]) -> None: ...
def __isub__(self, arg0: Vec2i) -> Vec2i: ...
def __itruediv__(self, arg0: int) -> Vec2i: ...
def __len__(self) -> int: ...
@typing.overload
def __mul__(self, arg0: Vec2i) -> int: ...
@typing.overload
def __mul__(self, arg0: int) -> Vec2i: ...
def __ne__(self, arg0: Vec2i) -> bool: ...
def __neg__(self) -> Vec2i: ...
def __repr__(self) -> str: ...
def __rmul__(self, arg0: int) -> Vec2i: ...
@typing.overload
def __setitem__(self, arg0: int, arg1: int) -> None: ...
@typing.overload
def __setitem__(self, arg0: slice, arg1: sequence) -> None: ...
def __str__(self) -> str: ...
def __sub__(self, arg0: Vec2i) -> Vec2i: ...
def __truediv__(self, arg0: int) -> Vec2i: ...
__hash__ = None
__isGfVec = True
dimension = 2
pass
class Vec3d():
@staticmethod
def Axis(arg0: int) -> Vec3d: ...
def BuildOrthonormalFrame(self, eps: float = 1e-10) -> tuple: ...
def GetComplement(self, arg0: Vec3d) -> Vec3d: ...
def GetCross(self, arg0: Vec3d) -> Vec3d: ...
def GetDot(self, arg0: Vec3d) -> float: ...
def GetLength(self) -> float: ...
def GetNormalized(self) -> Vec3d: ...
def GetProjection(self, arg0: Vec3d) -> Vec3d: ...
def Normalize(self) -> float: ...
@staticmethod
def OrthogonalizeBasis(v1: Vec3d, v2: Vec3d, v3: Vec3d, normalize: bool = True) -> bool: ...
@staticmethod
def XAxis() -> Vec3d: ...
@staticmethod
def YAxis() -> Vec3d: ...
@staticmethod
def ZAxis() -> Vec3d: ...
def __add__(self, arg0: Vec3d) -> Vec3d: ...
def __copy__(self) -> Vec3d: ...
def __deepcopy__(self, memo: dict) -> Vec3d: ...
@staticmethod
@typing.overload
def __eq__(*args, **kwargs) -> typing.Any: ...
@typing.overload
def __eq__(self, arg0: Vec3d) -> bool: ...
@typing.overload
def __eq__(self, arg0: Vec3f) -> bool: ...
@typing.overload
def __getitem__(self, arg0: int) -> float: ...
@typing.overload
def __getitem__(self, arg0: slice) -> typing.List[float]: ...
def __iadd__(self, arg0: Vec3d) -> Vec3d: ...
def __imul__(self, arg0: float) -> Vec3d: ...
@staticmethod
@typing.overload
def __init__(*args, **kwargs) -> typing.Any: ...
@typing.overload
def __init__(self) -> None: ...
@typing.overload
def __init__(self, arg0: Vec3d) -> None: ...
@typing.overload
def __init__(self, arg0: Vec3f) -> None: ...
@typing.overload
def __init__(self, arg0: buffer) -> None: ...
@typing.overload
def __init__(self, arg0: float) -> None: ...
@typing.overload
def __init__(self, arg0: float, arg1: float, arg2: float) -> None: ...
@typing.overload
def __init__(self, arg0: typing.Tuple[float, float, float]) -> None: ...
def __isub__(self, arg0: Vec3d) -> Vec3d: ...
def __itruediv__(self, arg0: float) -> Vec3d: ...
def __len__(self) -> int: ...
@typing.overload
def __mul__(self, arg0: Vec3d) -> float: ...
@typing.overload
def __mul__(self, arg0: float) -> Vec3d: ...
@staticmethod
@typing.overload
def __ne__(*args, **kwargs) -> typing.Any: ...
@typing.overload
def __ne__(self, arg0: Vec3d) -> bool: ...
@typing.overload
def __ne__(self, arg0: Vec3f) -> bool: ...
def __neg__(self) -> Vec3d: ...
def __repr__(self) -> str: ...
def __rmul__(self, arg0: float) -> Vec3d: ...
@typing.overload
def __setitem__(self, arg0: int, arg1: float) -> None: ...
@typing.overload
def __setitem__(self, arg0: slice, arg1: sequence) -> None: ...
def __str__(self) -> str: ...
def __sub__(self, arg0: Vec3d) -> Vec3d: ...
def __truediv__(self, arg0: float) -> Vec3d: ...
def __xor__(self, arg0: Vec3d) -> Vec3d: ...
__hash__ = None
__isGfVec = True
dimension = 3
pass
class Vec3f():
@staticmethod
def Axis(arg0: int) -> Vec3f: ...
def BuildOrthonormalFrame(self, eps: float = 1e-10) -> tuple: ...
def GetComplement(self, arg0: Vec3f) -> Vec3f: ...
def GetCross(self, arg0: Vec3f) -> Vec3f: ...
def GetDot(self, arg0: Vec3f) -> float: ...
def GetLength(self) -> float: ...
def GetNormalized(self) -> Vec3f: ...
def GetProjection(self, arg0: Vec3f) -> Vec3f: ...
def Normalize(self) -> float: ...
@staticmethod
def OrthogonalizeBasis(v1: Vec3f, v2: Vec3f, v3: Vec3f, normalize: bool = True) -> bool: ...
@staticmethod
def XAxis() -> Vec3f: ...
@staticmethod
def YAxis() -> Vec3f: ...
@staticmethod
def ZAxis() -> Vec3f: ...
def __add__(self, arg0: Vec3f) -> Vec3f: ...
def __copy__(self) -> Vec3f: ...
def __deepcopy__(self, memo: dict) -> Vec3f: ...
@staticmethod
@typing.overload
def __eq__(*args, **kwargs) -> typing.Any: ...
@typing.overload
def __eq__(self, arg0: Vec3f) -> bool: ...
@typing.overload
def __getitem__(self, arg0: int) -> float: ...
@typing.overload
def __getitem__(self, arg0: slice) -> typing.List[float]: ...
def __iadd__(self, arg0: Vec3f) -> Vec3f: ...
def __imul__(self, arg0: float) -> Vec3f: ...
@staticmethod
@typing.overload
def __init__(*args, **kwargs) -> typing.Any: ...
@typing.overload
def __init__(self) -> None: ...
@typing.overload
def __init__(self, arg0: Vec3f) -> None: ...
@typing.overload
def __init__(self, arg0: buffer) -> None: ...
@typing.overload
def __init__(self, arg0: float) -> None: ...
@typing.overload
def __init__(self, arg0: float, arg1: float, arg2: float) -> None: ...
@typing.overload
def __init__(self, arg0: typing.Tuple[float, float, float]) -> None: ...
def __isub__(self, arg0: Vec3f) -> Vec3f: ...
def __itruediv__(self, arg0: float) -> Vec3f: ...
def __len__(self) -> int: ...
@typing.overload
def __mul__(self, arg0: Vec3f) -> float: ...
@typing.overload
def __mul__(self, arg0: float) -> Vec3f: ...
@staticmethod
@typing.overload
def __ne__(*args, **kwargs) -> typing.Any: ...
@typing.overload
def __ne__(self, arg0: Vec3f) -> bool: ...
def __neg__(self) -> Vec3f: ...
def __repr__(self) -> str: ...
def __rmul__(self, arg0: float) -> Vec3f: ...
@typing.overload
def __setitem__(self, arg0: int, arg1: float) -> None: ...
@typing.overload
def __setitem__(self, arg0: slice, arg1: sequence) -> None: ...
def __str__(self) -> str: ...
def __sub__(self, arg0: Vec3f) -> Vec3f: ...
def __truediv__(self, arg0: float) -> Vec3f: ...
def __xor__(self, arg0: Vec3f) -> Vec3f: ...
__hash__ = None
__isGfVec = True
dimension = 3
pass
class Vec3h():
@staticmethod
def Axis(arg0: int) -> Vec3h: ...
def BuildOrthonormalFrame(self, eps: float = 1e-10) -> tuple: ...
def GetComplement(self, arg0: Vec3h) -> Vec3h: ...
def GetCross(self, arg0: Vec3h) -> Vec3h: ...
def GetDot(self, arg0: Vec3h) -> GfHalf: ...
def GetLength(self) -> float: ...
def GetNormalized(self) -> Vec3h: ...
def GetProjection(self, arg0: Vec3h) -> Vec3h: ...
def Normalize(self) -> float: ...
@staticmethod
def OrthogonalizeBasis(v1: Vec3h, v2: Vec3h, v3: Vec3h, normalize: bool = True) -> bool: ...
@staticmethod
def XAxis() -> Vec3h: ...
@staticmethod
def YAxis() -> Vec3h: ...
@staticmethod
def ZAxis() -> Vec3h: ...
def __add__(self, arg0: Vec3h) -> Vec3h: ...
def __copy__(self) -> Vec3h: ...
def __deepcopy__(self, memo: dict) -> Vec3h: ...
@typing.overload
def __eq__(self, arg0: Vec3h) -> bool: ...
@typing.overload
def __eq__(self, arg0: Vec3i) -> bool: ...
@typing.overload
def __getitem__(self, arg0: int) -> GfHalf: ...
@typing.overload
def __getitem__(self, arg0: slice) -> typing.List[GfHalf]: ...
def __iadd__(self, arg0: Vec3h) -> Vec3h: ...
def __imul__(self, arg0: GfHalf) -> Vec3h: ...
@typing.overload
def __init__(self) -> None: ...
@typing.overload
def __init__(self, arg0: GfHalf) -> None: ...
@typing.overload
def __init__(self, arg0: GfHalf, arg1: GfHalf, arg2: GfHalf) -> None: ...
@typing.overload
def __init__(self, arg0: Vec3d) -> None: ...
@typing.overload
def __init__(self, arg0: Vec3f) -> None: ...
@typing.overload
def __init__(self, arg0: Vec3h) -> None: ...
@typing.overload
def __init__(self, arg0: Vec3i) -> None: ...
@typing.overload
def __init__(self, arg0: buffer) -> None: ...
@typing.overload
def __init__(self, arg0: typing.Tuple[GfHalf, GfHalf, GfHalf]) -> None: ...
def __isub__(self, arg0: Vec3h) -> Vec3h: ...
def __itruediv__(self, arg0: GfHalf) -> Vec3h: ...
def __len__(self) -> int: ...
@typing.overload
def __mul__(self, arg0: GfHalf) -> Vec3h: ...
@typing.overload
def __mul__(self, arg0: Vec3h) -> GfHalf: ...
@typing.overload
def __ne__(self, arg0: Vec3h) -> bool: ...
@typing.overload
def __ne__(self, arg0: Vec3i) -> bool: ...
def __neg__(self) -> Vec3h: ...
def __repr__(self) -> str: ...
def __rmul__(self, arg0: GfHalf) -> Vec3h: ...
@typing.overload
def __setitem__(self, arg0: int, arg1: GfHalf) -> None: ...
@typing.overload
def __setitem__(self, arg0: slice, arg1: sequence) -> None: ...
def __str__(self) -> str: ...
def __sub__(self, arg0: Vec3h) -> Vec3h: ...
def __truediv__(self, arg0: GfHalf) -> Vec3h: ...
def __xor__(self, arg0: Vec3h) -> Vec3h: ...
__hash__ = None
__isGfVec = True
dimension = 3
pass
class Vec3i():
@staticmethod
def Axis(arg0: int) -> Vec3i: ...
def BuildOrthonormalFrame(self, eps: float = 1e-10) -> tuple: ...
def GetComplement(self, arg0: Vec3i) -> Vec3i: ...
def GetCross(self, arg0: Vec3i) -> Vec3i: ...
def GetDot(self, arg0: Vec3i) -> int: ...
def GetLength(self) -> float: ...
def GetNormalized(self) -> Vec3i: ...
def GetProjection(self, arg0: Vec3i) -> Vec3i: ...
def Normalize(self) -> float: ...
@staticmethod
def OrthogonalizeBasis(v1: Vec3i, v2: Vec3i, v3: Vec3i, normalize: bool = True) -> bool: ...
@staticmethod
def XAxis() -> Vec3i: ...
@staticmethod
def YAxis() -> Vec3i: ...
@staticmethod
def ZAxis() -> Vec3i: ...
def __add__(self, arg0: Vec3i) -> Vec3i: ...
def __copy__(self) -> Vec3i: ...
def __deepcopy__(self, memo: dict) -> Vec3i: ...
def __eq__(self, arg0: Vec3i) -> bool: ...
@typing.overload
def __getitem__(self, arg0: int) -> int: ...
@typing.overload
def __getitem__(self, arg0: slice) -> typing.List[int]: ...
def __iadd__(self, arg0: Vec3i) -> Vec3i: ...
def __imul__(self, arg0: int) -> Vec3i: ...
@staticmethod
@typing.overload
def __init__(*args, **kwargs) -> typing.Any: ...
@typing.overload
def __init__(self) -> None: ...
@typing.overload
def __init__(self, arg0: Vec3d) -> None: ...
@typing.overload
def __init__(self, arg0: Vec3f) -> None: ...
@typing.overload
def __init__(self, arg0: Vec3i) -> None: ...
@typing.overload
def __init__(self, arg0: buffer) -> None: ...
@typing.overload
def __init__(self, arg0: int) -> None: ...
@typing.overload
def __init__(self, arg0: int, arg1: int, arg2: int) -> None: ...
@typing.overload
def __init__(self, arg0: typing.Tuple[int, int, int]) -> None: ...
def __isub__(self, arg0: Vec3i) -> Vec3i: ...
def __itruediv__(self, arg0: int) -> Vec3i: ...
def __len__(self) -> int: ...
@typing.overload
def __mul__(self, arg0: Vec3i) -> int: ...
@typing.overload
def __mul__(self, arg0: int) -> Vec3i: ...
def __ne__(self, arg0: Vec3i) -> bool: ...
def __neg__(self) -> Vec3i: ...
def __repr__(self) -> str: ...
def __rmul__(self, arg0: int) -> Vec3i: ...
@typing.overload
def __setitem__(self, arg0: int, arg1: int) -> None: ...
@typing.overload
def __setitem__(self, arg0: slice, arg1: sequence) -> None: ...
def __str__(self) -> str: ...
def __sub__(self, arg0: Vec3i) -> Vec3i: ...
def __truediv__(self, arg0: int) -> Vec3i: ...
def __xor__(self, arg0: Vec3i) -> Vec3i: ...
__hash__ = None
__isGfVec = True
dimension = 3
pass
class Vec4d():
@staticmethod
def Axis(arg0: int) -> Vec4d: ...
def GetComplement(self, arg0: Vec4d) -> Vec4d: ...
def GetDot(self, arg0: Vec4d) -> float: ...
def GetLength(self) -> float: ...
def GetNormalized(self) -> Vec4d: ...
def GetProjection(self, arg0: Vec4d) -> Vec4d: ...
def Normalize(self) -> float: ...
@staticmethod
def WAxis() -> Vec4d: ...
@staticmethod
def XAxis() -> Vec4d: ...
@staticmethod
def YAxis() -> Vec4d: ...
@staticmethod
def ZAxis() -> Vec4d: ...
def __add__(self, arg0: Vec4d) -> Vec4d: ...
def __copy__(self) -> Vec4d: ...
def __deepcopy__(self, memo: dict) -> Vec4d: ...
@staticmethod
@typing.overload
def __eq__(*args, **kwargs) -> typing.Any: ...
@typing.overload
def __eq__(self, arg0: Vec4d) -> bool: ...
@typing.overload
def __eq__(self, arg0: Vec4f) -> bool: ...
@typing.overload
def __getitem__(self, arg0: int) -> float: ...
@typing.overload
def __getitem__(self, arg0: slice) -> typing.List[float]: ...
def __iadd__(self, arg0: Vec4d) -> Vec4d: ...
def __imul__(self, arg0: float) -> Vec4d: ...
@staticmethod
@typing.overload
def __init__(*args, **kwargs) -> typing.Any: ...
@typing.overload
def __init__(self) -> None: ...
@typing.overload
def __init__(self, arg0: Vec4d) -> None: ...
@typing.overload
def __init__(self, arg0: Vec4f) -> None: ...
@typing.overload
def __init__(self, arg0: buffer) -> None: ...
@typing.overload
def __init__(self, arg0: float) -> None: ...
@typing.overload
def __init__(self, arg0: float, arg1: float, arg2: float, arg3: float) -> None: ...
@typing.overload
def __init__(self, arg0: typing.Tuple[float, float, float, float]) -> None: ...
def __isub__(self, arg0: Vec4d) -> Vec4d: ...
def __itruediv__(self, arg0: float) -> Vec4d: ...
def __len__(self) -> int: ...
@typing.overload
def __mul__(self, arg0: Vec4d) -> float: ...
@typing.overload
def __mul__(self, arg0: float) -> Vec4d: ...
@staticmethod
@typing.overload
def __ne__(*args, **kwargs) -> typing.Any: ...
@typing.overload
def __ne__(self, arg0: Vec4d) -> bool: ...
@typing.overload
def __ne__(self, arg0: Vec4f) -> bool: ...
def __neg__(self) -> Vec4d: ...
def __repr__(self) -> str: ...
def __rmul__(self, arg0: float) -> Vec4d: ...
@typing.overload
def __setitem__(self, arg0: int, arg1: float) -> None: ...
@typing.overload
def __setitem__(self, arg0: slice, arg1: sequence) -> None: ...
def __str__(self) -> str: ...
def __sub__(self, arg0: Vec4d) -> Vec4d: ...
def __truediv__(self, arg0: float) -> Vec4d: ...
__hash__ = None
__isGfVec = True
dimension = 4
pass
class Vec4f():
@staticmethod
def Axis(arg0: int) -> Vec4f: ...
def GetComplement(self, arg0: Vec4f) -> Vec4f: ...
def GetDot(self, arg0: Vec4f) -> float: ...
def GetLength(self) -> float: ...
def GetNormalized(self) -> Vec4f: ...
def GetProjection(self, arg0: Vec4f) -> Vec4f: ...
def Normalize(self) -> float: ...
@staticmethod
def WAxis() -> Vec4f: ...
@staticmethod
def XAxis() -> Vec4f: ...
@staticmethod
def YAxis() -> Vec4f: ...
@staticmethod
def ZAxis() -> Vec4f: ...
def __add__(self, arg0: Vec4f) -> Vec4f: ...
def __copy__(self) -> Vec4f: ...
def __deepcopy__(self, memo: dict) -> Vec4f: ...
@staticmethod
@typing.overload
def __eq__(*args, **kwargs) -> typing.Any: ...
@typing.overload
def __eq__(self, arg0: Vec4f) -> bool: ...
@typing.overload
def __getitem__(self, arg0: int) -> float: ...
@typing.overload
def __getitem__(self, arg0: slice) -> typing.List[float]: ...
def __iadd__(self, arg0: Vec4f) -> Vec4f: ...
def __imul__(self, arg0: float) -> Vec4f: ...
@staticmethod
@typing.overload
def __init__(*args, **kwargs) -> typing.Any: ...
@typing.overload
def __init__(self) -> None: ...
@typing.overload
def __init__(self, arg0: Vec4f) -> None: ...
@typing.overload
def __init__(self, arg0: buffer) -> None: ...
@typing.overload
def __init__(self, arg0: float) -> None: ...
@typing.overload
def __init__(self, arg0: float, arg1: float, arg2: float, arg3: float) -> None: ...
@typing.overload
def __init__(self, arg0: typing.Tuple[float, float, float, float]) -> None: ...
def __isub__(self, arg0: Vec4f) -> Vec4f: ...
def __itruediv__(self, arg0: float) -> Vec4f: ...
def __len__(self) -> int: ...
@typing.overload
def __mul__(self, arg0: Vec4f) -> float: ...
@typing.overload
def __mul__(self, arg0: float) -> Vec4f: ...
@staticmethod
@typing.overload
def __ne__(*args, **kwargs) -> typing.Any: ...
@typing.overload
def __ne__(self, arg0: Vec4f) -> bool: ...
def __neg__(self) -> Vec4f: ...
def __repr__(self) -> str: ...
def __rmul__(self, arg0: float) -> Vec4f: ...
@typing.overload
def __setitem__(self, arg0: int, arg1: float) -> None: ...
@typing.overload
def __setitem__(self, arg0: slice, arg1: sequence) -> None: ...
def __str__(self) -> str: ...
def __sub__(self, arg0: Vec4f) -> Vec4f: ...
def __truediv__(self, arg0: float) -> Vec4f: ...
__hash__ = None
__isGfVec = True
dimension = 4
pass
class Vec4h():
@staticmethod
def Axis(arg0: int) -> Vec4h: ...
def GetComplement(self, arg0: Vec4h) -> Vec4h: ...
def GetDot(self, arg0: Vec4h) -> GfHalf: ...
def GetLength(self) -> float: ...
def GetNormalized(self) -> Vec4h: ...
def GetProjection(self, arg0: Vec4h) -> Vec4h: ...
def Normalize(self) -> float: ...
@staticmethod
def WAxis() -> Vec4h: ...
@staticmethod
def XAxis() -> Vec4h: ...
@staticmethod
def YAxis() -> Vec4h: ...
@staticmethod
def ZAxis() -> Vec4h: ...
def __add__(self, arg0: Vec4h) -> Vec4h: ...
def __copy__(self) -> Vec4h: ...
def __deepcopy__(self, memo: dict) -> Vec4h: ...
@typing.overload
def __eq__(self, arg0: Vec4h) -> bool: ...
@typing.overload
def __eq__(self, arg0: Vec4i) -> bool: ...
@typing.overload
def __getitem__(self, arg0: int) -> GfHalf: ...
@typing.overload
def __getitem__(self, arg0: slice) -> typing.List[GfHalf]: ...
def __iadd__(self, arg0: Vec4h) -> Vec4h: ...
def __imul__(self, arg0: GfHalf) -> Vec4h: ...
@typing.overload
def __init__(self) -> None: ...
@typing.overload
def __init__(self, arg0: GfHalf) -> None: ...
@typing.overload
def __init__(self, arg0: GfHalf, arg1: GfHalf, arg2: GfHalf, arg3: GfHalf) -> None: ...
@typing.overload
def __init__(self, arg0: Vec4d) -> None: ...
@typing.overload
def __init__(self, arg0: Vec4f) -> None: ...
@typing.overload
def __init__(self, arg0: Vec4h) -> None: ...
@typing.overload
def __init__(self, arg0: Vec4i) -> None: ...
@typing.overload
def __init__(self, arg0: buffer) -> None: ...
@typing.overload
def __init__(self, arg0: typing.Tuple[GfHalf, GfHalf, GfHalf, GfHalf]) -> None: ...
def __isub__(self, arg0: Vec4h) -> Vec4h: ...
def __itruediv__(self, arg0: GfHalf) -> Vec4h: ...
def __len__(self) -> int: ...
@typing.overload
def __mul__(self, arg0: GfHalf) -> Vec4h: ...
@typing.overload
def __mul__(self, arg0: Vec4h) -> GfHalf: ...
@typing.overload
def __ne__(self, arg0: Vec4h) -> bool: ...
@typing.overload
def __ne__(self, arg0: Vec4i) -> bool: ...
def __neg__(self) -> Vec4h: ...
def __repr__(self) -> str: ...
def __rmul__(self, arg0: GfHalf) -> Vec4h: ...
@typing.overload
def __setitem__(self, arg0: int, arg1: GfHalf) -> None: ...
@typing.overload
def __setitem__(self, arg0: slice, arg1: sequence) -> None: ...
def __str__(self) -> str: ...
def __sub__(self, arg0: Vec4h) -> Vec4h: ...
def __truediv__(self, arg0: GfHalf) -> Vec4h: ...
__hash__ = None
__isGfVec = True
dimension = 4
pass
class Vec4i():
@staticmethod
def Axis(arg0: int) -> Vec4i: ...
def GetComplement(self, arg0: Vec4i) -> Vec4i: ...
def GetDot(self, arg0: Vec4i) -> int: ...
def GetLength(self) -> float: ...
def GetNormalized(self) -> Vec4i: ...
def GetProjection(self, arg0: Vec4i) -> Vec4i: ...
def Normalize(self) -> float: ...
@staticmethod
def WAxis() -> Vec4i: ...
@staticmethod
def XAxis() -> Vec4i: ...
@staticmethod
def YAxis() -> Vec4i: ...
@staticmethod
def ZAxis() -> Vec4i: ...
def __add__(self, arg0: Vec4i) -> Vec4i: ...
def __copy__(self) -> Vec4i: ...
def __deepcopy__(self, memo: dict) -> Vec4i: ...
def __eq__(self, arg0: Vec4i) -> bool: ...
@typing.overload
def __getitem__(self, arg0: int) -> int: ...
@typing.overload
def __getitem__(self, arg0: slice) -> typing.List[int]: ...
def __iadd__(self, arg0: Vec4i) -> Vec4i: ...
def __imul__(self, arg0: int) -> Vec4i: ...
@staticmethod
@typing.overload
def __init__(*args, **kwargs) -> typing.Any: ...
@typing.overload
def __init__(self) -> None: ...
@typing.overload
def __init__(self, arg0: Vec4d) -> None: ...
@typing.overload
def __init__(self, arg0: Vec4f) -> None: ...
@typing.overload
def __init__(self, arg0: Vec4i) -> None: ...
@typing.overload
def __init__(self, arg0: buffer) -> None: ...
@typing.overload
def __init__(self, arg0: int) -> None: ...
@typing.overload
def __init__(self, arg0: int, arg1: int, arg2: int, arg3: int) -> None: ...
@typing.overload
def __init__(self, arg0: typing.Tuple[int, int, int, int]) -> None: ...
def __isub__(self, arg0: Vec4i) -> Vec4i: ...
def __itruediv__(self, arg0: int) -> Vec4i: ...
def __len__(self) -> int: ...
@typing.overload
def __mul__(self, arg0: Vec4i) -> int: ...
@typing.overload
def __mul__(self, arg0: int) -> Vec4i: ...
def __ne__(self, arg0: Vec4i) -> bool: ...
def __neg__(self) -> Vec4i: ...
def __repr__(self) -> str: ...
def __rmul__(self, arg0: int) -> Vec4i: ...
@typing.overload
def __setitem__(self, arg0: int, arg1: int) -> None: ...
@typing.overload
def __setitem__(self, arg0: slice, arg1: sequence) -> None: ...
def __str__(self) -> str: ...
def __sub__(self, arg0: Vec4i) -> Vec4i: ...
def __truediv__(self, arg0: int) -> Vec4i: ...
__hash__ = None
__isGfVec = True
dimension = 4
pass
@typing.overload
def CompDiv(arg0: Vec2d, arg1: Vec2d) -> Vec2d:
pass
@typing.overload
def CompDiv(arg0: Vec2f, arg1: Vec2f) -> Vec2f:
pass
@typing.overload
def CompDiv(arg0: Vec2h, arg1: Vec2h) -> Vec2h:
pass
@typing.overload
def CompDiv(arg0: Vec2i, arg1: Vec2i) -> Vec2i:
pass
@typing.overload
def CompDiv(arg0: Vec3d, arg1: Vec3d) -> Vec3d:
pass
@typing.overload
def CompDiv(arg0: Vec3f, arg1: Vec3f) -> Vec3f:
pass
@typing.overload
def CompDiv(arg0: Vec3h, arg1: Vec3h) -> Vec3h:
pass
@typing.overload
def CompDiv(arg0: Vec3i, arg1: Vec3i) -> Vec3i:
pass
@typing.overload
def CompDiv(arg0: Vec4d, arg1: Vec4d) -> Vec4d:
pass
@typing.overload
def CompDiv(arg0: Vec4f, arg1: Vec4f) -> Vec4f:
pass
@typing.overload
def CompDiv(arg0: Vec4h, arg1: Vec4h) -> Vec4h:
pass
@typing.overload
def CompDiv(arg0: Vec4i, arg1: Vec4i) -> Vec4i:
pass
@typing.overload
def CompMult(arg0: Vec2d, arg1: Vec2d) -> Vec2d:
pass
@typing.overload
def CompMult(arg0: Vec2f, arg1: Vec2f) -> Vec2f:
pass
@typing.overload
def CompMult(arg0: Vec2h, arg1: Vec2h) -> Vec2h:
pass
@typing.overload
def CompMult(arg0: Vec2i, arg1: Vec2i) -> Vec2i:
pass
@typing.overload
def CompMult(arg0: Vec3d, arg1: Vec3d) -> Vec3d:
pass
@typing.overload
def CompMult(arg0: Vec3f, arg1: Vec3f) -> Vec3f:
pass
@typing.overload
def CompMult(arg0: Vec3h, arg1: Vec3h) -> Vec3h:
pass
@typing.overload
def CompMult(arg0: Vec3i, arg1: Vec3i) -> Vec3i:
pass
@typing.overload
def CompMult(arg0: Vec4d, arg1: Vec4d) -> Vec4d:
pass
@typing.overload
def CompMult(arg0: Vec4f, arg1: Vec4f) -> Vec4f:
pass
@typing.overload
def CompMult(arg0: Vec4h, arg1: Vec4h) -> Vec4h:
pass
@typing.overload
def CompMult(arg0: Vec4i, arg1: Vec4i) -> Vec4i:
pass
@typing.overload
def Cross(arg0: Vec3d, arg1: Vec3d) -> Vec3d:
pass
@typing.overload
def Cross(arg0: Vec3f, arg1: Vec3f) -> Vec3f:
pass
@typing.overload
def Cross(arg0: Vec3h, arg1: Vec3h) -> Vec3h:
pass
@typing.overload
def Cross(arg0: Vec3i, arg1: Vec3i) -> Vec3i:
pass
def DegreesToRadians(arg0: float) -> float:
pass
@typing.overload
def Dot(arg0: Quatd, arg1: Quatd) -> float:
pass
@typing.overload
def Dot(arg0: Quatf, arg1: Quatf) -> float:
pass
@typing.overload
def Dot(arg0: Quath, arg1: Quath) -> GfHalf:
pass
@typing.overload
def Dot(arg0: Vec2d, arg1: Vec2d) -> float:
pass
@typing.overload
def Dot(arg0: Vec2f, arg1: Vec2f) -> float:
pass
@typing.overload
def Dot(arg0: Vec2h, arg1: Vec2h) -> GfHalf:
pass
@typing.overload
def Dot(arg0: Vec2i, arg1: Vec2i) -> int:
pass
@typing.overload
def Dot(arg0: Vec3d, arg1: Vec3d) -> float:
pass
@typing.overload
def Dot(arg0: Vec3f, arg1: Vec3f) -> float:
pass
@typing.overload
def Dot(arg0: Vec3h, arg1: Vec3h) -> GfHalf:
pass
@typing.overload
def Dot(arg0: Vec3i, arg1: Vec3i) -> int:
pass
@typing.overload
def Dot(arg0: Vec4d, arg1: Vec4d) -> float:
pass
@typing.overload
def Dot(arg0: Vec4f, arg1: Vec4f) -> float:
pass
@typing.overload
def Dot(arg0: Vec4h, arg1: Vec4h) -> GfHalf:
pass
@typing.overload
def Dot(arg0: Vec4i, arg1: Vec4i) -> int:
pass
@typing.overload
def GetComplement(arg0: Vec2d, arg1: Vec2d) -> Vec2d:
pass
@typing.overload
def GetComplement(arg0: Vec2f, arg1: Vec2f) -> Vec2f:
pass
@typing.overload
def GetComplement(arg0: Vec2h, arg1: Vec2h) -> Vec2h:
pass
@typing.overload
def GetComplement(arg0: Vec2i, arg1: Vec2i) -> Vec2i:
pass
@typing.overload
def GetComplement(arg0: Vec3d, arg1: Vec3d) -> Vec3d:
pass
@typing.overload
def GetComplement(arg0: Vec3f, arg1: Vec3f) -> Vec3f:
pass
@typing.overload
def GetComplement(arg0: Vec3h, arg1: Vec3h) -> Vec3h:
pass
@typing.overload
def GetComplement(arg0: Vec3i, arg1: Vec3i) -> Vec3i:
pass
@typing.overload
def GetComplement(arg0: Vec4d, arg1: Vec4d) -> Vec4d:
pass
@typing.overload
def GetComplement(arg0: Vec4f, arg1: Vec4f) -> Vec4f:
pass
@typing.overload
def GetComplement(arg0: Vec4h, arg1: Vec4h) -> Vec4h:
pass
@typing.overload
def GetComplement(arg0: Vec4i, arg1: Vec4i) -> Vec4i:
pass
@typing.overload
def GetLength(arg0: Vec2d) -> float:
pass
@typing.overload
def GetLength(arg0: Vec2f) -> float:
pass
@typing.overload
def GetLength(arg0: Vec2h) -> float:
pass
@typing.overload
def GetLength(arg0: Vec2i) -> float:
pass
@typing.overload
def GetLength(arg0: Vec3d) -> float:
pass
@typing.overload
def GetLength(arg0: Vec3f) -> float:
pass
@typing.overload
def GetLength(arg0: Vec3h) -> float:
pass
@typing.overload
def GetLength(arg0: Vec3i) -> float:
pass
@typing.overload
def GetLength(arg0: Vec4d) -> float:
pass
@typing.overload
def GetLength(arg0: Vec4f) -> float:
pass
@typing.overload
def GetLength(arg0: Vec4h) -> float:
pass
@typing.overload
def GetLength(arg0: Vec4i) -> float:
pass
@typing.overload
def GetNormalized(arg0: Vec2d) -> Vec2d:
pass
@typing.overload
def GetNormalized(arg0: Vec2f) -> Vec2f:
pass
@typing.overload
def GetNormalized(arg0: Vec2h) -> Vec2h:
pass
@typing.overload
def GetNormalized(arg0: Vec2i) -> Vec2i:
pass
@typing.overload
def GetNormalized(arg0: Vec3d) -> Vec3d:
pass
@typing.overload
def GetNormalized(arg0: Vec3f) -> Vec3f:
pass
@typing.overload
def GetNormalized(arg0: Vec3h) -> Vec3h:
pass
@typing.overload
def GetNormalized(arg0: Vec3i) -> Vec3i:
pass
@typing.overload
def GetNormalized(arg0: Vec4d) -> Vec4d:
pass
@typing.overload
def GetNormalized(arg0: Vec4f) -> Vec4f:
pass
@typing.overload
def GetNormalized(arg0: Vec4h) -> Vec4h:
pass
@typing.overload
def GetNormalized(arg0: Vec4i) -> Vec4i:
pass
@typing.overload
def GetProjection(arg0: Vec2d, arg1: Vec2d) -> Vec2d:
pass
@typing.overload
def GetProjection(arg0: Vec2f, arg1: Vec2f) -> Vec2f:
pass
@typing.overload
def GetProjection(arg0: Vec2h, arg1: Vec2h) -> Vec2h:
pass
@typing.overload
def GetProjection(arg0: Vec2i, arg1: Vec2i) -> Vec2i:
pass
@typing.overload
def GetProjection(arg0: Vec3d, arg1: Vec3d) -> Vec3d:
pass
@typing.overload
def GetProjection(arg0: Vec3f, arg1: Vec3f) -> Vec3f:
pass
@typing.overload
def GetProjection(arg0: Vec3h, arg1: Vec3h) -> Vec3h:
pass
@typing.overload
def GetProjection(arg0: Vec3i, arg1: Vec3i) -> Vec3i:
pass
@typing.overload
def GetProjection(arg0: Vec4d, arg1: Vec4d) -> Vec4d:
pass
@typing.overload
def GetProjection(arg0: Vec4f, arg1: Vec4f) -> Vec4f:
pass
@typing.overload
def GetProjection(arg0: Vec4h, arg1: Vec4h) -> Vec4h:
pass
@typing.overload
def GetProjection(arg0: Vec4i, arg1: Vec4i) -> Vec4i:
pass
@typing.overload
def IsClose(arg0: Matrix4d, arg1: Matrix4d, arg2: float) -> bool:
pass
@typing.overload
def IsClose(arg0: Matrix4f, arg1: Matrix4f, arg2: float) -> bool:
pass
@typing.overload
def IsClose(arg0: Quatd, arg1: Quatd, arg2: float) -> bool:
pass
@typing.overload
def IsClose(arg0: Quatf, arg1: Quatf, arg2: float) -> bool:
pass
@typing.overload
def IsClose(arg0: Quath, arg1: Quath, arg2: float) -> bool:
pass
@typing.overload
def IsClose(arg0: Vec2d, arg1: Vec2d, arg2: float) -> bool:
pass
@typing.overload
def IsClose(arg0: Vec2f, arg1: Vec2f, arg2: float) -> bool:
pass
@typing.overload
def IsClose(arg0: Vec2h, arg1: Vec2h, arg2: float) -> bool:
pass
@typing.overload
def IsClose(arg0: Vec2i, arg1: Vec2i, arg2: float) -> bool:
pass
@typing.overload
def IsClose(arg0: Vec3d, arg1: Vec3d, arg2: float) -> bool:
pass
@typing.overload
def IsClose(arg0: Vec3f, arg1: Vec3f, arg2: float) -> bool:
pass
@typing.overload
def IsClose(arg0: Vec3h, arg1: Vec3h, arg2: float) -> bool:
pass
@typing.overload
def IsClose(arg0: Vec3i, arg1: Vec3i, arg2: float) -> bool:
pass
@typing.overload
def IsClose(arg0: Vec4d, arg1: Vec4d, arg2: float) -> bool:
pass
@typing.overload
def IsClose(arg0: Vec4f, arg1: Vec4f, arg2: float) -> bool:
pass
@typing.overload
def IsClose(arg0: Vec4h, arg1: Vec4h, arg2: float) -> bool:
pass
@typing.overload
def IsClose(arg0: Vec4i, arg1: Vec4i, arg2: float) -> bool:
pass
@typing.overload
def IsClose(arg0: float, arg1: float, arg2: float) -> bool:
pass
@typing.overload
def Lerp(alpha: float, a: Vec2d, b: Vec2d) -> Vec2d:
pass
@typing.overload
def Lerp(alpha: float, a: Vec2f, b: Vec2f) -> Vec2f:
pass
@typing.overload
def Lerp(alpha: float, a: Vec2h, b: Vec2h) -> Vec2h:
pass
@typing.overload
def Lerp(alpha: float, a: Vec2i, b: Vec2i) -> Vec2i:
pass
@typing.overload
def Lerp(alpha: float, a: Vec3d, b: Vec3d) -> Vec3d:
pass
@typing.overload
def Lerp(alpha: float, a: Vec3f, b: Vec3f) -> Vec3f:
pass
@typing.overload
def Lerp(alpha: float, a: Vec3h, b: Vec3h) -> Vec3h:
pass
@typing.overload
def Lerp(alpha: float, a: Vec3i, b: Vec3i) -> Vec3i:
pass
@typing.overload
def Lerp(alpha: float, a: Vec4d, b: Vec4d) -> Vec4d:
pass
@typing.overload
def Lerp(alpha: float, a: Vec4f, b: Vec4f) -> Vec4f:
pass
@typing.overload
def Lerp(alpha: float, a: Vec4h, b: Vec4h) -> Vec4h:
pass
@typing.overload
def Lerp(alpha: float, a: Vec4i, b: Vec4i) -> Vec4i:
pass
@typing.overload
def Lerp(alpha: float, a: float, b: float) -> float:
pass
def Lerpf(alpha: float, a: float, b: float) -> float:
pass
@typing.overload
def Max(arg0: float, arg1: float) -> float:
pass
@typing.overload
def Max(arg0: float, arg1: float, arg2: float) -> float:
pass
@typing.overload
def Max(arg0: float, arg1: float, arg2: float, arg3: float) -> float:
pass
@typing.overload
def Max(arg0: float, arg1: float, arg2: float, arg3: float, arg4: float) -> float:
pass
@typing.overload
def Max(arg0: int, arg1: int) -> int:
pass
@typing.overload
def Max(arg0: int, arg1: int, arg2: int) -> int:
pass
@typing.overload
def Max(arg0: int, arg1: int, arg2: int, arg3: int) -> int:
pass
@typing.overload
def Max(arg0: int, arg1: int, arg2: int, arg3: int, arg4: int) -> int:
pass
@typing.overload
def Min(arg0: float, arg1: float) -> float:
pass
@typing.overload
def Min(arg0: float, arg1: float, arg2: float) -> float:
pass
@typing.overload
def Min(arg0: float, arg1: float, arg2: float, arg3: float) -> float:
pass
@typing.overload
def Min(arg0: float, arg1: float, arg2: float, arg3: float, arg4: float) -> float:
pass
@typing.overload
def Min(arg0: int, arg1: int) -> int:
pass
@typing.overload
def Min(arg0: int, arg1: int, arg2: int) -> int:
pass
@typing.overload
def Min(arg0: int, arg1: int, arg2: int, arg3: int) -> int:
pass
@typing.overload
def Min(arg0: int, arg1: int, arg2: int, arg3: int, arg4: int) -> int:
pass
@typing.overload
def Normalize(arg0: Vec2d) -> float:
pass
@typing.overload
def Normalize(arg0: Vec2f) -> float:
pass
@typing.overload
def Normalize(arg0: Vec2h) -> float:
pass
@typing.overload
def Normalize(arg0: Vec2i) -> float:
pass
@typing.overload
def Normalize(arg0: Vec3d) -> float:
pass
@typing.overload
def Normalize(arg0: Vec3f) -> float:
pass
@typing.overload
def Normalize(arg0: Vec3h) -> float:
pass
@typing.overload
def Normalize(arg0: Vec3i) -> float:
pass
@typing.overload
def Normalize(arg0: Vec4d) -> float:
pass
@typing.overload
def Normalize(arg0: Vec4f) -> float:
pass
@typing.overload
def Normalize(arg0: Vec4h) -> float:
pass
@typing.overload
def Normalize(arg0: Vec4i) -> float:
pass
def RadiansToDegrees(arg0: float) -> float:
pass
@typing.overload
def Slerp(alpha: float, v1: Vec2d, v2: Vec2d) -> Vec2d:
pass
@typing.overload
def Slerp(alpha: float, v1: Vec2f, v2: Vec2f) -> Vec2f:
pass
@typing.overload
def Slerp(alpha: float, v1: Vec2h, v2: Vec2h) -> Vec2h:
pass
@typing.overload
def Slerp(alpha: float, v1: Vec2i, v2: Vec2i) -> Vec2i:
pass
@typing.overload
def Slerp(alpha: float, v1: Vec3d, v2: Vec3d) -> Vec3d:
pass
@typing.overload
def Slerp(alpha: float, v1: Vec3f, v2: Vec3f) -> Vec3f:
pass
@typing.overload
def Slerp(alpha: float, v1: Vec3h, v2: Vec3h) -> Vec3h:
pass
@typing.overload
def Slerp(alpha: float, v1: Vec3i, v2: Vec3i) -> Vec3i:
pass
@typing.overload
def Slerp(alpha: float, v1: Vec4d, v2: Vec4d) -> Vec4d:
pass
@typing.overload
def Slerp(alpha: float, v1: Vec4f, v2: Vec4f) -> Vec4f:
pass
@typing.overload
def Slerp(alpha: float, v1: Vec4h, v2: Vec4h) -> Vec4h:
pass
@typing.overload
def Slerp(alpha: float, v1: Vec4i, v2: Vec4i) -> Vec4i:
pass
@typing.overload
def Slerp(arg0: float, arg1: Quatd, arg2: Quatd) -> Quatd:
pass
@typing.overload
def Slerp(arg0: float, arg1: Quatf, arg2: Quatf) -> Quatf:
pass
@typing.overload
def Slerp(arg0: float, arg1: Quath, arg2: Quath) -> Quath:
pass
| 88,849 | unknown | 33.371373 | 249 | 0.565758 |
omniverse-code/kit/exts/usdrt.gf/python/usdrt/Gf/tests/testGfRect.py | #!/pxrpythonsubst
#
# Copyright 2016 Pixar
#
# Licensed under the Apache License, Version 2.0 (the "Apache License")
# with the following modification; you may not use this file except in
# compliance with the Apache License and the following modification to it:
# Section 6. Trademarks. is deleted and replaced with:
#
# 6. Trademarks. This License does not grant permission to use the trade
# names, trademarks, service marks, or product names of the Licensor
# and its affiliates, except as required to comply with Section 4(c) of
# the License and to reproduce the content of the NOTICE file.
#
# You may obtain a copy of the Apache License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the Apache License with the above modification is
# distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
# KIND, either express or implied. See the Apache License for the specific
# language governing permissions and limitations under the Apache License.
#
# Note: This is just pulled directly from USD and modified.
# https://github.com/PixarAnimationStudios/USD/blob/release/pxr/base/gf/testenv/testGfRect2i.py
from __future__ import division
import math
import sys
import unittest
def setUpModule():
# pre-load USD before anything else to prevent crash
# from weird carb conflict
# FIXME ^^^
try:
from . import update_path_and_load_usd
update_path_and_load_usd()
except ImportError:
# not needed in Kit
pass
try:
import omni.kit.test
TestClass = omni.kit.test.AsyncTestCase
except ImportError:
TestClass = unittest.TestCase
from usdrt import Gf
class TestGfRect2i(TestClass):
def test_Constructor(self):
self.assertIsInstance(Gf.Rect2i(), Gf.Rect2i)
self.assertIsInstance(Gf.Rect2i(Gf.Vec2i(), Gf.Vec2i()), Gf.Rect2i)
self.assertIsInstance(Gf.Rect2i(Gf.Vec2i(), 1, 1), Gf.Rect2i)
self.assertTrue(Gf.Rect2i().IsNull())
self.assertTrue(Gf.Rect2i().IsEmpty())
self.assertFalse(Gf.Rect2i().IsValid())
# further test of above.
r = Gf.Rect2i(Gf.Vec2i(), Gf.Vec2i(-1, 0))
self.assertTrue(not r.IsNull() and r.IsEmpty())
self.assertEqual(
Gf.Rect2i(Gf.Vec2i(-1, 1), Gf.Vec2i(1, -1)).GetNormalized(), Gf.Rect2i(Gf.Vec2i(-1, -1), Gf.Vec2i(1, 1))
)
def test_Properties(self):
r = Gf.Rect2i()
r.max = Gf.Vec2i()
r.min = Gf.Vec2i(1, 1)
r.GetNormalized()
r.max = Gf.Vec2i(1, 1)
r.min = Gf.Vec2i()
r.GetNormalized()
r.min = Gf.Vec2i(3, 1)
self.assertEqual(r.min, Gf.Vec2i(3, 1))
r.max = Gf.Vec2i(4, 5)
self.assertEqual(r.max, Gf.Vec2i(4, 5))
r.minX = 10
self.assertEqual(r.minX, 10)
r.maxX = 20
self.assertEqual(r.maxX, 20)
r.minY = 30
self.assertEqual(r.minY, 30)
r.maxY = 40
self.assertEqual(r.maxY, 40)
r = Gf.Rect2i(Gf.Vec2i(), Gf.Vec2i(10, 10))
self.assertEqual(r.GetCenter(), Gf.Vec2i(5, 5))
self.assertEqual(r.GetArea(), 121)
self.assertEqual(r.GetHeight(), 11)
self.assertEqual(r.GetWidth(), 11)
self.assertEqual(r.GetSize(), Gf.Vec2i(11, 11))
r.Translate(Gf.Vec2i(10, 10))
self.assertEqual(r, Gf.Rect2i(Gf.Vec2i(10, 10), Gf.Vec2i(20, 20)))
r1 = Gf.Rect2i()
r2 = Gf.Rect2i(Gf.Vec2i(), Gf.Vec2i(1, 1))
r1.GetIntersection(r2)
r2.GetIntersection(r1)
r1.GetIntersection(r1)
r1.GetUnion(r2)
r2.GetUnion(r1)
r1.GetUnion(r1)
r1 = Gf.Rect2i(Gf.Vec2i(0, 0), Gf.Vec2i(10, 10))
r2 = Gf.Rect2i(Gf.Vec2i(5, 5), Gf.Vec2i(15, 15))
self.assertEqual(r1.GetIntersection(r2), Gf.Rect2i(Gf.Vec2i(5, 5), Gf.Vec2i(10, 10)))
self.assertEqual(r1.GetUnion(r2), Gf.Rect2i(Gf.Vec2i(0, 0), Gf.Vec2i(15, 15)))
tmp = Gf.Rect2i(r1)
tmp += r2
self.assertEqual(tmp, Gf.Rect2i(Gf.Vec2i(0, 0), Gf.Vec2i(15, 15)))
self.assertTrue(r1.Contains(Gf.Vec2i(3, 3)) and not r1.Contains(Gf.Vec2i(11, 11)))
self.assertEqual(r1, Gf.Rect2i(Gf.Vec2i(0, 0), Gf.Vec2i(10, 10)))
self.assertTrue(r1 != r2)
self.assertEqual(r1, eval(repr(r1)))
self.assertTrue(len(str(Gf.Rect2i())))
if __name__ == "__main__":
unittest.main()
| 4,475 | Python | 29.657534 | 116 | 0.631732 |
omniverse-code/kit/exts/usdrt.gf/python/usdrt/Gf/tests/test_gf_quat_extras.py | __copyright__ = "Copyright (c) 2022, NVIDIA CORPORATION. All rights reserved."
__license__ = """
NVIDIA CORPORATION and its licensors retain all intellectual property
and proprietary rights in and to this software, related documentation
and any modifications thereto. Any use, reproduction, disclosure or
distribution of this software and related documentation without an express
license agreement from NVIDIA CORPORATION is strictly prohibited.
"""
import omni.kit.test
import copy
import math
import os
import platform
import sys
import time
import unittest
from . import TestRtScenegraph, tc_logger, update_path_and_load_usd
def setUpModule():
# pre-load USD before anything else to prevent crash
# from weird carb conflict
# FIXME ^^^
update_path_and_load_usd()
def get_quat_info():
"""Return list of tuples of class, scalar size, and format string"""
from usdrt import Gf
quat_info = [
(Gf.Quatd, 8, "d"),
(Gf.Quatf, 4, "f"),
(Gf.Quath, 2, "e"),
]
return quat_info
def get_quat_numpy_types():
import numpy
import usdrt
equivalent_types = {
usdrt.Gf.Quatd: numpy.double,
usdrt.Gf.Quatf: numpy.single,
usdrt.Gf.Quath: numpy.half,
}
return equivalent_types
class TestGfQuatBuffer(TestRtScenegraph):
"""Test buffer protocol for usdrt.Gf.Quat* classes"""
@tc_logger
def test_buffer_inspect(self):
"""Use memoryview to validate that buffer protocol is implemented"""
quat_info = get_quat_info()
test_values = [9, 8, 7, 1]
for Quat, size, fmt in quat_info:
q = Quat(test_values[3], test_values[0], test_values[1], test_values[2])
view = memoryview(q)
self.assertEquals(view.itemsize, size)
self.assertEquals(view.ndim, 1)
self.assertEquals(view.shape, (4,))
self.assertEquals(view.format, fmt)
self.assertEquals(view.obj, Quat(test_values[3], test_values[0], test_values[1], test_values[2]))
@tc_logger
def test_buffer_init(self):
"""Validate initialization from an array using buffer protocol"""
import array
quat_info = get_quat_info()
test_values = [9, 8, 7, 1]
for Quat, size, fmt in quat_info:
if fmt == "e":
# GfHalf not supported with array.array
continue
test_array = array.array(fmt, test_values)
test_quat = Quat(test_array)
self.assertEquals(test_quat, Quat(test_values[3], test_values[0], test_values[1], test_values[2]))
@tc_logger
def test_buffer_init_from_numpy_type(self):
"""Test initialization from numpy types"""
import numpy
quat_info = get_quat_info()
equivalent_types = get_quat_numpy_types()
test_values = [9, 8, 7, 1]
for Quat, size, fmt in quat_info:
test_numpy_type = numpy.array(test_values, dtype=equivalent_types[Quat])
test_quat = Quat(test_numpy_type)
self.assertEquals(test_quat, Quat(test_values[3], test_values[0], test_values[1], test_values[2]))
@tc_logger
def test_buffer_init_wrong_type(self):
"""Verify that an exception is raised with initializing via buffer with different data type"""
import array
quat_info = get_quat_info()
test_values = [9, 8, 7, 1]
for Quat, size, fmt in quat_info:
test_array = array.array("h", test_values)
with self.assertRaises(ValueError):
test_quat = Quat(test_array)
@tc_logger
def test_buffer_init_wrong_size(self):
"""Verify that an exception is raised with initializing via buffer with different data array length"""
import array
quat_info = get_quat_info()
test_values = [9, 8, 7, 6, 1]
for Quat, size, fmt in quat_info:
if fmt == "e":
# GfHalf not supported with array.array
continue
test_array = array.array(fmt, test_values)
with self.assertRaises(ValueError):
test_vec = Quat(test_array)
@tc_logger
def test_buffer_init_wrong_dimension(self):
"""Verify that an exception is raised with initializing via buffer with different data dimensions"""
import numpy
quat_info = get_quat_info()
equivalent_types = get_quat_numpy_types()
test_values = [9, 8, 7, 1]
for Quat, size, fmt in quat_info:
test_array = numpy.array([test_values, test_values], dtype=equivalent_types[Quat])
with self.assertRaises(ValueError):
test_quat = Quat(test_array)
class TestGfQuatGetSetItem(TestRtScenegraph):
"""Test item accessors for usdrt.Gf.Quat* classes"""
@tc_logger
def test_get_item(self):
"""Validate __getitem__ on GfQuat"""
from usdrt import Gf
for Quat in [Gf.Quatf, Gf.Quatd, Gf.Quath]:
q = Quat(0.5, 1, 2, 3)
# Note that these are in memory layout order,
# which is different from constructor order
self.assertEqual(q[0], 1)
self.assertEqual(q[1], 2)
self.assertEqual(q[2], 3)
self.assertEqual(q[3], 0.5)
self.assertEqual(q[-4], 1)
self.assertEqual(q[-3], 2)
self.assertEqual(q[-2], 3)
self.assertEqual(q[-1], 0.5)
@tc_logger
def test_set_item(self):
"""Validate __setitem__ on GfQuat"""
from usdrt import Gf
for Quat in [Gf.Quatf, Gf.Quatd, Gf.Quath]:
q = Quat()
self.assertEqual(q.imaginary[0], 0)
self.assertEqual(q.imaginary[1], 0)
self.assertEqual(q.imaginary[2], 0)
self.assertEqual(q.real, 0)
q[0] = 1
q[1] = 2
q[2] = 3
q[3] = 0.5
self.assertEqual(q.imaginary[0], 1)
self.assertEqual(q.imaginary[1], 2)
self.assertEqual(q.imaginary[2], 3)
self.assertEqual(q.real, 0.5)
@tc_logger
def test_get_item_slice(self):
"""Validate __getitem__ with a slice on GfQuat"""
from usdrt import Gf
for Quat in [Gf.Quatf, Gf.Quatd, Gf.Quath]:
q = Quat(0.5, 1, 2, 3)
self.assertEqual(q[1:], [2, 3, 0.5])
@tc_logger
def test_set_item_slice(self):
"""Validate __setitem__ with a slice on GfQuat"""
from usdrt import Gf
for Quat in [Gf.Quatf, Gf.Quatd, Gf.Quath]:
q = Quat(0.5, 1, 2, 3)
self.assertEqual(q.imaginary[0], 1)
self.assertEqual(q.imaginary[1], 2)
self.assertEqual(q.imaginary[2], 3)
self.assertEqual(q.real, 0.5)
q[1:] = [5, 6, 7]
self.assertEqual(q.imaginary[0], 1)
self.assertEqual(q.imaginary[1], 5)
self.assertEqual(q.imaginary[2], 6)
self.assertEqual(q.real, 7)
class TestGfQuatCopy(TestRtScenegraph):
"""Test copy and deepcopy support for Gf.Quat* classes"""
@tc_logger
def test_copy(self):
"""Test __copy__"""
quat_info = get_quat_info()
for Quat, size, fmt in quat_info:
x = Quat()
y = x
self.assertTrue(y is x)
y[0] = 10
self.assertEqual(x[0], 10)
z = copy.copy(y)
self.assertFalse(z is y)
y[0] = 100
self.assertEqual(z[0], 10)
@tc_logger
def test_deepcopy(self):
"""Test __deepcopy__"""
quat_info = get_quat_info()
for Quat, size, fmt in quat_info:
x = Quat()
y = x
self.assertTrue(y is x)
y[0] = 10
self.assertEqual(x[0], 10)
z = copy.deepcopy(y)
self.assertFalse(z is y)
y[0] = 100
self.assertEqual(z[0], 10)
class TestGfQuatDebugging(TestRtScenegraph):
"""Test human readable output functions for debugging"""
@tc_logger
def test_repr_representation(self):
"""Test __repr__"""
from usdrt import Gf
test_quat = Gf.Quatf(0.5, 1, 2, 3)
expected = "Gf.Quatf(0.5, Gf.Vec3f(1.0, 2.0, 3.0))"
self.assertEqual(repr(test_quat), expected)
| 8,350 | Python | 27.796552 | 110 | 0.572455 |
omniverse-code/kit/exts/usdrt.gf/python/usdrt/Gf/tests/testGfVec.py | # Copyright 2016 Pixar
#
# Licensed under the Apache License, Version 2.0 (the "Apache License")
# with the following modification; you may not use this file except in
# compliance with the Apache License and the following modification to it:
# Section 6. Trademarks. is deleted and replaced with:
#
# 6. Trademarks. This License does not grant permission to use the trade
# names, trademarks, service marks, or product names of the Licensor
# and its affiliates, except as required to comply with Section 4(c) of
# the License and to reproduce the content of the NOTICE file.
#
# You may obtain a copy of the Apache License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the Apache License with the above modification is
# distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
# KIND, either express or implied. See the Apache License for the specific
# language governing permissions and limitations under the Apache License.
#
# Note: This is just pulled directly from USD and lightly modified
# https://github.com/PixarAnimationStudios/USD/blob/release/pxr/base/gf/testenv/testGfVec.py
from __future__ import division
__copyright__ = "Copyright (c) 2022, NVIDIA CORPORATION. All rights reserved."
__license__ = """
NVIDIA CORPORATION and its licensors retain all intellectual property
and proprietary rights in and to this software, related documentation
and any modifications thereto. Any use, reproduction, disclosure or
distribution of this software and related documentation without an express
license agreement from NVIDIA CORPORATION is strictly prohibited.
"""
import os
import platform
import sys
import time
import unittest
##### Uncomment for better assert messages
# if 'unittest.util' in __import__('sys').modules:
# # Show full diff in self.assertEqual.
# __import__('sys').modules['unittest.util']._MAX_LENGTH = 999999999
def setUpModule():
# pre-load USD before anything else to prevent crash
# from weird carb conflict
# FIXME ^^^
try:
from . import update_path_and_load_usd
update_path_and_load_usd()
except ImportError:
# not needed in Kit
pass
try:
import omni.kit.test
TestClass = omni.kit.test.AsyncTestCase
except ImportError:
TestClass = unittest.TestCase
import math
import sys
import unittest
def floatTypeRank(vec):
from usdrt import Gf
vecIntTypes = [Gf.Vec2i, Gf.Vec3i, Gf.Vec4i]
vecDoubleTypes = [Gf.Vec2d, Gf.Vec3d, Gf.Vec4d]
vecFloatTypes = [Gf.Vec2f, Gf.Vec3f, Gf.Vec4f]
vecHalfTypes = [Gf.Vec2h, Gf.Vec3h, Gf.Vec4h]
if vec in vecDoubleTypes:
return 3
elif vec in vecFloatTypes:
return 2
elif vec in vecHalfTypes:
return 1
def isFloatingPoint(vec):
from usdrt import Gf
vecIntTypes = [Gf.Vec2i, Gf.Vec3i, Gf.Vec4i]
vecDoubleTypes = [Gf.Vec2d, Gf.Vec3d, Gf.Vec4d]
vecFloatTypes = [Gf.Vec2f, Gf.Vec3f, Gf.Vec4f]
vecHalfTypes = [Gf.Vec2h, Gf.Vec3h, Gf.Vec4h]
return (vec in vecDoubleTypes) or (vec in vecFloatTypes) or (vec in vecHalfTypes)
def getEps(vec):
rank = floatTypeRank(vec)
if rank == 1:
return 1e-2
elif rank == 2:
return 1e-3
elif rank == 3:
return 1e-4
def vecWithType(vecType, type):
from usdrt import Gf
if vecType.dimension == 2:
if type == "d":
return Gf.Vec2d
elif type == "f":
return Gf.Vec2f
elif type == "h":
return Gf.Vec2h
elif type == "i":
return Gf.Vec2i
elif vecType.dimension == 3:
if type == "d":
return Gf.Vec3d
elif type == "f":
return Gf.Vec3f
elif type == "h":
return Gf.Vec3h
elif type == "i":
return Gf.Vec3i
elif vecType.dimension == 4:
if type == "d":
return Gf.Vec4d
elif type == "f":
return Gf.Vec4f
elif type == "h":
return Gf.Vec4h
elif type == "i":
return Gf.Vec4i
assert False, "No valid conversion for " + vecType + " to type " + type
return None
def checkVec(vec, values):
for i in range(len(vec)):
if vec[i] != values[i]:
return False
return True
def checkVecDot(v1, v2, dp):
if len(v1) != len(v2):
return False
checkdp = 0
for i in range(len(v1)):
checkdp += v1[i] * v2[i]
return checkdp == dp
def SetVec(vec, values):
for i in range(len(vec)):
vec[i] = values[i]
class TestGfVec(TestClass):
def ConstructorsTest(self, Vec):
# no arg constructor
self.assertIsInstance(Vec(), Vec)
# default constructor
v = Vec()
for x in v:
self.assertEqual(0, x)
# copy constructor
v = Vec()
for i in range(len(v)):
v[i] = i
v2 = Vec(v)
for i in range(len(v2)):
self.assertEqual(v[i], v2[i])
# explicit constructor
values = [3, 1, 4, 1]
if Vec.dimension == 2:
v = Vec(3, 1)
self.assertTrue(checkVec(v, values))
elif Vec.dimension == 3:
v = Vec(3, 1, 4)
self.assertTrue(checkVec(v, values))
elif Vec.dimension == 4:
v = Vec(3, 1, 4, 1)
self.assertTrue(checkVec(v, values))
else:
self.assertTrue(False, "No explicit constructor check for " + Vec)
# constructor taking single scalar value.
v = Vec(0)
self.assertTrue(all([x == 0 for x in v]))
v = Vec(1)
self.assertTrue(all([x == 1 for x in v]))
v = Vec(2)
self.assertTrue(all([x == 2 for x in v]))
# conversion from other types to this float type.
if isFloatingPoint(Vec):
for t in "dfih":
V = vecWithType(Vec, t)
self.assertTrue(Vec(V()))
# comparison to int type
Veci = vecWithType(Vec, "i")
vi = Veci()
SetVec(vi, (3, 1, 4, 1))
self.assertEqual(Vec(vi), vi)
if isFloatingPoint(Vec):
# Comparison to float type
for t in "dfh":
V = vecWithType(Vec, t)
v = V()
SetVec(v, (0.3, 0.1, 0.4, 0.1))
if floatTypeRank(Vec) >= floatTypeRank(V):
self.assertEqual(Vec(v), v)
else:
self.assertNotEqual(Vec(v), v)
def OperatorsTest(self, Vec):
from usdrt import Gf
v1 = Vec()
v2 = Vec()
# equality
SetVec(v1, [3, 1, 4, 1])
SetVec(v2, [3, 1, 4, 1])
self.assertEqual(v1, v2)
# inequality
SetVec(v1, [3, 1, 4, 1])
SetVec(v2, [5, 9, 2, 6])
self.assertNotEqual(v1, v2)
# component-wise addition
SetVec(v1, [3, 1, 4, 1])
SetVec(v2, [5, 9, 2, 6])
v3 = v1 + v2
v1 += v2
self.assertTrue(checkVec(v1, [8, 10, 6, 7]))
self.assertTrue(checkVec(v3, [8, 10, 6, 7]))
# component-wise subtraction
SetVec(v1, [3, 1, 4, 1])
SetVec(v2, [5, 9, 2, 6])
v3 = v1 - v2
v1 -= v2
self.assertTrue(checkVec(v1, [-2, -8, 2, -5]))
self.assertTrue(checkVec(v3, [-2, -8, 2, -5]))
# component-wise multiplication
SetVec(v1, [3, 1, 4, 1])
SetVec(v2, [5, 9, 2, 6])
v4 = v1 * 10
v5 = 10 * v1
v1 *= 10
self.assertTrue(checkVec(v1, [30, 10, 40, 10]))
self.assertTrue(checkVec(v4, [30, 10, 40, 10]))
self.assertTrue(checkVec(v5, [30, 10, 40, 10]))
# component-wise division
SetVec(v1, [3, 6, 9, 12])
v3 = v1 / 3
v1 /= 3
self.assertTrue(checkVec(v1, [1, 2, 3, 4]))
self.assertTrue(checkVec(v3, [1, 2, 3, 4]))
# dot product
SetVec(v1, [3, 1, 4, 1])
SetVec(v2, [5, 9, 2, 6])
dp = v1 * v2
dp2 = Gf.Dot(v1, v2)
dp3 = v1.GetDot(v2) # 2x compatibility
self.assertTrue(checkVecDot(v1, v2, dp))
self.assertTrue(checkVecDot(v1, v2, dp2))
self.assertTrue(checkVecDot(v1, v2, dp3))
# unary minus (negation)
SetVec(v1, [3, 1, 4, 1])
self.assertTrue(checkVec(-v1, [-3, -1, -4, -1]))
# repr
self.assertEqual(v1, eval(repr(v1)))
# string
self.assertTrue(len(str(Vec())) > 0)
# indexing
v = Vec()
for i in range(Vec.dimension):
v[i] = i + 1
self.assertEqual(v[-1], v[v.dimension - 1])
self.assertEqual(v[0], 1)
self.assertIn(v.dimension, v)
self.assertNotIn(v.dimension + 1, v)
with self.assertRaises(IndexError):
v[v.dimension + 1] = v.dimension + 1
# slicing
v = Vec()
value = [3, 1, 4, 1]
SetVec(v, value)
value = v[0 : v.dimension]
self.assertEqual(v[:], value)
self.assertEqual(v[:2], value[:2])
self.assertEqual(v[0:2], value[0:2])
self.assertEqual(v[-2:], value[-2:])
self.assertEqual(v[1:1], [])
if v.dimension > 2:
self.assertEqual(v[0:3:2], [3, 4])
v[:2] = (8, 9)
checkVec(v, [8, 9, 4, 1])
if v.dimension > 2:
v[:3:2] = [0, 1]
checkVec(v, [0, 9, 1, 1])
with self.assertRaises(ValueError):
# This should fail. Wrong length sequence
#
v[:2] = [1, 2, 3]
with self.assertRaises(TypeError):
# This should fail. Cannot use floats for indices
v[0.0:2.0] = [7, 7]
with self.assertRaises(TypeError):
# This should fail. Cannot convert None to vector data
#
v[:2] = [None, None]
def MethodsTest(self, Vec):
from usdrt import Gf
v1 = Vec()
v2 = Vec()
if isFloatingPoint(Vec):
eps = getEps(Vec)
# length
SetVec(v1, [3, 1, 4, 1])
l = Gf.GetLength(v1)
l2 = v1.GetLength()
self.assertTrue(Gf.IsClose(l, l2, eps), repr(l) + " " + repr(l2))
self.assertTrue(
Gf.IsClose(l, math.sqrt(Gf.Dot(v1, v1)), eps),
" ".join([repr(x) for x in [l, v1, math.sqrt(Gf.Dot(v1, v1))]]),
)
# Normalize...
SetVec(v1, [3, 1, 4, 1])
v2 = Vec(v1)
v2.Normalize()
nv = Gf.GetNormalized(v1)
nv2 = v1.GetNormalized()
nvcheck = v1 / Gf.GetLength(v1)
self.assertTrue(Gf.IsClose(nv, nvcheck, eps))
self.assertTrue(Gf.IsClose(nv2, nvcheck, eps))
self.assertTrue(Gf.IsClose(v2, nvcheck, eps))
SetVec(v1, [3, 1, 4, 1])
nv = v1.GetNormalized()
nvcheck = v1 / Gf.GetLength(v1)
self.assertTrue(Gf.IsClose(nv, nvcheck, eps)) # nv edit - linalg implementation not exactly equal
SetVec(v1, [0, 0, 0, 0])
v1.Normalize()
self.assertTrue(checkVec(v1, [0, 0, 0, 0]))
SetVec(v1, [2, 0, 0, 0])
Gf.Normalize(v1)
self.assertTrue(checkVec(v1, [1, 0, 0, 0]))
# projection
SetVec(v1, [3, 1, 4, 1])
SetVec(v2, [5, 9, 2, 6])
p1 = Gf.GetProjection(v1, v2)
p2 = v1.GetProjection(v2)
check = (v1 * v2) * v2
self.assertEqual(p1, check)
self.assertEqual(p2, check)
# complement
SetVec(v1, [3, 1, 4, 1])
SetVec(v2, [5, 9, 2, 6])
p1 = Gf.GetComplement(v1, v2)
p2 = v1.GetComplement(v2)
check = v1 - (v1 * v2) * v2
self.assertTrue((p1 == check) and (p2 == check))
# component-wise multiplication
SetVec(v1, [3, 1, 4, 1])
SetVec(v2, [5, 9, 2, 6])
v3 = Gf.CompMult(v1, v2)
self.assertTrue(checkVec(v3, [15, 9, 8, 6]))
# component-wise division
SetVec(v1, [3, 9, 18, 21])
SetVec(v2, [3, 3, 9, 7])
v3 = Gf.CompDiv(v1, v2)
self.assertTrue(checkVec(v3, [1, 3, 2, 3]))
# is close
SetVec(v1, [3, 1, 4, 1])
SetVec(v2, [5, 9, 2, 6])
self.assertTrue(Gf.IsClose(v1, v1, 0.1))
self.assertFalse(Gf.IsClose(v1, v2, 0.1))
# static Axis methods
for i in range(Vec.dimension):
v1 = Vec.Axis(i)
v2 = Vec()
v2[i] = 1
self.assertEqual(v1, v2)
v1 = Vec.XAxis()
self.assertTrue(checkVec(v1, [1, 0, 0, 0]))
v1 = Vec.YAxis()
self.assertTrue(checkVec(v1, [0, 1, 0, 0]))
if Vec.dimension != 2:
v1 = Vec.ZAxis()
self.assertTrue(checkVec(v1, [0, 0, 1, 0]))
if Vec.dimension == 3:
# cross product
SetVec(v1, [3, 1, 4, 0])
SetVec(v2, [5, 9, 2, 0])
v3 = Vec(Gf.Cross(v1, v2))
v4 = v1 ^ v2
v5 = v1.GetCross(v2) # 2x compatibility
check = Vec()
SetVec(check, [1 * 2 - 4 * 9, 4 * 5 - 3 * 2, 3 * 9 - 1 * 5, 0])
self.assertTrue(v3 == check and v4 == check and v5 == check)
# orthogonalize basis
# case 1: close to orthogonal, don't normalize
SetVec(v1, [1, 0, 0.1])
SetVec(v2, [0.1, 1, 0])
SetVec(v3, [0, 0.1, 1])
self.assertTrue(Vec.OrthogonalizeBasis(v1, v2, v3, False))
self.assertTrue(Gf.IsClose(Gf.Dot(v2, v1), 0, eps))
self.assertTrue(Gf.IsClose(Gf.Dot(v3, v1), 0, eps))
self.assertTrue(Gf.IsClose(Gf.Dot(v2, v3), 0, eps))
# case 2: far from orthogonal, normalize
SetVec(v1, [1, 2, 3])
SetVec(v2, [-1, 2, 3])
SetVec(v3, [-1, -2, 3])
self.assertTrue(Vec.OrthogonalizeBasis(v1, v2, v3, True))
self.assertTrue(Gf.IsClose(Gf.Dot(v2, v1), 0, eps))
self.assertTrue(Gf.IsClose(Gf.Dot(v3, v1), 0, eps))
self.assertTrue(Gf.IsClose(Gf.Dot(v2, v3), 0, eps))
self.assertTrue(Gf.IsClose(v1.GetLength(), 1, eps))
self.assertTrue(Gf.IsClose(v2.GetLength(), 1, eps))
self.assertTrue(Gf.IsClose(v3.GetLength(), 1, eps))
# case 3: already orthogonal - shouldn't change, even with large
# tolerance
SetVec(v1, [1, 0, 0])
SetVec(v2, [0, 1, 0])
SetVec(v3, [0, 0, 1])
vt1 = v1
vt2 = v2
vt3 = v3
self.assertTrue(Vec.OrthogonalizeBasis(v1, v2, v3, False)) # nv edit - no epsilon parameter
self.assertTrue(v1 == vt1)
self.assertTrue(v2 == vt2)
self.assertTrue(v3 == vt3)
# case 4: co-linear input vectors - should do nothing
SetVec(v1, [1, 0, 0])
SetVec(v2, [1, 0, 0])
SetVec(v3, [0, 0, 1])
vt1 = v1
vt2 = v2
vt3 = v3
self.assertFalse(Vec.OrthogonalizeBasis(v1, v2, v3, False)) # nv edit - no epsilon parameter
self.assertEqual(v1, vt1)
self.assertEqual(v2, vt2)
self.assertEqual(v3, vt3)
# build orthonormal frame
SetVec(v1, [1, 1, 1, 1])
(v2, v3) = v1.BuildOrthonormalFrame()
self.assertTrue(Gf.IsClose(Gf.Dot(v2, v1), 0, eps))
self.assertTrue(Gf.IsClose(Gf.Dot(v3, v1), 0, eps))
self.assertTrue(Gf.IsClose(Gf.Dot(v2, v3), 0, eps))
SetVec(v1, [0, 0, 0, 0])
(v2, v3) = v1.BuildOrthonormalFrame()
self.assertTrue(Gf.IsClose(v2, Vec(), eps))
self.assertTrue(Gf.IsClose(v3, Vec(), eps))
SetVec(v1, [1, 0, 0, 0])
(v2, v3) = v1.BuildOrthonormalFrame()
self.assertTrue(Gf.IsClose(Gf.Dot(v2, v1), 0, eps))
self.assertTrue(Gf.IsClose(Gf.Dot(v3, v1), 0, eps))
self.assertTrue(Gf.IsClose(Gf.Dot(v2, v3), 0, eps))
SetVec(v1, [1, 0, 0, 0])
(v2, v3) = v1.BuildOrthonormalFrame()
self.assertTrue(Gf.IsClose(Gf.Dot(v2, v1), 0, eps))
self.assertTrue(Gf.IsClose(Gf.Dot(v3, v1), 0, eps))
self.assertTrue(Gf.IsClose(Gf.Dot(v2, v3), 0, eps))
SetVec(v1, [1, 0, 0, 0])
(v2, v3) = v1.BuildOrthonormalFrame(2)
self.assertTrue(Gf.IsClose(Gf.Dot(v2, v1), 0, eps))
self.assertTrue(Gf.IsClose(Gf.Dot(v3, v1), 0, eps))
self.assertTrue(Gf.IsClose(Gf.Dot(v2, v3), 0, eps))
# test Slerp w/ orthogonal vectors
SetVec(v1, [1, 0, 0])
SetVec(v2, [0, 1, 0])
v3 = Gf.Slerp(0, v1, v2)
self.assertTrue(Gf.IsClose(v3, v1, eps))
v3 = Gf.Slerp(1, v1, v2)
self.assertTrue(Gf.IsClose(v3, v3, eps))
v3 = Gf.Slerp(0.5, v1, v2)
self.assertTrue(Gf.IsClose(v3, Vec(0.7071, 0.7071, 0), eps))
# test Slerp w/ nearly parallel vectors
SetVec(v1, [1, 0, 0])
SetVec(v2, [1.001, 0.0001, 0])
v2.Normalize()
v3 = Gf.Slerp(0, v1, v2)
self.assertTrue(Gf.IsClose(v3, v1, eps))
v3 = Gf.Slerp(1, v1, v2)
self.assertTrue(Gf.IsClose(v3, v3, eps))
v3 = Gf.Slerp(0.5, v1, v2)
self.assertTrue(Gf.IsClose(v3, v1, eps), [v3, v1, eps])
self.assertTrue(Gf.IsClose(v3, v2, eps))
# test Slerp w/ opposing vectors
SetVec(v1, [1, 0, 0])
SetVec(v2, [-1, 0, 0])
v3 = Gf.Slerp(0, v1, v2)
self.assertTrue(Gf.IsClose(v3, v1, eps))
v3 = Gf.Slerp(0.25, v1, v2)
self.assertTrue(Gf.IsClose(v3, Vec(0.70711, 0, -0.70711), eps))
v3 = Gf.Slerp(0.5, v1, v2)
self.assertTrue(Gf.IsClose(v3, Vec(0, 0, -1), eps))
v3 = Gf.Slerp(0.75, v1, v2)
self.assertTrue(Gf.IsClose(v3, Vec(-0.70711, 0, -0.70711), eps))
v3 = Gf.Slerp(1, v1, v2)
self.assertTrue(Gf.IsClose(v3, v3, eps))
# test Slerp w/ opposing vectors
SetVec(v1, [0, 1, 0])
SetVec(v2, [0, -1, 0])
v3 = Gf.Slerp(0, v1, v2)
self.assertTrue(Gf.IsClose(v3, v1, eps))
v3 = Gf.Slerp(0.25, v1, v2)
self.assertTrue(Gf.IsClose(v3, Vec(0, 0.70711, 0.70711), eps))
v3 = Gf.Slerp(0.5, v1, v2)
self.assertTrue(Gf.IsClose(v3, Vec(0, 0, 1), eps))
v3 = Gf.Slerp(0.75, v1, v2)
self.assertTrue(Gf.IsClose(v3, Vec(0, -0.70711, 0.70711), eps))
v3 = Gf.Slerp(1, v1, v2)
self.assertTrue(Gf.IsClose(v3, v3, eps))
def test_Types(self):
from usdrt import Gf
vecTypes = [
Gf.Vec2d,
Gf.Vec2f,
Gf.Vec2h,
Gf.Vec2i,
Gf.Vec3d,
Gf.Vec3f,
Gf.Vec3h,
Gf.Vec3i,
Gf.Vec4d,
Gf.Vec4f,
Gf.Vec4h,
Gf.Vec4i,
]
for Vec in vecTypes:
self.ConstructorsTest(Vec)
self.OperatorsTest(Vec)
self.MethodsTest(Vec)
def test_TupleToVec(self):
from usdrt import Gf
# Test passing tuples for vecs.
self.assertEqual(Gf.Dot((1, 1), (1, 1)), 2)
self.assertEqual(Gf.Dot((1, 1, 1), (1, 1, 1)), 3)
self.assertEqual(Gf.Dot((1, 1, 1, 1), (1, 1, 1, 1)), 4)
self.assertEqual(Gf.Dot((1.0,1.0), (1.0,1.0)), 2.0)
self.assertEqual(Gf.Dot((1.0,1.0,1.0), (1.0,1.0,1.0)), 3.0)
self.assertEqual(Gf.Dot((1.0,1.0,1.0,1.0), (1.0,1.0,1.0,1.0)), 4.0)
self.assertEqual(Gf.Vec2f((1, 1)), Gf.Vec2f(1, 1))
self.assertEqual(Gf.Vec3f((1, 1, 1)), Gf.Vec3f(1, 1, 1))
self.assertEqual(Gf.Vec4f((1, 1, 1, 1)), Gf.Vec4f(1, 1, 1, 1))
# Test passing lists for vecs.
self.assertEqual(Gf.Dot([1, 1], [1, 1]), 2)
self.assertEqual(Gf.Dot([1, 1, 1], [1, 1, 1]), 3)
self.assertEqual(Gf.Dot([1, 1, 1, 1], [1, 1, 1, 1]), 4)
self.assertEqual(Gf.Dot([1.0, 1.0], [1.0, 1.0]), 2.0)
self.assertEqual(Gf.Dot([1.0, 1.0, 1.0], [1.0, 1.0, 1.0]), 3.0)
self.assertEqual(Gf.Dot([1.0, 1.0, 1.0, 1.0], [1.0, 1.0, 1.0, 1.0]), 4.0)
self.assertEqual(Gf.Vec2f([1, 1]), Gf.Vec2f(1, 1))
self.assertEqual(Gf.Vec3f([1, 1, 1]), Gf.Vec3f(1, 1, 1))
self.assertEqual(Gf.Vec4f([1, 1, 1, 1]), Gf.Vec4f(1, 1, 1, 1))
# Test passing both for vecs.
self.assertEqual(Gf.Dot((1,1), [1,1]), 2)
self.assertEqual(Gf.Dot((1, 1, 1), (1, 1, 1)), 3)
self.assertEqual(Gf.Dot((1,1,1,1), [1,1,1,1]), 4)
self.assertEqual(Gf.Dot((1.0,1.0), [1.0,1.0]), 2.0)
self.assertEqual(Gf.Dot((1.0,1.0,1.0), [1.0,1.0,1.0]), 3.0)
self.assertEqual(Gf.Dot((1.0,1.0,1.0,1.0), [1.0,1.0,1.0,1.0]), 4.0)
self.assertEqual(Gf.Vec2f([1,1]), Gf.Vec2f(1,1))
self.assertEqual(Gf.Vec3f([1,1,1]), Gf.Vec3f(1,1,1))
self.assertEqual(Gf.Vec4f([1,1,1,1]), Gf.Vec4f(1,1,1,1))
def test_Exceptions(self):
from usdrt import Gf
with self.assertRaises(TypeError):
Gf.Dot("monkey", (1, 1))
with self.assertRaises(TypeError):
Gf.Dot("monkey", (1, 1, 1))
with self.assertRaises(TypeError):
Gf.Dot("monkey", (1, 1, 1, 1))
with self.assertRaises(TypeError):
Gf.Dot("monkey", (1.0, 1.0))
with self.assertRaises(TypeError):
Gf.Dot("monkey", (1.0, 1.0, 1.0))
with self.assertRaises(TypeError):
Gf.Dot("monkey", (1.0, 1.0, 1.0, 1.0))
with self.assertRaises(TypeError):
Gf.Dot((1, 1, 1, 1, 1, 1), (1, 1))
with self.assertRaises(TypeError):
Gf.Dot((1, 1, 1, 1, 1, 1), (1, 1, 1))
with self.assertRaises(TypeError):
Gf.Dot((1, 1, 1, 1, 1, 1), (1, 1, 1, 1))
with self.assertRaises(TypeError):
Gf.Dot((1.0, 1.0, 1.0, 1.0, 1.0, 1.0), (1.0, 1.0))
with self.assertRaises(TypeError):
Gf.Dot((1.0, 1.0, 1.0, 1.0, 1.0, 1.0), (1.0, 1.0, 1.0))
with self.assertRaises(TypeError):
Gf.Dot((1.0, 1.0, 1.0, 1.0, 1.0, 1.0), (1.0, 1.0, 1.0, 1.0))
with self.assertRaises(TypeError):
Gf.Dot(("a", "b"), (1, 1))
with self.assertRaises(TypeError):
Gf.Dot(("a", "b", "c"), (1, 1, 1))
with self.assertRaises(TypeError):
Gf.Dot(("a", "b", "c", "d"), (1, 1, 1, 1))
with self.assertRaises(TypeError):
Gf.Dot(("a", "b"), (1.0, 1.0))
with self.assertRaises(TypeError):
Gf.Dot(("a", "b", "c"), (1.0, 1.0, 1.0))
with self.assertRaises(TypeError):
Gf.Dot(("a", "b", "c", "d"), (1.0, 1.0, 1.0, 1.0))
| 23,665 | Python | 33.002874 | 110 | 0.503697 |
omniverse-code/kit/exts/usdrt.gf/python/usdrt/Gf/tests/test_gf_vec_extras.py | __copyright__ = "Copyright (c) 2022, NVIDIA CORPORATION. All rights reserved."
__license__ = """
NVIDIA CORPORATION and its licensors retain all intellectual property
and proprietary rights in and to this software, related documentation
and any modifications thereto. Any use, reproduction, disclosure or
distribution of this software and related documentation without an express
license agreement from NVIDIA CORPORATION is strictly prohibited.
"""
import omni.kit.test
import copy
import math
import os
import platform
import sys
import time
import unittest
from . import TestRtScenegraph, tc_logger, update_path_and_load_usd
def setUpModule():
# pre-load USD before anything else to prevent crash
# from weird carb conflict
# FIXME ^^^
update_path_and_load_usd()
def get_vec_info():
"""Return list of tuples of class, scalar size, item count, and format string"""
from usdrt import Gf
vec_info = [
(Gf.Vec2d, 8, 2, "d"),
(Gf.Vec2f, 4, 2, "f"),
(Gf.Vec2h, 2, 2, "e"),
(Gf.Vec2i, 4, 2, "i"),
(Gf.Vec3d, 8, 3, "d"),
(Gf.Vec3f, 4, 3, "f"),
(Gf.Vec3h, 2, 3, "e"),
(Gf.Vec3i, 4, 3, "i"),
(Gf.Vec4d, 8, 4, "d"),
(Gf.Vec4f, 4, 4, "f"),
(Gf.Vec4h, 2, 4, "e"),
(Gf.Vec4i, 4, 4, "i"),
]
return vec_info
def get_vec_numpy_types():
import numpy
import usdrt
equivalent_types = {
usdrt.Gf.Vec2d: numpy.double,
usdrt.Gf.Vec2f: numpy.single,
usdrt.Gf.Vec2h: numpy.half,
usdrt.Gf.Vec2i: numpy.int,
usdrt.Gf.Vec3d: numpy.double,
usdrt.Gf.Vec3f: numpy.single,
usdrt.Gf.Vec3h: numpy.half,
usdrt.Gf.Vec3i: numpy.int,
usdrt.Gf.Vec4d: numpy.double,
usdrt.Gf.Vec4f: numpy.single,
usdrt.Gf.Vec4h: numpy.half,
usdrt.Gf.Vec4i: numpy.int,
}
return equivalent_types
class TestGfVecBuffer(TestRtScenegraph):
"""Test buffer protocol for usdrt.Gf.Vec* classes"""
@tc_logger
def test_buffer_inspect(self):
"""Use memoryview to validate that buffer protocol is implemented"""
vec_info = get_vec_info()
test_values = [9, 8, 7, 6]
for Vec, size, count, fmt in vec_info:
v = Vec(*test_values[:count])
view = memoryview(v)
self.assertEquals(view.itemsize, size)
self.assertEquals(view.ndim, 1)
self.assertEquals(view.shape, (count,))
self.assertEquals(view.format, fmt)
self.assertEquals(view.obj, Vec(*test_values[:count]))
@tc_logger
def test_buffer_init(self):
"""Validate initialization from an array using buffer protocol"""
import array
vec_info = get_vec_info()
test_values = [9, 8, 7, 6]
for Vec, size, count, fmt in vec_info:
if fmt == "e":
# GfHalf not supported with array.array
continue
test_array = array.array(fmt, test_values[:count])
test_vec = Vec(test_array)
self.assertEquals(test_vec, Vec(*test_values[:count]))
@tc_logger
def test_buffer_init_from_pxr_type(self):
"""Validate initialization from equivalent Pixar types"""
import pxr.Gf
import usdrt
vec_info = get_vec_info()
equivalent_types = {
usdrt.Gf.Vec2d: pxr.Gf.Vec2d,
usdrt.Gf.Vec2f: pxr.Gf.Vec2f,
usdrt.Gf.Vec2h: pxr.Gf.Vec2h,
usdrt.Gf.Vec2i: pxr.Gf.Vec2i,
usdrt.Gf.Vec3d: pxr.Gf.Vec3d,
usdrt.Gf.Vec3f: pxr.Gf.Vec3f,
usdrt.Gf.Vec3h: pxr.Gf.Vec3h,
usdrt.Gf.Vec3i: pxr.Gf.Vec3i,
usdrt.Gf.Vec4d: pxr.Gf.Vec4d,
usdrt.Gf.Vec4f: pxr.Gf.Vec4f,
usdrt.Gf.Vec4h: pxr.Gf.Vec4h,
usdrt.Gf.Vec4i: pxr.Gf.Vec4i,
}
test_values = [9, 8, 7, 6]
for Vec, size, count, fmt in vec_info:
test_pxr_type = equivalent_types[Vec](test_values[:count])
# Note that in all cases pybind choses the tuple initializer and
# not the buffer initializer. Oh well.
test_vec = Vec(test_pxr_type)
self.assertEquals(test_vec, Vec(*test_values[:count]))
@tc_logger
def test_buffer_init_from_numpy_type(self):
"""Test initialization from numpy types"""
import numpy
vec_info = get_vec_info()
equivalent_types = get_vec_numpy_types()
test_values = [9, 8, 7, 6]
for Vec, size, count, fmt in vec_info:
test_numpy_type = numpy.array(test_values[:count], dtype=equivalent_types[Vec])
# Note that in all cases except half pybind choses the tuple initializer and
# not the buffer initializer. Oh well.
test_vec = Vec(test_numpy_type)
self.assertEquals(test_vec, Vec(*test_values[:count]))
@tc_logger
def test_buffer_init_wrong_type(self):
"""Verify that an exception is raised with initializing via buffer with different data type"""
import array
vec_info = get_vec_info()
test_values = [9, 8, 7, 6]
for Vec, size, count, fmt in vec_info:
if fmt in ["e"]:
# GfHalf is tricky because it will cast from any
# numeric type, which pybind too-helpfully interprets
# into a tuple of GfHalf
continue
# Here, pybind will convert arrays of similar types to tuples
# which is fine I guess but makes testing harder to validate
# type correctness with buffer support
test_array = array.array("d" if fmt == "i" else "h", test_values[:count])
with self.assertRaises(ValueError):
test_vec = Vec(test_array)
@tc_logger
def test_buffer_init_wrong_size(self):
"""Verify that an exception is raised with initializing via buffer with different data array length"""
import array
vec_info = get_vec_info()
test_values = [9, 8, 7, 6, 5]
for Vec, size, count, fmt in vec_info:
if fmt in ["e"]:
# GfHalf not supported with array.array
continue
# Here, pybind will convert arrays of similar types to tuples
# which is fine I guess but makes testing harder to validate
# type correctness with buffer support
test_array = array.array(fmt, test_values)
with self.assertRaises(ValueError):
test_vec = Vec(test_array)
@tc_logger
def test_buffer_init_wrong_dimension(self):
"""Verify that an exception is raised with initializing via buffer with different data dimensions"""
import numpy
vec_info = get_vec_info()
equivalent_types = get_vec_numpy_types()
test_values = [9, 8, 7, 6]
for Vec, size, count, fmt in vec_info:
test_array = numpy.array([test_values[:count], test_values[:count]], dtype=equivalent_types[Vec])
with self.assertRaises(ValueError):
test_vec = Vec(test_array)
class TestGfVecCopy(TestRtScenegraph):
"""Test copy and deepcopy support for Gf.Vec* classes"""
@tc_logger
def test_copy(self):
"""Test __copy__"""
vec_info = get_vec_info()
for Vec, size, count, fmt in vec_info:
x = Vec()
y = x
self.assertTrue(y is x)
y[0] = 10
self.assertEqual(x[0], 10)
z = copy.copy(y)
self.assertFalse(z is y)
y[0] = 100
self.assertEqual(z[0], 10)
@tc_logger
def test_deepcopy(self):
"""Test __deepcopy__"""
vec_info = get_vec_info()
for Vec, size, count, fmt in vec_info:
x = Vec()
y = x
self.assertTrue(y is x)
y[0] = 10
self.assertEqual(x[0], 10)
z = copy.deepcopy(y)
self.assertFalse(z is y)
y[0] = 100
self.assertEqual(z[0], 10)
class TestGfVecDebugging(TestRtScenegraph):
"""Test human readable output functions for debugging"""
@tc_logger
def test_repr_representation(self):
"""Test __repr__"""
from usdrt import Gf
test_values = [9, 8, 7, 6]
test_vec = Gf.Vec4d(test_values)
expected = "Gf.Vec4d(9.0, 8.0, 7.0, 6.0)"
self.assertEqual(repr(test_vec), expected)
| 8,512 | Python | 28.975352 | 110 | 0.574836 |
omniverse-code/kit/exts/usdrt.gf/python/usdrt/Gf/tests/__init__.py | __copyright__ = "Copyright (c) 2022, NVIDIA CORPORATION. All rights reserved."
__license__ = """
NVIDIA CORPORATION and its licensors retain all intellectual property
and proprietary rights in and to this software, related documentation
and any modifications thereto. Any use, reproduction, disclosure or
distribution of this software and related documentation without an express
license agreement from NVIDIA CORPORATION is strictly prohibited.
"""
import omni.kit.test
TestRtScenegraph = omni.kit.test.AsyncTestCase
def tc_logger(func):
"""
Print TC macros about the test when running on TC
(unneeded in kit)
"""
return func
def update_path_and_load_usd():
"""
Stub to help load USD before USDRT
(unneeded in kit)
"""
pass
from .test_gf_matrix_extras import *
from .test_gf_quat_extras import *
from .test_gf_range_extras import *
from .test_gf_vec_extras import *
from .testGfMath import *
from .testGfMatrix import *
from .testGfQuat import *
from .testGfRange import *
from .testGfRect import *
from .testGfVec import *
| 1,075 | Python | 24.023255 | 78 | 0.737674 |
omniverse-code/kit/exts/usdrt.gf/python/usdrt/Gf/tests/testGfMath.py | #!/pxrpythonsubst
#
# Copyright 2016 Pixar
#
# Licensed under the Apache License, Version 2.0 (the "Apache License")
# with the following modification; you may not use this file except in
# compliance with the Apache License and the following modification to it:
# Section 6. Trademarks. is deleted and replaced with:
#
# 6. Trademarks. This License does not grant permission to use the trade
# names, trademarks, service marks, or product names of the Licensor
# and its affiliates, except as required to comply with Section 4(c) of
# the License and to reproduce the content of the NOTICE file.
#
# You may obtain a copy of the Apache License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the Apache License with the above modification is
# distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
# KIND, either express or implied. See the Apache License for the specific
# language governing permissions and limitations under the Apache License.
#
from __future__ import division
# Note: This is just pulled directly from USD and lightly modified
# https://github.com/PixarAnimationStudios/USD/blob/release/pxr/base/gf/testenv/testGfMath.py
__copyright__ = "Copyright (c) 2022, NVIDIA CORPORATION. All rights reserved."
__license__ = """
NVIDIA CORPORATION and its licensors retain all intellectual property
and proprietary rights in and to this software, related documentation
and any modifications thereto. Any use, reproduction, disclosure or
distribution of this software and related documentation without an express
license agreement from NVIDIA CORPORATION is strictly prohibited.
"""
import math
import sys
import unittest
# In python 3 there is no type called "long", but a regular int is backed by
# a long. Fake it here so we can keep test coverage working for the types
# available in python 2, where there are separate int and long types
if sys.version_info.major >= 3:
long = int
def err(msg):
return "ERROR: " + msg + " failed"
def setUpModule():
# pre-load USD before anything else to prevent crash
# from weird carb conflict
# FIXME ^^^
try:
from . import update_path_and_load_usd
update_path_and_load_usd()
except ImportError:
# not needed in Kit
pass
try:
import omni.kit.test
TestClass = omni.kit.test.AsyncTestCase
except ImportError:
TestClass = unittest.TestCase
class TestGfMath(TestClass):
def _AssertListIsClose(self, first, second, delta=1e-6):
self.assertTrue(len(first) == len(second))
for (f, s) in zip(first, second):
self.assertAlmostEqual(f, s, delta=delta)
""" nv edit - no _HalfRoundTrip
def test_HalfRoundTrip(self):
from pxr.Gf import _HalfRoundTrip
self.assertEqual(1.0, _HalfRoundTrip(1.0))
self.assertEqual(1.0, _HalfRoundTrip(1))
self.assertEqual(2.0, _HalfRoundTrip(2))
self.assertEqual(3.0, _HalfRoundTrip(long(3)))
with self.assertRaises(TypeError):
_HalfRoundTrip([])
"""
def test_RadiansDegrees(self):
from usdrt.Gf import DegreesToRadians, RadiansToDegrees
self.assertEqual(0, RadiansToDegrees(0))
self.assertEqual(180, RadiansToDegrees(math.pi))
self.assertEqual(720, RadiansToDegrees(4 * math.pi))
self.assertEqual(0, DegreesToRadians(0))
self.assertEqual(math.pi, DegreesToRadians(180))
self.assertEqual(8 * math.pi, DegreesToRadians(4 * 360))
""" nv edit - not supporting some basic math stuff for now
def test_Sqr(self):
self.assertEqual(9, Sqr(3))
self.assertAlmostEqual(Sqr(math.sqrt(2)), 2, delta=1e-7)
self.assertEqual(5, Sqr(Vec2i(1,2)))
self.assertEqual(14, Sqr(Vec3i(1,2,3)))
self.assertEqual(5, Sqr(Vec2d(1,2)))
self.assertEqual(14, Sqr(Vec3d(1,2,3)))
self.assertEqual(30, Sqr(Vec4d(1,2,3,4)))
self.assertEqual(5, Sqr(Vec2f(1,2)))
self.assertEqual(14, Sqr(Vec3f(1,2,3)))
self.assertEqual(30, Sqr(Vec4f(1,2,3,4)))
def test_Sgn(self):
self.assertEqual(-1, Sgn(-3))
self.assertEqual(1, Sgn(3))
self.assertEqual(0, Sgn(0))
self.assertEqual(-1, Sgn(-3.3))
self.assertEqual(1, Sgn(3.3))
self.assertEqual(0, Sgn(0.0))
def test_Sqrt(self):
self.assertAlmostEqual( Sqrt(2), math.sqrt(2), delta=1e-5 )
self.assertAlmostEqual( Sqrtf(2), math.sqrt(2), delta=1e-5 )
def test_Exp(self):
self.assertAlmostEqual( Sqr(math.e), Exp(2), delta=1e-5 )
self.assertAlmostEqual( Sqr(math.e), Expf(2), delta=1e-5 )
def test_Log(self):
self.assertEqual(1, Log(math.e))
self.assertAlmostEqual(Log(Exp(math.e)), math.e, delta=1e-5)
self.assertAlmostEqual(Logf(math.e), 1, delta=1e-5)
self.assertAlmostEqual(Logf(Expf(math.e)), math.e, delta=1e-5)
def test_Floor(self):
self.assertEqual(3, Floor(3.141))
self.assertEqual(-4, Floor(-3.141))
self.assertEqual(3, Floorf(3.141))
self.assertEqual(-4, Floorf(-3.141))
def test_Ceil(self):
self.assertEqual(4, Ceil(3.141))
self.assertEqual(-3, Ceil(-3.141))
self.assertEqual(4, Ceilf(3.141))
self.assertEqual(-3, Ceilf(-3.141))
def test_Abs(self):
self.assertAlmostEqual(Abs(-3.141), 3.141, delta=1e-6)
self.assertAlmostEqual(Abs(3.141), 3.141, delta=1e-6)
self.assertAlmostEqual(Absf(-3.141), 3.141, delta=1e-6)
self.assertAlmostEqual(Absf(3.141), 3.141, delta=1e-6)
def test_Round(self):
self.assertEqual(3, Round(3.1))
self.assertEqual(4, Round(3.5))
self.assertEqual(-3, Round(-3.1))
self.assertEqual(-4, Round(-3.6))
self.assertEqual(3, Roundf(3.1))
self.assertEqual(4, Roundf(3.5))
self.assertEqual(-3, Roundf(-3.1))
self.assertEqual(-4, Roundf(-3.6))
def test_Pow(self):
self.assertEqual(16, Pow(2, 4))
self.assertEqual(16, Powf(2, 4))
def test_Clamp(self):
self.assertAlmostEqual(Clamp(3.141, 3.1, 3.2), 3.141, delta=1e-5)
self.assertAlmostEqual(Clamp(2.141, 3.1, 3.2), 3.1, delta=1e-5)
self.assertAlmostEqual(Clamp(4.141, 3.1, 3.2), 3.2, delta=1e-5)
self.assertAlmostEqual(Clampf(3.141, 3.1, 3.2), 3.141, delta=1e-5)
self.assertAlmostEqual(Clampf(2.141, 3.1, 3.2), 3.1, delta=1e-5)
self.assertAlmostEqual(Clampf(4.141, 3.1, 3.2), 3.2, delta=1e-5)
def test_Mod(self):
self.assertEqual(2, Mod(5, 3))
self.assertEqual(1, Mod(-5, 3))
self.assertEqual(2, Modf(5, 3))
self.assertEqual(1, Modf(-5, 3))
"""
""" nv edit - not supporting these for scalars
def test_Dot(self):
from usdrt.Gf import Dot
self.assertEqual(Dot(2.0, 3.0), 6.0)
self.assertEqual(Dot(-2.0, 3.0), -6.0)
def test_CompMult(self):
from usdrt.Gf import CompMult
self.assertEqual(CompMult(2.0, 3.0), 6.0)
self.assertEqual(CompMult(-2.0, 3.0), -6.0)
def test_CompDiv(self):
from usdrt.Gf import CompDiv
self.assertEqual(CompDiv(6.0, 3.0), 2.0)
self.assertEqual(CompDiv(-6.0, 3.0), -2.0)
"""
if __name__ == "__main__":
unittest.main()
| 7,375 | Python | 34.805825 | 93 | 0.650847 |
omniverse-code/kit/exts/usdrt.gf/python/usdrt/Gf/tests/test_gf_matrix_extras.py | __copyright__ = "Copyright (c) 2022, NVIDIA CORPORATION. All rights reserved."
__license__ = """
NVIDIA CORPORATION and its licensors retain all intellectual property
and proprietary rights in and to this software, related documentation
and any modifications thereto. Any use, reproduction, disclosure or
distribution of this software and related documentation without an express
license agreement from NVIDIA CORPORATION is strictly prohibited.
"""
import omni.kit.test
import copy
import math
import os
import platform
import sys
import time
import unittest
from . import TestRtScenegraph, tc_logger, update_path_and_load_usd
def setUpModule():
# pre-load USD before anything else to prevent crash
# from weird carb conflict
# FIXME ^^^
update_path_and_load_usd()
def get_mat_info():
"""Return list of tuples of class, scalar size, item count, and format string"""
from usdrt import Gf
mat_info = [
(Gf.Matrix3d, 8, 9, "d"),
(Gf.Matrix3f, 4, 9, "f"),
(Gf.Matrix4d, 8, 16, "d"),
(Gf.Matrix4f, 4, 16, "f"),
]
return mat_info
def get_mat_numpy_types():
import numpy
import usdrt
equivalent_types = {
usdrt.Gf.Matrix3d: numpy.double,
usdrt.Gf.Matrix3f: numpy.single,
usdrt.Gf.Matrix4d: numpy.double,
usdrt.Gf.Matrix4f: numpy.single,
}
return equivalent_types
class TestGfMatBuffer(TestRtScenegraph):
"""Test buffer protocol for usdrt.Gf.Matrix* classes"""
@tc_logger
def test_buffer_inspect(self):
"""Use memoryview to validate that buffer protocol is implemented"""
mat_info = get_mat_info()
test_values = [0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15]
for Mat, size, count, fmt in mat_info:
v = Mat(*test_values[:count])
view = memoryview(v)
self.assertEquals(view.itemsize, size)
self.assertEquals(view.ndim, 2)
self.assertEquals(view.shape, (math.sqrt(count), math.sqrt(count)))
self.assertEquals(view.format, fmt)
self.assertEquals(view.obj, Mat(*test_values[:count]))
@tc_logger
def test_buffer_init_from_pxr_type(self):
"""Validate initialization from equivalent Pixar types"""
import pxr.Gf
import usdrt
mat_info = get_mat_info()
equivalent_types = {
usdrt.Gf.Matrix3d: pxr.Gf.Matrix3d,
usdrt.Gf.Matrix3f: pxr.Gf.Matrix3f,
usdrt.Gf.Matrix4d: pxr.Gf.Matrix4d,
usdrt.Gf.Matrix4f: pxr.Gf.Matrix4f,
}
test_values = [0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15]
for Mat, size, count, fmt in mat_info:
test_pxr_type = equivalent_types[Mat](*test_values[:count])
test_mat = Mat(test_pxr_type)
self.assertEquals(test_mat, Mat(*test_values[:count]))
@tc_logger
def test_buffer_init_from_numpy_type(self):
"""Test initialization from numpy types"""
import numpy
mat_info = get_mat_info()
equivalent_types = get_mat_numpy_types()
test_values = [0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15]
for Mat, size, count, fmt in mat_info:
py_mat = []
stride = int(math.sqrt(count))
for i in range(stride):
py_mat.append(test_values[i * stride : i * stride + stride])
test_numpy_type = numpy.array(py_mat, dtype=equivalent_types[Mat])
test_mat = Mat(test_numpy_type)
self.assertEquals(test_mat, Mat(*test_values[:count]))
@tc_logger
def test_buffer_init_wrong_type(self):
"""Verify that an exception is raised with initializing via buffer with different data type"""
import numpy
mat_info = get_mat_info()
equivalent_types = get_mat_numpy_types()
test_values = [0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15]
for Mat, size, count, fmt in mat_info:
py_mat = []
stride = int(math.sqrt(count))
for i in range(stride):
py_mat.append(test_values[i * stride : i * stride + stride])
test_numpy_type = numpy.array(py_mat, dtype=numpy.int_)
with self.assertRaises(ValueError):
test_mat = Mat(test_numpy_type)
@tc_logger
def test_buffer_init_wrong_size(self):
"""Verify that an exception is raised with initializing via buffer with different data array length"""
import numpy
mat_info = get_mat_info()
equivalent_types = get_mat_numpy_types()
test_values = [[0, 1], [2, 3]]
for Mat, size, count, fmt in mat_info:
test_numpy_type = numpy.array(test_values, dtype=equivalent_types[Mat])
with self.assertRaises(ValueError):
test_mat = Mat(test_numpy_type)
@tc_logger
def test_buffer_init_wrong_dimension(self):
"""Verify that an exception is raised with initializing via buffer with different data dimensions"""
import numpy
mat_info = get_mat_info()
equivalent_types = get_mat_numpy_types()
test_values = [0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15]
for Mat, size, count, fmt in mat_info:
test_array = numpy.array(test_values[:count], dtype=equivalent_types[Mat])
with self.assertRaises(ValueError):
test_mat = Mat(test_array)
class TestGfMatrixGetSetItem(TestRtScenegraph):
"""Test single-item accessors for usdrt.Gf.Matrix* classes"""
@tc_logger
def test_get_item(self):
"""Validate GetArrayItem on GfMatrix"""
from usdrt import Gf
for Mat in [Gf.Matrix3d, Gf.Matrix3f, Gf.Matrix4d, Gf.Matrix4f]:
items = Mat.dimension[0] * Mat.dimension[1]
m = Mat(*[i for i in range(items)])
for i in range(items):
self.assertTrue(m.GetArrayItem(i) == i)
@tc_logger
def test_set_item(self):
"""Validate SetArrayItem on GfMatrix"""
from usdrt import Gf
for Mat in [Gf.Matrix3d, Gf.Matrix3f, Gf.Matrix4d, Gf.Matrix4f]:
m = Mat()
self.assertEqual(m, Mat(1))
items = Mat.dimension[0] * Mat.dimension[1]
expected = Mat(*[i for i in range(items)])
for i in range(items):
m.SetArrayItem(i, i)
self.assertNotEqual(m, Mat(1))
self.assertEqual(m, expected)
class TestGfMatrixCopy(TestRtScenegraph):
"""Test copy and deepcopy support for Gf.Mat* classes"""
@tc_logger
def test_copy(self):
"""Test __copy__"""
mat_info = get_mat_info()
for Mat, size, count, fmt in mat_info:
x = Mat()
y = x
self.assertTrue(y is x)
y[0, 0] = 10
self.assertEqual(x[0, 0], 10)
z = copy.copy(y)
self.assertFalse(z is y)
y[0, 0] = 100
self.assertEqual(z[0, 0], 10)
@tc_logger
def test_deepcopy(self):
"""Test __deepcopy__"""
mat_info = get_mat_info()
for Mat, size, count, fmt in mat_info:
x = Mat()
y = x
self.assertTrue(y is x)
y[0, 0] = 10
self.assertEqual(x[0, 0], 10)
z = copy.deepcopy(y)
self.assertFalse(z is y)
y[0, 0] = 100
self.assertEqual(z[0, 0], 10)
class TestGfMatrixDebugging(TestRtScenegraph):
"""Test human readable output functions for debugging"""
@tc_logger
def test_repr_representation(self):
"""Test __repr__"""
from usdrt import Gf
test_vec = Gf.Vec4d(9, 8, 7, 6)
test_matrix = Gf.Matrix4d(test_vec) # Sets matrix to diagonal form (ith element on the diagonal set to vec[i])
expected = "Gf.Matrix4d(9.0, 0.0, 0.0, 0.0, 0.0, 8.0, 0.0, 0.0, 0.0, 0.0, 7.0, 0.0, 0.0, 0.0, 0.0, 6.0)"
self.assertEqual(repr(test_matrix), expected)
class TestGfMatrixSetLookAtExtras(TestRtScenegraph):
"""More tests to validate SetLookAt"""
@tc_logger
def test_set_look_at_extras(self):
"""Test more points to ensure behavior match to Pixar implementation"""
from pxr import Gf
from usdrt import Gf as RtGf
target = [(0, 0, -20), (0, 0, -30), (0, 0, -40), (-10, 0, -40), (-20, 0, -40), (-30, 0, -40)]
eye = [(0, 0, 0), (0, 1, 0), (0, 2, 0), (0, 3, 0), (1, 3, 0), (2, 3, 0), (3, 3, 0)]
for eye_pos in eye:
for target_pos in target:
pxr_result = Gf.Matrix4d(1).SetLookAt(Gf.Vec3d(*eye_pos), Gf.Vec3d(*target_pos), Gf.Vec3d(0, 1, 0))
rt_result = RtGf.Matrix4d(1).SetLookAt(
RtGf.Vec3d(*eye_pos), RtGf.Vec3d(*target_pos), RtGf.Vec3d(0, 1, 0)
)
self.assertTrue(RtGf.IsClose(RtGf.Matrix4d(pxr_result), rt_result, 0.0001))
| 8,982 | Python | 29.763699 | 119 | 0.575707 |
omniverse-code/kit/exts/usdrt.gf/python/usdrt/Gf/tests/testGfMatrix.py | # Copyright 2016 Pixar
#
# Licensed under the Apache License, Version 2.0 (the "Apache License")
# with the following modification; you may not use this file except in
# compliance with the Apache License and the following modification to it:
# Section 6. Trademarks. is deleted and replaced with:
#
# 6. Trademarks. This License does not grant permission to use the trade
# names, trademarks, service marks, or product names of the Licensor
# and its affiliates, except as required to comply with Section 4(c) of
# the License and to reproduce the content of the NOTICE file.
#
# You may obtain a copy of the Apache License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the Apache License with the above modification is
# distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
# KIND, either express or implied. See the Apache License for the specific
# language governing permissions and limitations under the Apache License.
#
# Note: This is just pulled directly from USD and lightly modified
# https://github.com/PixarAnimationStudios/USD/blob/release/pxr/base/gf/testenv/testGfMatrix.py
from __future__ import division, print_function
__copyright__ = "Copyright (c) 2022, NVIDIA CORPORATION. All rights reserved."
__license__ = """
NVIDIA CORPORATION and its licensors retain all intellectual property
and proprietary rights in and to this software, related documentation
and any modifications thereto. Any use, reproduction, disclosure or
distribution of this software and related documentation without an express
license agreement from NVIDIA CORPORATION is strictly prohibited.
"""
import math
import sys
import unittest
##### Uncomment for better assert messages
# if 'unittest.util' in __import__('sys').modules:
# # Show full diff in self.assertEqual.
# __import__('sys').modules['unittest.util']._MAX_LENGTH = 999999999
def setUpModule():
# pre-load USD before anything else to prevent crash
# from weird carb conflict
# FIXME ^^^
try:
from . import update_path_and_load_usd
update_path_and_load_usd()
except ImportError:
# not needed in Kit
pass
try:
import omni.kit.test
TestClass = omni.kit.test.AsyncTestCase
except ImportError:
TestClass = unittest.TestCase
try:
import numpy
hasNumpy = True
except ImportError:
print("numpy not available, skipping buffer protocol tests")
hasNumpy = False
def makeValue(Value, vals):
if Value == float:
return Value(vals[0])
else:
v = Value()
for i in range(v.dimension):
v[i] = vals[i]
return v
class TestGfMatrix(TestClass):
def test_Basic(self):
from usdrt import Gf
Matrices = [ # (Gf.Matrix2d, Gf.Vec2d),
# (Gf.Matrix2f, Gf.Vec2f),
(Gf.Matrix3d, Gf.Vec3d),
(Gf.Matrix3f, Gf.Vec3f),
(Gf.Matrix4d, Gf.Vec4d),
(Gf.Matrix4f, Gf.Vec4f),
]
for (Matrix, Vec) in Matrices:
# constructors
self.assertIsInstance(Matrix(), Matrix)
self.assertIsInstance(Matrix(1), Matrix)
self.assertIsInstance(Matrix(Vec()), Matrix)
# python default constructor produces identity.
self.assertEqual(Matrix(), Matrix(1))
if hasNumpy:
# Verify population of numpy arrays.
emptyNumpyArray = numpy.empty((1, Matrix.dimension[0], Matrix.dimension[1]), dtype="float32")
emptyNumpyArray[0] = Matrix(1)
if Matrix.dimension == (2, 2):
self.assertIsInstance(Matrix(1, 2, 3, 4), Matrix)
self.assertEqual(Matrix().Set(1, 2, 3, 4), Matrix(1, 2, 3, 4))
array = numpy.array(Matrix(1, 2, 3, 4))
self.assertEqual(array.shape, (2, 2))
# XXX: Currently cannot round-trip Gf.Matrix*f through
# numpy.array
if Matrix != Gf.Matrix2f:
self.assertEqual(Matrix(array), Matrix(1, 2, 3, 4))
elif Matrix.dimension == (3, 3):
self.assertIsInstance(Matrix(1, 2, 3, 4, 5, 6, 7, 8, 9), Matrix)
self.assertEqual(Matrix().Set(1, 2, 3, 4, 5, 6, 7, 8, 9), Matrix(1, 2, 3, 4, 5, 6, 7, 8, 9))
array = numpy.array(Matrix(1, 2, 3, 4, 5, 6, 7, 8, 9))
self.assertEqual(array.shape, (3, 3))
# XXX: Currently cannot round-trip Gf.Matrix*f through
# numpy.array
if Matrix != Gf.Matrix3f:
self.assertEqual(Matrix(array), Matrix(1, 2, 3, 4, 5, 6, 7, 8, 9))
elif Matrix.dimension == (4, 4):
self.assertIsInstance(Matrix(1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16), Matrix)
self.assertEqual(
Matrix().Set(1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16),
Matrix(1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16),
)
array = numpy.array(Matrix(1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16))
self.assertEqual(array.shape, (4, 4))
# XXX: Currently cannot round-trip Gf.Matrix*f through
# numpy.array
if Matrix != Gf.Matrix4f:
self.assertEqual(Matrix(array), Matrix(1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16))
else:
self.fail()
self.assertEqual(Matrix().SetIdentity(), Matrix(1))
self.assertEqual(Matrix().SetZero(), Matrix(0))
self.assertEqual(Matrix().SetDiagonal(0), Matrix().SetZero())
self.assertEqual(Matrix().SetDiagonal(1), Matrix().SetIdentity())
def test_Comparisons(self):
from usdrt import Gf
Matrices = [(Gf.Matrix3d, Gf.Matrix3f), (Gf.Matrix4d, Gf.Matrix4f)] # (Gf.Matrix2d, Gf.Matrix2f),
for (Matrix, Matrixf) in Matrices:
# Test comparison of Matrix and Matrixf
#
size = Matrix.dimension[0] * Matrix.dimension[1]
contents = list(range(1, size + 1))
md = Matrix(*contents)
mf = Matrixf(*contents)
self.assertEqual(md, mf)
contents.reverse()
md.Set(*contents)
mf.Set(*contents)
self.assertEqual(md, mf)
# Convert to double precision floating point values
contents = [1.0 / x for x in contents]
mf.Set(*contents)
md.Set(*contents)
# These should *NOT* be equal due to roundoff errors in the floats.
self.assertNotEqual(md, mf)
def test_Other(self):
from usdrt import Gf
Matrices = [ # (Gf.Matrix2d, Gf.Vec2d),
# (Gf.Matrix2f, Gf.Vec2f),
(Gf.Matrix3d, Gf.Vec3d),
(Gf.Matrix3f, Gf.Vec3f),
(Gf.Matrix4d, Gf.Vec4d),
(Gf.Matrix4f, Gf.Vec4f),
]
for (Matrix, Vec) in Matrices:
v = Vec()
for i in range(v.dimension):
v[i] = i
m1 = Matrix().SetDiagonal(v)
m2 = Matrix(0)
for i in range(m2.dimension[0]):
m2[i, i] = i
self.assertEqual(m1, m2)
v = Vec()
for i in range(v.dimension):
v[i] = 10
self.assertEqual(Matrix().SetDiagonal(v), Matrix().SetDiagonal(10))
self.assertEqual(type(Matrix()[0]), Vec)
m = Matrix()
m[0] = makeValue(Vec, (3, 1, 4, 1))
self.assertEqual(m[0], makeValue(Vec, (3, 1, 4, 1)))
m = Matrix()
m[-1] = makeValue(Vec, (3, 1, 4, 1))
self.assertEqual(m[-1], makeValue(Vec, (3, 1, 4, 1)))
m = Matrix()
m[0, 0] = 1
m[1, 0] = 2
m[0, 1] = 3
m[1, 1] = 4
self.assertTrue(m[0, 0] == 1 and m[1, 0] == 2 and m[0, 1] == 3 and m[1, 1] == 4)
m = Matrix()
m[-1, -1] = 1
m[-2, -1] = 2
m[-1, -2] = 3
m[-2, -2] = 4
self.assertTrue(m[-1, -1] == 1 and m[-2, -1] == 2 and m[-1, -2] == 3 and m[-2, -2] == 4)
m = Matrix()
for i in range(m.dimension[0]):
for j in range(m.dimension[1]):
m[i, j] = i * m.dimension[1] + j
m = m.GetTranspose()
for i in range(m.dimension[0]):
for j in range(m.dimension[1]):
self.assertEqual(m[j, i], i * m.dimension[1] + j)
self.assertEqual(Matrix(1).GetInverse(), Matrix(1))
self.assertEqual(Matrix(4).GetInverse() * Matrix(4), Matrix(1))
# nv edit - intentionally diverge from pixar's implementation
# GetInverse for zero matrix returns zero matrix instead of max float scale matrix
# "so that multiplying by this is less likely to be catastrophic."
self.assertEqual(Matrix(0).GetInverse(), Matrix(0))
self.assertEqual(Matrix(3).GetDeterminant(), 3 ** Matrix.dimension[0])
self.assertEqual(len(Matrix()), Matrix.dimension[0])
# Test GetRow, GetRow3, GetColumn
m = Matrix(1)
for i in range(m.dimension[0]):
for j in range(m.dimension[1]):
m[i, j] = i * m.dimension[1] + j
for i in range(m.dimension[0]):
j0 = i * m.dimension[1]
self.assertEqual(m.GetRow(i), makeValue(Vec, tuple(range(j0, j0 + m.dimension[1]))))
if Matrix == Gf.Matrix4d:
self.assertEqual(m.GetRow3(i), Gf.Vec3d(j0, j0 + 1, j0 + 2))
for j in range(m.dimension[1]):
self.assertEqual(
m.GetColumn(j), makeValue(Vec, tuple(j + x * m.dimension[0] for x in range(m.dimension[0])))
)
# Test SetRow, SetRow3, SetColumn
m = Matrix(1)
for i in range(m.dimension[0]):
j0 = i * m.dimension[1]
v = makeValue(Vec, tuple(range(j0, j0 + m.dimension[1])))
m.SetRow(i, v)
self.assertEqual(v, m.GetRow(i))
m = Matrix(1)
if Matrix == Gf.Matrix4d:
for i in range(m.dimension[0]):
j0 = i * m.dimension[1]
v = Gf.Vec3d(j0, j0 + 1, j0 + 2)
m.SetRow3(i, v)
self.assertEqual(v, m.GetRow3(i))
m = Matrix(1)
for j in range(m.dimension[0]):
v = makeValue(Vec, tuple(j + x * m.dimension[0] for x in range(m.dimension[0])))
m.SetColumn(i, v)
self.assertEqual(v, m.GetColumn(i))
m = Matrix(4)
m *= Matrix(1.0 / 4)
self.assertEqual(m, Matrix(1))
m = Matrix(4)
self.assertEqual(m * Matrix(1.0 / 4), Matrix(1))
self.assertEqual(Matrix(4) * 2, Matrix(8))
self.assertEqual(2 * Matrix(4), Matrix(8))
m = Matrix(4)
m *= 2
self.assertEqual(m, Matrix(8))
m = Matrix(3)
m += Matrix(2)
self.assertEqual(m, Matrix(5))
m = Matrix(3)
m -= Matrix(2)
self.assertEqual(m, Matrix(1))
self.assertEqual(Matrix(2) + Matrix(3), Matrix(5))
self.assertEqual(Matrix(4) - Matrix(4), Matrix(0))
self.assertEqual(-Matrix(-1), Matrix(1))
self.assertEqual(Matrix(3) / Matrix(2), Matrix(3) * Matrix(2).GetInverse())
self.assertEqual(Matrix(2) * makeValue(Vec, (3, 1, 4, 1)), makeValue(Vec, (6, 2, 8, 2)))
self.assertEqual(makeValue(Vec, (3, 1, 4, 1)) * Matrix(2), makeValue(Vec, (6, 2, 8, 2)))
Vecf = {Gf.Vec2d: Gf.Vec2f, Gf.Vec3d: Gf.Vec3f, Gf.Vec4d: Gf.Vec4f}.get(Vec)
if Vecf is not None:
self.assertEqual(Matrix(2) * makeValue(Vecf, (3, 1, 4, 1)), makeValue(Vecf, (6, 2, 8, 2)))
self.assertEqual(makeValue(Vecf, (3, 1, 4, 1)) * Matrix(2), makeValue(Vecf, (6, 2, 8, 2)))
self.assertTrue(2 in Matrix(2) and not 4 in Matrix(2))
m = Matrix(1)
try:
m[m.dimension[0] + 1] = Vec()
except:
pass
else:
self.fail()
m = Matrix(1)
try:
m[m.dimension[0] + 1, m.dimension[1] + 1] = 10
except:
pass
else:
self.fail()
m = Matrix(1)
try:
m[1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1] = 3
self.fail()
except:
pass
try:
x = m[1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1]
self.fail()
except:
pass
m = Matrix(1)
try:
m["foo"] = 3
except:
pass
else:
self.fail()
self.assertEqual(m, eval(repr(m)))
self.assertTrue(len(str(Matrix())))
def test_Matrix3Transforms(self):
from usdrt import Gf
# TODO - Gf.Rotation not supported,
# so this test is currently a noop
Matrices = [ # (Gf.Matrix3d, Gf.Vec3d, Gf.Quatd),
# (Gf.Matrix3f, Gf.Vec3f, Gf.Quatf)
]
for (Matrix, Vec, Quat) in Matrices:
def _VerifyOrthonormVecs(mat):
v0 = Vec(mat[0][0], mat[0][1], mat[0][2])
v1 = Vec(mat[1][0], mat[1][1], mat[1][2])
v2 = Vec(mat[2][0], mat[2][1], mat[2][2])
self.assertTrue(
Gf.IsClose(Gf.Dot(v0, v1), 0, 0.0001)
and Gf.IsClose(Gf.Dot(v0, v2), 0, 0.0001)
and Gf.IsClose(Gf.Dot(v1, v2), 0, 0.0001)
)
m = Matrix()
m.SetRotate(Gf.Rotation(Gf.Vec3d(1, 0, 0), 30))
m2 = Matrix(m)
m_o = m.GetOrthonormalized()
self.assertEqual(m_o, m2)
m.Orthonormalize()
self.assertEqual(m, m2)
m = Matrix(3)
m_o = m.GetOrthonormalized()
# GetOrthonormalized() should not mutate m
self.assertNotEqual(m, m_o)
self.assertEqual(m_o, Matrix(1))
m.Orthonormalize()
self.assertEqual(m, Matrix(1))
m = Matrix(1, 0, 0, 1, 0, 0, 1, 0, 0)
# should print a warning
print("expect a warning about failed convergence in OrthogonalizeBasis:")
m.Orthonormalize()
m = Matrix(1, 0, 0, 1, 0, 0.0001, 0, 1, 0)
m_o = m.GetOrthonormalized()
_VerifyOrthonormVecs(m_o)
m.Orthonormalize()
_VerifyOrthonormVecs(m)
r = Matrix().SetRotate(Gf.Rotation(Gf.Vec3d(1, 0, 0), 30)).ExtractRotation()
r2 = Gf.Rotation(Gf.Vec3d(1, 0, 0), 30)
self.assertTrue(Gf.IsClose(r.axis, r2.axis, 0.0001) and Gf.IsClose(r.angle, r2.angle, 0.0001))
r = Matrix().SetRotate(Gf.Rotation(Gf.Vec3d(1, 1, 1), 60)).ExtractRotation()
r2 = Gf.Rotation(Gf.Vec3d(1, 1, 1), 60)
self.assertTrue(Gf.IsClose(r.axis, r2.axis, 0.0001) and Gf.IsClose(r.angle, r2.angle, 0.0001))
r = Matrix().SetRotate(Gf.Rotation(Gf.Vec3d(1, 1, 1), 90)).ExtractRotation()
r2 = Gf.Rotation(Gf.Vec3d(1, 1, 1), 90)
self.assertTrue(Gf.IsClose(r.axis, r2.axis, 0.0001) and Gf.IsClose(r.angle, r2.angle, 0.0001))
r = Matrix().SetRotate(Gf.Rotation(Gf.Vec3d(1, 1, 1), 120)).ExtractRotation()
r2 = Gf.Rotation(Gf.Vec3d(1, 1, 1), 120)
self.assertTrue(Gf.IsClose(r.axis, r2.axis, 0.0001) and Gf.IsClose(r.angle, r2.angle, 0.0001))
# Setting rotation using a quaternion should give the same results
# as setting a GfRotation.
rot = Gf.Rotation(Gf.Vec3d(1, 1, 1), 120)
quat = Quat(rot.GetQuaternion().GetReal(), Vec(rot.GetQuaternion().GetImaginary()))
r = Matrix().SetRotate(rot).ExtractRotation()
r2 = Matrix().SetRotate(quat).ExtractRotation()
self.assertTrue(Gf.IsClose(r.axis, r2.axis, 0.0001) and Gf.IsClose(r.angle, r2.angle, 0.0001))
self.assertEqual(Matrix().SetScale(10), Matrix(10))
m = Matrix().SetScale(Vec(1, 2, 3))
self.assertTrue(m[0, 0] == 1 and m[1, 1] == 2 and m[2, 2] == 3)
# Initializing with GfRotation should give same results as SetRotate.
r = Matrix().SetRotate(Gf.Rotation(Gf.Vec3d(1, 0, 0), 30)).ExtractRotation()
r2 = Matrix(Gf.Rotation(Gf.Vec3d(1, 0, 0), 30)).ExtractRotation()
self.assertTrue(Gf.IsClose(r.axis, r2.axis, 0.0001) and Gf.IsClose(r.angle, r2.angle, 0.0001))
# Initializing with a quaternion should give same results as SetRotate.
rot = Gf.Rotation(Gf.Vec3d(1, 1, 1), 120)
quat = Quat(rot.GetQuaternion().GetReal(), Vec(rot.GetQuaternion().GetImaginary()))
r = Matrix().SetRotate(quat).ExtractRotation()
r2 = Matrix(quat).ExtractRotation()
self.assertTrue(Gf.IsClose(r.axis, r2.axis, 0.0001) and Gf.IsClose(r.angle, r2.angle, 0.0001))
self.assertEqual(Matrix(1, 0, 0, 0, 1, 0, 0, 0, 1).GetHandedness(), 1.0)
self.assertEqual(Matrix(-1, 0, 0, 0, 1, 0, 0, 0, 1).GetHandedness(), -1.0)
self.assertEqual(Matrix(0, 0, 0, 0, 0, 0, 0, 0, 0).GetHandedness(), 0.0)
self.assertTrue(Matrix(1, 0, 0, 0, 1, 0, 0, 0, 1).IsRightHanded())
self.assertTrue(Matrix(-1, 0, 0, 0, 1, 0, 0, 0, 1).IsLeftHanded())
# Test that this does not generate a nan in the angle (bug #12744)
mx = Gf.Matrix3d(
0.999999999982236,
-5.00662622471027e-06,
2.07636574601397e-06,
5.00666175191934e-06,
1.0000000000332,
-2.19113616402155e-07,
-2.07635686422463e-06,
2.19131379884019e-07,
1,
)
r = mx.ExtractRotation()
# math.isnan won't be available until python 2.6
if sys.version_info[0] >= 2 and sys.version_info[1] >= 6:
self.assertFalse(math.isnan(r.angle))
else:
# If this fails, then r.angle is Nan. Works on linux, may not be portable.
self.assertEqual(r.angle, r.angle)
def test_Matrix4Transforms(self):
from usdrt import Gf
# nv edit - TODO support Quatd and Quatf
Matrices = [
(Gf.Matrix4d, Gf.Vec4d, Gf.Matrix3d, Gf.Vec3d), # , Gf.Quatd),
(Gf.Matrix4f, Gf.Vec4f, Gf.Matrix3f, Gf.Vec3f),
] # , Gf.Quatf)]
# for (Matrix, Vec, Matrix3, Vec3, Quat) in Matrices:
for (Matrix, Vec, Matrix3, Vec3) in Matrices:
def _VerifyOrthonormVecs(mat):
v0 = Vec3(mat[0][0], mat[0][1], mat[0][2])
v1 = Vec3(mat[1][0], mat[1][1], mat[1][2])
v2 = Vec3(mat[2][0], mat[2][1], mat[2][2])
self.assertTrue(
Gf.IsClose(Gf.Dot(v0, v1), 0, 0.0001)
and Gf.IsClose(Gf.Dot(v0, v2), 0, 0.0001)
and Gf.IsClose(Gf.Dot(v1, v2), 0, 0.0001)
)
m = Matrix()
m.SetLookAt(Vec3(1, 0, 0), Vec3(0, 0, 1), Vec3(0, 1, 0))
# nv edit - break this across multiple statements
self.assertTrue(Gf.IsClose(m[0], Vec(-0.707107, 0, 0.707107, 0), 0.0001))
self.assertTrue(Gf.IsClose(m[1], Vec(0, 1, 0, 0), 0.0001))
self.assertTrue(Gf.IsClose(m[2], Vec(-0.707107, 0, -0.707107, 0), 0.0001))
self.assertTrue(Gf.IsClose(m[3], Vec(0.707107, 0, -0.707107, 1), 0.0001))
# Transform
v = Gf.Vec3f(1, 1, 1)
v2 = Matrix(3).Transform(v)
self.assertEqual(v2, Gf.Vec3f(1, 1, 1))
self.assertEqual(type(v2), Gf.Vec3f)
v = Gf.Vec3d(1, 1, 1)
v2 = Matrix(3).Transform(v)
self.assertEqual(v2, Gf.Vec3d(1, 1, 1))
self.assertEqual(type(v2), Gf.Vec3d)
# TransformDir
v = Gf.Vec3f(1, 1, 1)
v2 = Matrix(3).TransformDir(v)
self.assertEqual(v2, Gf.Vec3f(3, 3, 3))
self.assertEqual(type(v2), Gf.Vec3f)
v = Gf.Vec3d(1, 1, 1)
v2 = Matrix(3).TransformDir(v)
self.assertEqual(v2, Gf.Vec3d(3, 3, 3))
self.assertEqual(type(v2), Gf.Vec3d)
# TransformAffine
v = Gf.Vec3f(1, 1, 1)
# nv edit - no implict conversion from tuple yet
v2 = Matrix(3).SetTranslateOnly(Vec3(1, 2, 3)).TransformAffine(v)
self.assertEqual(v2, Gf.Vec3f(4, 5, 6))
self.assertEqual(type(v2), Gf.Vec3f)
v = Gf.Vec3d(1, 1, 1)
# nv edit - no implict conversion from tuple yet
v2 = Matrix(3).SetTranslateOnly(Vec3(1, 2, 3)).TransformAffine(v)
self.assertEqual(v2, Gf.Vec3d(4, 5, 6))
self.assertEqual(type(v2), Gf.Vec3d)
# Constructor, SetRotate, and SetRotateOnly w/GfQuaternion
""" nv edit Gf.Rotation not supported
m = Matrix()
r = Gf.Rotation(Gf.Vec3d(1,0,0), 30)
quat = r.GetQuaternion()
m.SetRotate(Quat(quat.GetReal(), Vec3(quat.GetImaginary())))
m2 = Matrix(r, Vec3(0,0,0))
m_o = m.GetOrthonormalized()
self.assertEqual(m_o, m2)
m.Orthonormalize()
self.assertEqual(m, m2)
m3 = Matrix(1)
m3.SetRotateOnly(Quat(quat.GetReal(), Vec3(quat.GetImaginary())))
self.assertEqual(m2, m3)
# Constructor, SetRotate, and SetRotateOnly w/GfRotation
m = Matrix()
r = Gf.Rotation(Gf.Vec3d(1,0,0), 30)
m.SetRotate(r)
m2 = Matrix(r, Vec3(0,0,0))
m_o = m.GetOrthonormalized()
self.assertEqual(m_o, m2)
m.Orthonormalize()
self.assertEqual(m, m2)
m3 = Matrix(1)
m3.SetRotateOnly(r)
self.assertEqual(m2, m3)
# Constructor, SetRotate, and SetRotateOnly w/mx
m3d = Matrix3()
m3d.SetRotate(Gf.Rotation(Gf.Vec3d(1,0,0), 30))
m = Matrix(m3d, Vec3(0,0,0))
m2 = Matrix()
m2 = m2.SetRotate(m3d)
m3 = Matrix()
m3 = m2.SetRotateOnly(m3d)
self.assertEqual(m, m2)
self.assertEqual(m2, m3)
"""
m = Matrix().SetTranslate(Vec3(12, 13, 14)) * Matrix(3)
m.Orthonormalize()
t = Matrix().SetTranslate(m.ExtractTranslation())
mnot = m * t.GetInverse()
self.assertEqual(mnot, Matrix(1))
m = Matrix()
m.SetTranslate(Vec3(1, 2, 3))
m2 = Matrix(m)
m3 = Matrix(1)
m3.SetTranslateOnly(Vec3(1, 2, 3))
m_o = m.GetOrthonormalized()
self.assertEqual(m_o, m2)
self.assertEqual(m_o, m3)
m.Orthonormalize()
self.assertEqual(m, m2)
self.assertEqual(m, m3)
v = Vec3(11, 22, 33)
m = Matrix(1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16).SetTranslateOnly(v)
self.assertEqual(m.ExtractTranslation(), v)
# Initializing with GfRotation should give same results as SetRotate
# and SetTransform
""" nv edit TODO
r = Matrix().SetRotate(Gf.Rotation(Gf.Vec3d(1,0,0),30)).ExtractRotation()
r2 = Matrix(Gf.Rotation(Gf.Vec3d(1,0,0),30), Vec3(1,2,3)).ExtractRotation()
r3 = Matrix().SetTransform(Gf.Rotation(Gf.Vec3d(1,0,0),30), Vec3(1,2,3)).ExtractRotation()
self.assertTrue(Gf.IsClose(r.axis, r2.axis, 0.0001) and \
Gf.IsClose(r.angle, r2.angle, 0.0001))
self.assertTrue(Gf.IsClose(r3.axis, r2.axis, 0.0001) and \
Gf.IsClose(r3.angle, r2.angle, 0.0001))
# Initializing with GfRotation should give same results as
# SetRotate(quaternion) and SetTransform
rot = Gf.Rotation(Gf.Vec3d(1,0,0),30)
quat = Quat(rot.GetQuaternion().GetReal(),
Vec3(rot.GetQuaternion().GetImaginary()))
r = Matrix().SetRotate(quat).ExtractRotation()
r2 = Matrix(rot, Vec3(1,2,3)).ExtractRotation()
r3 = Matrix().SetTransform(rot, Vec3(1,2,3)).ExtractRotation()
self.assertTrue(Gf.IsClose(r.axis, r2.axis, 0.0001) and \
Gf.IsClose(r.angle, r2.angle, 0.0001))
self.assertTrue(Gf.IsClose(r3.axis, r2.axis, 0.0001) and \
Gf.IsClose(r3.angle, r2.angle, 0.0001))
# Same test w/mx instead of GfRotation
mx3d = Matrix3(Gf.Rotation(Gf.Vec3d(1,0,0),30))
r4 = Matrix().SetTransform(mx3d, Vec3(1,2,3)).ExtractRotation()
r5 = Matrix(mx3d, Vec3(1,2,3)).ExtractRotation()
self.assertTrue(Gf.IsClose(r4.axis, r2.axis, 0.0001) and \
Gf.IsClose(r4.angle, r2.angle, 0.0001))
self.assertTrue(Gf.IsClose(r4.axis, r5.axis, 0.0001) and \
Gf.IsClose(r4.angle, r5.angle, 0.0001))
# ExtractQuat() and ExtractRotation() should yield
# equivalent rotations.
m = Matrix(mx3d, Vec3(1,2,3))
r1 = m.ExtractRotation()
r2 = Gf.Rotation(m.ExtractRotationQuat())
self.assertTrue(Gf.IsClose(r1.axis, r2.axis, 0.0001) and \
Gf.IsClose(r2.angle, r2.angle, 0.0001))
m4 = Matrix(mx3d, Vec3(1,2,3)).ExtractRotationMatrix()
self.assertEqual(m4, mx3d)
"""
# Initializing with GfMatrix3d
# nv edit - dumb, not supported
# m = Matrix(1,2,3,0,4,5,6,0,7,8,9,0,10,11,12,1)
# m2 = Matrix(Matrix3(1,2,3,4,5,6,7,8,9), Vec3(10, 11, 12))
# assert(m == m2)
m = Matrix(1, 0, 0, 0, 1, 0, 0, 0, 1, 0, 0, 0, 0, 0, 0, 1)
# should print a warning - nv edit - our implementation doesn't
# print("expect a warning about failed convergence in OrthogonalizeBasis:")
m.Orthonormalize()
m = Matrix(1, 0, 0, 0, 1, 0, 0.0001, 0, 0, 1, 0, 0, 0, 0, 0, 1)
m_o = m.GetOrthonormalized()
_VerifyOrthonormVecs(m_o)
m.Orthonormalize()
_VerifyOrthonormVecs(m)
m = Matrix()
m[3, 0] = 4
m[3, 1] = 5
m[3, 2] = 6
self.assertEqual(m.ExtractTranslation(), Vec3(4, 5, 6))
self.assertEqual(Matrix(1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1).GetHandedness(), 1.0)
self.assertEqual(Matrix(-1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1).GetHandedness(), -1.0)
self.assertEqual(Matrix(0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0).GetHandedness(), 0.0)
self.assertTrue(Matrix(1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1).IsRightHanded())
self.assertTrue(Matrix(-1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1).IsLeftHanded())
# RemoveScaleShear
""" nv edit Gf.Rotation not supported
m = Matrix().SetRotate(Gf.Rotation(Gf.Vec3d(0,0,1), 45))
m = Matrix().SetScale(Vec3(3,4,2)) * m
m = Matrix().SetRotate(Gf.Rotation(Gf.Vec3d(1,0,0), -30)) * m
r = m.RemoveScaleShear()
ro = r
ro.Orthonormalize()
self.assertEqual(ro, r)
shear = Matrix(1,0,1,0, 0,1,0,0, 0,0,1,0, 0,0,0,1)
r = shear.RemoveScaleShear()
ro = r
ro.Orthonormalize()
self.assertEqual(ro, r)
m = Matrix().SetRotate(Gf.Rotation(Gf.Vec3d(0,0,1), 45))
m = Matrix().SetRotate(Gf.Rotation(Gf.Vec3d(1,0,0), -30)) * m
m = Matrix().SetRotate(Gf.Rotation(Gf.Vec3d(0,1,0), 59)) * m
r = m.RemoveScaleShear()
maxEltErr = 0
for i in range(4):
for j in range(4):
maxEltErr = max(maxEltErr, abs(r[i][j] - m[i][j]))
self.assertTrue(Gf.IsClose(maxEltErr, 0.0, 1e-5))
# IsClose
self.assertFalse(Gf.IsClose(Matrix(1), Matrix(1.0001), 1e-5))
self.assertTrue(Gf.IsClose(Matrix(1), Matrix(1.000001), 1e-5))
"""
def test_Matrix4Factoring(self):
from usdrt import Gf
""" nv edit Gf.Rotation not supported
Matrices = [(Gf.Matrix4d, Gf.Vec3d),
(Gf.Matrix4f, Gf.Vec3f)]
for (Matrix, Vec3) in Matrices:
def testFactor(m, expectSuccess, eps=None):
factor = lambda m : m.Factor()
if eps is not None:
factor = lambda m : m.Factor(eps)
(success, scaleOrientation, scale, rotation, \
translation, projection) = factor(m)
self.assertEqual(success, expectSuccess)
factorProduct = scaleOrientation * \
Matrix().SetScale(scale) * \
scaleOrientation.GetInverse() * \
rotation * \
Matrix().SetTranslate(translation) * \
projection
maxEltErr = 0
for i in range(4):
for j in range(4):
maxEltErr = max(maxEltErr, abs(factorProduct[i][j] - m[i][j]))
self.assertTrue(Gf.IsClose(maxEltErr, 0.0, 1e-5), maxEltErr)
# A rotate
m = Matrix().SetRotate(Gf.Rotation(Gf.Vec3d(1,0,0), 45))
testFactor(m,True)
# A couple of rotates
m = Matrix().SetRotate(Gf.Rotation(Gf.Vec3d(0,0,1), -45))
m = Matrix().SetRotate(Gf.Rotation(Gf.Vec3d(1,0,0), 45)) * m
testFactor(m,True)
# A scale
m = Matrix().SetScale(Vec3(3,1,4))
testFactor(m,True)
# A scale in a rotated space
m = Matrix().SetRotate(Gf.Rotation(Gf.Vec3d(0,0,1), 45))
m = Matrix().SetScale(Vec3(3,4,2)) * m
m = Matrix().SetRotate(Gf.Rotation(Gf.Vec3d(0,0,1), -45)) * m
testFactor(m,True)
# A nearly degenerate scale
if Matrix == Gf.Matrix4d:
eps = 1e-10
elif Matrix == Gf.Matrix4f:
eps = 1e-5
m = Matrix().SetScale((eps*2, 1, 1))
testFactor(m,True)
# Test with epsilon.
m = Matrix().SetScale((eps*2, 1, 1))
testFactor(m,False,eps*3)
# A singular (1) scale in a rotated space
m = Matrix().SetRotate(Gf.Rotation(Gf.Vec3d(1,1,1), Gf.Vec3d(1,0,0) ))
m = m * Matrix().SetScale(Vec3(0,1,1))
m = m * Matrix().SetRotate(Gf.Rotation(Gf.Vec3d(1,0,0), Gf.Vec3d(1,1,1) ))
testFactor(m,False)
# A singular (2) scale in a rotated space
m = Matrix().SetRotate(Gf.Rotation(Gf.Vec3d(1,1,1), Gf.Vec3d(1,0,0) ))
m = m * Matrix().SetScale(Vec3(0,0,1))
m = m * Matrix().SetRotate(Gf.Rotation(Gf.Vec3d(1,0,0), Gf.Vec3d(1,1,1) ))
testFactor(m,False)
# A scale in a sheared space
shear = Matrix(1)
shear.SetRow3(0, Vec3(1, 1, 1).GetNormalized())
m = shear.GetInverse() * Matrix().SetScale(Vec3(2,3,4)) * shear
testFactor(m,True)
# A singular (1) scale in a sheared space
shear = Matrix(1)
shear.SetRow3(0, Vec3(1, 1, 1).GetNormalized())
m = shear.GetInverse() * Matrix().SetScale(Vec3(2,0,4)) * shear
testFactor(m,False)
# A singular (2) scale in a sheared space
shear = Matrix(1)
shear.SetRow3(0, Vec3(1, 1, 1).GetNormalized())
m = shear.GetInverse() * Matrix().SetScale(Vec3(0,3,0)) * shear
testFactor(m,False)
# A scale and a rotate
m = Matrix().SetRotate(Gf.Rotation(Gf.Vec3d(0,0,1), Gf.Vec3d(1,1,-1) ))
m = Matrix().SetScale(Vec3(1,2,3)) * m
testFactor(m,True)
# A singular (1) scale and a rotate
m = Matrix().SetRotate(Gf.Rotation(Gf.Vec3d(0,0,1), Gf.Vec3d(1,1,-1) ))
m = Matrix().SetScale(Vec3(0,2,3)) * m
testFactor(m,False)
# A singular (2) scale and a rotate
m = Matrix().SetRotate(Gf.Rotation(Gf.Vec3d(0,0,1), Gf.Vec3d(1,1,-1) ))
m = Matrix().SetScale(Vec3(0,0,3)) * m
testFactor(m,False)
# A singular scale (1), rotate, translate
m = Matrix().SetTranslate(Vec3(3,1,4))
m = Matrix().SetRotate(Gf.Rotation(Gf.Vec3d(0,0,1), Gf.Vec3d(1,1,-1) )) * m
m = Matrix().SetScale(Vec3(0,2,3)) * m
testFactor(m,False)
# A translate, rotate, singular scale (1), translate
m = Matrix().SetTranslate(Vec3(3,1,4))
m = Matrix().SetRotate(Gf.Rotation(Gf.Vec3d(0,0,1), Gf.Vec3d(1,1,-1) )) * m
m = Matrix().SetScale(Vec3(0,2,3)) * m
m = Matrix().SetTranslate(Vec3(-10,-20,-30)) * m
testFactor(m,False)
"""
def test_Matrix4Determinant(self):
from usdrt import Gf
Matrices = [Gf.Matrix4d, Gf.Matrix4f]
for Matrix in Matrices:
# Test GetDeterminant and GetInverse on Matrix4
def AssertDeterminant(m, det):
# Unfortunately, we don't have an override of Gf.IsClose
# for Gf.Matrix4*
for row1, row2 in zip(m * m.GetInverse(), Matrix()):
self.assertTrue(Gf.IsClose(row1, row2, 1e-5))
self.assertTrue(Gf.IsClose(m.GetDeterminant(), det, 1e-5))
m1 = Matrix(0.0, 1.0, 0.0, 0.0, 1.0, 0.0, 0.0, 0.0, 0.0, 0.0, 1.0, 0.0, 0.0, 0.0, 0.0, 1.0)
det1 = -1.0
m2 = Matrix(0.0, 0.0, 1.0, 0.0, 0.0, 1.0, 0.0, 0.0, 1.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 1.0)
det2 = -1.0
m3 = Matrix(0.0, 0.0, 0.0, 1.0, 0.0, 1.0, 0.0, 0.0, 0.0, 0.0, 1.0, 0.0, 1.0, 0.0, 0.0, 0.0)
det3 = -1.0
m4 = Matrix(1.0, 2.0, -1.0, 3.0, 2.0, 1.0, 4.0, 5.1, 2.0, 3.0, 1.0, 6.0, 3.0, 2.0, 1.0, 1.0)
det4 = 16.8
AssertDeterminant(m1, det1)
AssertDeterminant(m2, det2)
AssertDeterminant(m3, det3)
AssertDeterminant(m4, det4)
AssertDeterminant(m1 * m1, det1 * det1)
AssertDeterminant(m1 * m4, det1 * det4)
AssertDeterminant(m1 * m3 * m4, det1 * det3 * det4)
AssertDeterminant(m1 * m3 * m4 * m2, det1 * det3 * det4 * det2)
AssertDeterminant(m2 * m3 * m4 * m2, det2 * det3 * det4 * det2)
| 35,494 | Python | 40.369464 | 118 | 0.514509 |
omniverse-code/kit/exts/usdrt.gf/python/usdrt/Gf/tests/test_gf_range_extras.py | __copyright__ = "Copyright (c) 2022, NVIDIA CORPORATION. All rights reserved."
__license__ = """
NVIDIA CORPORATION and its licensors retain all intellectual property
and proprietary rights in and to this software, related documentation
and any modifications thereto. Any use, reproduction, disclosure or
distribution of this software and related documentation without an express
license agreement from NVIDIA CORPORATION is strictly prohibited.
"""
import omni.kit.test
import copy
import math
import os
import platform
import sys
import time
import unittest
from . import TestRtScenegraph, tc_logger, update_path_and_load_usd
def setUpModule():
# pre-load USD before anything else to prevent crash
# from weird carb conflict
# FIXME ^^^
update_path_and_load_usd()
class TestGfRangeCopy(TestRtScenegraph):
"""Test copy and deepcopy support for Gf.Range* classes"""
@tc_logger
def test_copy(self):
"""Test __copy__"""
from usdrt import Gf
x = Gf.Range3d()
y = x
self.assertTrue(y is x)
y.min[0] = 10
self.assertEqual(x.min[0], 10)
z = copy.copy(y)
self.assertFalse(z is y)
y.min[0] = 100
self.assertEqual(z.min[0], 10)
x = Gf.Range2d()
y = x
self.assertTrue(y is x)
y.min[0] = 20
self.assertEqual(x.min[0], 20)
z = copy.copy(y)
self.assertFalse(z is y)
y.min[0] = 200
self.assertEqual(z.min[0], 20)
x = Gf.Range1d()
y = x
self.assertTrue(y is x)
y.min = 30
self.assertEqual(x.min, 30)
z = copy.copy(y)
self.assertFalse(z is y)
y.min = 300
self.assertEqual(z.min, 30)
@tc_logger
def test_deepcopy(self):
"""Test __deepcopy__"""
from usdrt import Gf
x = Gf.Range3d()
y = x
self.assertTrue(y is x)
y.min[0] = 10
self.assertEqual(x.min[0], 10)
z = copy.deepcopy(y)
self.assertFalse(z is y)
y.min[0] = 100
self.assertEqual(z.min[0], 10)
x = Gf.Range2d()
y = x
self.assertTrue(y is x)
y.min[0] = 20
self.assertEqual(x.min[0], 20)
z = copy.deepcopy(y)
self.assertFalse(z is y)
y.min[0] = 200
self.assertEqual(z.min[0], 20)
x = Gf.Range1d()
y = x
self.assertTrue(y is x)
y.min = 30
self.assertEqual(x.min, 30)
z = copy.deepcopy(y)
self.assertFalse(z is y)
y.min = 300
self.assertEqual(z.min, 30)
class TestGfRangeDebugging(TestRtScenegraph):
"""Test human readable output functions for debugging"""
@tc_logger
def test_repr_representation(self):
"""Test __repr__"""
from usdrt import Gf
test_min = Gf.Vec3d(1, 2, 3)
test_max = Gf.Vec3d(4, 5, 6)
test_range = Gf.Range3d(test_min, test_max)
expected = "Gf.Range3d(Gf.Vec3d(1.0, 2.0, 3.0), Gf.Vec3d(4.0, 5.0, 6.0))"
self.assertEqual(repr(test_range), expected)
| 3,099 | Python | 23.031008 | 81 | 0.579864 |
omniverse-code/kit/exts/usdrt.gf/python/usdrt/Gf/tests/testGfRange.py | #!/pxrpythonsubst
#
# Copyright 2016 Pixar
#
# Licensed under the Apache License, Version 2.0 (the "Apache License")
# with the following modification; you may not use this file except in
# compliance with the Apache License and the following modification to it:
# Section 6. Trademarks. is deleted and replaced with:
#
# 6. Trademarks. This License does not grant permission to use the trade
# names, trademarks, service marks, or product names of the Licensor
# and its affiliates, except as required to comply with Section 4(c) of
# the License and to reproduce the content of the NOTICE file.
#
# You may obtain a copy of the Apache License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the Apache License with the above modification is
# distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
# KIND, either express or implied. See the Apache License for the specific
# language governing permissions and limitations under the Apache License.
#
# Note: This is just pulled directly from USD and modified
# (we only support Gf.Range3d classes, but not Gf.Range3f, so
# these tests are updated to reflect that)
# https://github.com/PixarAnimationStudios/USD/blob/release/pxr/base/gf/testenv/testGfRange.py
import math
import sys
import unittest
##### Uncomment for better assert messages
# if 'unittest.util' in __import__('sys').modules:
# # Show full diff in self.assertEqual.
# __import__('sys').modules['unittest.util']._MAX_LENGTH = 999999999
def setUpModule():
# pre-load USD before anything else to prevent crash
# from weird carb conflict
# FIXME ^^^
try:
from . import update_path_and_load_usd
update_path_and_load_usd()
except ImportError:
# not needed in Kit
pass
try:
import omni.kit.test
TestClass = omni.kit.test.AsyncTestCase
except ImportError:
TestClass = unittest.TestCase
from usdrt import Gf
def makeValue(Value, vals):
if Value == float:
return Value(vals[0])
else:
v = Value()
for i in range(v.dimension):
v[i] = vals[i]
return v
class TestGfRange(TestClass):
Ranges = [
(Gf.Range1d, float),
(Gf.Range2d, Gf.Vec2d),
(Gf.Range3d, Gf.Vec3d),
(Gf.Range1f, float),
(Gf.Range2f, Gf.Vec2f),
(Gf.Range3f, Gf.Vec3f),
]
def runTest(self):
for Range, Value in self.Ranges:
# constructors
self.assertIsInstance(Range(), Range)
self.assertIsInstance(Range(Value(), Value()), Range)
v = makeValue(Value, [1, 2, 3, 4])
r = Range()
r.min = v
self.assertEqual(r.min, v)
r.max = v
self.assertEqual(r.max, v)
r = Range()
self.assertTrue(r.IsEmpty())
r = Range(-1)
self.assertTrue(r.IsEmpty())
v1 = makeValue(Value, [-1, -2, -3, -4])
v2 = makeValue(Value, [1, 2, 3, 4])
r = Range(v2, v1)
self.assertTrue(r.IsEmpty())
r = Range(v1, v2)
self.assertFalse(r.IsEmpty())
r.SetEmpty()
self.assertTrue(r.IsEmpty())
r = Range(v1, v2)
self.assertEqual(r.GetSize(), v2 - v1)
v1 = makeValue(Value, [-1, 1, -11, 2])
v2 = makeValue(Value, [1, 3, -10, 2])
v3 = makeValue(Value, [0, 2, -10.5, 2])
v4 = makeValue(Value, [0, 0, 0, 0])
r1 = Range(v1, v2)
self.assertEqual(r1.GetMidpoint(), v3)
r1.SetEmpty()
r2 = Range()
self.assertEqual(r1.GetMidpoint(), v4)
self.assertEqual(r2.GetMidpoint(), v4)
v1 = makeValue(Value, [-1, -2, -3, -4])
v2 = makeValue(Value, [1, 2, 3, 4])
r = Range(v1, v2)
v1 = makeValue(Value, [0, 0, 0, 0])
v2 = makeValue(Value, [2, 3, 4, 5])
self.assertTrue(r.Contains(v1))
self.assertFalse(r.Contains(v2))
v1 = makeValue(Value, [-2, -4, -6, -8])
v2 = makeValue(Value, [2, 4, 6, 8])
r1 = Range(v1, v2)
v1 = makeValue(Value, [-1, -2, -3, -4])
v2 = makeValue(Value, [1, 2, 3, 4])
r2 = Range(v1, v2)
self.assertTrue(r1.Contains(r2))
self.assertFalse(r2.Contains(r1))
v1 = makeValue(Value, [-1, -2, -3, -4])
v2 = makeValue(Value, [2, 4, 6, 8])
v3 = makeValue(Value, [-2, -4, -6, -8])
v4 = makeValue(Value, [1, 2, 3, 4])
r1 = Range(v1, v2)
r2 = Range(v3, v4)
self.assertEqual(Range.GetUnion(r1, r2), Range(v3, v2))
self.assertEqual(Range.GetIntersection(r1, r2), Range(v1, v4))
r1 = Range(v1, v2)
self.assertEqual(r1.UnionWith(r2), Range(v3, v2))
r1 = Range(v1, v2)
self.assertEqual(r1.UnionWith(v3), Range(v3, v2))
r1 = Range(v1, v2)
self.assertEqual(r1.IntersectWith(r2), Range(v1, v4))
r1 = Range(v1, v2)
v5 = makeValue(Value, [100, 100, 100, 100])
dsqr = r1.GetDistanceSquared(v5)
if Value == float:
self.assertEqual(dsqr, 9604)
elif Value.dimension == 2:
self.assertEqual(dsqr, 18820)
elif Value.dimension == 3:
self.assertEqual(dsqr, 27656)
else:
self.fail()
r1 = Range(v1, v2)
v5 = makeValue(Value, [-100, -100, -100, -100])
dsqr = r1.GetDistanceSquared(v5)
if Value == float:
self.assertEqual(dsqr, 9801)
elif Value.dimension == 2:
self.assertEqual(dsqr, 19405)
elif Value.dimension == 3:
self.assertEqual(dsqr, 28814)
else:
self.fail()
v1 = makeValue(Value, [1, 2, 3, 4])
v2 = makeValue(Value, [2, 3, 4, 5])
v3 = makeValue(Value, [3, 4, 5, 6])
v4 = makeValue(Value, [4, 5, 6, 7])
r1 = Range(v1, v2)
r2 = Range(v2, v3)
r3 = Range(v3, v4)
r4 = Range(v4, v5)
self.assertEqual(r1 + r2, Range(makeValue(Value, [3, 5, 7, 9]), makeValue(Value, [5, 7, 9, 11])))
self.assertEqual(r1 - r2, Range(makeValue(Value, [-2, -2, -2, -2]), makeValue(Value, [0, 0, 0, 0])))
self.assertEqual(r1 * 10, Range(makeValue(Value, [10, 20, 30, 40]), makeValue(Value, [20, 30, 40, 50])))
self.assertEqual(10 * r1, Range(makeValue(Value, [10, 20, 30, 40]), makeValue(Value, [20, 30, 40, 50])))
tmp = r1 / 10
self.assertTrue(
Gf.IsClose(tmp.min, makeValue(Value, [0.1, 0.2, 0.3, 0.4]), 0.00001)
and Gf.IsClose(tmp.max, makeValue(Value, [0.2, 0.3, 0.4, 0.5]), 0.00001)
)
self.assertEqual(r1, Range(makeValue(Value, [1, 2, 3, 4]), makeValue(Value, [2, 3, 4, 5])))
self.assertFalse(r1 != Range(makeValue(Value, [1, 2, 3, 4]), makeValue(Value, [2, 3, 4, 5])))
r1 = Range(v1, v2)
r2 = Range(v2, v3)
r1 += r2
self.assertEqual(r1, Range(makeValue(Value, [3, 5, 7, 9]), makeValue(Value, [5, 7, 9, 11])))
r1 = Range(v1, v2)
r1 -= r2
self.assertEqual(r1, Range(makeValue(Value, [-2, -2, -2, -2]), makeValue(Value, [0, 0, 0, 0])))
r1 = Range(v1, v2)
r1 *= 10
self.assertEqual(r1, Range(makeValue(Value, [10, 20, 30, 40]), makeValue(Value, [20, 30, 40, 50])))
r1 = Range(v1, v2)
r1 *= -10
self.assertEqual(r1, Range(makeValue(Value, [-20, -30, -40, -50]), makeValue(Value, [-10, -20, -30, -40])))
r1 = Range(v1, v2)
r1 /= 10
self.assertTrue(
Gf.IsClose(r1.min, makeValue(Value, [0.1, 0.2, 0.3, 0.4]), 0.00001)
and Gf.IsClose(r1.max, makeValue(Value, [0.2, 0.3, 0.4, 0.5]), 0.00001)
)
self.assertEqual(r1, eval(repr(r1)))
self.assertTrue(len(str(Range())))
# now test GetCorner and GetOctant for Gf.Range2f and Gf.Range2d
Ranges = [(Gf.Range2d, Gf.Vec2d), (Gf.Range2f, Gf.Vec2f)]
for Range, Value in Ranges:
rf = Range.unitSquare()
self.assertTrue(
rf.GetCorner(0) == Value(0, 0)
and rf.GetCorner(1) == Value(1, 0)
and rf.GetCorner(2) == Value(0, 1)
and rf.GetCorner(3) == Value(1, 1)
)
self.assertTrue(
rf.GetQuadrant(0) == Range(Value(0, 0), Value(0.5, 0.5))
and rf.GetQuadrant(1) == Range(Value(0.5, 0), Value(1, 0.5))
and rf.GetQuadrant(2) == Range(Value(0, 0.5), Value(0.5, 1))
and rf.GetQuadrant(3) == Range(Value(0.5, 0.5), Value(1, 1))
)
# now test GetCorner and GetOctant for Gf.Range3f and Gf.Range3d
Ranges = [(Gf.Range3d, Gf.Vec3d), (Gf.Range3f, Gf.Vec3f)]
for Range, Value in Ranges:
rf = Range.unitCube()
self.assertTrue(
rf.GetCorner(0) == Value(0, 0, 0)
and rf.GetCorner(1) == Value(1, 0, 0)
and rf.GetCorner(2) == Value(0, 1, 0)
and rf.GetCorner(3) == Value(1, 1, 0)
and rf.GetCorner(4) == Value(0, 0, 1)
and rf.GetCorner(5) == Value(1, 0, 1)
and rf.GetCorner(6) == Value(0, 1, 1)
and rf.GetCorner(7) == Value(1, 1, 1)
and rf.GetCorner(8) == Value(0, 0, 0)
)
vals = [
[(0.0, 0.0, 0.0), (0.5, 0.5, 0.5)],
[(0.5, 0.0, 0.0), (1.0, 0.5, 0.5)],
[(0.0, 0.5, 0.0), (0.5, 1.0, 0.5)],
[(0.5, 0.5, 0.0), (1.0, 1.0, 0.5)],
[(0.0, 0.0, 0.5), (0.5, 0.5, 1.0)],
[(0.5, 0.0, 0.5), (1.0, 0.5, 1.0)],
[(0.0, 0.5, 0.5), (0.5, 1.0, 1.0)],
[(0.5, 0.5, 0.5), (1.0, 1.0, 1.0)],
]
ranges = [Range(Value(v[0]), Value(v[1])) for v in vals]
for i in range(8):
self.assertEqual(rf.GetOctant(i), ranges[i])
if __name__ == "__main__":
unittest.main()
| 10,526 | Python | 34.564189 | 119 | 0.51197 |
omniverse-code/kit/exts/usdrt.gf/python/usdrt/Gf/tests/testGfQuat.py | # Copyright 2016 Pixar
#
# Licensed under the Apache License, Version 2.0 (the "Apache License")
# with the following modification; you may not use this file except in
# compliance with the Apache License and the following modification to it:
# Section 6. Trademarks. is deleted and replaced with:
#
# 6. Trademarks. This License does not grant permission to use the trade
# names, trademarks, service marks, or product names of the Licensor
# and its affiliates, except as required to comply with Section 4(c) of
# the License and to reproduce the content of the NOTICE file.
#
# You may obtain a copy of the Apache License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the Apache License with the above modification is
# distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
# KIND, either express or implied. See the Apache License for the specific
# language governing permissions and limitations under the Apache License.
#
# Note: This is just pulled directly from USD and modified
# (we only support Gf.Quat classes, but not Gf.Quaternion, so
# these tests are updated to reflect that)
# https://github.com/PixarAnimationStudios/USD/blob/release/pxr/base/gf/testenv/testGfQuaternion.py
from __future__ import division
__copyright__ = "Copyright (c) 2022, NVIDIA CORPORATION. All rights reserved."
__license__ = """
NVIDIA CORPORATION and its licensors retain all intellectual property
and proprietary rights in and to this software, related documentation
and any modifications thereto. Any use, reproduction, disclosure or
distribution of this software and related documentation without an express
license agreement from NVIDIA CORPORATION is strictly prohibited.
"""
import math
import sys
import unittest
##### Uncomment for better assert messages
# if 'unittest.util' in __import__('sys').modules:
# # Show full diff in self.assertEqual.
# __import__('sys').modules['unittest.util']._MAX_LENGTH = 999999999
def setUpModule():
# pre-load USD before anything else to prevent crash
# from weird carb conflict
# FIXME ^^^
try:
from . import update_path_and_load_usd
update_path_and_load_usd()
except ImportError:
# not needed in Kit
pass
try:
import omni.kit.test
TestClass = omni.kit.test.AsyncTestCase
except ImportError:
TestClass = unittest.TestCase
class TestGfQuaternion(TestClass):
def test_Constructors(self):
from usdrt import Gf
# self.assertIsInstance(Gf.Quaternion(), Gf.Quaternion)
# self.assertIsInstance(Gf.Quaternion(0), Gf.Quaternion)
# self.assertIsInstance(Gf.Quaternion(1, Gf.Vec3d(1,1,1)), Gf.Quaternion)
self.assertIsInstance(Gf.Quath(Gf.Quath()), Gf.Quath)
self.assertIsInstance(Gf.Quatf(Gf.Quatf()), Gf.Quatf)
self.assertIsInstance(Gf.Quatd(Gf.Quatd()), Gf.Quatd)
# Testing conversions between Quat[h,f,d]
self.assertIsInstance(Gf.Quath(Gf.Quatf()), Gf.Quath)
self.assertIsInstance(Gf.Quath(Gf.Quatd()), Gf.Quath)
self.assertIsInstance(Gf.Quatf(Gf.Quath()), Gf.Quatf)
self.assertIsInstance(Gf.Quatf(Gf.Quatd()), Gf.Quatf)
self.assertIsInstance(Gf.Quatd(Gf.Quath()), Gf.Quatd)
self.assertIsInstance(Gf.Quatd(Gf.Quatf()), Gf.Quatd)
def test_Properties(self):
from usdrt import Gf
# nv edit - use Quat classses instead of Quaternion
for Quat, Vec in ((Gf.Quatd, Gf.Vec3d), (Gf.Quatf, Gf.Vec3f), (Gf.Quath, Gf.Vec3h)):
q = Quat()
q.real = 10
self.assertEqual(q.real, 10)
q.imaginary = Vec(1, 2, 3)
self.assertEqual(q.imaginary, Vec(1, 2, 3))
def test_Methods(self):
from usdrt import Gf
# nv edit - use Quat classses instead of Quaternion
for Quat, Vec in ((Gf.Quatd, Gf.Vec3d), (Gf.Quatf, Gf.Vec3f), (Gf.Quath, Gf.Vec3h)):
q = Quat()
self.assertEqual(Quat.GetIdentity(), Quat(1, Vec()))
self.assertTrue(
Quat.GetIdentity().GetLength() == 1
and Gf.IsClose(Quat(1, Vec(2, 3, 4)).GetLength(), 5.4772255750516612, 0.00001)
)
q = Quat(1, Vec(2, 3, 4)).GetNormalized()
self.assertTrue(
Gf.IsClose(q.real, 0.182574, 0.0001)
and Gf.IsClose(q.imaginary, Vec(0.365148, 0.547723, 0.730297), 0.00001)
)
# nv edit - linalg does not support arbitrary epsilon here
# q = Quat(1,Vec(2,3,4)).GetNormalized(10)
# self.assertEqual(q, Quat.GetIdentity())
q = Quat(1, Vec(2, 3, 4))
q.Normalize()
self.assertTrue(
Gf.IsClose(q.real, 0.182574, 0.0001)
and Gf.IsClose(q.imaginary, Vec(0.365148, 0.547723, 0.730297), 0.00001)
)
# nv edit - linalg does not support arbitrary epsilon here
# q = Quat(1,Vec(2,3,4)).Normalize(10)
# self.assertEqual(q, Quat.GetIdentity())
if Quat == Gf.Quath:
# FIXME - below test does not pass for Quath:
# AssertionError: Gf.Quath(1.0, Gf.Vec3h(0.0, 0.0, 0.0)) != Gf.Quath(1.0, Gf.Vec3h(-0.0, -0.0, -0.0))
continue
q = Quat.GetIdentity()
self.assertEqual(q, q.GetInverse())
q = Quat(1, Vec(1, 2, 3))
q.Normalize()
(re, im) = (q.real, q.imaginary)
self.assertTrue(
Gf.IsClose(q.GetInverse().real, re, 0.00001) and Gf.IsClose(q.GetInverse().imaginary, -im, 0.00001)
)
def test_Operators(self):
from usdrt import Gf
# nv edit - use Quat classses instead of Quaternion
for Quat, Vec in ((Gf.Quatd, Gf.Vec3d), (Gf.Quatf, Gf.Vec3f), (Gf.Quath, Gf.Vec3h)):
q1 = Quat(1, Vec(2, 3, 4))
q2 = Quat(1, Vec(2, 3, 4))
self.assertEqual(q1, q2)
self.assertFalse(q1 != q2)
q2.real = 2
self.assertTrue(q1 != q2)
q = Quat(1, Vec(2, 3, 4)) * Quat.GetIdentity()
self.assertEqual(q, Quat(1, Vec(2, 3, 4)))
q = Quat(1, Vec(2, 3, 4))
q *= Quat.GetIdentity()
self.assertEqual(q, Quat(1, Vec(2, 3, 4)))
q *= 10
self.assertEqual(q, Quat(10, Vec(20, 30, 40)))
q = q * 10
self.assertEqual(q, Quat(100, Vec(200, 300, 400)))
q = 10 * q
self.assertEqual(q, Quat(1000, Vec(2000, 3000, 4000)))
q /= 100
self.assertEqual(q, Quat(10, Vec(20, 30, 40)))
q = q / 10
self.assertEqual(q, Quat(1, Vec(2, 3, 4)))
q += q
self.assertEqual(q, Quat(2, Vec(4, 6, 8)))
q -= Quat(1, Vec(2, 3, 4))
self.assertEqual(q, Quat(1, Vec(2, 3, 4)))
q = q + q
self.assertEqual(q, Quat(2, Vec(4, 6, 8)))
q = q - Quat(1, Vec(2, 3, 4))
self.assertEqual(q, Quat(1, Vec(2, 3, 4)))
q = q * q
self.assertEqual(q, Quat(-28, Vec(4, 6, 8)))
q1 = Quat(1, Vec(2, 3, 4)).GetNormalized()
q2 = Quat(4, Vec(3, 2, 1)).GetNormalized()
self.assertEqual(Gf.Slerp(0, q1, q2), q1)
# nv edit - these are close but not exact with our implementation
eps = 0.00001 if Quat in [Gf.Quatd, Gf.Quatf] else 0.001
# self.assertEqual(Gf.Slerp(1, q1, q2), q2)
self.assertTrue(Gf.IsClose(Gf.Slerp(1, q1, q2), q2, eps))
# self.assertEqual(Gf.Slerp(0.5, q1, q2), Quat(0.5, Vec(0.5, 0.5, 0.5)))
self.assertTrue(Gf.IsClose(Gf.Slerp(0.5, q1, q2), Quat(0.5, Vec(0.5, 0.5, 0.5)), eps))
# code coverage goodness
q1 = Quat(0, Vec(1, 1, 1))
q2 = Quat(0, Vec(-1, -1, -1))
q = Gf.Slerp(0.5, q1, q2)
self.assertTrue(Gf.IsClose(q.real, 0, 0.00001) and Gf.IsClose(q.imaginary, Vec(1, 1, 1), 0.00001))
q1 = Quat(0, Vec(1, 1, 1))
q2 = Quat(0, Vec(1, 1, 1))
q = Gf.Slerp(0.5, q1, q2)
self.assertTrue(Gf.IsClose(q.real, 0, 0.00001) and Gf.IsClose(q.imaginary, Vec(1, 1, 1), 0.00001))
self.assertEqual(q, eval(repr(q)))
self.assertTrue(len(str(Quat())))
for quatType in (Gf.Quatd, Gf.Quatf, Gf.Quath):
q1 = quatType(1, [2, 3, 4])
q2 = quatType(2, [3, 4, 5])
self.assertTrue(Gf.IsClose(Gf.Dot(q1, q2), 40, 0.00001))
if __name__ == "__main__":
unittest.main()
| 8,699 | Python | 37.157895 | 117 | 0.583975 |
omniverse-code/kit/exts/omni.kit.viewport.window/omni/kit/viewport/window/extension.py | # Copyright (c) 2021-2022, NVIDIA CORPORATION. All rights reserved.
#
# NVIDIA CORPORATION and its licensors retain all intellectual property
# and proprietary rights in and to this software, related documentation
# and any modifications thereto. Any use, reproduction, disclosure or
# distribution of this software and related documentation without an express
# license agreement from NVIDIA CORPORATION is strictly prohibited.
#
__all__ = ['ViewportExtension']
import omni.ext
import omni.kit.menu.utils
from omni.ui import Workspace
from omni.kit.menu.utils import MenuItemDescription
from .window import ViewportWindow
from .dragdrop.usd_file_drop_delegate import UsdFileDropDelegate
from .dragdrop.usd_prim_drop_delegate import UsdShadeDropDelegate
from .dragdrop.material_file_drop_delegate import MaterialFileDropDelegate
from .dragdrop.audio_file_drop_delegate import AudioFileDropDelegate
from .viewport_actions import register_actions, deregister_actions
import carb
from typing import Dict, List, Optional
DEFAULT_VIEWPORT_NAME = '/exts/omni.kit.viewport.window/startup/windowName'
DEFAULT_VIEWPORT_NO_OPEN = '/exts/omni.kit.viewport.window/startup/disableWindowOnLoad'
DEFAULT_VIEWPORT_HIDE_TAB = '/exts/omni.kit.viewport.window/startup/dockTabInvisible'
class _MenuEntry:
def __init__(self, window_name: str, open_window: bool = False, index: int = 0):
menu_label = f'{window_name} {index + 1}' # if index else window_name
self.__window_name = menu_label if index else window_name
self.__window = None
self.__menu_entry = None
self.__action_name = None
Workspace.set_show_window_fn(self.__window_name, lambda b: self.__show_window(None, b))
if open_window:
Workspace.show_window(self.__window_name)
# add actions
self.__action_name = register_actions("omni.kit.viewport.window", index, self.__show_window, self.__is_window_visible)
# add menu
if self.__action_name:
self.__menu_entry = [
MenuItemDescription(name="Viewport", sub_menu=
[MenuItemDescription(
name=f"{menu_label}",
ticked=True,
ticked_fn=self.__is_window_visible,
onclick_action=("omni.kit.viewport.window", self.__action_name),
)]
)
]
omni.kit.menu.utils.add_menu_items(self.__menu_entry, name="Window")
def __del__(self):
self.destroy()
def destroy(self):
if self.__window:
Workspace.set_show_window_fn(self.__window_name, None)
self.__window.set_visibility_changed_fn(None)
self.__window.destroy()
self.__window = None
# remove menu
if self.__menu_entry:
omni.kit.menu.utils.remove_menu_items(self.__menu_entry, name="Window")
# remove actions
if self.__action_name:
deregister_actions("omni.kit.viewport.window", self.__action_name)
def __dock_window(self):
if not self.__window:
return
settings = carb.settings.get_settings()
if bool(settings.get("/app/docks/disabled")):
return
async def wait_for_window(window_name: str, dock_name: str, position: omni.ui.DockPosition, ratio: float = 1):
dockspace = Workspace.get_window(dock_name)
window = Workspace.get_window(window_name)
if (window is None) or (dockspace is None):
frames = 3
while ((window is None) or (dockspace is None)) and frames:
await omni.kit.app.get_app().next_update_async()
dockspace = Workspace.get_window(dock_name)
window = Workspace.get_window(window_name)
frames = frames - 1
if window and dockspace:
# When docking to existing Viewport, preserve tab-visibility for both, otherwise defer to setting
if position == omni.ui.DockPosition.SAME:
dock_tab_bar_visible = not bool(settings.get(DEFAULT_VIEWPORT_HIDE_TAB))
else:
dock_tab_bar_visible = dockspace.dock_tab_bar_visible
window.deferred_dock_in(dock_name)
# Split the tab to the right
if position != omni.ui.DockPosition.SAME:
await omni.kit.app.get_app().next_update_async()
await omni.kit.app.get_app().next_update_async()
window.dock_in(dockspace, position, ratio)
# This genrally works in a variety of cases from load, re-load, and save extesnion .py file reload
# But it depends on a call order in omni.ui and registered selected_in_dock and dock_changed callbacks.
await omni.kit.app.get_app().next_update_async()
updates_enabled = window.selected_in_dock if window.docked else window.visible
window.viewport_api.updates_enabled = updates_enabled
# Set the dock-tab visible to the state of the default Viewport
window.dock_tab_bar_visible = dock_tab_bar_visible
dockspace.dock_tab_bar_visible = dock_tab_bar_visible
import asyncio
if self.__window_name == 'Viewport':
asyncio.ensure_future(wait_for_window(self.__window_name, 'Viewport', omni.ui.DockPosition.SAME))
else:
asyncio.ensure_future(wait_for_window(self.__window_name, 'Viewport', omni.ui.DockPosition.RIGHT, 0.5))
def __show_window(self, menu, visible):
if visible:
if not self.__window:
def visiblity_changed(visible):
if not visible:
self.__show_window(None, False)
self.__window = ViewportWindow(self.__window_name)
self.__window.set_visibility_changed_fn(visiblity_changed)
self.__dock_window()
self.__window.visible = True
elif self.__window:
# For now just hide the Window. May want to add a setting for a full destroy-rebuild cycle, but now
# that won't work well with the get_frame API.
if True:
self.__window.visible = False
else:
self.__window.set_visibility_changed_fn(None)
self.__window.destroy()
self.__window = None
omni.kit.menu.utils.refresh_menu_items("Window")
def __is_window_visible(self) -> bool:
return False if self.__window is None else self.__window.visible
class ViewportWindowExtension(omni.ext.IExt):
"""The Entry Point for Viewport Window
"""
def __init__(self):
self.__registered = None
self.__vp_items = None
super().__init__()
self.__extension_enabled_hooks = []
self.__extension_dependent_scenes = {}
def on_startup(self, extension_id: str):
settings = carb.settings.get_settings()
default_name = settings.get(DEFAULT_VIEWPORT_NAME) or 'Viewport'
self.__vp_items = (
_MenuEntry(default_name, not bool(settings.get(DEFAULT_VIEWPORT_NO_OPEN)), 0),
)
if True:
self.__vp_items = (
self.__vp_items[0],
_MenuEntry(f'{default_name}', False, 1),
)
self.__registered = self.__register_scenes()
self.__default_drag_handlers = (
UsdFileDropDelegate('/persistent/app/viewport/previewOnPeek'),
UsdShadeDropDelegate(),
MaterialFileDropDelegate(),
AudioFileDropDelegate()
)
def on_shutdown(self):
self.__extension_enabled_hooks = []
for vp_entry in (self.__vp_items or ()):
vp_entry.destroy()
self.__vp_items = None
self.__default_drag_handlers = None
if self.__extension_dependent_scenes:
self.__unregister_scenes(self.__extension_dependent_scenes.values())
self.__extension_dependent_scenes = None
if self.__registered:
self.__unregister_scenes(self.__registered)
self.__registered = None
from .events import set_ui_delegate
set_ui_delegate(None)
def __register_ext_dependent_scene(self, ext_name: str, loaded_exts: List[Dict], ext_manager: omni.ext.ExtensionManager,
factory_dict: Dict, other_factories: Optional[Dict] = None):
def is_extension_loaded(ext_name: str) -> bool:
for ext in loaded_exts:
if ext_name == omni.ext.get_extension_name(ext['id']):
return ext['enabled']
def extension_loaded(ext_id: str, log_msg_str: str = "Removing"):
nonlocal ext_name
# UnRegister existing first
if other_factories:
carb.log_info(f'{log_msg_str} embedded ui.scenes fallbacks for "{ext_name}"')
for factory_id, factory in other_factories.items():
self.__extension_dependent_scenes[factory_id] = None
# Register new scene types second
carb.log_info(f'Adding ui.scenes dependent on "{ext_name}"')
from omni.kit.viewport.registry import RegisterScene
self.__extension_dependent_scenes[ext_name] = [
RegisterScene(factory, factory_id) for factory_id, factory in factory_dict.items()
]
def extension_unloaded(ext_id: str):
nonlocal ext_name
# UnRegister scenes dependeing on extension first
if self.__extension_dependent_scenes.get(ext_name):
carb.log_info(f'Removing ui.scenes dependent on "{ext_name}"')
self.__extension_dependent_scenes[ext_name] = None
# Register replacement scene types second
if other_factories:
carb.log_info(f'Adding embedded ui.scenes fallbacks for "{ext_name}"')
from omni.kit.viewport.registry import RegisterScene
for factory_id, factory in other_factories.items():
self.__extension_dependent_scenes[factory_id] = RegisterScene(factory, factory_id)
if not is_extension_loaded(ext_name):
carb.log_info(f'{ext_name} is not loaded, adding extension enabled hooks')
self.__extension_enabled_hooks += [
ext_manager.subscribe_to_extension_enable(
extension_loaded,
extension_unloaded,
ext_name=ext_name,
hook_name="omni.kit.viewport.window-ext_name"
)
]
if other_factories:
extension_unloaded(ext_name)
else:
extension_loaded(ext_name, "Ignoring")
def __register_scenes(self):
# Register all of the items that use omni.ui.scene to add functionality
from omni.kit.viewport.registry import RegisterScene, RegisterViewportLayer
app = omni.kit.app.get_app_interface()
ext_mgr = app.get_extension_manager()
exts_loaded = ext_mgr.get_extensions()
registered = []
# Register the Camera manipulator (if available)
def delay_load_cam_manip(*args, **kwargs):
from .manipulator.camera import ViewportCameraManiulatorFactory
return ViewportCameraManiulatorFactory(*args, **kwargs)
self.__register_ext_dependent_scene('omni.kit.manipulator.camera', exts_loaded, ext_mgr, {
'omni.kit.viewport.window.manipulator.Camera': delay_load_cam_manip,
})
# Register the Selection manipulator (if available)
def delay_load_selection_manip(*args, **kwargs):
from .manipulator.selection import SelectionManipulatorItem
return SelectionManipulatorItem(*args, **kwargs)
self.__register_ext_dependent_scene('omni.kit.manipulator.selection', exts_loaded, ext_mgr, {
'omni.kit.viewport.window.manipulator.Selection': delay_load_selection_manip,
})
# Register the legacy Gizmo drawing (if available) or the omni.ui.scene version when not
from .scene.legacy import LegacyGridScene, LegacyLightScene, LegacyAudioScene
from .scene.scenes import SimpleGrid
self.__register_ext_dependent_scene("omni.kit.viewport.legacy_gizmos", exts_loaded, ext_mgr, {
'omni.kit.viewport.window.scene.LegacyGrid': LegacyGridScene,
'omni.kit.viewport.window.scene.LegacyLight': LegacyLightScene,
'omni.kit.viewport.window.scene.LegacyAudio': LegacyAudioScene,
}, {
'omni.kit.viewport.window.scene.SimpleGrid': SimpleGrid
})
# Register other omni.scene.ui elements
from .scene.scenes import SimpleGrid, SimpleOrigin, CameraAxisLayer
registered = [
RegisterScene(SimpleOrigin, 'omni.kit.viewport.window.scene.SimpleOrigin'),
RegisterViewportLayer(CameraAxisLayer, 'omni.kit.viewport.window.CameraAxisLayer')
]
# Register the context click menu
from .manipulator.context_menu import ViewportClickFactory
registered += [
RegisterScene(ViewportClickFactory, 'omni.kit.viewport.window.manipulator.ContextMenu')
]
# Register the Object click manipulator
from .manipulator.object_click import ObjectClickFactory
registered += [
RegisterScene(ObjectClickFactory, 'omni.kit.viewport.window.manipulator.ObjectClick')
]
# Register the HUD stats
from .stats import ViewportStatsLayer
registered.append(RegisterViewportLayer(ViewportStatsLayer, 'omni.kit.viewport.window.ViewportStats'))
# Finally register the ViewportSceneLayer
from .scene.layer import ViewportSceneLayer
registered.append(RegisterViewportLayer(ViewportSceneLayer, 'omni.kit.viewport.window.SceneLayer'))
return registered
def __unregister_scenes(self, registered):
for item in registered:
try:
item.destroy()
except Exception:
pass
| 14,266 | Python | 42.898461 | 126 | 0.614678 |
omniverse-code/kit/exts/omni.kit.viewport.window/omni/kit/viewport/window/__init__.py | from .extension import ViewportWindowExtension
# Expose our public classes for from omni.kit.viewport.window import ViewportWindow
__all__ = ['ViewportWindow']
from .window import ViewportWindow
get_viewport_window_instances = ViewportWindow.get_instances
set_viewport_window_default_style = ViewportWindow.set_default_style
| 327 | Python | 35.444441 | 83 | 0.82263 |
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